bullhead: add location api
Bug: 27973314
Change-Id: Ide14a9b93897c5d084ae382c85f1a61552dd18ac
diff --git a/location/Android.mk b/location/Android.mk
new file mode 100644
index 0000000..aa2f4b5
--- /dev/null
+++ b/location/Android.mk
@@ -0,0 +1,2 @@
+LOCAL_PATH := $(call my-dir)
+include $(call all-subdir-makefiles)
diff --git a/location/loc_api/Android.mk b/location/loc_api/Android.mk
new file mode 100644
index 0000000..24af4e4
--- /dev/null
+++ b/location/loc_api/Android.mk
@@ -0,0 +1,20 @@
+ifneq ($(BOARD_VENDOR_QCOM_GPS_LOC_API_HARDWARE),)
+
+LOCAL_PATH := $(call my-dir)
+
+#add QMI libraries for QMI targets
+QMI_BOARD_PLATFORM_LIST := msm8960
+QMI_BOARD_PLATFORM_LIST += msm8974
+QMI_BOARD_PLATFORM_LIST += msm8226
+QMI_BOARD_PLATFORM_LIST += msm8610
+QMI_BOARD_PLATFORM_LIST += apq8084
+QMI_BOARD_PLATFORM_LIST += msm8916
+QMI_BOARD_PLATFORM_LIST += msm8994
+QMI_BOARD_PLATFORM_LIST += msm8909
+QMI_BOARD_PLATFORM_LIST += msm8992
+
+ifneq (,$(filter $(QMI_BOARD_PLATFORM_LIST),$(TARGET_BOARD_PLATFORM)))
+include $(call all-subdir-makefiles)
+endif #is-board-platform-in-list
+
+endif#BOARD_VENDOR_QCOM_GPS_LOC_API_HARDWARE
diff --git a/location/loc_api/ds_api/Android.mk b/location/loc_api/ds_api/Android.mk
new file mode 100644
index 0000000..a771ad1
--- /dev/null
+++ b/location/loc_api/ds_api/Android.mk
@@ -0,0 +1,49 @@
+ifneq ($(BUILD_TINY_ANDROID),true)
+
+LOCAL_PATH := $(call my-dir)
+
+include $(CLEAR_VARS)
+
+LOCAL_MODULE := libloc_ds_api
+LOCAL_MODULE_OWNER := qcom
+LOCAL_MODULE_TAGS := optional
+
+LOCAL_SHARED_LIBRARIES := \
+ libutils \
+ libcutils \
+ libqmi_cci \
+ libqmi_csi \
+ libqmi_common_so \
+ libgps.utils \
+ libdsi_netctrl \
+ libqmiservices
+
+
+LOCAL_SRC_FILES += \
+ ds_client.c
+
+LOCAL_CFLAGS += \
+ -fno-short-enums \
+ -D_ANDROID_
+
+LOCAL_COPY_HEADERS_TO:= libloc_ds_api/
+
+LOCAL_COPY_HEADERS:= \
+ ds_client.h
+
+LOCAL_LDFLAGS += -Wl,--export-dynamic
+
+## Includes
+LOCAL_C_INCLUDES := \
+ $(TARGET_OUT_HEADERS)/libloc_eng \
+ $(TARGET_OUT_HEADERS)/qmi-framework/inc \
+ $(TARGET_OUT_HEADERS)/qmi/inc \
+ $(TARGET_OUT_HEADERS)/gps.utils \
+ $(TARGET_OUT_HEADERS)/data/inc
+
+
+LOCAL_PRELINK_MODULE := false
+
+include $(BUILD_SHARED_LIBRARY)
+
+endif # not BUILD_TINY_ANDROID
diff --git a/location/loc_api/ds_api/ds_client.c b/location/loc_api/ds_api/ds_client.c
new file mode 100644
index 0000000..e31f2af
--- /dev/null
+++ b/location/loc_api/ds_api/ds_client.c
@@ -0,0 +1,740 @@
+/* Copyright (c) 2013, The Linux Foundation. All rights reserved.
+ *
+ * Redistribution and use in source and binary forms, with or without
+ * modification, are permitted provided that the following conditions are
+ * met:
+ * * Redistributions of source code must retain the above copyright
+ * notice, this list of conditions and the following disclaimer.
+ * * Redistributions in binary form must reproduce the above
+ * copyright notice, this list of conditions and the following
+ * disclaimer in the documentation and/or other materials provided
+ * with the distribution.
+ * * Neither the name of The Linux Foundation, nor the names of its
+ * contributors may be used to endorse or promote products derived
+ * from this software without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED "AS IS" AND ANY EXPRESS OR IMPLIED
+ * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
+ * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT
+ * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS
+ * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
+ * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
+ * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
+ * BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
+ * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE
+ * OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN
+ * IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ */
+
+#define LOG_NDEBUG 0
+#define LOG_TAG "LocSvc_ds_client"
+
+#include <stdlib.h>
+#include <string.h>
+#include <stdint.h>
+#include <stdbool.h>
+#include <stddef.h>
+#include <wireless_data_service_v01.h>
+#include <utils/Log.h>
+#include <log_util.h>
+#include <loc_log.h>
+#include <qmi_client.h>
+#include <qmi_idl_lib.h>
+#include <qmi_cci_target_ext.h>
+#include <qmi_cci_target.h>
+#include <qmi_cci_common.h>
+#include <dsi_netctrl.h>
+#include <ds_client.h>
+
+#include<sys/time.h>
+
+//Timeout to wait for wds service notification from qmi
+#define DS_CLIENT_SERVICE_TIMEOUT (4000)
+//Max timeout for the service to come up
+#define DS_CLIENT_SERVICE_TIMEOUT_TOTAL (40000)
+//Timeout for the service to respond to sync msg
+#define DS_CLIENT_SYNC_MSG_TIMEOUT (5000)
+/*Request messages the WDS client can send to the WDS service*/
+typedef union
+{
+ /*Requests the service for a list of all profiles present*/
+ wds_get_profile_list_req_msg_v01 *p_get_profile_list_req;
+ /*Requests the service for a profile's settings*/
+ wds_get_profile_settings_req_msg_v01 *p_get_profile_settings_req;
+}ds_client_req_union_type;
+
+/*Response indications that are sent by the WDS service*/
+typedef union
+{
+ wds_get_profile_list_resp_msg_v01 *p_get_profile_list_resp;
+ wds_get_profile_settings_resp_msg_v01 *p_get_profile_setting_resp;
+}ds_client_resp_union_type;
+
+struct event_strings_s
+{
+ char * str;
+ dsi_net_evt_t evt;
+};
+
+struct event_strings_s event_string_tbl[DSI_EVT_MAX] =
+{
+ NAME_VAL(DSI_EVT_INVALID),
+ NAME_VAL(DSI_EVT_NET_IS_CONN),
+ NAME_VAL(DSI_EVT_NET_NO_NET),
+ NAME_VAL(DSI_EVT_PHYSLINK_DOWN_STATE),
+ NAME_VAL(DSI_EVT_PHYSLINK_UP_STATE),
+ NAME_VAL(DSI_EVT_NET_RECONFIGURED),
+ NAME_VAL(DSI_EVT_WDS_CONNECTED)
+};
+
+typedef struct
+{
+ ds_client_event_ind_cb_type event_cb;
+ void *caller_cookie;
+}ds_caller_data;
+
+typedef struct {
+ //Global dsi handle
+ dsi_hndl_t dsi_net_handle;
+ //Handle to caller's data
+ ds_caller_data caller_data;
+} ds_client_session_data;
+
+void net_ev_cb(dsi_hndl_t handle, void* user_data,
+ dsi_net_evt_t evt, dsi_evt_payload_t *payload_ptr)
+{
+ int i;
+ (void)handle;
+ (void)user_data;
+ (void)payload_ptr;
+ ds_caller_data *callback_data = (ds_caller_data *)user_data;
+
+ LOC_LOGD("%s:%d]: Enter. Callback data: %p\n", __func__, __LINE__, callback_data);
+ if(evt > DSI_EVT_INVALID && evt < DSI_EVT_MAX)
+ {
+ for(i=0;i<DSI_EVT_MAX;i++)
+ {
+ if(event_string_tbl[i].evt == evt)
+ LOC_LOGE("%s:%d]: Callback received: %s",
+ __func__, __LINE__, event_string_tbl[i].str);
+ }
+ switch(evt) {
+ case DSI_EVT_NET_IS_CONN:
+ case DSI_EVT_WDS_CONNECTED:
+ {
+ LOC_LOGD("%s:%d]: Emergency call started\n", __func__, __LINE__);
+ callback_data->event_cb(E_DS_CLIENT_DATA_CALL_CONNECTED,
+ callback_data->caller_cookie);
+ break;
+ }
+ case DSI_EVT_NET_NO_NET:
+ {
+ LOC_LOGD("%s:%d]: Emergency call stopped\n", __func__, __LINE__);
+ callback_data->event_cb(E_DS_CLIENT_DATA_CALL_DISCONNECTED,
+ callback_data->caller_cookie);
+ break;
+ }
+ default:
+ LOC_LOGD("%s:%d]: uninteresting event\n", __func__, __LINE__);
+ }
+ }
+ LOC_LOGD("%s:%d]:Exit\n", __func__, __LINE__);
+}
+
+/*This function is called to obtain a handle to the QMI WDS service*/
+static ds_client_status_enum_type
+ds_client_qmi_ctrl_point_init(qmi_client_type *p_wds_qmi_client)
+{
+ qmi_client_type wds_qmi_client, notifier = NULL;
+ ds_client_status_enum_type status = E_DS_CLIENT_SUCCESS;
+ qmi_service_info *p_service_info = NULL;
+ uint32_t num_services = 0, num_entries = 0;
+ qmi_client_error_type ret = QMI_NO_ERR;
+ unsigned char no_signal = 0;
+ qmi_client_os_params os_params;
+ int timeout = 0;
+
+ LOC_LOGD("%s:%d]:Enter\n", __func__, __LINE__);
+
+ //Get service object for QMI_WDS service
+ qmi_idl_service_object_type ds_client_service_object =
+ wds_get_service_object_v01();
+ if(ds_client_service_object == NULL) {
+ LOC_LOGE("%s:%d]: wds_get_service_object_v01 failed\n" ,
+ __func__, __LINE__);
+ status = E_DS_CLIENT_FAILURE_INTERNAL;
+ goto err;
+ }
+
+ //get service addressing information
+ ret = qmi_client_get_service_list(ds_client_service_object, NULL, NULL,
+ &num_services);
+ LOC_LOGD("%s:%d]: qmi_client_get_service_list() first try ret %d, "
+ "num_services %d]\n", __func__, __LINE__, ret, num_services);
+ if(ret != QMI_NO_ERR) {
+ //Register for service notification
+ ret = qmi_client_notifier_init(ds_client_service_object, &os_params, ¬ifier);
+ if (ret != QMI_NO_ERR) {
+ LOC_LOGE("%s:%d]: qmi_client_notifier_init failed %d\n",
+ __func__, __LINE__, ret);
+ status = E_DS_CLIENT_FAILURE_INTERNAL;
+ goto err;
+ }
+
+ do {
+ QMI_CCI_OS_SIGNAL_CLEAR(&os_params);
+ ret = qmi_client_get_service_list(ds_client_service_object, NULL,
+ NULL, &num_services);
+ if(ret != QMI_NO_ERR) {
+ QMI_CCI_OS_SIGNAL_WAIT(&os_params, DS_CLIENT_SERVICE_TIMEOUT);
+ no_signal = QMI_CCI_OS_SIGNAL_TIMED_OUT(&os_params);
+ if(!no_signal)
+ ret = qmi_client_get_service_list(ds_client_service_object, NULL,
+ NULL, &num_services);
+ }
+ timeout += DS_CLIENT_SERVICE_TIMEOUT;
+ LOC_LOGV("%s:%d]: qmi_client_get_service_list() returned ret: %d,"
+ "no_signal: %d, total timeout: %d\n", __func__, __LINE__,
+ ret, no_signal, timeout);
+ } while( (timeout < DS_CLIENT_SERVICE_TIMEOUT_TOTAL) &&
+ no_signal &&
+ (ret != QMI_NO_ERR) );
+ }
+
+ //Handle failure cases
+ if(num_services == 0 || ret != QMI_NO_ERR) {
+ if(!no_signal) {
+ LOC_LOGE("%s:%d]: qmi_client_get_service_list failed even though"
+ "service is up! Error: %d \n", __func__, __LINE__, ret);
+ status = E_DS_CLIENT_FAILURE_INTERNAL;
+ }
+ else {
+ LOC_LOGE("%s:%d]: qmi_client_get_service_list failed after retries"
+ "Error: %d \n", __func__, __LINE__, ret);
+ status = E_DS_CLIENT_FAILURE_TIMEOUT;
+ }
+ goto err;
+ }
+
+ LOC_LOGD("%s:%d]: qmi_client_get_service_list succeeded\n", __func__, __LINE__);
+
+ //Success
+ p_service_info = (qmi_service_info *)malloc(num_services * sizeof(qmi_service_info));
+ if(p_service_info == NULL) {
+ LOC_LOGE("%s:%d]: could not allocate memory for serviceInfo !!\n",
+ __func__, __LINE__);
+ status = E_DS_CLIENT_FAILURE_INTERNAL;
+ goto err;
+ }
+ num_entries = num_services;
+
+ //Populate service info
+ ret = qmi_client_get_service_list(ds_client_service_object, p_service_info,
+ &num_entries, &num_services);
+ if(ret != QMI_NO_ERR) {
+ LOC_LOGE("%s:%d]: qmi_client_get_service_list failed. ret: %d \n",
+ __func__, __LINE__, ret);
+ status = E_DS_CLIENT_FAILURE_INTERNAL;
+ goto err;
+ }
+
+ //Initialize wds_qmi_client
+ LOC_LOGD("%s:%d]: Initializing WDS client with qmi_client_init\n", __func__,
+ __LINE__);
+ ret = qmi_client_init(&p_service_info[0], ds_client_service_object,
+ NULL, NULL, NULL, &wds_qmi_client);
+ if(ret != QMI_NO_ERR) {
+ LOC_LOGE("%s:%d]: qmi_client_init Error. ret: %d\n", __func__, __LINE__, ret);
+ status = E_DS_CLIENT_FAILURE_INTERNAL;
+ goto err;
+ }
+ LOC_LOGD("%s:%d]: WDS client initialized with qmi_client_init\n", __func__,
+ __LINE__);
+
+ //Store WDS QMI client handle in the parameter passed in
+ *p_wds_qmi_client = wds_qmi_client;
+
+ status = E_DS_CLIENT_SUCCESS;
+ LOC_LOGD("%s:%d]: init success\n", __func__, __LINE__);
+
+ if(notifier)
+ qmi_client_release(notifier);
+
+err:
+ if(p_service_info)
+ free(p_service_info);
+
+ LOC_LOGD("%s:%d]:Exit\n", __func__, __LINE__);
+ return status;
+}
+
+/*This function reads the error code from within the response struct*/
+static ds_client_status_enum_type ds_client_convert_qmi_response(
+ uint32_t req_id,
+ ds_client_resp_union_type *resp_union)
+{
+ ds_client_status_enum_type ret = E_DS_CLIENT_FAILURE_GENERAL;
+ LOC_LOGD("%s:%d]:Enter\n", __func__, __LINE__);
+ switch(req_id)
+ {
+ case QMI_WDS_GET_PROFILE_LIST_REQ_V01 :
+ {
+ if(resp_union->p_get_profile_list_resp->resp.error !=
+ QMI_ERR_NONE_V01) {
+ LOC_LOGE("%s:%d]: Response error: %d", __func__, __LINE__,
+ resp_union->p_get_profile_list_resp->resp.error);
+ }
+ else
+ ret = E_DS_CLIENT_SUCCESS;
+ }
+ break;
+
+ case QMI_WDS_GET_PROFILE_SETTINGS_REQ_V01 :
+ {
+ if(resp_union->p_get_profile_setting_resp->resp.error !=
+ QMI_ERR_NONE_V01) {
+ LOC_LOGE("%s:%d]: Response error: %d", __func__, __LINE__,
+ resp_union->p_get_profile_setting_resp->resp.error);
+ }
+ else
+ ret = E_DS_CLIENT_SUCCESS;
+ }
+ break;
+
+ default:
+ LOC_LOGE("%s:%d]: Unknown request ID\n", __func__, __LINE__);
+ }
+ LOC_LOGD("%s:%d]:Exit\n", __func__, __LINE__);
+ return ret;
+}
+
+
+static ds_client_status_enum_type ds_client_send_qmi_sync_req(
+ qmi_client_type *ds_client_handle,
+ uint32_t req_id,
+ ds_client_resp_union_type *resp_union,
+ ds_client_req_union_type *req_union)
+{
+ uint32_t req_len = 0;
+ uint32_t resp_len = 0;
+ ds_client_status_enum_type ret = E_DS_CLIENT_SUCCESS;
+ qmi_client_error_type qmi_ret = QMI_NO_ERR;
+ LOC_LOGD("%s:%d]:Enter\n", __func__, __LINE__);
+ switch(req_id)
+ {
+ case QMI_WDS_GET_PROFILE_LIST_REQ_V01 :
+ {
+ req_len = sizeof(wds_get_profile_list_req_msg_v01);
+ resp_len = sizeof(wds_get_profile_list_resp_msg_v01);
+ LOC_LOGD("%s:%d]: req_id = GET_PROFILE_LIST_REQ\n",
+ __func__, __LINE__);
+ }
+ break;
+
+ case QMI_WDS_GET_PROFILE_SETTINGS_REQ_V01 :
+ {
+ req_len = sizeof(wds_get_profile_settings_req_msg_v01);
+ resp_len = sizeof(wds_get_profile_settings_resp_msg_v01);
+ LOC_LOGD("%s:%d]: req_id = GET_PROFILE_SETTINGS_REQ\n",
+ __func__, __LINE__);
+ }
+ break;
+
+ default:
+ LOC_LOGE("%s:%d]: Error unknown req_id=%d\n", __func__, __LINE__,
+ req_id);
+ ret = E_DS_CLIENT_FAILURE_INVALID_PARAMETER;
+ goto err;
+ }
+
+ LOC_LOGD("%s:%d]: req_id=%d, len = %d; resp_len= %d\n", __func__, __LINE__,
+ req_id, req_len, resp_len);
+ //Send msg through QCCI
+ qmi_ret = qmi_client_send_msg_sync(
+ *ds_client_handle,
+ req_id,
+ (void *)req_union->p_get_profile_list_req,
+ req_len,
+ (void *)resp_union->p_get_profile_list_resp,
+ resp_len,
+ DS_CLIENT_SYNC_MSG_TIMEOUT);
+ LOC_LOGD("%s:%d]: qmi_client_send_msg_sync returned: %d", __func__, __LINE__, qmi_ret);
+
+ if(qmi_ret != QMI_NO_ERR) {
+ ret = E_DS_CLIENT_FAILURE_INTERNAL;
+ goto err;
+ }
+
+ ret = ds_client_convert_qmi_response(req_id, resp_union);
+
+err:
+ LOC_LOGD("%s:%d]:Exit\n", __func__, __LINE__);
+ return ret;
+}
+
+/*This function obtains the list of supported profiles*/
+static ds_client_status_enum_type ds_client_get_profile_list(
+ qmi_client_type *ds_client_handle,
+ ds_client_resp_union_type *profile_list_resp_msg,
+ wds_profile_type_enum_v01 profile_type)
+{
+ ds_client_status_enum_type ret = E_DS_CLIENT_SUCCESS;
+ ds_client_req_union_type req_union;
+ LOC_LOGD("%s:%d]:Enter\n", __func__, __LINE__);
+
+ req_union.p_get_profile_list_req = NULL;
+ req_union.p_get_profile_list_req = (wds_get_profile_list_req_msg_v01 *)
+ calloc(1, sizeof(wds_get_profile_list_req_msg_v01));
+ if(req_union.p_get_profile_list_req == NULL) {
+ LOC_LOGE("%s:%d]: Could not allocate memory for"
+ "wds_get_profile_list_req_msg_v01\n", __func__, __LINE__);
+ goto err;
+ }
+ //Populate required members of the request structure
+ req_union.p_get_profile_list_req->profile_type_valid = 1;
+ req_union.p_get_profile_list_req->profile_type = profile_type;
+ ret = ds_client_send_qmi_sync_req(ds_client_handle,
+ QMI_WDS_GET_PROFILE_LIST_REQ_V01,
+ profile_list_resp_msg, &req_union);
+ if(ret != E_DS_CLIENT_SUCCESS) {
+ LOC_LOGE("%s:%d]: ds_client_send_qmi_req failed. ret: %d\n",
+ __func__, __LINE__, ret);
+ goto err;
+ }
+err:
+ LOC_LOGD("%s:%d]:Exit\n", __func__, __LINE__);
+ if(req_union.p_get_profile_list_req)
+ free(req_union.p_get_profile_list_req);
+ return ret;
+}
+
+/*This function obtains settings for the profile specified by
+ the profile_identifier*/
+static ds_client_status_enum_type ds_client_get_profile_settings(
+ qmi_client_type *ds_client_handle,
+ ds_client_resp_union_type *profile_settings_resp_msg,
+ wds_profile_identifier_type_v01 *profile_identifier)
+{
+ ds_client_status_enum_type ret = E_DS_CLIENT_SUCCESS;
+ ds_client_req_union_type req_union;
+
+ LOC_LOGD("%s:%d]:Enter\n", __func__, __LINE__);
+ //Since it's a union containing a pointer to a structure,
+ //following entities have the same address
+ //- req_union
+ //- req_union.p_get_profile_settings_req
+ //- req_union.p_get_profile_settings_req->profile
+ //so we can very well assign req_union = profile_identifier
+ req_union.p_get_profile_settings_req =
+ (wds_get_profile_settings_req_msg_v01 *)profile_identifier;
+ ret = ds_client_send_qmi_sync_req(ds_client_handle,
+ QMI_WDS_GET_PROFILE_SETTINGS_REQ_V01,
+ profile_settings_resp_msg, &req_union);
+ if(ret != E_DS_CLIENT_SUCCESS) {
+ LOC_LOGE("%s:%d]: ds_client_send_qmi_req failed. ret: %d\n",
+ __func__, __LINE__, ret);
+ goto err;
+ }
+err:
+ LOC_LOGD("%s:%d]:Exit\n", __func__, __LINE__);
+ return ret;
+}
+
+/*
+ Starts data call using the handle and the profile index
+*/
+ds_client_status_enum_type
+ds_client_start_call(dsClientHandleType client_handle, int profile_index, int pdp_type)
+{
+ ds_client_status_enum_type ret = E_DS_CLIENT_FAILURE_GENERAL;
+ dsi_call_param_value_t param_info;
+ dsi_hndl_t dsi_handle;
+ ds_client_session_data *ds_global_data = (ds_client_session_data *)client_handle;
+ LOC_LOGD("%s:%d]:Enter\n", __func__, __LINE__);
+ if(ds_global_data == NULL) {
+ LOC_LOGE("%s:%d]: Null callback parameter\n", __func__, __LINE__);
+ goto err;
+ }
+ dsi_handle = ds_global_data->dsi_net_handle;
+ //Set profile index as call parameter
+ param_info.buf_val = NULL;
+ param_info.num_val = profile_index;
+ dsi_set_data_call_param(dsi_handle,
+ DSI_CALL_INFO_UMTS_PROFILE_IDX,
+ ¶m_info);
+
+ //Set IP Version as call parameter
+ param_info.buf_val = NULL;
+ param_info.num_val = pdp_type;
+ dsi_set_data_call_param(dsi_handle,
+ DSI_CALL_INFO_IP_VERSION,
+ ¶m_info);
+ LOC_LOGD("%s:%d]: Starting emergency call with profile index %d; pdp_type:%d\n",
+ __func__, __LINE__, profile_index, pdp_type);
+ if(dsi_start_data_call(dsi_handle) == DSI_SUCCESS) {
+ LOC_LOGD("%s:%d]: Sent request to start data call\n",
+ __func__, __LINE__);
+ ret = E_DS_CLIENT_SUCCESS;
+ }
+ else {
+ LOC_LOGE("%s:%d]: Could not send req to start data call \n", __func__, __LINE__);
+ ret = E_DS_CLIENT_FAILURE_GENERAL;
+ goto err;
+ }
+
+err:
+ LOC_LOGD("%s:%d]:Exit\n", __func__, __LINE__);
+ return ret;
+
+}
+
+/*Function to open an emergency call. Does the following things:
+ - Obtains a handle to the WDS service
+ - Obtains a list of profiles configured in the modem
+ - Queries each profile and obtains settings to check if emergency calls
+ are supported
+ - Returns the profile index that supports emergency calls
+ - Returns handle to dsi_netctrl*/
+ds_client_status_enum_type
+ds_client_open_call(dsClientHandleType *client_handle,
+ ds_client_cb_data *callback,
+ void *caller_cookie,
+ int *profile_index,
+ int *pdp_type)
+{
+ ds_client_status_enum_type ret = E_DS_CLIENT_FAILURE_GENERAL;
+ ds_client_resp_union_type profile_list_resp_msg;
+ ds_client_resp_union_type profile_settings_resp_msg;
+ wds_profile_identifier_type_v01 profile_identifier;
+ uint32_t i=0;
+ dsi_hndl_t dsi_handle;
+ ds_client_session_data **ds_global_data = (ds_client_session_data **)client_handle;
+ unsigned char call_profile_index_found = 0;
+ uint32_t emergency_profile_index=0;
+ qmi_client_type wds_qmi_client;
+
+ profile_list_resp_msg.p_get_profile_list_resp = NULL;
+ profile_settings_resp_msg.p_get_profile_setting_resp = NULL;
+
+ LOC_LOGD("%s:%d]:Enter\n", __func__, __LINE__);
+ if(callback == NULL || ds_global_data == NULL) {
+ LOC_LOGE("%s:%d]: Null callback parameter\n", __func__, __LINE__);
+ goto err;
+ }
+
+ ret = ds_client_qmi_ctrl_point_init(&wds_qmi_client);
+ if(ret != E_DS_CLIENT_SUCCESS) {
+ LOC_LOGE("%s:%d]: ds_client_qmi_ctrl_point_init failed. ret: %d\n",
+ __func__, __LINE__, ret);
+ goto err;
+ }
+
+ //Allocate memory for the response msg to obtain a list of profiles
+ profile_list_resp_msg.p_get_profile_list_resp = (wds_get_profile_list_resp_msg_v01 *)
+ calloc(1, sizeof(wds_get_profile_list_resp_msg_v01));
+ if(profile_list_resp_msg.p_get_profile_list_resp == NULL) {
+ LOC_LOGE("%s:%d]: Could not allocate memory for"
+ "p_get_profile_list_resp\n", __func__, __LINE__);
+ ret = E_DS_CLIENT_FAILURE_NOT_ENOUGH_MEMORY;
+ goto err;
+ }
+
+ LOC_LOGD("%s:%d]: Getting profile list\n", __func__, __LINE__);
+ ret = ds_client_get_profile_list(&wds_qmi_client,
+ &profile_list_resp_msg,
+ WDS_PROFILE_TYPE_3GPP_V01);
+ if(ret != E_DS_CLIENT_SUCCESS) {
+ LOC_LOGE("%s:%d]: ds_client_get_profile_list failed. ret: %d\n",
+ __func__, __LINE__, ret);
+ goto err;
+ }
+ LOC_LOGD("%s:%d]: Got profile list; length = %d\n", __func__, __LINE__,
+ profile_list_resp_msg.p_get_profile_list_resp->profile_list_len);
+
+ //Allocate memory for the response msg to obtain profile settings
+ //We allocate memory for only one response msg and keep re-using it
+ profile_settings_resp_msg.p_get_profile_setting_resp =
+ (wds_get_profile_settings_resp_msg_v01 *)
+ calloc(1, sizeof(wds_get_profile_settings_resp_msg_v01));
+ if(profile_settings_resp_msg.p_get_profile_setting_resp == NULL) {
+ LOC_LOGE("%s:%d]: Could not allocate memory for"
+ "p_get_profile_setting_resp\n", __func__, __LINE__);
+ ret = E_DS_CLIENT_FAILURE_NOT_ENOUGH_MEMORY;
+ goto err;
+ }
+
+ //Loop over the list of profiles to find a profile that supports
+ //emergency calls
+ for(i=0; i < profile_list_resp_msg.p_get_profile_list_resp->profile_list_len; i++) {
+ /*QMI_WDS_GET_PROFILE_SETTINGS_REQ requires an input data
+ structure that is of type wds_profile_identifier_type_v01
+ We have to fill that structure for each profile from the
+ info obtained from the profile list*/
+ //copy profile type
+ profile_identifier.profile_type =
+ profile_list_resp_msg.p_get_profile_list_resp->profile_list[i].profile_type;
+ //copy profile index
+ profile_identifier.profile_index =
+ profile_list_resp_msg.p_get_profile_list_resp->profile_list[i].profile_index;
+
+ ret = ds_client_get_profile_settings(&wds_qmi_client,
+ &profile_settings_resp_msg,
+ &profile_identifier);
+ if(ret != E_DS_CLIENT_SUCCESS) {
+ LOC_LOGE("%s:%d]: ds_client_get_profile_settings failed. ret: %d\n",
+ __func__, __LINE__, ret);
+ goto err;
+ }
+ LOC_LOGD("%s:%d]: Got profile setting for profile %d; name: %s\n",
+ __func__, __LINE__, i,
+ profile_settings_resp_msg.p_get_profile_setting_resp->profile_name);
+
+ if(profile_settings_resp_msg.p_get_profile_setting_resp->support_emergency_calls_valid) {
+ if(profile_settings_resp_msg.p_get_profile_setting_resp->support_emergency_calls) {
+ LOC_LOGD("%s:%d]: Found emergency profile in profile %d"
+ , __func__, __LINE__, i);
+ call_profile_index_found = 1;
+ emergency_profile_index = profile_identifier.profile_index;
+
+ if(profile_settings_resp_msg.p_get_profile_setting_resp->pdp_type_valid) {
+ *pdp_type = (int)profile_settings_resp_msg.p_get_profile_setting_resp->pdp_type;
+ LOC_LOGD("%s:%d]: pdp_type: %d\n", __func__, __LINE__, *pdp_type);
+ switch(*pdp_type) {
+ case WDS_PDP_TYPE_PDP_IPV4_V01:
+ *pdp_type = DSI_IP_VERSION_4;
+ break;
+ case WDS_PDP_TYPE_PDP_IPV6_V01:
+ *pdp_type = DSI_IP_VERSION_6;
+ break;
+ case WDS_PDP_TYPE_PDP_IPV4V6_V01:
+ *pdp_type = DSI_IP_VERSION_4_6;
+ break;
+ default:
+ LOC_LOGE("%s:%d]: pdp_type unknown. Setting default as ipv4/v6\n",
+ __func__, __LINE__);
+ *pdp_type = DSI_IP_VERSION_4;
+
+ }
+ }
+ else {
+ LOC_LOGD("%s:%d]: pdp type not valid in profile setting. Default ipv4\n",
+ __func__, __LINE__);
+ *pdp_type = DSI_IP_VERSION_4;
+ }
+ //Break out of for loop since we found the emergency profile
+ break;
+ }
+ else
+ LOC_LOGE("%s:%d]: Emergency profile valid but not supported in profile: %d "
+ , __func__, __LINE__, i);
+ }
+ //Since this struct is loaded with settings for the next profile,
+ //it is important to clear out the memory to avoid values/flags
+ //from being carried over
+ memset((void *)profile_settings_resp_msg.p_get_profile_setting_resp,
+ 0, sizeof(wds_get_profile_settings_resp_msg_v01));
+ }
+
+ //Release qmi client handle
+ if(qmi_client_release(wds_qmi_client) != QMI_NO_ERR) {
+ LOC_LOGE("%s:%d]: Could not release qmi client handle\n",
+ __func__, __LINE__);
+ ret = E_DS_CLIENT_FAILURE_GENERAL;
+ }
+
+ if(call_profile_index_found) {
+ *profile_index = emergency_profile_index;
+ *ds_global_data = (ds_client_session_data *)calloc(1, sizeof(ds_client_session_data));
+ if(*ds_global_data == NULL) {
+ LOC_LOGE("%s:%d]: Could not allocate memory for ds_global_data. Failing\n",
+ __func__, __LINE__);
+ ret = E_DS_CLIENT_FAILURE_NOT_ENOUGH_MEMORY;
+ goto err;
+ }
+
+ (*ds_global_data)->caller_data.event_cb = callback->event_cb;
+ (*ds_global_data)->caller_data.caller_cookie = caller_cookie;
+ dsi_handle = dsi_get_data_srvc_hndl(net_ev_cb, &(*ds_global_data)->caller_data);
+ if(dsi_handle == NULL) {
+ LOC_LOGE("%s:%d]: Could not get data handle. Retry Later\n",
+ __func__, __LINE__);
+ ret = E_DS_CLIENT_RETRY_LATER;
+ goto err;
+ }
+ else
+ (*ds_global_data)->dsi_net_handle = dsi_handle;
+ }
+ else {
+ LOC_LOGE("%s:%d]: Could not find a profile that supports emergency calls",
+ __func__, __LINE__);
+ ret = E_DS_CLIENT_FAILURE_GENERAL;
+ }
+err:
+ if(profile_list_resp_msg.p_get_profile_list_resp)
+ free(profile_list_resp_msg.p_get_profile_list_resp);
+ if(profile_settings_resp_msg.p_get_profile_setting_resp)
+ free(profile_settings_resp_msg.p_get_profile_setting_resp);
+ LOC_LOGD("%s:%d]:Exit\n", __func__, __LINE__);
+ return ret;
+}
+
+ds_client_status_enum_type ds_client_stop_call(dsClientHandleType client_handle)
+{
+ ds_client_status_enum_type ret = E_DS_CLIENT_SUCCESS;
+ ds_client_session_data *p_ds_global_data = (ds_client_session_data *)client_handle;
+ LOC_LOGD("%s:%d]:Enter\n", __func__, __LINE__);
+
+ if(client_handle == NULL) {
+ LOC_LOGE("%s:%d]: Null argument received. Failing\n", __func__, __LINE__);
+ ret = E_DS_CLIENT_FAILURE_GENERAL;
+ goto err;
+ }
+
+ if(dsi_stop_data_call(p_ds_global_data->dsi_net_handle) == DSI_SUCCESS) {
+ LOC_LOGD("%s:%d]: Sent request to stop data call\n", __func__, __LINE__);
+ }
+ else {
+ LOC_LOGE("%s:%d]: Could not send request to stop data call\n",
+ __func__, __LINE__);
+ ret = E_DS_CLIENT_FAILURE_GENERAL;
+ goto err;
+ }
+
+err:
+ LOC_LOGD("%s:%d]:Exit\n", __func__, __LINE__);
+ return ret;
+}
+
+/*
+ Stops data call associated with the data handle
+*/
+void ds_client_close_call(dsClientHandleType *client_handle)
+{
+ ds_client_session_data **ds_global_data = (ds_client_session_data **)client_handle;
+ LOC_LOGD("%s:%d]:Enter\n", __func__, __LINE__);
+ if(client_handle == NULL || *client_handle == NULL) {
+ LOC_LOGE("%s:%d]: Null argument received. Failing\n", __func__, __LINE__);
+ goto err;
+ }
+ dsi_rel_data_srvc_hndl((*ds_global_data)->dsi_net_handle);
+ (*ds_global_data)->dsi_net_handle = NULL;
+ free(*ds_global_data);
+ *ds_global_data = NULL;
+ LOC_LOGD("%s:%d]: Released Data handle\n", __func__, __LINE__);
+err:
+ LOC_LOGD("%s:%d]:Exit\n", __func__, __LINE__);
+ return;
+}
+
+int ds_client_init()
+{
+ int ret = 0;
+ LOC_LOGD("%s:%d]:Enter\n", __func__, __LINE__);
+ if(DSI_SUCCESS != dsi_init(DSI_MODE_GENERAL))
+ {
+ LOC_LOGE("%s:%d]:dsi_init failed\n", __func__, __LINE__);
+ ret = -1;
+ }
+ LOC_LOGD("%s:%d]:Exit\n", __func__, __LINE__);
+ return ret;
+}
diff --git a/location/loc_api/ds_api/ds_client.h b/location/loc_api/ds_api/ds_client.h
new file mode 100644
index 0000000..71ec770
--- /dev/null
+++ b/location/loc_api/ds_api/ds_client.h
@@ -0,0 +1,144 @@
+/* Copyright (c) 2013, The Linux Foundation. All rights reserved.
+ *
+ * Redistribution and use in source and binary forms, with or without
+ * modification, are permitted provided that the following conditions are
+ * met:
+ * * Redistributions of source code must retain the above copyright
+ * notice, this list of conditions and the following disclaimer.
+ * * Redistributions in binary form must reproduce the above
+ * copyright notice, this list of conditions and the following
+ * disclaimer in the documentation and/or other materials provided
+ * with the distribution.
+ * * Neither the name of The Linux Foundation, nor the names of its
+ * contributors may be used to endorse or promote products derived
+ * from this software without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED "AS IS" AND ANY EXPRESS OR IMPLIED
+ * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
+ * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT
+ * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS
+ * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
+ * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
+ * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
+ * BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
+ * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE
+ * OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN
+ * IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ */
+
+#ifndef _DS_CLIENT_H_
+#define _DS_CLIENT_H_
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+typedef void* dsClientHandleType;
+
+typedef enum
+{
+ E_DS_CLIENT_SUCCESS = 0,
+ /**< Request was successful. */
+
+ E_DS_CLIENT_FAILURE_GENERAL = 1,
+ /**< Failed because of a general failure. */
+
+ E_DS_CLIENT_FAILURE_UNSUPPORTED = 2,
+ /**< Failed because the service does not support the command. */
+
+ E_DS_CLIENT_FAILURE_INVALID_PARAMETER = 3,
+ /**< Failed because the request contained invalid parameters. */
+
+ E_DS_CLIENT_FAILURE_ENGINE_BUSY = 4,
+ /**< Failed because the engine is busy. */
+
+ E_DS_CLIENT_FAILURE_PHONE_OFFLINE = 5,
+ /**< Failed because the phone is offline. */
+
+ E_DS_CLIENT_FAILURE_TIMEOUT = 6,
+ /**< Failed because of a timeout. */
+
+ E_DS_CLIENT_FAILURE_SERVICE_NOT_PRESENT = 7,
+ /**< Failed because the service is not present. */
+
+ E_DS_CLIENT_FAILURE_SERVICE_VERSION_UNSUPPORTED = 8,
+ /**< Failed because the service version is unsupported. */
+
+ E_DS_CLIENT_FAILURE_CLIENT_VERSION_UNSUPPORTED = 9,
+ /**< Failed because the service does not support client version. */
+
+ E_DS_CLIENT_FAILURE_INVALID_HANDLE = 10,
+ /**< Failed because an invalid handle was specified. */
+
+ E_DS_CLIENT_FAILURE_INTERNAL = 11,
+ /**< Failed because of an internal error in the service. */
+
+ E_DS_CLIENT_FAILURE_NOT_INITIALIZED = 12,
+ /**< Failed because the service has not been initialized. */
+
+ E_DS_CLIENT_FAILURE_NOT_ENOUGH_MEMORY = 13,
+ /**< Failed because not rnough memory to do the operation.*/
+
+ E_DS_CLIENT_SERVICE_ALREADY_STARTED = 14,
+ /*Service is already started*/
+
+ E_DS_CLIENT_DATA_CALL_CONNECTED = 15,
+
+ E_DS_CLIENT_DATA_CALL_DISCONNECTED = 16,
+
+ E_DS_CLIENT_RETRY_LATER = 17
+}ds_client_status_enum_type;
+
+typedef enum {
+ DATA_CALL_NONE = 0,
+ DATA_CALL_OPEN,
+ DATA_CALL_CLOSE
+}data_call_request_enum_type;
+
+typedef void (*ds_client_event_ind_cb_type)(ds_client_status_enum_type result,
+ void* loc_adapter_cookie);
+typedef struct {
+ ds_client_event_ind_cb_type event_cb;
+}ds_client_cb_data;
+
+/*
+ This function is to be called as a first step by each process that
+ needs to use data services. This call internally calls dsi_init()
+ and prepares the module for making data calls.
+ Needs to be called once for every process
+*/
+int ds_client_init();
+
+/*
+ Obtains a handle to the dsi_netctrl layer and looks up the profile
+ to make the call. As of now. It only searches for profiles that
+ support emergency calls
+ */
+ds_client_status_enum_type ds_client_open_call(dsClientHandleType *client_handle,
+ ds_client_cb_data *callback,
+ void *loc_adapter_cookie,
+ int *profile_index,
+ int *pdp_type);
+
+/*
+ Starts a data call using the profile number provided
+ */
+ds_client_status_enum_type ds_client_start_call(dsClientHandleType client_handle,
+ int profile_index,
+ int pdp_type);
+
+/*
+ Stops a data call associated with the handle
+*/
+ds_client_status_enum_type ds_client_stop_call(dsClientHandleType client_handle);
+
+/*
+ Releases the handle used for making data calls
+*/
+void ds_client_close_call(dsClientHandleType *client_handle);
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif
diff --git a/location/loc_api/loc_api_v02/Android.mk b/location/loc_api/loc_api_v02/Android.mk
new file mode 100644
index 0000000..d66c024
--- /dev/null
+++ b/location/loc_api/loc_api_v02/Android.mk
@@ -0,0 +1,61 @@
+ifneq ($(BUILD_TINY_ANDROID),true)
+
+LOCAL_PATH := $(call my-dir)
+
+include $(CLEAR_VARS)
+
+LOCAL_MODULE := libloc_api_v02
+LOCAL_MODULE_OWNER := qcom
+LOCAL_MODULE_TAGS := optional
+
+ifeq ($(TARGET_DEVICE),apq8026_lw)
+LOCAL_CFLAGS += -DPDK_FEATURE_SET
+else ifeq ($(BOARD_VENDOR_QCOM_LOC_PDK_FEATURE_SET),true)
+LOCAL_CFLAGS += -DPDK_FEATURE_SET
+endif
+
+LOCAL_SHARED_LIBRARIES := \
+ libutils \
+ libcutils \
+ libqmi_cci \
+ libqmi_csi \
+ libqmi_common_so \
+ libloc_core \
+ libgps.utils \
+ libloc_ds_api
+
+LOCAL_SRC_FILES = \
+ LocApiV02.cpp \
+ loc_api_v02_log.c \
+ loc_api_v02_client.c \
+ loc_api_sync_req.c \
+ location_service_v02.c
+
+LOCAL_CFLAGS += \
+ -fno-short-enums \
+ -D_ANDROID_
+
+LOCAL_COPY_HEADERS_TO:= libloc_api_v02/
+
+LOCAL_COPY_HEADERS:= \
+ location_service_v02.h \
+ loc_api_v02_log.h \
+ loc_api_v02_client.h \
+ loc_api_sync_req.h \
+ LocApiV02.h \
+ loc_util_log.h
+
+
+## Includes
+LOCAL_C_INCLUDES := \
+ $(TARGET_OUT_HEADERS)/libloc_core \
+ $(TARGET_OUT_HEADERS)/qmi-framework/inc \
+ $(TARGET_OUT_HEADERS)/qmi/inc \
+ $(TARGET_OUT_HEADERS)/gps.utils \
+ $(TARGET_OUT_HEADERS)/libloc_ds_api
+
+LOCAL_PRELINK_MODULE := false
+
+include $(BUILD_SHARED_LIBRARY)
+
+endif # not BUILD_TINY_ANDROID
diff --git a/location/loc_api/loc_api_v02/LocApiV02.cpp b/location/loc_api/loc_api_v02/LocApiV02.cpp
new file mode 100644
index 0000000..17e7a9d
--- /dev/null
+++ b/location/loc_api/loc_api_v02/LocApiV02.cpp
@@ -0,0 +1,3450 @@
+/* Copyright (c) 2011-2014, The Linux Foundation. All rights reserved.
+ *
+ * Redistribution and use in source and binary forms, with or without
+ * modification, are permitted provided that the following conditions are
+ * met:
+ * * Redistributions of source code must retain the above copyright
+ * notice, this list of conditions and the following disclaimer.
+ * * Redistributions in binary form must reproduce the above
+ * copyright notice, this list of conditions and the following
+ * disclaimer in the documentation and/or other materials provided
+ * with the distribution.
+ * * Neither the name of The Linux Foundatoin, nor the names of its
+ * contributors may be used to endorse or promote products derived
+ * from this software without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED "AS IS" AND ANY EXPRESS OR IMPLIED
+ * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
+ * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT
+ * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS
+ * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
+ * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
+ * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
+ * BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
+ * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE
+ * OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN
+ * IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ */
+
+#define LOG_NDEBUG 0
+#define LOG_TAG "LocSvc_ApiV02"
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+#include <math.h>
+
+#include <hardware/gps.h>
+
+#ifndef USE_GLIB
+#include <utils/SystemClock.h>
+#endif /* USE_GLIB */
+#include <LocApiV02.h>
+#include <loc_api_v02_log.h>
+#include <loc_api_sync_req.h>
+#include <loc_util_log.h>
+#include <gps_extended.h>
+#include "platform_lib_includes.h"
+#include <loc_cfg.h>
+
+using namespace loc_core;
+
+/* Default session id ; TBD needs incrementing for each */
+#define LOC_API_V02_DEF_SESSION_ID (1)
+
+/* UMTS CP Address key*/
+#define LOC_NI_NOTIF_KEY_ADDRESS "Address"
+
+/* GPS SV Id offset */
+#define GPS_SV_ID_OFFSET (1)
+
+/* GLONASS SV Id offset */
+#define GLONASS_SV_ID_OFFSET (65)
+
+/* SV ID range */
+#define SV_ID_RANGE (32)
+
+#define BDS_SV_ID_OFFSET (201)
+
+/* BeiDou SV ID RANGE*/
+#define BDS_SV_ID_RANGE QMI_LOC_DELETE_MAX_BDS_SV_INFO_LENGTH_V02
+
+/* GPS week unknown*/
+#define C_GPS_WEEK_UNKNOWN (65535)
+
+/* seconds per week*/
+#define WEEK_MSECS (60*60*24*7*1000)
+
+/* static event callbacks that call the LocApiV02 callbacks*/
+
+/* global event callback, call the eventCb function in loc api adapter v02
+ instance */
+static void globalEventCb(locClientHandleType clientHandle,
+ uint32_t eventId,
+ const locClientEventIndUnionType eventPayload,
+ void* pClientCookie)
+{
+ MODEM_LOG_CALLFLOW(%s, loc_get_v02_event_name(eventId));
+ LocApiV02 *locApiV02Instance =
+ (LocApiV02 *)pClientCookie;
+
+ LOC_LOGV ("%s:%d] client = %p, event id = %d, client cookie ptr = %p\n",
+ __func__, __LINE__, clientHandle, eventId, pClientCookie);
+
+ // return if null is passed
+ if( NULL == locApiV02Instance)
+ {
+ LOC_LOGE ("%s:%d] NULL object passed : client = %p, event id = %d\n",
+ __func__, __LINE__, clientHandle, eventId);
+ return;
+ }
+ locApiV02Instance->eventCb(clientHandle, eventId, eventPayload);
+}
+
+/* global response callback, it calls the sync request process
+ indication function to unblock the request that is waiting on this
+ response indication*/
+static void globalRespCb(locClientHandleType clientHandle,
+ uint32_t respId,
+ const locClientRespIndUnionType respPayload,
+ void* pClientCookie)
+{
+ MODEM_LOG_CALLFLOW(%s, loc_get_v02_event_name(respId));
+ LocApiV02 *locApiV02Instance =
+ (LocApiV02 *)pClientCookie;
+
+
+ LOC_LOGV ("%s:%d] client = %p, resp id = %d, client cookie ptr = %p\n",
+ __func__, __LINE__, clientHandle, respId, pClientCookie);
+
+ if( NULL == locApiV02Instance)
+ {
+ LOC_LOGE ("%s:%d] NULL object passed : client = %p, resp id = %d\n",
+ __func__, __LINE__, clientHandle, respId);
+ return;
+ }
+ // process the sync call
+ // use pDeleteAssistDataInd as a dummy pointer
+ loc_sync_process_ind(clientHandle, respId,
+ (void *)respPayload.pDeleteAssistDataInd);
+}
+
+/* global error callback, it will call the handle service down
+ function in the loc api adapter instance. */
+static void globalErrorCb (locClientHandleType clientHandle,
+ locClientErrorEnumType errorId,
+ void *pClientCookie)
+{
+ LocApiV02 *locApiV02Instance =
+ (LocApiV02 *)pClientCookie;
+
+ LOC_LOGV ("%s:%d] client = %p, error id = %d\n, client cookie ptr = %p\n",
+ __func__, __LINE__, clientHandle, errorId, pClientCookie);
+ if( NULL == locApiV02Instance)
+ {
+ LOC_LOGE ("%s:%d] NULL object passed : client = %p, error id = %d\n",
+ __func__, __LINE__, clientHandle, errorId);
+ return;
+ }
+ locApiV02Instance->errorCb(clientHandle, errorId);
+}
+
+/* global structure containing the callbacks */
+locClientCallbacksType globalCallbacks =
+{
+ sizeof(locClientCallbacksType),
+ globalEventCb,
+ globalRespCb,
+ globalErrorCb
+};
+
+/* Constructor for LocApiV02 */
+LocApiV02 :: LocApiV02(const MsgTask* msgTask,
+ LOC_API_ADAPTER_EVENT_MASK_T exMask,
+ ContextBase* context):
+ LocApiBase(msgTask, exMask, context),
+ clientHandle(LOC_CLIENT_INVALID_HANDLE_VALUE),
+ dsClientHandle(NULL), mGnssMeasurementSupported(sup_unknown),
+ mQmiMask(0), mInSession(false), mEngineOn(false), mSAPMode(DISABLED)
+{
+ // initialize loc_sync_req interface
+ loc_sync_req_init();
+ // cache SAP mode for later use
+ readSAPMode();
+}
+
+/* Destructor for LocApiV02 */
+LocApiV02 :: ~LocApiV02()
+{
+ close();
+}
+
+LocApiBase* getLocApi(const MsgTask *msgTask,
+ LOC_API_ADAPTER_EVENT_MASK_T exMask,
+ ContextBase* context)
+{
+ LOC_LOGD("%s:%d]: Creating new LocApiV02", __func__, __LINE__);
+ return new LocApiV02(msgTask, exMask, context);
+}
+
+/* Initialize a loc api v02 client AND
+ check which loc message are supported by modem */
+enum loc_api_adapter_err
+LocApiV02 :: open(LOC_API_ADAPTER_EVENT_MASK_T mask)
+{
+ enum loc_api_adapter_err rtv = LOC_API_ADAPTER_ERR_SUCCESS;
+ LOC_API_ADAPTER_EVENT_MASK_T newMask = mMask | (mask & ~mExcludedMask);
+ locClientEventMaskType qmiMask = convertMask(newMask);
+ LOC_LOGD("%s:%d]: Enter mMask: %x; mask: %x; newMask: %x mQmiMask: %lld qmiMask: %lld",
+ __func__, __LINE__, mMask, mask, newMask, mQmiMask, qmiMask);
+ /* If the client is already open close it first */
+ if(LOC_CLIENT_INVALID_HANDLE_VALUE == clientHandle)
+ {
+ locClientStatusEnumType status = eLOC_CLIENT_SUCCESS;
+
+ LOC_LOGV ("%s:%d]: reference to this = %p passed in \n",
+ __func__, __LINE__, this);
+ /* initialize the loc api v02 interface, note that
+ the locClientOpen() function will block if the
+ service is unavailable for a fixed time out */
+
+ // it is important to cap the mask here, because not all LocApi's
+ // can enable the same bits, e.g. foreground and bckground.
+ status = locClientOpen(adjustMaskForNoSession(qmiMask), &globalCallbacks,
+ &clientHandle, (void *)this);
+ mMask = newMask;
+ mQmiMask = qmiMask;
+ if (eLOC_CLIENT_SUCCESS != status ||
+ clientHandle == LOC_CLIENT_INVALID_HANDLE_VALUE )
+ {
+ mMask = 0;
+ mQmiMask = 0;
+ LOC_LOGE ("%s:%d]: locClientOpen failed, status = %s\n", __func__,
+ __LINE__, loc_get_v02_client_status_name(status));
+ rtv = LOC_API_ADAPTER_ERR_FAILURE;
+ } else {
+ uint64_t supportedMsgList = 0;
+ const uint32_t msgArray[LOC_API_ADAPTER_MESSAGE_MAX] =
+ {
+ // For - LOC_API_ADAPTER_MESSAGE_LOCATION_BATCHING
+ QMI_LOC_GET_BATCH_SIZE_REQ_V02,
+
+ // For - LOC_API_ADAPTER_MESSAGE_BATCHED_GENFENCE_BREACH
+ QMI_LOC_EVENT_GEOFENCE_BATCHED_BREACH_NOTIFICATION_IND_V02
+ };
+
+ // check the modem
+ status = locClientSupportMsgCheck(clientHandle,
+ msgArray,
+ LOC_API_ADAPTER_MESSAGE_MAX,
+ &supportedMsgList);
+ if (eLOC_CLIENT_SUCCESS != status) {
+ LOC_LOGE("%s:%d]: Failed to checking QMI_LOC message supported. \n",
+ __func__, __LINE__);
+ } else {
+ LOC_LOGV("%s:%d]: supportedMsgList is %lld. \n",
+ __func__, __LINE__, supportedMsgList);
+ }
+
+ // save the supported message list
+ saveSupportedMsgList(supportedMsgList);
+ }
+ } else if (newMask != mMask) {
+ // it is important to cap the mask here, because not all LocApi's
+ // can enable the same bits, e.g. foreground and bckground.
+ if (!registerEventMask(qmiMask)) {
+ // we do not update mMask here, because it did not change
+ // as the mask update has failed.
+ rtv = LOC_API_ADAPTER_ERR_FAILURE;
+ }
+ else {
+ mMask = newMask;
+ mQmiMask = qmiMask;
+ }
+ }
+ LOC_LOGD("%s:%d]: Exit mMask: %x; mask: %x mQmiMask: %llx qmiMask: %llx",
+ __func__, __LINE__, mMask, mask, mQmiMask, qmiMask);
+
+ if (LOC_API_ADAPTER_ERR_SUCCESS == rtv) {
+ cacheGnssMeasurementSupport();
+ }
+
+ return rtv;
+}
+
+bool LocApiV02 :: registerEventMask(locClientEventMaskType qmiMask)
+{
+ if (!mInSession) {
+ qmiMask = adjustMaskForNoSession(qmiMask);
+ }
+ LOC_LOGD("%s:%d]: mQmiMask=%lld qmiMask=%lld",
+ __func__, __LINE__, mQmiMask, qmiMask);
+ return locClientRegisterEventMask(clientHandle, qmiMask);
+}
+
+locClientEventMaskType LocApiV02 :: adjustMaskForNoSession(locClientEventMaskType qmiMask)
+{
+ LOC_LOGD("%s:%d]: before qmiMask=%lld",
+ __func__, __LINE__, qmiMask);
+ locClientEventMaskType clearMask = QMI_LOC_EVENT_MASK_POSITION_REPORT_V02 |
+ QMI_LOC_EVENT_MASK_GNSS_SV_INFO_V02 |
+ QMI_LOC_EVENT_MASK_NMEA_V02 |
+ QMI_LOC_EVENT_MASK_ENGINE_STATE_V02 |
+ QMI_LOC_EVENT_MASK_GNSS_MEASUREMENT_REPORT_V02;
+
+ qmiMask = qmiMask & ~clearMask;
+ LOC_LOGD("%s:%d]: after qmiMask=%lld",
+ __func__, __LINE__, qmiMask);
+ return qmiMask;
+}
+
+enum loc_api_adapter_err LocApiV02 :: close()
+{
+ enum loc_api_adapter_err rtv =
+ // success if either client is already invalid, or
+ // we successfully close the handle
+ (LOC_CLIENT_INVALID_HANDLE_VALUE == clientHandle ||
+ eLOC_CLIENT_SUCCESS == locClientClose(&clientHandle)) ?
+ LOC_API_ADAPTER_ERR_SUCCESS : LOC_API_ADAPTER_ERR_FAILURE;
+
+ mMask = 0;
+ clientHandle = LOC_CLIENT_INVALID_HANDLE_VALUE;
+
+ return rtv;
+}
+
+/*Read and cache SAP config*/
+void LocApiV02 :: readSAPMode()
+{
+ char conf_feature_sap[32];
+ loc_param_s_type izat_conf_feature_table[] =
+ {
+ {"SAP", &conf_feature_sap, NULL, 's'}
+ };
+ UTIL_READ_CONF("etc/izat.conf", izat_conf_feature_table);
+
+ if(strcmp(conf_feature_sap, "BASIC") == 0) {
+ mSAPMode = BASIC;
+ LOC_LOGD("%s:%d]: SAP mode: BASIC", __func__, __LINE__);
+ }
+ else if(strcmp(conf_feature_sap, "PREMIUM") == 0) {
+ mSAPMode = PREMIUM;
+ LOC_LOGD("%s:%d]: SAP mode: PREMIUM", __func__, __LINE__);
+ }
+ else if(strcmp(conf_feature_sap, "DISABLED") == 0) {
+ LOC_LOGD("%s:%d]: SAP mode: DISABLED", __func__, __LINE__);
+ }
+ else {
+ LOC_LOGE("%s:%d]: Unrecognized value for SAP Mode." \
+ " Hence SAP mode: BASIC", __func__, __LINE__);
+ mSAPMode = BASIC;
+ }
+
+ return;
+}
+
+/* start positioning session */
+enum loc_api_adapter_err LocApiV02 :: startFix(const LocPosMode& fixCriteria)
+{
+ locClientStatusEnumType status;
+ locClientReqUnionType req_union;
+
+ qmiLocStartReqMsgT_v02 start_msg;
+
+ qmiLocSetOperationModeReqMsgT_v02 set_mode_msg;
+ qmiLocSetOperationModeIndMsgT_v02 set_mode_ind;
+
+ qmiLocSetPremiumServicesCfgReqMsgT_v02 premiumCfgReq;
+ memset(&premiumCfgReq, 0, sizeof(premiumCfgReq));
+
+ // clear all fields, validity masks
+ memset (&start_msg, 0, sizeof(start_msg));
+ memset (&set_mode_msg, 0, sizeof(set_mode_msg));
+ memset (&set_mode_ind, 0, sizeof(set_mode_ind));
+
+ LOC_LOGV("%s:%d]: start \n", __func__, __LINE__);
+ fixCriteria.logv();
+
+ mInSession = true;
+ registerEventMask(mQmiMask);
+
+ // fill in the start request
+ switch(fixCriteria.mode)
+ {
+ case LOC_POSITION_MODE_MS_BASED:
+ set_mode_msg.operationMode = eQMI_LOC_OPER_MODE_MSB_V02;
+ break;
+
+ case LOC_POSITION_MODE_MS_ASSISTED:
+ set_mode_msg.operationMode = eQMI_LOC_OPER_MODE_MSA_V02;
+ break;
+
+ case LOC_POSITION_MODE_RESERVED_4:
+ set_mode_msg.operationMode = eQMI_LOC_OPER_MODE_CELL_ID_V02;
+ break;
+
+ case LOC_POSITION_MODE_RESERVED_5:
+ set_mode_msg.operationMode = eQMI_LOC_OPER_MODE_WWAN_V02;
+ break;
+
+ default:
+ set_mode_msg.operationMode = eQMI_LOC_OPER_MODE_STANDALONE_V02;
+ break;
+ }
+
+ req_union.pSetOperationModeReq = &set_mode_msg;
+
+ // send the mode first, before the start message.
+ status = loc_sync_send_req(clientHandle,
+ QMI_LOC_SET_OPERATION_MODE_REQ_V02,
+ req_union, LOC_ENGINE_SYNC_REQUEST_TIMEOUT,
+ QMI_LOC_SET_OPERATION_MODE_IND_V02,
+ &set_mode_ind); // NULL?
+
+ if (status != eLOC_CLIENT_SUCCESS ||
+ eQMI_LOC_SUCCESS_V02 != set_mode_ind.status)
+ {
+ LOC_LOGE ("%s:%d]: set opertion mode failed status = %s, "
+ "ind..status = %s\n", __func__, __LINE__,
+ loc_get_v02_client_status_name(status),
+ loc_get_v02_qmi_status_name(set_mode_ind.status));
+ } else {
+
+ /*Disable SAP before starting positioning session*/
+ premiumCfgReq.premiumServiceType = eQMI_LOC_PREMIUM_SERVICE_SAP_V02;
+ premiumCfgReq.premiumServiceCfg = eQMI_LOC_PREMIUM_SERVICE_DISABLED_V02;
+ LOC_SEND_SYNC_REQ(SetPremiumServicesCfg,
+ SET_PREMIUM_SERVICES_CONFIG,
+ premiumCfgReq, clientHandle);
+
+ start_msg.minInterval_valid = 1;
+ start_msg.minInterval = fixCriteria.min_interval;
+
+ if (fixCriteria.preferred_accuracy >= 0) {
+ start_msg.horizontalAccuracyLevel_valid = 1;
+
+ if (fixCriteria.preferred_accuracy <= 100)
+ {
+ // fix needs high accuracy
+ start_msg.horizontalAccuracyLevel = eQMI_LOC_ACCURACY_HIGH_V02;
+ }
+ else if (fixCriteria.preferred_accuracy <= 1000)
+ {
+ //fix needs med accuracy
+ start_msg.horizontalAccuracyLevel = eQMI_LOC_ACCURACY_MED_V02;
+ }
+ else
+ {
+ //fix needs low accuracy
+ start_msg.horizontalAccuracyLevel = eQMI_LOC_ACCURACY_LOW_V02;
+ }
+ }
+
+ start_msg.fixRecurrence_valid = 1;
+ if(GPS_POSITION_RECURRENCE_SINGLE == fixCriteria.recurrence)
+ {
+ start_msg.fixRecurrence = eQMI_LOC_RECURRENCE_SINGLE_V02;
+ }
+ else
+ {
+ start_msg.fixRecurrence = eQMI_LOC_RECURRENCE_PERIODIC_V02;
+ }
+
+ //dummy session id
+ // TBD: store session ID, check for session id in pos reports.
+ start_msg.sessionId = LOC_API_V02_DEF_SESSION_ID;
+
+ if (fixCriteria.credentials[0] != 0) {
+ int size1 = sizeof(start_msg.applicationId.applicationName);
+ int size2 = sizeof(fixCriteria.credentials);
+ int len = ((size1 < size2) ? size1 : size2) - 1;
+ memcpy(start_msg.applicationId.applicationName,
+ fixCriteria.credentials,
+ len);
+
+ size1 = sizeof(start_msg.applicationId.applicationProvider);
+ size2 = sizeof(fixCriteria.provider);
+ len = ((size1 < size2) ? size1 : size2) - 1;
+ memcpy(start_msg.applicationId.applicationProvider,
+ fixCriteria.provider,
+ len);
+
+ start_msg.applicationId_valid = 1;
+ }
+
+ // config Altitude Assumed
+ start_msg.configAltitudeAssumed_valid = 1;
+ start_msg.configAltitudeAssumed = eQMI_LOC_ALTITUDE_ASSUMED_IN_GNSS_SV_INFO_DISABLED_V02;
+
+ req_union.pStartReq = &start_msg;
+
+ status = locClientSendReq (clientHandle, QMI_LOC_START_REQ_V02,
+ req_union );
+ }
+
+ return convertErr(status);
+}
+
+/* stop a positioning session */
+enum loc_api_adapter_err LocApiV02 :: stopFix()
+{
+ locClientStatusEnumType status;
+ locClientReqUnionType req_union;
+
+ qmiLocStopReqMsgT_v02 stop_msg;
+
+ LOC_LOGD(" %s:%d]: stop called \n", __func__, __LINE__);
+
+ memset(&stop_msg, 0, sizeof(stop_msg));
+
+ // dummy session id
+ stop_msg.sessionId = LOC_API_V02_DEF_SESSION_ID;
+
+ req_union.pStopReq = &stop_msg;
+
+ status = locClientSendReq(clientHandle,
+ QMI_LOC_STOP_REQ_V02,
+ req_union);
+
+ /*Inject SAP config after session has stopped*/
+ qmiLocSetPremiumServicesCfgReqMsgT_v02 premiumCfgReq;
+ memset(&premiumCfgReq, 0, sizeof(premiumCfgReq));
+ premiumCfgReq.premiumServiceType = eQMI_LOC_PREMIUM_SERVICE_SAP_V02;
+ switch(mSAPMode)
+ {
+ case BASIC:
+ premiumCfgReq.premiumServiceCfg = eQMI_LOC_PREMIUM_SERVICE_ENABLED_BASIC_V02;
+ LOC_LOGD("%s:%d]: SAP Mode set to BASIC %d\n",__func__, __LINE__);
+ break;
+ case PREMIUM:
+ premiumCfgReq.premiumServiceCfg = eQMI_LOC_PREMIUM_SERVICE_ENABLED_PREMIUM_V02;
+ LOC_LOGD("%s:%d]: SAP Mode set to PREMIUM %d\n",__func__, __LINE__);
+ break;
+ default:
+ premiumCfgReq.premiumServiceCfg = eQMI_LOC_PREMIUM_SERVICE_DISABLED_V02;
+ LOC_LOGD("%s:%d]: SAP Mode set to DISABLED %d\n",__func__, __LINE__);
+ break;
+ }
+
+ LOC_SEND_SYNC_REQ(SetPremiumServicesCfg,
+ SET_PREMIUM_SERVICES_CONFIG,
+ premiumCfgReq, clientHandle);
+
+ mInSession = false;
+ // if engine on never happend, deregister events
+ // without waiting for Engine Off
+ if (!mEngineOn) {
+ registerEventMask(mQmiMask);
+ }
+
+ if( eLOC_CLIENT_SUCCESS != status)
+ {
+ LOC_LOGE("%s:%d]: error = %s\n",__func__, __LINE__,
+ loc_get_v02_client_status_name(status));
+ }
+
+ return convertErr(status);
+}
+
+/* set the positioning fix criteria */
+enum loc_api_adapter_err LocApiV02 :: setPositionMode(
+ const LocPosMode& posMode)
+{
+ if(isInSession())
+ {
+ //fix is in progress, send a restart
+ LOC_LOGD ("%s:%d]: fix is in progress restarting the fix with new "
+ "criteria\n", __func__, __LINE__);
+
+ return( startFix(posMode));
+ }
+
+ return LOC_API_ADAPTER_ERR_SUCCESS;
+}
+
+/* inject time into the position engine */
+enum loc_api_adapter_err LocApiV02 ::
+ setTime(GpsUtcTime time, int64_t timeReference, int uncertainty)
+{
+ locClientReqUnionType req_union;
+ locClientStatusEnumType status;
+ qmiLocInjectUtcTimeReqMsgT_v02 inject_time_msg;
+ qmiLocInjectUtcTimeIndMsgT_v02 inject_time_ind;
+
+ memset(&inject_time_msg, 0, sizeof(inject_time_msg));
+
+ inject_time_ind.status = eQMI_LOC_GENERAL_FAILURE_V02;
+
+ inject_time_msg.timeUtc = time;
+
+ inject_time_msg.timeUtc += (int64_t)(ELAPSED_MILLIS_SINCE_BOOT_PLATFORM_LIB_ABSTRACTION - timeReference);
+
+ inject_time_msg.timeUnc = uncertainty;
+
+ req_union.pInjectUtcTimeReq = &inject_time_msg;
+
+ LOC_LOGV ("%s:%d]: uncertainty = %d\n", __func__, __LINE__,
+ uncertainty);
+
+ status = loc_sync_send_req(clientHandle,
+ QMI_LOC_INJECT_UTC_TIME_REQ_V02,
+ req_union, LOC_ENGINE_SYNC_REQUEST_TIMEOUT,
+ QMI_LOC_INJECT_UTC_TIME_IND_V02,
+ &inject_time_ind);
+
+ if (status != eLOC_CLIENT_SUCCESS ||
+ eQMI_LOC_SUCCESS_V02 != inject_time_ind.status)
+ {
+ LOC_LOGE ("%s:%d] status = %s, ind..status = %s\n", __func__, __LINE__,
+ loc_get_v02_client_status_name(status),
+ loc_get_v02_qmi_status_name(inject_time_ind.status));
+ }
+
+ return convertErr(status);
+}
+
+/* inject position into the position engine */
+enum loc_api_adapter_err LocApiV02 ::
+ injectPosition(double latitude, double longitude, float accuracy)
+{
+ locClientReqUnionType req_union;
+ locClientStatusEnumType status;
+ qmiLocInjectPositionReqMsgT_v02 inject_pos_msg;
+ qmiLocInjectPositionIndMsgT_v02 inject_pos_ind;
+
+ memset(&inject_pos_msg, 0, sizeof(inject_pos_msg));
+
+ inject_pos_msg.latitude_valid = 1;
+ inject_pos_msg.latitude = latitude;
+
+ inject_pos_msg.longitude_valid = 1;
+ inject_pos_msg.longitude = longitude;
+
+ inject_pos_msg.horUncCircular_valid = 1;
+
+ inject_pos_msg.horUncCircular = accuracy; //meters assumed
+ if (inject_pos_msg.horUncCircular < 1000) {
+ inject_pos_msg.horUncCircular = 1000;
+ }
+
+ inject_pos_msg.horConfidence_valid = 1;
+
+ inject_pos_msg.horConfidence = 68; //1 std dev assumed as specified by API
+
+ inject_pos_msg.rawHorUncCircular_valid = 1;
+
+ inject_pos_msg.rawHorUncCircular = accuracy; //meters assumed
+
+ inject_pos_msg.rawHorConfidence_valid = 1;
+
+ inject_pos_msg.rawHorConfidence = 68; //1 std dev assumed as specified by API
+
+ /* Log */
+ LOC_LOGD("%s:%d]: Lat=%lf, Lon=%lf, Acc=%.2lf rawAcc=%.2lf", __func__, __LINE__,
+ inject_pos_msg.latitude, inject_pos_msg.longitude,
+ inject_pos_msg.horUncCircular, inject_pos_msg.rawHorUncCircular);
+
+ req_union.pInjectPositionReq = &inject_pos_msg;
+
+ status = loc_sync_send_req(clientHandle,
+ QMI_LOC_INJECT_POSITION_REQ_V02,
+ req_union, LOC_ENGINE_SYNC_REQUEST_TIMEOUT,
+ QMI_LOC_INJECT_POSITION_IND_V02,
+ &inject_pos_ind);
+
+ if (status != eLOC_CLIENT_SUCCESS ||
+ eQMI_LOC_SUCCESS_V02 != inject_pos_ind.status)
+ {
+ LOC_LOGE ("%s:%d]: error! status = %s, inject_pos_ind.status = %s\n",
+ __func__, __LINE__,
+ loc_get_v02_client_status_name(status),
+ loc_get_v02_qmi_status_name(inject_pos_ind.status));
+ }
+
+ return convertErr(status);
+}
+
+/* delete assistance date */
+enum loc_api_adapter_err LocApiV02 :: deleteAidingData(GpsAidingData f)
+{
+ locClientReqUnionType req_union;
+ locClientStatusEnumType status;
+ qmiLocDeleteAssistDataReqMsgT_v02 delete_req;
+ qmiLocDeleteAssistDataIndMsgT_v02 delete_resp;
+
+ memset(&delete_req, 0, sizeof(delete_req));
+ memset(&delete_resp, 0, sizeof(delete_resp));
+
+ if( f == GPS_DELETE_ALL )
+ {
+ delete_req.deleteAllFlag = true;
+ }
+
+ else
+ {
+ /* to keep track of svInfoList for GPS and GLO*/
+ uint32_t curr_sv_len = 0;
+ uint32_t curr_sv_idx = 0;
+ uint32_t sv_id = 0;
+
+ if((f & GPS_DELETE_EPHEMERIS ) || ( f & GPS_DELETE_ALMANAC ))
+ {
+ /* do delete for all GPS SV's */
+
+ curr_sv_len += SV_ID_RANGE;
+
+ sv_id = GPS_SV_ID_OFFSET;
+
+ delete_req.deleteSvInfoList_valid = 1;
+
+ delete_req.deleteSvInfoList_len = curr_sv_len;
+
+ LOC_LOGV("%s:%d]: Delete GPS SV info for index %d to %d"
+ "and sv id %d to %d \n",
+ __func__, __LINE__, curr_sv_idx, curr_sv_len - 1,
+ sv_id, sv_id+SV_ID_RANGE-1);
+
+ for( uint32_t i = curr_sv_idx; i< curr_sv_len ; i++, sv_id++ )
+ {
+ delete_req.deleteSvInfoList[i].gnssSvId = sv_id;
+
+ delete_req.deleteSvInfoList[i].system = eQMI_LOC_SV_SYSTEM_GPS_V02;
+
+ if(f & GPS_DELETE_EPHEMERIS )
+ {
+ // set ephemeris mask for all GPS SV's
+ delete_req.deleteSvInfoList[i].deleteSvInfoMask |=
+ QMI_LOC_MASK_DELETE_EPHEMERIS_V02;
+ }
+
+ if( f & GPS_DELETE_ALMANAC )
+ {
+ delete_req.deleteSvInfoList[i].deleteSvInfoMask |=
+ QMI_LOC_MASK_DELETE_ALMANAC_V02;
+ }
+ }
+ // increment the current index
+ curr_sv_idx += SV_ID_RANGE;
+
+ }
+
+ if(f & GPS_DELETE_POSITION )
+ {
+ delete_req.deleteGnssDataMask_valid = 1;
+ delete_req.deleteGnssDataMask |= QMI_LOC_MASK_DELETE_POSITION_V02;
+ }
+
+ if(f & GPS_DELETE_TIME )
+ {
+ delete_req.deleteGnssDataMask_valid = 1;
+ delete_req.deleteGnssDataMask |= QMI_LOC_MASK_DELETE_TIME_V02;
+ }
+
+ if(f & GPS_DELETE_IONO )
+ {
+ delete_req.deleteGnssDataMask_valid = 1;
+ delete_req.deleteGnssDataMask |= QMI_LOC_MASK_DELETE_IONO_V02;
+ }
+
+ if(f & GPS_DELETE_UTC )
+ {
+ delete_req.deleteGnssDataMask_valid = 1;
+ delete_req.deleteGnssDataMask |= QMI_LOC_MASK_DELETE_UTC_V02;
+ }
+
+ if(f & GPS_DELETE_HEALTH )
+ {
+ delete_req.deleteGnssDataMask_valid = 1;
+ delete_req.deleteGnssDataMask |= QMI_LOC_MASK_DELETE_HEALTH_V02;
+ }
+
+ if(f & GPS_DELETE_SVDIR )
+ {
+ delete_req.deleteGnssDataMask_valid = 1;
+ delete_req.deleteGnssDataMask |= QMI_LOC_MASK_DELETE_GPS_SVDIR_V02;
+ }
+ if(f & GPS_DELETE_SADATA )
+ {
+ delete_req.deleteGnssDataMask_valid = 1;
+ delete_req.deleteGnssDataMask |= QMI_LOC_MASK_DELETE_SADATA_V02;
+ }
+ if(f & GPS_DELETE_RTI )
+ {
+ delete_req.deleteGnssDataMask_valid = 1;
+ delete_req.deleteGnssDataMask |= QMI_LOC_MASK_DELETE_RTI_V02;
+ }
+ if(f & GPS_DELETE_CELLDB_INFO )
+ {
+ delete_req.deleteCellDbDataMask_valid = 1;
+ delete_req.deleteCellDbDataMask =
+ ( QMI_LOC_MASK_DELETE_CELLDB_POS_V02 |
+ QMI_LOC_MASK_DELETE_CELLDB_LATEST_GPS_POS_V02 |
+ QMI_LOC_MASK_DELETE_CELLDB_OTA_POS_V02 |
+ QMI_LOC_MASK_DELETE_CELLDB_EXT_REF_POS_V02 |
+ QMI_LOC_MASK_DELETE_CELLDB_TIMETAG_V02 |
+ QMI_LOC_MASK_DELETE_CELLDB_CELLID_V02 |
+ QMI_LOC_MASK_DELETE_CELLDB_CACHED_CELLID_V02 |
+ QMI_LOC_MASK_DELETE_CELLDB_LAST_SRV_CELL_V02 |
+ QMI_LOC_MASK_DELETE_CELLDB_CUR_SRV_CELL_V02 |
+ QMI_LOC_MASK_DELETE_CELLDB_NEIGHBOR_INFO_V02) ;
+
+ }
+#ifndef PDK_FEATURE_SET
+ if( f & GPS_DELETE_TIME_GPS )
+ {
+ delete_req.deleteGnssDataMask_valid = 1;
+ delete_req.deleteGnssDataMask |= QMI_LOC_MASK_DELETE_GPS_TIME_V02;
+ }
+ if(f & GPS_DELETE_ALMANAC_CORR )
+ {
+ delete_req.deleteGnssDataMask_valid = 1;
+ delete_req.deleteGnssDataMask |= QMI_LOC_MASK_DELETE_GPS_ALM_CORR_V02;
+ }
+ if(f & GPS_DELETE_FREQ_BIAS_EST )
+ {
+ delete_req.deleteGnssDataMask_valid = 1;
+ delete_req.deleteGnssDataMask |= QMI_LOC_MASK_DELETE_FREQ_BIAS_EST_V02;
+ }
+ if ( (f & GLO_DELETE_EPHEMERIS ) || (f & GLO_DELETE_ALMANAC ))
+ {
+ /* do delete for all GLONASS SV's (65 - 96)
+ */
+ curr_sv_len += SV_ID_RANGE;
+
+ sv_id = GLONASS_SV_ID_OFFSET;
+
+ delete_req.deleteSvInfoList_valid = 1;
+
+ delete_req.deleteSvInfoList_len = curr_sv_len;
+
+ LOC_LOGV("%s:%d]: Delete GLO SV info for index %d to %d"
+ "and sv id %d to %d \n",
+ __func__, __LINE__, curr_sv_idx, curr_sv_len - 1,
+ sv_id, sv_id+SV_ID_RANGE-1);
+
+
+ for( uint32_t i = curr_sv_idx; i< curr_sv_len ; i++, sv_id++ )
+ {
+ delete_req.deleteSvInfoList[i].gnssSvId = sv_id;
+
+ delete_req.deleteSvInfoList[i].system = eQMI_LOC_SV_SYSTEM_GLONASS_V02;
+
+ // set ephemeris mask for all GLO SV's
+ if(f & GLO_DELETE_EPHEMERIS)
+ delete_req.deleteSvInfoList[i].deleteSvInfoMask |=
+ QMI_LOC_MASK_DELETE_EPHEMERIS_V02;
+ // set almanac mask for all GLO SV's
+ if(f & GLO_DELETE_ALMANAC)
+ delete_req.deleteSvInfoList[i].deleteSvInfoMask |=
+ QMI_LOC_MASK_DELETE_ALMANAC_V02;
+ }
+ curr_sv_idx += SV_ID_RANGE;
+ }
+
+ if(f & GLO_DELETE_SVDIR )
+ {
+ delete_req.deleteGnssDataMask_valid = 1;
+ delete_req.deleteGnssDataMask |= QMI_LOC_MASK_DELETE_GLO_SVDIR_V02;
+ }
+
+ if(f & GLO_DELETE_SVSTEER )
+ {
+ delete_req.deleteGnssDataMask_valid = 1;
+ delete_req.deleteGnssDataMask |= QMI_LOC_MASK_DELETE_GLO_SVSTEER_V02;
+ }
+
+ if(f & GLO_DELETE_ALMANAC_CORR )
+ {
+ delete_req.deleteGnssDataMask_valid = 1;
+ delete_req.deleteGnssDataMask |= QMI_LOC_MASK_DELETE_GLO_ALM_CORR_V02;
+ }
+
+ if(f & GLO_DELETE_TIME )
+ {
+ delete_req.deleteGnssDataMask_valid = 1;
+ delete_req.deleteGnssDataMask |= QMI_LOC_MASK_DELETE_GLO_TIME_V02;
+ }
+
+ if ( (f & BDS_DELETE_EPHEMERIS ) || (f & BDS_DELETE_ALMANAC ))
+ {
+ /*Delete BeiDou SV info*/
+
+ sv_id = BDS_SV_ID_OFFSET;
+
+ delete_req.deleteBdsSvInfoList_valid = 1;
+
+ delete_req.deleteBdsSvInfoList_len = BDS_SV_ID_RANGE;
+
+ LOC_LOGV("%s:%d]: Delete BDS SV info for index 0 to %d"
+ "and sv id %d to %d \n",
+ __func__, __LINE__,
+ BDS_SV_ID_RANGE - 1,
+ sv_id, sv_id+BDS_SV_ID_RANGE - 1);
+
+ for( uint32_t i = 0; i < BDS_SV_ID_RANGE; i++, sv_id++ )
+ {
+ delete_req.deleteBdsSvInfoList[i].gnssSvId = sv_id;
+
+ // set ephemeris mask for all BDS SV's
+ if(f & BDS_DELETE_EPHEMERIS)
+ delete_req.deleteBdsSvInfoList[i].deleteSvInfoMask |=
+ QMI_LOC_MASK_DELETE_EPHEMERIS_V02;
+ if(f & BDS_DELETE_ALMANAC)
+ delete_req.deleteBdsSvInfoList[i].deleteSvInfoMask |=
+ QMI_LOC_MASK_DELETE_ALMANAC_V02;
+ }
+ curr_sv_idx += BDS_SV_ID_RANGE;
+ }
+
+ if(f & BDS_DELETE_SVDIR )
+ {
+ delete_req.deleteGnssDataMask_valid = 1;
+ delete_req.deleteGnssDataMask |= QMI_LOC_MASK_DELETE_BDS_SVDIR_V02;
+ }
+
+ if(f & BDS_DELETE_SVSTEER )
+ {
+ delete_req.deleteGnssDataMask_valid = 1;
+ delete_req.deleteGnssDataMask |= QMI_LOC_MASK_DELETE_BDS_SVSTEER_V02;
+ }
+
+ if(f & BDS_DELETE_ALMANAC_CORR )
+ {
+ delete_req.deleteGnssDataMask_valid = 1;
+ delete_req.deleteGnssDataMask |= QMI_LOC_MASK_DELETE_BDS_ALM_CORR_V02;
+ }
+
+ if(f & BDS_DELETE_TIME )
+ {
+ delete_req.deleteGnssDataMask_valid = 1;
+ delete_req.deleteGnssDataMask |= QMI_LOC_MASK_DELETE_BDS_TIME_V02;
+ }
+#endif
+
+ }
+
+ req_union.pDeleteAssistDataReq = &delete_req;
+
+ status = loc_sync_send_req(clientHandle,
+ QMI_LOC_DELETE_ASSIST_DATA_REQ_V02,
+ req_union, LOC_ENGINE_SYNC_REQUEST_TIMEOUT,
+ QMI_LOC_DELETE_ASSIST_DATA_IND_V02,
+ &delete_resp);
+
+ if (status != eLOC_CLIENT_SUCCESS ||
+ eQMI_LOC_SUCCESS_V02 != delete_resp.status)
+ {
+ LOC_LOGE ("%s:%d]: error! status = %s, delete_resp.status = %s\n",
+ __func__, __LINE__,
+ loc_get_v02_client_status_name(status),
+ loc_get_v02_qmi_status_name(delete_resp.status));
+ }
+
+ return convertErr(status);
+}
+
+/* send NI user repsonse to the engine */
+enum loc_api_adapter_err LocApiV02 ::
+ informNiResponse(GpsUserResponseType userResponse,
+ const void* passThroughData)
+{
+ locClientReqUnionType req_union;
+ locClientStatusEnumType status;
+
+ qmiLocNiUserRespReqMsgT_v02 ni_resp;
+ qmiLocNiUserRespIndMsgT_v02 ni_resp_ind;
+
+ qmiLocEventNiNotifyVerifyReqIndMsgT_v02 *request_pass_back =
+ (qmiLocEventNiNotifyVerifyReqIndMsgT_v02 *)passThroughData;
+
+ memset(&ni_resp,0, sizeof(ni_resp));
+
+ memset(&ni_resp_ind,0, sizeof(ni_resp_ind));
+
+ switch (userResponse)
+ {
+ case GPS_NI_RESPONSE_ACCEPT:
+ ni_resp.userResp = eQMI_LOC_NI_LCS_NOTIFY_VERIFY_ACCEPT_V02;
+ break;
+ case GPS_NI_RESPONSE_DENY:
+ ni_resp.userResp = eQMI_LOC_NI_LCS_NOTIFY_VERIFY_DENY_V02;
+ break;
+ case GPS_NI_RESPONSE_NORESP:
+ ni_resp.userResp = eQMI_LOC_NI_LCS_NOTIFY_VERIFY_NORESP_V02;
+ break;
+ default:
+ return LOC_API_ADAPTER_ERR_INVALID_PARAMETER;
+ }
+
+ LOC_LOGV(" %s:%d]: NI response: %d\n", __func__, __LINE__,
+ ni_resp.userResp);
+
+ ni_resp.notificationType = request_pass_back->notificationType;
+
+ // copy SUPL payload from request
+ if(request_pass_back->NiSuplInd_valid == 1)
+ {
+ ni_resp.NiSuplPayload_valid = 1;
+ memcpy(&(ni_resp.NiSuplPayload), &(request_pass_back->NiSuplInd),
+ sizeof(qmiLocNiSuplNotifyVerifyStructT_v02));
+
+ }
+ // should this be an "else if"?? we don't need to decide
+
+ // copy UMTS-CP payload from request
+ if( request_pass_back->NiUmtsCpInd_valid == 1 )
+ {
+ ni_resp.NiUmtsCpPayload_valid = 1;
+ memcpy(&(ni_resp.NiUmtsCpPayload), &(request_pass_back->NiUmtsCpInd),
+ sizeof(qmiLocNiUmtsCpNotifyVerifyStructT_v02));
+ }
+
+ //copy Vx payload from the request
+ if( request_pass_back->NiVxInd_valid == 1)
+ {
+ ni_resp.NiVxPayload_valid = 1;
+ memcpy(&(ni_resp.NiVxPayload), &(request_pass_back->NiVxInd),
+ sizeof(qmiLocNiVxNotifyVerifyStructT_v02));
+ }
+
+ // copy Vx service interaction payload from the request
+ if(request_pass_back->NiVxServiceInteractionInd_valid == 1)
+ {
+ ni_resp.NiVxServiceInteractionPayload_valid = 1;
+ memcpy(&(ni_resp.NiVxServiceInteractionPayload),
+ &(request_pass_back->NiVxServiceInteractionInd),
+ sizeof(qmiLocNiVxServiceInteractionStructT_v02));
+ }
+
+ // copy Network Initiated SUPL Version 2 Extension
+ if (request_pass_back->NiSuplVer2ExtInd_valid == 1)
+ {
+ ni_resp.NiSuplVer2ExtPayload_valid = 1;
+ memcpy(&(ni_resp.NiSuplVer2ExtPayload),
+ &(request_pass_back->NiSuplVer2ExtInd),
+ sizeof(qmiLocNiSuplVer2ExtStructT_v02));
+ }
+
+ // copy SUPL Emergency Notification
+ if(request_pass_back->suplEmergencyNotification_valid)
+ {
+ ni_resp.suplEmergencyNotification_valid = 1;
+ memcpy(&(ni_resp.suplEmergencyNotification),
+ &(request_pass_back->suplEmergencyNotification),
+ sizeof(qmiLocEmergencyNotificationStructT_v02));
+ }
+
+ req_union.pNiUserRespReq = &ni_resp;
+
+ status = loc_sync_send_req (
+ clientHandle, QMI_LOC_NI_USER_RESPONSE_REQ_V02,
+ req_union, LOC_ENGINE_SYNC_REQUEST_TIMEOUT,
+ QMI_LOC_NI_USER_RESPONSE_IND_V02, &ni_resp_ind);
+
+ if (status != eLOC_CLIENT_SUCCESS ||
+ eQMI_LOC_SUCCESS_V02 != ni_resp_ind.status)
+ {
+ LOC_LOGE ("%s:%d]: error! status = %s, ni_resp_ind.status = %s\n",
+ __func__, __LINE__,
+ loc_get_v02_client_status_name(status),
+ loc_get_v02_qmi_status_name(ni_resp_ind.status));
+ }
+
+ return convertErr(status);
+}
+
+/* Set UMTs SLP server URL */
+enum loc_api_adapter_err LocApiV02 :: setServer(
+ const char* url, int len)
+{
+ locClientReqUnionType req_union;
+ locClientStatusEnumType status;
+ qmiLocSetServerReqMsgT_v02 set_server_req;
+ qmiLocSetServerIndMsgT_v02 set_server_ind;
+
+ if(len < 0 || len > sizeof(set_server_req.urlAddr))
+ {
+ LOC_LOGE("%s:%d]: len = %d greater than max allowed url length\n",
+ __func__, __LINE__, len);
+
+ return LOC_API_ADAPTER_ERR_INVALID_PARAMETER;
+ }
+
+ memset(&set_server_req, 0, sizeof(set_server_req));
+
+ LOC_LOGD("%s:%d]:, url = %s, len = %d\n", __func__, __LINE__, url, len);
+
+ set_server_req.serverType = eQMI_LOC_SERVER_TYPE_UMTS_SLP_V02;
+
+ set_server_req.urlAddr_valid = 1;
+
+ strlcpy(set_server_req.urlAddr, url, sizeof(set_server_req.urlAddr));
+
+ req_union.pSetServerReq = &set_server_req;
+
+ status = loc_sync_send_req(clientHandle,
+ QMI_LOC_SET_SERVER_REQ_V02,
+ req_union, LOC_ENGINE_SYNC_REQUEST_TIMEOUT,
+ QMI_LOC_SET_SERVER_IND_V02,
+ &set_server_ind);
+
+ if (status != eLOC_CLIENT_SUCCESS ||
+ eQMI_LOC_SUCCESS_V02 != set_server_ind.status)
+ {
+ LOC_LOGE ("%s:%d]: error status = %s, set_server_ind.status = %s\n",
+ __func__,__LINE__,
+ loc_get_v02_client_status_name(status),
+ loc_get_v02_qmi_status_name(set_server_ind.status));
+ }
+
+ return convertErr(status);
+}
+
+enum loc_api_adapter_err LocApiV02 ::
+ setServer(unsigned int ip, int port, LocServerType type)
+{
+ locClientReqUnionType req_union;
+ locClientStatusEnumType status;
+ qmiLocSetServerReqMsgT_v02 set_server_req;
+ qmiLocSetServerIndMsgT_v02 set_server_ind;
+ qmiLocServerTypeEnumT_v02 set_server_cmd;
+
+ switch (type) {
+ case LOC_AGPS_MPC_SERVER:
+ set_server_cmd = eQMI_LOC_SERVER_TYPE_CDMA_MPC_V02;
+ break;
+ case LOC_AGPS_CUSTOM_PDE_SERVER:
+ set_server_cmd = eQMI_LOC_SERVER_TYPE_CUSTOM_PDE_V02;
+ break;
+ default:
+ set_server_cmd = eQMI_LOC_SERVER_TYPE_CDMA_PDE_V02;
+ break;
+ }
+
+ memset(&set_server_req, 0, sizeof(set_server_req));
+
+ LOC_LOGD("%s:%d]:, ip = %u, port = %d\n", __func__, __LINE__, ip, port);
+
+ set_server_req.serverType = set_server_cmd;
+ set_server_req.ipv4Addr_valid = 1;
+ set_server_req.ipv4Addr.addr = ip;
+ set_server_req.ipv4Addr.port = port;
+
+ req_union.pSetServerReq = &set_server_req;
+
+ status = loc_sync_send_req(clientHandle,
+ QMI_LOC_SET_SERVER_REQ_V02,
+ req_union, LOC_ENGINE_SYNC_REQUEST_TIMEOUT,
+ QMI_LOC_SET_SERVER_IND_V02,
+ &set_server_ind);
+
+ if (status != eLOC_CLIENT_SUCCESS ||
+ eQMI_LOC_SUCCESS_V02 != set_server_ind.status)
+ {
+ LOC_LOGE ("%s:%d]: error status = %s, set_server_ind.status = %s\n",
+ __func__,__LINE__,
+ loc_get_v02_client_status_name(status),
+ loc_get_v02_qmi_status_name(set_server_ind.status));
+ }
+
+ return convertErr(status);
+}
+
+/* Inject XTRA data, this module breaks down the XTRA
+ file into "chunks" and injects them one at a time */
+enum loc_api_adapter_err LocApiV02 :: setXtraData(
+ char* data, int length)
+{
+ locClientStatusEnumType status = eLOC_CLIENT_SUCCESS;
+ int total_parts;
+ uint8_t part;
+ uint16_t len_injected;
+
+ locClientReqUnionType req_union;
+ qmiLocInjectPredictedOrbitsDataReqMsgT_v02 inject_xtra;
+ qmiLocInjectPredictedOrbitsDataIndMsgT_v02 inject_xtra_ind;
+
+ req_union.pInjectPredictedOrbitsDataReq = &inject_xtra;
+
+ LOC_LOGD("%s:%d]: xtra size = %d\n", __func__, __LINE__, length);
+
+ inject_xtra.formatType_valid = 1;
+ inject_xtra.formatType = eQMI_LOC_PREDICTED_ORBITS_XTRA_V02;
+ inject_xtra.totalSize = length;
+
+ total_parts = ((length - 1) / QMI_LOC_MAX_PREDICTED_ORBITS_PART_LEN_V02) + 1;
+
+ inject_xtra.totalParts = total_parts;
+
+ len_injected = 0; // O bytes injected
+
+ // XTRA injection starts with part 1
+ for (part = 1; part <= total_parts; part++)
+ {
+ inject_xtra.partNum = part;
+
+ if (QMI_LOC_MAX_PREDICTED_ORBITS_PART_LEN_V02 > (length - len_injected))
+ {
+ inject_xtra.partData_len = length - len_injected;
+ }
+ else
+ {
+ inject_xtra.partData_len = QMI_LOC_MAX_PREDICTED_ORBITS_PART_LEN_V02;
+ }
+
+ // copy data into the message
+ memcpy(inject_xtra.partData, data+len_injected, inject_xtra.partData_len);
+
+ LOC_LOGD("[%s:%d] part %d/%d, len = %d, total injected = %d\n",
+ __func__, __LINE__,
+ inject_xtra.partNum, total_parts, inject_xtra.partData_len,
+ len_injected);
+
+ status = loc_sync_send_req( clientHandle,
+ QMI_LOC_INJECT_PREDICTED_ORBITS_DATA_REQ_V02,
+ req_union, LOC_ENGINE_SYNC_REQUEST_TIMEOUT,
+ QMI_LOC_INJECT_PREDICTED_ORBITS_DATA_IND_V02,
+ &inject_xtra_ind);
+
+ if (status != eLOC_CLIENT_SUCCESS ||
+ eQMI_LOC_SUCCESS_V02 != inject_xtra_ind.status ||
+ inject_xtra.partNum != inject_xtra_ind.partNum)
+ {
+ LOC_LOGE ("%s:%d]: failed status = %s, inject_pos_ind.status = %s,"
+ " part num = %d, ind.partNum = %d\n", __func__, __LINE__,
+ loc_get_v02_client_status_name(status),
+ loc_get_v02_qmi_status_name(inject_xtra_ind.status),
+ inject_xtra.partNum, inject_xtra_ind.partNum);
+ } else {
+ len_injected += inject_xtra.partData_len;
+ LOC_LOGD("%s:%d]: XTRA injected length: %d\n", __func__, __LINE__,
+ len_injected);
+ }
+ }
+
+ return convertErr(status);
+}
+
+/* Request the Xtra Server Url from the modem */
+enum loc_api_adapter_err LocApiV02 :: requestXtraServer()
+{
+ locClientStatusEnumType status = eLOC_CLIENT_SUCCESS;
+
+ locClientReqUnionType req_union;
+ qmiLocGetPredictedOrbitsDataSourceIndMsgT_v02 request_xtra_server_ind;
+
+ status = loc_sync_send_req( clientHandle,
+ QMI_LOC_GET_PREDICTED_ORBITS_DATA_SOURCE_REQ_V02,
+ req_union, LOC_ENGINE_SYNC_REQUEST_TIMEOUT,
+ QMI_LOC_GET_PREDICTED_ORBITS_DATA_SOURCE_IND_V02,
+ &request_xtra_server_ind);
+
+ if (status == eLOC_CLIENT_SUCCESS &&
+ eQMI_LOC_SUCCESS_V02 == request_xtra_server_ind.status &&
+ false != request_xtra_server_ind.serverList_valid &&
+ 0 != request_xtra_server_ind.serverList.serverList_len)
+ {
+ if (request_xtra_server_ind.serverList.serverList_len == 1)
+ {
+ reportXtraServer(request_xtra_server_ind.serverList.serverList[0].serverUrl,
+ "",
+ "",
+ QMI_LOC_MAX_SERVER_ADDR_LENGTH_V02);
+ }
+ else if (request_xtra_server_ind.serverList.serverList_len == 2)
+ {
+ reportXtraServer(request_xtra_server_ind.serverList.serverList[0].serverUrl,
+ request_xtra_server_ind.serverList.serverList[1].serverUrl,
+ "",
+ QMI_LOC_MAX_SERVER_ADDR_LENGTH_V02);
+ }
+ else
+ {
+ reportXtraServer(request_xtra_server_ind.serverList.serverList[0].serverUrl,
+ request_xtra_server_ind.serverList.serverList[1].serverUrl,
+ request_xtra_server_ind.serverList.serverList[2].serverUrl,
+ QMI_LOC_MAX_SERVER_ADDR_LENGTH_V02);
+ }
+ }
+
+ return convertErr(status);
+}
+
+enum loc_api_adapter_err LocApiV02 :: atlOpenStatus(
+ int handle, int is_succ, char* apn, AGpsBearerType bear,
+ AGpsType agpsType)
+{
+ locClientStatusEnumType result = eLOC_CLIENT_SUCCESS;
+ locClientReqUnionType req_union;
+ qmiLocInformLocationServerConnStatusReqMsgT_v02 conn_status_req;
+ qmiLocInformLocationServerConnStatusIndMsgT_v02 conn_status_ind;
+
+
+ LOC_LOGD("%s:%d]: ATL open handle = %d, is_succ = %d, "
+ "APN = [%s], bearer = %d \n", __func__, __LINE__,
+ handle, is_succ, apn, bear);
+
+ memset(&conn_status_req, 0, sizeof(conn_status_req));
+ memset(&conn_status_ind, 0, sizeof(conn_status_ind));
+
+ // Fill in data
+ conn_status_req.connHandle = handle;
+
+ conn_status_req.requestType = eQMI_LOC_SERVER_REQUEST_OPEN_V02;
+
+ if(is_succ)
+ {
+ conn_status_req.statusType = eQMI_LOC_SERVER_REQ_STATUS_SUCCESS_V02;
+
+ if(apn != NULL)
+ strlcpy(conn_status_req.apnProfile.apnName, apn,
+ sizeof(conn_status_req.apnProfile.apnName) );
+
+ switch(bear)
+ {
+ case AGPS_APN_BEARER_IPV4:
+ conn_status_req.apnProfile.pdnType =
+ eQMI_LOC_APN_PROFILE_PDN_TYPE_IPV4_V02;
+ conn_status_req.apnProfile_valid = 1;
+ break;
+
+ case AGPS_APN_BEARER_IPV6:
+ conn_status_req.apnProfile.pdnType =
+ eQMI_LOC_APN_PROFILE_PDN_TYPE_IPV6_V02;
+ conn_status_req.apnProfile_valid = 1;
+ break;
+
+ case AGPS_APN_BEARER_IPV4V6:
+ conn_status_req.apnProfile.pdnType =
+ eQMI_LOC_APN_PROFILE_PDN_TYPE_IPV4V6_V02;
+ conn_status_req.apnProfile_valid = 1;
+ break;
+
+ case AGPS_APN_BEARER_INVALID:
+ conn_status_req.apnProfile_valid = 0;
+ break;
+
+ default:
+ LOC_LOGE("%s:%d]:invalid bearer type\n",__func__,__LINE__);
+ conn_status_req.apnProfile_valid = 0;
+ return LOC_API_ADAPTER_ERR_INVALID_HANDLE;
+ }
+
+ }
+ else
+ {
+ conn_status_req.statusType = eQMI_LOC_SERVER_REQ_STATUS_FAILURE_V02;
+ }
+
+ req_union.pInformLocationServerConnStatusReq = &conn_status_req;
+
+ result = loc_sync_send_req(clientHandle,
+ QMI_LOC_INFORM_LOCATION_SERVER_CONN_STATUS_REQ_V02,
+ req_union, LOC_ENGINE_SYNC_REQUEST_TIMEOUT,
+ QMI_LOC_INFORM_LOCATION_SERVER_CONN_STATUS_IND_V02,
+ &conn_status_ind);
+
+ if(result != eLOC_CLIENT_SUCCESS ||
+ eQMI_LOC_SUCCESS_V02 != conn_status_ind.status)
+ {
+ LOC_LOGE ("%s:%d]: Error status = %s, ind..status = %s ",
+ __func__, __LINE__,
+ loc_get_v02_client_status_name(result),
+ loc_get_v02_qmi_status_name(conn_status_ind.status));
+ }
+
+ return convertErr(result);
+
+}
+
+
+/* close atl connection */
+enum loc_api_adapter_err LocApiV02 :: atlCloseStatus(
+ int handle, int is_succ)
+{
+ locClientStatusEnumType result = eLOC_CLIENT_SUCCESS;
+ locClientReqUnionType req_union;
+ qmiLocInformLocationServerConnStatusReqMsgT_v02 conn_status_req;
+ qmiLocInformLocationServerConnStatusIndMsgT_v02 conn_status_ind;
+
+ LOC_LOGD("%s:%d]: ATL close handle = %d, is_succ = %d\n",
+ __func__, __LINE__, handle, is_succ);
+
+ memset(&conn_status_req, 0, sizeof(conn_status_req));
+ memset(&conn_status_ind, 0, sizeof(conn_status_ind));
+
+ // Fill in data
+ conn_status_req.connHandle = handle;
+
+ conn_status_req.requestType = eQMI_LOC_SERVER_REQUEST_CLOSE_V02;
+
+ if(is_succ)
+ {
+ conn_status_req.statusType = eQMI_LOC_SERVER_REQ_STATUS_SUCCESS_V02;
+ }
+ else
+ {
+ conn_status_req.statusType = eQMI_LOC_SERVER_REQ_STATUS_FAILURE_V02;
+ }
+
+ req_union.pInformLocationServerConnStatusReq = &conn_status_req;
+
+ result = loc_sync_send_req(clientHandle,
+ QMI_LOC_INFORM_LOCATION_SERVER_CONN_STATUS_REQ_V02,
+ req_union, LOC_ENGINE_SYNC_REQUEST_TIMEOUT,
+ QMI_LOC_INFORM_LOCATION_SERVER_CONN_STATUS_IND_V02,
+ &conn_status_ind);
+
+ if(result != eLOC_CLIENT_SUCCESS ||
+ eQMI_LOC_SUCCESS_V02 != conn_status_ind.status)
+ {
+ LOC_LOGE ("%s:%d]: Error status = %s, ind..status = %s ",
+ __func__, __LINE__,
+ loc_get_v02_client_status_name(result),
+ loc_get_v02_qmi_status_name(conn_status_ind.status));
+ }
+
+ return convertErr(result);
+}
+
+/* set the SUPL version */
+enum loc_api_adapter_err LocApiV02 :: setSUPLVersion(uint32_t version)
+{
+ locClientStatusEnumType result = eLOC_CLIENT_SUCCESS;
+ locClientReqUnionType req_union;
+
+ qmiLocSetProtocolConfigParametersReqMsgT_v02 supl_config_req;
+ qmiLocSetProtocolConfigParametersIndMsgT_v02 supl_config_ind;
+
+ LOC_LOGD("%s:%d]: supl version = %d\n", __func__, __LINE__, version);
+
+
+ memset(&supl_config_req, 0, sizeof(supl_config_req));
+ memset(&supl_config_ind, 0, sizeof(supl_config_ind));
+
+ supl_config_req.suplVersion_valid = 1;
+ // SUPL version from MSByte to LSByte:
+ // (reserved)(major version)(minor version)(serviceIndicator)
+
+ supl_config_req.suplVersion = (version == 0x00020000)?
+ eQMI_LOC_SUPL_VERSION_2_0_V02 : eQMI_LOC_SUPL_VERSION_1_0_V02;
+
+ req_union.pSetProtocolConfigParametersReq = &supl_config_req;
+
+ result = loc_sync_send_req(clientHandle,
+ QMI_LOC_SET_PROTOCOL_CONFIG_PARAMETERS_REQ_V02,
+ req_union, LOC_ENGINE_SYNC_REQUEST_TIMEOUT,
+ QMI_LOC_SET_PROTOCOL_CONFIG_PARAMETERS_IND_V02,
+ &supl_config_ind);
+
+ if(result != eLOC_CLIENT_SUCCESS ||
+ eQMI_LOC_SUCCESS_V02 != supl_config_ind.status)
+ {
+ LOC_LOGE ("%s:%d]: Error status = %s, ind..status = %s ",
+ __func__, __LINE__,
+ loc_get_v02_client_status_name(result),
+ loc_get_v02_qmi_status_name(supl_config_ind.status));
+ }
+
+ return convertErr(result);
+}
+
+/* set the configuration for LTE positioning profile (LPP) */
+enum loc_api_adapter_err LocApiV02 :: setLPPConfig(uint32_t profile)
+{
+ locClientStatusEnumType result = eLOC_CLIENT_SUCCESS;
+ locClientReqUnionType req_union;
+ qmiLocSetProtocolConfigParametersReqMsgT_v02 lpp_config_req;
+ qmiLocSetProtocolConfigParametersIndMsgT_v02 lpp_config_ind;
+
+ LOC_LOGD("%s:%d]: lpp profile = %d\n", __func__, __LINE__, profile);
+
+ memset(&lpp_config_req, 0, sizeof(lpp_config_req));
+ memset(&lpp_config_ind, 0, sizeof(lpp_config_ind));
+
+ lpp_config_req.lppConfig_valid = 1;
+
+ lpp_config_req.lppConfig = profile;
+
+ req_union.pSetProtocolConfigParametersReq = &lpp_config_req;
+
+ result = loc_sync_send_req(clientHandle,
+ QMI_LOC_SET_PROTOCOL_CONFIG_PARAMETERS_REQ_V02,
+ req_union, LOC_ENGINE_SYNC_REQUEST_TIMEOUT,
+ QMI_LOC_SET_PROTOCOL_CONFIG_PARAMETERS_IND_V02,
+ &lpp_config_ind);
+
+ if(result != eLOC_CLIENT_SUCCESS ||
+ eQMI_LOC_SUCCESS_V02 != lpp_config_ind.status)
+ {
+ LOC_LOGE ("%s:%d]: Error status = %s, ind..status = %s ",
+ __func__, __LINE__,
+ loc_get_v02_client_status_name(result),
+ loc_get_v02_qmi_status_name(lpp_config_ind.status));
+ }
+
+ return convertErr(result);
+}
+
+/* set the Sensor Configuration */
+enum loc_api_adapter_err LocApiV02 :: setSensorControlConfig(
+ int sensorsDisabled, int sensorProvider)
+{
+ locClientStatusEnumType result = eLOC_CLIENT_SUCCESS;
+ locClientReqUnionType req_union;
+
+ qmiLocSetSensorControlConfigReqMsgT_v02 sensor_config_req;
+ qmiLocSetSensorControlConfigIndMsgT_v02 sensor_config_ind;
+
+ LOC_LOGD("%s:%d]: sensors disabled = %d\n", __func__, __LINE__, sensorsDisabled);
+
+ memset(&sensor_config_req, 0, sizeof(sensor_config_req));
+ memset(&sensor_config_ind, 0, sizeof(sensor_config_ind));
+
+ sensor_config_req.sensorsUsage_valid = 1;
+ sensor_config_req.sensorsUsage = (sensorsDisabled == 1) ? eQMI_LOC_SENSOR_CONFIG_SENSOR_USE_DISABLE_V02
+ : eQMI_LOC_SENSOR_CONFIG_SENSOR_USE_ENABLE_V02;
+
+ sensor_config_req.sensorProvider_valid = 1;
+ sensor_config_req.sensorProvider = (sensorProvider == 1 || sensorProvider == 4) ?
+ eQMI_LOC_SENSOR_CONFIG_USE_PROVIDER_SSC_V02 :
+ eQMI_LOC_SENSOR_CONFIG_USE_PROVIDER_NATIVE_V02;
+
+ req_union.pSetSensorControlConfigReq = &sensor_config_req;
+
+ result = loc_sync_send_req(clientHandle,
+ QMI_LOC_SET_SENSOR_CONTROL_CONFIG_REQ_V02,
+ req_union, LOC_ENGINE_SYNC_REQUEST_TIMEOUT,
+ QMI_LOC_SET_SENSOR_CONTROL_CONFIG_IND_V02,
+ &sensor_config_ind);
+
+ if(result != eLOC_CLIENT_SUCCESS ||
+ eQMI_LOC_SUCCESS_V02 != sensor_config_ind.status)
+ {
+ LOC_LOGE ("%s:%d]: Error status = %s, ind..status = %s ",
+ __func__, __LINE__,
+ loc_get_v02_client_status_name(result),
+ loc_get_v02_qmi_status_name(sensor_config_ind.status));
+ }
+
+ return convertErr(result);
+}
+
+/* set the Sensor Properties */
+enum loc_api_adapter_err LocApiV02 :: setSensorProperties(bool gyroBiasVarianceRandomWalk_valid, float gyroBiasVarianceRandomWalk,
+ bool accelBiasVarianceRandomWalk_valid, float accelBiasVarianceRandomWalk,
+ bool angleBiasVarianceRandomWalk_valid, float angleBiasVarianceRandomWalk,
+ bool rateBiasVarianceRandomWalk_valid, float rateBiasVarianceRandomWalk,
+ bool velocityBiasVarianceRandomWalk_valid, float velocityBiasVarianceRandomWalk)
+{
+ locClientStatusEnumType result = eLOC_CLIENT_SUCCESS;
+ locClientReqUnionType req_union;
+
+ qmiLocSetSensorPropertiesReqMsgT_v02 sensor_prop_req;
+ qmiLocSetSensorPropertiesIndMsgT_v02 sensor_prop_ind;
+
+ LOC_LOGI("%s:%d]: sensors prop: gyroBiasRandomWalk = %f, accelRandomWalk = %f, "
+ "angleRandomWalk = %f, rateRandomWalk = %f, velocityRandomWalk = %f\n",
+ __func__, __LINE__, gyroBiasVarianceRandomWalk, accelBiasVarianceRandomWalk,
+ angleBiasVarianceRandomWalk, rateBiasVarianceRandomWalk, velocityBiasVarianceRandomWalk);
+
+ memset(&sensor_prop_req, 0, sizeof(sensor_prop_req));
+ memset(&sensor_prop_ind, 0, sizeof(sensor_prop_ind));
+
+ /* Set the validity bit and value for each sensor property */
+ sensor_prop_req.gyroBiasVarianceRandomWalk_valid = gyroBiasVarianceRandomWalk_valid;
+ sensor_prop_req.gyroBiasVarianceRandomWalk = gyroBiasVarianceRandomWalk;
+
+ sensor_prop_req.accelerationRandomWalkSpectralDensity_valid = accelBiasVarianceRandomWalk_valid;
+ sensor_prop_req.accelerationRandomWalkSpectralDensity = accelBiasVarianceRandomWalk;
+
+ sensor_prop_req.angleRandomWalkSpectralDensity_valid = angleBiasVarianceRandomWalk_valid;
+ sensor_prop_req.angleRandomWalkSpectralDensity = angleBiasVarianceRandomWalk;
+
+ sensor_prop_req.rateRandomWalkSpectralDensity_valid = rateBiasVarianceRandomWalk_valid;
+ sensor_prop_req.rateRandomWalkSpectralDensity = rateBiasVarianceRandomWalk;
+
+ sensor_prop_req.velocityRandomWalkSpectralDensity_valid = velocityBiasVarianceRandomWalk_valid;
+ sensor_prop_req.velocityRandomWalkSpectralDensity = velocityBiasVarianceRandomWalk;
+
+ req_union.pSetSensorPropertiesReq = &sensor_prop_req;
+
+ result = loc_sync_send_req(clientHandle,
+ QMI_LOC_SET_SENSOR_PROPERTIES_REQ_V02,
+ req_union, LOC_ENGINE_SYNC_REQUEST_TIMEOUT,
+ QMI_LOC_SET_SENSOR_PROPERTIES_IND_V02,
+ &sensor_prop_ind);
+
+ if(result != eLOC_CLIENT_SUCCESS ||
+ eQMI_LOC_SUCCESS_V02 != sensor_prop_ind.status)
+ {
+ LOC_LOGE ("%s:%d]: Error status = %s, ind..status = %s ",
+ __func__, __LINE__,
+ loc_get_v02_client_status_name(result),
+ loc_get_v02_qmi_status_name(sensor_prop_ind.status));
+ }
+
+ return convertErr(result);
+}
+
+/* set the Sensor Performance Config */
+enum loc_api_adapter_err LocApiV02 :: setSensorPerfControlConfig(int controlMode,
+ int accelSamplesPerBatch, int accelBatchesPerSec,
+ int gyroSamplesPerBatch, int gyroBatchesPerSec,
+ int accelSamplesPerBatchHigh, int accelBatchesPerSecHigh,
+ int gyroSamplesPerBatchHigh, int gyroBatchesPerSecHigh,
+ int algorithmConfig)
+{
+ locClientStatusEnumType result = eLOC_CLIENT_SUCCESS;
+ locClientReqUnionType req_union;
+
+ qmiLocSetSensorPerformanceControlConfigReqMsgT_v02 sensor_perf_config_req;
+ qmiLocSetSensorPerformanceControlConfigIndMsgT_v02 sensor_perf_config_ind;
+
+ LOC_LOGD("%s:%d]: Sensor Perf Control Config (performanceControlMode)(%u) "
+ "accel(#smp,#batches) (%u,%u) gyro(#smp,#batches) (%u,%u) "
+ "accel_high(#smp,#batches) (%u,%u) gyro_high(#smp,#batches) (%u,%u) "
+ "algorithmConfig(%u)\n",
+ __FUNCTION__,
+ __LINE__,
+ controlMode,
+ accelSamplesPerBatch,
+ accelBatchesPerSec,
+ gyroSamplesPerBatch,
+ gyroBatchesPerSec,
+ accelSamplesPerBatchHigh,
+ accelBatchesPerSecHigh,
+ gyroSamplesPerBatchHigh,
+ gyroBatchesPerSecHigh,
+ algorithmConfig
+ );
+
+ memset(&sensor_perf_config_req, 0, sizeof(sensor_perf_config_req));
+ memset(&sensor_perf_config_ind, 0, sizeof(sensor_perf_config_ind));
+
+ sensor_perf_config_req.performanceControlMode_valid = 1;
+ sensor_perf_config_req.performanceControlMode = (qmiLocSensorPerformanceControlModeEnumT_v02)controlMode;
+ sensor_perf_config_req.accelSamplingSpec_valid = 1;
+ sensor_perf_config_req.accelSamplingSpec.batchesPerSecond = accelBatchesPerSec;
+ sensor_perf_config_req.accelSamplingSpec.samplesPerBatch = accelSamplesPerBatch;
+ sensor_perf_config_req.gyroSamplingSpec_valid = 1;
+ sensor_perf_config_req.gyroSamplingSpec.batchesPerSecond = gyroBatchesPerSec;
+ sensor_perf_config_req.gyroSamplingSpec.samplesPerBatch = gyroSamplesPerBatch;
+ sensor_perf_config_req.accelSamplingSpecHigh_valid = 1;
+ sensor_perf_config_req.accelSamplingSpecHigh.batchesPerSecond = accelBatchesPerSecHigh;
+ sensor_perf_config_req.accelSamplingSpecHigh.samplesPerBatch = accelSamplesPerBatchHigh;
+ sensor_perf_config_req.gyroSamplingSpecHigh_valid = 1;
+ sensor_perf_config_req.gyroSamplingSpecHigh.batchesPerSecond = gyroBatchesPerSecHigh;
+ sensor_perf_config_req.gyroSamplingSpecHigh.samplesPerBatch = gyroSamplesPerBatchHigh;
+ sensor_perf_config_req.algorithmConfig_valid = 1;
+ sensor_perf_config_req.algorithmConfig = algorithmConfig;
+
+ req_union.pSetSensorPerformanceControlConfigReq = &sensor_perf_config_req;
+
+ result = loc_sync_send_req(clientHandle,
+ QMI_LOC_SET_SENSOR_PERFORMANCE_CONTROL_CONFIGURATION_REQ_V02,
+ req_union, LOC_ENGINE_SYNC_REQUEST_TIMEOUT,
+ QMI_LOC_SET_SENSOR_PERFORMANCE_CONTROL_CONFIGURATION_IND_V02,
+ &sensor_perf_config_ind);
+
+ if(result != eLOC_CLIENT_SUCCESS ||
+ eQMI_LOC_SUCCESS_V02 != sensor_perf_config_ind.status)
+ {
+ LOC_LOGE ("%s:%d]: Error status = %s, ind..status = %s ",
+ __func__, __LINE__,
+ loc_get_v02_client_status_name(result),
+ loc_get_v02_qmi_status_name(sensor_perf_config_ind.status));
+ }
+
+ return convertErr(result);
+}
+
+/* set the External Power Config */
+enum loc_api_adapter_err LocApiV02 :: setExtPowerConfig(int isBatteryCharging)
+{
+ locClientStatusEnumType result = eLOC_CLIENT_SUCCESS;
+ locClientReqUnionType req_union;
+
+ qmiLocSetExternalPowerConfigReqMsgT_v02 ext_pwr_req;
+ qmiLocGetExternalPowerConfigIndMsgT_v02 ext_pwr_ind;
+
+ LOC_LOGI("%s:%d]: Ext Pwr Config (isBatteryCharging)(%u)",
+ __FUNCTION__,
+ __LINE__,
+ isBatteryCharging
+ );
+
+ memset(&ext_pwr_req, 0, sizeof(ext_pwr_req));
+ memset(&ext_pwr_ind, 0, sizeof(ext_pwr_ind));
+
+ switch(isBatteryCharging)
+ {
+ /* Charging */
+ case 1:
+ ext_pwr_req.externalPowerState = eQMI_LOC_EXTERNAL_POWER_CONNECTED_V02;
+ break;
+
+ /* Not charging */
+ case 0:
+ ext_pwr_req.externalPowerState = eQMI_LOC_EXTERNAL_POWER_NOT_CONNECTED_V02;
+ break;
+
+ default:
+ LOC_LOGE("%s:%d]: Invalid ext power state = %d!",
+ __FUNCTION__,
+ __LINE__,
+ isBatteryCharging);
+ return LOC_API_ADAPTER_ERR_INVALID_PARAMETER;
+ break;
+ }
+
+ req_union.pSetExternalPowerConfigReq = &ext_pwr_req;
+
+ result = loc_sync_send_req(clientHandle,
+ QMI_LOC_SET_EXTERNAL_POWER_CONFIG_REQ_V02,
+ req_union, LOC_ENGINE_SYNC_REQUEST_TIMEOUT,
+ QMI_LOC_SET_EXTERNAL_POWER_CONFIG_IND_V02,
+ &ext_pwr_ind);
+
+ if(result != eLOC_CLIENT_SUCCESS ||
+ eQMI_LOC_SUCCESS_V02 != ext_pwr_ind.status)
+ {
+ LOC_LOGE ("%s:%d]: Error status = %d, ind..status = %d ",
+ __func__, __LINE__, result, ext_pwr_ind.status);
+ }
+
+ return convertErr(result);
+}
+
+/* set the Positioning Protocol on A-GLONASS system */
+enum loc_api_adapter_err LocApiV02 :: setAGLONASSProtocol(unsigned long aGlonassProtocol)
+{
+ locClientStatusEnumType result = eLOC_CLIENT_SUCCESS;
+ locClientReqUnionType req_union;
+ qmiLocSetProtocolConfigParametersReqMsgT_v02 aGlonassProtocol_req;
+ qmiLocSetProtocolConfigParametersIndMsgT_v02 aGlonassProtocol_ind;
+
+ memset(&aGlonassProtocol_req, 0, sizeof(aGlonassProtocol_req));
+ memset(&aGlonassProtocol_ind, 0, sizeof(aGlonassProtocol_ind));
+
+ aGlonassProtocol_req.assistedGlonassProtocolMask_valid = 1;
+ aGlonassProtocol_req.assistedGlonassProtocolMask = aGlonassProtocol;
+
+ req_union.pSetProtocolConfigParametersReq = &aGlonassProtocol_req;
+
+ LOC_LOGD("%s:%d]: aGlonassProtocolMask = 0x%x\n", __func__, __LINE__,
+ aGlonassProtocol_req.assistedGlonassProtocolMask);
+
+ result = loc_sync_send_req(clientHandle,
+ QMI_LOC_SET_PROTOCOL_CONFIG_PARAMETERS_REQ_V02,
+ req_union, LOC_ENGINE_SYNC_REQUEST_TIMEOUT,
+ QMI_LOC_SET_PROTOCOL_CONFIG_PARAMETERS_IND_V02,
+ &aGlonassProtocol_ind);
+
+ if(result != eLOC_CLIENT_SUCCESS ||
+ eQMI_LOC_SUCCESS_V02 != aGlonassProtocol_ind.status)
+ {
+ LOC_LOGE ("%s:%d]: Error status = %s, ind..status = %s ",
+ __func__, __LINE__,
+ loc_get_v02_client_status_name(result),
+ loc_get_v02_qmi_status_name(aGlonassProtocol_ind.status));
+ }
+
+ return convertErr(result);
+}
+
+/* Convert event mask from loc eng to loc_api_v02 format */
+locClientEventMaskType LocApiV02 :: convertMask(
+ LOC_API_ADAPTER_EVENT_MASK_T mask)
+{
+ locClientEventMaskType eventMask = 0;
+ LOC_LOGD("%s:%d]: adapter mask = %u\n", __func__, __LINE__, mask);
+
+ if (mask & LOC_API_ADAPTER_BIT_PARSED_POSITION_REPORT)
+ eventMask |= QMI_LOC_EVENT_MASK_POSITION_REPORT_V02;
+
+ if (mask & LOC_API_ADAPTER_BIT_SATELLITE_REPORT)
+ eventMask |= QMI_LOC_EVENT_MASK_GNSS_SV_INFO_V02;
+
+ /* treat NMEA_1Hz and NMEA_POSITION_REPORT the same*/
+ if ((mask & LOC_API_ADAPTER_BIT_NMEA_POSITION_REPORT) ||
+ (mask & LOC_API_ADAPTER_BIT_NMEA_1HZ_REPORT) )
+ eventMask |= QMI_LOC_EVENT_MASK_NMEA_V02;
+
+ if (mask & LOC_API_ADAPTER_BIT_NI_NOTIFY_VERIFY_REQUEST)
+ eventMask |= QMI_LOC_EVENT_MASK_NI_NOTIFY_VERIFY_REQ_V02;
+
+ if (mask & LOC_API_ADAPTER_BIT_ASSISTANCE_DATA_REQUEST)
+ {
+ // TBD: This needs to be decoupled in the HAL
+ eventMask |= QMI_LOC_EVENT_MASK_INJECT_PREDICTED_ORBITS_REQ_V02;
+ eventMask |= QMI_LOC_EVENT_MASK_INJECT_TIME_REQ_V02;
+ eventMask |= QMI_LOC_EVENT_MASK_INJECT_POSITION_REQ_V02;
+ }
+
+ if (mask & LOC_API_ADAPTER_BIT_STATUS_REPORT)
+ {
+ eventMask |= (QMI_LOC_EVENT_MASK_ENGINE_STATE_V02);
+ }
+
+ if (mask & LOC_API_ADAPTER_BIT_LOCATION_SERVER_REQUEST)
+ eventMask |= QMI_LOC_EVENT_MASK_LOCATION_SERVER_CONNECTION_REQ_V02;
+
+ if (mask & LOC_API_ADAPTER_REQUEST_WIFI)
+ eventMask |= QMI_LOC_EVENT_MASK_WIFI_REQ_V02;
+
+ if (mask & LOC_API_ADAPTER_SENSOR_STATUS)
+ eventMask |= QMI_LOC_EVENT_MASK_SENSOR_STREAMING_READY_STATUS_V02;
+
+ if (mask & LOC_API_ADAPTER_REQUEST_TIME_SYNC)
+ eventMask |= QMI_LOC_EVENT_MASK_TIME_SYNC_REQ_V02;
+
+ if (mask & LOC_API_ADAPTER_REPORT_SPI)
+ eventMask |= QMI_LOC_EVENT_MASK_SET_SPI_STREAMING_REPORT_V02;
+
+ if (mask & LOC_API_ADAPTER_REPORT_NI_GEOFENCE)
+ eventMask |= QMI_LOC_EVENT_MASK_NI_GEOFENCE_NOTIFICATION_V02;
+
+ if (mask & LOC_API_ADAPTER_GEOFENCE_GEN_ALERT)
+ eventMask |= QMI_LOC_EVENT_MASK_GEOFENCE_GEN_ALERT_V02;
+
+ if (mask & LOC_API_ADAPTER_REPORT_GENFENCE_BREACH)
+ eventMask |= QMI_LOC_EVENT_MASK_GEOFENCE_BREACH_NOTIFICATION_V02;
+
+ if (mask & LOC_API_ADAPTER_BATCHED_GENFENCE_BREACH_REPORT)
+ eventMask |= QMI_LOC_EVENT_MASK_GEOFENCE_BATCH_BREACH_NOTIFICATION_V02;
+
+ if (mask & LOC_API_ADAPTER_PEDOMETER_CTRL)
+ eventMask |= QMI_LOC_EVENT_MASK_PEDOMETER_CONTROL_V02;
+
+ if (mask & LOC_API_ADAPTER_MOTION_CTRL)
+ eventMask |= QMI_LOC_EVENT_MASK_MOTION_DATA_CONTROL_V02;
+
+ if (mask & LOC_API_ADAPTER_REQUEST_WIFI_AP_DATA)
+ eventMask |= QMI_LOC_EVENT_MASK_INJECT_WIFI_AP_DATA_REQ_V02;
+
+ if(mask & LOC_API_ADAPTER_BIT_BATCH_FULL)
+ eventMask |= QMI_LOC_EVENT_MASK_BATCH_FULL_NOTIFICATION_V02;
+
+ if(mask & LOC_API_ADAPTER_BIT_BATCHED_POSITION_REPORT)
+ eventMask |= QMI_LOC_EVENT_MASK_LIVE_BATCHED_POSITION_REPORT_V02;
+
+ // for GDT
+ if(mask & LOC_API_ADAPTER_BIT_GDT_UPLOAD_BEGIN_REQ)
+ eventMask |= QMI_LOC_EVENT_MASK_GDT_UPLOAD_BEGIN_REQ_V02;
+
+ if(mask & LOC_API_ADAPTER_BIT_GDT_UPLOAD_END_REQ)
+ eventMask |= QMI_LOC_EVENT_MASK_GDT_UPLOAD_END_REQ_V02;
+
+ if (mask & LOC_API_ADAPTER_BIT_GNSS_MEASUREMENT)
+ eventMask |= QMI_LOC_EVENT_MASK_GNSS_MEASUREMENT_REPORT_V02;
+
+ return eventMask;
+}
+
+qmiLocLockEnumT_v02 LocApiV02 :: convertGpsLockMask(LOC_GPS_LOCK_MASK lockMask)
+{
+ if (isGpsLockAll(lockMask))
+ return eQMI_LOC_LOCK_ALL_V02;
+ if (isGpsLockMO(lockMask))
+ return eQMI_LOC_LOCK_MI_V02;
+ if (isGpsLockMT(lockMask))
+ return eQMI_LOC_LOCK_MT_V02;
+ if (isGpsLockNone(lockMask))
+ return eQMI_LOC_LOCK_NONE_V02;
+ return (qmiLocLockEnumT_v02)lockMask;
+}
+
+/* Convert error from loc_api_v02 to loc eng format*/
+enum loc_api_adapter_err LocApiV02 :: convertErr(
+ locClientStatusEnumType status)
+{
+ switch( status)
+ {
+ case eLOC_CLIENT_SUCCESS:
+ return LOC_API_ADAPTER_ERR_SUCCESS;
+
+ case eLOC_CLIENT_FAILURE_GENERAL:
+ return LOC_API_ADAPTER_ERR_GENERAL_FAILURE;
+
+ case eLOC_CLIENT_FAILURE_UNSUPPORTED:
+ return LOC_API_ADAPTER_ERR_UNSUPPORTED;
+
+ case eLOC_CLIENT_FAILURE_INVALID_PARAMETER:
+ return LOC_API_ADAPTER_ERR_INVALID_PARAMETER;
+
+ case eLOC_CLIENT_FAILURE_ENGINE_BUSY:
+ return LOC_API_ADAPTER_ERR_ENGINE_BUSY;
+
+ case eLOC_CLIENT_FAILURE_PHONE_OFFLINE:
+ return LOC_API_ADAPTER_ERR_PHONE_OFFLINE;
+
+ case eLOC_CLIENT_FAILURE_TIMEOUT:
+ return LOC_API_ADAPTER_ERR_TIMEOUT;
+
+ case eLOC_CLIENT_FAILURE_INVALID_HANDLE:
+ return LOC_API_ADAPTER_ERR_INVALID_HANDLE;
+
+ case eLOC_CLIENT_FAILURE_SERVICE_NOT_PRESENT:
+ return LOC_API_ADAPTER_ERR_SERVICE_NOT_PRESENT;
+
+ case eLOC_CLIENT_FAILURE_INTERNAL:
+ return LOC_API_ADAPTER_ERR_INTERNAL;
+
+ default:
+ return LOC_API_ADAPTER_ERR_FAILURE;
+ }
+}
+
+/* convert position report to loc eng format and send the converted
+ position to loc eng */
+
+void LocApiV02 :: reportPosition (
+ const qmiLocEventPositionReportIndMsgT_v02 *location_report_ptr)
+{
+ UlpLocation location;
+ LocPosTechMask tech_Mask = LOC_POS_TECH_MASK_DEFAULT;
+ LOC_LOGD("Reporting postion from V2 Adapter\n");
+ memset(&location, 0, sizeof (UlpLocation));
+ location.size = sizeof(location);
+ GpsLocationExtended locationExtended;
+ memset(&locationExtended, 0, sizeof (GpsLocationExtended));
+ locationExtended.size = sizeof(locationExtended);
+ // Process the position from final and intermediate reports
+
+ if( (location_report_ptr->sessionStatus == eQMI_LOC_SESS_STATUS_SUCCESS_V02) ||
+ (location_report_ptr->sessionStatus == eQMI_LOC_SESS_STATUS_IN_PROGRESS_V02)
+ )
+ {
+ // Latitude & Longitude
+ if( (location_report_ptr->latitude_valid == 1 ) &&
+ (location_report_ptr->longitude_valid == 1) &&
+ (location_report_ptr->latitude != 0 ||
+ location_report_ptr->longitude!= 0))
+ {
+ location.gpsLocation.flags |= GPS_LOCATION_HAS_LAT_LONG;
+ location.gpsLocation.latitude = location_report_ptr->latitude;
+ location.gpsLocation.longitude = location_report_ptr->longitude;
+
+ // Time stamp (UTC)
+ if(location_report_ptr->timestampUtc_valid == 1)
+ {
+ location.gpsLocation.timestamp = location_report_ptr->timestampUtc;
+ }
+
+ // Altitude
+ if(location_report_ptr->altitudeWrtEllipsoid_valid == 1 )
+ {
+ location.gpsLocation.flags |= GPS_LOCATION_HAS_ALTITUDE;
+ location.gpsLocation.altitude = location_report_ptr->altitudeWrtEllipsoid;
+ }
+
+ // Speed
+ if((location_report_ptr->speedHorizontal_valid == 1) &&
+ (location_report_ptr->speedVertical_valid ==1 ) )
+ {
+ location.gpsLocation.flags |= GPS_LOCATION_HAS_SPEED;
+ location.gpsLocation.speed = sqrt(
+ (location_report_ptr->speedHorizontal *
+ location_report_ptr->speedHorizontal) +
+ (location_report_ptr->speedVertical *
+ location_report_ptr->speedVertical) );
+ }
+
+ // Heading
+ if(location_report_ptr->heading_valid == 1)
+ {
+ location.gpsLocation.flags |= GPS_LOCATION_HAS_BEARING;
+ location.gpsLocation.bearing = location_report_ptr->heading;
+ }
+
+ // Uncertainty (circular)
+ if (location_report_ptr->horUncCircular_valid) {
+ location.gpsLocation.flags |= GPS_LOCATION_HAS_ACCURACY;
+ location.gpsLocation.accuracy = location_report_ptr->horUncCircular;
+ } else if (location_report_ptr->horUncEllipseSemiMinor_valid &&
+ location_report_ptr->horUncEllipseSemiMajor_valid) {
+ location.gpsLocation.flags |= GPS_LOCATION_HAS_ACCURACY;
+ location.gpsLocation.accuracy =
+ sqrt((location_report_ptr->horUncEllipseSemiMinor *
+ location_report_ptr->horUncEllipseSemiMinor) +
+ (location_report_ptr->horUncEllipseSemiMajor *
+ location_report_ptr->horUncEllipseSemiMajor));
+ }
+
+ // Technology Mask
+ tech_Mask |= location_report_ptr->technologyMask;
+
+ //Mark the location source as from GNSS
+ location.gpsLocation.flags |= LOCATION_HAS_SOURCE_INFO;
+ location.position_source = ULP_LOCATION_IS_FROM_GNSS;
+ if (location_report_ptr->magneticDeviation_valid)
+ {
+ locationExtended.flags |= GPS_LOCATION_EXTENDED_HAS_MAG_DEV;
+ locationExtended.magneticDeviation = location_report_ptr->magneticDeviation;
+ }
+
+ if (location_report_ptr->DOP_valid)
+ {
+ locationExtended.flags |= GPS_LOCATION_EXTENDED_HAS_DOP;
+ locationExtended.pdop = location_report_ptr->DOP.PDOP;
+ locationExtended.hdop = location_report_ptr->DOP.HDOP;
+ locationExtended.vdop = location_report_ptr->DOP.VDOP;
+ }
+
+ if (location_report_ptr->altitudeWrtMeanSeaLevel_valid)
+ {
+ locationExtended.flags |= GPS_LOCATION_EXTENDED_HAS_ALTITUDE_MEAN_SEA_LEVEL;
+ locationExtended.altitudeMeanSeaLevel = location_report_ptr->altitudeWrtMeanSeaLevel;
+ }
+
+ if (location_report_ptr->vertUnc_valid)
+ {
+ locationExtended.flags |= GPS_LOCATION_EXTENDED_HAS_VERT_UNC;
+ locationExtended.vert_unc = location_report_ptr->vertUnc;
+ }
+
+ if (location_report_ptr->speedUnc_valid )
+ {
+ locationExtended.flags |= GPS_LOCATION_EXTENDED_HAS_SPEED_UNC;
+ locationExtended.speed_unc = location_report_ptr->speedUnc;
+ }
+
+ LocApiBase::reportPosition( location,
+ locationExtended,
+ (void*)location_report_ptr,
+ (location_report_ptr->sessionStatus
+ == eQMI_LOC_SESS_STATUS_IN_PROGRESS_V02 ?
+ LOC_SESS_INTERMEDIATE : LOC_SESS_SUCCESS),
+ tech_Mask);
+ }
+ }
+ else
+ {
+ LocApiBase::reportPosition(location,
+ locationExtended,
+ NULL,
+ LOC_SESS_FAILURE);
+
+ LOC_LOGD("%s:%d]: Ignoring position report with sess status = %d, "
+ "fix id = %u\n", __func__, __LINE__,
+ location_report_ptr->sessionStatus,
+ location_report_ptr->fixId );
+ }
+}
+
+/* convert satellite report to loc eng format and send the converted
+ report to loc eng */
+void LocApiV02 :: reportSv (
+ const qmiLocEventGnssSvInfoIndMsgT_v02 *gnss_report_ptr)
+{
+ GpsSvStatus SvStatus;
+ GpsLocationExtended locationExtended;
+ int num_svs_max, i;
+ const qmiLocSvInfoStructT_v02 *sv_info_ptr;
+
+ LOC_LOGV ("%s:%d]: num of sv = %d, validity = %d, altitude assumed = %u \n",
+ __func__, __LINE__, gnss_report_ptr->svList_len,
+ gnss_report_ptr->svList_valid,
+ gnss_report_ptr->altitudeAssumed);
+
+ num_svs_max = 0;
+ memset (&SvStatus, 0, sizeof (GpsSvStatus));
+ memset(&locationExtended, 0, sizeof (GpsLocationExtended));
+ locationExtended.size = sizeof(locationExtended);
+ if(gnss_report_ptr->svList_valid == 1)
+ {
+ num_svs_max = gnss_report_ptr->svList_len;
+ if(num_svs_max > GPS_MAX_SVS)
+ {
+ num_svs_max = GPS_MAX_SVS;
+ }
+ SvStatus.num_svs = 0;
+ for(i = 0; i < num_svs_max; i++)
+ {
+ sv_info_ptr = &(gnss_report_ptr->svList[i]);
+ if((sv_info_ptr->validMask & QMI_LOC_SV_INFO_MASK_VALID_SYSTEM_V02) &&
+ (sv_info_ptr->validMask & QMI_LOC_SV_INFO_MASK_VALID_GNSS_SVID_V02)
+ && (sv_info_ptr->gnssSvId != 0 ))
+ {
+ if(sv_info_ptr->system == eQMI_LOC_SV_SYSTEM_GPS_V02)
+ {
+ SvStatus.sv_list[SvStatus.num_svs].size = sizeof(GpsSvStatus);
+ SvStatus.sv_list[SvStatus.num_svs].prn = (int)sv_info_ptr->gnssSvId;
+
+ // We only have the data field to report gps eph and alm mask
+ if(sv_info_ptr->validMask &
+ QMI_LOC_SV_INFO_MASK_VALID_SVINFO_MASK_V02)
+ {
+ if(sv_info_ptr->svInfoMask &
+ QMI_LOC_SVINFO_MASK_HAS_EPHEMERIS_V02)
+ {
+ SvStatus.ephemeris_mask |= (1 << (sv_info_ptr->gnssSvId-1));
+ }
+ if(sv_info_ptr->svInfoMask &
+ QMI_LOC_SVINFO_MASK_HAS_ALMANAC_V02)
+ {
+ SvStatus.almanac_mask |= (1 << (sv_info_ptr->gnssSvId-1));
+ }
+ }
+
+ if((sv_info_ptr->validMask &
+ QMI_LOC_SV_INFO_MASK_VALID_PROCESS_STATUS_V02)
+ &&
+ (sv_info_ptr->svStatus == eQMI_LOC_SV_STATUS_TRACK_V02))
+ {
+ SvStatus.used_in_fix_mask |= (1 << (sv_info_ptr->gnssSvId-1));
+ }
+ }
+ // SBAS: GPS PRN: 120-151,
+ // In exteneded measurement report, we follow nmea standard,
+ // which is from 33-64.
+ else if(sv_info_ptr->system == eQMI_LOC_SV_SYSTEM_SBAS_V02)
+ {
+ SvStatus.sv_list[SvStatus.num_svs].prn =
+ sv_info_ptr->gnssSvId + 33 - 120;
+ }
+ // Gloness: Slot id: 1-32
+ // In extended measurement report, we follow nmea standard,
+ // which is 65-96
+ else if(sv_info_ptr->system == eQMI_LOC_SV_SYSTEM_GLONASS_V02)
+ {
+ SvStatus.sv_list[SvStatus.num_svs].prn =
+ sv_info_ptr->gnssSvId + (65-1);
+ }
+ //BeiDou: Slot id: 1-37
+ //In extended measurement report, we follow nmea standard,
+ //which is 201-237
+ else if(sv_info_ptr->system == eQMI_LOC_SV_SYSTEM_BDS_V02)
+ {
+ SvStatus.sv_list[SvStatus.num_svs].prn =
+ sv_info_ptr->gnssSvId;
+ }
+ // Unsupported SV system
+ else
+ {
+ continue;
+ }
+ }
+
+ if(sv_info_ptr->validMask & QMI_LOC_SV_INFO_MASK_VALID_SNR_V02 )
+ {
+ SvStatus.sv_list[SvStatus.num_svs].snr = sv_info_ptr->snr;
+ }
+
+ if(sv_info_ptr->validMask & QMI_LOC_SV_INFO_MASK_VALID_ELEVATION_V02)
+ {
+ SvStatus.sv_list[SvStatus.num_svs].elevation = sv_info_ptr->elevation;
+ }
+
+ if(sv_info_ptr->validMask & QMI_LOC_SV_INFO_MASK_VALID_AZIMUTH_V02)
+ {
+ SvStatus.sv_list[SvStatus.num_svs].azimuth = sv_info_ptr->azimuth;
+ }
+
+ SvStatus.num_svs++;
+ }
+ }
+
+ if (SvStatus.num_svs >= 0)
+ {
+ LOC_LOGV ("%s:%d]: firing SV callback\n", __func__, __LINE__);
+ LocApiBase::reportSv(SvStatus,
+ locationExtended,
+ (void*)gnss_report_ptr);
+ }
+}
+
+/* convert engine state report to loc eng format and send the converted
+ report to loc eng */
+void LocApiV02 :: reportEngineState (
+ const qmiLocEventEngineStateIndMsgT_v02 *engine_state_ptr)
+{
+
+ LOC_LOGV("%s:%d]: state = %d\n", __func__, __LINE__,
+ engine_state_ptr->engineState);
+
+ struct MsgUpdateEngineState : public LocMsg {
+ LocApiV02* mpLocApiV02;
+ bool mEngineOn;
+ inline MsgUpdateEngineState(LocApiV02* pLocApiV02, bool engineOn) :
+ LocMsg(), mpLocApiV02(pLocApiV02), mEngineOn(engineOn) {}
+ inline virtual void proc() const {
+ // If EngineOn is true and InSession is false and Engine is just turned off,
+ // then unregister the gps tracking specific event masks
+ if (mpLocApiV02->mEngineOn && !mpLocApiV02->mInSession && !mEngineOn) {
+ mpLocApiV02->registerEventMask(mpLocApiV02->mQmiMask);
+ }
+ mpLocApiV02->mEngineOn = mEngineOn;
+
+ if (mEngineOn) {
+ // if EngineOn and not InSession, then we have already stopped
+ // the fix, so do not send ENGINE_ON
+ if (mpLocApiV02->mInSession) {
+ mpLocApiV02->reportStatus(GPS_STATUS_ENGINE_ON);
+ mpLocApiV02->reportStatus(GPS_STATUS_SESSION_BEGIN);
+ }
+ } else {
+ mpLocApiV02->reportStatus(GPS_STATUS_SESSION_END);
+ mpLocApiV02->reportStatus(GPS_STATUS_ENGINE_OFF);
+ }
+ }
+ };
+
+ if (engine_state_ptr->engineState == eQMI_LOC_ENGINE_STATE_ON_V02)
+ {
+ sendMsg(new MsgUpdateEngineState(this, true));
+ }
+ else if (engine_state_ptr->engineState == eQMI_LOC_ENGINE_STATE_OFF_V02)
+ {
+ sendMsg(new MsgUpdateEngineState(this, false));
+ }
+ else
+ {
+ reportStatus(GPS_STATUS_NONE);
+ }
+
+}
+
+/* convert fix session state report to loc eng format and send the converted
+ report to loc eng */
+void LocApiV02 :: reportFixSessionState (
+ const qmiLocEventFixSessionStateIndMsgT_v02 *fix_session_state_ptr)
+{
+ GpsStatusValue status;
+ LOC_LOGD("%s:%d]: state = %d\n", __func__, __LINE__,
+ fix_session_state_ptr->sessionState);
+
+ status = GPS_STATUS_NONE;
+ if (fix_session_state_ptr->sessionState == eQMI_LOC_FIX_SESSION_STARTED_V02)
+ {
+ status = GPS_STATUS_SESSION_BEGIN;
+ }
+ else if (fix_session_state_ptr->sessionState
+ == eQMI_LOC_FIX_SESSION_FINISHED_V02)
+ {
+ status = GPS_STATUS_SESSION_END;
+ }
+ reportStatus(status);
+}
+
+/* convert NMEA report to loc eng format and send the converted
+ report to loc eng */
+void LocApiV02 :: reportNmea (
+ const qmiLocEventNmeaIndMsgT_v02 *nmea_report_ptr)
+{
+
+ LocApiBase::reportNmea(nmea_report_ptr->nmea,
+ strlen(nmea_report_ptr->nmea));
+
+ LOC_LOGD("NMEA <%s", nmea_report_ptr->nmea);
+}
+
+/* convert and report an ATL request to loc engine */
+void LocApiV02 :: reportAtlRequest(
+ const qmiLocEventLocationServerConnectionReqIndMsgT_v02 * server_request_ptr)
+{
+ uint32_t connHandle = server_request_ptr->connHandle;
+ // service ATL open request; copy the WWAN type
+ if(server_request_ptr->requestType == eQMI_LOC_SERVER_REQUEST_OPEN_V02 )
+ {
+ AGpsType agpsType;
+ switch(server_request_ptr->wwanType)
+ {
+ case eQMI_LOC_WWAN_TYPE_INTERNET_V02:
+ agpsType = AGPS_TYPE_WWAN_ANY;
+ requestATL(connHandle, agpsType);
+ break;
+ case eQMI_LOC_WWAN_TYPE_AGNSS_V02:
+ agpsType = AGPS_TYPE_SUPL;
+ requestATL(connHandle, agpsType);
+ break;
+ case eQMI_LOC_WWAN_TYPE_AGNSS_EMERGENCY_V02:
+ requestSuplES(connHandle);
+ break;
+ default:
+ agpsType = AGPS_TYPE_WWAN_ANY;
+ requestATL(connHandle, agpsType);
+ break;
+ }
+ }
+ // service the ATL close request
+ else if (server_request_ptr->requestType == eQMI_LOC_SERVER_REQUEST_CLOSE_V02)
+ {
+ releaseATL(connHandle);
+ }
+}
+
+/* conver the NI report to loc eng format and send t loc engine */
+void LocApiV02 :: reportNiRequest(
+ const qmiLocEventNiNotifyVerifyReqIndMsgT_v02 *ni_req_ptr)
+{
+ GpsNiNotification notif;
+
+ /* initialize the notification*/
+ memset(notif.extras, 0, sizeof notif.extras);
+ memset(notif.text, 0, sizeof notif.text);
+ memset(notif.requestor_id, 0, sizeof notif.requestor_id);
+
+ /* NI timeout gets overwritten in LocApiEngAdapter,
+ initializing to 0 here */
+ notif.timeout = 0;
+
+ notif.text_encoding = GPS_ENC_NONE ;
+
+ notif.requestor_id_encoding = GPS_ENC_UNKNOWN;
+
+ notif.notify_flags = 0;
+
+ notif.default_response = GPS_NI_RESPONSE_NORESP;
+
+ /*Handle Vx request */
+ if(ni_req_ptr->NiVxInd_valid == 1)
+ {
+ const qmiLocNiVxNotifyVerifyStructT_v02 *vx_req = &(ni_req_ptr->NiVxInd);
+
+ notif.ni_type = GPS_NI_TYPE_VOICE;
+
+ // Requestor ID, the requestor id recieved is NULL terminated
+ hexcode(notif.requestor_id, sizeof notif.requestor_id,
+ (char *)vx_req->requestorId, vx_req->requestorId_len );
+ }
+
+ /* Handle UMTS CP request*/
+ else if(ni_req_ptr->NiUmtsCpInd_valid == 1)
+ {
+ const qmiLocNiUmtsCpNotifyVerifyStructT_v02 *umts_cp_req =
+ &ni_req_ptr->NiUmtsCpInd;
+
+ notif.ni_type = GPS_NI_TYPE_UMTS_CTRL_PLANE;
+
+ /* notificationText should always be a NULL terminated string */
+ hexcode(notif.text, sizeof notif.text,
+ (char *)umts_cp_req->notificationText,
+ umts_cp_req->notificationText_len);
+
+ /* Store requestor ID */
+ hexcode(notif.requestor_id, sizeof(notif.requestor_id),
+ (char *)umts_cp_req->requestorId.codedString,
+ umts_cp_req->requestorId.codedString_len);
+
+ /* convert encodings */
+ notif.text_encoding = convertNiEncoding(umts_cp_req->dataCodingScheme);
+
+ notif.requestor_id_encoding =
+ convertNiEncoding(umts_cp_req->requestorId.dataCodingScheme);
+
+ /* LCS address (using extras field) */
+ if ( umts_cp_req->clientAddress_len != 0)
+ {
+ char lcs_addr[32]; // Decoded LCS address for UMTS CP NI
+
+ // Copy LCS Address into notif.extras in the format: Address = 012345
+ strlcat(notif.extras, LOC_NI_NOTIF_KEY_ADDRESS, sizeof (notif.extras));
+ strlcat(notif.extras, " = ", sizeof notif.extras);
+ int addr_len = 0;
+ const char *address_source = NULL;
+ address_source = (char *)umts_cp_req->clientAddress;
+ // client Address is always NULL terminated
+ addr_len = decodeAddress(lcs_addr, sizeof(lcs_addr), address_source,
+ umts_cp_req->clientAddress_len);
+
+ // The address is ASCII string
+ if (addr_len)
+ {
+ strlcat(notif.extras, lcs_addr, sizeof notif.extras);
+ }
+ }
+
+ }
+ else if(ni_req_ptr->NiSuplInd_valid == 1)
+ {
+ const qmiLocNiSuplNotifyVerifyStructT_v02 *supl_req =
+ &ni_req_ptr->NiSuplInd;
+
+ notif.ni_type = GPS_NI_TYPE_UMTS_SUPL;
+
+ // Client name
+ if (supl_req->valid_flags & QMI_LOC_SUPL_CLIENT_NAME_MASK_V02)
+ {
+ hexcode(notif.text, sizeof(notif.text),
+ (char *)supl_req->clientName.formattedString,
+ supl_req->clientName.formattedString_len);
+ LOC_LOGV("%s:%d]: SUPL NI: client_name: %s \n", __func__, __LINE__,
+ notif.text);
+ }
+ else
+ {
+ LOC_LOGV("%s:%d]: SUPL NI: client_name not present.",
+ __func__, __LINE__);
+ }
+
+ // Requestor ID
+ if (supl_req->valid_flags & QMI_LOC_SUPL_REQUESTOR_ID_MASK_V02)
+ {
+ hexcode(notif.requestor_id, sizeof notif.requestor_id,
+ (char*)supl_req->requestorId.formattedString,
+ supl_req->requestorId.formattedString_len );
+
+ LOC_LOGV("%s:%d]: SUPL NI: requestor_id: %s \n", __func__, __LINE__,
+ notif.requestor_id);
+ }
+ else
+ {
+ LOC_LOGV("%s:%d]: SUPL NI: requestor_id not present.",
+ __func__, __LINE__);
+ }
+
+ // Encoding type
+ if (supl_req->valid_flags & QMI_LOC_SUPL_DATA_CODING_SCHEME_MASK_V02)
+ {
+ notif.text_encoding = convertNiEncoding(supl_req->dataCodingScheme);
+
+ notif.requestor_id_encoding = convertNiEncoding(supl_req->dataCodingScheme);
+ }
+ else
+ {
+ notif.text_encoding = notif.requestor_id_encoding = GPS_ENC_UNKNOWN;
+ }
+
+ // ES SUPL
+ if(ni_req_ptr->suplEmergencyNotification_valid ==1)
+ {
+ const qmiLocEmergencyNotificationStructT_v02 *supl_emergency_request =
+ &ni_req_ptr->suplEmergencyNotification;
+
+ notif.ni_type = GPS_NI_TYPE_EMERGENCY_SUPL;
+ }
+
+ } //ni_req_ptr->NiSuplInd_valid == 1
+ else
+ {
+ LOC_LOGE("%s:%d]: unknown request event \n",__func__, __LINE__);
+ return;
+ }
+
+ // Set default_response & notify_flags
+ convertNiNotifyVerifyType(¬if, ni_req_ptr->notificationType);
+
+ qmiLocEventNiNotifyVerifyReqIndMsgT_v02 *ni_req_copy_ptr =
+ (qmiLocEventNiNotifyVerifyReqIndMsgT_v02 *)malloc(sizeof(*ni_req_copy_ptr));
+
+ if( NULL != ni_req_copy_ptr)
+ {
+ memcpy(ni_req_copy_ptr, ni_req_ptr, sizeof(*ni_req_copy_ptr));
+
+ requestNiNotify(notif, (const void*)ni_req_copy_ptr);
+ }
+ else
+ {
+ LOC_LOGE("%s:%d]: Error copying NI request\n", __func__, __LINE__);
+ }
+
+}
+
+/* Report the Xtra Server Url from the modem to HAL*/
+void LocApiV02 :: reportXtraServerUrl(
+ const qmiLocEventInjectPredictedOrbitsReqIndMsgT_v02*
+ server_request_ptr)
+{
+
+ if (server_request_ptr->serverList.serverList_len == 1)
+ {
+ reportXtraServer(server_request_ptr->serverList.serverList[0].serverUrl,
+ "",
+ "",
+ QMI_LOC_MAX_SERVER_ADDR_LENGTH_V02);
+ }
+ else if (server_request_ptr->serverList.serverList_len == 2)
+ {
+ reportXtraServer(server_request_ptr->serverList.serverList[0].serverUrl,
+ server_request_ptr->serverList.serverList[1].serverUrl,
+ "",
+ QMI_LOC_MAX_SERVER_ADDR_LENGTH_V02);
+ }
+ else
+ {
+ reportXtraServer(server_request_ptr->serverList.serverList[0].serverUrl,
+ server_request_ptr->serverList.serverList[1].serverUrl,
+ server_request_ptr->serverList.serverList[2].serverUrl,
+ QMI_LOC_MAX_SERVER_ADDR_LENGTH_V02);
+ }
+
+}
+
+/* convert Ni Encoding type from QMI_LOC to loc eng format */
+GpsNiEncodingType LocApiV02 ::convertNiEncoding(
+ qmiLocNiDataCodingSchemeEnumT_v02 loc_encoding)
+{
+ GpsNiEncodingType enc = GPS_ENC_UNKNOWN;
+
+ switch (loc_encoding)
+ {
+ case eQMI_LOC_NI_SUPL_UTF8_V02:
+ enc = GPS_ENC_SUPL_UTF8;
+ break;
+ case eQMI_LOC_NI_SUPL_UCS2_V02:
+ enc = GPS_ENC_SUPL_UCS2;
+ break;
+ case eQMI_LOC_NI_SUPL_GSM_DEFAULT_V02:
+ enc = GPS_ENC_SUPL_GSM_DEFAULT;
+ break;
+ case eQMI_LOC_NI_SS_LANGUAGE_UNSPEC_V02:
+ enc = GPS_ENC_SUPL_GSM_DEFAULT; // SS_LANGUAGE_UNSPEC = GSM
+ break;
+ default:
+ break;
+ }
+
+ return enc;
+}
+
+/*convert NI notify verify type from QMI LOC to loc eng format*/
+bool LocApiV02 :: convertNiNotifyVerifyType (
+ GpsNiNotification *notif,
+ qmiLocNiNotifyVerifyEnumT_v02 notif_priv)
+{
+ switch (notif_priv)
+ {
+ case eQMI_LOC_NI_USER_NO_NOTIFY_NO_VERIFY_V02:
+ notif->notify_flags = 0;
+ break;
+
+ case eQMI_LOC_NI_USER_NOTIFY_ONLY_V02:
+ notif->notify_flags = GPS_NI_NEED_NOTIFY;
+ break;
+
+ case eQMI_LOC_NI_USER_NOTIFY_VERIFY_ALLOW_NO_RESP_V02:
+ notif->notify_flags = GPS_NI_NEED_NOTIFY | GPS_NI_NEED_VERIFY;
+ notif->default_response = GPS_NI_RESPONSE_ACCEPT;
+ break;
+
+ case eQMI_LOC_NI_USER_NOTIFY_VERIFY_NOT_ALLOW_NO_RESP_V02:
+ notif->notify_flags = GPS_NI_NEED_NOTIFY | GPS_NI_NEED_VERIFY;
+ notif->default_response = GPS_NI_RESPONSE_DENY;
+ break;
+
+ case eQMI_LOC_NI_USER_NOTIFY_VERIFY_PRIVACY_OVERRIDE_V02:
+ notif->notify_flags = GPS_NI_PRIVACY_OVERRIDE;
+ break;
+
+ default:
+ return false;
+ }
+
+ return true;
+}
+
+/* convert and report GNSS measurement data to loc eng */
+void LocApiV02 :: reportGnssMeasurementData(
+ const qmiLocEventGnssSvMeasInfoIndMsgT_v02& gnss_measurement_report_ptr)
+{
+ LOC_LOGV ("%s:%d]: entering\n", __func__, __LINE__);
+
+ GpsData gpsMeasurementData;
+ memset (&gpsMeasurementData, 0, sizeof(GpsData));
+
+ int svMeasurment_len = 0;
+
+ // size
+ gpsMeasurementData.size = sizeof(GpsData);
+
+ // number of measurements
+ if (gnss_measurement_report_ptr.svMeasurement_valid) {
+ svMeasurment_len =
+ gnss_measurement_report_ptr.svMeasurement_len;
+ gpsMeasurementData.measurement_count = svMeasurment_len;
+ LOC_LOGV ("%s:%d]: there are %d SV measurements\n",
+ __func__, __LINE__, svMeasurment_len);
+ } else {
+ LOC_LOGV ("%s:%d]: there is no valid SV measurements\n",
+ __func__, __LINE__);
+ }
+
+ if (svMeasurment_len != 0 &&
+ gnss_measurement_report_ptr.system == eQMI_LOC_SV_SYSTEM_GPS_V02) {
+
+ // the array of measurements
+ int index = 0;
+ while(svMeasurment_len > 0) {
+ convertGpsMeasurements(gpsMeasurementData.measurements[index],
+ gnss_measurement_report_ptr.svMeasurement[index]);
+ index++;
+ svMeasurment_len--;
+ }
+
+ // the GPS clock time reading
+ convertGpsClock(gpsMeasurementData.clock,
+ gnss_measurement_report_ptr);
+
+ // calling the base
+ LOC_LOGV ("%s:%d]: calling LocApiBase::reportGpsMeasurementData.\n",
+ __func__, __LINE__);
+ LocApiBase::reportGpsMeasurementData(gpsMeasurementData);
+ } else {
+ LOC_LOGV ("%s:%d]: There is no GPS measurement.\n",
+ __func__, __LINE__);
+ }
+}
+
+/*convert GpsMeasurement type from QMI LOC to loc eng format*/
+void LocApiV02 :: convertGpsMeasurements (GpsMeasurement& gpsMeasurement,
+ const qmiLocSVMeasurementStructT_v02& gnss_measurement_info)
+{
+ LOC_LOGV ("%s:%d]: entering\n", __func__, __LINE__);
+
+ // size
+ gpsMeasurement.size = sizeof(GpsMeasurement);
+
+ // flag initiation
+ int flags = 0;
+
+ // prn
+ gpsMeasurement.prn = gnss_measurement_info.gnssSvId;
+
+ // time_offset_ns
+ gpsMeasurement.time_offset_ns = 0;
+
+ // state & received_gps_tow_ns & received_gps_tow_uncertainty_ns
+ uint64_t validMask = gnss_measurement_info.measurementStatus &
+ gnss_measurement_info.validMeasStatusMask;
+ uint64_t bitSynMask = QMI_LOC_MASK_MEAS_STATUS_BE_CONFIRM_V02 |
+ QMI_LOC_MASK_MEAS_STATUS_SB_VALID_V02;
+ double gpsTowUncNs = (double)gnss_measurement_info.svTimeSpeed.svTimeUncMs * 1e6;
+
+ if (validMask & QMI_LOC_MASK_MEAS_STATUS_MS_VALID_V02) {
+ /* sub-frame decode & TOW decode */
+ gpsMeasurement.state = GPS_MEASUREMENT_STATE_SUBFRAME_SYNC |
+ GPS_MEASUREMENT_STATE_TOW_DECODED |
+ GPS_MEASUREMENT_STATE_BIT_SYNC |
+ GPS_MEASUREMENT_STATE_CODE_LOCK;
+ gpsMeasurement.received_gps_tow_ns =
+ ((double)gnss_measurement_info.svTimeSpeed.svTimeMs +
+ (double)gnss_measurement_info.svTimeSpeed.svTimeSubMs) * 1e6;
+ gpsMeasurement.received_gps_tow_uncertainty_ns = gpsTowUncNs;
+
+ } else if ((validMask & bitSynMask) == bitSynMask) {
+ /* bit sync */
+ gpsMeasurement.state = GPS_MEASUREMENT_STATE_BIT_SYNC |
+ GPS_MEASUREMENT_STATE_CODE_LOCK;
+ gpsMeasurement.received_gps_tow_ns =
+ fmod(((double)gnss_measurement_info.svTimeSpeed.svTimeMs +
+ (double)gnss_measurement_info.svTimeSpeed.svTimeSubMs), 20) * 1e6;
+ gpsMeasurement.received_gps_tow_uncertainty_ns = gpsTowUncNs;
+
+ } else if (validMask & QMI_LOC_MASK_MEAS_STATUS_SM_VALID_V02) {
+ /* code lock */
+ gpsMeasurement.state = GPS_MEASUREMENT_STATE_CODE_LOCK;
+ gpsMeasurement.received_gps_tow_ns =
+ (double)gnss_measurement_info.svTimeSpeed.svTimeSubMs * 1e6;
+ gpsMeasurement.received_gps_tow_uncertainty_ns = gpsTowUncNs;
+
+ } else {
+ /* by default */
+ gpsMeasurement.state = GPS_MEASUREMENT_STATE_UNKNOWN;
+ gpsMeasurement.received_gps_tow_ns = 0;
+ gpsMeasurement.received_gps_tow_uncertainty_ns = 0;
+ }
+
+ // c_n0_dbhz
+ gpsMeasurement.c_n0_dbhz = gnss_measurement_info.CNo/10.0;
+
+ // pseudorange_rate_mps
+ gpsMeasurement.pseudorange_rate_mps =
+ gnss_measurement_info.svTimeSpeed.dopplerShift;
+
+ // pseudorange_rate_uncertainty_mps
+ gpsMeasurement.pseudorange_rate_uncertainty_mps =
+ gnss_measurement_info.svTimeSpeed.dopplerShiftUnc;
+
+ // accumulated_delta_range_state
+ gpsMeasurement.accumulated_delta_range_state = GPS_ADR_STATE_UNKNOWN;
+
+ gpsMeasurement.flags = flags;
+
+ LOC_LOGV(" %s:%d]: GNSS measurement raw data received form modem: \n"
+ " Input => gnssSvId | CNo "
+ "| measurementStatus | dopplerShift |"
+ " dopplerShiftUnc| svTimeMs | svTimeSubMs | svTimeUncMs"
+ " | validMeasStatusMask | \n"
+ " Input => %d | %d | 0x%04x%04x | %f | %f | %u | %f | %f | 0x%04x%04x |\n",
+ __func__, __LINE__,
+ gnss_measurement_info.gnssSvId, // %d
+ gnss_measurement_info.CNo, // %d
+ (uint32_t)(gnss_measurement_info.measurementStatus >> 32), // %04x Upper 32
+ (uint32_t)(gnss_measurement_info.measurementStatus & 0xFFFFFFFF), // %04x Lower 32
+ gnss_measurement_info.svTimeSpeed.dopplerShift, // %f
+ gnss_measurement_info.svTimeSpeed.dopplerShiftUnc, // %f
+ gnss_measurement_info.svTimeSpeed.svTimeMs, // %u
+ gnss_measurement_info.svTimeSpeed.svTimeSubMs, // %f
+ gnss_measurement_info.svTimeSpeed.svTimeUncMs, // %f
+ (uint32_t)(gnss_measurement_info.validMeasStatusMask >> 32), // %04x Upper 32
+ (uint32_t)(gnss_measurement_info.validMeasStatusMask & 0xFFFFFFFF) // %04x Lower 32
+ );
+
+ LOC_LOGV(" %s:%d]: GNSS measurement data after conversion: \n"
+ " Output => size | prn | time_offset_ns | state |"
+ " received_gps_tow_ns| received_gps_tow_uncertainty_ns |c_n0_dbhz |"
+ " pseudorange_rate_mps | pseudorange_rate_uncertainty_mps |"
+ " accumulated_delta_range_state | flags \n"
+ " Output => %d | %d | %f | %d | %lld | %lld | %f | %f | %f | %d | %d \n",
+ __func__, __LINE__,
+ gpsMeasurement.size, // %d
+ gpsMeasurement.prn, // %d
+ gpsMeasurement.time_offset_ns, // %f
+ gpsMeasurement.state, // %d
+ gpsMeasurement.received_gps_tow_ns, // %lld
+ gpsMeasurement.received_gps_tow_uncertainty_ns, // %lld
+ gpsMeasurement.c_n0_dbhz, // %f
+ gpsMeasurement.pseudorange_rate_mps, // %f
+ gpsMeasurement.pseudorange_rate_uncertainty_mps, // %f
+ gpsMeasurement.accumulated_delta_range_state, // %d
+ gpsMeasurement.flags // %d
+ );
+}
+
+/*convert GpsClock type from QMI LOC to loc eng format*/
+void LocApiV02 :: convertGpsClock (GpsClock& gpsClock,
+ const qmiLocEventGnssSvMeasInfoIndMsgT_v02& gnss_measurement_info)
+{
+ LOC_LOGV ("%s:%d]: entering\n", __func__, __LINE__);
+
+ // size
+ gpsClock.size = sizeof(GpsClock);
+
+ // flag initiation
+ int flags = 0;
+
+ // type & time_ns & time_uncertainty_ns
+ if (gnss_measurement_info.systemTime_valid &&
+ gnss_measurement_info.systemTimeExt_valid) {
+
+ uint16_t systemWeek = gnss_measurement_info.systemTime.systemWeek;
+ uint32_t systemMsec = gnss_measurement_info.systemTime.systemMsec;
+ float sysClkBias = gnss_measurement_info.systemTime.systemClkTimeBias;
+ float sysClkUncMs = gnss_measurement_info.systemTime.systemClkTimeUncMs;
+ int sourceOfTime = gnss_measurement_info.systemTimeExt.sourceOfTime;
+ bool isTimeValid = (sysClkUncMs <= 15.0f); //15ms
+
+ if(systemWeek != C_GPS_WEEK_UNKNOWN && isTimeValid) {
+ gpsClock.type = GPS_CLOCK_TYPE_GPS_TIME;
+ double temp = (double)(systemWeek) * (double)WEEK_MSECS + (double)systemMsec;
+ gpsClock.time_ns = (double)temp*1e6 -
+ (double)((int)(sysClkBias*1e6));
+ flags |= GPS_CLOCK_HAS_TIME_UNCERTAINTY;
+ gpsClock.time_uncertainty_ns = (double)sysClkUncMs * 1e6;
+
+ } else {
+ gpsClock.type = GPS_CLOCK_TYPE_UNKNOWN;
+ }
+ } else {
+ gpsClock.type = GPS_CLOCK_TYPE_UNKNOWN;
+ }
+
+ LOC_LOGV(" %s:%d]: GNSS measurement clock data received form modem: \n"
+ " Input => systemTime_valid | systemTimeExt_valid | systemWeek"
+ " | systemMsec | systemClkTimeBias"
+ " | systemClkTimeUncMs | sourceOfTime \n"
+ " Input => %d | %d | %d | %d | %f | %f | %d \n",
+ __func__, __LINE__,
+ gnss_measurement_info.systemTime_valid, // %d
+ gnss_measurement_info.systemTimeExt_valid, // %d
+ gnss_measurement_info.systemTime.systemWeek, // %d
+ gnss_measurement_info.systemTime.systemMsec, // %d
+ gnss_measurement_info.systemTime.systemClkTimeBias, // %f
+ gnss_measurement_info.systemTime.systemClkTimeUncMs, // %f
+ gnss_measurement_info.systemTimeExt.sourceOfTime); // %d
+
+ LOC_LOGV(" %s:%d]: GNSS measurement clock after conversion: \n"
+ " Output => type | time_ns | time_uncertainty_ns\n"
+ " Output => %d | %lld | %f \n", __func__, __LINE__,
+ gpsClock.type, // %d
+ gpsClock.time_ns, // %lld
+ gpsClock.time_uncertainty_ns); // %f
+
+ gpsClock.flags = flags;
+}
+
+/* event callback registered with the loc_api v02 interface */
+void LocApiV02 :: eventCb(locClientHandleType clientHandle,
+ uint32_t eventId, locClientEventIndUnionType eventPayload)
+{
+ LOC_LOGD("%s:%d]: event id = %d\n", __func__, __LINE__,
+ eventId);
+
+ switch(eventId)
+ {
+ //Position Report
+ case QMI_LOC_EVENT_POSITION_REPORT_IND_V02:
+ reportPosition(eventPayload.pPositionReportEvent);
+ break;
+
+ // Satellite report
+ case QMI_LOC_EVENT_GNSS_SV_INFO_IND_V02:
+ reportSv(eventPayload.pGnssSvInfoReportEvent);
+ break;
+
+ // Status report
+ case QMI_LOC_EVENT_ENGINE_STATE_IND_V02:
+ reportEngineState(eventPayload.pEngineState);
+ break;
+
+ case QMI_LOC_EVENT_FIX_SESSION_STATE_IND_V02:
+ reportFixSessionState(eventPayload.pFixSessionState);
+ break;
+
+ // NMEA
+ case QMI_LOC_EVENT_NMEA_IND_V02:
+ reportNmea(eventPayload.pNmeaReportEvent);
+ break;
+
+ // XTRA request
+ case QMI_LOC_EVENT_INJECT_PREDICTED_ORBITS_REQ_IND_V02:
+ LOC_LOGD("%s:%d]: XTRA download request\n", __func__,
+ __LINE__);
+ reportXtraServerUrl(eventPayload.pInjectPredictedOrbitsReqEvent);
+ requestXtraData();
+ break;
+
+ // time request
+ case QMI_LOC_EVENT_INJECT_TIME_REQ_IND_V02:
+ LOC_LOGD("%s:%d]: Time request\n", __func__,
+ __LINE__);
+ requestTime();
+ break;
+
+ //position request
+ case QMI_LOC_EVENT_INJECT_POSITION_REQ_IND_V02:
+ LOC_LOGD("%s:%d]: Position request\n", __func__,
+ __LINE__);
+ requestLocation();
+ break;
+
+ // NI request
+ case QMI_LOC_EVENT_NI_NOTIFY_VERIFY_REQ_IND_V02:
+ reportNiRequest(eventPayload.pNiNotifyVerifyReqEvent);
+ break;
+
+ // AGPS connection request
+ case QMI_LOC_EVENT_LOCATION_SERVER_CONNECTION_REQ_IND_V02:
+ reportAtlRequest(eventPayload.pLocationServerConnReqEvent);
+ break;
+
+ // GNSS Measurement Report
+ case QMI_LOC_EVENT_GNSS_MEASUREMENT_REPORT_IND_V02:
+ reportGnssMeasurementData(*eventPayload.pGnssSvRawInfoEvent);
+ break;
+ }
+}
+
+/* Call the service LocAdapterBase down event*/
+void LocApiV02 :: errorCb(locClientHandleType handle,
+ locClientErrorEnumType errorId)
+{
+ if(errorId == eLOC_CLIENT_ERROR_SERVICE_UNAVAILABLE)
+ {
+ LOC_LOGE("%s:%d]: Service unavailable error\n",
+ __func__, __LINE__);
+
+ handleEngineDownEvent();
+
+ /* immediately send the engine up event so that
+ the loc engine re-initializes the adapter and the
+ loc-api_v02 interface */
+
+ handleEngineUpEvent();
+ }
+}
+
+static void ds_client_global_event_cb(ds_client_status_enum_type result,
+ void *loc_adapter_cookie)
+{
+ LocApiV02 *locApiV02Instance =
+ (LocApiV02 *)loc_adapter_cookie;
+ locApiV02Instance->ds_client_event_cb(result);
+ return;
+}
+
+void LocApiV02::ds_client_event_cb(ds_client_status_enum_type result)
+{
+ if(result == E_DS_CLIENT_DATA_CALL_CONNECTED) {
+ LOC_LOGD("%s:%d]: Emergency call is up", __func__, __LINE__);
+ reportDataCallOpened();
+ }
+ else if(result == E_DS_CLIENT_DATA_CALL_DISCONNECTED) {
+ LOC_LOGE("%s:%d]: Emergency call is stopped", __func__, __LINE__);
+ reportDataCallClosed();
+ }
+ return;
+}
+
+ds_client_cb_data ds_client_cb = {
+ ds_client_global_event_cb
+};
+
+int LocApiV02 :: initDataServiceClient()
+{
+ int ret=0;
+ ret = ds_client_init();
+ LOC_LOGD("%s:%d]: ret = %d\n", __func__, __LINE__,ret);
+ return ret;
+}
+
+int LocApiV02 :: openAndStartDataCall()
+{
+ enum loc_api_adapter_err ret;
+ int profile_index;
+ int pdp_type;
+ ds_client_status_enum_type result = ds_client_open_call(&dsClientHandle,
+ &ds_client_cb,
+ (void *)this,
+ &profile_index,
+ &pdp_type);
+ if(result == E_DS_CLIENT_SUCCESS) {
+ result = ds_client_start_call(dsClientHandle, profile_index, pdp_type);
+
+ if(result == E_DS_CLIENT_SUCCESS) {
+ LOC_LOGD("%s:%d]: Request to start Emergency call sent\n",
+ __func__, __LINE__);
+ ret = LOC_API_ADAPTER_ERR_SUCCESS;
+ }
+ else {
+ LOC_LOGE("%s:%d]: Unable to bring up emergency call using DS. result = %d",
+ __func__, __LINE__, (int)result);
+ ret = LOC_API_ADAPTER_ERR_UNSUPPORTED;
+ }
+ }
+ else if(result == E_DS_CLIENT_RETRY_LATER) {
+ LOC_LOGE("%s:%d]: Could not start emergency call. Retry after delay\n",
+ __func__, __LINE__);
+ ret = LOC_API_ADAPTER_ERR_ENGINE_BUSY;
+ }
+ else {
+ LOC_LOGE("%s:%d]: Unable to bring up emergency call using DS. ret = %d",
+ __func__, __LINE__, (int)ret);
+ ret = LOC_API_ADAPTER_ERR_UNSUPPORTED;
+ }
+
+ return (int)ret;
+}
+
+void LocApiV02 :: stopDataCall()
+{
+ ds_client_status_enum_type ret =
+ ds_client_stop_call(dsClientHandle);
+ if (ret == E_DS_CLIENT_SUCCESS) {
+ LOC_LOGD("%s:%d]: Request to Close SUPL ES call sent\n", __func__, __LINE__);
+ }
+ else {
+ if (ret == E_DS_CLIENT_FAILURE_INVALID_HANDLE) {
+ LOC_LOGE("%s:%d]: Conn handle not found for SUPL ES",
+ __func__, __LINE__);
+ }
+ LOC_LOGE("%s:%d]: Could not close SUPL ES call. Ret: %d\n"
+ ,__func__, __LINE__, ret);
+ }
+ return;
+}
+
+void LocApiV02 :: closeDataCall()
+{
+ ds_client_close_call(&dsClientHandle);
+ LOC_LOGD("%s:%d]: Release data client handle\n", __func__, __LINE__);
+ return;
+}
+
+enum loc_api_adapter_err LocApiV02 ::
+getWwanZppFix(GpsLocation &zppLoc)
+{
+ locClientReqUnionType req_union;
+ qmiLocGetAvailWwanPositionReqMsgT_v02 zpp_req;
+ qmiLocGetAvailWwanPositionIndMsgT_v02 zpp_ind;
+ memset(&zpp_ind, 0, sizeof(zpp_ind));
+ memset(&zpp_req, 0, sizeof(zpp_req));
+ memset(&zppLoc, 0, sizeof(zppLoc));
+
+ req_union.pGetAvailWwanPositionReq = &zpp_req;
+
+ LOC_LOGD("%s:%d]: Get ZPP Fix from available wwan position\n", __func__, __LINE__);
+
+ locClientStatusEnumType status =
+ loc_sync_send_req(clientHandle,
+ QMI_LOC_GET_AVAILABLE_WWAN_POSITION_REQ_V02,
+ req_union, LOC_ENGINE_SYNC_REQUEST_TIMEOUT,
+ QMI_LOC_GET_AVAILABLE_WWAN_POSITION_IND_V02,
+ &zpp_ind);
+
+ if (status != eLOC_CLIENT_SUCCESS ||
+ eQMI_LOC_SUCCESS_V02 != zpp_ind.status) {
+ LOC_LOGD ("%s:%d]: getWwanZppFix may not be supported by modem"
+ " so will fallback to getBestAvailableZppFix"
+ " status = %s, zpp_ind.status = %s ",
+ __func__, __LINE__,
+ loc_get_v02_client_status_name(status),
+ loc_get_v02_qmi_status_name(zpp_ind.status));
+
+ LocPosTechMask tech_mask;
+ loc_api_adapter_err ret;
+ ret = getBestAvailableZppFix(zppLoc, tech_mask);
+ if (ret == LOC_API_ADAPTER_ERR_SUCCESS &&
+ tech_mask != LOC_POS_TECH_MASK_DEFAULT &&
+ tech_mask & LOC_POS_TECH_MASK_CELLID) {
+ return LOC_API_ADAPTER_ERR_SUCCESS;
+ } else {
+ LOC_LOGD ("%s:%d]: getBestAvailableZppFix failed or"
+ " technoloy source includes GNSS that is not allowed"
+ " ret = %u, tech_mask = 0x%X ",
+ __func__, __LINE__, ret, tech_mask);
+ return LOC_API_ADAPTER_ERR_GENERAL_FAILURE;
+ }
+ }
+
+ LOC_LOGD("Got Zpp fix location validity (lat:%d, lon:%d, timestamp:%d accuracy:%d)",
+ zpp_ind.latitude_valid,
+ zpp_ind.longitude_valid,
+ zpp_ind.timestampUtc_valid,
+ zpp_ind.horUncCircular_valid);
+
+ LOC_LOGD("(%.7f, %.7f), timestamp %llu, accuracy %f",
+ zpp_ind.latitude,
+ zpp_ind.longitude,
+ zpp_ind.timestampUtc,
+ zpp_ind.horUncCircular);
+
+ zppLoc.size = sizeof(GpsLocation);
+ if (zpp_ind.timestampUtc_valid) {
+ zppLoc.timestamp = zpp_ind.timestampUtc;
+ }
+ else {
+ /* The UTC time from modem is not valid.
+ In this case, we use current system time instead.*/
+
+ struct timespec time_info_current;
+ clock_gettime(CLOCK_REALTIME,&time_info_current);
+ zppLoc.timestamp = (time_info_current.tv_sec)*1e3 +
+ (time_info_current.tv_nsec)/1e6;
+ LOC_LOGD("zpp timestamp got from system: %llu", zppLoc.timestamp);
+ }
+
+ if ((zpp_ind.latitude_valid == false) ||
+ (zpp_ind.longitude_valid == false) ||
+ (zpp_ind.horUncCircular_valid == false)) {
+ return LOC_API_ADAPTER_ERR_GENERAL_FAILURE;
+ }
+
+ zppLoc.flags = GPS_LOCATION_HAS_LAT_LONG | GPS_LOCATION_HAS_ACCURACY;
+ zppLoc.latitude = zpp_ind.latitude;
+ zppLoc.longitude = zpp_ind.longitude;
+ zppLoc.accuracy = zpp_ind.horUncCircular;
+
+ if (zpp_ind.altitudeWrtEllipsoid_valid) {
+ zppLoc.flags |= GPS_LOCATION_HAS_ALTITUDE;
+ zppLoc.altitude = zpp_ind.altitudeWrtEllipsoid;
+ }
+
+ return LOC_API_ADAPTER_ERR_SUCCESS;
+}
+
+enum loc_api_adapter_err LocApiV02 :: getBestAvailableZppFix(GpsLocation & zppLoc)
+{
+ LocPosTechMask tech_mask;
+ return getBestAvailableZppFix(zppLoc, tech_mask);
+}
+
+enum loc_api_adapter_err LocApiV02 ::
+getBestAvailableZppFix(GpsLocation &zppLoc, LocPosTechMask &tech_mask)
+{
+ locClientReqUnionType req_union;
+
+ qmiLocGetBestAvailablePositionIndMsgT_v02 zpp_ind;
+ qmiLocGetBestAvailablePositionReqMsgT_v02 zpp_req;
+
+ memset(&zpp_ind, 0, sizeof(zpp_ind));
+ memset(&zpp_req, 0, sizeof(zpp_req));
+ memset(&zppLoc, 0, sizeof(zppLoc));
+ tech_mask = LOC_POS_TECH_MASK_DEFAULT;
+
+ req_union.pGetBestAvailablePositionReq = &zpp_req;
+
+ LOC_LOGD("%s:%d]: Get ZPP Fix from best available source\n", __func__, __LINE__);
+
+ locClientStatusEnumType status =
+ loc_sync_send_req(clientHandle,
+ QMI_LOC_GET_BEST_AVAILABLE_POSITION_REQ_V02,
+ req_union, LOC_ENGINE_SYNC_REQUEST_TIMEOUT,
+ QMI_LOC_GET_BEST_AVAILABLE_POSITION_IND_V02,
+ &zpp_ind);
+
+ if (status != eLOC_CLIENT_SUCCESS ||
+ eQMI_LOC_SUCCESS_V02 != zpp_ind.status) {
+ LOC_LOGE ("%s:%d]: error! status = %s, zpp_ind.status = %s\n",
+ __func__, __LINE__,
+ loc_get_v02_client_status_name(status),
+ loc_get_v02_qmi_status_name(zpp_ind.status));
+ } else {
+ LOC_LOGD("Got Zpp fix location validity (lat:%d, lon:%d, timestamp:%d accuracy:%d)"
+ " (%.7f, %.7f), timestamp %llu, accuracy %f",
+ zpp_ind.latitude_valid,
+ zpp_ind.longitude_valid,
+ zpp_ind.timestampUtc_valid,
+ zpp_ind.horUncCircular_valid,
+ zpp_ind.latitude,
+ zpp_ind.longitude,
+ zpp_ind.timestampUtc,
+ zpp_ind.horUncCircular);
+
+ zppLoc.size = sizeof(GpsLocation);
+ if (zpp_ind.timestampUtc_valid) {
+ zppLoc.timestamp = zpp_ind.timestampUtc;
+ }
+ else {
+ /* The UTC time from modem is not valid.
+ In this case, we use current system time instead.*/
+
+ struct timespec time_info_current;
+ clock_gettime(CLOCK_REALTIME,&time_info_current);
+ zppLoc.timestamp = (time_info_current.tv_sec)*1e3 +
+ (time_info_current.tv_nsec)/1e6;
+ LOC_LOGD("zpp timestamp got from system: %llu", zppLoc.timestamp);
+ }
+
+ if (zpp_ind.latitude_valid &&
+ zpp_ind.longitude_valid &&
+ zpp_ind.horUncCircular_valid ) {
+ zppLoc.flags = GPS_LOCATION_HAS_LAT_LONG | GPS_LOCATION_HAS_ACCURACY;
+ zppLoc.latitude = zpp_ind.latitude;
+ zppLoc.longitude = zpp_ind.longitude;
+ zppLoc.accuracy = zpp_ind.horUncCircular;
+
+ if (zpp_ind.altitudeWrtEllipsoid_valid) {
+ zppLoc.flags |= GPS_LOCATION_HAS_ALTITUDE;
+ zppLoc.altitude = zpp_ind.altitudeWrtEllipsoid;
+ }
+
+ if (zpp_ind.horSpeed_valid) {
+ zppLoc.flags |= GPS_LOCATION_HAS_SPEED;
+ zppLoc.speed = zpp_ind.horSpeed;
+ }
+
+ if (zpp_ind.heading_valid) {
+ zppLoc.flags |= GPS_LOCATION_HAS_BEARING;
+ zppLoc.bearing = zpp_ind.heading;
+ }
+
+ if (zpp_ind.technologyMask_valid) {
+ tech_mask = zpp_ind.technologyMask;
+ }
+ }
+ }
+
+ return convertErr(status);
+}
+
+/*Values for lock
+ 1 = Do not lock any position sessions
+ 2 = Lock MI position sessions
+ 3 = Lock MT position sessions
+ 4 = Lock all position sessions
+
+ Returns values:
+ zero on success; non-zero on failure
+*/
+int LocApiV02 :: setGpsLock(LOC_GPS_LOCK_MASK lockMask)
+{
+ qmiLocSetEngineLockReqMsgT_v02 setEngineLockReq;
+ qmiLocSetEngineLockIndMsgT_v02 setEngineLockInd;
+ locClientStatusEnumType status;
+ locClientReqUnionType req_union;
+ int ret=0;
+
+ LOC_LOGD("%s:%d]: Set Gps Lock: %x\n", __func__, __LINE__, lockMask);
+ setEngineLockReq.lockType = convertGpsLockMask(lockMask);
+ req_union.pSetEngineLockReq = &setEngineLockReq;
+ memset(&setEngineLockInd, 0, sizeof(setEngineLockInd));
+ status = loc_sync_send_req(clientHandle,
+ QMI_LOC_SET_ENGINE_LOCK_REQ_V02,
+ req_union, LOC_ENGINE_SYNC_REQUEST_TIMEOUT,
+ QMI_LOC_SET_ENGINE_LOCK_IND_V02,
+ &setEngineLockInd);
+
+ if(status != eLOC_CLIENT_SUCCESS || setEngineLockInd.status != eQMI_LOC_SUCCESS_V02) {
+ LOC_LOGE("%s:%d]: Set engine lock failed. status: %s, ind status:%s\n",
+ __func__, __LINE__,
+ loc_get_v02_client_status_name(status),
+ loc_get_v02_qmi_status_name(setEngineLockInd.status));
+ ret = -1;
+ }
+ LOC_LOGD("%s:%d]: exit\n", __func__, __LINE__);
+ return ret;
+}
+/*
+ Returns
+ Current value of GPS Lock on success
+ -1 on failure
+*/
+int LocApiV02 :: getGpsLock()
+{
+ qmiLocGetEngineLockReqMsgT_v02 getEngineLockReq;
+ qmiLocGetEngineLockIndMsgT_v02 getEngineLockInd;
+ locClientStatusEnumType status;
+ locClientReqUnionType req_union;
+ int ret=0;
+ LOC_LOGD("%s:%d]: Enter\n", __func__, __LINE__);
+ memset(&getEngineLockInd, 0, sizeof(getEngineLockInd));
+
+ //Passing req_union as a parameter even though this request has no payload
+ //since NULL or 0 gives an error during compilation
+ status = loc_sync_send_req(clientHandle,
+ QMI_LOC_GET_ENGINE_LOCK_REQ_V02,
+ req_union, LOC_ENGINE_SYNC_REQUEST_TIMEOUT,
+ QMI_LOC_GET_ENGINE_LOCK_IND_V02,
+ &getEngineLockInd);
+ if(status != eLOC_CLIENT_SUCCESS || getEngineLockInd.status != eQMI_LOC_SUCCESS_V02) {
+ LOC_LOGE("%s:%d]: Set engine lock failed. status: %s, ind status:%s\n",
+ __func__, __LINE__,
+ loc_get_v02_client_status_name(status),
+ loc_get_v02_qmi_status_name(getEngineLockInd.status));
+ ret = -1;
+ }
+ else {
+ if(getEngineLockInd.lockType_valid) {
+ ret = (int)getEngineLockInd.lockType;
+ LOC_LOGD("%s:%d]: Lock Type: %d\n", __func__, __LINE__, ret);
+ }
+ else {
+ LOC_LOGE("%s:%d]: Lock Type not valid\n", __func__, __LINE__);
+ ret = -1;
+ }
+ }
+ LOC_LOGD("%s:%d]: Exit\n", __func__, __LINE__);
+ return ret;
+}
+
+enum loc_api_adapter_err LocApiV02:: setXtraVersionCheck(enum xtra_version_check check)
+{
+ qmiLocSetXtraVersionCheckReqMsgT_v02 req;
+ qmiLocSetXtraVersionCheckIndMsgT_v02 ind;
+ locClientStatusEnumType status;
+ locClientReqUnionType req_union;
+ enum loc_api_adapter_err ret = LOC_API_ADAPTER_ERR_SUCCESS;
+
+ LOC_LOGD("%s:%d]: Enter. check: %d", __func__, __LINE__, check);
+ memset(&req, 0, sizeof(req));
+ memset(&ind, 0, sizeof(ind));
+ switch (check) {
+ case DISABLED:
+ req.xtraVersionCheckMode = eQMI_LOC_XTRA_VERSION_CHECK_DISABLE_V02;
+ break;
+ case AUTO:
+ req.xtraVersionCheckMode = eQMI_LOC_XTRA_VERSION_CHECK_AUTO_V02;
+ break;
+ case XTRA2:
+ req.xtraVersionCheckMode = eQMI_LOC_XTRA_VERSION_CHECK_XTRA2_V02;
+ break;
+ case XTRA3:
+ req.xtraVersionCheckMode = eQMI_LOC_XTRA_VERSION_CHECK_XTRA3_V02;
+ break;
+ default:
+ req.xtraVersionCheckMode = eQMI_LOC_XTRA_VERSION_CHECK_DISABLE_V02;
+ break;
+ }
+
+ req_union.pSetXtraVersionCheckReq = &req;
+ status = loc_sync_send_req(clientHandle,
+ QMI_LOC_SET_XTRA_VERSION_CHECK_REQ_V02,
+ req_union, LOC_ENGINE_SYNC_REQUEST_TIMEOUT,
+ QMI_LOC_SET_XTRA_VERSION_CHECK_IND_V02,
+ &ind);
+ if(status != eLOC_CLIENT_SUCCESS || ind.status != eQMI_LOC_SUCCESS_V02) {
+ LOC_LOGE("%s:%d]: Set xtra version check failed. status: %s, ind status:%s\n",
+ __func__, __LINE__,
+ loc_get_v02_client_status_name(status),
+ loc_get_v02_qmi_status_name(ind.status));
+ ret = LOC_API_ADAPTER_ERR_GENERAL_FAILURE;
+ }
+
+ LOC_LOGD("%s:%d]: Exit. ret: %d", __func__, __LINE__, (int)ret);
+ return ret;
+}
+
+void LocApiV02 :: installAGpsCert(const DerEncodedCertificate* pData,
+ size_t numberOfCerts,
+ uint32_t slotBitMask)
+{
+ LOC_LOGD("%s:%d]:, slot mask=%u number of certs=%u",
+ __func__, __LINE__, slotBitMask, numberOfCerts);
+
+ uint8_t certIndex = 0;
+ for (uint8_t slot = 0; slot <= AGPS_CERTIFICATE_MAX_SLOTS-1; slot++, slotBitMask >>= 1)
+ {
+ if (slotBitMask & 1) //slot is writable
+ {
+ if (certIndex < numberOfCerts && pData[certIndex].data && pData[certIndex].length > 0)
+ {
+ LOC_LOGD("%s:%d]:, Inject cert#%u slot=%u length=%u",
+ __func__, __LINE__, certIndex, slot, pData[certIndex].length);
+
+ locClientReqUnionType req_union;
+ locClientStatusEnumType status;
+ qmiLocInjectSuplCertificateReqMsgT_v02 injectCertReq;
+ qmiLocInjectSuplCertificateIndMsgT_v02 injectCertInd;
+
+ memset(&injectCertReq, 0, sizeof(injectCertReq));
+ injectCertReq.suplCertId = slot;
+ injectCertReq.suplCertData_len = pData[certIndex].length;
+ memcpy(injectCertReq.suplCertData, pData[certIndex].data, pData[certIndex].length);
+
+ req_union.pInjectSuplCertificateReq = &injectCertReq;
+
+ status = loc_sync_send_req(clientHandle,
+ QMI_LOC_INJECT_SUPL_CERTIFICATE_REQ_V02,
+ req_union, LOC_ENGINE_SYNC_REQUEST_TIMEOUT,
+ QMI_LOC_INJECT_SUPL_CERTIFICATE_IND_V02,
+ &injectCertInd);
+
+ if (status != eLOC_CLIENT_SUCCESS ||
+ eQMI_LOC_SUCCESS_V02 != injectCertInd.status)
+ {
+ LOC_LOGE ("%s:%d]: inject-error status = %s, set_server_ind.status = %s",
+ __func__,__LINE__,
+ loc_get_v02_client_status_name(status),
+ loc_get_v02_qmi_status_name(injectCertInd.status));
+ }
+
+ certIndex++; //move to next cert
+
+ } else {
+
+ LOC_LOGD("%s:%d]:, Delete slot=%u",
+ __func__, __LINE__, slot);
+
+ // A fake cert is injected first before delete is called to workaround
+ // an issue that is seen with trying to delete an empty slot.
+ {
+ locClientReqUnionType req_union;
+ locClientStatusEnumType status;
+ qmiLocInjectSuplCertificateReqMsgT_v02 injectFakeCertReq;
+ qmiLocInjectSuplCertificateIndMsgT_v02 injectFakeCertInd;
+
+ memset(&injectFakeCertReq, 0, sizeof(injectFakeCertReq));
+ injectFakeCertReq.suplCertId = slot;
+ injectFakeCertReq.suplCertData_len = 1;
+ injectFakeCertReq.suplCertData[0] = 1;
+
+ req_union.pInjectSuplCertificateReq = &injectFakeCertReq;
+
+ status = loc_sync_send_req(clientHandle,
+ QMI_LOC_INJECT_SUPL_CERTIFICATE_REQ_V02,
+ req_union, LOC_ENGINE_SYNC_REQUEST_TIMEOUT,
+ QMI_LOC_INJECT_SUPL_CERTIFICATE_IND_V02,
+ &injectFakeCertInd);
+
+ if (status != eLOC_CLIENT_SUCCESS ||
+ eQMI_LOC_SUCCESS_V02 != injectFakeCertInd.status)
+ {
+ LOC_LOGE ("%s:%d]: inject-fake-error status = %s, set_server_ind.status = %s",
+ __func__,__LINE__,
+ loc_get_v02_client_status_name(status),
+ loc_get_v02_qmi_status_name(injectFakeCertInd.status));
+ }
+ }
+
+ locClientReqUnionType req_union;
+ locClientStatusEnumType status;
+ qmiLocDeleteSuplCertificateReqMsgT_v02 deleteCertReq;
+ qmiLocDeleteSuplCertificateIndMsgT_v02 deleteCertInd;
+
+ memset(&deleteCertReq, 0, sizeof(deleteCertReq));
+ deleteCertReq.suplCertId = slot;
+ deleteCertReq.suplCertId_valid = 1;
+
+ req_union.pDeleteSuplCertificateReq = &deleteCertReq;
+
+ status = loc_sync_send_req(clientHandle,
+ QMI_LOC_DELETE_SUPL_CERTIFICATE_REQ_V02,
+ req_union, LOC_ENGINE_SYNC_REQUEST_TIMEOUT,
+ QMI_LOC_DELETE_SUPL_CERTIFICATE_IND_V02,
+ &deleteCertInd);
+
+ if (status != eLOC_CLIENT_SUCCESS ||
+ eQMI_LOC_SUCCESS_V02 != deleteCertInd.status)
+ {
+ LOC_LOGE("%s:%d]: delete-error status = %s, set_server_ind.status = %s",
+ __func__,__LINE__,
+ loc_get_v02_client_status_name(status),
+ loc_get_v02_qmi_status_name(deleteCertInd.status));
+ }
+ }
+ } else {
+ LOC_LOGD("%s:%d]:, Not writable slot=%u",
+ __func__, __LINE__, slot);
+ }
+ }
+}
+
+/*
+ Returns
+ 0: update the gps reporting event successfully
+ -1: on failure
+*/
+int LocApiV02 :: updateRegistrationMask(LOC_API_ADAPTER_EVENT_MASK_T event,
+ loc_registration_mask_status isEnabled)
+{
+ LOC_LOGD("%s:%d]: Enter\n", __func__, __LINE__);
+
+ return open((isEnabled == LOC_REGISTRATION_MASK_ENABLED)?(mMask|event):(mMask&~event));
+}
+
+bool LocApiV02 :: gnssConstellationConfig()
+{
+ return mGnssMeasurementSupported == sup_yes;
+}
+
+void LocApiV02 :: cacheGnssMeasurementSupport()
+{
+ if (sup_unknown == mGnssMeasurementSupported) {
+ if ((mQmiMask & QMI_LOC_EVENT_MASK_POSITION_REPORT_V02) ==
+ QMI_LOC_EVENT_MASK_POSITION_REPORT_V02) {
+ /*for GNSS Measurement service, use
+ QMI_LOC_SET_GNSS_CONSTELL_REPORT_CONFIG_V02
+ to check if modem support this feature or not*/
+ LOC_LOGD("%s:%d]: set GNSS measurement to report gps measurement only.\n",
+ __func__, __LINE__);
+
+ qmiLocSetGNSSConstRepConfigReqMsgT_v02 setGNSSConstRepConfigReq;
+ qmiLocSetGNSSConstRepConfigIndMsgT_v02 setGNSSConstRepConfigInd;
+ memset(&setGNSSConstRepConfigReq, 0, sizeof(setGNSSConstRepConfigReq));
+ memset(&setGNSSConstRepConfigInd, 0, sizeof(setGNSSConstRepConfigInd));
+
+ locClientStatusEnumType status;
+ locClientReqUnionType req_union;
+
+ setGNSSConstRepConfigReq.measReportConfig_valid = true;
+ setGNSSConstRepConfigReq.measReportConfig = eQMI_SYSTEM_GPS_V02;
+ req_union.pSetGNSSConstRepConfigReq = &setGNSSConstRepConfigReq;
+
+ status = loc_sync_send_req(clientHandle,
+ QMI_LOC_SET_GNSS_CONSTELL_REPORT_CONFIG_V02,
+ req_union,
+ LOC_ENGINE_SYNC_REQUEST_TIMEOUT,
+ QMI_LOC_SET_GNSS_CONSTELL_REPORT_CONFIG_IND_V02,
+ &setGNSSConstRepConfigInd);
+
+ if(status != eLOC_CLIENT_SUCCESS ||
+ setGNSSConstRepConfigInd.status != eQMI_LOC_SUCCESS_V02) {
+ LOC_LOGD("%s:%d]: Set GNSS constellation failed."
+ " status: %s, ind status:%s\n",
+ __func__, __LINE__,
+ loc_get_v02_client_status_name(status),
+ loc_get_v02_qmi_status_name(setGNSSConstRepConfigInd.status));
+ mGnssMeasurementSupported = sup_no;
+ } else {
+ LOC_LOGD("%s:%d]: Set GNSS constellation succeeded.\n",
+ __func__, __LINE__);
+ mGnssMeasurementSupported = sup_yes;
+ }
+ }
+ }
+
+ LOC_LOGV("%s:%d]: mGnssMeasurementSupported is %d\n", __func__, __LINE__, mGnssMeasurementSupported);
+}
diff --git a/location/loc_api/loc_api_v02/LocApiV02.h b/location/loc_api/loc_api_v02/LocApiV02.h
new file mode 100644
index 0000000..8afb1c9
--- /dev/null
+++ b/location/loc_api/loc_api_v02/LocApiV02.h
@@ -0,0 +1,250 @@
+/* Copyright (c) 2011-2014, The Linux Foundation. All rights reserved.
+ *
+ * Redistribution and use in source and binary forms, with or without
+ * modification, are permitted provided that the following conditions are
+ * met:
+ * * Redistributions of source code must retain the above copyright
+ * notice, this list of conditions and the following disclaimer.
+ * * Redistributions in binary form must reproduce the above
+ * copyright notice, this list of conditions and the following
+ * disclaimer in the documentation and/or other materials provided
+ * with the distribution.
+ * * Neither the name of The Linux Foundation, nor the names of its
+ * contributors may be used to endorse or promote products derived
+ * from this software without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED "AS IS" AND ANY EXPRESS OR IMPLIED
+ * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
+ * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT
+ * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS
+ * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
+ * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
+ * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
+ * BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
+ * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE
+ * OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN
+ * IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ */
+
+#ifndef LOC_API_V_0_2_H
+#define LOC_API_V_0_2_H
+
+#include <stdint.h>
+#include <stdbool.h>
+#include "ds_client.h"
+#include <LocApiBase.h>
+#include <loc_api_v02_client.h>
+
+using namespace loc_core;
+
+/* This class derives from the LocApiBase class.
+ The members of this class are responsible for converting
+ the Loc API V02 data structures into Loc Adapter data structures.
+ This class also implements some of the virtual functions that
+ handle the requests from loc engine. */
+class LocApiV02 : public LocApiBase {
+ enum supported_status {
+ sup_unknown,
+ sup_yes,
+ sup_no
+ };
+protected:
+ /* loc api v02 handle*/
+ locClientHandleType clientHandle;
+ enum premium_mode{
+ DISABLED = 0,
+ BASIC = 1,
+ PREMIUM = 2
+ };
+private:
+ /*ds client handle*/
+ dsClientHandleType dsClientHandle;
+ enum supported_status mGnssMeasurementSupported;
+ locClientEventMaskType mQmiMask;
+ bool mInSession;
+ bool mEngineOn;
+ enum premium_mode mSAPMode;
+
+ /* Convert event mask from loc eng to loc_api_v02 format */
+ static locClientEventMaskType convertMask(LOC_API_ADAPTER_EVENT_MASK_T mask);
+
+ /* Convert GPS LOCK mask from gps.conf definition */
+ static qmiLocLockEnumT_v02 convertGpsLockMask(LOC_GPS_LOCK_MASK lockMask);
+
+ /* Convert error from loc_api_v02 to loc eng format*/
+ static enum loc_api_adapter_err convertErr(locClientStatusEnumType status);
+
+ /* convert Ni Encoding type from QMI_LOC to loc eng format */
+ static GpsNiEncodingType convertNiEncoding(
+ qmiLocNiDataCodingSchemeEnumT_v02 loc_encoding);
+
+ /*convert NI notify verify type from QMI LOC to loc eng format*/
+ static bool convertNiNotifyVerifyType (GpsNiNotification *notif,
+ qmiLocNiNotifyVerifyEnumT_v02 notif_priv);
+
+ /*convert GpsMeasurement type from QMI LOC to loc eng format*/
+ static void convertGpsMeasurements (GpsMeasurement& gpsMeasurement,
+ const qmiLocSVMeasurementStructT_v02& gnss_measurement_info);
+
+ /*convert GpsClock type from QMI LOC to loc eng format*/
+ static void convertGpsClock (GpsClock& gpsClock,
+ const qmiLocEventGnssSvMeasInfoIndMsgT_v02& gnss_measurement_info);
+
+ /* convert position report to loc eng format and send the converted
+ position to loc eng */
+ void reportPosition
+ (const qmiLocEventPositionReportIndMsgT_v02 *location_report_ptr);
+
+ /* convert satellite report to loc eng format and send the converted
+ report to loc eng */
+ void reportSv (const qmiLocEventGnssSvInfoIndMsgT_v02 *gnss_report_ptr);
+
+ /* convert engine state report to loc eng format and send the converted
+ report to loc eng */
+ void reportEngineState (
+ const qmiLocEventEngineStateIndMsgT_v02 *engine_state_ptr);
+
+ /* convert fix session report to loc eng format and send the converted
+ report to loc eng */
+ void reportFixSessionState (
+ const qmiLocEventFixSessionStateIndMsgT_v02 *fix_session_state_ptr);
+
+ /* convert NMEA report to loc eng format and send the converted
+ report to loc eng */
+ void reportNmea (const qmiLocEventNmeaIndMsgT_v02 *nmea_report_ptr);
+
+ /* convert and report an ATL request to loc engine */
+ void reportAtlRequest(
+ const qmiLocEventLocationServerConnectionReqIndMsgT_v02
+ *server_request_ptr);
+
+ /* convert and report NI request to loc eng */
+ void reportNiRequest(
+ const qmiLocEventNiNotifyVerifyReqIndMsgT_v02 *ni_req_ptr);
+
+ /* report the xtra server info */
+ void reportXtraServerUrl(
+ const qmiLocEventInjectPredictedOrbitsReqIndMsgT_v02* server_request_ptr);
+
+ /* convert and report GNSS measurement data to loc eng */
+ void reportGnssMeasurementData(
+ const qmiLocEventGnssSvMeasInfoIndMsgT_v02& gnss_measurement_report_ptr);
+
+ bool registerEventMask(locClientEventMaskType qmiMask);
+ locClientEventMaskType adjustMaskForNoSession(locClientEventMaskType qmiMask);
+ void cacheGnssMeasurementSupport();
+ void readSAPMode();
+
+protected:
+ virtual enum loc_api_adapter_err
+ open(LOC_API_ADAPTER_EVENT_MASK_T mask);
+ virtual enum loc_api_adapter_err
+ close();
+
+public:
+ LocApiV02(const MsgTask* msgTask,
+ LOC_API_ADAPTER_EVENT_MASK_T exMask,
+ ContextBase *context = NULL);
+ ~LocApiV02();
+
+ /* event callback registered with the loc_api v02 interface */
+ virtual void eventCb(locClientHandleType client_handle,
+ uint32_t loc_event_id,
+ locClientEventIndUnionType loc_event_payload);
+
+ /* error callback, this function handles the service unavailable
+ error */
+ void errorCb(locClientHandleType handle,
+ locClientErrorEnumType errorId);
+
+ void ds_client_event_cb(ds_client_status_enum_type result);
+
+ virtual enum loc_api_adapter_err startFix(const LocPosMode& posMode);
+
+ virtual enum loc_api_adapter_err stopFix();
+
+ virtual enum loc_api_adapter_err
+ setPositionMode(const LocPosMode& mode);
+
+ virtual enum loc_api_adapter_err
+ setTime(GpsUtcTime time, int64_t timeReference, int uncertainty);
+
+ virtual enum loc_api_adapter_err
+ injectPosition(double latitude, double longitude, float accuracy);
+
+ virtual enum loc_api_adapter_err
+ deleteAidingData(GpsAidingData f);
+
+ virtual enum loc_api_adapter_err
+ informNiResponse(GpsUserResponseType userResponse,
+ const void* passThroughData);
+
+ virtual enum loc_api_adapter_err
+ setServer(const char* url, int len);
+ virtual enum loc_api_adapter_err
+ setServer(unsigned int ip, int port, LocServerType type);
+ virtual enum loc_api_adapter_err
+ setXtraData(char* data, int length);
+ virtual enum loc_api_adapter_err
+ requestXtraServer();
+ virtual enum loc_api_adapter_err
+ atlOpenStatus(int handle, int is_succ, char* apn, AGpsBearerType bear,
+ AGpsType agpsType);
+ virtual enum loc_api_adapter_err atlCloseStatus(int handle, int is_succ);
+ virtual enum loc_api_adapter_err setSUPLVersion(uint32_t version);
+ virtual enum loc_api_adapter_err setLPPConfig(uint32_t profile);
+
+ virtual enum loc_api_adapter_err
+ setSensorControlConfig(int sensorUsage, int sensorProvider);
+
+ virtual enum loc_api_adapter_err
+ setSensorProperties(bool gyroBiasVarianceRandomWalk_valid, float gyroBiasVarianceRandomWalk,
+ bool accelBiasVarianceRandomWalk_valid, float accelBiasVarianceRandomWalk,
+ bool angleBiasVarianceRandomWalk_valid, float angleBiasVarianceRandomWalk,
+ bool rateBiasVarianceRandomWalk_valid, float rateBiasVarianceRandomWalk,
+ bool velocityBiasVarianceRandomWalk_valid, float velocityBiasVarianceRandomWalk);
+
+ virtual enum loc_api_adapter_err
+ setSensorPerfControlConfig(int controlMode, int accelSamplesPerBatch, int accelBatchesPerSec,
+ int gyroSamplesPerBatch, int gyroBatchesPerSec,
+ int accelSamplesPerBatchHigh, int accelBatchesPerSecHigh,
+ int gyroSamplesPerBatchHigh, int gyroBatchesPerSecHigh, int algorithmConfig);
+ virtual enum loc_api_adapter_err setExtPowerConfig(int isBatteryCharging);
+ virtual enum loc_api_adapter_err setAGLONASSProtocol(unsigned long aGlonassProtocol);
+ virtual enum loc_api_adapter_err
+ getWwanZppFix(GpsLocation & zppLoc);
+ virtual enum loc_api_adapter_err
+ getBestAvailableZppFix(GpsLocation & zppLoc);
+ virtual enum loc_api_adapter_err
+ getBestAvailableZppFix(GpsLocation & zppLoc, LocPosTechMask & tech_mask);
+ virtual int initDataServiceClient();
+ virtual int openAndStartDataCall();
+ virtual void stopDataCall();
+ virtual void closeDataCall();
+ virtual int setGpsLock(LOC_GPS_LOCK_MASK lock);
+
+ /*
+ Returns
+ Current value of GPS Lock on success
+ -1 on failure
+ */
+ virtual int getGpsLock(void);
+ virtual enum loc_api_adapter_err setXtraVersionCheck(enum xtra_version_check check);
+ virtual void installAGpsCert(const DerEncodedCertificate* pData,
+ size_t length,
+ uint32_t slotBitMask);
+ /*
+ Update Registration Mask
+ */
+ virtual int updateRegistrationMask(LOC_API_ADAPTER_EVENT_MASK_T event,
+ loc_registration_mask_status isEnabled);
+ /*
+ Set Gnss Constellation Config
+ */
+ virtual bool gnssConstellationConfig();
+};
+
+extern "C" LocApiBase* getLocApi(const MsgTask* msgTask,
+ LOC_API_ADAPTER_EVENT_MASK_T exMask,
+ ContextBase *context);
+#endif //LOC_API_V_0_2_H
diff --git a/location/loc_api/loc_api_v02/Makefile.am b/location/loc_api/loc_api_v02/Makefile.am
new file mode 100644
index 0000000..2308cd4
--- /dev/null
+++ b/location/loc_api/loc_api_v02/Makefile.am
@@ -0,0 +1,42 @@
+AM_CFLAGS = \
+ ${QMIF_CFLAGS} \
+ -I../../utils \
+ -I../../platform_lib_abstractions \
+ -I../libloc_api_50001
+
+requiredlibs = \
+ ${QMIF_LIBS} \
+ ../libloc_api_50001/libloc_adapter_so.la \
+ ../../utils/libgps_utils_so.la
+
+h_sources = LocApiV02Adapter.h \
+ loc_util_log.h \
+ location_service_v02.h \
+ loc_api_sync_req.h \
+ loc_api_v02_client.h \
+ loc_api_v02_log.h
+
+c_sources = LocApiV02Adapter.cpp \
+ loc_api_v02_log.c \
+ loc_api_v02_client.c \
+ loc_api_sync_req.c \
+ location_service_v02.c
+
+library_includedir = $(pkgincludedir)
+library_include_HEADERS = $(h_sources)
+
+libloc_api_la_SOURCES = $(c_sources) $(h_sources)
+
+if USE_GLIB
+libloc_api_la_CFLAGS = -DUSE_GLIB $(AM_CFLAGS) @GLIB_CFLAGS@
+libloc_api_la_LDFLAGS = -lstdc++ -lpthread @GLIB_LIBS@ -shared -version-info 1:0:0
+libloc_api_la_CPPFLAGS = -DUSE_GLIB $(AM_CFLAGS) $(AM_CPPFLAGS) @GLIB_CFLAGS@
+else
+libloc_api_la_CFLAGS = $(AM_CFLAGS)
+libloc_api_la_LDFLAGS = -shared -version-info 1:0:0
+libloc_api_la_CPPFLAGS = $(AM_CFLAGS) $(AM_CPPFLAGS)
+endif
+
+libloc_api_la_LIBADD = $(requiredlibs) -lstdc++
+
+lib_LTLIBRARIES = libloc_api.la
diff --git a/location/loc_api/loc_api_v02/loc_api_sync_req.c b/location/loc_api/loc_api_v02/loc_api_sync_req.c
new file mode 100644
index 0000000..6a08666
--- /dev/null
+++ b/location/loc_api/loc_api_v02/loc_api_sync_req.c
@@ -0,0 +1,547 @@
+/* Copyright (c) 2011-2012, The Linux Foundation. All rights reserved.
+ *
+ * Redistribution and use in source and binary forms, with or without
+ * modification, are permitted provided that the following conditions are
+ * met:
+ * * Redistributions of source code must retain the above copyright
+ * notice, this list of conditions and the following disclaimer.
+ * * Redistributions in binary form must reproduce the above
+ * copyright notice, this list of conditions and the following
+ * disclaimer in the documentation and/or other materials provided
+ * with the distribution.
+ * * Neither the name of The Linux Foundation, nor the names of its
+ * contributors may be used to endorse or promote products derived
+ * from this software without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED "AS IS" AND ANY EXPRESS OR IMPLIED
+ * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
+ * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT
+ * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS
+ * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
+ * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
+ * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
+ * BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
+ * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE
+ * OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN
+ * IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ */
+#include <stdio.h>
+#include <assert.h>
+#include <errno.h>
+#include <sys/time.h>
+#include <string.h>
+#include <pthread.h>
+#include <stdbool.h>
+#include <stdint.h>
+#include <loc_cfg.h>
+#include "loc_api_v02_client.h"
+#include "loc_api_sync_req.h"
+
+/* Logging */
+// Uncomment to log verbose logs
+#define LOG_NDEBUG 1
+
+// log debug logs
+#define LOG_NDDEBUG 1
+#define LOG_TAG "LocSvc_api_v02"
+#include "loc_util_log.h"
+
+#define LOC_SYNC_REQ_BUFFER_SIZE 8
+#define GPS_CONF_FILE "/etc/gps.conf"
+pthread_mutex_t loc_sync_call_mutex = PTHREAD_MUTEX_INITIALIZER;
+
+static bool loc_sync_call_initialized = false;
+
+typedef struct {
+ pthread_mutex_t sync_req_lock;
+
+ /* Client ID */
+ locClientHandleType client_handle;
+
+ /* waiting conditional variable */
+ pthread_cond_t ind_arrived_cond;
+
+ /* Callback waiting data block, protected by loc_cb_data_mutex */
+ bool ind_is_selected; /* is cb selected? */
+ bool ind_is_waiting; /* is waiting? */
+ bool ind_has_arrived; /* callback has arrived */
+ uint32_t req_id; /* sync request */
+ void *recv_ind_payload_ptr; /* received payload */
+ uint32_t recv_ind_id; /* received ind */
+
+} loc_sync_req_data_s_type;
+
+typedef struct {
+ bool in_use; /* at least one sync call is active */
+ bool slot_in_use[LOC_SYNC_REQ_BUFFER_SIZE];
+ loc_sync_req_data_s_type slots[LOC_SYNC_REQ_BUFFER_SIZE];
+} loc_sync_req_array_s_type;
+
+/***************************************************************************
+ * DATA FOR ASYNCHRONOUS RPC PROCESSING
+ **************************************************************************/
+loc_sync_req_array_s_type loc_sync_array;
+
+/*===========================================================================
+
+FUNCTION loc_sync_req_init
+
+DESCRIPTION
+ Initialize this module
+
+DEPENDENCIES
+ N/A
+
+RETURN VALUE
+ none
+
+SIDE EFFECTS
+ N/A
+
+===========================================================================*/
+void loc_sync_req_init()
+{
+ LOC_LOGV(" %s:%d]:\n", __func__, __LINE__);
+ UTIL_READ_CONF_DEFAULT(GPS_CONF_FILE);
+ pthread_mutex_lock(&loc_sync_call_mutex);
+ if(true == loc_sync_call_initialized)
+ {
+ LOC_LOGD("%s:%d]:already initialized\n", __func__, __LINE__);
+ pthread_mutex_unlock(&loc_sync_call_mutex);
+ return;
+ }
+
+ loc_sync_array.in_use = false;
+
+ memset(loc_sync_array.slot_in_use, 0, sizeof(loc_sync_array.slot_in_use));
+
+ int i;
+ for (i = 0; i < LOC_SYNC_REQ_BUFFER_SIZE; i++)
+ {
+ loc_sync_req_data_s_type *slot = &loc_sync_array.slots[i];
+
+ pthread_mutex_init(&slot->sync_req_lock, NULL);
+ pthread_cond_init(&slot->ind_arrived_cond, NULL);
+
+ slot->client_handle = LOC_CLIENT_INVALID_HANDLE_VALUE;
+ slot->ind_is_selected = false; /* is ind selected? */
+ slot->ind_is_waiting = false; /* is waiting? */
+ slot->ind_has_arrived = false; /* callback has arrived */
+ slot->recv_ind_id = 0; /* ind to wait for */
+ slot->recv_ind_payload_ptr = NULL;
+ slot->req_id = 0; /* req id */
+ }
+
+ loc_sync_call_initialized = true;
+ pthread_mutex_unlock(&loc_sync_call_mutex);
+}
+
+
+/*===========================================================================
+
+FUNCTION loc_sync_process_ind
+
+DESCRIPTION
+ Wakes up blocked API calls to check if the needed callback has arrived
+
+DEPENDENCIES
+ N/A
+
+RETURN VALUE
+ none
+
+SIDE EFFECTS
+ N/A
+
+===========================================================================*/
+void loc_sync_process_ind(
+ locClientHandleType client_handle, /* handle of the client */
+ uint32_t ind_id , /* ind id */
+ void *ind_payload_ptr /* payload */
+)
+{
+
+ LOC_LOGV("%s:%d]: received indication, handle = %p ind_id = %u \n",
+ __func__,__LINE__, client_handle, ind_id);
+
+ pthread_mutex_lock(&loc_sync_call_mutex);
+
+ if (!loc_sync_array.in_use)
+ {
+ LOC_LOGD("%s:%d]: loc_sync_array not in use \n",
+ __func__, __LINE__);
+ pthread_mutex_unlock(&loc_sync_call_mutex);
+ return;
+ }
+
+ bool in_use = false, consumed = false;
+ int i;
+
+ for (i = 0; i < LOC_SYNC_REQ_BUFFER_SIZE && !consumed; i++)
+ {
+ loc_sync_req_data_s_type *slot = &loc_sync_array.slots[i];
+
+ in_use |= loc_sync_array.slot_in_use[i];
+
+ pthread_mutex_lock(&slot->sync_req_lock);
+
+ if ( (loc_sync_array.slot_in_use[i]) && (slot->client_handle == client_handle)
+ && (ind_id == slot->recv_ind_id) && (!slot->ind_has_arrived))
+ {
+ // copy the payload to the slot waiting for this ind
+ size_t payload_size = 0;
+
+ LOC_LOGV("%s:%d]: found slot %d selected for ind %u \n",
+ __func__, __LINE__, i, ind_id);
+
+ if(true == locClientGetSizeByRespIndId(ind_id, &payload_size) &&
+ NULL != slot->recv_ind_payload_ptr && NULL != ind_payload_ptr)
+ {
+ LOC_LOGV("%s:%d]: copying ind payload size = %u \n",
+ __func__, __LINE__, payload_size);
+
+ memcpy(slot->recv_ind_payload_ptr, ind_payload_ptr, payload_size);
+
+ consumed = true;
+
+ }
+ /* Received a callback while waiting, wake up thread to check it */
+ if (slot->ind_is_waiting)
+ {
+ slot->recv_ind_id = ind_id;
+
+ pthread_cond_signal(&slot->ind_arrived_cond);
+ }
+ else
+ {
+ /* If callback arrives before wait, remember it */
+ LOC_LOGV("%s:%d]: ind %u arrived before wait was called \n",
+ __func__, __LINE__, ind_id);
+
+ slot->ind_has_arrived = true;
+ }
+ }
+ pthread_mutex_unlock(&slot->sync_req_lock);
+ }
+
+ if (!in_use) {
+ loc_sync_array.in_use = false;
+ }
+
+ pthread_mutex_unlock(&loc_sync_call_mutex);
+}
+
+/*===========================================================================
+
+FUNCTION loc_alloc_slot
+
+DESCRIPTION
+ Allocates a buffer slot for the synchronous API call
+
+DEPENDENCIES
+ N/A
+
+RETURN VALUE
+ Select ID (>=0) : successful
+ -1 : buffer full
+
+SIDE EFFECTS
+ N/A
+
+===========================================================================*/
+static int loc_alloc_slot()
+{
+ int i, select_id = -1; /* no free buffer */
+
+ pthread_mutex_lock(&loc_sync_call_mutex);
+
+ for (i = 0; i < LOC_SYNC_REQ_BUFFER_SIZE; i++)
+ {
+ if (!loc_sync_array.slot_in_use[i])
+ {
+ select_id = i;
+ loc_sync_array.slot_in_use[i] = 1;
+ loc_sync_array.in_use = true;
+ break;
+ }
+ }
+
+ pthread_mutex_unlock(&loc_sync_call_mutex);
+ LOC_LOGV("%s:%d]: returning slot %d\n",
+ __func__, __LINE__, select_id);
+ return select_id;
+}
+
+/*===========================================================================
+
+FUNCTION loc_free_slot
+
+DESCRIPTION
+ Frees a buffer slot after the synchronous API call
+
+DEPENDENCIES
+ N/A
+
+RETURN VALUE
+ None
+
+SIDE EFFECTS
+ N/A
+
+===========================================================================*/
+static void loc_free_slot(int select_id)
+{
+ int i;
+ loc_sync_req_data_s_type *slot;
+
+ pthread_mutex_lock(&loc_sync_call_mutex);
+
+ LOC_LOGD("%s:%d]: freeing slot %d\n", __func__, __LINE__, select_id);
+
+ loc_sync_array.slot_in_use[select_id] = 0;
+
+ slot = &loc_sync_array.slots[select_id];
+
+ slot->client_handle = LOC_CLIENT_INVALID_HANDLE_VALUE;
+ slot->ind_is_selected = false; /* is ind selected? */
+ slot->ind_is_waiting = false; /* is waiting? */
+ slot->ind_has_arrived = false; /* callback has arrived */
+ slot->recv_ind_id = 0; /* ind to wait for */
+ slot->recv_ind_payload_ptr = NULL;
+ slot->req_id = 0;
+
+ // check if all slots are now free
+ for (i = 0; i < LOC_SYNC_REQ_BUFFER_SIZE; i++)
+ {
+ if (loc_sync_array.slot_in_use[i]) break;
+ }
+
+ if (i >= LOC_SYNC_REQ_BUFFER_SIZE)
+ {
+ loc_sync_array.in_use = false;
+ }
+
+ pthread_mutex_unlock(&loc_sync_call_mutex);
+}
+
+/*===========================================================================
+
+FUNCTION loc_sync_select_ind
+
+DESCRIPTION
+ Selects which indication to wait for.
+
+
+DEPENDENCIES
+ N/A
+
+RETURN VALUE
+ Select ID (>=0) : successful
+ -ENOMEM : out of buffer
+
+SIDE EFFECTS
+ N/A
+
+===========================================================================*/
+static int loc_sync_select_ind(
+ locClientHandleType client_handle, /* Client handle */
+ uint32_t ind_id, /* ind Id wait for */
+ uint32_t req_id, /* req id */
+ void * ind_payload_ptr /* ptr where payload should be copied to*/
+)
+{
+ int select_id = loc_alloc_slot();
+
+ LOC_LOGV("%s:%d]: client handle %p, ind_id %u, req_id %u \n",
+ __func__, __LINE__, client_handle, ind_id, req_id);
+
+ if (select_id < 0)
+ {
+ LOC_LOGE("%s:%d]: buffer full for this synchronous req %s \n",
+ __func__, __LINE__, loc_get_v02_event_name(req_id));
+ return -ENOMEM;
+ }
+
+ loc_sync_req_data_s_type *slot = &loc_sync_array.slots[select_id];
+
+ pthread_mutex_lock(&slot->sync_req_lock);
+
+ slot->client_handle = client_handle;
+ slot->ind_is_selected = true;
+ slot->ind_is_waiting = false;
+ slot->ind_has_arrived = false;
+
+ slot->recv_ind_id = ind_id;
+ slot->req_id = req_id;
+ slot->recv_ind_payload_ptr = ind_payload_ptr; //store the payload ptr
+
+ pthread_mutex_unlock(&slot->sync_req_lock);
+
+ return select_id;
+}
+
+
+/*===========================================================================
+
+FUNCTION loc_sync_wait_for_ind
+
+DESCRIPTION
+ Waits for a selected indication. The wait expires in timeout_seconds seconds.
+ If the function is called before an existing wait has finished, it will
+ immediately return error.
+
+DEPENDENCIES
+ N/A
+
+RETURN VALUE
+ 0 on SUCCESS, -ve value on failure
+
+SIDE EFFECTS
+ N/A
+
+===========================================================================*/
+static int loc_sync_wait_for_ind(
+ int select_id, /* ID from loc_sync_select_ind() */
+ int timeout_seconds, /* Timeout in this number of seconds */
+ uint32_t ind_id
+)
+{
+ if (select_id < 0 || select_id >= LOC_SYNC_REQ_BUFFER_SIZE || !loc_sync_array.slot_in_use[select_id])
+ {
+ LOC_LOGE("%s:%d]: invalid select_id: %d \n",
+ __func__, __LINE__, select_id);
+
+ return (-EINVAL);
+ }
+
+ loc_sync_req_data_s_type *slot = &loc_sync_array.slots[select_id];
+
+ int ret_val = 0; /* the return value of this function: 0 = no error */
+ int rc; /* return code from pthread calls */
+
+ struct timeval present_time;
+ struct timespec expire_time;
+
+ pthread_mutex_lock(&slot->sync_req_lock);
+
+ do
+ {
+ if (slot->ind_has_arrived)
+ {
+ ret_val = 0; /* success */
+ break;
+ }
+
+ if (slot->ind_is_waiting)
+ {
+ LOC_LOGW("%s:%d]: already waiting in this slot %d\n", __func__,
+ __LINE__, select_id);
+ ret_val = -EBUSY; // busy
+ break;
+ }
+
+ /* Calculate absolute expire time */
+ gettimeofday(&present_time, NULL);
+ expire_time.tv_sec = present_time.tv_sec;
+ expire_time.tv_nsec = present_time.tv_usec * 1000;
+ expire_time.tv_sec += timeout_seconds;
+
+ /* Take new wait request */
+ slot->ind_is_waiting = true;
+
+ /* Waiting */
+ rc = pthread_cond_timedwait(&slot->ind_arrived_cond,
+ &slot->sync_req_lock, &expire_time);
+
+ slot->ind_is_waiting = false;
+
+ if(rc == ETIMEDOUT)
+ {
+ LOC_LOGE("%s:%d]: slot %d, timed out for ind_id %s\n",
+ __func__, __LINE__, select_id, loc_get_v02_event_name(ind_id));
+ ret_val = -ETIMEDOUT; //time out
+ }
+
+ } while (0);
+
+ pthread_mutex_unlock(&slot->sync_req_lock);
+ loc_free_slot(select_id);
+
+ return ret_val;
+}
+
+/*===========================================================================
+
+FUNCTION loc_sync_send_req
+
+DESCRIPTION
+ Synchronous req call (thread safe)
+
+DEPENDENCIES
+ N/A
+
+RETURN VALUE
+ Loc API 2.0 status
+
+SIDE EFFECTS
+ N/A
+
+===========================================================================*/
+locClientStatusEnumType loc_sync_send_req
+(
+ locClientHandleType client_handle,
+ uint32_t req_id, /* req id */
+ locClientReqUnionType req_payload,
+ uint32_t timeout_msec,
+ uint32_t ind_id, //ind ID to block for, usually the same as req_id */
+ void *ind_payload_ptr /* can be NULL*/
+)
+{
+ locClientStatusEnumType status = eLOC_CLIENT_SUCCESS ;
+ int select_id;
+ int rc = 0;
+
+ // Select the callback we are waiting for
+ select_id = loc_sync_select_ind(client_handle, ind_id, req_id,
+ ind_payload_ptr);
+
+ if (select_id >= 0)
+ {
+ status = locClientSendReq (client_handle, req_id, req_payload);
+ LOC_LOGV("%s:%d]: select_id = %d,locClientSendReq returned %d\n",
+ __func__, __LINE__, select_id, status);
+
+ if (status != eLOC_CLIENT_SUCCESS )
+ {
+ loc_free_slot(select_id);
+ }
+ else
+ {
+ // Wait for the indication callback
+ if (( rc = loc_sync_wait_for_ind( select_id,
+ timeout_msec / 1000,
+ ind_id) ) < 0)
+ {
+ if ( rc == -ETIMEDOUT)
+ status = eLOC_CLIENT_FAILURE_TIMEOUT;
+ else
+ status = eLOC_CLIENT_FAILURE_INTERNAL;
+
+ // Callback waiting failed
+ LOC_LOGE("%s:%d]: loc_api_wait_for_ind failed, err %d, "
+ "select id %d, status %s", __func__, __LINE__, rc ,
+ select_id, loc_get_v02_client_status_name(status));
+ }
+ else
+ {
+ status = eLOC_CLIENT_SUCCESS;
+ LOC_LOGV("%s:%d]: success (select id %d)\n",
+ __func__, __LINE__, select_id);
+ }
+ }
+ } /* select id */
+
+ return status;
+}
+
+
diff --git a/location/loc_api/loc_api_v02/loc_api_sync_req.h b/location/loc_api/loc_api_v02/loc_api_sync_req.h
new file mode 100644
index 0000000..167c7c3
--- /dev/null
+++ b/location/loc_api/loc_api_v02/loc_api_sync_req.h
@@ -0,0 +1,90 @@
+/* Copyright (c) 2011, The Linux Foundation. All rights reserved.
+ *
+ * Redistribution and use in source and binary forms, with or without
+ * modification, are permitted provided that the following conditions are
+ * met:
+ * * Redistributions of source code must retain the above copyright
+ * notice, this list of conditions and the following disclaimer.
+ * * Redistributions in binary form must reproduce the above
+ * copyright notice, this list of conditions and the following
+ * disclaimer in the documentation and/or other materials provided
+ * with the distribution.
+ * * Neither the name of The Linux Foundation nor the names of its
+ * contributors may be used to endorse or promote products derived
+ * from this software without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED "AS IS" AND ANY EXPRESS OR IMPLIED
+ * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
+ * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT
+ * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS
+ * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
+ * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
+ * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
+ * BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
+ * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE
+ * OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN
+ * IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ */
+
+#ifndef LOC_SYNC_REQ_H
+#define LOC_SYNC_REQ_H
+
+#ifdef __cplusplus
+extern "C"
+{
+#endif
+#include <stdbool.h>
+#include <stdint.h>
+#include "loc_api_v02_client.h"
+
+#define LOC_ENGINE_SYNC_REQUEST_TIMEOUT (1000) // 1 second
+
+#define LOC_SEND_SYNC_REQ(NAME, ID, REQ, HANDLE) \
+ int rv = true; \
+ locClientStatusEnumType st; \
+ locClientReqUnionType reqUnion; \
+ qmiLoc##NAME##IndMsgT_v02 ind; \
+\
+ reqUnion.p##NAME##Req = &REQ; \
+\
+ st = loc_sync_send_req(HANDLE, \
+ QMI_LOC_##ID##_REQ_V02, \
+ reqUnion, \
+ LOC_ENGINE_SYNC_REQUEST_TIMEOUT, \
+ QMI_LOC_##ID##_IND_V02, \
+ &ind); \
+\
+ if (st != eLOC_CLIENT_SUCCESS || \
+ eQMI_LOC_SUCCESS_V02 != ind.status) { \
+ LOC_LOGE ("%s:%d]: Error : st = %d, ind.status = %d", \
+ __func__, __LINE__, st, ind.status); \
+ rv = false; \
+ }
+
+/* Init function */
+extern void loc_sync_req_init();
+
+
+/* Process Loc API indications to wake up blocked user threads */
+extern void loc_sync_process_ind(
+ locClientHandleType client_handle, /* handle of the client */
+ uint32_t ind_id , /* respInd id */
+ void *ind_payload_ptr /* payload */
+);
+
+/* Thread safe synchronous request, using Loc API status return code */
+extern locClientStatusEnumType loc_sync_send_req
+(
+ locClientHandleType client_handle,
+ uint32_t req_id, /* req id */
+ locClientReqUnionType req_payload,
+ uint32_t timeout_msec,
+ uint32_t ind_id, //ind ID to block for, usually the same as req_id */
+ void *ind_payload_ptr /* can be NULL*/
+);
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* LOC_SYNC_REQ_H */
diff --git a/location/loc_api/loc_api_v02/loc_api_v02_client.c b/location/loc_api/loc_api_v02/loc_api_v02_client.c
new file mode 100644
index 0000000..7535f44
--- /dev/null
+++ b/location/loc_api/loc_api_v02/loc_api_v02_client.c
@@ -0,0 +1,2277 @@
+/* Copyright (c) 2011-2014, The Linux Foundation. All rights reserved.
+ *
+ * Redistribution and use in source and binary forms, with or without
+ * modification, are permitted provided that the following conditions are
+ * met:
+ * * Redistributions of source code must retain the above copyright
+ * notice, this list of conditions and the following disclaimer.
+ * * Redistributions in binary form must reproduce the above
+ * copyright notice, this list of conditions and the following
+ * disclaimer in the documentation and/or other materials provided
+ * with the distribution.
+ * * Neither the name of The Linux Foundation, nor the names of its
+ * contributors may be used to endorse or promote products derived
+ * from this software without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED "AS IS" AND ANY EXPRESS OR IMPLIED
+ * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
+ * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT
+ * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS
+ * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
+ * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
+ * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
+ * BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
+ * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE
+ * OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN
+ * IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ */
+
+#include <stdlib.h>
+#include <string.h>
+#include <stddef.h>
+
+#include <stdbool.h>
+#include <stdint.h>
+
+#include "qmi_client.h"
+#include "qmi_idl_lib.h"
+#include "qmi_cci_target_ext.h"
+
+#if defined( _ANDROID_)
+#include "qmi_cci_target.h"
+#include "qmi_cci_common.h"
+#define LOG_NDEBUG 0
+#define LOG_TAG "LocSvc_api_v02"
+#endif //_ANDROID_
+
+
+#include "loc_api_v02_client.h"
+#include "loc_util_log.h"
+
+#ifdef LOC_UTIL_TARGET_OFF_TARGET
+
+// timeout in ms before send_msg_sync should return
+#define LOC_CLIENT_ACK_TIMEOUT (5000)
+
+#else
+
+// timeout in ms before send_msg_sync should return
+#define LOC_CLIENT_ACK_TIMEOUT (1000)
+
+#endif //LOC_UTIL_TARGET_OFF_TARGET
+
+#define LOC_CLIENT_MAX_OPEN_RETRIES (20)
+#define LOC_CLIENT_TIME_BETWEEN_OPEN_RETRIES (1)
+
+enum
+{
+ //! Special value for selecting any available service
+ /** This value enables selection of any available service */
+ eLOC_CLIENT_INSTANCE_ID_ANY = -1,
+ //! qca1530 service id value
+ /** qca1530 service daemon uses service id value 1 */
+ eLOC_CLIENT_INSTANCE_ID_QCA1530 = 1,
+ //! GSS service id value
+ /* GSS service id value is 0, but here it is set to -1 for compatibitily */
+ eLOC_CLIENT_INSTANCE_ID_GSS = eLOC_CLIENT_INSTANCE_ID_ANY,
+ //! MSM service id value
+ /** MSM service id value is 0, but here it is set to -1 for compatibitily */
+ eLOC_CLIENT_INSTANCE_ID_MSM = eLOC_CLIENT_INSTANCE_ID_ANY,
+ //! MDM service id value
+ /** MDM connects using QMUXD and assigned a value of
+ QMI_CLIENT_QMUX_RMNET_USB_INSTANCE_0 ("qmi_client_instance_defs.h", 37).
+ -1 for compatibility */
+ eLOC_CLIENT_INSTANCE_ID_MDM = eLOC_CLIENT_INSTANCE_ID_ANY,
+ /* GSS service id value is 0, for auto config */
+ eLOC_CLIENT_INSTANCE_ID_GSS_AUTO = 0
+};
+
+/* Table to relate eventId, size and mask value used to enable the event*/
+typedef struct
+{
+ uint32_t eventId;
+ size_t eventSize;
+ locClientEventMaskType eventMask;
+}locClientEventIndTableStructT;
+
+
+static locClientEventIndTableStructT locClientEventIndTable[]= {
+
+ // position report ind
+ { QMI_LOC_EVENT_POSITION_REPORT_IND_V02,
+ sizeof(qmiLocEventPositionReportIndMsgT_v02),
+ QMI_LOC_EVENT_MASK_POSITION_REPORT_V02 },
+
+ // satellite report ind
+ { QMI_LOC_EVENT_GNSS_SV_INFO_IND_V02,
+ sizeof(qmiLocEventGnssSvInfoIndMsgT_v02),
+ QMI_LOC_EVENT_MASK_GNSS_SV_INFO_V02 },
+
+ // NMEA report ind
+ { QMI_LOC_EVENT_NMEA_IND_V02,
+ sizeof(qmiLocEventNmeaIndMsgT_v02),
+ QMI_LOC_EVENT_MASK_NMEA_V02 },
+
+ //NI event ind
+ { QMI_LOC_EVENT_NI_NOTIFY_VERIFY_REQ_IND_V02,
+ sizeof(qmiLocEventNiNotifyVerifyReqIndMsgT_v02),
+ QMI_LOC_EVENT_MASK_NI_NOTIFY_VERIFY_REQ_V02 },
+
+ //Time Injection Request Ind
+ { QMI_LOC_EVENT_INJECT_TIME_REQ_IND_V02,
+ sizeof(qmiLocEventInjectTimeReqIndMsgT_v02),
+ QMI_LOC_EVENT_MASK_INJECT_TIME_REQ_V02 },
+
+ //Predicted Orbits Injection Request
+ { QMI_LOC_EVENT_INJECT_PREDICTED_ORBITS_REQ_IND_V02,
+ sizeof(qmiLocEventInjectPredictedOrbitsReqIndMsgT_v02),
+ QMI_LOC_EVENT_MASK_INJECT_PREDICTED_ORBITS_REQ_V02 },
+
+ //Position Injection Request Ind
+ { QMI_LOC_EVENT_INJECT_POSITION_REQ_IND_V02,
+ sizeof(qmiLocEventInjectPositionReqIndMsgT_v02),
+ QMI_LOC_EVENT_MASK_INJECT_POSITION_REQ_V02 } ,
+
+ //Engine State Report Ind
+ { QMI_LOC_EVENT_ENGINE_STATE_IND_V02,
+ sizeof(qmiLocEventEngineStateIndMsgT_v02),
+ QMI_LOC_EVENT_MASK_ENGINE_STATE_V02 },
+
+ //Fix Session State Report Ind
+ { QMI_LOC_EVENT_FIX_SESSION_STATE_IND_V02,
+ sizeof(qmiLocEventFixSessionStateIndMsgT_v02),
+ QMI_LOC_EVENT_MASK_FIX_SESSION_STATE_V02 },
+
+ //Wifi Request Indication
+ { QMI_LOC_EVENT_WIFI_REQ_IND_V02,
+ sizeof(qmiLocEventWifiReqIndMsgT_v02),
+ QMI_LOC_EVENT_MASK_WIFI_REQ_V02 },
+
+ //Sensor Streaming Ready Status Ind
+ { QMI_LOC_EVENT_SENSOR_STREAMING_READY_STATUS_IND_V02,
+ sizeof(qmiLocEventSensorStreamingReadyStatusIndMsgT_v02),
+ QMI_LOC_EVENT_MASK_SENSOR_STREAMING_READY_STATUS_V02 },
+
+ // Time Sync Request Indication
+ { QMI_LOC_EVENT_TIME_SYNC_REQ_IND_V02,
+ sizeof(qmiLocEventTimeSyncReqIndMsgT_v02),
+ QMI_LOC_EVENT_MASK_TIME_SYNC_REQ_V02 },
+
+ //Set Spi Streaming Report Event
+ { QMI_LOC_EVENT_SET_SPI_STREAMING_REPORT_IND_V02,
+ sizeof(qmiLocEventSetSpiStreamingReportIndMsgT_v02),
+ QMI_LOC_EVENT_MASK_SET_SPI_STREAMING_REPORT_V02 },
+
+ //Location Server Connection Request event
+ { QMI_LOC_EVENT_LOCATION_SERVER_CONNECTION_REQ_IND_V02,
+ sizeof(qmiLocEventLocationServerConnectionReqIndMsgT_v02),
+ QMI_LOC_EVENT_MASK_LOCATION_SERVER_CONNECTION_REQ_V02 },
+
+ // NI Geofence Event
+ { QMI_LOC_EVENT_NI_GEOFENCE_NOTIFICATION_IND_V02,
+ sizeof(qmiLocEventNiGeofenceNotificationIndMsgT_v02),
+ QMI_LOC_EVENT_MASK_NI_GEOFENCE_NOTIFICATION_V02},
+
+ // Geofence General Alert Event
+ { QMI_LOC_EVENT_GEOFENCE_GEN_ALERT_IND_V02,
+ sizeof(qmiLocEventGeofenceGenAlertIndMsgT_v02),
+ QMI_LOC_EVENT_MASK_GEOFENCE_GEN_ALERT_V02},
+
+ //Geofence Breach event
+ { QMI_LOC_EVENT_GEOFENCE_BREACH_NOTIFICATION_IND_V02,
+ sizeof(qmiLocEventGeofenceBreachIndMsgT_v02),
+ QMI_LOC_EVENT_MASK_GEOFENCE_BREACH_NOTIFICATION_V02},
+
+ //Geofence Batched Breach event
+ { QMI_LOC_EVENT_GEOFENCE_BATCHED_BREACH_NOTIFICATION_IND_V02,
+ sizeof(qmiLocEventGeofenceBatchedBreachIndMsgT_v02),
+ QMI_LOC_EVENT_MASK_GEOFENCE_BATCH_BREACH_NOTIFICATION_V02},
+
+ //Pedometer Control event
+ { QMI_LOC_EVENT_PEDOMETER_CONTROL_IND_V02,
+ sizeof(qmiLocEventPedometerControlIndMsgT_v02),
+ QMI_LOC_EVENT_MASK_PEDOMETER_CONTROL_V02 },
+
+ //Motion Data Control event
+ { QMI_LOC_EVENT_MOTION_DATA_CONTROL_IND_V02,
+ sizeof(qmiLocEventMotionDataControlIndMsgT_v02),
+ QMI_LOC_EVENT_MASK_MOTION_DATA_CONTROL_V02 },
+
+ //Wifi AP data request event
+ { QMI_LOC_EVENT_INJECT_WIFI_AP_DATA_REQ_IND_V02,
+ sizeof(qmiLocEventInjectWifiApDataReqIndMsgT_v02),
+ QMI_LOC_EVENT_MASK_INJECT_WIFI_AP_DATA_REQ_V02 },
+
+ //Get Batching On Fix Event
+ { QMI_LOC_EVENT_LIVE_BATCHED_POSITION_REPORT_IND_V02,
+ sizeof(qmiLocEventLiveBatchedPositionReportIndMsgT_v02),
+ QMI_LOC_EVENT_MASK_LIVE_BATCHED_POSITION_REPORT_V02 },
+
+ //Get Batching On Full Event
+ { QMI_LOC_EVENT_BATCH_FULL_NOTIFICATION_IND_V02,
+ sizeof(qmiLocEventBatchFullIndMsgT_v02),
+ QMI_LOC_EVENT_MASK_BATCH_FULL_NOTIFICATION_V02 },
+
+ //Vehicle Data Readiness event
+ { QMI_LOC_EVENT_VEHICLE_DATA_READY_STATUS_IND_V02,
+ sizeof(qmiLocEventVehicleDataReadyIndMsgT_v02),
+ QMI_LOC_EVENT_MASK_VEHICLE_DATA_READY_STATUS_V02 },
+
+ //Geofence Proximity event
+ { QMI_LOC_EVENT_GEOFENCE_PROXIMITY_NOTIFICATION_IND_V02,
+ sizeof(qmiLocEventGeofenceProximityIndMsgT_v02),
+ QMI_LOC_EVENT_MASK_GEOFENCE_PROXIMITY_NOTIFICATION_V02},
+
+ // for GDT
+ { QMI_LOC_EVENT_GDT_UPLOAD_BEGIN_STATUS_REQ_IND_V02,
+ sizeof(qmiLocEventGdtUploadBeginStatusReqIndMsgT_v02),
+ QMI_LOC_EVENT_MASK_GDT_UPLOAD_BEGIN_REQ_V02,
+ },
+
+ { QMI_LOC_EVENT_GDT_UPLOAD_END_REQ_IND_V02,
+ sizeof(qmiLocEventGdtUploadEndReqIndMsgT_v02),
+ QMI_LOC_EVENT_MASK_GDT_UPLOAD_END_REQ_V02,
+ },
+
+ //GNSS measurement event
+ { QMI_LOC_EVENT_GNSS_MEASUREMENT_REPORT_IND_V02 ,
+ sizeof(qmiLocEventGnssSvMeasInfoIndMsgT_v02),
+ QMI_LOC_EVENT_MASK_GNSS_MEASUREMENT_REPORT_V02}
+};
+
+/* table to relate the respInd Id with its size */
+typedef struct
+{
+ uint32_t respIndId;
+ size_t respIndSize;
+}locClientRespIndTableStructT;
+
+static locClientRespIndTableStructT locClientRespIndTable[]= {
+
+ // get service revision ind
+ { QMI_LOC_GET_SERVICE_REVISION_IND_V02,
+ sizeof(qmiLocGetServiceRevisionIndMsgT_v02)},
+
+ // Get Fix Criteria Resp Ind
+ { QMI_LOC_GET_FIX_CRITERIA_IND_V02,
+ sizeof(qmiLocGetFixCriteriaIndMsgT_v02)},
+
+ // NI User Resp In
+ { QMI_LOC_NI_USER_RESPONSE_IND_V02,
+ sizeof(qmiLocNiUserRespIndMsgT_v02)},
+
+ //Inject Predicted Orbits Data Resp Ind
+ { QMI_LOC_INJECT_PREDICTED_ORBITS_DATA_IND_V02,
+ sizeof(qmiLocInjectPredictedOrbitsDataIndMsgT_v02)},
+
+ //Get Predicted Orbits Data Src Resp Ind
+ { QMI_LOC_GET_PREDICTED_ORBITS_DATA_SOURCE_IND_V02,
+ sizeof(qmiLocGetPredictedOrbitsDataSourceIndMsgT_v02)},
+
+ // Get Predicted Orbits Data Validity Resp Ind
+ { QMI_LOC_GET_PREDICTED_ORBITS_DATA_VALIDITY_IND_V02,
+ sizeof(qmiLocGetPredictedOrbitsDataValidityIndMsgT_v02)},
+
+ // Inject UTC Time Resp Ind
+ { QMI_LOC_INJECT_UTC_TIME_IND_V02,
+ sizeof(qmiLocInjectUtcTimeIndMsgT_v02)},
+
+ //Inject Position Resp Ind
+ { QMI_LOC_INJECT_POSITION_IND_V02,
+ sizeof(qmiLocInjectPositionIndMsgT_v02)},
+
+ //Set Engine Lock Resp Ind
+ { QMI_LOC_SET_ENGINE_LOCK_IND_V02,
+ sizeof(qmiLocSetEngineLockIndMsgT_v02)},
+
+ //Get Engine Lock Resp Ind
+ { QMI_LOC_GET_ENGINE_LOCK_IND_V02,
+ sizeof(qmiLocGetEngineLockIndMsgT_v02)},
+
+ //Set SBAS Config Resp Ind
+ { QMI_LOC_SET_SBAS_CONFIG_IND_V02,
+ sizeof(qmiLocSetSbasConfigIndMsgT_v02)},
+
+ //Get SBAS Config Resp Ind
+ { QMI_LOC_GET_SBAS_CONFIG_IND_V02,
+ sizeof(qmiLocGetSbasConfigIndMsgT_v02)},
+
+ //Set NMEA Types Resp Ind
+ { QMI_LOC_SET_NMEA_TYPES_IND_V02,
+ sizeof(qmiLocSetNmeaTypesIndMsgT_v02)},
+
+ //Get NMEA Types Resp Ind
+ { QMI_LOC_GET_NMEA_TYPES_IND_V02,
+ sizeof(qmiLocGetNmeaTypesIndMsgT_v02)},
+
+ //Set Low Power Mode Resp Ind
+ { QMI_LOC_SET_LOW_POWER_MODE_IND_V02,
+ sizeof(qmiLocSetLowPowerModeIndMsgT_v02)},
+
+ //Get Low Power Mode Resp Ind
+ { QMI_LOC_GET_LOW_POWER_MODE_IND_V02,
+ sizeof(qmiLocGetLowPowerModeIndMsgT_v02)},
+
+ //Set Server Resp Ind
+ { QMI_LOC_SET_SERVER_IND_V02,
+ sizeof(qmiLocSetServerIndMsgT_v02)},
+
+ //Get Server Resp Ind
+ { QMI_LOC_GET_SERVER_IND_V02,
+ sizeof(qmiLocGetServerIndMsgT_v02)},
+
+ //Delete Assist Data Resp Ind
+ { QMI_LOC_DELETE_ASSIST_DATA_IND_V02,
+ sizeof(qmiLocDeleteAssistDataIndMsgT_v02)},
+
+ //Set XTRA-T Session Control Resp Ind
+ { QMI_LOC_SET_XTRA_T_SESSION_CONTROL_IND_V02,
+ sizeof(qmiLocSetXtraTSessionControlIndMsgT_v02)},
+
+ //Get XTRA-T Session Control Resp Ind
+ { QMI_LOC_GET_XTRA_T_SESSION_CONTROL_IND_V02,
+ sizeof(qmiLocGetXtraTSessionControlIndMsgT_v02)},
+
+ //Inject Wifi Position Resp Ind
+ { QMI_LOC_INJECT_WIFI_POSITION_IND_V02,
+ sizeof(qmiLocInjectWifiPositionIndMsgT_v02)},
+
+ //Notify Wifi Status Resp Ind
+ { QMI_LOC_NOTIFY_WIFI_STATUS_IND_V02,
+ sizeof(qmiLocNotifyWifiStatusIndMsgT_v02)},
+
+ //Get Registered Events Resp Ind
+ { QMI_LOC_GET_REGISTERED_EVENTS_IND_V02,
+ sizeof(qmiLocGetRegisteredEventsIndMsgT_v02)},
+
+ //Set Operation Mode Resp Ind
+ { QMI_LOC_SET_OPERATION_MODE_IND_V02,
+ sizeof(qmiLocSetOperationModeIndMsgT_v02)},
+
+ //Get Operation Mode Resp Ind
+ { QMI_LOC_GET_OPERATION_MODE_IND_V02,
+ sizeof(qmiLocGetOperationModeIndMsgT_v02)},
+
+ //Set SPI Status Resp Ind
+ { QMI_LOC_SET_SPI_STATUS_IND_V02,
+ sizeof(qmiLocSetSpiStatusIndMsgT_v02)},
+
+ //Inject Sensor Data Resp Ind
+ { QMI_LOC_INJECT_SENSOR_DATA_IND_V02,
+ sizeof(qmiLocInjectSensorDataIndMsgT_v02)},
+
+ //Inject Time Sync Data Resp Ind
+ { QMI_LOC_INJECT_TIME_SYNC_DATA_IND_V02,
+ sizeof(qmiLocInjectTimeSyncDataIndMsgT_v02)},
+
+ //Set Cradle Mount config Resp Ind
+ { QMI_LOC_SET_CRADLE_MOUNT_CONFIG_IND_V02,
+ sizeof(qmiLocSetCradleMountConfigIndMsgT_v02)},
+
+ //Get Cradle Mount config Resp Ind
+ { QMI_LOC_GET_CRADLE_MOUNT_CONFIG_IND_V02,
+ sizeof(qmiLocGetCradleMountConfigIndMsgT_v02)},
+
+ //Set External Power config Resp Ind
+ { QMI_LOC_SET_EXTERNAL_POWER_CONFIG_IND_V02,
+ sizeof(qmiLocSetExternalPowerConfigIndMsgT_v02)},
+
+ //Get External Power config Resp Ind
+ { QMI_LOC_GET_EXTERNAL_POWER_CONFIG_IND_V02,
+ sizeof(qmiLocGetExternalPowerConfigIndMsgT_v02)},
+
+ //Location server connection status
+ { QMI_LOC_INFORM_LOCATION_SERVER_CONN_STATUS_IND_V02,
+ sizeof(qmiLocInformLocationServerConnStatusIndMsgT_v02)},
+
+ //Set Protocol Config Parameters
+ { QMI_LOC_SET_PROTOCOL_CONFIG_PARAMETERS_IND_V02,
+ sizeof(qmiLocSetProtocolConfigParametersIndMsgT_v02)},
+
+ //Get Protocol Config Parameters
+ { QMI_LOC_GET_PROTOCOL_CONFIG_PARAMETERS_IND_V02,
+ sizeof(qmiLocGetProtocolConfigParametersIndMsgT_v02)},
+
+ //Set Sensor Control Config
+ { QMI_LOC_SET_SENSOR_CONTROL_CONFIG_IND_V02,
+ sizeof(qmiLocSetSensorControlConfigIndMsgT_v02)},
+
+ //Get Sensor Control Config
+ { QMI_LOC_GET_SENSOR_CONTROL_CONFIG_IND_V02,
+ sizeof(qmiLocGetSensorControlConfigIndMsgT_v02)},
+
+ //Set Sensor Properties
+ { QMI_LOC_SET_SENSOR_PROPERTIES_IND_V02,
+ sizeof(qmiLocSetSensorPropertiesIndMsgT_v02)},
+
+ //Get Sensor Properties
+ { QMI_LOC_GET_SENSOR_PROPERTIES_IND_V02,
+ sizeof(qmiLocGetSensorPropertiesIndMsgT_v02)},
+
+ //Set Sensor Performance Control Config
+ { QMI_LOC_SET_SENSOR_PERFORMANCE_CONTROL_CONFIGURATION_IND_V02,
+ sizeof(qmiLocSetSensorPerformanceControlConfigIndMsgT_v02)},
+
+ //Get Sensor Performance Control Config
+ { QMI_LOC_GET_SENSOR_PERFORMANCE_CONTROL_CONFIGURATION_IND_V02,
+ sizeof(qmiLocGetSensorPerformanceControlConfigIndMsgT_v02)},
+ //Inject SUPL certificate
+ { QMI_LOC_INJECT_SUPL_CERTIFICATE_IND_V02,
+ sizeof(qmiLocInjectSuplCertificateIndMsgT_v02) },
+
+ //Delete SUPL certificate
+ { QMI_LOC_DELETE_SUPL_CERTIFICATE_IND_V02,
+ sizeof(qmiLocDeleteSuplCertificateIndMsgT_v02) },
+
+ // Set Position Engine Config
+ { QMI_LOC_SET_POSITION_ENGINE_CONFIG_PARAMETERS_IND_V02,
+ sizeof(qmiLocSetPositionEngineConfigParametersIndMsgT_v02)},
+
+ // Get Position Engine Config
+ { QMI_LOC_GET_POSITION_ENGINE_CONFIG_PARAMETERS_IND_V02,
+ sizeof(qmiLocGetPositionEngineConfigParametersIndMsgT_v02)},
+
+ //Add a Circular Geofence
+ { QMI_LOC_ADD_CIRCULAR_GEOFENCE_IND_V02,
+ sizeof(qmiLocAddCircularGeofenceIndMsgT_v02)},
+
+ //Delete a Geofence
+ { QMI_LOC_DELETE_GEOFENCE_IND_V02,
+ sizeof(qmiLocDeleteGeofenceIndMsgT_v02)} ,
+
+ //Query a Geofence
+ { QMI_LOC_QUERY_GEOFENCE_IND_V02,
+ sizeof(qmiLocQueryGeofenceIndMsgT_v02)},
+
+ //Edit a Geofence
+ { QMI_LOC_EDIT_GEOFENCE_IND_V02,
+ sizeof(qmiLocEditGeofenceIndMsgT_v02)},
+
+ //Get best available position
+ { QMI_LOC_GET_BEST_AVAILABLE_POSITION_IND_V02,
+ sizeof(qmiLocGetBestAvailablePositionIndMsgT_v02)},
+
+ //Inject motion data
+ { QMI_LOC_INJECT_MOTION_DATA_IND_V02,
+ sizeof(qmiLocInjectMotionDataIndMsgT_v02)},
+
+ //Get NI Geofence list
+ { QMI_LOC_GET_NI_GEOFENCE_ID_LIST_IND_V02,
+ sizeof(qmiLocGetNiGeofenceIdListIndMsgT_v02)},
+
+ //Inject GSM Cell Info
+ { QMI_LOC_INJECT_GSM_CELL_INFO_IND_V02,
+ sizeof(qmiLocInjectGSMCellInfoIndMsgT_v02)},
+
+ //Inject Network Initiated Message
+ { QMI_LOC_INJECT_NETWORK_INITIATED_MESSAGE_IND_V02,
+ sizeof(qmiLocInjectNetworkInitiatedMessageIndMsgT_v02)},
+
+ //WWAN Out of Service Notification
+ { QMI_LOC_WWAN_OUT_OF_SERVICE_NOTIFICATION_IND_V02,
+ sizeof(qmiLocWWANOutOfServiceNotificationIndMsgT_v02)},
+
+ //Pedomete Report
+ { QMI_LOC_PEDOMETER_REPORT_IND_V02,
+ sizeof(qmiLocPedometerReportIndMsgT_v02)},
+
+ { QMI_LOC_INJECT_WCDMA_CELL_INFO_IND_V02,
+ sizeof(qmiLocInjectWCDMACellInfoIndMsgT_v02)},
+
+ { QMI_LOC_INJECT_TDSCDMA_CELL_INFO_IND_V02,
+ sizeof(qmiLocInjectTDSCDMACellInfoIndMsgT_v02)},
+
+ { QMI_LOC_INJECT_SUBSCRIBER_ID_IND_V02,
+ sizeof(qmiLocInjectSubscriberIDIndMsgT_v02)},
+
+ //Inject Wifi AP data Resp Ind
+ { QMI_LOC_INJECT_WIFI_AP_DATA_IND_V02,
+ sizeof(qmiLocInjectWifiApDataIndMsgT_v02)},
+
+ { QMI_LOC_START_BATCHING_IND_V02,
+ sizeof(qmiLocStartBatchingIndMsgT_v02)},
+
+ { QMI_LOC_STOP_BATCHING_IND_V02,
+ sizeof(qmiLocStopBatchingIndMsgT_v02)},
+
+ { QMI_LOC_GET_BATCH_SIZE_IND_V02,
+ sizeof(qmiLocGetBatchSizeIndMsgT_v02)},
+
+ { QMI_LOC_EVENT_LIVE_BATCHED_POSITION_REPORT_IND_V02,
+ sizeof(qmiLocEventPositionReportIndMsgT_v02)},
+
+ { QMI_LOC_EVENT_BATCH_FULL_NOTIFICATION_IND_V02,
+ sizeof(qmiLocEventBatchFullIndMsgT_v02)},
+
+ { QMI_LOC_READ_FROM_BATCH_IND_V02,
+ sizeof(qmiLocReadFromBatchIndMsgT_v02)},
+
+ { QMI_LOC_RELEASE_BATCH_IND_V02,
+ sizeof(qmiLocReleaseBatchIndMsgT_v02)},
+
+ { QMI_LOC_SET_XTRA_VERSION_CHECK_IND_V02,
+ sizeof(qmiLocSetXtraVersionCheckIndMsgT_v02)},
+
+ //Vehicle Sensor Data
+ { QMI_LOC_INJECT_VEHICLE_SENSOR_DATA_IND_V02,
+ sizeof(qmiLocInjectVehicleSensorDataIndMsgT_v02)},
+
+ { QMI_LOC_NOTIFY_WIFI_ATTACHMENT_STATUS_IND_V02,
+ sizeof(qmiLocNotifyWifiAttachmentStatusIndMsgT_v02)},
+
+ { QMI_LOC_NOTIFY_WIFI_ENABLED_STATUS_IND_V02,
+ sizeof(qmiLocNotifyWifiEnabledStatusIndMsgT_v02)},
+
+ { QMI_LOC_SET_PREMIUM_SERVICES_CONFIG_IND_V02,
+ sizeof(qmiLocSetPremiumServicesCfgReqMsgT_v02)},
+
+ { QMI_LOC_GET_AVAILABLE_WWAN_POSITION_IND_V02,
+ sizeof(qmiLocGetAvailWwanPositionIndMsgT_v02)},
+
+ // for TDP
+ { QMI_LOC_INJECT_GTP_CLIENT_DOWNLOADED_DATA_IND_V02,
+ sizeof(qmiLocInjectGtpClientDownloadedDataIndMsgT_v02) },
+
+ // for GDT
+ { QMI_LOC_GDT_UPLOAD_BEGIN_STATUS_IND_V02,
+ sizeof(qmiLocGdtUploadBeginStatusIndMsgT_v02) },
+
+ { QMI_LOC_GDT_UPLOAD_END_IND_V02,
+ sizeof(qmiLocGdtUploadEndIndMsgT_v02) },
+
+ { QMI_LOC_SET_GNSS_CONSTELL_REPORT_CONFIG_IND_V02,
+ sizeof(qmiLocSetGNSSConstRepConfigIndMsgT_v02)}
+};
+
+
+/** whether indication is an event or a response */
+typedef enum { eventIndType =0, respIndType = 1 } locClientIndEnumT;
+
+
+/** @struct locClientInternalState
+ */
+
+typedef struct locClientCbDataStructT locClientCallbackDataType;
+
+struct locClientCbDataStructT
+{
+ // client cookie
+ void *pClientCookie;
+ //QCCI handle for this control point
+ qmi_client_type userHandle;
+
+ // callbacks registered by the clients
+ locClientEventIndCbType eventCallback;
+ locClientRespIndCbType respCallback;
+ locClientErrorCbType errorCallback;
+
+ // the event mask the client has registered for
+ locClientEventMaskType eventRegMask;
+
+ //pointer to itself for checking consistency data
+ locClientCallbackDataType *pMe;
+};
+
+
+/*===========================================================================
+ *
+ * FUNCTION DECLARATION
+ *
+ *==========================================================================*/
+
+/** locClientGetSizeAndTypeByIndId
+ * @brief this function gets the size and the type (event,
+ * response)of the indication structure from its ID
+ * @param [in] indId ID of the indication
+ * @param [out] type event or response indication
+ * @param [out] size size of the indications
+ *
+ * @return true if the ID was found, false otherwise */
+
+static bool locClientGetSizeAndTypeByIndId (uint32_t indId, size_t *pIndSize,
+ locClientIndEnumT *pIndType)
+{
+ // look in the event table
+ if(true == locClientGetSizeByEventIndId(indId, pIndSize))
+ {
+ *pIndType = eventIndType;
+
+ LOC_LOGV("%s:%d]: indId %d is an event size = %d\n", __func__, __LINE__,
+ indId, (uint32_t)*pIndSize);
+ return true;
+ }
+
+ //else look in response table
+ if(true == locClientGetSizeByRespIndId(indId, pIndSize))
+ {
+ *pIndType = respIndType;
+
+ LOC_LOGV("%s:%d]: indId %d is a resp size = %d\n", __func__, __LINE__,
+ indId, (uint32_t)*pIndSize);
+ return true;
+ }
+
+ // Id not found
+ LOC_LOGW("%s:%d]: indId %d not found\n", __func__, __LINE__, indId);
+ return false;
+}
+
+/** isClientRegisteredForEvent
+* @brief checks the mask to identify if the client has
+* registered for the specified event Id
+* @param [in] eventIndId
+* @param [in] eventRegMask
+* @return true if client regstered for event; else false */
+
+static bool isClientRegisteredForEvent(
+ locClientEventMaskType eventRegMask,
+ uint32_t eventIndId)
+{
+ size_t idx = 0, eventIndTableSize = 0;
+
+ // look in the event table
+ eventIndTableSize =
+ (sizeof(locClientEventIndTable)/sizeof(locClientEventIndTableStructT));
+
+ for(idx=0; idx<eventIndTableSize; idx++ )
+ {
+ if(eventIndId == locClientEventIndTable[idx].eventId)
+ {
+ LOC_LOGV("%s:%d]: eventId %d registered mask = 0x%04x%04x, "
+ "eventMask = 0x%04x%04x\n", __func__, __LINE__,
+ eventIndId,(uint32_t)(eventRegMask>>32),
+ (uint32_t)(eventRegMask & 0xFFFFFFFF),
+ (uint32_t)(locClientEventIndTable[idx].eventMask >> 32),
+ (uint32_t)(locClientEventIndTable[idx].eventMask & 0xFFFFFFFF));
+
+ return((
+ eventRegMask & locClientEventIndTable[idx].eventMask)?
+ true:false);
+ }
+ }
+ LOC_LOGW("%s:%d]: eventId %d not found\n", __func__, __LINE__,
+ eventIndId);
+ return false;
+}
+
+/** checkQmiMsgsSupported
+ @brief check the qmi service is supported or not.
+ @param [in] pResponse pointer to the response received from
+ QMI_LOC service.
+*/
+
+static void checkQmiMsgsSupported(
+ uint32_t* reqIdArray,
+ int reqIdArrayLength,
+ qmiLocGetSupportMsgT_v02 *pResponse,
+ uint64_t* supportedMsg)
+{
+ uint64_t result = 0;
+ if (pResponse->resp.supported_msgs_valid) {
+
+ /* For example, if a service supports exactly four messages with
+ IDs 0, 1, 30, and 31 (decimal), the array (in hexadecimal) is
+ 4 bytes [03 00 00 c0]. */
+
+ size_t idx = 0;
+ uint32_t reqId = 0;
+ uint32_t length = 0;
+ uint32_t supportedMsgsLen = pResponse->resp.supported_msgs_len;
+
+ // every bit saves a checked message result
+ uint32_t maxCheckedMsgsSavedNum = sizeof(result)<<3;
+
+ uint32_t loopSize = reqIdArrayLength;
+ loopSize =
+ loopSize < supportedMsgsLen ? loopSize : supportedMsgsLen;
+ loopSize =
+ loopSize < maxCheckedMsgsSavedNum ? loopSize : maxCheckedMsgsSavedNum;
+
+ for (idx = 0; idx < loopSize; idx++) {
+ reqId = reqIdArray[idx];
+ length = reqId >> 3;
+ if(supportedMsgsLen > length) {
+ uint32_t bit = reqId & ((uint32_t)7);
+ if (pResponse->resp.supported_msgs[length] & (1<<bit)) {
+ result |= ( 1 << idx ) ;
+ }
+ }
+ }
+ } else {
+ LOC_LOGE("%s:%d] Invalid supported message list.\n", __func__, __LINE__);
+ }
+ *supportedMsg = result;
+}
+
+/** convertQmiResponseToLocStatus
+ @brief converts a qmiLocGenRespMsgT to locClientStatusEnumType*
+ @param [in] pResponse; pointer to the response received from
+ QMI_LOC service.
+ @return locClientStatusEnumType corresponding to the
+ response.
+*/
+
+static locClientStatusEnumType convertQmiResponseToLocStatus(
+ qmiLocGenRespMsgT_v02 *pResponse)
+{
+ locClientStatusEnumType status = eLOC_CLIENT_FAILURE_INTERNAL;
+
+ // if result == SUCCESS don't look at error code
+ if(pResponse->resp.result == QMI_RESULT_SUCCESS_V01 )
+ {
+ status = eLOC_CLIENT_SUCCESS;
+ }
+ else
+ {
+ switch(pResponse->resp.error)
+ {
+ case QMI_ERR_MALFORMED_MSG_V01:
+ case QMI_ERR_INVALID_ARG_V01:
+ status = eLOC_CLIENT_FAILURE_INVALID_PARAMETER;
+ break;
+
+ case QMI_ERR_DEVICE_IN_USE_V01:
+ status = eLOC_CLIENT_FAILURE_ENGINE_BUSY;
+ break;
+
+ default:
+ status = eLOC_CLIENT_FAILURE_INTERNAL;
+ break;
+ }
+ }
+ LOC_LOGV("%s:%d]: result = %d, error = %d, status = %d\n",
+ __func__, __LINE__, pResponse->resp.result,
+ pResponse->resp.error, status);
+ return status;
+}
+
+/** convertQmiErrorToLocError
+ @brief converts a qmi service error type to
+ locClientErrorEnumType
+ @param [in] error received QMI service.
+ @return locClientErrorEnumType corresponding to the error.
+*/
+
+static locClientErrorEnumType convertQmiErrorToLocError(
+ qmi_client_error_type error)
+{
+ locClientErrorEnumType locError ;
+ switch(error)
+ {
+ case QMI_SERVICE_ERR:
+ locError = eLOC_CLIENT_ERROR_SERVICE_UNAVAILABLE;
+ break;
+
+ default:
+ locError = eLOC_CLIENT_ERROR_SERVICE_UNAVAILABLE;
+ break;
+ }
+ LOC_LOGV("%s:%d]: qmi error = %d, loc error = %d\n",
+ __func__, __LINE__, error, locError);
+ return locError;
+}
+
+//-----------------------------------------------------------------------------
+
+/** locClientHandleIndication
+ * @brief looks at each indication and calls the appropriate
+ * validation handler
+ * @param [in] indId
+ * @param [in] indBuffer
+ * @param [in] indSize
+ * @return true if indication was validated; else false */
+
+static bool locClientHandleIndication(
+ uint32_t indId,
+ void* indBuffer,
+ size_t indSize
+ )
+{
+ bool status = false;
+ switch(indId)
+ {
+ // handle the event indications
+ //-------------------------------------------------------------------------
+
+ // handle position report
+ case QMI_LOC_EVENT_POSITION_REPORT_IND_V02:
+ case QMI_LOC_EVENT_GNSS_SV_INFO_IND_V02:
+ case QMI_LOC_EVENT_NMEA_IND_V02:
+ case QMI_LOC_EVENT_NI_NOTIFY_VERIFY_REQ_IND_V02:
+ case QMI_LOC_EVENT_INJECT_TIME_REQ_IND_V02:
+ case QMI_LOC_EVENT_INJECT_PREDICTED_ORBITS_REQ_IND_V02:
+ case QMI_LOC_EVENT_INJECT_POSITION_REQ_IND_V02:
+ case QMI_LOC_EVENT_ENGINE_STATE_IND_V02:
+ case QMI_LOC_EVENT_FIX_SESSION_STATE_IND_V02:
+ case QMI_LOC_EVENT_WIFI_REQ_IND_V02:
+ case QMI_LOC_EVENT_SENSOR_STREAMING_READY_STATUS_IND_V02:
+ case QMI_LOC_EVENT_TIME_SYNC_REQ_IND_V02:
+ case QMI_LOC_EVENT_SET_SPI_STREAMING_REPORT_IND_V02:
+ case QMI_LOC_EVENT_LOCATION_SERVER_CONNECTION_REQ_IND_V02:
+ case QMI_LOC_EVENT_NI_GEOFENCE_NOTIFICATION_IND_V02:
+ case QMI_LOC_EVENT_GEOFENCE_GEN_ALERT_IND_V02:
+ case QMI_LOC_EVENT_GEOFENCE_BREACH_NOTIFICATION_IND_V02:
+ case QMI_LOC_EVENT_GEOFENCE_BATCHED_BREACH_NOTIFICATION_IND_V02:
+ case QMI_LOC_EVENT_PEDOMETER_CONTROL_IND_V02 :
+ case QMI_LOC_EVENT_MOTION_DATA_CONTROL_IND_V02:
+ case QMI_LOC_EVENT_INJECT_WIFI_AP_DATA_REQ_IND_V02:
+ case QMI_LOC_EVENT_VEHICLE_DATA_READY_STATUS_IND_V02:
+ case QMI_LOC_INJECT_VEHICLE_SENSOR_DATA_IND_V02:
+ case QMI_LOC_EVENT_GEOFENCE_PROXIMITY_NOTIFICATION_IND_V02:
+ case QMI_LOC_GET_SERVICE_REVISION_IND_V02:
+ case QMI_LOC_GET_FIX_CRITERIA_IND_V02:
+ case QMI_LOC_INJECT_PREDICTED_ORBITS_DATA_IND_V02:
+ case QMI_LOC_GET_PREDICTED_ORBITS_DATA_SOURCE_IND_V02:
+ case QMI_LOC_GET_PREDICTED_ORBITS_DATA_VALIDITY_IND_V02:
+ case QMI_LOC_INJECT_SENSOR_DATA_IND_V02 :
+ case QMI_LOC_GET_PROTOCOL_CONFIG_PARAMETERS_IND_V02:
+ case QMI_LOC_SET_PROTOCOL_CONFIG_PARAMETERS_IND_V02:
+ case QMI_LOC_GET_EXTERNAL_POWER_CONFIG_IND_V02:
+ case QMI_LOC_GET_CRADLE_MOUNT_CONFIG_IND_V02:
+ case QMI_LOC_GET_SENSOR_CONTROL_CONFIG_IND_V02:
+ case QMI_LOC_GET_SENSOR_PERFORMANCE_CONTROL_CONFIGURATION_IND_V02:
+ case QMI_LOC_GET_SENSOR_PROPERTIES_IND_V02:
+ case QMI_LOC_SET_SENSOR_PERFORMANCE_CONTROL_CONFIGURATION_IND_V02:
+ case QMI_LOC_SET_POSITION_ENGINE_CONFIG_PARAMETERS_IND_V02:
+ case QMI_LOC_GET_POSITION_ENGINE_CONFIG_PARAMETERS_IND_V02:
+ case QMI_LOC_ADD_CIRCULAR_GEOFENCE_IND_V02:
+ case QMI_LOC_DELETE_GEOFENCE_IND_V02:
+ case QMI_LOC_EDIT_GEOFENCE_IND_V02:
+ case QMI_LOC_QUERY_GEOFENCE_IND_V02:
+ case QMI_LOC_GET_BEST_AVAILABLE_POSITION_IND_V02:
+ case QMI_LOC_GET_ENGINE_LOCK_IND_V02:
+ case QMI_LOC_GET_NI_GEOFENCE_ID_LIST_IND_V02:
+ case QMI_LOC_PEDOMETER_REPORT_IND_V02:
+ case QMI_LOC_START_BATCHING_IND_V02:
+ case QMI_LOC_STOP_BATCHING_IND_V02:
+ case QMI_LOC_GET_BATCH_SIZE_IND_V02:
+ case QMI_LOC_EVENT_LIVE_BATCHED_POSITION_REPORT_IND_V02:
+ case QMI_LOC_EVENT_BATCH_FULL_NOTIFICATION_IND_V02:
+ case QMI_LOC_READ_FROM_BATCH_IND_V02:
+ case QMI_LOC_RELEASE_BATCH_IND_V02:
+ case QMI_LOC_INJECT_GTP_CLIENT_DOWNLOADED_DATA_IND_V02:
+ case QMI_LOC_GDT_UPLOAD_BEGIN_STATUS_IND_V02:
+ case QMI_LOC_GDT_UPLOAD_END_IND_V02:
+ case QMI_LOC_EVENT_GDT_UPLOAD_BEGIN_STATUS_REQ_IND_V02:
+ case QMI_LOC_EVENT_GDT_UPLOAD_END_REQ_IND_V02:
+ case QMI_LOC_EVENT_GNSS_MEASUREMENT_REPORT_IND_V02:
+ case QMI_LOC_SET_GNSS_CONSTELL_REPORT_CONFIG_IND_V02:
+ case QMI_LOC_NI_USER_RESPONSE_IND_V02:
+ case QMI_LOC_INJECT_UTC_TIME_IND_V02:
+ case QMI_LOC_INJECT_POSITION_IND_V02:
+ case QMI_LOC_SET_ENGINE_LOCK_IND_V02:
+ case QMI_LOC_SET_SBAS_CONFIG_IND_V02:
+ case QMI_LOC_SET_NMEA_TYPES_IND_V02:
+ case QMI_LOC_SET_LOW_POWER_MODE_IND_V02:
+ case QMI_LOC_SET_SERVER_IND_V02:
+ case QMI_LOC_DELETE_ASSIST_DATA_IND_V02:
+ case QMI_LOC_SET_XTRA_T_SESSION_CONTROL_IND_V02:
+ case QMI_LOC_INJECT_WIFI_POSITION_IND_V02:
+ case QMI_LOC_NOTIFY_WIFI_STATUS_IND_V02:
+ case QMI_LOC_SET_OPERATION_MODE_IND_V02:
+ case QMI_LOC_SET_SPI_STATUS_IND_V02:
+ case QMI_LOC_INJECT_TIME_SYNC_DATA_IND_V02:
+ case QMI_LOC_SET_CRADLE_MOUNT_CONFIG_IND_V02:
+ case QMI_LOC_SET_EXTERNAL_POWER_CONFIG_IND_V02:
+ case QMI_LOC_INFORM_LOCATION_SERVER_CONN_STATUS_IND_V02:
+ case QMI_LOC_SET_SENSOR_CONTROL_CONFIG_IND_V02:
+ case QMI_LOC_SET_SENSOR_PROPERTIES_IND_V02:
+ case QMI_LOC_INJECT_SUPL_CERTIFICATE_IND_V02:
+ case QMI_LOC_DELETE_SUPL_CERTIFICATE_IND_V02:
+ case QMI_LOC_INJECT_MOTION_DATA_IND_V02:
+ case QMI_LOC_INJECT_GSM_CELL_INFO_IND_V02:
+ case QMI_LOC_INJECT_NETWORK_INITIATED_MESSAGE_IND_V02:
+ case QMI_LOC_WWAN_OUT_OF_SERVICE_NOTIFICATION_IND_V02:
+ case QMI_LOC_INJECT_WCDMA_CELL_INFO_IND_V02:
+ case QMI_LOC_INJECT_TDSCDMA_CELL_INFO_IND_V02:
+ case QMI_LOC_INJECT_SUBSCRIBER_ID_IND_V02:
+ case QMI_LOC_INJECT_WIFI_AP_DATA_IND_V02:
+ case QMI_LOC_NOTIFY_WIFI_ATTACHMENT_STATUS_IND_V02:
+ case QMI_LOC_NOTIFY_WIFI_ENABLED_STATUS_IND_V02:
+ case QMI_LOC_SET_PREMIUM_SERVICES_CONFIG_IND_V02:
+ case QMI_LOC_GET_AVAILABLE_WWAN_POSITION_IND_V02:
+ case QMI_LOC_SET_XTRA_VERSION_CHECK_IND_V02:
+ case QMI_LOC_GET_REGISTERED_EVENTS_IND_V02:
+ {
+ status = true;
+ break;
+ }
+ default:
+ LOC_LOGW("%s:%d]: unknown ind id %d\n", __func__, __LINE__,
+ (uint32_t)indId);
+ status = false;
+ break;
+ }
+ return status;
+}
+
+
+/** locClientErrorCb
+ * @brief handles the QCCI error events, this is called by the
+ * QCCI infrastructure when the service is no longer
+ * available.
+ * @param [in] user handle
+ * @param [in] error
+ * @param [in] *err_cb_data
+ */
+
+static void locClientErrorCb
+(
+ qmi_client_type user_handle,
+ qmi_client_error_type error,
+ void *err_cb_data
+)
+{
+ locClientCallbackDataType* pCallbackData =
+ (locClientCallbackDataType *)err_cb_data;
+ locClientErrorCbType localErrorCallback = NULL;
+
+ /* copy the errorCallback function pointer from the callback
+ * data to local variable. This is to protect against the race
+ * condition between open/close and error callback.
+ */
+ if(NULL != pCallbackData)
+ {
+ localErrorCallback = pCallbackData->errorCallback;
+ }
+
+ LOC_LOGD("%s:%d]: Service Error %d received, pCallbackData = %p\n",
+ __func__, __LINE__, error, err_cb_data);
+
+ /* call the error callback
+ * To avoid calling the errorCallback after locClientClose
+ * is called, check pCallbackData->errorCallback again here
+ */
+
+ if( (NULL != pCallbackData) &&
+ (NULL != localErrorCallback) &&
+ (NULL != pCallbackData->errorCallback) &&
+ (pCallbackData == pCallbackData->pMe) )
+ {
+ //invoke the error callback for the corresponding client
+ localErrorCallback(
+ (locClientHandleType)pCallbackData,
+ convertQmiErrorToLocError(error),
+ pCallbackData->pClientCookie);
+ }
+}
+
+
+/** locClientIndCb
+ * @brief handles the indications sent from the service, if a
+ * response indication was received then the it is sent
+ * to the response callback. If a event indication was
+ * received then it is sent to the event callback
+ * @param [in] user handle
+ * @param [in] msg_id
+ * @param [in] ind_buf
+ * @param [in] ind_buf_len
+ * @param [in] ind_cb_data */
+
+static void locClientIndCb
+(
+ qmi_client_type user_handle,
+ unsigned int msg_id,
+ void *ind_buf,
+ unsigned int ind_buf_len,
+ void *ind_cb_data
+)
+{
+ locClientIndEnumT indType;
+ size_t indSize = 0;
+ qmi_client_error_type rc ;
+ locClientCallbackDataType* pCallbackData =
+ (locClientCallbackDataType *)ind_cb_data;
+
+ LOC_LOGV("%s:%d]: Indication: msg_id=%d buf_len=%d pCallbackData = %p\n",
+ __func__, __LINE__, (uint32_t)msg_id, ind_buf_len,
+ pCallbackData);
+
+ // check callback data
+ if(NULL == pCallbackData ||(pCallbackData != pCallbackData->pMe))
+ {
+ LOC_LOGE("%s:%d]: invalid callback data", __func__, __LINE__);
+ return;
+ }
+
+ // check user handle
+ if(memcmp(&pCallbackData->userHandle, &user_handle, sizeof(user_handle)))
+ {
+ LOC_LOGE("%s:%d]: invalid user_handle got %p expected %p\n",
+ __func__, __LINE__,
+ user_handle, pCallbackData->userHandle);
+ return;
+ }
+ // Get the indication size and type ( eventInd or respInd)
+ if( true == locClientGetSizeAndTypeByIndId(msg_id, &indSize, &indType))
+ {
+ void *indBuffer = NULL;
+
+ // if the client did not register for this event then just drop it
+ if( (eventIndType == indType) &&
+ ( (NULL == pCallbackData->eventCallback) ||
+ (false == isClientRegisteredForEvent(pCallbackData->eventRegMask, msg_id)) ) )
+ {
+ LOC_LOGW("%s:%d]: client is not registered for event %d\n",
+ __func__, __LINE__, (uint32_t)msg_id);
+ return;
+ }
+
+ // decode the indication
+ indBuffer = malloc(indSize);
+
+ if(NULL == indBuffer)
+ {
+ LOC_LOGE("%s:%d]: memory allocation failed\n", __func__, __LINE__);
+ return;
+ }
+
+ rc = QMI_NO_ERR;
+
+ if (ind_buf_len > 0)
+ {
+ // decode the indication
+ rc = qmi_client_message_decode(
+ user_handle,
+ QMI_IDL_INDICATION,
+ msg_id,
+ ind_buf,
+ ind_buf_len,
+ indBuffer,
+ indSize);
+ }
+
+ if( rc == QMI_NO_ERR )
+ {
+ //validate indication
+ if (true == locClientHandleIndication(msg_id, indBuffer, indSize))
+ {
+ if(eventIndType == indType)
+ {
+ locClientEventIndUnionType eventIndUnion;
+
+ /* copy the eventCallback function pointer from the callback
+ * data to local variable. This is to protect against the race
+ * condition between open/close and indication callback.
+ */
+ locClientEventIndCbType localEventCallback =
+ pCallbackData->eventCallback;
+
+ // dummy event
+ eventIndUnion.pPositionReportEvent =
+ (qmiLocEventPositionReportIndMsgT_v02 *)indBuffer;
+
+ /* call the event callback
+ * To avoid calling the eventCallback after locClientClose
+ * is called, check pCallbackData->eventCallback again here
+ */
+ if((NULL != localEventCallback) &&
+ (NULL != pCallbackData->eventCallback))
+ {
+ localEventCallback(
+ (locClientHandleType)pCallbackData,
+ msg_id,
+ eventIndUnion,
+ pCallbackData->pClientCookie);
+ }
+ }
+ else if(respIndType == indType)
+ {
+ locClientRespIndUnionType respIndUnion;
+
+ /* copy the respCallback function pointer from the callback
+ * data to local variable. This is to protect against the race
+ * condition between open/close and indication callback.
+ */
+ locClientRespIndCbType localRespCallback =
+ pCallbackData->respCallback;
+
+ // dummy to suppress compiler warnings
+ respIndUnion.pDeleteAssistDataInd =
+ (qmiLocDeleteAssistDataIndMsgT_v02 *)indBuffer;
+
+ /* call the response callback
+ * To avoid calling the respCallback after locClientClose
+ * is called, check pCallbackData->respCallback again here
+ */
+ if((NULL != localRespCallback) &&
+ (NULL != pCallbackData->respCallback))
+ {
+ localRespCallback(
+ (locClientHandleType)pCallbackData,
+ msg_id,
+ respIndUnion,
+ pCallbackData->pClientCookie);
+ }
+ }
+ }
+ else // error handling indication
+ {
+ LOC_LOGE("%s:%d]: Error handling the indication %d\n",
+ __func__, __LINE__, (uint32_t)msg_id);
+ }
+ }
+ else
+ {
+ LOC_LOGE("%s:%d]: Error decoding indication %d\n",
+ __func__, __LINE__, rc);
+ }
+ if(indBuffer)
+ {
+ free (indBuffer);
+ }
+ }
+ else // Id not found
+ {
+ LOC_LOGE("%s:%d]: Error indication not found %d\n",
+ __func__, __LINE__,(uint32_t)msg_id);
+ }
+ return;
+}
+
+
+/** locClientRegisterEventMask
+ * @brief registers the event mask with loc service
+ * @param [in] clientHandle
+ * @param [in] eventRegMask
+ * @return true if indication was validated; else false */
+
+bool locClientRegisterEventMask(
+ locClientHandleType clientHandle,
+ locClientEventMaskType eventRegMask)
+{
+ locClientStatusEnumType status = eLOC_CLIENT_SUCCESS;
+ locClientReqUnionType reqUnion;
+ qmiLocRegEventsReqMsgT_v02 regEventsReq;
+
+ memset(®EventsReq, 0, sizeof(regEventsReq));
+
+ regEventsReq.eventRegMask = eventRegMask;
+ reqUnion.pRegEventsReq = ®EventsReq;
+
+ status = locClientSendReq(clientHandle,
+ QMI_LOC_REG_EVENTS_REQ_V02,
+ reqUnion);
+
+ if(eLOC_CLIENT_SUCCESS != status )
+ {
+ LOC_LOGE("%s:%d] status %s\n", __func__, __LINE__,
+ loc_get_v02_client_status_name(status) );
+ return false;
+ }
+
+ return true;
+}
+
+/** validateRequest
+ @brief validates the input request
+ @param [in] reqId request ID
+ @param [in] reqPayload Union of pointers to message payload
+ @param [out] ppOutData Pointer to void *data if successful
+ @param [out] pOutLen Pointer to length of data if succesful.
+ @return false on failure, true on Success
+*/
+
+static bool validateRequest(
+ uint32_t reqId,
+ const locClientReqUnionType reqPayload,
+ void **ppOutData,
+ uint32_t *pOutLen )
+
+{
+ bool noPayloadFlag = false;
+
+ LOC_LOGV("%s:%d]: reqId = %d\n", __func__, __LINE__, reqId);
+ switch(reqId)
+ {
+ case QMI_LOC_INFORM_CLIENT_REVISION_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocInformClientRevisionReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_REG_EVENTS_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocRegEventsReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_START_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocStartReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_STOP_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocStopReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_NI_USER_RESPONSE_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocNiUserRespReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_INJECT_PREDICTED_ORBITS_DATA_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocInjectPredictedOrbitsDataReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_INJECT_UTC_TIME_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocInjectUtcTimeReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_INJECT_POSITION_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocInjectPositionReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_SET_ENGINE_LOCK_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocSetEngineLockReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_SET_SBAS_CONFIG_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocSetSbasConfigReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_SET_NMEA_TYPES_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocSetNmeaTypesReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_SET_LOW_POWER_MODE_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocSetLowPowerModeReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_SET_SERVER_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocSetServerReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_DELETE_ASSIST_DATA_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocDeleteAssistDataReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_SET_XTRA_T_SESSION_CONTROL_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocSetXtraTSessionControlReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_INJECT_WIFI_POSITION_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocInjectWifiPositionReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_NOTIFY_WIFI_STATUS_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocNotifyWifiStatusReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_SET_OPERATION_MODE_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocSetOperationModeReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_SET_SPI_STATUS_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocSetSpiStatusReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_INJECT_SENSOR_DATA_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocInjectSensorDataReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_INJECT_TIME_SYNC_DATA_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocInjectTimeSyncDataReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_SET_CRADLE_MOUNT_CONFIG_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocSetCradleMountConfigReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_SET_EXTERNAL_POWER_CONFIG_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocSetExternalPowerConfigReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_INFORM_LOCATION_SERVER_CONN_STATUS_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocInformLocationServerConnStatusReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_SET_PROTOCOL_CONFIG_PARAMETERS_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocSetProtocolConfigParametersReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_GET_PROTOCOL_CONFIG_PARAMETERS_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocGetProtocolConfigParametersReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_SET_SENSOR_CONTROL_CONFIG_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocSetSensorControlConfigReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_GET_SENSOR_PROPERTIES_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocGetSensorPropertiesReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_SET_SENSOR_PROPERTIES_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocSetSensorPropertiesReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_SET_SENSOR_PERFORMANCE_CONTROL_CONFIGURATION_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocSetSensorPerformanceControlConfigReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_INJECT_SUPL_CERTIFICATE_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocInjectSuplCertificateReqMsgT_v02);
+ break;
+ }
+ case QMI_LOC_DELETE_SUPL_CERTIFICATE_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocDeleteSuplCertificateReqMsgT_v02);
+ break;
+ }
+ case QMI_LOC_SET_POSITION_ENGINE_CONFIG_PARAMETERS_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocSetPositionEngineConfigParametersReqMsgT_v02);
+ break;
+ }
+ case QMI_LOC_GET_POSITION_ENGINE_CONFIG_PARAMETERS_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocGetPositionEngineConfigParametersReqMsgT_v02);
+ break;
+ }
+ case QMI_LOC_ADD_CIRCULAR_GEOFENCE_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocAddCircularGeofenceReqMsgT_v02);
+ break;
+ }
+ case QMI_LOC_DELETE_GEOFENCE_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocDeleteGeofenceReqMsgT_v02);
+ break;
+ }
+ case QMI_LOC_QUERY_GEOFENCE_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocQueryGeofenceReqMsgT_v02);
+ break;
+ }
+ case QMI_LOC_EDIT_GEOFENCE_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocEditGeofenceReqMsgT_v02);
+ break;
+ }
+ case QMI_LOC_GET_BEST_AVAILABLE_POSITION_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocGetBestAvailablePositionReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_INJECT_MOTION_DATA_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocInjectMotionDataReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_GET_NI_GEOFENCE_ID_LIST_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocGetNiGeofenceIdListReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_INJECT_GSM_CELL_INFO_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocInjectGSMCellInfoReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_INJECT_NETWORK_INITIATED_MESSAGE_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocInjectNetworkInitiatedMessageReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_PEDOMETER_REPORT_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocPedometerReportReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_INJECT_WCDMA_CELL_INFO_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocInjectWCDMACellInfoReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_INJECT_TDSCDMA_CELL_INFO_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocInjectTDSCDMACellInfoReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_INJECT_SUBSCRIBER_ID_IND_V02:
+ {
+ *pOutLen = sizeof(qmiLocInjectSubscriberIDReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_INJECT_WIFI_AP_DATA_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocInjectWifiApDataReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_GET_BATCH_SIZE_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocGetBatchSizeReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_START_BATCHING_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocStartBatchingReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_READ_FROM_BATCH_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocReadFromBatchReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_STOP_BATCHING_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocStopBatchingReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_RELEASE_BATCH_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocReleaseBatchReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_SET_XTRA_VERSION_CHECK_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocSetXtraVersionCheckReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_INJECT_VEHICLE_SENSOR_DATA_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocInjectVehicleSensorDataReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_NOTIFY_WIFI_ATTACHMENT_STATUS_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocNotifyWifiAttachmentStatusReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_NOTIFY_WIFI_ENABLED_STATUS_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocNotifyWifiEnabledStatusReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_SET_PREMIUM_SERVICES_CONFIG_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocSetPremiumServicesCfgReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_GET_AVAILABLE_WWAN_POSITION_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocGetAvailWwanPositionReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_INJECT_GTP_CLIENT_DOWNLOADED_DATA_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocInjectGtpClientDownloadedDataReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_GDT_UPLOAD_BEGIN_STATUS_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocGdtUploadBeginStatusReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_GDT_UPLOAD_END_REQ_V02:
+ {
+ *pOutLen = sizeof(qmiLocGdtUploadEndReqMsgT_v02);
+ break;
+ }
+
+ case QMI_LOC_SET_GNSS_CONSTELL_REPORT_CONFIG_V02:
+ {
+ *pOutLen = sizeof(qmiLocSetGNSSConstRepConfigReqMsgT_v02);
+ break;
+ }
+
+ // ALL requests with no payload
+ case QMI_LOC_GET_SERVICE_REVISION_REQ_V02:
+ case QMI_LOC_GET_FIX_CRITERIA_REQ_V02:
+ case QMI_LOC_GET_PREDICTED_ORBITS_DATA_SOURCE_REQ_V02:
+ case QMI_LOC_GET_PREDICTED_ORBITS_DATA_VALIDITY_REQ_V02:
+ case QMI_LOC_GET_ENGINE_LOCK_REQ_V02:
+ case QMI_LOC_GET_SBAS_CONFIG_REQ_V02:
+ case QMI_LOC_GET_NMEA_TYPES_REQ_V02:
+ case QMI_LOC_GET_LOW_POWER_MODE_REQ_V02:
+ case QMI_LOC_GET_SERVER_REQ_V02:
+ case QMI_LOC_GET_XTRA_T_SESSION_CONTROL_REQ_V02:
+ case QMI_LOC_GET_REGISTERED_EVENTS_REQ_V02:
+ case QMI_LOC_GET_OPERATION_MODE_REQ_V02:
+ case QMI_LOC_GET_CRADLE_MOUNT_CONFIG_REQ_V02:
+ case QMI_LOC_GET_EXTERNAL_POWER_CONFIG_REQ_V02:
+ case QMI_LOC_GET_SENSOR_CONTROL_CONFIG_REQ_V02:
+ case QMI_LOC_GET_SENSOR_PERFORMANCE_CONTROL_CONFIGURATION_REQ_V02:
+ case QMI_LOC_WWAN_OUT_OF_SERVICE_NOTIFICATION_REQ_V02:
+ case QMI_LOC_GET_SUPPORTED_MSGS_REQ_V02:
+ case QMI_LOC_GET_SUPPORTED_FIELDS_REQ_V02:
+ {
+ noPayloadFlag = true;
+ break;
+ }
+
+ default:
+ LOC_LOGW("%s:%d]: Error unknown reqId=%d\n", __func__, __LINE__,
+ reqId);
+ return false;
+ }
+ if(true == noPayloadFlag)
+ {
+ *ppOutData = NULL;
+ *pOutLen = 0;
+ }
+ else
+ {
+ //set dummy pointer for request union
+ *ppOutData = (void*) reqPayload.pInformClientRevisionReq;
+ }
+ LOC_LOGV("%s:%d]: reqId=%d, len = %d\n", __func__, __LINE__,
+ reqId, *pOutLen);
+ return true;
+}
+
+/** locClientQmiCtrlPointInit
+ @brief wait for the service to come up or timeout; when the
+ service comes up initialize the control point and set
+ internal handle and indication callback.
+ @param pQmiClient,
+*/
+
+static locClientStatusEnumType locClientQmiCtrlPointInit(
+ locClientCallbackDataType *pLocClientCbData,
+ int instanceId)
+{
+ qmi_client_type clnt, notifier;
+ bool notifierInitFlag = false;
+ locClientStatusEnumType status = eLOC_CLIENT_SUCCESS;
+ // os_params must stay in the same scope as notifier
+ // because when notifier is initialized, the pointer
+ // of os_params is retained in QMI framework, and it
+ // used when notifier is released.
+ qmi_client_os_params os_params;
+ // instances of this service
+ qmi_service_info serviceInfo;
+
+ do
+ {
+ qmi_client_error_type rc = QMI_NO_ERR;
+
+ // Get the service object for the qmiLoc Service
+ qmi_idl_service_object_type locClientServiceObject =
+ loc_get_service_object_v02();
+
+ // Verify that qmiLoc_get_service_object did not return NULL
+ if (NULL == locClientServiceObject)
+ {
+ LOC_LOGE("%s:%d]: qmiLoc_get_service_object_v02 failed\n" ,
+ __func__, __LINE__ );
+ status = eLOC_CLIENT_FAILURE_INTERNAL;
+ break;
+ }
+
+ // register for service notification
+ rc = qmi_client_notifier_init(locClientServiceObject, &os_params, ¬ifier);
+ notifierInitFlag = (NULL != notifier);
+
+ if (rc != QMI_NO_ERR) {
+ LOC_LOGE("%s:%d]: qmi_client_notifier_init failed %d\n",
+ __func__, __LINE__, rc);
+ status = eLOC_CLIENT_FAILURE_INTERNAL;
+ break;
+ }
+
+ while (1) {
+ QMI_CCI_OS_SIGNAL_CLEAR(&os_params);
+
+ if (instanceId >= 0) {
+ // use instance-specific lookup
+ rc = qmi_client_get_service_instance(locClientServiceObject, instanceId, &serviceInfo);
+ } else {
+ // lookup service with any instance id
+ rc = qmi_client_get_any_service(locClientServiceObject, &serviceInfo);
+ }
+
+ // get the service addressing information
+ LOC_LOGV("%s:%d]: qmi_client_get_service() rc: %d ", __func__, __LINE__, rc);
+
+ if(rc == QMI_NO_ERR)
+ break;
+
+ QMI_CCI_OS_SIGNAL_WAIT(&os_params, 0);
+ }
+
+ LOC_LOGV("%s:%d]: passing the pointer %p to qmi_client_init \n",
+ __func__, __LINE__, pLocClientCbData);
+
+ // initialize the client
+ //sent the address of the first service found
+ // if IPC router is present, this will go to the service instance
+ // enumerated over IPC router, else it will go over the next transport where
+ // the service was enumerated.
+ rc = qmi_client_init(&serviceInfo, locClientServiceObject,
+ locClientIndCb, (void *) pLocClientCbData,
+ NULL, &clnt);
+
+ if(rc != QMI_NO_ERR)
+ {
+ LOC_LOGE("%s:%d]: qmi_client_init error %d\n",
+ __func__, __LINE__, rc);
+
+ status = eLOC_CLIENT_FAILURE_INTERNAL;
+ break;
+ }
+
+ LOC_LOGV("%s:%d]: passing the pointer %p to"
+ "qmi_client_register_error_cb \n",
+ __func__, __LINE__, pLocClientCbData);
+
+ // register error callback
+ rc = qmi_client_register_error_cb(clnt,
+ locClientErrorCb, (void *) pLocClientCbData);
+
+ if( QMI_NO_ERR != rc)
+ {
+ LOC_LOGE("%s:%d]: could not register QCCI error callback error:%d\n",
+ __func__, __LINE__, rc);
+
+ status = eLOC_CLIENT_FAILURE_INTERNAL;
+ break;
+ }
+
+ // copy the clnt handle returned in qmi_client_init
+ memcpy(&(pLocClientCbData->userHandle), &clnt, sizeof(qmi_client_type));
+
+ status = eLOC_CLIENT_SUCCESS;
+
+ } while(0);
+
+ /* release the notifier handle */
+ if(true == notifierInitFlag)
+ {
+ qmi_client_release(notifier);
+ }
+
+ return status;
+}
+//----------------------- END INTERNAL FUNCTIONS ----------------------------------------
+
+/** locClientOpenInstance
+ @brief Connects a location client to the location engine. If the connection
+ is successful, returns a handle that the location client uses for
+ future location operations.
+
+ @param [in] eventRegMask Mask of asynchronous events the client is
+ interested in receiving
+ @param [in] instanceId Value of QMI service instance id to use.
+ @param [in] eventIndCb Function to be invoked to handle an event.
+ @param [in] respIndCb Function to be invoked to handle a response
+ indication.
+ @param [out] locClientHandle Handle to be used by the client
+ for any subsequent requests.
+
+ @return
+ One of the following error codes:
+ - eLOC_CLIENT_SUCCESS -- If the connection is opened.
+ - non-zero error code(see locClientStatusEnumType)-- On failure.
+*/
+locClientStatusEnumType locClientOpenInstance (
+ locClientEventMaskType eventRegMask,
+ int instanceId,
+ const locClientCallbacksType* pLocClientCallbacks,
+ locClientHandleType* pLocClientHandle,
+ const void* pClientCookie)
+{
+ locClientStatusEnumType status = eLOC_CLIENT_SUCCESS;
+ locClientCallbackDataType *pCallbackData = NULL;
+
+ // check input parameters
+ if( (NULL == pLocClientCallbacks) || (NULL == pLocClientHandle)
+ || (NULL == pLocClientCallbacks->respIndCb) ||
+ (pLocClientCallbacks->size != sizeof(locClientCallbacksType)))
+ {
+ LOC_LOGE("%s:%d]: Invalid parameters in locClientOpen\n",
+ __func__, __LINE__);
+ return eLOC_CLIENT_FAILURE_INVALID_PARAMETER;
+ }
+
+ do
+ {
+ // Allocate memory for the callback data
+ pCallbackData =
+ ( locClientCallbackDataType*)calloc(
+ 1, sizeof(locClientCallbackDataType));
+
+ if(NULL == pCallbackData)
+ {
+ LOC_LOGE("%s:%d]: Could not allocate memory for callback data \n",
+ __func__, __LINE__);
+ status = eLOC_CLIENT_FAILURE_INTERNAL;
+ break;
+ }
+
+ /* Initialize the QMI control point; this function will block
+ * until a service is up or a timeout occurs. If the connection to
+ * the service succeeds the callback data will be filled in with
+ * a qmi_client value.
+ */
+
+
+ EXIT_LOG_CALLFLOW(%s, "loc client open");
+ status = locClientQmiCtrlPointInit(pCallbackData, instanceId);
+
+ LOC_LOGV ("%s:%d] locClientQmiCtrlPointInit returned %d\n",
+ __func__, __LINE__, status);
+
+ if(status != eLOC_CLIENT_SUCCESS)
+ {
+ free(pCallbackData);
+ pCallbackData = NULL;
+ LOC_LOGE ("%s:%d] locClientQmiCtrlPointInit returned %d\n",
+ __func__, __LINE__, status);
+ break;
+ }
+ // set the self pointer
+ pCallbackData->pMe = pCallbackData;
+ // set the handle to the callback data
+ *pLocClientHandle = (locClientHandleType)pCallbackData;
+
+ if(true != locClientRegisterEventMask(*pLocClientHandle,eventRegMask))
+ {
+ LOC_LOGE("%s:%d]: Error sending registration mask\n",
+ __func__, __LINE__);
+
+ // release the client
+ locClientClose(pLocClientHandle);
+
+ status = eLOC_CLIENT_FAILURE_INTERNAL;
+ break;
+ }
+
+ /* Initialize rest of the client structure now that the connection
+ * to the service has been created successfully.
+ */
+
+ //fill in the event callback
+ pCallbackData->eventCallback = pLocClientCallbacks->eventIndCb;
+
+ //fill in the response callback
+ pCallbackData->respCallback = pLocClientCallbacks->respIndCb;
+
+ //fill in the error callback
+ pCallbackData->errorCallback = pLocClientCallbacks->errorCb;
+
+ //set the client event registration mask
+ pCallbackData->eventRegMask = eventRegMask;
+
+ // set the client cookie
+ pCallbackData->pClientCookie = (void *)pClientCookie;
+
+ }while(0);
+
+ if(eLOC_CLIENT_SUCCESS != status)
+ {
+ *pLocClientHandle = LOC_CLIENT_INVALID_HANDLE_VALUE;
+ LOC_LOGE("%s:%d]: Error! status = %d\n", __func__, __LINE__,status);
+ }
+
+ else
+ {
+ LOC_LOGD("%s:%d]: returning handle = %p, user_handle=%p, status = %d\n",
+ __func__, __LINE__, *pLocClientHandle,
+ pCallbackData->userHandle, status);
+ }
+
+ return(status);
+}
+
+/** locClientOpen
+ @brief Connects a location client to the location engine. If the connection
+ is successful, returns a handle that the location client uses for
+ future location operations.
+
+ @param [in] eventRegMask Mask of asynchronous events the client is
+ interested in receiving
+ @param [in] eventIndCb Function to be invoked to handle an event.
+ @param [in] respIndCb Function to be invoked to handle a response
+ indication.
+ @param [out] locClientHandle Handle to be used by the client
+ for any subsequent requests.
+
+ @return
+ One of the following error codes:
+ - eLOC_CLIENT_SUCCESS -- If the connection is opened.
+ - non-zero error code(see locClientStatusEnumType)-- On failure.
+*/
+
+locClientStatusEnumType locClientOpen (
+ locClientEventMaskType eventRegMask,
+ const locClientCallbacksType* pLocClientCallbacks,
+ locClientHandleType* pLocClientHandle,
+ const void* pClientCookie)
+{
+ int instanceId;
+ locClientStatusEnumType status;
+ int tries = 1;
+#ifdef _ANDROID_
+ switch (getTargetGnssType(loc_get_target()))
+ {
+ case GNSS_GSS:
+ instanceId = eLOC_CLIENT_INSTANCE_ID_GSS;
+ break;
+ case GNSS_QCA1530:
+ instanceId = eLOC_CLIENT_INSTANCE_ID_QCA1530;
+ break;
+ case GNSS_MSM:
+ instanceId = eLOC_CLIENT_INSTANCE_ID_MSM;
+ break;
+ case GNSS_MDM:
+ instanceId = eLOC_CLIENT_INSTANCE_ID_MDM;
+ break;
+ case GNSS_AUTO:
+ instanceId = eLOC_CLIENT_INSTANCE_ID_GSS_AUTO;
+ break;
+ default:
+ instanceId = eLOC_CLIENT_INSTANCE_ID_ANY;
+ break;
+ }
+
+ LOC_LOGI("%s:%d]: Service instance id is %d\n",
+ __func__, __LINE__, instanceId);
+#else
+ instanceId = eLOC_CLIENT_INSTANCE_ID_ANY;
+#endif
+
+ while ((status = locClientOpenInstance(eventRegMask, instanceId, pLocClientCallbacks,
+ pLocClientHandle, pClientCookie)) != eLOC_CLIENT_SUCCESS) {
+ if (tries <= LOC_CLIENT_MAX_OPEN_RETRIES) {
+ LOC_LOGE("%s:%d]: failed with status=%d on try %d",
+ __func__, __LINE__, status, tries);
+ tries++;
+ sleep(LOC_CLIENT_TIME_BETWEEN_OPEN_RETRIES);
+ } else {
+ LOC_LOGE("%s:%d]: failed with status=%d Aborting...",
+ __func__, __LINE__, status);
+ break;
+ }
+ }
+
+ return status;
+}
+
+/** locClientClose
+ @brief Disconnects a client from the location engine.
+ @param [in] pLocClientHandle Pointer to the handle returned by the
+ locClientOpen() function.
+ @return
+ One of the following error codes:
+ - 0 (eLOC_CLIENT_SUCCESS) - On success.
+ - non-zero error code(see locClientStatusEnumType) - On failure.
+*/
+
+locClientStatusEnumType locClientClose(
+ locClientHandleType* pLocClientHandle)
+{
+ // convert handle to callback data
+ locClientCallbackDataType *pCallbackData;
+ qmi_client_error_type rc = QMI_NO_ERR; //No error
+
+ if(NULL == pLocClientHandle)
+ {
+ // invalid handle
+ LOC_LOGE("%s:%d]: invalid pointer to handle \n",
+ __func__, __LINE__);
+
+ return(eLOC_CLIENT_FAILURE_INVALID_PARAMETER);
+ }
+
+ pCallbackData = (locClientCallbackDataType *)(*pLocClientHandle);
+
+ // check the input handle for sanity
+ if(NULL == pCallbackData ||
+ NULL == pCallbackData->userHandle ||
+ pCallbackData != pCallbackData->pMe )
+ {
+ // invalid handle
+ LOC_LOGE("%s:%d]: invalid handle \n",
+ __func__, __LINE__);
+
+ return(eLOC_CLIENT_FAILURE_INVALID_HANDLE);
+ }
+
+ LOC_LOGV("locClientClose releasing handle %p, user handle %p\n",
+ *pLocClientHandle, pCallbackData->userHandle );
+
+ // NEXT call goes out to modem. We log the callflow before it
+ // actually happens to ensure the this comes before resp callflow
+ // back from the modem, to avoid confusing log order. We trust
+ // that the QMI framework is robust.
+ EXIT_LOG_CALLFLOW(%s, "loc client close");
+
+ // release the handle
+ rc = qmi_client_release(pCallbackData->userHandle);
+ if(QMI_NO_ERR != rc )
+ {
+ LOC_LOGW("%s:%d]: qmi_client_release error %d for client %p\n",
+ __func__, __LINE__, rc, pCallbackData->userHandle);
+ return(eLOC_CLIENT_FAILURE_INTERNAL);
+ }
+
+ /* clear the memory allocated to callback data to minimize the chances
+ * of a race condition occurring between close and the indication
+ * callback
+ */
+ memset(pCallbackData, 0, sizeof(*pCallbackData));
+
+ // free the memory assigned in locClientOpen
+ free(pCallbackData);
+ pCallbackData= NULL;
+
+ // set the handle to invalid value
+ *pLocClientHandle = LOC_CLIENT_INVALID_HANDLE_VALUE;
+ return eLOC_CLIENT_SUCCESS;
+}
+
+/** locClientSendReq
+ @brief Sends a message to the location engine. If the locClientSendMsg()
+ function is successful, the client should expect an indication
+ (except start, stop, event reg and sensor injection messages),
+ through the registered callback in the locOpen() function. The
+ indication will contain the status of the request and if status is a
+ success, indication also contains the payload
+ associated with response.
+ @param [in] handle Handle returned by the locClientOpen()
+ function.
+ @param [in] reqId message ID of the request
+ @param [in] reqPayload Payload of the request, can be NULL
+ if request has no payload
+
+ @return
+ One of the following error codes:
+ - 0 (eLOC_CLIENT_SUCCESS ) - On success.
+ - non-zero error code (see locClientStatusEnumType) - On failure.
+*/
+
+locClientStatusEnumType locClientSendReq(
+ locClientHandleType handle,
+ uint32_t reqId,
+ locClientReqUnionType reqPayload )
+{
+ locClientStatusEnumType status = eLOC_CLIENT_SUCCESS;
+ qmi_client_error_type rc = QMI_NO_ERR; //No error
+ qmiLocGenRespMsgT_v02 resp;
+ uint32_t reqLen = 0;
+ void *pReqData = NULL;
+ locClientCallbackDataType *pCallbackData =
+ (locClientCallbackDataType *)handle;
+
+ // check the input handle for sanity
+ if(NULL == pCallbackData ||
+ NULL == pCallbackData->userHandle ||
+ pCallbackData != pCallbackData->pMe )
+ {
+ // did not find the handle in the client List
+ LOC_LOGE("%s:%d]: invalid handle \n",
+ __func__, __LINE__);
+
+ return(eLOC_CLIENT_FAILURE_INVALID_HANDLE);
+ }
+
+ // validate that the request is correct
+ if (validateRequest(reqId, reqPayload, &pReqData, &reqLen) == false)
+ {
+
+ LOC_LOGE("%s:%d] error invalid request\n", __func__,
+ __LINE__);
+
+ return(eLOC_CLIENT_FAILURE_INVALID_PARAMETER);
+ }
+
+ LOC_LOGV("%s:%d] sending reqId= %d, len = %d\n", __func__,
+ __LINE__, reqId, reqLen);
+
+ // NEXT call goes out to modem. We log the callflow before it
+ // actually happens to ensure the this comes before resp callflow
+ // back from the modem, to avoid confusing log order. We trust
+ // that the QMI framework is robust.
+ EXIT_LOG_CALLFLOW(%s, loc_get_v02_event_name(reqId));
+ rc = qmi_client_send_msg_sync(
+ pCallbackData->userHandle,
+ reqId,
+ pReqData,
+ reqLen,
+ &resp,
+ sizeof(resp),
+ LOC_CLIENT_ACK_TIMEOUT);
+
+ LOC_LOGV("%s:%d] qmi_client_send_msg_sync returned %d\n", __func__,
+ __LINE__, rc);
+
+ if (QMI_SERVICE_ERR == rc)
+ {
+ LOC_LOGE("%s:%d]: send_msg_sync error: QMI_SERVICE_ERR\n",__func__, __LINE__);
+ return(eLOC_CLIENT_FAILURE_PHONE_OFFLINE);
+ }
+ else if (rc != QMI_NO_ERR)
+ {
+ LOC_LOGE("%s:%d]: send_msg_sync error: %d\n",__func__, __LINE__, rc);
+ return(eLOC_CLIENT_FAILURE_INTERNAL);
+ }
+
+ // map the QCCI response to Loc API v02 status
+ status = convertQmiResponseToLocStatus(&resp);
+
+ // if the request is to change registered events, update the
+ // loc api copy of that
+ if(eLOC_CLIENT_SUCCESS == status &&
+ QMI_LOC_REG_EVENTS_REQ_V02 == reqId)
+ {
+ if(NULL != reqPayload.pRegEventsReq )
+ {
+ pCallbackData->eventRegMask =
+ (locClientEventMaskType)(reqPayload.pRegEventsReq->eventRegMask);
+ }
+ }
+ return(status);
+}
+
+/** locClientSupportMsgCheck
+ @brief Sends a QMI_LOC_GET_SUPPORTED_MSGS_REQ_V02 message to the
+ location engine, and then receives a list of all services supported
+ by the engine. This function will check if the input service(s) form
+ the client is in the list or not. If the locClientSupportMsgCheck()
+ function is successful, the client should expect an result of
+ the service is supported or not recorded in supportedMsg.
+ @param [in] handle Handle returned by the locClientOpen()
+ function.
+ @param [in] supportedMsg an integer used to record which
+ message is supported
+
+ @return
+ One of the following error codes:
+ - 0 (eLOC_CLIENT_SUCCESS) -- On success.
+ - Non-zero error code (see \ref locClientStatusEnumType) -- On failure.
+*/
+
+locClientStatusEnumType locClientSupportMsgCheck(
+ locClientHandleType handle,
+ const uint32_t* msgArray,
+ uint32_t msgArrayLength,
+ uint64_t* supportedMsg)
+{
+
+ // set to true if one client has checked the modem capability.
+ static bool isCheckedAlready = false;
+ /*
+ The 1st bit in supportedMsgChecked indicates if
+ QMI_LOC_EVENT_GEOFENCE_BATCHED_BREACH_NOTIFICATION_IND_V02
+ is supported or not;
+ The 2ed bit in supportedMsgChecked indicates if
+ QMI_LOC_GET_BATCH_SIZE_REQ_V02
+ is supported or not;
+ */
+ static uint64_t supportedMsgChecked = 0;
+
+ if (isCheckedAlready) {
+ // already checked modem
+ LOC_LOGV("%s:%d]: Already checked. The supportedMsgChecked is %lld\n",
+ __func__, __LINE__, supportedMsgChecked);
+ *supportedMsg = supportedMsgChecked;
+ return eLOC_CLIENT_SUCCESS;
+ }
+
+ locClientStatusEnumType status = eLOC_CLIENT_SUCCESS;
+ qmi_client_error_type rc = QMI_NO_ERR; //No error
+ qmiLocGetSupportMsgT_v02 resp;
+
+ uint32_t reqLen = 0;
+ void *pReqData = NULL;
+ locClientCallbackDataType *pCallbackData =
+ (locClientCallbackDataType *)handle;
+
+ // check the input handle for sanity
+ if( NULL == pCallbackData ||
+ NULL == pCallbackData->userHandle ||
+ pCallbackData != pCallbackData->pMe ) {
+ // did not find the handle in the client List
+ LOC_LOGE("%s:%d]: invalid handle \n",
+ __func__, __LINE__);
+
+ return eLOC_CLIENT_FAILURE_GENERAL;
+ }
+
+ // NEXT call goes out to modem. We log the callflow before it
+ // actually happens to ensure the this comes before resp callflow
+ // back from the modem, to avoid confusing log order. We trust
+ // that the QMI framework is robust.
+
+ EXIT_LOG_CALLFLOW(%s, loc_get_v02_event_name(QMI_LOC_GET_SUPPORTED_MSGS_REQ_V02));
+ rc = qmi_client_send_msg_sync(
+ pCallbackData->userHandle,
+ QMI_LOC_GET_SUPPORTED_MSGS_REQ_V02,
+ pReqData,
+ reqLen,
+ &resp,
+ sizeof(resp),
+ LOC_CLIENT_ACK_TIMEOUT);
+
+ LOC_LOGV("%s:%d] qmi_client_send_msg_sync returned %d\n", __func__,
+ __LINE__, rc);
+
+ if (rc != QMI_NO_ERR)
+ {
+ LOC_LOGE("%s:%d]: send_msg_sync error: %d\n",__func__, __LINE__, rc);
+ return eLOC_CLIENT_FAILURE_GENERAL;
+ }
+
+ // map the QCCI response to Loc API v02 status
+ status = convertQmiResponseToLocStatus(&resp);
+
+ if(eLOC_CLIENT_SUCCESS == status)
+ {
+ LOC_LOGV("%s:%d]eLOC_CLIENT_SUCCESS == status\n", __func__, __LINE__);
+
+ // check every message listed in msgArray supported by modem or not
+ checkQmiMsgsSupported(msgArray, msgArrayLength, &resp, &supportedMsgChecked);
+
+ LOC_LOGV("%s:%d]: supportedMsgChecked is %lld\n",
+ __func__, __LINE__, supportedMsgChecked);
+ *supportedMsg = supportedMsgChecked;
+ isCheckedAlready = true;
+ return status;
+ } else {
+
+ LOC_LOGE("%s:%d]: convertQmiResponseToLocStatus error: %d\n",
+ __func__, __LINE__, status);
+ return eLOC_CLIENT_FAILURE_GENERAL;
+ }
+}
+
+/** locClientGetSizeByRespIndId
+ * @brief Get the size of the response indication structure,
+ * from a specified id
+ * @param [in] respIndId
+ * @param [out] pRespIndSize
+ * @return true if resp ID was found; else false
+*/
+
+bool locClientGetSizeByRespIndId(uint32_t respIndId, size_t *pRespIndSize)
+{
+ size_t idx = 0, respIndTableSize = 0;
+ respIndTableSize = (sizeof(locClientRespIndTable)/sizeof(locClientRespIndTableStructT));
+ for(idx=0; idx<respIndTableSize; idx++ )
+ {
+ if(respIndId == locClientRespIndTable[idx].respIndId)
+ {
+ // found
+ *pRespIndSize = locClientRespIndTable[idx].respIndSize;
+
+ LOC_LOGV("%s:%d]: resp ind Id %d size = %d\n", __func__, __LINE__,
+ respIndId, (uint32_t)*pRespIndSize);
+ return true;
+ }
+ }
+
+ //not found
+ return false;
+}
+
+
+/** locClientGetSizeByEventIndId
+ * @brief Gets the size of the event indication structure, from
+ * a specified id
+ * @param [in] eventIndId
+ * @param [out] pEventIndSize
+ * @return true if event ID was found; else false
+*/
+bool locClientGetSizeByEventIndId(uint32_t eventIndId, size_t *pEventIndSize)
+{
+ size_t idx = 0, eventIndTableSize = 0;
+
+ // look in the event table
+ eventIndTableSize =
+ (sizeof(locClientEventIndTable)/sizeof(locClientEventIndTableStructT));
+
+ for(idx=0; idx<eventIndTableSize; idx++ )
+ {
+ if(eventIndId == locClientEventIndTable[idx].eventId)
+ {
+ // found
+ *pEventIndSize = locClientEventIndTable[idx].eventSize;
+
+ LOC_LOGV("%s:%d]: event ind Id %d size = %d\n", __func__, __LINE__,
+ eventIndId, (uint32_t)*pEventIndSize);
+ return true;
+ }
+ }
+ // not found
+ return false;
+}
diff --git a/location/loc_api/loc_api_v02/loc_api_v02_client.h b/location/loc_api/loc_api_v02/loc_api_v02_client.h
new file mode 100644
index 0000000..53d9d79
--- /dev/null
+++ b/location/loc_api/loc_api_v02/loc_api_v02_client.h
@@ -0,0 +1,1592 @@
+/* Copyright (c) 2011-2014, The Linux Foundation. All rights reserved.
+ *
+ * Redistribution and use in source and binary forms, with or without
+ * modification, are permitted provided that the following conditions are
+ * met:
+ * * Redistributions of source code must retain the above copyright
+ * notice, this list of conditions and the following disclaimer.
+ * * Redistributions in binary form must reproduce the above
+ * copyright notice, this list of conditions and the following
+ * disclaimer in the documentation and/or other materials provided
+ * with the distribution.
+ * * Neither the name of The Linux Foundation, nor the names of its
+ * contributors may be used to endorse or promote products derived
+ * from this software without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED "AS IS" AND ANY EXPRESS OR IMPLIED
+ * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
+ * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT
+ * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS
+ * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
+ * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
+ * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
+ * BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
+ * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE
+ * OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN
+ * IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ */
+
+/** @file loc_api_v02_client.h
+*/
+
+#ifndef LOC_API_V02_CLIENT_H
+#define LOC_API_V02_CLIENT_H
+
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+
+/*=============================================================================
+ *
+ * DATA DECLARATION
+ *
+ *============================================================================*/
+#include <stdbool.h>
+#include <stdint.h>
+
+#include "location_service_v02.h" //QMI LOC Service data types definitions
+
+#include <stddef.h>
+
+/******************************************************************************
+ * Constants and configuration
+ *****************************************************************************/
+
+/** @ingroup constants_macros
+ Specific value of #locClientHandleType, indicating an invalid handle. */
+#define LOC_CLIENT_INVALID_HANDLE_VALUE (NULL)
+
+
+/** @addtogroup data_types
+@{ */
+
+/** Location client handle used to represent a specific client. Negative values
+ are invalid handles.
+*/
+typedef void* locClientHandleType;
+
+/** Data type for events and event masks. */
+typedef uint64_t locClientEventMaskType;
+
+/** Location client status values.
+*/
+typedef enum
+{
+ eLOC_CLIENT_SUCCESS = 0,
+ /**< Request was successful. */
+
+ eLOC_CLIENT_FAILURE_GENERAL = 1,
+ /**< Failed because of a general failure. */
+
+ eLOC_CLIENT_FAILURE_UNSUPPORTED = 2,
+ /**< Failed because the service does not support the command. */
+
+ eLOC_CLIENT_FAILURE_INVALID_PARAMETER = 3,
+ /**< Failed because the request contained invalid parameters. */
+
+ eLOC_CLIENT_FAILURE_ENGINE_BUSY = 4,
+ /**< Failed because the engine is busy. */
+
+ eLOC_CLIENT_FAILURE_PHONE_OFFLINE = 5,
+ /**< Failed because the phone is offline. */
+
+ eLOC_CLIENT_FAILURE_TIMEOUT = 6,
+ /**< Failed because of a timeout. */
+
+ eLOC_CLIENT_FAILURE_SERVICE_NOT_PRESENT = 7,
+ /**< Failed because the service is not present. */
+
+ eLOC_CLIENT_FAILURE_SERVICE_VERSION_UNSUPPORTED = 8,
+ /**< Failed because the service version is unsupported. */
+
+ eLOC_CLIENT_FAILURE_CLIENT_VERSION_UNSUPPORTED = 9,
+ /**< Failed because the service does not support client version. */
+
+ eLOC_CLIENT_FAILURE_INVALID_HANDLE = 10,
+ /**< Failed because an invalid handle was specified. */
+
+ eLOC_CLIENT_FAILURE_INTERNAL = 11,
+ /**< Failed because of an internal error in the service. */
+
+ eLOC_CLIENT_FAILURE_NOT_INITIALIZED = 12,
+ /**< Failed because the service has not been initialized. */
+
+ eLOC_CLIENT_FAILURE_NOT_ENOUGH_MEMORY = 13
+ /**< Failed because there is not enough memory to do the operation. */
+
+}locClientStatusEnumType;
+
+/** Location client error values
+*/
+typedef enum
+{
+ eLOC_CLIENT_ERROR_SERVICE_UNAVAILABLE = 1
+ /**< Service is no longer available. Upon getting this error, the client
+ must close the existing connection and reopen the connection. */
+
+}locClientErrorEnumType;
+
+
+/** Request messages the client can send to the location engine.
+
+ The following requests do not have any data associated, so they do not have a
+ payload structure defined:
+
+ - GetServiceRevision
+ - GetFixCriteria
+ - GetPredictedOrbitsDataSource
+ - GetPredictedOrbitsDataValidity
+ - GetEngineLock
+ - GetSbasConfigReq
+ - GetRegisteredEvents
+ - GetNmeaTypes
+ - GetLowPowerMode
+ - GetXtraTSessionControl
+ - GetRegisteredEvents
+ - GetOperationMode
+ - GetCradleMountConfig
+ - GetExternalPowerConfig
+ - GetSensorControlConfig
+ - GetSensorPerformanceControlConfiguration
+ - WWANOutOfServiceNotification
+*/
+typedef union
+{
+ const qmiLocInformClientRevisionReqMsgT_v02* pInformClientRevisionReq;
+ /**< Notifies the service about the revision the client is using.
+
+ The client does not receive any indications corresponding to this
+ request.
+
+ To send this request, set the reqId field in locClientSendReq() to
+ QMI_LOC_INFORM_CLIENT_REVISION_REQ_V02. */
+
+ const qmiLocRegEventsReqMsgT_v02* pRegEventsReq;
+ /**< Changes the events the client is interested in receiving.
+
+ The client does not receive any indications corresponding to this
+ request.
+
+ To send this request, set the reqId field in locClientSendReq() to
+ QMI_LOC_REG_EVENTS_REQ_V02. */
+
+ const qmiLocStartReqMsgT_v02* pStartReq;
+ /**< Starts a positioning session.
+
+ The client receives the following indications: position report,
+ satellite report, fix session report, and NMEA report (if applicable).
+
+ To send this request, set the reqId field in locClientSendReq() to
+ QMI_LOC_START_REQ_V02. */
+
+ const qmiLocStopReqMsgT_v02* pStopReq;
+ /**< Stops a positioning session. The client receives a fix session report
+ denoting that the fix session ended after this message was sent.
+
+ To send this request, set the reqId field in locClientSendReq() to
+ QMI_LOC_STOP_REQ_V02. */
+
+ const qmiLocNiUserRespReqMsgT_v02* pNiUserRespReq;
+ /**< Informs the service about the user response for a network-initiated call.
+
+ If the request is accepted by the service, the client receives the
+ following indication containing a response:
+ QMI_LOC_NI_USER_RESPONSE_IND_V02.
+
+ To send this request, set the reqId field in locClientSendReq() to
+ QMI_LOC_NI_USER_RESPONSE_REQ_V02. */
+
+ const qmiLocInjectPredictedOrbitsDataReqMsgT_v02* pInjectPredictedOrbitsDataReq;
+ /**< Injects the predicted orbits data into the service.
+
+ When all predicted orbits data parts have been injected, the client
+ receives the following indication containing a response:
+ QMI_LOC_INJECT_PREDICTED_ORBITS_DATA_IND_V02.
+
+ The client injects successive data parts without waiting for this
+ indication as long as locClientSendReq() returns successfully.
+
+ To send this request, set the reqId field in locClientSendReq() to
+ QMI_LOC_INJECT_PREDICTED_ORBITS_DATA_REQ_V02. */
+
+ const qmiLocInjectUtcTimeReqMsgT_v02* pInjectUtcTimeReq;
+ /**< Injects UTC time into the service.
+
+ If the request is accepted by the service, the client receives the
+ following indication containing a response:
+ QMI_LOC_INJECT_UTC_TIME_IND_V02.
+
+ To send this request, set the reqId field in locClientSendReq() to
+ QMI_LOC_INJECT_UTC_TIME_REQ_V02. */
+
+ const qmiLocInjectPositionReqMsgT_v02* pInjectPositionReq;
+ /**< Injects a position into the service.
+
+ If the request is accepted by the service, the client receives the
+ following indication containing a response:
+ QMI_LOC_INJECT_POSITION_IND_V02.
+
+ To send this request, set the reqId field in locClientSendReq() to
+ QMI_LOC_INJECT_POSITION_REQ_V02. */
+
+ const qmiLocSetEngineLockReqMsgT_v02* pSetEngineLockReq;
+ /**< Sets the location engine lock.
+
+ If the request is accepted by the service, the client receives the
+ following indication containing a response:
+ QMI_LOC_SET_ENGINE_LOCK_IND_V02.
+
+ To send this request, set the reqId field in locClientSendReq() to
+ QMI_LOC_SET_ENGINE_LOCK_REQ_V02. */
+
+ const qmiLocSetSbasConfigReqMsgT_v02* pSetSbasConfigReq;
+ /**< Sets the SBAS configuration.
+
+ If the request is accepted by the service, the client receives the
+ following indication containing a response:
+ QMI_LOC_SET_SBAS_CONFIG_IND_V02.
+
+ To send this request, set the reqId field in locClientSendReq() to
+ QMI_LOC_SET_SBAS_CONFIG_REQ_V02 . */
+
+ const qmiLocSetNmeaTypesReqMsgT_v02* pSetNmeaTypesReq;
+ /**< Sets the NMEA types configuration.
+
+ If the request is accepted by the service, the client receives the
+ following indication containing a response:
+ QMI_LOC_SET_NMEA_TYPES_IND_V02.
+
+ To send this request, set the reqId field in locClientSendReq() to
+ QMI_LOC_SET_NMEA_TYPES_REQ_V02. */
+
+ const qmiLocSetLowPowerModeReqMsgT_v02* pSetLowPowerModeReq;
+ /**< Sets the Low Power mode configuration.
+
+ If the request is accepted by the service, the client receives the
+ following indication containing a response:
+ QMI_LOC_SET_LOW_POWER_MODE_IND_V02.
+
+ To send this request, set the reqId field in locClientSendReq() to
+ QMI_LOC_SET_LOW_POWER_MODE_REQ_V02. */
+
+ const qmiLocSetServerReqMsgT_v02* pSetServerReq;
+ /**< Sets the A-GPS server type and address.
+
+ If the request is accepted by the service, the client receives the
+ following indication containing a response:
+ QMI_LOC_SET_SERVER_IND_V02.
+
+ To send this request, set the reqId field in locClientSendReq() to
+ QMI_LOC_SET_SERVER_REQ_V02. */
+
+ const qmiLocGetServerReqMsgT_v02* pGetServerReq;
+ /**< Gets the A-GPS server type and address.
+
+ If the request is accepted by the service, the client receives the
+ following indication containing a response:
+ QMI_LOC_GET_SERVER_IND_V02.
+
+ To send this request, set the reqId field in locClientSendReq() to
+ QMI_LOC_GET_SERVER_REQ_V02. */
+
+ const qmiLocDeleteAssistDataReqMsgT_v02* pDeleteAssistDataReq;
+ /**< Deletes the aiding data from the engine.
+
+ If the request is accepted by the service, the client receives the
+ following indication containing a response:
+ QMI_LOC_DELETE_ASSIST_DATA_IND_V02.
+
+ To send this request, set the reqId field in locClientSendReq() to
+ QMI_LOC_DELETE_ASSIST_DATA_REQ_V02. */
+
+ const qmiLocSetXtraTSessionControlReqMsgT_v02* pSetXtraTSessionControlReq;
+ /**< Sets XTRA-T session control in the engine.
+
+ If the request is accepted by the service, the client receives the
+ following indication containing a response:
+ QMI_LOC_SET_XTRA_T_SESSION_CONTROL_IND_V02.
+
+ To send this request, set the reqId field in locClientSendReq() to
+ QMI_LOC_SET_XTRA_T_SESSION_CONTROL_REQ_V02. */
+
+ const qmiLocInjectWifiPositionReqMsgT_v02* pInjectWifiPositionReq;
+ /**< Injects a WiFi position into the engine.
+
+ If the request is accepted by the service, the client receives the
+ following indication containing a response:
+ QMI_LOC_INJECT_WIFI_POSITION_IND_V02.
+
+ To send this request, set the reqId field in locClientSendReq() to
+ QMI_LOC_INJECT_WIFI_POSITION_REQ_V02. */
+
+ const qmiLocNotifyWifiStatusReqMsgT_v02* pNotifyWifiStatusReq;
+ /**< Notifies the engine about the WiFi status.
+
+ If the request is accepted by the service, the client receives the
+ following indication containing a response:
+ QMI_LOC_NOTIFY_WIFI_STATUS_IND_V02.
+
+ To send this request, set the reqId field in locClientSendReq() to
+ QMI_LOC_NOTIFY_WIFI_STATUS_REQ_V02. */
+
+ const qmiLocSetOperationModeReqMsgT_v02* pSetOperationModeReq;
+ /**< Sets the engine Operation mode.
+
+ If the request is accepted by the service, the client receives the
+ following indication containing a response:
+ QMI_LOC_SET_OPERATION_MODE_IND_V02.
+
+ To send this request, set the reqId field in locClientSendReq() to
+ QMI_LOC_SET_OPERATION_MODE_REQ_V02. */
+
+ const qmiLocSetSpiStatusReqMsgT_v02* pSetSpiStatusReq;
+ /**< Sends the stationary position status to the engine.
+
+ If the request is accepted by the service, the client receives the
+ following indication containing a response:
+ QMI_LOC_SET_SPI_STATUS_IND_V02.
+
+ To send this request, set the reqId field in locClientSendReq() to
+ QMI_LOC_SET_SPI_STATUS_REQ_V02. */
+
+ const qmiLocInjectSensorDataReqMsgT_v02* pInjectSensorDataReq;
+ /**< Injects sensor data into the engine.
+
+ If the request is accepted by the service, the client receives the
+ following indication containing a response:
+ QMI_LOC_INJECT_SENSOR_DATA_IND_V02.
+
+ To send this request, set the reqId field in locClientSendReq() to
+ QMI_LOC_INJECT_SENSOR_DATA_REQ_V02. */
+
+ const qmiLocInjectTimeSyncDataReqMsgT_v02* pInjectTimeSyncReq;
+ /**< Injects time synchronization information into the engine.
+
+ If the request is accepted by the service, the client receives the
+ following indication containing a response:
+ QMI_LOC_INJECT_TIME_SYNC_DATA_IND_V02.
+
+ To send this request, set the reqId field in locClientSendReq() to
+ QMI_LOC_INJECT_TIME_SYNC_DATA_REQ_V02. */
+
+ const qmiLocSetCradleMountConfigReqMsgT_v02* pSetCradleMountConfigReq;
+ /**< Sets the cradle mount state information in the engine.
+
+ If the request is accepted by the service, the client receives the
+ following indication containing a response:
+ SET_CRADLE_MOUNT_CONFIG_REQ_V02.
+
+ To send this request, set the reqId field in locClientSendReq() to
+ SET_CRADLE_MOUNT_CONFIG_IND_V02. */
+
+ const qmiLocSetExternalPowerConfigReqMsgT_v02* pSetExternalPowerConfigReq;
+ /**< Sets external power configuration state in the engine.
+
+ If the request is accepted by the service, the client receives the
+ following indication containing a response:
+ QMI_LOC_SET_EXTERNAL_POWER_CONFIG_IND_V02.
+
+ To send this request, set the reqId field in locClientSendReq() to
+ QMI_LOC_SET_EXTERNAL_POWER_CONFIG_REQ_V02. */
+
+ const qmiLocInformLocationServerConnStatusReqMsgT_v02*
+ pInformLocationServerConnStatusReq;
+ /**< Informs the engine about the connection status to the location server.
+
+ This can be sent in response to a
+ QMI_LOC_EVENT_LOCATION_SERVER_CONNECTION_REQ_IND_V02 request. The
+ service sends back a QMI_LOC_INFORM_LOCATION_SERVER_CONN_STATUS_IND_V02
+ response indication for this request.
+
+ To send this request, set the reqId field in locClientSendReq() to
+ QMI_LOC_INFORM_LOCATION_SERVER_CONN_STATUS_REQ_V02. */
+
+ const qmiLocSetProtocolConfigParametersReqMsgT_v02*
+ pSetProtocolConfigParametersReq;
+ /**< Sets the protocol configuration parameters in the engine.
+
+ If the request is accepted by the service, the client receives the
+ following indication containing a response:
+ QMI_LOC_SET_PROTOCOL_CONFIG_PARAMETERS_IND_V02.
+
+ To send this request, set the reqId field in locClientSendReq() to
+ QMI_LOC_SET_PROTOCOL_CONFIG_PARAMETERS_REQ_V02. */
+
+ const qmiLocGetProtocolConfigParametersReqMsgT_v02*
+ pGetProtocolConfigParametersReq;
+ /**< Retrieves protocol configuration parameters from the engine.
+
+ If the request is accepted by the service, the client receives the
+ following indication containing a response:
+ QMI_LOC_GET_PROTOCOL_CONFIG_PARAMETERS_IND_V02.
+
+ To send this request, set the reqId field in locClientSendReq() to
+ QMI_LOC_GET_PROTOCOL_CONFIG_PARAMETERS_REQ_V02. */
+
+ const qmiLocSetSensorControlConfigReqMsgT_v02*
+ pSetSensorControlConfigReq;
+ /**< Sets the sensor control configuration parameters in the engine.
+
+ If the request is accepted by the service, the client receives the
+ following indication containing a response:
+ QMI_LOC_SET_SENSOR_CONTROL_CONFIG_IND_V02.
+
+ To send this request, set the reqId field in locClientSendReq() to
+ QMI_LOC_SET_SENSOR_CONTROL_CONFIG_REQ_V02. */
+
+ const qmiLocSetSensorPerformanceControlConfigReqMsgT_v02*
+ pSetSensorPerformanceControlConfigReq;
+ /**< Sets the sensor performance configuration parameters in the engine.
+
+ If the request is accepted by the service, the client receives the
+ following indication containing a response:
+ QMI_LOC_SET_SENSOR_PERFORMANCE_CONTROL_CONFIGURATION_IND_V02.
+
+ To send this request, set the reqId field in locClientSendReq() to
+ QMI_LOC_SET_SENSOR_PERFORMANCE_CONTROL_CONFIGURATION_REQ_V02. */
+
+ const qmiLocGetSensorPropertiesReqMsgT_v02* pGetSensorPropertiesReq;
+ /**< Retrieves the sensor properties from the engine.
+
+ If the request is accepted by the service, the client receives the
+ following indication containing a response:
+ QMI_LOC_GET_SENSOR_PROPERTIES_IND_V02.
+
+ To send this request, set the reqId field in locClientSendReq() to
+ QMI_LOC_GET_SENSOR_PROPERTIES_REQ_V02. */
+
+ const qmiLocSetSensorPropertiesReqMsgT_v02* pSetSensorPropertiesReq;
+ /**< Sets the sensor properties in the engine.
+
+ If the request is accepted by the service, the client receives the
+ following indication containing a response:
+ QMI_LOC_SET_SENSOR_PROPERTIES_IND_V02.
+
+ To send this request, set the reqId field in locClientSendReq() to
+ QMI_LOC_SET_SENSOR_PROPERTIES_REQ_V02. */
+
+ const qmiLocInjectSuplCertificateReqMsgT_v02* pInjectSuplCertificateReq;
+ /**< Injects a SUPL certificate into the engine.
+
+ If the request is accepted by the service, the client receives the
+ following indication containing a response:
+ QMI_LOC_INJECT_SUPL_CERTIFICATE_IND_V02.
+
+ To send this request, set the reqId field in locClientSendReq() to
+ QMI_LOC_INJECT_SUPL_CERTIFICATE_REQ_V02. */
+
+ const qmiLocDeleteSuplCertificateReqMsgT_v02* pDeleteSuplCertificateReq;
+ /**< Deletes a SUPL certificate from the engine.
+
+ If the request is accepted by the service, the client receives the
+ following indication containing a response:
+ QMI_LOC_DELETE_SUPL_CERTIFICATE_IND_V02.
+
+ To send this request, set the reqId field in locClientSendReq() to
+ QMI_LOC_DELETE_SUPL_CERTIFICATE_REQ_V02. */
+
+ const qmiLocSetPositionEngineConfigParametersReqMsgT_v02*
+ pSetPositionEngineConfigParametersReq;
+ /**< Sets position engine configuration.
+
+ If the request is accepted by the service, the client receives the
+ following indication containing a response:
+ QMI_LOC_SET_POSITION_ENGINE_CONFIG_PARAMETERS_IND _V02.
+
+ To send this request, set the reqId field in locClientSendReq() to
+ QMI_LOC_SET_POSITION_ENGINE_CONFIG_PARAMETERS_REQ_V02. */
+
+ const qmiLocGetPositionEngineConfigParametersReqMsgT_v02*
+ pGetPositionEngineConfigParametersReq;
+ /**< Gets position engine configuration.
+
+ If the request is accepted by the service, the client receives the
+ following indication containing a response:
+ QMI_LOC_GET_POSITION_ENGINE_CONFIG_PARAMETERS_IND_V02.
+
+ To send this request, set the reqId field in locClientSendReq() to
+ QMI_LOC_GET_POSITION_ENGINE_CONFIG_PARAMETERS_REQ_V02. */
+
+ const qmiLocAddCircularGeofenceReqMsgT_v02* pAddCircularGeofenceReq;
+ /**< Adds a circular geofence.
+
+ If the request is accepted by the service, the client receives the
+ following indication containing a response:
+ QMI_LOC_ADD_CIRCULAR_GEOFENCE_IND_V02.
+
+ To send this request, set the reqId field in locClientSendReq() to
+ QMI_LOC_ADD_CIRCULAR_GEOFENCE_REQ_V02 */
+
+ const qmiLocDeleteGeofenceReqMsgT_v02* pDeleteGeofenceReq;
+ /**< Deletes a geofence.
+
+ If the request is accepted by the service, the client receives the
+ following indication containing a response:
+ QMI_LOC_DELETE_GEOFENCE_IND_V02.
+
+ To send this request, set the reqId field in locClientSendReq() to
+ QMI_LOC_DELETE_GEOFENCE_REQ_V02 */
+
+ const qmiLocQueryGeofenceReqMsgT_v02* pQueryGeofenceReq;
+ /**< Queries a geofence.
+
+ If the request is accepted by the service, the client receives the
+ following indication containing a response:
+ QMI_LOC_QUERY_GEOFENCE_IND_V02
+
+ To send this request, set the reqId field in locClientSendReq() to
+ QMI_LOC_QUERY_GEOFENCE_REQ_V02. */
+
+ const qmiLocEditGeofenceReqMsgT_v02* pEditGeofenceReq;
+ /**< Edits geofence parameters.
+
+ If the request is accepted by the service, the client receives the
+ following indication containing a response:
+ QMI_LOC_EDIT_GEOFENCE_IND_V02
+
+ To send this request, set the reqId field in locClientSendReq() to
+ QMI_LOC_EDIT_GEOFENCE_REQ_V02. */
+
+ const qmiLocGetBestAvailablePositionReqMsgT_v02*
+ pGetBestAvailablePositionReq;
+ /**< Get the best available position from location engine
+
+ If the request is accepted by the service, the client receives the
+ following indication containing a response:
+ QMI_LOC_GET_BEST_AVAILABLE_POSITION_IND_V02
+
+ To send this request, set the reqId field in locClientSendReq() to
+ QMI_LOC_GET_BEST_AVAILABLE_POSITION_REQ_V02. @newpagetable */
+
+ const qmiLocInjectMotionDataReqMsgT_v02* pInjectMotionDataReq;
+ /**< Inject motion data in the location engine
+
+ If the request is accepted by the service, the client receives the
+ following indication containing a response:
+ QMI_LOC_INJECT_MOTION_DATA_IND_V02
+
+ To send this request, set the reqId field in locClientSendReq() to
+ QMI_LOC_INJECT_MOTION_DATA_REQ_V02 */
+
+ const qmiLocGetNiGeofenceIdListReqMsgT_v02* pGetNiGeofenceIdListReq;
+ /**< Get the list of Network Initiated Geofences from the location engine.
+
+ If the request is accepted by the service, the client receives the
+ following indication containing a response:
+ QMI_LOC_GET_NI_GEOFENCE_ID_LIST_IND_V02
+
+ To send this request, set the reqId field in locClientSendReq() to
+ QMI_LOC_GET_NI_GEOFENCE_ID_LIST_REQ_V02 */
+
+ const qmiLocInjectGSMCellInfoReqMsgT_v02 *pInjectGSMCellInfoReq;
+ /**< Inject GSM Cell Information into the location engine.
+ If the request is accepted by the service, the client receives the
+ following indication containing a response:
+ QMI_LOC_INJECT_GSM_CELL_INFO_IND_V02
+
+ To send this request, set the reqId field in locClientSendReq() to
+ QMI_LOC_INJECT_GSM_CELL_INFO_REQ_V02 */
+
+ const qmiLocInjectNetworkInitiatedMessageReqMsgT_v02
+ *pInjectNetworkInitiatedMessageReq;
+ /**< Inject Network Initiated Message into the location engine.
+ If the request is accepted by the service, the client receives the
+ following indication containing a response:
+ QMI_LOC_INJECT_NETWORK_INITIATED_MESSAGE_IND_V02
+
+ To send this request, set the reqId field in locClientSendReq() to
+ QMI_LOC_INJECT_NETWORK_INITIATED_MESSAGE_REQ_V02 */
+
+ const void *pWWANOutOfServiceNotificationReq;
+
+ const qmiLocPedometerReportReqMsgT_v02 *pPedometerReportReq;
+ /**< Send pedometer data to the location engine. If the request is
+ accepted by the service, the client receives the following
+ indication containing a response:
+ QMI_LOC_PEDOMETER_REPORT_IND_V02
+
+ To send this request, set the reqId field in locClientSendReq() to
+ QMI_LOC_PEDOMETER_REPORT_REQ_V02 */
+
+ const qmiLocInjectWCDMACellInfoReqMsgT_v02 *pInjectWCDMACellInfoReq;
+ const qmiLocInjectTDSCDMACellInfoReqMsgT_v02 *pInjectTDSCDMACellInfoReq;
+ const qmiLocInjectSubscriberIDReqMsgT_v02 *pInjectSubscriberIDReq;
+ const qmiLocInjectWifiApDataReqMsgT_v02 *pInjectWifiApDataReq;
+ const qmiLocNotifyWifiAttachmentStatusReqMsgT_v02 *pNotifyWifiAttachmentStatusReq;
+ const qmiLocNotifyWifiEnabledStatusReqMsgT_v02 *pNotifyWifiEnabledStatusReq;
+
+ const qmiLocReadFromBatchReqMsgT_v02 *pReadFromBatchReq;
+ const qmiLocGetBatchSizeReqMsgT_v02 *pGetBatchSizeReq;
+ const qmiLocStartBatchingReqMsgT_v02 *pStartBatchingReq;
+ const qmiLocStopBatchingReqMsgT_v02 *pStopBatchingReq;
+ const qmiLocReleaseBatchReqMsgT_v02 *pReleaseBatchReq;
+
+ const qmiLocInjectVehicleSensorDataReqMsgT_v02 *pInjectVehicleSensorDataReq;
+
+ /**< Send vehicle sensor data to the location engine. If the request is
+ accepted by the service, the client receives the following
+ indication containing a response:
+ QMI_LOC_INJECT_VEHICLE_SENSOR_DATA_IND_V02
+
+ To send this request, set the reqId field in locClientSendReq() to
+ QMI_LOC_INJECT_VEHICLE_SENSOR_DATA_REQ_V02 */
+
+ const qmiLocSetPremiumServicesCfgReqMsgT_v02 *pSetPremiumServicesCfgReq;
+ /*QMI_LOC_SET_PREMIUM_SERVICES_CONFIG_REQ_V02*/
+
+ const qmiLocGetAvailWwanPositionReqMsgT_v02 *pGetAvailWwanPositionReq;
+ /*QMI_LOC_GET_AVAILABLE_WWAN_POSITION_REQ_V02*/
+
+ const qmiLocSetXtraVersionCheckReqMsgT_v02 *pSetXtraVersionCheckReq;
+
+ const qmiLocGdtUploadBeginStatusReqMsgT_v02* pGdtUploadBeginStatusReq;
+ /* QMI_LOC_GDT_UPLOAD_BEGIN_STATUS_REQ_V02 */
+
+ const qmiLocGdtUploadEndReqMsgT_v02* pGdtUploadEndReq;
+ /* QMI_LOC_GDT_UPLOAD_END_REQ_V02*/
+
+ const qmiLocInjectGtpClientDownloadedDataReqMsgT_v02 *pInjectGtpClientDownloadedDataReq;
+ /* QMI_LOC_INJECT_GTP_CLIENT_DOWNLOADED_DATA_REQ_V02 */
+
+ const qmiLocSetGNSSConstRepConfigReqMsgT_v02 *pSetGNSSConstRepConfigReq;
+ /*QMI_LOC_SET_GNSS_CONSTELL_REPORT_CONFIG_V02*/
+
+}locClientReqUnionType;
+
+
+/** Event indications that are sent by the service.
+*/
+typedef union
+{
+ const qmiLocEventPositionReportIndMsgT_v02* pPositionReportEvent;
+ /**< Contains the position information.
+
+ This event is generated after QMI_LOC_START_REQ_V02 is sent. If
+ periodic fix criteria is specified, this event is generated multiple
+ times periodically at the specified rate until QMI_LOC_STOP_REQ_V02 is
+ sent.
+
+ The eventIndId field in the event indication callback is set to
+ QMI_LOC_EVENT_POSITION_REPORT_IND_V02. */
+
+ const qmiLocEventGnssSvInfoIndMsgT_v02* pGnssSvInfoReportEvent;
+ /**< Contains the GNSS satellite information.
+
+ This event is generated after QMI_LOC_START_REQ_V02 is sent. This event
+ is generated at 1 Hz if the location engine is tracking satellites to
+ make a location fix.
+
+ The eventIndId field in the event indication callback is set to
+ QMI_LOC_EVENT_GNSS_INFO_IND_V02. */
+
+ const qmiLocEventNmeaIndMsgT_v02* pNmeaReportEvent;
+ /**< Contains an NMEA report sentence.
+
+ The entire NMEA report consisting of multiple sentences is sent at a
+ 1 Hz rate. This event is generated after QMI_LOC_START_REQ_V02 is sent.
+
+ The eventIndId field in the event indication callback is set to
+ QMI_LOC_EVENT_NMEA_IND_V02. */
+
+ const qmiLocEventNiNotifyVerifyReqIndMsgT_v02* pNiNotifyVerifyReqEvent;
+ /**< Notifies a location client when the network triggers a positioning
+ request to the mobile.
+
+ Upon getting this event, the location client displays the
+ network-initiated fix request in a dialog and prompts the user to
+ accept or deny the request. The client responds to this request with
+ the message QMI_LOC_NI_USER_RESPONSE_REQ_V02.
+
+ The eventIndId field in the event indication callback is set to
+ QMI_LOC_EVENT_NI_NOTIFY_VERIFY_REQ_IND_V02. */
+
+ const qmiLocEventInjectTimeReqIndMsgT_v02* pInjectTimeReqEvent;
+ /**< Asks the client for time assistance.
+
+ The client responds to this request with the message
+ QMI_LOC_INJECT_UTC_TIME_REQ_V02.
+
+ The eventIndId field in the event indication callback is
+ set to QMI_LOC_EVENT_INJECT_TIME_REQ_IND_V02. */
+
+ const qmiLocEventInjectPredictedOrbitsReqIndMsgT_v02*
+ pInjectPredictedOrbitsReqEvent;
+ /**< Asks the client for predicted orbits data assistance.
+
+ The client responds to this request with the message
+ QMI_LOC_INJECT_PREDICTED_ORBITS_DATA_REQ_V02.
+
+ The eventIndId field in the event indication callback is set to
+ QMI_LOC_EVENT_INJECT_PREDICTED_ORBITS_REQ_IND_V02. */
+
+ const qmiLocEventInjectPositionReqIndMsgT_v02* pInjectPositionReqEvent;
+ /**< Asks the client for position assistance.
+
+ The client responds to this request with the message
+ QMI_LOC_INJECT_POSITION_REQ_V02.
+
+ The eventIndId field in the event indication callback is set to
+ QMI_LOC_EVENT_INJECT_POSITION_REQ_IND_V02. */
+
+ const qmiLocEventEngineStateIndMsgT_v02* pEngineState;
+ /**< Sent by the engine whenever it turns on or off.
+
+ The eventIndId field in the event indication callback is set to
+ QMI_LOC_EVENT_ENGINE_STATE_IND_V02. */
+
+ const qmiLocEventFixSessionStateIndMsgT_v02* pFixSessionState;
+ /**< Sent by the engine when a location session begins or ends.
+
+ The eventIndId field in the event indication callback is set to
+ QMI_LOC_EVENT_FIX_SESSION_STATE_IND_V02. */
+
+ const qmiLocEventWifiReqIndMsgT_v02* pWifiReqEvent;
+ /**< Sent by the engine when it needs WiFi support.
+
+ The eventIndId field in the event indication callback is set to
+ QMI_LOC_EVENT_WIFI_REQ_IND_V02. */
+
+ const qmiLocEventSensorStreamingReadyStatusIndMsgT_v02*
+ pSensorStreamingReadyStatusEvent;
+ /**< Notifies the client that the engine is ready to accept sensor data.
+
+ The eventIndId field in the event indication callback is set to
+ QMI_LOC_EVENT_SENSOR_STREAMING_READY_STATUS_IND_V02. */
+
+ const qmiLocEventTimeSyncReqIndMsgT_v02* pTimeSyncReqEvent;
+ /**< Sent by the engine when it needs to synchronize its time with the sensor
+ processor time.
+
+ The eventIndId field in the event indication callback is set to
+ QMI_LOC_EVENT_TIME_SYNC_REQ_IND_V02. */
+
+ const qmiLocEventSetSpiStreamingReportIndMsgT_v02*
+ pSetSpiStreamingReportEvent;
+ /**< Asks the client to start/stop sending a Stationary Position Indicator
+ (SPI) stream.
+
+ The eventIndId field in the event indication callback is set to
+ QMI_LOC_SET_SPI_STREAMING_REPORT_IND_V02. */
+
+ const qmiLocEventLocationServerConnectionReqIndMsgT_v02*
+ pLocationServerConnReqEvent;
+ /**< Sent by the engine to ask the client to open or close a connection to
+ a location server.
+
+ The client responds to this request by sending the
+ QMI_LOC_INFORM_LOCATION_SERVER_CONN_STATUS_REQ_V02 message.
+
+ The eventIndId field in the event indication callback is set to
+ QMI_LOC_EVENT_LOCATION_SERVER_CONNECTION_REQ_IND_V02. */
+
+ const qmiLocEventNiGeofenceNotificationIndMsgT_v02*
+ pNiGeofenceNotificationEvent;
+ /**< Sent by the engine to notify the client about changes to a
+ network-initiated geofence.
+
+ The eventIndId field in the event indication callback is set to
+ QMI_LOC_EVENT_NI_GEOFENCE_NOTIFICATION_IND_V02. */
+
+ const qmiLocEventGeofenceGenAlertIndMsgT_v02* pGeofenceGenAlertEvent;
+ /**< Sent by the engine to notify the client about updates that may
+ affect a geofence operation.
+
+ The eventIndId field in the event indication callback is set to
+ QMI_LOC_EVENT_GEOFENCE_GEN_ALERT_IND_V02. */
+
+ const qmiLocEventGeofenceBreachIndMsgT_v02* pGeofenceBreachEvent;
+ /**< Sent by the engine to notify the client about a geofence breach
+ event.
+
+ The eventIndId field in the event indication callback is set to
+ QMI_LOC_EVENT_GEOFENCE_BREACH_NOTIFICATION_IND_V02. @newpagetable */
+
+ const qmiLocEventGeofenceBatchedBreachIndMsgT_v02* pGeofenceBatchedBreachEvent;
+ /**< Sent by the engine to notify the client about a geofence breach
+ event.
+
+ The eventIndId field in the event indication callback is set to
+ QMI_LOC_EVENT_GEOFENCE_BATCHED_BREACH_NOTIFICATION_IND_V02. @newpagetable */
+
+ const qmiLocEventPedometerControlIndMsgT_v02* pPedometerControlEvent;
+ /**< Sent by the engine to recommend how pedometer data is sent to the
+ location engine.
+ The eventIndId field in the event indication callback is set to
+ QMI_LOC_EVENT_PEDOMETER_CONTROL_IND_V02. @newpagetable */
+
+ const qmiLocEventMotionDataControlIndMsgT_v02* pMotionDataControlEvent;
+ /**< Sent by the engine to recommend how motion data is sent to the
+ location engine.
+ The eventIndId field in the event indication callback is set to
+ QMI_LOC_EVENT_MOTION_DATA_CONTROL_IND_V02. @newpagetable */
+
+ const qmiLocEventInjectWifiApDataReqIndMsgT_v02* pWifiApDataReqEvent;
+ const qmiLocEventLiveBatchedPositionReportIndMsgT_v02* pBatchPositionReportEvent;
+ /**< Sent by the engine to notify the client that live batch location
+ is ready, and the location info.
+
+ The eventIndId field in the event indication callback is set to
+ QMI_LOC_EVENT_LIVE_BATCHED_POSITION_REPORT_IND_V02. */
+
+ const qmiLocEventBatchFullIndMsgT_v02* pBatchCount;
+ /**< Sent by the engine to notify the client that batch location is
+ full, and how many location are available to read.
+
+ The eventIndId field in the event indication callback is set to
+ QMI_LOC_EVENT_BATCH_FULL_IND_V02. */
+
+ const qmiLocEventVehicleDataReadyIndMsgT_v02* pVehicleDataReadyEvent;
+ /**< Sent by the engine to recommend how vehicle sensor data is
+ sent to the location engine.
+ The eventIndId field in the event indication callback is set to
+ QMI_LOC_EVENT_VEHICLE_DATA_READY_STATUS_IND_V02. @newpagetable */
+
+ const qmiLocEventGeofenceProximityIndMsgT_v02* pGeofenceProximityEvent;
+ /**< Sent by the engine to notify the client about a geofence proximity
+ event.
+
+ The eventIndId field in the event indication callback is set to
+ QMI_LOC_EVENT_GEOFENCE_PROXIMITY_NOTIFICATION_IND_V02. @newpagetable */
+
+ const qmiLocEventGdtUploadBeginStatusReqIndMsgT_v02* pGdtUploadBeginEvent;
+ /**< Sent by the engine to notify the client about a GDT upload
+ begine event.
+
+ The eventIndId field in the event indication callback is set to
+ QMI_LOC_EVENT_GDT_UPLOAD_BEGIN_STATUS_REQ_IND_V02. @newpagetable */
+
+ const qmiLocEventGdtUploadEndReqIndMsgT_v02* pGdtUploadEndEvent;
+ /**< Sent by the engine to notify the client about a GDT upload
+ end event.
+
+ The eventIndId field in the event indication callback is set to
+ QMI_LOC_EVENT_GDT_UPLOAD_END_REQ_IND_V02. @newpagetable */
+
+ const qmiLocEventGnssSvMeasInfoIndMsgT_v02* pGnssSvRawInfoEvent;
+ /**< Sent by the engine to report GNSS measurement.
+ The eventIndId field in the event indication callback is set to
+ QMI_LOC_EVENT_GNSS_MEASUREMENT_REPORT_IND_V02. @newpagetable */
+
+}locClientEventIndUnionType;
+
+
+/** Response indications that are sent by the service.
+*/
+typedef union
+{
+ const qmiLocGetServiceRevisionIndMsgT_v02* pGetServiceRevisionInd;
+ /**< Response to the QMI_LOC_GET_SERVICE_REVISION_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_GET_SERVICE_REVISION_IND_V02. */
+
+ const qmiLocGetFixCriteriaIndMsgT_v02* pGetFixCriteriaInd;
+ /**< Response to the QMI_LOC_GET_FIX_CRITERIA_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_GET_FIX_CRITERIA_IND_V02. */
+
+ const qmiLocNiUserRespIndMsgT_v02* pNiUserRespInd;
+ /**< Response to the QMI_LOC_NI_USER_RESPONSE_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_NI_USER_RESPONSE_IND_V02. */
+
+ const qmiLocInjectPredictedOrbitsDataIndMsgT_v02*
+ pInjectPredictedOrbitsDataInd;
+ /**< Sent after a predicted orbits data part has been successfully injected.
+
+ The client waits for this indication before injecting the next part.
+ This indication is sent in response to
+ QMI_LOC_INJECT_PREDICTED_ORBITS_DATA_REQ_V02.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_INJECT_PREDICTED_ORBITS_DATA_IND_V02. */
+
+ const qmiLocGetPredictedOrbitsDataSourceIndMsgT_v02*
+ pGetPredictedOrbitsDataSourceInd;
+ /**< Response to the QMI_LOC_GET_PREDICTED_ORBITS_DATA_SOURCE_REQ_V02
+ request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_GET_PREDICTED_ORBITS_DATA_SOURCE_IND_V02. */
+
+ const qmiLocGetPredictedOrbitsDataValidityIndMsgT_v02*
+ pGetPredictedOrbitsDataValidityInd;
+ /**< Response to the QMI_LOC_GET_PREDICTED_ORBITS_DATA_VALIDITY_REQ_V02
+ request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_GET_PREDICTED_ORBITS_DATA_VALIDITY_IND_V02. */
+
+ const qmiLocInjectUtcTimeIndMsgT_v02* pInjectUtcTimeInd;
+ /**< Response to the QMI_LOC_INJECT_UTC_TIME_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_INJECT_UTC_TIME_IND_V02. */
+
+ const qmiLocInjectPositionIndMsgT_v02* pInjectPositionInd;
+ /**< Response to the QMI_LOC_INJECT_POSITION_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_INJECT_POSITION_IND_V02. */
+
+ const qmiLocSetEngineLockIndMsgT_v02* pSetEngineLockInd;
+ /**< Response to the QMI_LOC_SET_ENGINE_LOCK_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_SET_ENGINE_LOCK_IND_V02. */
+
+ const qmiLocGetEngineLockIndMsgT_v02* pGetEngineLockInd;
+ /**< Response to the QMI_LOC_GET_ENGINE_LOCK_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_GET_ENGINE_LOCK_IND_V02. */
+
+ const qmiLocSetSbasConfigIndMsgT_v02* pSetSbasConfigInd;
+ /**< Response to the QMI_LOC_SET_SBAS_CONFIG_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_SET_SBAS_CONFIG_IND_V02. */
+
+ const qmiLocGetSbasConfigIndMsgT_v02* pGetSbasConfigInd;
+ /**< Response to the QMI_LOC_GET_SBAS_CONFIG_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_GET_SBAS_CONFIG_IND_V02. */
+
+ const qmiLocSetNmeaTypesIndMsgT_v02* pSetNmeaTypesInd;
+ /**< Response to the QMI_LOC_SET_NMEA_TYPES_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_SET_NMEA_TYPES_IND_V02. */
+
+ const qmiLocGetNmeaTypesIndMsgT_v02* pGetNmeaTypesInd;
+ /**< Response to the QMI_LOC_GET_NMEA_TYPES_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_GET_NMEA_TYPES_IND_V02. */
+
+ const qmiLocSetLowPowerModeIndMsgT_v02* pSetLowPowerModeInd;
+ /**< Response to the QMI_LOC_SET_LOW_POWER_MODE_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_SET_LOW_POWER_MODE_IND_V02. */
+
+ const qmiLocGetLowPowerModeIndMsgT_v02* pGetLowPowerModeInd;
+ /**< Response to the QMI_LOC_GET_LOW_POWER_MODE_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_GET_LOW_POWER_MODE_IND_V02. */
+
+ const qmiLocSetServerIndMsgT_v02* pSetServerInd;
+ /**< Response to the QMI_LOC_SET_SERVER_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_SET_SERVER_IND_V02. */
+
+ const qmiLocGetServerIndMsgT_v02* pGetServerInd;
+ /**< Response to the QMI_LOC_GET_SERVER_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_GET_SERVER_IND_V02. */
+
+ const qmiLocDeleteAssistDataIndMsgT_v02* pDeleteAssistDataInd;
+ /**< Response to the QMI_LOC_DELETE_ASSIST_DATA_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_DELETE_ASSIST_DATA_IND_V02. */
+
+ const qmiLocSetXtraTSessionControlIndMsgT_v02* pSetXtraTSessionControlInd;
+ /**< Response to the QMI_LOC_SET_XTRA_T_SESSION_CONTROL_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_SET_XTRA_T_SESSION_CONTROL_IND_V02. */
+
+ const qmiLocGetXtraTSessionControlIndMsgT_v02* pGetXtraTSessionControlInd;
+ /**< Response to the QMI_LOC_GET_XTRA_T_SESSION_CONTROL_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_GET_XTRA_T_SESSION_CONTROL_IND_V02. */
+
+ const qmiLocInjectWifiPositionIndMsgT_v02* pInjectWifiPositionInd;
+ /**< Response to the QMI_LOC_INJECT_WIFI_POSITION_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_INJECT_WIFI_POSITION_IND_V02. */
+
+ const qmiLocNotifyWifiStatusIndMsgT_v02* pNotifyWifiStatusInd;
+ /**< Response to the QMI_LOC_NOTIFY_WIFI_STATUS_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_NOTIFY_WIFI_STATUS_IND_V02. */
+
+ const qmiLocGetRegisteredEventsIndMsgT_v02* pGetRegisteredEventsInd;
+ /**< Response to the QMI_LOC_GET_REGISTERED_EVENTS_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_GET_REGISTERED_EVENTS_IND_V02. */
+
+ const qmiLocSetOperationModeIndMsgT_v02* pSetOperationModeInd;
+ /**< Response to the QMI_LOC_SET_OPERATION_MODE_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_SET_OPERATION_MODE_IND_V02. */
+
+ const qmiLocGetOperationModeIndMsgT_v02* pGetOperationModeInd;
+ /**< Response to the QMI_LOC_GET_OPERATION_MODE_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_GET_OPERATION_MODE_IND_V02. */
+
+ const qmiLocSetSpiStatusIndMsgT_v02* pSetSpiStatusInd;
+ /**< Response to the QMI_LOC_SET_SPI_STATUS_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_SET_SPI_STATUS_IND_V02. */
+
+ const qmiLocInjectSensorDataIndMsgT_v02* pInjectSensorDataInd;
+ /**< Response to the QMI_LOC_INJECT_SENSOR_DATA_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_INJECT_SENSOR_DATA_IND_V02. */
+
+ const qmiLocInjectTimeSyncDataIndMsgT_v02* pInjectTimeSyncDataInd;
+ /**< Response to the QMI_LOC_INJECT_TIME_SYNC_DATA_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_INJECT_TIME_SYNC_DATA_IND_V02. */
+
+ const qmiLocSetCradleMountConfigIndMsgT_v02* pSetCradleMountConfigInd;
+ /**< Response to the QMI_LOC_SET_CRADLE_MOUNT_CONFIG_IND_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_SET_CRADLE_MOUNT_CONFIG_REQ_V02. */
+
+ const qmiLocGetCradleMountConfigIndMsgT_v02* pGetCradleMountConfigInd;
+ /**< Response to the QMI_LOC_GET_CRADLE_MOUNT_CONFIG_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_GET_CRADLE_MOUNT_CONFIG_IND_V02. */
+
+ const qmiLocSetExternalPowerConfigIndMsgT_v02* pSetExternalPowerConfigInd;
+ /**< Response to the QMI_LOC_SET_EXTERNAL_POWER_CONFIG_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_SET_EXTERNAL_POWER_CONFIG_IND_V02. */
+
+ const qmiLocGetExternalPowerConfigIndMsgT_v02* pGetExternalPowerConfigInd;
+ /**< Response to the QMI_LOC_GET_EXTERNAL_POWER_CONFIG_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_GET_EXTERNAL_POWER_CONFIG_IND_V02. */
+
+ const qmiLocInformLocationServerConnStatusIndMsgT_v02*
+ pInformLocationServerConnStatusInd;
+ /**< Response to the QMI_LOC_INFORM_LOCATION_SERVER_CONN_STATUS_REQ_V02
+ request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_INFORM_LOCATION_SERVER_CONN_STATUS_IND_V02.*/
+
+ const qmiLocSetProtocolConfigParametersIndMsgT_v02*
+ pSetProtocolConfigParametersInd;
+ /**< Response to the QMI_LOC_SET_PROTOCOL_CONFIG_PARAMETERS_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_SET_PROTOCOL_CONFIG_PARAMETERS_IND_V02. */
+
+ const qmiLocGetProtocolConfigParametersIndMsgT_v02*
+ pGetProtocolConfigParametersInd;
+ /**< Response to the QMI_LOC_GET_PROTOCOL_CONFIG_PARAMETERS_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_GET_PROTOCOL_CONFIG_PARAMETERS_IND_V02. */
+
+ const qmiLocSetSensorControlConfigIndMsgT_v02* pSetSensorControlConfigInd;
+ /**< Response to the QMI_LOC_SET_SENSOR_CONTROL_CONFIG_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_SET_SENSOR_CONTROL_CONFIG_IND_V02.
+ */
+
+ const qmiLocGetSensorControlConfigIndMsgT_v02* pGetSensorControlConfigInd;
+ /**< Response to the QMI_LOC_GET_SENSOR_CONTROL_CONFIG_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_GET_SENSOR_CONTROL_CONFIG_IND_V02.
+ */
+
+ const qmiLocSetSensorPropertiesIndMsgT_v02* pSetSensorPropertiesInd;
+ /**< Response to the QMI_LOC_SET_SENSOR_PROPERTIES_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_SET_SENSOR_PROPERTIES_IND_V02.
+ */
+
+ const qmiLocGetSensorPropertiesIndMsgT_v02* pGetSensorPropertiesInd;
+ /**< Response to the QMI_LOC_GET_SENSOR_PROPERTIES_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_GET_SENSOR_PROPERTIES_IND_V02.
+ */
+
+ const qmiLocSetSensorPerformanceControlConfigIndMsgT_v02*
+ pSetSensorPerformanceControlConfigInd;
+ /**< Response to the
+ QMI_LOC_SET_SENSOR_PERFORMANCE_CONTROL_CONFIGURATION_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_SET_SENSOR_PERFORMANCE_CONTROL_CONFIGURATION_IND_V02. */
+
+ const qmiLocGetSensorPerformanceControlConfigIndMsgT_v02*
+ pGetSensorPerformanceControlConfigInd;
+ /**< Response to the
+ QMI_LOC_GET_SENSOR_PERFORMANCE_CONTROL_CONFIGURATION_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_GET_SENSOR_PERFORMANCE_CONTROL_CONFIGURATION_IND_V02. */
+
+ const qmiLocInjectSuplCertificateIndMsgT_v02* pInjectSuplCertificateInd;
+ /**< Response to the QMI_LOC_INJECT_SUPL_CERTIFICATE_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_INJECT_SUPL_CERTIFICATE_IND_V02. */
+
+ const qmiLocDeleteSuplCertificateIndMsgT_v02* pDeleteSuplCertificateInd;
+ /**< Response to the QMI_LOC_DELETE_SUPL_CERTIFICATE_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_DELETE_SUPL_CERTIFICATE_IND_V02. */
+
+ const qmiLocSetPositionEngineConfigParametersIndMsgT_v02*
+ pSetPositionEngineConfigParametersInd;
+ /**< Response to the QMI_LOC_SET_POSITION_ENGINE_CONFIG_PARAMETERS_REQ_V02
+ request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_SET_POSITION_ENGINE_CONFIG_PARAMETERS_IND_V02. */
+
+ const qmiLocGetPositionEngineConfigParametersIndMsgT_v02*
+ pGetPositionEngineConfigParametersInd;
+ /**< Response to the QMI_LOC_GET_POSITION_ENGINE_CONFIG_PARAMETERS_REQ_V02
+ request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_GET_POSITION_ENGINE_CONFIG_PARAMETERS_IND_V02. */
+
+ const qmiLocAddCircularGeofenceIndMsgT_v02* pAddCircularGeofenceInd;
+ /**< Response to the QMI_LOC_ADD_CIRCULAR_GEOFENCE_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_ADD_CIRCULAR_GEOFENCE_IND_V02. */
+
+ const qmiLocDeleteGeofenceIndMsgT_v02* pDeleteGeofenceInd;
+ /**< Response to the QMI_LOC_DELETE_GEOFENCE_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_DELETE_GEOFENCE_IND_V02. */
+
+ const qmiLocQueryGeofenceIndMsgT_v02* pQueryGeofenceInd;
+ /**< Response to the QMI_LOC_QUERY_GEOFENCE_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_QUERY_GEOFENCE_IND_V02. */
+
+ const qmiLocEditGeofenceIndMsgT_v02* pEditGeofenceInd;
+ /**< Response to the QMI_LOC_EDIT_GEOFENCE_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_EDIT_GEOFENCE_IND_V02. */
+
+ const qmiLocGetBestAvailablePositionIndMsgT_v02*
+ pGetBestAvailablePositionInd;
+ /**< Response to the QMI_LOC_GET_BEST_AVAILABLE_POSITION_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_GET_BEST_AVAILABLE_POSITION_IND_V02. */
+
+ const qmiLocInjectMotionDataIndMsgT_v02* pInjectMotionDataInd;
+ /**< Response to the QMI_LOC_INJECT_MOTION_DATA_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_INJECT_MOTION_DATA_IND_V02. */
+
+ const qmiLocGetNiGeofenceIdListIndMsgT_v02* pGetNiGeofenceIdListInd;
+ /**< Response to the QMI_LOC_GET_NI_GEOFENCE_ID_LIST_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_GET_NI_GEOFENCE_ID_LIST_IND_V02. */
+
+ const qmiLocInjectGSMCellInfoIndMsgT_v02* pInjectGSMCellInfoInd;
+ /**< Response to the QMI_LOC_INJECT_GSM_CELL_INFO_REQ_V02 request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_INJECT_GSM_CELL_INFO_IND_V02. */
+
+ const qmiLocInjectNetworkInitiatedMessageIndMsgT_v02*
+ pInjectNetworkInitiatedMessageInd;
+
+ /**< Response to the QMI_LOC_INJECT_NETWORK_INITIATED_MESSAGE_REQ_V02
+ request.
+
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_INJECT_NETWORK_INITIATED_MESSAGE_IND_V02. */
+
+ const qmiLocWWANOutOfServiceNotificationIndMsgT_v02*
+ pWWANOutOfServiceNotificationInd;
+
+ /**< Response to the QMI_LOC_WWAN_OUT_OF_SERVICE_NOTIFICATION_REQ_V02
+ request.
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_WWAN_OUT_OF_SERVICE_NOTIFICATION_IND_V02. */
+
+ const qmiLocPedometerReportIndMsgT_v02* pPedometerReportInd;
+
+ /**< Response to the QMI_LOC_PEDOMETER_REPORT_REQ_V02 request.
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_PEDOMETER_REPORT_IND_V02. */
+
+ const qmiLocInjectWCDMACellInfoIndMsgT_v02 *pInjectWCDMACellInfoInd;
+ const qmiLocInjectTDSCDMACellInfoIndMsgT_v02 *pInjectTDSCDMACellInfoInd;
+ const qmiLocInjectSubscriberIDIndMsgT_v02 *pInjectSubscriberIDInd;
+ const qmiLocInjectWifiApDataIndMsgT_v02 *pInjectWifiApDataInd;
+ const qmiLocNotifyWifiAttachmentStatusIndMsgT_v02 *pNotifyWifiAttachmentStatusInd;
+ const qmiLocNotifyWifiEnabledStatusIndMsgT_v02 *pNotifyWifiEnabledStatusInd;
+
+ const qmiLocInjectVehicleSensorDataIndMsgT_v02 *pInjectVehicleSensorDataInd;
+
+ /**< Response to the QMI_LOC_INJECT_VEHICLE_SENSOR_DATA_REQ_V02 request.
+ The respIndId field in the response indication callback is set to
+ QMI_LOC_INJECT_VEHICLE_SENSOR_DATA_IND_V02. */
+
+ const qmiLocGetAvailWwanPositionIndMsgT_v02 *pGetAvailWwanPositionInd;
+ /*QMI_LOC_GET_AVAILABLE_WWAN_POSITION_IND_V02*/
+
+ const qmiLocSetXtraVersionCheckIndMsgT_v02 *pSetXtraVersionCheckInd;
+
+ const qmiLocSetGNSSConstRepConfigIndMsgT_v02 *pSetGNSSConstRepConfigInd;
+ /*QMI_LOC_SET_GNSS_CONSTELL_REPORT_CONFIG_IND_V02*/
+
+}locClientRespIndUnionType;
+
+/** @} */ /* end_addtogroup data_types */
+
+/** @addtogroup callback_functions
+@{ */
+/**
+ Location event indication callback function type. The Location service can
+ generate two types of indications:
+
+ - Asynchronous events indications, such as time injection request and satellite
+ reports. The client specifies the asynchronous events it is interested in
+ receiving through the event mask (see locClientOpen()).
+ - Response indications that are generated as a response to a request. For
+ example, the QMI_LOC_GET_FIX_CRITERIA_REQ_V02 request generates the
+ indication, QMI_LOC_GET_FIX_CRITERIA_IND_V02.
+
+ This callback handles the asynchronous event indications.
+
+ @datatypes
+ #locClientHandleType \n
+ #locClientEventIndUnionType
+
+ @param handle Location client for this event. Only the client who
+ registered for the corresponding event receives
+ this callback.
+ @param eventIndId ID of the event indication.
+ @param eventIndPayload Event indication payload.
+ @param pClientCookie Pointer to the cookie the client specified during
+ registration.
+
+ @return
+ None.
+
+ @dependencies
+ None. @newpage
+*/
+typedef void (*locClientEventIndCbType)(
+ locClientHandleType handle,
+ uint32_t eventIndId,
+ const locClientEventIndUnionType eventIndPayload,
+ void *pClientCookie
+);
+
+/**
+ Location response indication callback function type. The Location service can
+ generate two types of indications:
+
+ - Asynchronous events indications, such as time injection request and satellite
+ reports. The client specifies the asynchronous events it is interested in
+ receiving through the event mask (see locClientOpen()).
+ - Response indications that are generated as a response to a request. For
+ example, the QMI_LOC_GET_FIX_CRITERIA_REQ_V02 request generates the
+ indication, QMI_LOC_GET_FIX_CRITERIA_IND_V02.
+
+ This callback handles the response indications.
+
+ @datatypes
+ #locClientHandleType \n
+ #locClientRespIndUnionType
+
+ @param handle Location client who sent the request for which this
+ response indication is generated.
+ @param respIndId ID of the response. It is the same value as the ID
+ of request sent to the engine.
+ @param respIndPayload Payload of the response indication.
+ @param pClientCookie Pointer to the cookie the client specified during
+ registration.
+
+ @return
+ None.
+
+ @dependencies
+ None. @newpage
+*/
+typedef void (*locClientRespIndCbType)(
+ locClientHandleType handle,
+ uint32_t respIndId,
+ const locClientRespIndUnionType respIndPayload,
+ void *pClientCookie
+);
+
+/**
+ Location error callback function type. This function is called to inform
+ the client that the service is no longer available. When the client
+ receives this callback, it must close the existing connection and reopen
+ the client connection.
+
+ @datatypes
+ #locClientHandleType \n
+ #locClientErrorEnumType
+
+ @param handle Location client who sent the request for which this
+ error indication is generated.
+ @param errorId Error ID.
+ @param pClientCookie Payload associated with the error indication.
+
+ @return
+ None.
+
+ @dependencies
+ None.
+*/
+typedef void (*locClientErrorCbType)(
+ locClientHandleType handle,
+ locClientErrorEnumType errorId,
+ void* pClientCookie
+ );
+/** @} */ /* end_addtogroup callback_functions */
+
+
+/** @ingroup data_types
+ Callback functions to be registered during locClientOpen().
+*/
+typedef struct
+{
+ uint32_t size; /**< Size of the structure. */
+ locClientEventIndCbType eventIndCb; /**< Event indication callback. */
+ locClientRespIndCbType respIndCb; /**< Response indication callback. */
+ locClientErrorCbType errorCb; /**< Error indication callback.
+ @newpagetable */
+}locClientCallbacksType;
+
+/**
+ Response for getting qmi service list
+*/
+typedef struct
+{
+ qmi_get_supported_msgs_resp_v01 resp; /**< Response */
+}qmiLocGetSupportMsgT_v02;
+
+/*===========================================================================
+ *
+ * FUNCTION DECLARATION
+ *
+ *==========================================================================*/
+/** @addtogroup operation_functions
+@{ */
+/*==========================================================================
+ locClientOpen */
+/** @xreflabel{hdr:locClientOpenFunction}
+ Connects a location client to the location engine. If the connection is
+ successful, this function returns a handle that the location client uses for
+ future location operations.
+
+ @datatypes
+ #locClientStatusEnumType \n
+ #locClientEventMaskType \n
+ #locClientCallbacksType \n
+ #locClientHandleType
+
+ @param[in] eventRegMask Mask of asynchronous events the client is
+ interested in receiving.
+ @param[in] pLocClientCallbacks Pointer to structure containing the
+ callbacks.
+ @param[out] pLocClientHandle Pointer to the handle to be used by the
+ client for any subsequent requests.
+ @param[in] pLocClientCookie Pointer to a cookie to be returned to the
+ client along with the callbacks.
+
+ @return
+ One of the following error codes:
+ - eLOC_CLIENT_SUCCESS -- If the connection is opened.
+ - Non-zero error code (see #locClientStatusEnumType) -- On failure.
+
+ @dependencies
+ None. @newpage
+*/
+extern locClientStatusEnumType locClientOpen (
+ locClientEventMaskType eventRegMask,
+ const locClientCallbacksType* pLocClientCallbacks,
+ locClientHandleType* pLocClientHandle,
+ const void* pLocClientCookie
+);
+
+
+/*==========================================================================
+ locClientClose */
+/** @xreflabel{hdr:locClientCloseFunction}
+ Disconnects a client from the location engine and sets the handle to
+ LOC_CLIENT_INVALID_HANDLE_VALUE.
+
+ @datatypes
+ #locClientStatusEnumType \n
+ #locClientHandleType
+
+ @param[in] pLocClientHandle Pointer to the handle returned by the
+ locClientOpen() function.
+
+ @return
+ One of the following error codes:
+ - 0 (eLOC_CLIENT_SUCCESS) -- On success.
+ - Non-zero error code (see \ref locClientStatusEnumType) -- On failure.
+
+ @dependencies
+ None. @newpage
+*/
+extern locClientStatusEnumType locClientClose (
+ locClientHandleType* pLocClientHandle
+);
+
+/*=============================================================================
+ locClientSendReq */
+/** @xreflabel{hdr:locClientSendReqFunction}
+ Sends a message to the location engine. If this function is successful, the
+ client expects an indication (except start, stop, event registration, and
+ sensor injection messages) through the registered callback in the
+ locClientOpen() function.
+
+ The indication contains the status of the request. If the status is a success,
+ the indication also contains the payload associated with response.
+
+ @datatypes
+ #locClientStatusEnumType \n
+ #locClientHandleType \n
+ #locClientReqUnionType
+
+ @param[in] handle Handle returned by the locClientOpen() function.
+ @param[in] reqId QMI_LOC service message ID of the request.
+ @param[in] reqPayload Payload of the request. This can be NULL if the
+ request has no payload.
+
+ @return
+ One of the following error codes:
+ - 0 (eLOC_CLIENT_SUCCESS) -- On success.
+ - Non-zero error code (see \ref locClientStatusEnumType) -- On failure.
+
+ @dependencies
+ None. @newpage
+*/
+extern locClientStatusEnumType locClientSendReq(
+ locClientHandleType handle,
+ uint32_t reqId,
+ locClientReqUnionType reqPayload
+);
+
+/*=============================================================================
+ locClientSupportMsgCheck */
+/**
+ @brief Sends a QMI_LOC_GET_SUPPORTED_MSGS_REQ_V02 message to the
+ location engine, and then receives a list of all services supported
+ by the engine. This function will check if the input service(s) form
+ the client is in the list or not. If the locClientSupportMsgCheck()
+ function is successful, the client should expect an result of
+ the service is supported or not recorded in supportedMsg.
+ @param [in] handle Handle returned by the locClientOpen()
+ function.
+ @param [in] supportedMsg a integer used to record which
+ message is supported
+
+ @return
+ One of the following error codes:
+ - 0 (eLOC_CLIENT_SUCCESS) -- On success.
+ - Non-zero error code (see \ref locClientStatusEnumType) -- On failure.
+
+ @dependencies
+ None. @newpage
+*/
+extern locClientStatusEnumType locClientSupportMsgCheck(
+ locClientHandleType handle,
+ const uint32_t* msgArray,
+ uint32_t msgArrayLength,
+ uint64_t* supportedMsg
+);
+
+/*=============================================================================
+ locClientGetSizeByEventIndId */
+/** Gets the size of the event indication structure from a specified ID.
+
+ @param[in] eventIndId Event indicator ID.
+ @param[out] pEventIndSize Pointer to the size of the structure.
+
+ @return
+ TRUE -- The event ID was found. \n
+ FALSE -- Otherwise.
+
+ @dependencies
+ None. @newpage
+*/
+extern bool locClientGetSizeByEventIndId(
+ uint32_t eventIndId,
+ size_t *pEventIndSize);
+
+
+/*=============================================================================
+ locClientGetSizeByRespIndId */
+/** Gets the size of the response indication structure from a specified ID.
+
+ @param[in] respIndId Response indicator ID.
+ @param[out] pRespIndSize Pointer to the size of the structure.
+
+ @return
+ TRUE -- The response ID was found. \n
+ FALSE -- Otherwise.
+
+ @dependencies
+ None.
+*/
+extern bool locClientGetSizeByRespIndId(
+ uint32_t respIndId,
+ size_t *pRespIndSize);
+
+/** locClientRegisterEventMask
+ * @brief registers the event mask with loc service
+ * @param [in] clientHandle
+ * @param [in] eventRegMask
+ * @return true if indication was validated; else false */
+
+extern bool locClientRegisterEventMask(
+ locClientHandleType clientHandle,
+ locClientEventMaskType eventRegMask);
+
+/*=============================================================================*/
+/** @} */ /* end_addtogroup operation_functions */
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* LOC_API_V02_CLIENT_H*/
diff --git a/location/loc_api/loc_api_v02/loc_api_v02_log.c b/location/loc_api/loc_api_v02/loc_api_v02_log.c
new file mode 100644
index 0000000..4272722
--- /dev/null
+++ b/location/loc_api/loc_api_v02/loc_api_v02_log.c
@@ -0,0 +1,350 @@
+/* Copyright (c) 2011-2014, The Linux Foundation. All rights reserved.
+ *
+ * Redistribution and use in source and binary forms, with or without
+ * modification, are permitted provided that the following conditions are
+ * met:
+ * * Redistributions of source code must retain the above copyright
+ * notice, this list of conditions and the following disclaimer.
+ * * Redistributions in binary form must reproduce the above
+ * copyright notice, this list of conditions and the following
+ * disclaimer in the documentation and/or other materials provided
+ * with the distribution.
+ * * Neither the name of The Linux Foundation, nor the names of its
+ * contributors may be used to endorse or promote products derived
+ * from this software without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED "AS IS" AND ANY EXPRESS OR IMPLIED
+ * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
+ * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT
+ * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS
+ * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
+ * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
+ * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
+ * BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
+ * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE
+ * OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN
+ * IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ *
+ */
+#include <loc_api_v02_log.h>
+#include <location_service_v02.h>
+
+static loc_name_val_s_type loc_v02_event_name[] =
+{
+ NAME_VAL(QMI_LOC_INFORM_CLIENT_REVISION_REQ_V02),
+ NAME_VAL(QMI_LOC_INFORM_CLIENT_REVISION_RESP_V02),
+ NAME_VAL(QMI_LOC_REG_EVENTS_REQ_V02),
+ NAME_VAL(QMI_LOC_REG_EVENTS_RESP_V02),
+ NAME_VAL(QMI_LOC_START_REQ_V02),
+ NAME_VAL(QMI_LOC_START_RESP_V02),
+ NAME_VAL(QMI_LOC_STOP_REQ_V02),
+ NAME_VAL(QMI_LOC_STOP_RESP_V02),
+ NAME_VAL(QMI_LOC_EVENT_POSITION_REPORT_IND_V02),
+ NAME_VAL(QMI_LOC_EVENT_GNSS_SV_INFO_IND_V02),
+ NAME_VAL(QMI_LOC_EVENT_NMEA_IND_V02),
+ NAME_VAL(QMI_LOC_EVENT_NI_NOTIFY_VERIFY_REQ_IND_V02),
+ NAME_VAL(QMI_LOC_EVENT_INJECT_TIME_REQ_IND_V02),
+ NAME_VAL(QMI_LOC_EVENT_INJECT_PREDICTED_ORBITS_REQ_IND_V02),
+ NAME_VAL(QMI_LOC_EVENT_INJECT_POSITION_REQ_IND_V02),
+ NAME_VAL(QMI_LOC_EVENT_ENGINE_STATE_IND_V02),
+ NAME_VAL(QMI_LOC_EVENT_FIX_SESSION_STATE_IND_V02),
+ NAME_VAL(QMI_LOC_EVENT_WIFI_REQ_IND_V02),
+ NAME_VAL(QMI_LOC_EVENT_SENSOR_STREAMING_READY_STATUS_IND_V02),
+ NAME_VAL(QMI_LOC_EVENT_TIME_SYNC_REQ_IND_V02),
+ NAME_VAL(QMI_LOC_EVENT_SET_SPI_STREAMING_REPORT_IND_V02),
+ NAME_VAL(QMI_LOC_EVENT_LOCATION_SERVER_CONNECTION_REQ_IND_V02),
+ NAME_VAL(QMI_LOC_EVENT_INJECT_WIFI_AP_DATA_REQ_IND_V02),
+ NAME_VAL(QMI_LOC_GET_SERVICE_REVISION_REQ_V02),
+ NAME_VAL(QMI_LOC_GET_SERVICE_REVISION_RESP_V02),
+ NAME_VAL(QMI_LOC_GET_SERVICE_REVISION_IND_V02),
+ NAME_VAL(QMI_LOC_GET_FIX_CRITERIA_REQ_V02),
+ NAME_VAL(QMI_LOC_GET_FIX_CRITERIA_RESP_V02),
+ NAME_VAL(QMI_LOC_GET_FIX_CRITERIA_IND_V02),
+ NAME_VAL(QMI_LOC_NI_USER_RESPONSE_REQ_V02),
+ NAME_VAL(QMI_LOC_NI_USER_RESPONSE_RESP_V02),
+ NAME_VAL(QMI_LOC_NI_USER_RESPONSE_IND_V02),
+ NAME_VAL(QMI_LOC_INJECT_PREDICTED_ORBITS_DATA_REQ_V02),
+ NAME_VAL(QMI_LOC_INJECT_PREDICTED_ORBITS_DATA_RESP_V02),
+ NAME_VAL(QMI_LOC_INJECT_PREDICTED_ORBITS_DATA_IND_V02),
+ NAME_VAL(QMI_LOC_GET_PREDICTED_ORBITS_DATA_SOURCE_REQ_V02),
+ NAME_VAL(QMI_LOC_GET_PREDICTED_ORBITS_DATA_SOURCE_RESP_V02),
+ NAME_VAL(QMI_LOC_GET_PREDICTED_ORBITS_DATA_SOURCE_IND_V02),
+ NAME_VAL(QMI_LOC_GET_PREDICTED_ORBITS_DATA_VALIDITY_REQ_V02),
+ NAME_VAL(QMI_LOC_GET_PREDICTED_ORBITS_DATA_VALIDITY_RESP_V02),
+ NAME_VAL(QMI_LOC_GET_PREDICTED_ORBITS_DATA_VALIDITY_IND_V02),
+ NAME_VAL(QMI_LOC_INJECT_UTC_TIME_REQ_V02),
+ NAME_VAL(QMI_LOC_INJECT_UTC_TIME_RESP_V02),
+ NAME_VAL(QMI_LOC_INJECT_UTC_TIME_IND_V02),
+ NAME_VAL(QMI_LOC_INJECT_POSITION_REQ_V02),
+ NAME_VAL(QMI_LOC_INJECT_POSITION_RESP_V02),
+ NAME_VAL(QMI_LOC_INJECT_POSITION_IND_V02),
+ NAME_VAL(QMI_LOC_SET_ENGINE_LOCK_REQ_V02),
+ NAME_VAL(QMI_LOC_SET_ENGINE_LOCK_RESP_V02),
+ NAME_VAL(QMI_LOC_SET_ENGINE_LOCK_IND_V02),
+ NAME_VAL(QMI_LOC_GET_ENGINE_LOCK_REQ_V02),
+ NAME_VAL(QMI_LOC_GET_ENGINE_LOCK_RESP_V02),
+ NAME_VAL(QMI_LOC_GET_ENGINE_LOCK_IND_V02),
+ NAME_VAL(QMI_LOC_SET_SBAS_CONFIG_REQ_V02),
+ NAME_VAL(QMI_LOC_SET_SBAS_CONFIG_RESP_V02),
+ NAME_VAL(QMI_LOC_SET_SBAS_CONFIG_IND_V02),
+ NAME_VAL(QMI_LOC_GET_SBAS_CONFIG_REQ_V02),
+ NAME_VAL(QMI_LOC_GET_SBAS_CONFIG_RESP_V02),
+ NAME_VAL(QMI_LOC_GET_SBAS_CONFIG_IND_V02),
+ NAME_VAL(QMI_LOC_SET_NMEA_TYPES_REQ_V02),
+ NAME_VAL(QMI_LOC_SET_NMEA_TYPES_RESP_V02),
+ NAME_VAL(QMI_LOC_SET_NMEA_TYPES_IND_V02),
+ NAME_VAL(QMI_LOC_GET_NMEA_TYPES_REQ_V02),
+ NAME_VAL(QMI_LOC_GET_NMEA_TYPES_RESP_V02),
+ NAME_VAL(QMI_LOC_GET_NMEA_TYPES_IND_V02),
+ NAME_VAL(QMI_LOC_SET_LOW_POWER_MODE_REQ_V02),
+ NAME_VAL(QMI_LOC_SET_LOW_POWER_MODE_RESP_V02),
+ NAME_VAL(QMI_LOC_SET_LOW_POWER_MODE_IND_V02),
+ NAME_VAL(QMI_LOC_GET_LOW_POWER_MODE_REQ_V02),
+ NAME_VAL(QMI_LOC_GET_LOW_POWER_MODE_RESP_V02),
+ NAME_VAL(QMI_LOC_GET_LOW_POWER_MODE_IND_V02),
+ NAME_VAL(QMI_LOC_SET_SERVER_REQ_V02),
+ NAME_VAL(QMI_LOC_SET_SERVER_RESP_V02),
+ NAME_VAL(QMI_LOC_SET_SERVER_IND_V02),
+ NAME_VAL(QMI_LOC_GET_SERVER_REQ_V02),
+ NAME_VAL(QMI_LOC_GET_SERVER_RESP_V02),
+ NAME_VAL(QMI_LOC_GET_SERVER_IND_V02),
+ NAME_VAL(QMI_LOC_DELETE_ASSIST_DATA_REQ_V02),
+ NAME_VAL(QMI_LOC_DELETE_ASSIST_DATA_RESP_V02),
+ NAME_VAL(QMI_LOC_DELETE_ASSIST_DATA_IND_V02),
+ NAME_VAL(QMI_LOC_SET_XTRA_T_SESSION_CONTROL_REQ_V02),
+ NAME_VAL(QMI_LOC_SET_XTRA_T_SESSION_CONTROL_RESP_V02),
+ NAME_VAL(QMI_LOC_SET_XTRA_T_SESSION_CONTROL_IND_V02),
+ NAME_VAL(QMI_LOC_GET_XTRA_T_SESSION_CONTROL_REQ_V02),
+ NAME_VAL(QMI_LOC_GET_XTRA_T_SESSION_CONTROL_RESP_V02),
+ NAME_VAL(QMI_LOC_GET_XTRA_T_SESSION_CONTROL_IND_V02),
+ NAME_VAL(QMI_LOC_INJECT_WIFI_POSITION_REQ_V02),
+ NAME_VAL(QMI_LOC_INJECT_WIFI_POSITION_RESP_V02),
+ NAME_VAL(QMI_LOC_INJECT_WIFI_POSITION_IND_V02),
+ NAME_VAL(QMI_LOC_NOTIFY_WIFI_STATUS_REQ_V02),
+ NAME_VAL(QMI_LOC_NOTIFY_WIFI_STATUS_RESP_V02),
+ NAME_VAL(QMI_LOC_NOTIFY_WIFI_STATUS_IND_V02),
+ NAME_VAL(QMI_LOC_GET_REGISTERED_EVENTS_REQ_V02),
+ NAME_VAL(QMI_LOC_GET_REGISTERED_EVENTS_RESP_V02),
+ NAME_VAL(QMI_LOC_GET_REGISTERED_EVENTS_IND_V02),
+ NAME_VAL(QMI_LOC_SET_OPERATION_MODE_REQ_V02),
+ NAME_VAL(QMI_LOC_SET_OPERATION_MODE_RESP_V02),
+ NAME_VAL(QMI_LOC_SET_OPERATION_MODE_IND_V02),
+ NAME_VAL(QMI_LOC_GET_OPERATION_MODE_REQ_V02),
+ NAME_VAL(QMI_LOC_GET_OPERATION_MODE_RESP_V02),
+ NAME_VAL(QMI_LOC_GET_OPERATION_MODE_IND_V02),
+ NAME_VAL(QMI_LOC_SET_SPI_STATUS_REQ_V02),
+ NAME_VAL(QMI_LOC_SET_SPI_STATUS_RESP_V02),
+ NAME_VAL(QMI_LOC_SET_SPI_STATUS_IND_V02),
+ NAME_VAL(QMI_LOC_INJECT_SENSOR_DATA_REQ_V02),
+ NAME_VAL(QMI_LOC_INJECT_SENSOR_DATA_RESP_V02),
+ NAME_VAL(QMI_LOC_INJECT_SENSOR_DATA_IND_V02),
+ NAME_VAL(QMI_LOC_INJECT_TIME_SYNC_DATA_REQ_V02),
+ NAME_VAL(QMI_LOC_INJECT_TIME_SYNC_DATA_RESP_V02),
+ NAME_VAL(QMI_LOC_INJECT_TIME_SYNC_DATA_IND_V02),
+ NAME_VAL(QMI_LOC_SET_CRADLE_MOUNT_CONFIG_REQ_V02),
+ NAME_VAL(QMI_LOC_SET_CRADLE_MOUNT_CONFIG_RESP_V02),
+ NAME_VAL(QMI_LOC_SET_CRADLE_MOUNT_CONFIG_IND_V02),
+ NAME_VAL(QMI_LOC_GET_CRADLE_MOUNT_CONFIG_REQ_V02),
+ NAME_VAL(QMI_LOC_GET_CRADLE_MOUNT_CONFIG_RESP_V02),
+ NAME_VAL(QMI_LOC_GET_CRADLE_MOUNT_CONFIG_IND_V02),
+ NAME_VAL(QMI_LOC_SET_EXTERNAL_POWER_CONFIG_REQ_V02),
+ NAME_VAL(QMI_LOC_SET_EXTERNAL_POWER_CONFIG_RESP_V02),
+ NAME_VAL(QMI_LOC_SET_EXTERNAL_POWER_CONFIG_IND_V02),
+ NAME_VAL(QMI_LOC_GET_EXTERNAL_POWER_CONFIG_REQ_V02),
+ NAME_VAL(QMI_LOC_GET_EXTERNAL_POWER_CONFIG_RESP_V02),
+ NAME_VAL(QMI_LOC_GET_EXTERNAL_POWER_CONFIG_IND_V02),
+ NAME_VAL(QMI_LOC_INFORM_LOCATION_SERVER_CONN_STATUS_REQ_V02),
+ NAME_VAL(QMI_LOC_INFORM_LOCATION_SERVER_CONN_STATUS_RESP_V02),
+ NAME_VAL(QMI_LOC_INFORM_LOCATION_SERVER_CONN_STATUS_IND_V02),
+ NAME_VAL(QMI_LOC_SET_PROTOCOL_CONFIG_PARAMETERS_REQ_V02),
+ NAME_VAL(QMI_LOC_SET_PROTOCOL_CONFIG_PARAMETERS_RESP_V02),
+ NAME_VAL(QMI_LOC_SET_PROTOCOL_CONFIG_PARAMETERS_IND_V02),
+ NAME_VAL(QMI_LOC_GET_PROTOCOL_CONFIG_PARAMETERS_REQ_V02),
+ NAME_VAL(QMI_LOC_GET_PROTOCOL_CONFIG_PARAMETERS_RESP_V02),
+ NAME_VAL(QMI_LOC_GET_PROTOCOL_CONFIG_PARAMETERS_IND_V02),
+ NAME_VAL(QMI_LOC_SET_SENSOR_CONTROL_CONFIG_REQ_V02),
+ NAME_VAL(QMI_LOC_SET_SENSOR_CONTROL_CONFIG_RESP_V02),
+ NAME_VAL(QMI_LOC_SET_SENSOR_CONTROL_CONFIG_IND_V02),
+ NAME_VAL(QMI_LOC_GET_SENSOR_CONTROL_CONFIG_REQ_V02),
+ NAME_VAL(QMI_LOC_GET_SENSOR_CONTROL_CONFIG_RESP_V02),
+ NAME_VAL(QMI_LOC_GET_SENSOR_CONTROL_CONFIG_IND_V02),
+ NAME_VAL(QMI_LOC_SET_SENSOR_PROPERTIES_REQ_V02),
+ NAME_VAL(QMI_LOC_SET_SENSOR_PROPERTIES_RESP_V02),
+ NAME_VAL(QMI_LOC_SET_SENSOR_PROPERTIES_IND_V02),
+ NAME_VAL(QMI_LOC_GET_SENSOR_PROPERTIES_REQ_V02),
+ NAME_VAL(QMI_LOC_GET_SENSOR_PROPERTIES_RESP_V02),
+ NAME_VAL(QMI_LOC_GET_SENSOR_PROPERTIES_IND_V02),
+ NAME_VAL(QMI_LOC_SET_SENSOR_PERFORMANCE_CONTROL_CONFIGURATION_REQ_V02),
+ NAME_VAL(QMI_LOC_SET_SENSOR_PERFORMANCE_CONTROL_CONFIGURATION_RESP_V02),
+ NAME_VAL(QMI_LOC_SET_SENSOR_PERFORMANCE_CONTROL_CONFIGURATION_IND_V02),
+ NAME_VAL(QMI_LOC_GET_SENSOR_PERFORMANCE_CONTROL_CONFIGURATION_REQ_V02),
+ NAME_VAL(QMI_LOC_GET_SENSOR_PERFORMANCE_CONTROL_CONFIGURATION_RESP_V02),
+ NAME_VAL(QMI_LOC_GET_SENSOR_PERFORMANCE_CONTROL_CONFIGURATION_IND_V02),
+ NAME_VAL(QMI_LOC_INJECT_SUPL_CERTIFICATE_REQ_V02),
+ NAME_VAL(QMI_LOC_INJECT_SUPL_CERTIFICATE_RESP_V02),
+ NAME_VAL(QMI_LOC_INJECT_SUPL_CERTIFICATE_IND_V02),
+ NAME_VAL(QMI_LOC_DELETE_SUPL_CERTIFICATE_REQ_V02),
+ NAME_VAL(QMI_LOC_DELETE_SUPL_CERTIFICATE_RESP_V02),
+ NAME_VAL(QMI_LOC_DELETE_SUPL_CERTIFICATE_IND_V02),
+ NAME_VAL(QMI_LOC_SET_POSITION_ENGINE_CONFIG_PARAMETERS_REQ_V02),
+ NAME_VAL(QMI_LOC_SET_POSITION_ENGINE_CONFIG_PARAMETERS_RESP_V02),
+ NAME_VAL(QMI_LOC_SET_POSITION_ENGINE_CONFIG_PARAMETERS_IND_V02),
+ NAME_VAL(QMI_LOC_GET_POSITION_ENGINE_CONFIG_PARAMETERS_REQ_V02),
+ NAME_VAL(QMI_LOC_GET_POSITION_ENGINE_CONFIG_PARAMETERS_RESP_V02),
+ NAME_VAL(QMI_LOC_GET_POSITION_ENGINE_CONFIG_PARAMETERS_IND_V02),
+ NAME_VAL(QMI_LOC_EVENT_NI_GEOFENCE_NOTIFICATION_IND_V02),
+ NAME_VAL(QMI_LOC_EVENT_GEOFENCE_GEN_ALERT_IND_V02),
+ NAME_VAL(QMI_LOC_EVENT_GEOFENCE_BREACH_NOTIFICATION_IND_V02),
+ NAME_VAL(QMI_LOC_EVENT_GEOFENCE_BATCHED_BREACH_NOTIFICATION_IND_V02),
+ NAME_VAL(QMI_LOC_ADD_CIRCULAR_GEOFENCE_REQ_V02),
+ NAME_VAL(QMI_LOC_ADD_CIRCULAR_GEOFENCE_RESP_V02),
+ NAME_VAL(QMI_LOC_ADD_CIRCULAR_GEOFENCE_IND_V02),
+ NAME_VAL(QMI_LOC_DELETE_GEOFENCE_REQ_V02),
+ NAME_VAL(QMI_LOC_DELETE_GEOFENCE_RESP_V02),
+ NAME_VAL(QMI_LOC_DELETE_GEOFENCE_IND_V02),
+ NAME_VAL(QMI_LOC_QUERY_GEOFENCE_REQ_V02),
+ NAME_VAL(QMI_LOC_QUERY_GEOFENCE_RESP_V02),
+ NAME_VAL(QMI_LOC_QUERY_GEOFENCE_IND_V02),
+ NAME_VAL(QMI_LOC_EDIT_GEOFENCE_REQ_V02),
+ NAME_VAL(QMI_LOC_EDIT_GEOFENCE_RESP_V02),
+ NAME_VAL(QMI_LOC_EDIT_GEOFENCE_IND_V02),
+ NAME_VAL(QMI_LOC_GET_BEST_AVAILABLE_POSITION_REQ_V02),
+ NAME_VAL(QMI_LOC_GET_BEST_AVAILABLE_POSITION_RESP_V02),
+ NAME_VAL(QMI_LOC_GET_BEST_AVAILABLE_POSITION_IND_V02),
+ NAME_VAL(QMI_LOC_INJECT_MOTION_DATA_REQ_V02),
+ NAME_VAL(QMI_LOC_INJECT_MOTION_DATA_RESP_V02),
+ NAME_VAL(QMI_LOC_INJECT_MOTION_DATA_IND_V02),
+ NAME_VAL(QMI_LOC_GET_NI_GEOFENCE_ID_LIST_REQ_V02),
+ NAME_VAL(QMI_LOC_GET_NI_GEOFENCE_ID_LIST_RESP_V02),
+ NAME_VAL(QMI_LOC_GET_NI_GEOFENCE_ID_LIST_IND_V02),
+ NAME_VAL(QMI_LOC_INJECT_GSM_CELL_INFO_REQ_V02),
+ NAME_VAL(QMI_LOC_INJECT_GSM_CELL_INFO_RESP_V02),
+ NAME_VAL(QMI_LOC_INJECT_GSM_CELL_INFO_IND_V02),
+ NAME_VAL(QMI_LOC_INJECT_NETWORK_INITIATED_MESSAGE_REQ_V02),
+ NAME_VAL(QMI_LOC_INJECT_NETWORK_INITIATED_MESSAGE_RESP_V02),
+ NAME_VAL(QMI_LOC_INJECT_NETWORK_INITIATED_MESSAGE_IND_V02),
+ NAME_VAL(QMI_LOC_WWAN_OUT_OF_SERVICE_NOTIFICATION_REQ_V02),
+ NAME_VAL(QMI_LOC_WWAN_OUT_OF_SERVICE_NOTIFICATION_RESP_V02),
+ NAME_VAL(QMI_LOC_WWAN_OUT_OF_SERVICE_NOTIFICATION_IND_V02),
+ NAME_VAL(QMI_LOC_EVENT_PEDOMETER_CONTROL_IND_V02),
+ NAME_VAL(QMI_LOC_EVENT_MOTION_DATA_CONTROL_IND_V02),
+ NAME_VAL(QMI_LOC_PEDOMETER_REPORT_REQ_V02),
+ NAME_VAL(QMI_LOC_PEDOMETER_REPORT_RESP_V02),
+ NAME_VAL(QMI_LOC_PEDOMETER_REPORT_IND_V02),
+ NAME_VAL(QMI_LOC_INJECT_WCDMA_CELL_INFO_REQ_V02),
+ NAME_VAL(QMI_LOC_INJECT_WCDMA_CELL_INFO_RESP_V02),
+ NAME_VAL(QMI_LOC_INJECT_WCDMA_CELL_INFO_IND_V02),
+ NAME_VAL(QMI_LOC_INJECT_TDSCDMA_CELL_INFO_REQ_V02),
+ NAME_VAL(QMI_LOC_INJECT_TDSCDMA_CELL_INFO_RESP_V02),
+ NAME_VAL(QMI_LOC_INJECT_TDSCDMA_CELL_INFO_IND_V02),
+ NAME_VAL(QMI_LOC_INJECT_SUBSCRIBER_ID_REQ_V02),
+ NAME_VAL(QMI_LOC_INJECT_SUBSCRIBER_ID_RESP_V02),
+ NAME_VAL(QMI_LOC_INJECT_SUBSCRIBER_ID_IND_V02),
+ NAME_VAL(QMI_LOC_GET_SUPPORTED_MSGS_REQ_V02),
+ NAME_VAL(QMI_LOC_GET_SUPPORTED_MSGS_RESP_V02),
+ NAME_VAL(QMI_LOC_GET_SUPPORTED_FIELDS_REQ_V02),
+ NAME_VAL(QMI_LOC_GET_SUPPORTED_FIELDS_RESP_V02),
+ NAME_VAL(QMI_LOC_INJECT_WIFI_AP_DATA_REQ_V02),
+ NAME_VAL(QMI_LOC_INJECT_WIFI_AP_DATA_RESP_V02),
+ NAME_VAL(QMI_LOC_INJECT_WIFI_AP_DATA_IND_V02),
+ NAME_VAL(QMI_LOC_GET_BATCH_SIZE_REQ_V02),
+ NAME_VAL(QMI_LOC_GET_BATCH_SIZE_RESP_V02),
+ NAME_VAL(QMI_LOC_GET_BATCH_SIZE_IND_V02),
+ NAME_VAL(QMI_LOC_START_BATCHING_REQ_V02),
+ NAME_VAL(QMI_LOC_START_BATCHING_RESP_V02),
+ NAME_VAL(QMI_LOC_START_BATCHING_IND_V02),
+ NAME_VAL(QMI_LOC_EVENT_BATCH_FULL_NOTIFICATION_IND_V02),
+ NAME_VAL(QMI_LOC_READ_FROM_BATCH_REQ_V02),
+ NAME_VAL(QMI_LOC_READ_FROM_BATCH_RESP_V02),
+ NAME_VAL(QMI_LOC_READ_FROM_BATCH_IND_V02),
+ NAME_VAL(QMI_LOC_STOP_BATCHING_REQ_V02),
+ NAME_VAL(QMI_LOC_STOP_BATCHING_RESP_V02),
+ NAME_VAL(QMI_LOC_STOP_BATCHING_IND_V02),
+ NAME_VAL(QMI_LOC_RELEASE_BATCH_REQ_V02),
+ NAME_VAL(QMI_LOC_RELEASE_BATCH_RESP_V02),
+ NAME_VAL(QMI_LOC_RELEASE_BATCH_IND_V02),
+ NAME_VAL(QMI_LOC_INJECT_VEHICLE_SENSOR_DATA_REQ_V02),
+ NAME_VAL(QMI_LOC_INJECT_VEHICLE_SENSOR_DATA_RESP_V02),
+ NAME_VAL(QMI_LOC_INJECT_VEHICLE_SENSOR_DATA_IND_V02),
+ NAME_VAL(QMI_LOC_NOTIFY_WIFI_ATTACHMENT_STATUS_REQ_V02),
+ NAME_VAL(QMI_LOC_NOTIFY_WIFI_ATTACHMENT_STATUS_RESP_V02),
+ NAME_VAL(QMI_LOC_NOTIFY_WIFI_ATTACHMENT_STATUS_IND_V02),
+ NAME_VAL(QMI_LOC_NOTIFY_WIFI_ENABLED_STATUS_REQ_V02),
+ NAME_VAL(QMI_LOC_NOTIFY_WIFI_ENABLED_STATUS_RESP_V02),
+ NAME_VAL(QMI_LOC_NOTIFY_WIFI_ENABLED_STATUS_IND_V02),
+ NAME_VAL(QMI_LOC_SET_PREMIUM_SERVICES_CONFIG_REQ_V02),
+ NAME_VAL(QMI_LOC_SET_PREMIUM_SERVICES_CONFIG_RESP_V02),
+ NAME_VAL(QMI_LOC_SET_PREMIUM_SERVICES_CONFIG_IND_V02),
+ NAME_VAL(QMI_LOC_GET_AVAILABLE_WWAN_POSITION_REQ_V02),
+ NAME_VAL(QMI_LOC_GET_AVAILABLE_WWAN_POSITION_RESP_V02),
+ NAME_VAL(QMI_LOC_GET_AVAILABLE_WWAN_POSITION_IND_V02),
+ NAME_VAL(QMI_LOC_SET_XTRA_VERSION_CHECK_REQ_V02),
+ NAME_VAL(QMI_LOC_SET_XTRA_VERSION_CHECK_RESP_V02),
+ NAME_VAL(QMI_LOC_SET_XTRA_VERSION_CHECK_IND_V02),
+ NAME_VAL(QMI_LOC_EVENT_GEOFENCE_PROXIMITY_NOTIFICATION_IND_V02),
+ NAME_VAL(QMI_LOC_INJECT_GTP_CLIENT_DOWNLOADED_DATA_REQ_V02),
+ NAME_VAL(QMI_LOC_INJECT_GTP_CLIENT_DOWNLOADED_DATA_RESP_V02),
+ NAME_VAL(QMI_LOC_INJECT_GTP_CLIENT_DOWNLOADED_DATA_IND_V02),
+ NAME_VAL(QMI_LOC_GDT_UPLOAD_BEGIN_STATUS_REQ_V02),
+ NAME_VAL(QMI_LOC_GDT_UPLOAD_BEGIN_STATUS_RESP_V02),
+ NAME_VAL(QMI_LOC_GDT_UPLOAD_BEGIN_STATUS_IND_V02),
+ NAME_VAL(QMI_LOC_GDT_UPLOAD_END_REQ_V02),
+ NAME_VAL(QMI_LOC_GDT_UPLOAD_END_RESP_V02),
+ NAME_VAL(QMI_LOC_GDT_UPLOAD_END_IND_V02),
+ NAME_VAL(QMI_LOC_EVENT_GDT_UPLOAD_BEGIN_STATUS_REQ_IND_V02),
+ NAME_VAL(QMI_LOC_EVENT_GDT_UPLOAD_END_REQ_IND_V02),
+ NAME_VAL(QMI_LOC_EVENT_GNSS_MEASUREMENT_REPORT_IND_V02),
+ NAME_VAL(QMI_LOC_SET_GNSS_CONSTELL_REPORT_CONFIG_V02),
+ NAME_VAL(QMI_LOC_SET_GNSS_CONSTELL_REPORT_CONFIG_RESP_V02),
+ NAME_VAL(QMI_LOC_SET_GNSS_CONSTELL_REPORT_CONFIG_IND_V02)
+};
+static int loc_v02_event_num = sizeof(loc_v02_event_name) / sizeof(loc_name_val_s_type);
+
+const char* loc_get_v02_event_name(uint32_t event)
+{
+ return loc_get_name_from_val(loc_v02_event_name, loc_v02_event_num, (long) event);
+}
+
+static loc_name_val_s_type loc_v02_client_status_name[] =
+{
+ NAME_VAL(eLOC_CLIENT_SUCCESS),
+ NAME_VAL(eLOC_CLIENT_FAILURE_GENERAL),
+ NAME_VAL(eLOC_CLIENT_FAILURE_UNSUPPORTED),
+ NAME_VAL(eLOC_CLIENT_FAILURE_INVALID_PARAMETER),
+ NAME_VAL(eLOC_CLIENT_FAILURE_ENGINE_BUSY),
+ NAME_VAL(eLOC_CLIENT_FAILURE_PHONE_OFFLINE),
+ NAME_VAL(eLOC_CLIENT_FAILURE_TIMEOUT),
+ NAME_VAL(eLOC_CLIENT_FAILURE_SERVICE_NOT_PRESENT),
+ NAME_VAL(eLOC_CLIENT_FAILURE_SERVICE_VERSION_UNSUPPORTED),
+ NAME_VAL(eLOC_CLIENT_FAILURE_CLIENT_VERSION_UNSUPPORTED),
+ NAME_VAL(eLOC_CLIENT_FAILURE_INVALID_HANDLE),
+ NAME_VAL(eLOC_CLIENT_FAILURE_INTERNAL),
+ NAME_VAL(eLOC_CLIENT_FAILURE_NOT_INITIALIZED),
+ NAME_VAL(eLOC_CLIENT_FAILURE_NOT_ENOUGH_MEMORY),
+};
+static int loc_v02_client_status_num = sizeof(loc_v02_client_status_name) / sizeof(loc_name_val_s_type);
+
+const char* loc_get_v02_client_status_name(locClientStatusEnumType status)
+{
+ return loc_get_name_from_val(loc_v02_client_status_name, loc_v02_client_status_num, (long) status);
+}
+
+
+static loc_name_val_s_type loc_v02_qmi_status_name[] =
+{
+ NAME_VAL(eQMI_LOC_SUCCESS_V02),
+ NAME_VAL(eQMI_LOC_GENERAL_FAILURE_V02),
+ NAME_VAL(eQMI_LOC_UNSUPPORTED_V02),
+ NAME_VAL(eQMI_LOC_INVALID_PARAMETER_V02),
+ NAME_VAL(eQMI_LOC_ENGINE_BUSY_V02),
+ NAME_VAL(eQMI_LOC_PHONE_OFFLINE_V02),
+ NAME_VAL(eQMI_LOC_TIMEOUT_V02),
+ NAME_VAL(eQMI_LOC_CONFIG_NOT_SUPPORTED_V02),
+ NAME_VAL(eQMI_LOC_INSUFFICIENT_MEMORY_V02),
+};
+static int loc_v02_qmi_status_num = sizeof(loc_v02_qmi_status_name) / sizeof(loc_name_val_s_type);
+
+const char* loc_get_v02_qmi_status_name(qmiLocStatusEnumT_v02 status)
+{
+ return loc_get_name_from_val(loc_v02_qmi_status_name, loc_v02_qmi_status_num, (long) status);
+}
diff --git a/location/loc_api/loc_api_v02/loc_api_v02_log.h b/location/loc_api/loc_api_v02/loc_api_v02_log.h
new file mode 100644
index 0000000..8d4670c
--- /dev/null
+++ b/location/loc_api/loc_api_v02/loc_api_v02_log.h
@@ -0,0 +1,50 @@
+/* Copyright (c) 2011, The Linux Foundation. All rights reserved.
+ *
+ * Redistribution and use in source and binary forms, with or without
+ * modification, are permitted provided that the following conditions are
+ * met:
+ * * Redistributions of source code must retain the above copyright
+ * notice, this list of conditions and the following disclaimer.
+ * * Redistributions in binary form must reproduce the above
+ * copyright notice, this list of conditions and the following
+ * disclaimer in the documentation and/or other materials provided
+ * with the distribution.
+ * * Neither the name of The Linux Foundation nor the names of its
+ * contributors may be used to endorse or promote products derived
+ * from this software without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED "AS IS" AND ANY EXPRESS OR IMPLIED
+ * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
+ * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT
+ * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS
+ * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
+ * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
+ * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
+ * BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
+ * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE
+ * OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN
+ * IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ *
+ */
+
+#ifndef LOC_API_V02_LOG_H
+#define LOC_API_V02_LOG_H
+
+#ifdef __cplusplus
+extern "C"
+{
+#endif
+
+#include <loc_log.h>
+#include <loc_api_v02_client.h>
+
+const char* loc_get_v02_event_name(uint32_t event);
+const char* loc_get_v02_client_status_name(locClientStatusEnumType status);
+const char* loc_get_v02_qmi_status_name(qmiLocStatusEnumT_v02 status);
+
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* LOC_API_V02_LOG_H */
diff --git a/location/loc_api/loc_api_v02/loc_util_log.h b/location/loc_api/loc_api_v02/loc_util_log.h
new file mode 100644
index 0000000..49201f8
--- /dev/null
+++ b/location/loc_api/loc_api_v02/loc_util_log.h
@@ -0,0 +1,85 @@
+/* Copyright (c) 2011-2012, The Linux Foundation. All rights reserved.
+ *
+ * Redistribution and use in source and binary forms, with or without
+ * modification, are permitted provided that the following conditions are
+ * met:
+ * * Redistributions of source code must retain the above copyright
+ * notice, this list of conditions and the following disclaimer.
+ * * Redistributions in binary form must reproduce the above
+ * copyright notice, this list of conditions and the following
+ * disclaimer in the documentation and/or other materials provided
+ * with the distribution.
+ * * Neither the name of The Linux Foundation, nor the names of its
+ * contributors may be used to endorse or promote products derived
+ * from this software without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED "AS IS" AND ANY EXPRESS OR IMPLIED
+ * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
+ * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT
+ * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS
+ * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
+ * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
+ * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
+ * BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
+ * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE
+ * OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN
+ * IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ */
+#ifndef LOC_UTIL_LOG_H
+#define LOC_UTIL_LOG_H
+
+#if defined(_ANDROID_)
+#include "loc_api_v02_log.h"
+#include <log_util.h>
+
+#else // no _ANDROID_
+
+#if defined(__LOC_API_V02_LOG_SILENT__)
+#define MSG_LOG
+#define LOC_LOGE(...) MSG_LOG(__VA_ARGS__);
+#define LOC_LOGW(...) MSG_LOG(__VA_ARGS__);
+#define LOC_LOGD(...) MSG_LOG(__VA_ARGS__);
+#define LOC_LOGI(...) MSG_LOG(__VA_ARGS__);
+#define LOC_LOGV(...) MSG_LOG(__VA_ARGS__);
+#else
+
+// common for QNX and Griffon
+
+//error logs
+#define LOC_LOGE(...) printf(__VA_ARGS__)
+//warning logs
+#define LOC_LOGW(...) printf(__VA_ARGS__)
+// debug logs
+#define LOC_LOGD(...) printf(__VA_ARGS__)
+//info logs
+#define LOC_LOGI(...) printf(__VA_ARGS__)
+//verbose logs
+#define LOC_LOGV(...) printf(__VA_ARGS__)
+#endif //__LOC_API_V02_LOG_SILENT__
+
+#define MODEM_LOG_CALLFLOW(SPEC, VAL)
+#define EXIT_LOG_CALLFLOW(SPEC, VAL)
+
+#define loc_get_v02_event_name(X) #X
+#define loc_get_v02_client_status_name(X) #X
+
+#define loc_get_v02_qmi_status_name(X) #X
+
+//specific to OFF TARGET
+#ifdef LOC_UTIL_TARGET_OFF_TARGET
+
+#include <stdio.h>
+# include <asm/errno.h>
+# include <sys/time.h>
+
+// get around strl*: not found in glibc
+// TBD:look for presence of eglibc other libraries
+// with strlcpy supported.
+#define strlcpy(X,Y,Z) strcpy(X,Y)
+#define strlcat(X,Y,Z) strcat(X,Y)
+
+#endif //LOC_UTIL_TARGET_OFF_TARGET
+
+#endif //_ANDROID_
+
+#endif //LOC_UTIL_LOG_H
diff --git a/location/loc_api/loc_api_v02/location_service_v02.c b/location/loc_api/loc_api_v02/location_service_v02.c
new file mode 100644
index 0000000..56bb038
--- /dev/null
+++ b/location/loc_api/loc_api_v02/location_service_v02.c
@@ -0,0 +1,5237 @@
+/* Copyright (c) 2011-2014, The Linux Foundation. All rights reserved.
+ *
+ * Redistribution and use in source and binary forms, with or without
+ * modification, are permitted provided that the following conditions are
+ * met:
+ * * Redistributions of source code must retain the above copyright
+ * notice, this list of conditions and the following disclaimer.
+ * * Redistributions in binary form must reproduce the above
+ * copyright notice, this list of conditions and the following
+ * disclaimer in the documentation and/or other materials provided
+ * with the distribution.
+ * * Neither the name of The Linux Foundation, nor the names of its
+ * contributors may be used to endorse or promote products derived
+ * from this software without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED "AS IS" AND ANY EXPRESS OR IMPLIED
+ * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
+ * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT
+ * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS
+ * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
+ * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
+ * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
+ * BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
+ * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE
+ * OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN
+ * IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ */
+/*====*====*====*====*====*====*====*====*====*====*====*====*====*====*====*
+ *THIS IS AN AUTO GENERATED FILE. DO NOT ALTER IN ANY WAY
+ *====*====*====*====*====*====*====*====*====*====*====*====*====*====*====*/
+
+/* This file was generated with Tool version 6.14.2
+ It was generated on: Sat Dec 13 2014 (Spin 0)
+ From IDL File: location_service_v02.idl */
+
+#include "stdint.h"
+#include "qmi_idl_lib_internal.h"
+#include "location_service_v02.h"
+#include "common_v01.h"
+
+
+/*Type Definitions*/
+static const uint8_t qmiLocApplicationIdStructT_data_v02[] = {
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN |QMI_IDL_STRING,
+ QMI_IDL_OFFSET8(qmiLocApplicationIdStructT_v02, applicationProvider),
+ QMI_LOC_MAX_APP_ID_PROVIDER_LENGTH_V02,
+
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN |QMI_IDL_STRING,
+ QMI_IDL_OFFSET8(qmiLocApplicationIdStructT_v02, applicationName),
+ QMI_LOC_MAX_APP_ID_NAME_LENGTH_V02,
+
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocApplicationIdStructT_v02, applicationVersion_valid),
+
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN |QMI_IDL_STRING,
+ QMI_IDL_OFFSET8(qmiLocApplicationIdStructT_v02, applicationVersion),
+ QMI_LOC_MAX_APP_ID_VERSION_LENGTH_V02,
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocGPSTimeStructT_data_v02[] = {
+ QMI_IDL_GENERIC_2_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGPSTimeStructT_v02, gpsWeek),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGPSTimeStructT_v02, gpsTimeOfWeekMs),
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocDOPStructT_data_v02[] = {
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocDOPStructT_v02, PDOP),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocDOPStructT_v02, HDOP),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocDOPStructT_v02, VDOP),
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocSensorUsageIndicatorStructT_data_v02[] = {
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSensorUsageIndicatorStructT_v02, usageMask),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSensorUsageIndicatorStructT_v02, aidingIndicatorMask),
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocSvInfoStructT_data_v02[] = {
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSvInfoStructT_v02, validMask),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSvInfoStructT_v02, system),
+
+ QMI_IDL_GENERIC_2_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSvInfoStructT_v02, gnssSvId),
+
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSvInfoStructT_v02, healthStatus),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSvInfoStructT_v02, svStatus),
+
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSvInfoStructT_v02, svInfoMask),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSvInfoStructT_v02, elevation),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSvInfoStructT_v02, azimuth),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSvInfoStructT_v02, snr),
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocNiVxNotifyVerifyStructT_data_v02[] = {
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocNiVxNotifyVerifyStructT_v02, posQosIncl),
+
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocNiVxNotifyVerifyStructT_v02, posQos),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocNiVxNotifyVerifyStructT_v02, numFixes),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocNiVxNotifyVerifyStructT_v02, timeBetweenFixes),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocNiVxNotifyVerifyStructT_v02, posMode),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocNiVxNotifyVerifyStructT_v02, encodingScheme),
+
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN |QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocNiVxNotifyVerifyStructT_v02, requestorId),
+ QMI_LOC_NI_MAX_REQUESTOR_ID_LENGTH_V02,
+ QMI_IDL_OFFSET8(qmiLocNiVxNotifyVerifyStructT_v02, requestorId) - QMI_IDL_OFFSET8(qmiLocNiVxNotifyVerifyStructT_v02, requestorId_len),
+
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_GENERIC_2_BYTE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocNiVxNotifyVerifyStructT_v02, userRespTimerInSeconds),
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocNiSuplFormattedStringStructT_data_v02[] = {
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocNiSuplFormattedStringStructT_v02, formatType),
+
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN |QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocNiSuplFormattedStringStructT_v02, formattedString),
+ QMI_LOC_NI_MAX_CLIENT_NAME_LENGTH_V02,
+ QMI_IDL_OFFSET8(qmiLocNiSuplFormattedStringStructT_v02, formattedString) - QMI_IDL_OFFSET8(qmiLocNiSuplFormattedStringStructT_v02, formattedString_len),
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocNiSuplQopStructT_data_v02[] = {
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocNiSuplQopStructT_v02, validMask),
+
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocNiSuplQopStructT_v02, horizontalAccuracy),
+
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocNiSuplQopStructT_v02, verticalAccuracy),
+
+ QMI_IDL_GENERIC_2_BYTE,
+ QMI_IDL_OFFSET8(qmiLocNiSuplQopStructT_v02, maxLocAge),
+
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocNiSuplQopStructT_v02, delay),
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocIpV4AddrStructType_data_v02[] = {
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocIpV4AddrStructType_v02, addr),
+
+ QMI_IDL_GENERIC_2_BYTE,
+ QMI_IDL_OFFSET8(qmiLocIpV4AddrStructType_v02, port),
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocIpV6AddrStructType_data_v02[] = {
+ QMI_IDL_FLAGS_IS_ARRAY |QMI_IDL_GENERIC_2_BYTE,
+ QMI_IDL_OFFSET8(qmiLocIpV6AddrStructType_v02, addr),
+ QMI_LOC_IPV6_ADDR_LENGTH_V02,
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocIpV6AddrStructType_v02, port),
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocNiSuplServerInfoStructT_data_v02[] = {
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocNiSuplServerInfoStructT_v02, suplServerAddrTypeMask),
+
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocNiSuplServerInfoStructT_v02, ipv4Addr),
+ QMI_IDL_TYPE88(0, 8),
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocNiSuplServerInfoStructT_v02, ipv6Addr),
+ QMI_IDL_TYPE88(0, 9),
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN |QMI_IDL_STRING,
+ QMI_IDL_OFFSET8(qmiLocNiSuplServerInfoStructT_v02, urlAddr),
+ QMI_LOC_MAX_SERVER_ADDR_LENGTH_V02,
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocNiSuplNotifyVerifyStructT_data_v02[] = {
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocNiSuplNotifyVerifyStructT_v02, valid_flags),
+
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocNiSuplNotifyVerifyStructT_v02, suplServerInfo),
+ QMI_IDL_TYPE88(0, 10),
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_FLAGS_IS_ARRAY |QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocNiSuplNotifyVerifyStructT_v02, suplSessionId),
+ QMI_LOC_NI_SUPL_SLP_SESSION_ID_BYTE_LENGTH_V02,
+
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_FLAGS_IS_ARRAY |QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocNiSuplNotifyVerifyStructT_v02, suplHash),
+ QMI_LOC_NI_SUPL_HASH_LENGTH_V02,
+
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocNiSuplNotifyVerifyStructT_v02, posMethod),
+
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocNiSuplNotifyVerifyStructT_v02, dataCodingScheme),
+
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocNiSuplNotifyVerifyStructT_v02, requestorId),
+ QMI_IDL_TYPE88(0, 6),
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocNiSuplNotifyVerifyStructT_v02, clientName),
+ QMI_IDL_TYPE88(0, 6),
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocNiSuplNotifyVerifyStructT_v02, suplQop),
+ QMI_IDL_TYPE88(0, 7),
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_GENERIC_2_BYTE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocNiSuplNotifyVerifyStructT_v02, userResponseTimer),
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocNiUmtsCpCodedStringStructT_data_v02[] = {
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocNiUmtsCpCodedStringStructT_v02, dataCodingScheme),
+
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN |QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocNiUmtsCpCodedStringStructT_v02, codedString),
+ QMI_LOC_NI_CODEWORD_MAX_LENGTH_V02,
+ QMI_IDL_OFFSET8(qmiLocNiUmtsCpCodedStringStructT_v02, codedString) - QMI_IDL_OFFSET8(qmiLocNiUmtsCpCodedStringStructT_v02, codedString_len),
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocNiUmtsCpNotifyVerifyStructT_data_v02[] = {
+ QMI_IDL_GENERIC_2_BYTE,
+ QMI_IDL_OFFSET8(qmiLocNiUmtsCpNotifyVerifyStructT_v02, valid_flags),
+
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocNiUmtsCpNotifyVerifyStructT_v02, invokeId),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocNiUmtsCpNotifyVerifyStructT_v02, dataCodingScheme),
+
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN |QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocNiUmtsCpNotifyVerifyStructT_v02, notificationText),
+ QMI_LOC_NI_MAX_CLIENT_NAME_LENGTH_V02,
+ QMI_IDL_OFFSET8(qmiLocNiUmtsCpNotifyVerifyStructT_v02, notificationText) - QMI_IDL_OFFSET8(qmiLocNiUmtsCpNotifyVerifyStructT_v02, notificationText_len),
+
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN |QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocNiUmtsCpNotifyVerifyStructT_v02, clientAddress),
+ QMI_LOC_NI_MAX_EXT_CLIENT_ADDRESS_V02,
+ QMI_IDL_OFFSET8(qmiLocNiUmtsCpNotifyVerifyStructT_v02, clientAddress) - QMI_IDL_OFFSET8(qmiLocNiUmtsCpNotifyVerifyStructT_v02, clientAddress_len),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocNiUmtsCpNotifyVerifyStructT_v02, locationType),
+
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocNiUmtsCpNotifyVerifyStructT_v02, requestorId),
+ QMI_IDL_TYPE88(0, 12),
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocNiUmtsCpNotifyVerifyStructT_v02, codewordString),
+ QMI_IDL_TYPE88(0, 12),
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocNiUmtsCpNotifyVerifyStructT_v02, lcsServiceTypeId),
+
+ QMI_IDL_GENERIC_2_BYTE,
+ QMI_IDL_OFFSET8(qmiLocNiUmtsCpNotifyVerifyStructT_v02, userResponseTimer),
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocNiVxServiceInteractionStructT_data_v02[] = {
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocNiVxServiceInteractionStructT_v02, niVxReq),
+ QMI_IDL_TYPE88(0, 5),
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocNiVxServiceInteractionStructT_v02, serviceInteractionType),
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocNiSuplVer2ExtStructT_data_v02[] = {
+ QMI_IDL_GENERIC_2_BYTE,
+ QMI_IDL_OFFSET8(qmiLocNiSuplVer2ExtStructT_v02, supportedNetworksMask),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocNiSuplVer2ExtStructT_v02, triggerType),
+
+ QMI_IDL_GENERIC_2_BYTE,
+ QMI_IDL_OFFSET8(qmiLocNiSuplVer2ExtStructT_v02, gnssType),
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocEmergencyNotificationStructT_data_v02[] = {
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN |QMI_IDL_STRING,
+ QMI_IDL_OFFSET8(qmiLocEmergencyNotificationStructT_v02, eslpUrl),
+ QMI_LOC_MAX_SERVER_ADDR_LENGTH_V02,
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocAssistanceServerUrlStructT_data_v02[] = {
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN |QMI_IDL_STRING,
+ QMI_IDL_OFFSET8(qmiLocAssistanceServerUrlStructT_v02, serverUrl),
+ QMI_LOC_MAX_SERVER_ADDR_LENGTH_V02,
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocTimeServerListStructT_data_v02[] = {
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocTimeServerListStructT_v02, delayThreshold),
+
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN |QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocTimeServerListStructT_v02, timeServerList),
+ QMI_LOC_MAX_NTP_SERVERS_V02,
+ QMI_IDL_OFFSET8(qmiLocTimeServerListStructT_v02, timeServerList) - QMI_IDL_OFFSET8(qmiLocTimeServerListStructT_v02, timeServerList_len),
+ QMI_IDL_TYPE88(0, 17),
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocPredictedOrbitsAllowedSizesStructT_data_v02[] = {
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocPredictedOrbitsAllowedSizesStructT_v02, maxFileSizeInBytes),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocPredictedOrbitsAllowedSizesStructT_v02, maxPartSize),
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocPredictedOrbitsServerListStructT_data_v02[] = {
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN |QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocPredictedOrbitsServerListStructT_v02, serverList),
+ QMI_LOC_MAX_PREDICTED_ORBITS_SERVERS_V02,
+ QMI_IDL_OFFSET8(qmiLocPredictedOrbitsServerListStructT_v02, serverList) - QMI_IDL_OFFSET8(qmiLocPredictedOrbitsServerListStructT_v02, serverList_len),
+ QMI_IDL_TYPE88(0, 17),
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocSensorControlConfigSamplingSpecStructT_data_v02[] = {
+ QMI_IDL_GENERIC_2_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSensorControlConfigSamplingSpecStructT_v02, samplesPerBatch),
+
+ QMI_IDL_GENERIC_2_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSensorControlConfigSamplingSpecStructT_v02, batchesPerSecond),
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocSensorReadyStatusStructT_data_v02[] = {
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSensorReadyStatusStructT_v02, injectEnable),
+
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocSensorReadyStatusStructT_v02, dataFrequency),
+ QMI_IDL_TYPE88(0, 21),
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocGeofencePositionStructT_data_v02[] = {
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGeofencePositionStructT_v02, timestampUtc),
+
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGeofencePositionStructT_v02, latitude),
+
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGeofencePositionStructT_v02, longitude),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGeofencePositionStructT_v02, horUncEllipseSemiMinor),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGeofencePositionStructT_v02, horUncEllipseSemiMajor),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGeofencePositionStructT_v02, horUncEllipseOrientAzimuth),
+
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGeofencePositionStructT_v02, speedHorizontal_valid),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGeofencePositionStructT_v02, speedHorizontal),
+
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGeofencePositionStructT_v02, altitudeWrtEllipsoid_valid),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGeofencePositionStructT_v02, altitudeWrtEllipsoid),
+
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGeofencePositionStructT_v02, vertUnc_valid),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGeofencePositionStructT_v02, vertUnc),
+
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGeofencePositionStructT_v02, speedVertical_valid),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGeofencePositionStructT_v02, speedVertical),
+
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGeofencePositionStructT_v02, heading_valid),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGeofencePositionStructT_v02, heading),
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocGeofenceIdContinuousStructT_data_v02[] = {
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGeofenceIdContinuousStructT_v02, idLow),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGeofenceIdContinuousStructT_v02, idHigh),
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocPredictedOrbitsDataValidityStructT_data_v02[] = {
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocPredictedOrbitsDataValidityStructT_v02, startTimeInUTC),
+
+ QMI_IDL_GENERIC_2_BYTE,
+ QMI_IDL_OFFSET8(qmiLocPredictedOrbitsDataValidityStructT_v02, durationHours),
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocAltitudeSrcInfoStructT_data_v02[] = {
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocAltitudeSrcInfoStructT_v02, source),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocAltitudeSrcInfoStructT_v02, linkage),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocAltitudeSrcInfoStructT_v02, coverage),
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocDeleteSvInfoStructT_data_v02[] = {
+ QMI_IDL_GENERIC_2_BYTE,
+ QMI_IDL_OFFSET8(qmiLocDeleteSvInfoStructT_v02, gnssSvId),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocDeleteSvInfoStructT_v02, system),
+
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocDeleteSvInfoStructT_v02, deleteSvInfoMask),
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocDeleteBDSSvInfoStructT_data_v02[] = {
+ QMI_IDL_GENERIC_2_BYTE,
+ QMI_IDL_OFFSET8(qmiLocDeleteBDSSvInfoStructT_v02, gnssSvId),
+
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocDeleteBDSSvInfoStructT_v02, deleteSvInfoMask),
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocWifiFixTimeStructT_data_v02[] = {
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocWifiFixTimeStructT_v02, wifiPositionTime),
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocWifiFixPosStructT_data_v02[] = {
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocWifiFixPosStructT_v02, lat),
+
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocWifiFixPosStructT_v02, lon),
+
+ QMI_IDL_GENERIC_2_BYTE,
+ QMI_IDL_OFFSET8(qmiLocWifiFixPosStructT_v02, hepe),
+
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocWifiFixPosStructT_v02, numApsUsed),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocWifiFixPosStructT_v02, fixErrorCode),
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocWifiApInfoStructT_data_v02[] = {
+ QMI_IDL_FLAGS_IS_ARRAY |QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocWifiApInfoStructT_v02, macAddr),
+ QMI_LOC_WIFI_MAC_ADDR_LENGTH_V02,
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocWifiApInfoStructT_v02, rssi),
+
+ QMI_IDL_GENERIC_2_BYTE,
+ QMI_IDL_OFFSET8(qmiLocWifiApInfoStructT_v02, channel),
+
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocWifiApInfoStructT_v02, apQualifier),
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocWifiApSsidStructT_data_v02[] = {
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN |QMI_IDL_STRING,
+ QMI_IDL_OFFSET8(qmiLocWifiApSsidStructT_v02, ssid),
+ QMI_LOC_MAX_WIFI_AP_SSID_STR_LENGTH_V02,
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLoc3AxisSensorSampleStructT_data_v02[] = {
+ QMI_IDL_GENERIC_2_BYTE,
+ QMI_IDL_OFFSET8(qmiLoc3AxisSensorSampleStructT_v02, timeOffset),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLoc3AxisSensorSampleStructT_v02, xAxis),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLoc3AxisSensorSampleStructT_v02, yAxis),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLoc3AxisSensorSampleStructT_v02, zAxis),
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLoc3AxisSensorSampleListStructT_data_v02[] = {
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLoc3AxisSensorSampleListStructT_v02, timeOfFirstSample),
+
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLoc3AxisSensorSampleListStructT_v02, flags),
+
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN |QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLoc3AxisSensorSampleListStructT_v02, sensorData),
+ QMI_LOC_SENSOR_DATA_MAX_SAMPLES_V02,
+ QMI_IDL_OFFSET8(qmiLoc3AxisSensorSampleListStructT_v02, sensorData) - QMI_IDL_OFFSET8(qmiLoc3AxisSensorSampleListStructT_v02, sensorData_len),
+ QMI_IDL_TYPE88(0, 33),
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocSensorTemperatureSampleStructT_data_v02[] = {
+ QMI_IDL_GENERIC_2_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSensorTemperatureSampleStructT_v02, timeOffset),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSensorTemperatureSampleStructT_v02, temperature),
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocSensorTemperatureSampleListStructT_data_v02[] = {
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSensorTemperatureSampleListStructT_v02, timeSource),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSensorTemperatureSampleListStructT_v02, timeOfFirstSample),
+
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN |QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocSensorTemperatureSampleListStructT_v02, temperatureData),
+ QMI_LOC_SENSOR_DATA_MAX_SAMPLES_V02,
+ QMI_IDL_OFFSET8(qmiLocSensorTemperatureSampleListStructT_v02, temperatureData) - QMI_IDL_OFFSET8(qmiLocSensorTemperatureSampleListStructT_v02, temperatureData_len),
+ QMI_IDL_TYPE88(0, 35),
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocApnProfilesStructT_data_v02[] = {
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocApnProfilesStructT_v02, pdnType),
+
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN |QMI_IDL_STRING,
+ QMI_IDL_OFFSET8(qmiLocApnProfilesStructT_v02, apnName),
+ QMI_LOC_MAX_APN_NAME_LENGTH_V02,
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocCircularGeofenceArgsStructT_data_v02[] = {
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocCircularGeofenceArgsStructT_v02, latitude),
+
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocCircularGeofenceArgsStructT_v02, longitude),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocCircularGeofenceArgsStructT_v02, radius),
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocGeofenceMotionStateConfigStructT_data_v02[] = {
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGeofenceMotionStateConfigStructT_v02, motionState),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGeofenceMotionStateConfigStructT_v02, motionStateSpeed),
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocMotionDataStructT_data_v02[] = {
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocMotionDataStructT_v02, motion_state),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocMotionDataStructT_v02, motion_mode),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocMotionDataStructT_v02, probability_of_state),
+
+ QMI_IDL_GENERIC_2_BYTE,
+ QMI_IDL_OFFSET8(qmiLocMotionDataStructT_v02, age),
+
+ QMI_IDL_GENERIC_2_BYTE,
+ QMI_IDL_OFFSET8(qmiLocMotionDataStructT_v02, timeout),
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocGSMCellIdStructT_data_v02[] = {
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGSMCellIdStructT_v02, MCC),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGSMCellIdStructT_v02, MNC),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGSMCellIdStructT_v02, LAC),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGSMCellIdStructT_v02, CID),
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocWCDMACellIdStructT_data_v02[] = {
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocWCDMACellIdStructT_v02, mcc),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocWCDMACellIdStructT_v02, mnc),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocWCDMACellIdStructT_v02, cid),
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocTDSCDMACellIdStructT_data_v02[] = {
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocTDSCDMACellIdStructT_v02, mcc),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocTDSCDMACellIdStructT_v02, mnc),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocTDSCDMACellIdStructT_v02, cid),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocTDSCDMACellIdStructT_v02, lac),
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocBatchedReportStructT_data_v02[] = {
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocBatchedReportStructT_v02, fixId),
+
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocBatchedReportStructT_v02, validFields),
+
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocBatchedReportStructT_v02, latitude),
+
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocBatchedReportStructT_v02, longitude),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocBatchedReportStructT_v02, horUncCircular),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocBatchedReportStructT_v02, speedHorizontal),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocBatchedReportStructT_v02, speedUnc),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocBatchedReportStructT_v02, altitudeWrtEllipsoid),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocBatchedReportStructT_v02, speedVertical),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocBatchedReportStructT_v02, heading),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocBatchedReportStructT_v02, headingUnc),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocBatchedReportStructT_v02, technologyMask),
+
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocBatchedReportStructT_v02, timestampUtc),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocBatchedReportStructT_v02, timeUnc),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocBatchedReportStructT_v02, magneticDeviation),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocBatchedReportStructT_v02, vertUnc),
+
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocBatchedReportStructT_v02, horConfidence),
+
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocBatchedReportStructT_v02, gpsTime),
+ QMI_IDL_TYPE88(0, 1),
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocWifiApDataStructT_data_v02[] = {
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocWifiApDataStructT_v02, wifiApDataMask),
+
+ QMI_IDL_FLAGS_IS_ARRAY |QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocWifiApDataStructT_v02, macAddress),
+ QMI_LOC_WIFI_MAC_ADDR_LENGTH_V02,
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocWifiApDataStructT_v02, apTransmitPower),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocWifiApDataStructT_v02, apAntennaGain),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocWifiApDataStructT_v02, apSignalToNoise),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocWifiApDataStructT_v02, apDeviceType),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocWifiApDataStructT_v02, apRssi),
+
+ QMI_IDL_GENERIC_2_BYTE,
+ QMI_IDL_OFFSET8(qmiLocWifiApDataStructT_v02, apChannel),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocWifiApDataStructT_v02, apRoundTripDelay),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocWifiApDataStructT_v02, apRoundTripDelayUnit),
+
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocWifiApDataStructT_v02, apRoundTripDelayAccuracy),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocWifiApDataStructT_v02, mobileSignalToNoise),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocWifiApDataStructT_v02, mobileRssi),
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocVehicleSensorSampleStructT_data_v02[] = {
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocVehicleSensorSampleStructT_v02, timeOffset),
+
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN |QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocVehicleSensorSampleStructT_v02, axisSample),
+ QMI_LOC_VEHICLE_SENSOR_DATA_MAX_AXES_V02,
+ QMI_IDL_OFFSET8(qmiLocVehicleSensorSampleStructT_v02, axisSample) - QMI_IDL_OFFSET8(qmiLocVehicleSensorSampleStructT_v02, axisSample_len),
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocVehicleSensorSampleListStructType_data_v02[] = {
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocVehicleSensorSampleListStructType_v02, sampleTimeBase),
+
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocVehicleSensorSampleListStructType_v02, axesValidity),
+
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN |QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocVehicleSensorSampleListStructType_v02, sensorData),
+ QMI_LOC_VEHICLE_SENSOR_DATA_MAX_SAMPLES_V02,
+ QMI_IDL_OFFSET8(qmiLocVehicleSensorSampleListStructType_v02, sensorData) - QMI_IDL_OFFSET8(qmiLocVehicleSensorSampleListStructType_v02, sensorData_len),
+ QMI_IDL_TYPE88(0, 46),
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocVehicleOdometrySampleStructT_data_v02[] = {
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocVehicleOdometrySampleStructT_v02, timeOffset),
+
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN |QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocVehicleOdometrySampleStructT_v02, distanceTravelled),
+ QMI_LOC_VEHICLE_ODOMETRY_MAX_MEASUREMENTS_V02,
+ QMI_IDL_OFFSET8(qmiLocVehicleOdometrySampleStructT_v02, distanceTravelled) - QMI_IDL_OFFSET8(qmiLocVehicleOdometrySampleStructT_v02, distanceTravelled_len),
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocVehicleOdometrySampleListStructT_data_v02[] = {
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocVehicleOdometrySampleListStructT_v02, sampleTimeBase),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocVehicleOdometrySampleListStructT_v02, flags),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocVehicleOdometrySampleListStructT_v02, wheelFlags),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocVehicleOdometrySampleListStructT_v02, distanceTravelledBase),
+
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN |QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocVehicleOdometrySampleListStructT_v02, odometryData),
+ QMI_LOC_VEHICLE_SENSOR_DATA_MAX_SAMPLES_V02,
+ QMI_IDL_OFFSET8(qmiLocVehicleOdometrySampleListStructT_v02, odometryData) - QMI_IDL_OFFSET8(qmiLocVehicleOdometrySampleListStructT_v02, odometryData_len),
+ QMI_IDL_TYPE88(0, 48),
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocRcvrClockFrequencyInfoStructT_data_v02[] = {
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocRcvrClockFrequencyInfoStructT_v02, clockDrift),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocRcvrClockFrequencyInfoStructT_v02, clockDriftUnc),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocRcvrClockFrequencyInfoStructT_v02, sourceOfFreq),
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocLeapSecondInfoStructT_data_v02[] = {
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocLeapSecondInfoStructT_v02, leapSec),
+
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocLeapSecondInfoStructT_v02, leapSecUnc),
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocInterSystemBiasStructT_data_v02[] = {
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInterSystemBiasStructT_v02, validMask),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInterSystemBiasStructT_v02, timeBias),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInterSystemBiasStructT_v02, timeBiasUnc),
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocGnssTimeStructT_data_v02[] = {
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGnssTimeStructT_v02, system),
+
+ QMI_IDL_GENERIC_2_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGnssTimeStructT_v02, systemWeek),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGnssTimeStructT_v02, systemMsec),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGnssTimeStructT_v02, systemClkTimeBias),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGnssTimeStructT_v02, systemClkTimeUncMs),
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocGloTimeStructT_data_v02[] = {
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGloTimeStructT_v02, gloFourYear),
+
+ QMI_IDL_GENERIC_2_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGloTimeStructT_v02, gloDays),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGloTimeStructT_v02, gloMsec),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGloTimeStructT_v02, gloClkTimeBias),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGloTimeStructT_v02, gloClkTimeUncMs),
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocGnssTimeExtStructT_data_v02[] = {
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGnssTimeExtStructT_v02, refFCount),
+
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGnssTimeExtStructT_v02, systemRtc_valid),
+
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGnssTimeExtStructT_v02, systemRtcMs),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGnssTimeExtStructT_v02, sourceOfTime),
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocSVTimeSpeedStructT_data_v02[] = {
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSVTimeSpeedStructT_v02, svTimeMs),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSVTimeSpeedStructT_v02, svTimeSubMs),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSVTimeSpeedStructT_v02, svTimeUncMs),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSVTimeSpeedStructT_v02, dopplerShift),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSVTimeSpeedStructT_v02, dopplerShiftUnc),
+
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSVTimeSpeedStructT_v02, dopplerAccel_valid),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSVTimeSpeedStructT_v02, dopplerAccel),
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocSVMeasurementStructT_data_v02[] = {
+ QMI_IDL_GENERIC_2_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSVMeasurementStructT_v02, gnssSvId),
+
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSVMeasurementStructT_v02, gloFrequency),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSVMeasurementStructT_v02, svStatus),
+
+ QMI_IDL_GENERIC_2_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSVMeasurementStructT_v02, validMask),
+
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSVMeasurementStructT_v02, healthStatus),
+
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSVMeasurementStructT_v02, svInfoMask),
+
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSVMeasurementStructT_v02, validMeasStatusMask),
+
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSVMeasurementStructT_v02, measurementStatus),
+
+ QMI_IDL_GENERIC_2_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSVMeasurementStructT_v02, CNo),
+
+ QMI_IDL_GENERIC_2_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSVMeasurementStructT_v02, gloRfLoss),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSVMeasurementStructT_v02, measLatency),
+
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocSVMeasurementStructT_v02, svTimeSpeed),
+ QMI_IDL_TYPE88(0, 56),
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSVMeasurementStructT_v02, lossOfLock),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSVMeasurementStructT_v02, multipathEstimate),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSVMeasurementStructT_v02, fineSpeed),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSVMeasurementStructT_v02, fineSpeedUnc),
+
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSVMeasurementStructT_v02, carrierPhase),
+
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSVMeasurementStructT_v02, cycleSlipCount),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSVMeasurementStructT_v02, svAzimuth),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSVMeasurementStructT_v02, svElevation),
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocWifiApMacAddressStructT_data_v02[] = {
+ QMI_IDL_FLAGS_IS_ARRAY |QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocWifiApMacAddressStructT_v02, wifiApMacAddress),
+ QMI_LOC_WIFI_MAC_ADDR_LENGTH_V02,
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocIBeaconIdStructT_data_v02[] = {
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN |QMI_IDL_STRING,
+ QMI_IDL_OFFSET8(qmiLocIBeaconIdStructT_v02, uuid),
+ QMI_LOC_MAX_IBEACON_UUID_STR_LENGTH_V02,
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocIBeaconIdStructT_v02, majorNumber),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocIBeaconIdStructT_v02, minorNumber),
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+static const uint8_t qmiLocDbtPositionStructT_data_v02[] = {
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocDbtPositionStructT_v02, timestampUtc),
+
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocDbtPositionStructT_v02, latitude),
+
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocDbtPositionStructT_v02, longitude),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocDbtPositionStructT_v02, horUncEllipseSemiMinor),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocDbtPositionStructT_v02, horUncEllipseSemiMajor),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocDbtPositionStructT_v02, horUncEllipseOrientAzimuth),
+
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocDbtPositionStructT_v02, speedHorizontal_valid),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocDbtPositionStructT_v02, speedHorizontal),
+
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocDbtPositionStructT_v02, altitudeWrtEllipsoid_valid),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocDbtPositionStructT_v02, altitudeWrtEllipsoid),
+
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocDbtPositionStructT_v02, vertUnc_valid),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocDbtPositionStructT_v02, vertUnc),
+
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocDbtPositionStructT_v02, speedVertical_valid),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocDbtPositionStructT_v02, speedVertical),
+
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocDbtPositionStructT_v02, heading_valid),
+
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocDbtPositionStructT_v02, heading),
+
+ QMI_IDL_FLAG_END_VALUE
+};
+
+/*Message Definitions*/
+static const uint8_t qmiLocGenRespMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x02,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocGenRespMsgT_v02, resp),
+ QMI_IDL_TYPE88(1, 0)
+};
+
+static const uint8_t qmiLocInformClientRevisionReqMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInformClientRevisionReqMsgT_v02, revision)
+};
+
+static const uint8_t qmiLocRegEventsReqMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocRegEventsReqMsgT_v02, eventRegMask)
+};
+
+static const uint8_t qmiLocStartReqMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocStartReqMsgT_v02, sessionId),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocStartReqMsgT_v02, fixRecurrence) - QMI_IDL_OFFSET8(qmiLocStartReqMsgT_v02, fixRecurrence_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocStartReqMsgT_v02, fixRecurrence),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocStartReqMsgT_v02, horizontalAccuracyLevel) - QMI_IDL_OFFSET8(qmiLocStartReqMsgT_v02, horizontalAccuracyLevel_valid)),
+ 0x11,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocStartReqMsgT_v02, horizontalAccuracyLevel),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocStartReqMsgT_v02, intermediateReportState) - QMI_IDL_OFFSET8(qmiLocStartReqMsgT_v02, intermediateReportState_valid)),
+ 0x12,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocStartReqMsgT_v02, intermediateReportState),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocStartReqMsgT_v02, minInterval) - QMI_IDL_OFFSET8(qmiLocStartReqMsgT_v02, minInterval_valid)),
+ 0x13,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocStartReqMsgT_v02, minInterval),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocStartReqMsgT_v02, applicationId) - QMI_IDL_OFFSET8(qmiLocStartReqMsgT_v02, applicationId_valid)),
+ 0x14,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocStartReqMsgT_v02, applicationId),
+ QMI_IDL_TYPE88(0, 0),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocStartReqMsgT_v02, configAltitudeAssumed) - QMI_IDL_OFFSET8(qmiLocStartReqMsgT_v02, configAltitudeAssumed_valid)),
+ 0x15,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocStartReqMsgT_v02, configAltitudeAssumed),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocStartReqMsgT_v02, minIntermediatePositionReportInterval) - QMI_IDL_OFFSET8(qmiLocStartReqMsgT_v02, minIntermediatePositionReportInterval_valid)),
+ 0x16,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocStartReqMsgT_v02, minIntermediatePositionReportInterval)
+};
+
+static const uint8_t qmiLocStopReqMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocStopReqMsgT_v02, sessionId)
+};
+
+static const uint8_t qmiLocEventPositionReportIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, sessionStatus),
+
+ 0x02,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, sessionId),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, latitude) - QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, latitude_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, latitude),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, longitude) - QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, longitude_valid)),
+ 0x11,
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, longitude),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, horUncCircular) - QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, horUncCircular_valid)),
+ 0x12,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, horUncCircular),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, horUncEllipseSemiMinor) - QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, horUncEllipseSemiMinor_valid)),
+ 0x13,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, horUncEllipseSemiMinor),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, horUncEllipseSemiMajor) - QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, horUncEllipseSemiMajor_valid)),
+ 0x14,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, horUncEllipseSemiMajor),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, horUncEllipseOrientAzimuth) - QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, horUncEllipseOrientAzimuth_valid)),
+ 0x15,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, horUncEllipseOrientAzimuth),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, horConfidence) - QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, horConfidence_valid)),
+ 0x16,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, horConfidence),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, horReliability) - QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, horReliability_valid)),
+ 0x17,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, horReliability),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, speedHorizontal) - QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, speedHorizontal_valid)),
+ 0x18,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, speedHorizontal),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, speedUnc) - QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, speedUnc_valid)),
+ 0x19,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, speedUnc),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, altitudeWrtEllipsoid) - QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, altitudeWrtEllipsoid_valid)),
+ 0x1A,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, altitudeWrtEllipsoid),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, altitudeWrtMeanSeaLevel) - QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, altitudeWrtMeanSeaLevel_valid)),
+ 0x1B,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, altitudeWrtMeanSeaLevel),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, vertUnc) - QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, vertUnc_valid)),
+ 0x1C,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, vertUnc),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, vertConfidence) - QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, vertConfidence_valid)),
+ 0x1D,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, vertConfidence),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, vertReliability) - QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, vertReliability_valid)),
+ 0x1E,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, vertReliability),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, speedVertical) - QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, speedVertical_valid)),
+ 0x1F,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, speedVertical),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, heading) - QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, heading_valid)),
+ 0x20,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, heading),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, headingUnc) - QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, headingUnc_valid)),
+ 0x21,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, headingUnc),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, magneticDeviation) - QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, magneticDeviation_valid)),
+ 0x22,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, magneticDeviation),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, technologyMask) - QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, technologyMask_valid)),
+ 0x23,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, technologyMask),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, DOP) - QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, DOP_valid)),
+ 0x24,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, DOP),
+ QMI_IDL_TYPE88(0, 2),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, timestampUtc) - QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, timestampUtc_valid)),
+ 0x25,
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, timestampUtc),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, leapSeconds) - QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, leapSeconds_valid)),
+ 0x26,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, leapSeconds),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, gpsTime) - QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, gpsTime_valid)),
+ 0x27,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, gpsTime),
+ QMI_IDL_TYPE88(0, 1),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, timeUnc) - QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, timeUnc_valid)),
+ 0x28,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventPositionReportIndMsgT_v02, timeUnc),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocEventPositionReportIndMsgT_v02, timeSrc) - QMI_IDL_OFFSET16RELATIVE(qmiLocEventPositionReportIndMsgT_v02, timeSrc_valid)),
+ 0x29,
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocEventPositionReportIndMsgT_v02, timeSrc),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocEventPositionReportIndMsgT_v02, sensorDataUsage) - QMI_IDL_OFFSET16RELATIVE(qmiLocEventPositionReportIndMsgT_v02, sensorDataUsage_valid)),
+ 0x2A,
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocEventPositionReportIndMsgT_v02, sensorDataUsage),
+ QMI_IDL_TYPE88(0, 3),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocEventPositionReportIndMsgT_v02, fixId) - QMI_IDL_OFFSET16RELATIVE(qmiLocEventPositionReportIndMsgT_v02, fixId_valid)),
+ 0x2B,
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocEventPositionReportIndMsgT_v02, fixId),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocEventPositionReportIndMsgT_v02, gnssSvUsedList) - QMI_IDL_OFFSET16RELATIVE(qmiLocEventPositionReportIndMsgT_v02, gnssSvUsedList_valid)),
+ 0x2C,
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN | QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_GENERIC_2_BYTE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocEventPositionReportIndMsgT_v02, gnssSvUsedList),
+ QMI_LOC_MAX_SV_USED_LIST_LENGTH_V02,
+ QMI_IDL_OFFSET16RELATIVE(qmiLocEventPositionReportIndMsgT_v02, gnssSvUsedList) - QMI_IDL_OFFSET16RELATIVE(qmiLocEventPositionReportIndMsgT_v02, gnssSvUsedList_len),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocEventPositionReportIndMsgT_v02, altitudeAssumed) - QMI_IDL_OFFSET16RELATIVE(qmiLocEventPositionReportIndMsgT_v02, altitudeAssumed_valid)),
+ 0x2D,
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocEventPositionReportIndMsgT_v02, altitudeAssumed)
+};
+
+static const uint8_t qmiLocEventGnssSvInfoIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventGnssSvInfoIndMsgT_v02, altitudeAssumed),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventGnssSvInfoIndMsgT_v02, svList) - QMI_IDL_OFFSET8(qmiLocEventGnssSvInfoIndMsgT_v02, svList_valid)),
+ 0x10,
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN | QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocEventGnssSvInfoIndMsgT_v02, svList),
+ QMI_LOC_SV_INFO_LIST_MAX_SIZE_V02,
+ QMI_IDL_OFFSET8(qmiLocEventGnssSvInfoIndMsgT_v02, svList) - QMI_IDL_OFFSET8(qmiLocEventGnssSvInfoIndMsgT_v02, svList_len),
+ QMI_IDL_TYPE88(0, 4)
+};
+
+static const uint8_t qmiLocEventNmeaIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN | QMI_IDL_STRING,
+ QMI_IDL_OFFSET8(qmiLocEventNmeaIndMsgT_v02, nmea),
+ QMI_LOC_NMEA_STRING_MAX_LENGTH_V02
+};
+
+static const uint8_t qmiLocEventNiNotifyVerifyReqIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventNiNotifyVerifyReqIndMsgT_v02, notificationType),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventNiNotifyVerifyReqIndMsgT_v02, NiVxInd) - QMI_IDL_OFFSET8(qmiLocEventNiNotifyVerifyReqIndMsgT_v02, NiVxInd_valid)),
+ 0x10,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocEventNiNotifyVerifyReqIndMsgT_v02, NiVxInd),
+ QMI_IDL_TYPE88(0, 5),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocEventNiNotifyVerifyReqIndMsgT_v02, NiSuplInd) - QMI_IDL_OFFSET16RELATIVE(qmiLocEventNiNotifyVerifyReqIndMsgT_v02, NiSuplInd_valid)),
+ 0x11,
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocEventNiNotifyVerifyReqIndMsgT_v02, NiSuplInd),
+ QMI_IDL_TYPE88(0, 11),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocEventNiNotifyVerifyReqIndMsgT_v02, NiUmtsCpInd) - QMI_IDL_OFFSET16RELATIVE(qmiLocEventNiNotifyVerifyReqIndMsgT_v02, NiUmtsCpInd_valid)),
+ 0x12,
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocEventNiNotifyVerifyReqIndMsgT_v02, NiUmtsCpInd),
+ QMI_IDL_TYPE88(0, 13),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocEventNiNotifyVerifyReqIndMsgT_v02, NiVxServiceInteractionInd) - QMI_IDL_OFFSET16RELATIVE(qmiLocEventNiNotifyVerifyReqIndMsgT_v02, NiVxServiceInteractionInd_valid)),
+ 0x13,
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocEventNiNotifyVerifyReqIndMsgT_v02, NiVxServiceInteractionInd),
+ QMI_IDL_TYPE88(0, 14),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocEventNiNotifyVerifyReqIndMsgT_v02, NiSuplVer2ExtInd) - QMI_IDL_OFFSET16RELATIVE(qmiLocEventNiNotifyVerifyReqIndMsgT_v02, NiSuplVer2ExtInd_valid)),
+ 0x14,
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocEventNiNotifyVerifyReqIndMsgT_v02, NiSuplVer2ExtInd),
+ QMI_IDL_TYPE88(0, 15),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocEventNiNotifyVerifyReqIndMsgT_v02, suplEmergencyNotification) - QMI_IDL_OFFSET16RELATIVE(qmiLocEventNiNotifyVerifyReqIndMsgT_v02, suplEmergencyNotification_valid)),
+ 0x15,
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocEventNiNotifyVerifyReqIndMsgT_v02, suplEmergencyNotification),
+ QMI_IDL_TYPE88(0, 16)
+};
+
+static const uint8_t qmiLocEventInjectTimeReqIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventInjectTimeReqIndMsgT_v02, timeServerInfo) - QMI_IDL_OFFSET8(qmiLocEventInjectTimeReqIndMsgT_v02, timeServerInfo_valid)),
+ 0x10,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocEventInjectTimeReqIndMsgT_v02, timeServerInfo),
+ QMI_IDL_TYPE88(0, 18)
+};
+
+static const uint8_t qmiLocEventInjectPredictedOrbitsReqIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocEventInjectPredictedOrbitsReqIndMsgT_v02, allowedSizes),
+ QMI_IDL_TYPE88(0, 19),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventInjectPredictedOrbitsReqIndMsgT_v02, serverList) - QMI_IDL_OFFSET8(qmiLocEventInjectPredictedOrbitsReqIndMsgT_v02, serverList_valid)),
+ 0x10,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocEventInjectPredictedOrbitsReqIndMsgT_v02, serverList),
+ QMI_IDL_TYPE88(0, 20)
+};
+
+static const uint8_t qmiLocEventInjectPositionReqIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventInjectPositionReqIndMsgT_v02, latitude),
+
+ 0x02,
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventInjectPositionReqIndMsgT_v02, longitude),
+
+ 0x03,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventInjectPositionReqIndMsgT_v02, horUncCircular),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x04,
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventInjectPositionReqIndMsgT_v02, timestampUtc)
+};
+
+static const uint8_t qmiLocEventEngineStateIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventEngineStateIndMsgT_v02, engineState)
+};
+
+static const uint8_t qmiLocEventFixSessionStateIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventFixSessionStateIndMsgT_v02, sessionState),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventFixSessionStateIndMsgT_v02, sessionId) - QMI_IDL_OFFSET8(qmiLocEventFixSessionStateIndMsgT_v02, sessionId_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventFixSessionStateIndMsgT_v02, sessionId)
+};
+
+static const uint8_t qmiLocEventWifiReqIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventWifiReqIndMsgT_v02, requestType),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventWifiReqIndMsgT_v02, tbfInMs) - QMI_IDL_OFFSET8(qmiLocEventWifiReqIndMsgT_v02, tbfInMs_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_2_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventWifiReqIndMsgT_v02, tbfInMs)
+};
+
+static const uint8_t qmiLocEventSensorStreamingReadyStatusIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventSensorStreamingReadyStatusIndMsgT_v02, accelReady) - QMI_IDL_OFFSET8(qmiLocEventSensorStreamingReadyStatusIndMsgT_v02, accelReady_valid)),
+ 0x10,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocEventSensorStreamingReadyStatusIndMsgT_v02, accelReady),
+ QMI_IDL_TYPE88(0, 22),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventSensorStreamingReadyStatusIndMsgT_v02, gyroReady) - QMI_IDL_OFFSET8(qmiLocEventSensorStreamingReadyStatusIndMsgT_v02, gyroReady_valid)),
+ 0x11,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocEventSensorStreamingReadyStatusIndMsgT_v02, gyroReady),
+ QMI_IDL_TYPE88(0, 22),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventSensorStreamingReadyStatusIndMsgT_v02, accelTemperatureReady) - QMI_IDL_OFFSET8(qmiLocEventSensorStreamingReadyStatusIndMsgT_v02, accelTemperatureReady_valid)),
+ 0x12,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocEventSensorStreamingReadyStatusIndMsgT_v02, accelTemperatureReady),
+ QMI_IDL_TYPE88(0, 22),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventSensorStreamingReadyStatusIndMsgT_v02, gyroTemperatureReady) - QMI_IDL_OFFSET8(qmiLocEventSensorStreamingReadyStatusIndMsgT_v02, gyroTemperatureReady_valid)),
+ 0x13,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocEventSensorStreamingReadyStatusIndMsgT_v02, gyroTemperatureReady),
+ QMI_IDL_TYPE88(0, 22),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventSensorStreamingReadyStatusIndMsgT_v02, calibratedMagReady) - QMI_IDL_OFFSET8(qmiLocEventSensorStreamingReadyStatusIndMsgT_v02, calibratedMagReady_valid)),
+ 0x14,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocEventSensorStreamingReadyStatusIndMsgT_v02, calibratedMagReady),
+ QMI_IDL_TYPE88(0, 22),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventSensorStreamingReadyStatusIndMsgT_v02, uncalibratedMagReady) - QMI_IDL_OFFSET8(qmiLocEventSensorStreamingReadyStatusIndMsgT_v02, uncalibratedMagReady_valid)),
+ 0x15,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocEventSensorStreamingReadyStatusIndMsgT_v02, uncalibratedMagReady),
+ QMI_IDL_TYPE88(0, 22)
+};
+
+static const uint8_t qmiLocEventTimeSyncReqIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventTimeSyncReqIndMsgT_v02, refCounter)
+};
+
+static const uint8_t qmiLocEventSetSpiStreamingReportIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventSetSpiStreamingReportIndMsgT_v02, enable)
+};
+
+static const uint8_t qmiLocEventLocationServerConnectionReqIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventLocationServerConnectionReqIndMsgT_v02, connHandle),
+
+ 0x02,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventLocationServerConnectionReqIndMsgT_v02, requestType),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x03,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventLocationServerConnectionReqIndMsgT_v02, wwanType)
+};
+
+static const uint8_t qmiLocEventNiGeofenceNotificationIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventNiGeofenceNotificationIndMsgT_v02, geofenceId),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x02,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventNiGeofenceNotificationIndMsgT_v02, operationType)
+};
+
+static const uint8_t qmiLocEventGeofenceGenAlertIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventGeofenceGenAlertIndMsgT_v02, geofenceAlert)
+};
+
+static const uint8_t qmiLocEventGeofenceBreachIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventGeofenceBreachIndMsgT_v02, geofenceId),
+
+ 0x02,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventGeofenceBreachIndMsgT_v02, breachType),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventGeofenceBreachIndMsgT_v02, geofencePosition) - QMI_IDL_OFFSET8(qmiLocEventGeofenceBreachIndMsgT_v02, geofencePosition_valid)),
+ 0x10,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocEventGeofenceBreachIndMsgT_v02, geofencePosition),
+ QMI_IDL_TYPE88(0, 23),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventGeofenceBreachIndMsgT_v02, breachConfidence) - QMI_IDL_OFFSET8(qmiLocEventGeofenceBreachIndMsgT_v02, breachConfidence_valid)),
+ 0x11,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventGeofenceBreachIndMsgT_v02, breachConfidence)
+};
+
+static const uint8_t qmiLocEventPedometerControlIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventPedometerControlIndMsgT_v02, requestPedometerData),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventPedometerControlIndMsgT_v02, resetStepCount) - QMI_IDL_OFFSET8(qmiLocEventPedometerControlIndMsgT_v02, resetStepCount_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventPedometerControlIndMsgT_v02, resetStepCount),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventPedometerControlIndMsgT_v02, stepCountThreshold) - QMI_IDL_OFFSET8(qmiLocEventPedometerControlIndMsgT_v02, stepCountThreshold_valid)),
+ 0x11,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventPedometerControlIndMsgT_v02, stepCountThreshold)
+};
+
+static const uint8_t qmiLocEventMotionDataControlIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventMotionDataControlIndMsgT_v02, requestMotionData)
+};
+
+static const uint8_t qmiLocEventGeofenceBatchedBreachIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventGeofenceBatchedBreachIndMsgT_v02, breachType),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventGeofenceBatchedBreachIndMsgT_v02, geofenceIdContinuousList) - QMI_IDL_OFFSET8(qmiLocEventGeofenceBatchedBreachIndMsgT_v02, geofenceIdContinuousList_valid)),
+ 0x10,
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN | QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocEventGeofenceBatchedBreachIndMsgT_v02, geofenceIdContinuousList),
+ QMI_LOC_MAX_GEOFENCE_ID_CONTINUOUS_LIST_LENGTH_V02,
+ QMI_IDL_OFFSET8(qmiLocEventGeofenceBatchedBreachIndMsgT_v02, geofenceIdContinuousList) - QMI_IDL_OFFSET8(qmiLocEventGeofenceBatchedBreachIndMsgT_v02, geofenceIdContinuousList_len),
+ QMI_IDL_TYPE88(0, 24),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocEventGeofenceBatchedBreachIndMsgT_v02, geofenceIdDiscreteList) - QMI_IDL_OFFSET16RELATIVE(qmiLocEventGeofenceBatchedBreachIndMsgT_v02, geofenceIdDiscreteList_valid)),
+ 0x11,
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN | QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocEventGeofenceBatchedBreachIndMsgT_v02, geofenceIdDiscreteList),
+ QMI_LOC_MAX_GEOFENCE_ID_DISCRETE_LIST_LENGTH_V02,
+ QMI_IDL_OFFSET16RELATIVE(qmiLocEventGeofenceBatchedBreachIndMsgT_v02, geofenceIdDiscreteList) - QMI_IDL_OFFSET16RELATIVE(qmiLocEventGeofenceBatchedBreachIndMsgT_v02, geofenceIdDiscreteList_len),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocEventGeofenceBatchedBreachIndMsgT_v02, geofencePosition) - QMI_IDL_OFFSET16RELATIVE(qmiLocEventGeofenceBatchedBreachIndMsgT_v02, geofencePosition_valid)),
+ 0x12,
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocEventGeofenceBatchedBreachIndMsgT_v02, geofencePosition),
+ QMI_IDL_TYPE88(0, 23),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocEventGeofenceBatchedBreachIndMsgT_v02, breachConfidence) - QMI_IDL_OFFSET16RELATIVE(qmiLocEventGeofenceBatchedBreachIndMsgT_v02, breachConfidence_valid)),
+ 0x13,
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocEventGeofenceBatchedBreachIndMsgT_v02, breachConfidence),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocEventGeofenceBatchedBreachIndMsgT_v02, headingUnc) - QMI_IDL_OFFSET16RELATIVE(qmiLocEventGeofenceBatchedBreachIndMsgT_v02, headingUnc_valid)),
+ 0x14,
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocEventGeofenceBatchedBreachIndMsgT_v02, headingUnc),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocEventGeofenceBatchedBreachIndMsgT_v02, vertUnc) - QMI_IDL_OFFSET16RELATIVE(qmiLocEventGeofenceBatchedBreachIndMsgT_v02, vertUnc_valid)),
+ 0x15,
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocEventGeofenceBatchedBreachIndMsgT_v02, vertUnc),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocEventGeofenceBatchedBreachIndMsgT_v02, speedUnc) - QMI_IDL_OFFSET16RELATIVE(qmiLocEventGeofenceBatchedBreachIndMsgT_v02, speedUnc_valid)),
+ 0x16,
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocEventGeofenceBatchedBreachIndMsgT_v02, speedUnc),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocEventGeofenceBatchedBreachIndMsgT_v02, horConfidence) - QMI_IDL_OFFSET16RELATIVE(qmiLocEventGeofenceBatchedBreachIndMsgT_v02, horConfidence_valid)),
+ 0x17,
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocEventGeofenceBatchedBreachIndMsgT_v02, horConfidence),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocEventGeofenceBatchedBreachIndMsgT_v02, vertConfidence) - QMI_IDL_OFFSET16RELATIVE(qmiLocEventGeofenceBatchedBreachIndMsgT_v02, vertConfidence_valid)),
+ 0x18,
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocEventGeofenceBatchedBreachIndMsgT_v02, vertConfidence),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocEventGeofenceBatchedBreachIndMsgT_v02, DOP) - QMI_IDL_OFFSET16RELATIVE(qmiLocEventGeofenceBatchedBreachIndMsgT_v02, DOP_valid)),
+ 0x19,
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocEventGeofenceBatchedBreachIndMsgT_v02, DOP),
+ QMI_IDL_TYPE88(0, 2),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocEventGeofenceBatchedBreachIndMsgT_v02, gnssSvUsedList) - QMI_IDL_OFFSET16RELATIVE(qmiLocEventGeofenceBatchedBreachIndMsgT_v02, gnssSvUsedList_valid)),
+ 0x1A,
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN | QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_GENERIC_2_BYTE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocEventGeofenceBatchedBreachIndMsgT_v02, gnssSvUsedList),
+ QMI_LOC_MAX_SV_USED_LIST_LENGTH_V02,
+ QMI_IDL_OFFSET16RELATIVE(qmiLocEventGeofenceBatchedBreachIndMsgT_v02, gnssSvUsedList) - QMI_IDL_OFFSET16RELATIVE(qmiLocEventGeofenceBatchedBreachIndMsgT_v02, gnssSvUsedList_len)
+};
+
+static const uint8_t qmiLocEventGeofenceProximityIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventGeofenceProximityIndMsgT_v02, proximityType),
+
+ 0x02,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventGeofenceProximityIndMsgT_v02, geofenceId),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventGeofenceProximityIndMsgT_v02, contextId) - QMI_IDL_OFFSET8(qmiLocEventGeofenceProximityIndMsgT_v02, contextId_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventGeofenceProximityIndMsgT_v02, contextId)
+};
+
+static const uint8_t qmiLocEventGdtUploadBeginStatusReqIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventGdtUploadBeginStatusReqIndMsgT_v02, serviceId),
+
+ 0x02,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventGdtUploadBeginStatusReqIndMsgT_v02, sessionId),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x03,
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN | QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventGdtUploadBeginStatusReqIndMsgT_v02, filePath),
+ QMI_LOC_MAX_GDT_PATH_LEN_V02,
+ QMI_IDL_OFFSET8(qmiLocEventGdtUploadBeginStatusReqIndMsgT_v02, filePath) - QMI_IDL_OFFSET8(qmiLocEventGdtUploadBeginStatusReqIndMsgT_v02, filePath_len)
+};
+
+static const uint8_t qmiLocEventGdtUploadEndReqIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventGdtUploadEndReqIndMsgT_v02, serviceId),
+
+ 0x02,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventGdtUploadEndReqIndMsgT_v02, sessionId),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x03,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventGdtUploadEndReqIndMsgT_v02, endStatus)
+};
+
+/*
+ * qmiLocGetServiceRevisionReqMsgT is empty
+ * static const uint8_t qmiLocGetServiceRevisionReqMsgT_data_v02[] = {
+ * };
+ */
+
+static const uint8_t qmiLocGetServiceRevisionIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetServiceRevisionIndMsgT_v02, status),
+
+ 0x02,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetServiceRevisionIndMsgT_v02, revision),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetServiceRevisionIndMsgT_v02, gnssMeFWVerString) - QMI_IDL_OFFSET8(qmiLocGetServiceRevisionIndMsgT_v02, gnssMeFWVerString_valid)),
+ 0x10,
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN | QMI_IDL_STRING,
+ QMI_IDL_OFFSET8(qmiLocGetServiceRevisionIndMsgT_v02, gnssMeFWVerString),
+ QMI_LOC_GNSS_ME_VERSION_STRING_MAX_LENGTH_V02,
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetServiceRevisionIndMsgT_v02, gnssHostSWVerString) - QMI_IDL_OFFSET8(qmiLocGetServiceRevisionIndMsgT_v02, gnssHostSWVerString_valid)),
+ 0x11,
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN | QMI_IDL_STRING,
+ QMI_IDL_OFFSET8(qmiLocGetServiceRevisionIndMsgT_v02, gnssHostSWVerString),
+ QMI_LOC_GNSS_HOSTED_SW_VERSION_STRING_MAX_LENGTH_V02,
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocGetServiceRevisionIndMsgT_v02, gnssSWVerString) - QMI_IDL_OFFSET16RELATIVE(qmiLocGetServiceRevisionIndMsgT_v02, gnssSWVerString_valid)),
+ 0x12,
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN | QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_STRING,
+ QMI_IDL_OFFSET16ARRAY(qmiLocGetServiceRevisionIndMsgT_v02, gnssSWVerString),
+ QMI_LOC_GNSS_SW_VERSION_STRING_MAX_LENGTH_V02
+};
+
+/*
+ * qmiLocGetFixCriteriaReqMsgT is empty
+ * static const uint8_t qmiLocGetFixCriteriaReqMsgT_data_v02[] = {
+ * };
+ */
+
+static const uint8_t qmiLocGetFixCriteriaIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetFixCriteriaIndMsgT_v02, status),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetFixCriteriaIndMsgT_v02, horizontalAccuracyLevel) - QMI_IDL_OFFSET8(qmiLocGetFixCriteriaIndMsgT_v02, horizontalAccuracyLevel_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetFixCriteriaIndMsgT_v02, horizontalAccuracyLevel),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetFixCriteriaIndMsgT_v02, intermediateReportState) - QMI_IDL_OFFSET8(qmiLocGetFixCriteriaIndMsgT_v02, intermediateReportState_valid)),
+ 0x11,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetFixCriteriaIndMsgT_v02, intermediateReportState),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetFixCriteriaIndMsgT_v02, minInterval) - QMI_IDL_OFFSET8(qmiLocGetFixCriteriaIndMsgT_v02, minInterval_valid)),
+ 0x12,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetFixCriteriaIndMsgT_v02, minInterval),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetFixCriteriaIndMsgT_v02, applicationId) - QMI_IDL_OFFSET8(qmiLocGetFixCriteriaIndMsgT_v02, applicationId_valid)),
+ 0x13,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocGetFixCriteriaIndMsgT_v02, applicationId),
+ QMI_IDL_TYPE88(0, 0)
+};
+
+static const uint8_t qmiLocNiUserRespReqMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocNiUserRespReqMsgT_v02, userResp),
+
+ 0x02,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocNiUserRespReqMsgT_v02, notificationType),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocNiUserRespReqMsgT_v02, NiVxPayload) - QMI_IDL_OFFSET8(qmiLocNiUserRespReqMsgT_v02, NiVxPayload_valid)),
+ 0x10,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocNiUserRespReqMsgT_v02, NiVxPayload),
+ QMI_IDL_TYPE88(0, 5),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocNiUserRespReqMsgT_v02, NiSuplPayload) - QMI_IDL_OFFSET16RELATIVE(qmiLocNiUserRespReqMsgT_v02, NiSuplPayload_valid)),
+ 0x11,
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocNiUserRespReqMsgT_v02, NiSuplPayload),
+ QMI_IDL_TYPE88(0, 11),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocNiUserRespReqMsgT_v02, NiUmtsCpPayload) - QMI_IDL_OFFSET16RELATIVE(qmiLocNiUserRespReqMsgT_v02, NiUmtsCpPayload_valid)),
+ 0x12,
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocNiUserRespReqMsgT_v02, NiUmtsCpPayload),
+ QMI_IDL_TYPE88(0, 13),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocNiUserRespReqMsgT_v02, NiVxServiceInteractionPayload) - QMI_IDL_OFFSET16RELATIVE(qmiLocNiUserRespReqMsgT_v02, NiVxServiceInteractionPayload_valid)),
+ 0x13,
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocNiUserRespReqMsgT_v02, NiVxServiceInteractionPayload),
+ QMI_IDL_TYPE88(0, 14),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocNiUserRespReqMsgT_v02, NiSuplVer2ExtPayload) - QMI_IDL_OFFSET16RELATIVE(qmiLocNiUserRespReqMsgT_v02, NiSuplVer2ExtPayload_valid)),
+ 0x14,
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocNiUserRespReqMsgT_v02, NiSuplVer2ExtPayload),
+ QMI_IDL_TYPE88(0, 15),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocNiUserRespReqMsgT_v02, suplEmergencyNotification) - QMI_IDL_OFFSET16RELATIVE(qmiLocNiUserRespReqMsgT_v02, suplEmergencyNotification_valid)),
+ 0x15,
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocNiUserRespReqMsgT_v02, suplEmergencyNotification),
+ QMI_IDL_TYPE88(0, 16)
+};
+
+static const uint8_t qmiLocNiUserRespIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocNiUserRespIndMsgT_v02, status)
+};
+
+static const uint8_t qmiLocInjectPredictedOrbitsDataReqMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectPredictedOrbitsDataReqMsgT_v02, totalSize),
+
+ 0x02,
+ QMI_IDL_GENERIC_2_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectPredictedOrbitsDataReqMsgT_v02, totalParts),
+
+ 0x03,
+ QMI_IDL_GENERIC_2_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectPredictedOrbitsDataReqMsgT_v02, partNum),
+
+ 0x04,
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN | QMI_IDL_FLAGS_SZ_IS_16 | QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectPredictedOrbitsDataReqMsgT_v02, partData),
+ ((QMI_LOC_MAX_PREDICTED_ORBITS_PART_LEN_V02) & 0xFF), ((QMI_LOC_MAX_PREDICTED_ORBITS_PART_LEN_V02) >> 8),
+ QMI_IDL_OFFSET8(qmiLocInjectPredictedOrbitsDataReqMsgT_v02, partData) - QMI_IDL_OFFSET8(qmiLocInjectPredictedOrbitsDataReqMsgT_v02, partData_len),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocInjectPredictedOrbitsDataReqMsgT_v02, formatType) - QMI_IDL_OFFSET16RELATIVE(qmiLocInjectPredictedOrbitsDataReqMsgT_v02, formatType_valid)),
+ 0x10,
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocInjectPredictedOrbitsDataReqMsgT_v02, formatType)
+};
+
+static const uint8_t qmiLocInjectPredictedOrbitsDataIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectPredictedOrbitsDataIndMsgT_v02, status),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocInjectPredictedOrbitsDataIndMsgT_v02, partNum) - QMI_IDL_OFFSET8(qmiLocInjectPredictedOrbitsDataIndMsgT_v02, partNum_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_2_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectPredictedOrbitsDataIndMsgT_v02, partNum)
+};
+
+/*
+ * qmiLocGetPredictedOrbitsDataSourceReqMsgT is empty
+ * static const uint8_t qmiLocGetPredictedOrbitsDataSourceReqMsgT_data_v02[] = {
+ * };
+ */
+
+static const uint8_t qmiLocGetPredictedOrbitsDataSourceIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetPredictedOrbitsDataSourceIndMsgT_v02, status),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetPredictedOrbitsDataSourceIndMsgT_v02, allowedSizes) - QMI_IDL_OFFSET8(qmiLocGetPredictedOrbitsDataSourceIndMsgT_v02, allowedSizes_valid)),
+ 0x10,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocGetPredictedOrbitsDataSourceIndMsgT_v02, allowedSizes),
+ QMI_IDL_TYPE88(0, 19),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetPredictedOrbitsDataSourceIndMsgT_v02, serverList) - QMI_IDL_OFFSET8(qmiLocGetPredictedOrbitsDataSourceIndMsgT_v02, serverList_valid)),
+ 0x11,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocGetPredictedOrbitsDataSourceIndMsgT_v02, serverList),
+ QMI_IDL_TYPE88(0, 20)
+};
+
+/*
+ * qmiLocGetPredictedOrbitsDataValidityReqMsgT is empty
+ * static const uint8_t qmiLocGetPredictedOrbitsDataValidityReqMsgT_data_v02[] = {
+ * };
+ */
+
+static const uint8_t qmiLocGetPredictedOrbitsDataValidityIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetPredictedOrbitsDataValidityIndMsgT_v02, status),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetPredictedOrbitsDataValidityIndMsgT_v02, validityInfo) - QMI_IDL_OFFSET8(qmiLocGetPredictedOrbitsDataValidityIndMsgT_v02, validityInfo_valid)),
+ 0x10,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocGetPredictedOrbitsDataValidityIndMsgT_v02, validityInfo),
+ QMI_IDL_TYPE88(0, 25)
+};
+
+static const uint8_t qmiLocInjectUtcTimeReqMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectUtcTimeReqMsgT_v02, timeUtc),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x02,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectUtcTimeReqMsgT_v02, timeUnc)
+};
+
+static const uint8_t qmiLocInjectUtcTimeIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectUtcTimeIndMsgT_v02, status)
+};
+
+static const uint8_t qmiLocInjectPositionReqMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, latitude) - QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, latitude_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, latitude),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, longitude) - QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, longitude_valid)),
+ 0x11,
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, longitude),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, horUncCircular) - QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, horUncCircular_valid)),
+ 0x12,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, horUncCircular),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, horConfidence) - QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, horConfidence_valid)),
+ 0x13,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, horConfidence),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, horReliability) - QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, horReliability_valid)),
+ 0x14,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, horReliability),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, altitudeWrtEllipsoid) - QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, altitudeWrtEllipsoid_valid)),
+ 0x15,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, altitudeWrtEllipsoid),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, altitudeWrtMeanSeaLevel) - QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, altitudeWrtMeanSeaLevel_valid)),
+ 0x16,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, altitudeWrtMeanSeaLevel),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, vertUnc) - QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, vertUnc_valid)),
+ 0x17,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, vertUnc),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, vertConfidence) - QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, vertConfidence_valid)),
+ 0x18,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, vertConfidence),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, vertReliability) - QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, vertReliability_valid)),
+ 0x19,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, vertReliability),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, altSourceInfo) - QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, altSourceInfo_valid)),
+ 0x1A,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, altSourceInfo),
+ QMI_IDL_TYPE88(0, 26),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, timestampUtc) - QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, timestampUtc_valid)),
+ 0x1B,
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, timestampUtc),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, timestampAge) - QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, timestampAge_valid)),
+ 0x1C,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, timestampAge),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, positionSrc) - QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, positionSrc_valid)),
+ 0x1D,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, positionSrc),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, rawHorUncCircular) - QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, rawHorUncCircular_valid)),
+ 0x1E,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, rawHorUncCircular),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, rawHorConfidence) - QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, rawHorConfidence_valid)),
+ 0x1F,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectPositionReqMsgT_v02, rawHorConfidence)
+};
+
+static const uint8_t qmiLocInjectPositionIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectPositionIndMsgT_v02, status)
+};
+
+static const uint8_t qmiLocSetEngineLockReqMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetEngineLockReqMsgT_v02, lockType)
+};
+
+static const uint8_t qmiLocSetEngineLockIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetEngineLockIndMsgT_v02, status)
+};
+
+/*
+ * qmiLocGetEngineLockReqMsgT is empty
+ * static const uint8_t qmiLocGetEngineLockReqMsgT_data_v02[] = {
+ * };
+ */
+
+static const uint8_t qmiLocGetEngineLockIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetEngineLockIndMsgT_v02, status),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetEngineLockIndMsgT_v02, lockType) - QMI_IDL_OFFSET8(qmiLocGetEngineLockIndMsgT_v02, lockType_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetEngineLockIndMsgT_v02, lockType)
+};
+
+static const uint8_t qmiLocSetSbasConfigReqMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetSbasConfigReqMsgT_v02, sbasConfig)
+};
+
+static const uint8_t qmiLocSetSbasConfigIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetSbasConfigIndMsgT_v02, status)
+};
+
+/*
+ * qmiLocGetSbasConfigReqMsgT is empty
+ * static const uint8_t qmiLocGetSbasConfigReqMsgT_data_v02[] = {
+ * };
+ */
+
+static const uint8_t qmiLocGetSbasConfigIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetSbasConfigIndMsgT_v02, status),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetSbasConfigIndMsgT_v02, sbasConfig) - QMI_IDL_OFFSET8(qmiLocGetSbasConfigIndMsgT_v02, sbasConfig_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetSbasConfigIndMsgT_v02, sbasConfig)
+};
+
+static const uint8_t qmiLocSetNmeaTypesReqMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetNmeaTypesReqMsgT_v02, nmeaSentenceType)
+};
+
+static const uint8_t qmiLocSetNmeaTypesIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetNmeaTypesIndMsgT_v02, status)
+};
+
+/*
+ * qmiLocGetNmeaTypesReqMsgT is empty
+ * static const uint8_t qmiLocGetNmeaTypesReqMsgT_data_v02[] = {
+ * };
+ */
+
+static const uint8_t qmiLocGetNmeaTypesIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetNmeaTypesIndMsgT_v02, status),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetNmeaTypesIndMsgT_v02, nmeaSentenceType) - QMI_IDL_OFFSET8(qmiLocGetNmeaTypesIndMsgT_v02, nmeaSentenceType_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetNmeaTypesIndMsgT_v02, nmeaSentenceType)
+};
+
+static const uint8_t qmiLocSetLowPowerModeReqMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetLowPowerModeReqMsgT_v02, lowPowerMode)
+};
+
+static const uint8_t qmiLocSetLowPowerModeIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetLowPowerModeIndMsgT_v02, status)
+};
+
+/*
+ * qmiLocGetLowPowerModeReqMsgT is empty
+ * static const uint8_t qmiLocGetLowPowerModeReqMsgT_data_v02[] = {
+ * };
+ */
+
+static const uint8_t qmiLocGetLowPowerModeIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetLowPowerModeIndMsgT_v02, status),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetLowPowerModeIndMsgT_v02, lowPowerMode) - QMI_IDL_OFFSET8(qmiLocGetLowPowerModeIndMsgT_v02, lowPowerMode_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetLowPowerModeIndMsgT_v02, lowPowerMode)
+};
+
+static const uint8_t qmiLocSetServerReqMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetServerReqMsgT_v02, serverType),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetServerReqMsgT_v02, ipv4Addr) - QMI_IDL_OFFSET8(qmiLocSetServerReqMsgT_v02, ipv4Addr_valid)),
+ 0x10,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocSetServerReqMsgT_v02, ipv4Addr),
+ QMI_IDL_TYPE88(0, 8),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetServerReqMsgT_v02, ipv6Addr) - QMI_IDL_OFFSET8(qmiLocSetServerReqMsgT_v02, ipv6Addr_valid)),
+ 0x11,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocSetServerReqMsgT_v02, ipv6Addr),
+ QMI_IDL_TYPE88(0, 9),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetServerReqMsgT_v02, urlAddr) - QMI_IDL_OFFSET8(qmiLocSetServerReqMsgT_v02, urlAddr_valid)),
+ 0x12,
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN | QMI_IDL_STRING,
+ QMI_IDL_OFFSET8(qmiLocSetServerReqMsgT_v02, urlAddr),
+ QMI_LOC_MAX_SERVER_ADDR_LENGTH_V02
+};
+
+static const uint8_t qmiLocSetServerIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetServerIndMsgT_v02, status)
+};
+
+static const uint8_t qmiLocGetServerReqMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetServerReqMsgT_v02, serverType),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetServerReqMsgT_v02, serverAddrTypeMask) - QMI_IDL_OFFSET8(qmiLocGetServerReqMsgT_v02, serverAddrTypeMask_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetServerReqMsgT_v02, serverAddrTypeMask)
+};
+
+static const uint8_t qmiLocGetServerIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetServerIndMsgT_v02, status),
+
+ 0x02,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetServerIndMsgT_v02, serverType),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetServerIndMsgT_v02, ipv4Addr) - QMI_IDL_OFFSET8(qmiLocGetServerIndMsgT_v02, ipv4Addr_valid)),
+ 0x10,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocGetServerIndMsgT_v02, ipv4Addr),
+ QMI_IDL_TYPE88(0, 8),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetServerIndMsgT_v02, ipv6Addr) - QMI_IDL_OFFSET8(qmiLocGetServerIndMsgT_v02, ipv6Addr_valid)),
+ 0x11,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocGetServerIndMsgT_v02, ipv6Addr),
+ QMI_IDL_TYPE88(0, 9),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetServerIndMsgT_v02, urlAddr) - QMI_IDL_OFFSET8(qmiLocGetServerIndMsgT_v02, urlAddr_valid)),
+ 0x12,
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN | QMI_IDL_STRING,
+ QMI_IDL_OFFSET8(qmiLocGetServerIndMsgT_v02, urlAddr),
+ QMI_LOC_MAX_SERVER_ADDR_LENGTH_V02
+};
+
+static const uint8_t qmiLocDeleteAssistDataReqMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocDeleteAssistDataReqMsgT_v02, deleteAllFlag),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocDeleteAssistDataReqMsgT_v02, deleteSvInfoList) - QMI_IDL_OFFSET8(qmiLocDeleteAssistDataReqMsgT_v02, deleteSvInfoList_valid)),
+ 0x10,
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN | QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocDeleteAssistDataReqMsgT_v02, deleteSvInfoList),
+ QMI_LOC_DELETE_MAX_SV_INFO_LENGTH_V02,
+ QMI_IDL_OFFSET8(qmiLocDeleteAssistDataReqMsgT_v02, deleteSvInfoList) - QMI_IDL_OFFSET8(qmiLocDeleteAssistDataReqMsgT_v02, deleteSvInfoList_len),
+ QMI_IDL_TYPE88(0, 27),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocDeleteAssistDataReqMsgT_v02, deleteGnssDataMask) - QMI_IDL_OFFSET16RELATIVE(qmiLocDeleteAssistDataReqMsgT_v02, deleteGnssDataMask_valid)),
+ 0x11,
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocDeleteAssistDataReqMsgT_v02, deleteGnssDataMask),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocDeleteAssistDataReqMsgT_v02, deleteCellDbDataMask) - QMI_IDL_OFFSET16RELATIVE(qmiLocDeleteAssistDataReqMsgT_v02, deleteCellDbDataMask_valid)),
+ 0x12,
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocDeleteAssistDataReqMsgT_v02, deleteCellDbDataMask),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocDeleteAssistDataReqMsgT_v02, deleteClockInfoMask) - QMI_IDL_OFFSET16RELATIVE(qmiLocDeleteAssistDataReqMsgT_v02, deleteClockInfoMask_valid)),
+ 0x13,
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocDeleteAssistDataReqMsgT_v02, deleteClockInfoMask),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocDeleteAssistDataReqMsgT_v02, deleteBdsSvInfoList) - QMI_IDL_OFFSET16RELATIVE(qmiLocDeleteAssistDataReqMsgT_v02, deleteBdsSvInfoList_valid)),
+ 0x14,
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN | QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocDeleteAssistDataReqMsgT_v02, deleteBdsSvInfoList),
+ QMI_LOC_DELETE_MAX_BDS_SV_INFO_LENGTH_V02,
+ QMI_IDL_OFFSET16RELATIVE(qmiLocDeleteAssistDataReqMsgT_v02, deleteBdsSvInfoList) - QMI_IDL_OFFSET16RELATIVE(qmiLocDeleteAssistDataReqMsgT_v02, deleteBdsSvInfoList_len),
+ QMI_IDL_TYPE88(0, 28)
+};
+
+static const uint8_t qmiLocDeleteAssistDataIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocDeleteAssistDataIndMsgT_v02, status)
+};
+
+static const uint8_t qmiLocSetXtraTSessionControlReqMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetXtraTSessionControlReqMsgT_v02, xtraTSessionControl)
+};
+
+static const uint8_t qmiLocSetXtraTSessionControlIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetXtraTSessionControlIndMsgT_v02, status)
+};
+
+/*
+ * qmiLocGetXtraTSessionControlReqMsgT is empty
+ * static const uint8_t qmiLocGetXtraTSessionControlReqMsgT_data_v02[] = {
+ * };
+ */
+
+static const uint8_t qmiLocGetXtraTSessionControlIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetXtraTSessionControlIndMsgT_v02, status),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetXtraTSessionControlIndMsgT_v02, xtraTSessionControl) - QMI_IDL_OFFSET8(qmiLocGetXtraTSessionControlIndMsgT_v02, xtraTSessionControl_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetXtraTSessionControlIndMsgT_v02, xtraTSessionControl)
+};
+
+static const uint8_t qmiLocInjectWifiPositionReqMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocInjectWifiPositionReqMsgT_v02, wifiFixTime) - QMI_IDL_OFFSET8(qmiLocInjectWifiPositionReqMsgT_v02, wifiFixTime_valid)),
+ 0x10,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocInjectWifiPositionReqMsgT_v02, wifiFixTime),
+ QMI_IDL_TYPE88(0, 29),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocInjectWifiPositionReqMsgT_v02, wifiFixPosition) - QMI_IDL_OFFSET8(qmiLocInjectWifiPositionReqMsgT_v02, wifiFixPosition_valid)),
+ 0x11,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocInjectWifiPositionReqMsgT_v02, wifiFixPosition),
+ QMI_IDL_TYPE88(0, 30),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocInjectWifiPositionReqMsgT_v02, apInfo) - QMI_IDL_OFFSET8(qmiLocInjectWifiPositionReqMsgT_v02, apInfo_valid)),
+ 0x12,
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN | QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocInjectWifiPositionReqMsgT_v02, apInfo),
+ QMI_LOC_WIFI_MAX_REPORTED_APS_PER_MSG_V02,
+ QMI_IDL_OFFSET8(qmiLocInjectWifiPositionReqMsgT_v02, apInfo) - QMI_IDL_OFFSET8(qmiLocInjectWifiPositionReqMsgT_v02, apInfo_len),
+ QMI_IDL_TYPE88(0, 31),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocInjectWifiPositionReqMsgT_v02, horizontalReliability) - QMI_IDL_OFFSET16RELATIVE(qmiLocInjectWifiPositionReqMsgT_v02, horizontalReliability_valid)),
+ 0x13,
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocInjectWifiPositionReqMsgT_v02, horizontalReliability),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocInjectWifiPositionReqMsgT_v02, rawHepe) - QMI_IDL_OFFSET16RELATIVE(qmiLocInjectWifiPositionReqMsgT_v02, rawHepe_valid)),
+ 0x14,
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_GENERIC_2_BYTE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocInjectWifiPositionReqMsgT_v02, rawHepe),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocInjectWifiPositionReqMsgT_v02, wifiApSsidInfo) - QMI_IDL_OFFSET16RELATIVE(qmiLocInjectWifiPositionReqMsgT_v02, wifiApSsidInfo_valid)),
+ 0x15,
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN | QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocInjectWifiPositionReqMsgT_v02, wifiApSsidInfo),
+ QMI_LOC_WIFI_MAX_REPORTED_APS_PER_MSG_V02,
+ QMI_IDL_OFFSET16RELATIVE(qmiLocInjectWifiPositionReqMsgT_v02, wifiApSsidInfo) - QMI_IDL_OFFSET16RELATIVE(qmiLocInjectWifiPositionReqMsgT_v02, wifiApSsidInfo_len),
+ QMI_IDL_TYPE88(0, 32)
+};
+
+static const uint8_t qmiLocInjectWifiPositionIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectWifiPositionIndMsgT_v02, status)
+};
+
+static const uint8_t qmiLocNotifyWifiStatusReqMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocNotifyWifiStatusReqMsgT_v02, wifiStatus)
+};
+
+static const uint8_t qmiLocNotifyWifiStatusIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocNotifyWifiStatusIndMsgT_v02, status)
+};
+
+/*
+ * qmiLocGetRegisteredEventsReqMsgT is empty
+ * static const uint8_t qmiLocGetRegisteredEventsReqMsgT_data_v02[] = {
+ * };
+ */
+
+static const uint8_t qmiLocGetRegisteredEventsIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetRegisteredEventsIndMsgT_v02, status),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetRegisteredEventsIndMsgT_v02, eventRegMask) - QMI_IDL_OFFSET8(qmiLocGetRegisteredEventsIndMsgT_v02, eventRegMask_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetRegisteredEventsIndMsgT_v02, eventRegMask)
+};
+
+static const uint8_t qmiLocSetOperationModeReqMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetOperationModeReqMsgT_v02, operationMode)
+};
+
+static const uint8_t qmiLocSetOperationModeIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetOperationModeIndMsgT_v02, status)
+};
+
+/*
+ * qmiLocGetOperationModeReqMsgT is empty
+ * static const uint8_t qmiLocGetOperationModeReqMsgT_data_v02[] = {
+ * };
+ */
+
+static const uint8_t qmiLocGetOperationModeIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetOperationModeIndMsgT_v02, status),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetOperationModeIndMsgT_v02, operationMode) - QMI_IDL_OFFSET8(qmiLocGetOperationModeIndMsgT_v02, operationMode_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetOperationModeIndMsgT_v02, operationMode)
+};
+
+static const uint8_t qmiLocSetSpiStatusReqMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetSpiStatusReqMsgT_v02, stationary),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetSpiStatusReqMsgT_v02, confidenceStationary) - QMI_IDL_OFFSET8(qmiLocSetSpiStatusReqMsgT_v02, confidenceStationary_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetSpiStatusReqMsgT_v02, confidenceStationary)
+};
+
+static const uint8_t qmiLocSetSpiStatusIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetSpiStatusIndMsgT_v02, status)
+};
+
+static const uint8_t qmiLocInjectSensorDataReqMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocInjectSensorDataReqMsgT_v02, opaqueIdentifier) - QMI_IDL_OFFSET8(qmiLocInjectSensorDataReqMsgT_v02, opaqueIdentifier_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectSensorDataReqMsgT_v02, opaqueIdentifier),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocInjectSensorDataReqMsgT_v02, threeAxisAccelData) - QMI_IDL_OFFSET8(qmiLocInjectSensorDataReqMsgT_v02, threeAxisAccelData_valid)),
+ 0x11,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocInjectSensorDataReqMsgT_v02, threeAxisAccelData),
+ QMI_IDL_TYPE88(0, 34),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocInjectSensorDataReqMsgT_v02, threeAxisGyroData) - QMI_IDL_OFFSET16RELATIVE(qmiLocInjectSensorDataReqMsgT_v02, threeAxisGyroData_valid)),
+ 0x12,
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocInjectSensorDataReqMsgT_v02, threeAxisGyroData),
+ QMI_IDL_TYPE88(0, 34),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocInjectSensorDataReqMsgT_v02, threeAxisAccelDataTimeSource) - QMI_IDL_OFFSET16RELATIVE(qmiLocInjectSensorDataReqMsgT_v02, threeAxisAccelDataTimeSource_valid)),
+ 0x13,
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocInjectSensorDataReqMsgT_v02, threeAxisAccelDataTimeSource),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocInjectSensorDataReqMsgT_v02, threeAxisGyroDataTimeSource) - QMI_IDL_OFFSET16RELATIVE(qmiLocInjectSensorDataReqMsgT_v02, threeAxisGyroDataTimeSource_valid)),
+ 0x14,
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocInjectSensorDataReqMsgT_v02, threeAxisGyroDataTimeSource),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocInjectSensorDataReqMsgT_v02, accelTemperatureData) - QMI_IDL_OFFSET16RELATIVE(qmiLocInjectSensorDataReqMsgT_v02, accelTemperatureData_valid)),
+ 0x15,
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocInjectSensorDataReqMsgT_v02, accelTemperatureData),
+ QMI_IDL_TYPE88(0, 36),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocInjectSensorDataReqMsgT_v02, gyroTemperatureData) - QMI_IDL_OFFSET16RELATIVE(qmiLocInjectSensorDataReqMsgT_v02, gyroTemperatureData_valid)),
+ 0x16,
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocInjectSensorDataReqMsgT_v02, gyroTemperatureData),
+ QMI_IDL_TYPE88(0, 36),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocInjectSensorDataReqMsgT_v02, threeAxisMagData) - QMI_IDL_OFFSET16RELATIVE(qmiLocInjectSensorDataReqMsgT_v02, threeAxisMagData_valid)),
+ 0x17,
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocInjectSensorDataReqMsgT_v02, threeAxisMagData),
+ QMI_IDL_TYPE88(0, 34),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocInjectSensorDataReqMsgT_v02, threeAxisMagDataTimeSource) - QMI_IDL_OFFSET16RELATIVE(qmiLocInjectSensorDataReqMsgT_v02, threeAxisMagDataTimeSource_valid)),
+ 0x18,
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocInjectSensorDataReqMsgT_v02, threeAxisMagDataTimeSource)
+};
+
+static const uint8_t qmiLocInjectSensorDataIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectSensorDataIndMsgT_v02, status),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocInjectSensorDataIndMsgT_v02, opaqueIdentifier) - QMI_IDL_OFFSET8(qmiLocInjectSensorDataIndMsgT_v02, opaqueIdentifier_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectSensorDataIndMsgT_v02, opaqueIdentifier),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocInjectSensorDataIndMsgT_v02, threeAxisAccelSamplesAccepted) - QMI_IDL_OFFSET8(qmiLocInjectSensorDataIndMsgT_v02, threeAxisAccelSamplesAccepted_valid)),
+ 0x11,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectSensorDataIndMsgT_v02, threeAxisAccelSamplesAccepted),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocInjectSensorDataIndMsgT_v02, threeAxisGyroSamplesAccepted) - QMI_IDL_OFFSET8(qmiLocInjectSensorDataIndMsgT_v02, threeAxisGyroSamplesAccepted_valid)),
+ 0x12,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectSensorDataIndMsgT_v02, threeAxisGyroSamplesAccepted),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocInjectSensorDataIndMsgT_v02, accelTemperatureSamplesAccepted) - QMI_IDL_OFFSET8(qmiLocInjectSensorDataIndMsgT_v02, accelTemperatureSamplesAccepted_valid)),
+ 0x13,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectSensorDataIndMsgT_v02, accelTemperatureSamplesAccepted),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocInjectSensorDataIndMsgT_v02, gyroTemperatureSamplesAccepted) - QMI_IDL_OFFSET8(qmiLocInjectSensorDataIndMsgT_v02, gyroTemperatureSamplesAccepted_valid)),
+ 0x14,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectSensorDataIndMsgT_v02, gyroTemperatureSamplesAccepted),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocInjectSensorDataIndMsgT_v02, threeAxisMagSamplesAccepted) - QMI_IDL_OFFSET8(qmiLocInjectSensorDataIndMsgT_v02, threeAxisMagSamplesAccepted_valid)),
+ 0x15,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectSensorDataIndMsgT_v02, threeAxisMagSamplesAccepted)
+};
+
+static const uint8_t qmiLocInjectTimeSyncDataReqMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectTimeSyncDataReqMsgT_v02, refCounter),
+
+ 0x02,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectTimeSyncDataReqMsgT_v02, sensorProcRxTime),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x03,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectTimeSyncDataReqMsgT_v02, sensorProcTxTime)
+};
+
+static const uint8_t qmiLocInjectTimeSyncDataIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectTimeSyncDataIndMsgT_v02, status)
+};
+
+/*
+ * qmiLocGetCradleMountConfigReqMsgT is empty
+ * static const uint8_t qmiLocGetCradleMountConfigReqMsgT_data_v02[] = {
+ * };
+ */
+
+static const uint8_t qmiLocGetCradleMountConfigIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetCradleMountConfigIndMsgT_v02, status),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetCradleMountConfigIndMsgT_v02, cradleMountState) - QMI_IDL_OFFSET8(qmiLocGetCradleMountConfigIndMsgT_v02, cradleMountState_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetCradleMountConfigIndMsgT_v02, cradleMountState),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetCradleMountConfigIndMsgT_v02, confidenceCradleMountState) - QMI_IDL_OFFSET8(qmiLocGetCradleMountConfigIndMsgT_v02, confidenceCradleMountState_valid)),
+ 0x11,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetCradleMountConfigIndMsgT_v02, confidenceCradleMountState)
+};
+
+static const uint8_t qmiLocSetCradleMountConfigReqMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetCradleMountConfigReqMsgT_v02, cradleMountState),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetCradleMountConfigReqMsgT_v02, confidenceCradleMountState) - QMI_IDL_OFFSET8(qmiLocSetCradleMountConfigReqMsgT_v02, confidenceCradleMountState_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetCradleMountConfigReqMsgT_v02, confidenceCradleMountState)
+};
+
+static const uint8_t qmiLocSetCradleMountConfigIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetCradleMountConfigIndMsgT_v02, status)
+};
+
+/*
+ * qmiLocGetExternalPowerConfigReqMsgT is empty
+ * static const uint8_t qmiLocGetExternalPowerConfigReqMsgT_data_v02[] = {
+ * };
+ */
+
+static const uint8_t qmiLocGetExternalPowerConfigIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetExternalPowerConfigIndMsgT_v02, status),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetExternalPowerConfigIndMsgT_v02, externalPowerState) - QMI_IDL_OFFSET8(qmiLocGetExternalPowerConfigIndMsgT_v02, externalPowerState_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetExternalPowerConfigIndMsgT_v02, externalPowerState)
+};
+
+static const uint8_t qmiLocSetExternalPowerConfigReqMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetExternalPowerConfigReqMsgT_v02, externalPowerState)
+};
+
+static const uint8_t qmiLocSetExternalPowerConfigIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetExternalPowerConfigIndMsgT_v02, status)
+};
+
+static const uint8_t qmiLocInformLocationServerConnStatusReqMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInformLocationServerConnStatusReqMsgT_v02, connHandle),
+
+ 0x02,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInformLocationServerConnStatusReqMsgT_v02, requestType),
+
+ 0x03,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInformLocationServerConnStatusReqMsgT_v02, statusType),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocInformLocationServerConnStatusReqMsgT_v02, apnProfile) - QMI_IDL_OFFSET8(qmiLocInformLocationServerConnStatusReqMsgT_v02, apnProfile_valid)),
+ 0x10,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocInformLocationServerConnStatusReqMsgT_v02, apnProfile),
+ QMI_IDL_TYPE88(0, 37)
+};
+
+static const uint8_t qmiLocInformLocationServerConnStatusIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInformLocationServerConnStatusIndMsgT_v02, status)
+};
+
+static const uint8_t qmiLocSetProtocolConfigParametersReqMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetProtocolConfigParametersReqMsgT_v02, suplSecurity) - QMI_IDL_OFFSET8(qmiLocSetProtocolConfigParametersReqMsgT_v02, suplSecurity_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetProtocolConfigParametersReqMsgT_v02, suplSecurity),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetProtocolConfigParametersReqMsgT_v02, vxVersion) - QMI_IDL_OFFSET8(qmiLocSetProtocolConfigParametersReqMsgT_v02, vxVersion_valid)),
+ 0x11,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetProtocolConfigParametersReqMsgT_v02, vxVersion),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetProtocolConfigParametersReqMsgT_v02, suplVersion) - QMI_IDL_OFFSET8(qmiLocSetProtocolConfigParametersReqMsgT_v02, suplVersion_valid)),
+ 0x12,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetProtocolConfigParametersReqMsgT_v02, suplVersion),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetProtocolConfigParametersReqMsgT_v02, lppConfig) - QMI_IDL_OFFSET8(qmiLocSetProtocolConfigParametersReqMsgT_v02, lppConfig_valid)),
+ 0x13,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetProtocolConfigParametersReqMsgT_v02, lppConfig),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetProtocolConfigParametersReqMsgT_v02, assistedGlonassProtocolMask) - QMI_IDL_OFFSET8(qmiLocSetProtocolConfigParametersReqMsgT_v02, assistedGlonassProtocolMask_valid)),
+ 0x14,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetProtocolConfigParametersReqMsgT_v02, assistedGlonassProtocolMask),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetProtocolConfigParametersReqMsgT_v02, suplHashAlgo) - QMI_IDL_OFFSET8(qmiLocSetProtocolConfigParametersReqMsgT_v02, suplHashAlgo_valid)),
+ 0x15,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetProtocolConfigParametersReqMsgT_v02, suplHashAlgo),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetProtocolConfigParametersReqMsgT_v02, suplTlsVersion) - QMI_IDL_OFFSET8(qmiLocSetProtocolConfigParametersReqMsgT_v02, suplTlsVersion_valid)),
+ 0x16,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetProtocolConfigParametersReqMsgT_v02, suplTlsVersion),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetProtocolConfigParametersReqMsgT_v02, emergencyProtocol) - QMI_IDL_OFFSET8(qmiLocSetProtocolConfigParametersReqMsgT_v02, emergencyProtocol_valid)),
+ 0x17,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetProtocolConfigParametersReqMsgT_v02, emergencyProtocol),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetProtocolConfigParametersReqMsgT_v02, wifiScanInjectTimeout) - QMI_IDL_OFFSET8(qmiLocSetProtocolConfigParametersReqMsgT_v02, wifiScanInjectTimeout_valid)),
+ 0x18,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetProtocolConfigParametersReqMsgT_v02, wifiScanInjectTimeout)
+};
+
+static const uint8_t qmiLocSetProtocolConfigParametersIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetProtocolConfigParametersIndMsgT_v02, status),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetProtocolConfigParametersIndMsgT_v02, failedProtocolConfigParamMask) - QMI_IDL_OFFSET8(qmiLocSetProtocolConfigParametersIndMsgT_v02, failedProtocolConfigParamMask_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetProtocolConfigParametersIndMsgT_v02, failedProtocolConfigParamMask)
+};
+
+static const uint8_t qmiLocGetProtocolConfigParametersReqMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetProtocolConfigParametersReqMsgT_v02, getProtocolConfigParamMask)
+};
+
+static const uint8_t qmiLocGetProtocolConfigParametersIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetProtocolConfigParametersIndMsgT_v02, status),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetProtocolConfigParametersIndMsgT_v02, suplSecurity) - QMI_IDL_OFFSET8(qmiLocGetProtocolConfigParametersIndMsgT_v02, suplSecurity_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetProtocolConfigParametersIndMsgT_v02, suplSecurity),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetProtocolConfigParametersIndMsgT_v02, vxVersion) - QMI_IDL_OFFSET8(qmiLocGetProtocolConfigParametersIndMsgT_v02, vxVersion_valid)),
+ 0x11,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetProtocolConfigParametersIndMsgT_v02, vxVersion),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetProtocolConfigParametersIndMsgT_v02, suplVersion) - QMI_IDL_OFFSET8(qmiLocGetProtocolConfigParametersIndMsgT_v02, suplVersion_valid)),
+ 0x12,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetProtocolConfigParametersIndMsgT_v02, suplVersion),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetProtocolConfigParametersIndMsgT_v02, lppConfig) - QMI_IDL_OFFSET8(qmiLocGetProtocolConfigParametersIndMsgT_v02, lppConfig_valid)),
+ 0x13,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetProtocolConfigParametersIndMsgT_v02, lppConfig),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetProtocolConfigParametersIndMsgT_v02, assistedGlonassProtocolMask) - QMI_IDL_OFFSET8(qmiLocGetProtocolConfigParametersIndMsgT_v02, assistedGlonassProtocolMask_valid)),
+ 0x14,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetProtocolConfigParametersIndMsgT_v02, assistedGlonassProtocolMask),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetProtocolConfigParametersIndMsgT_v02, suplHashAlgo) - QMI_IDL_OFFSET8(qmiLocGetProtocolConfigParametersIndMsgT_v02, suplHashAlgo_valid)),
+ 0x15,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetProtocolConfigParametersIndMsgT_v02, suplHashAlgo),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetProtocolConfigParametersIndMsgT_v02, suplTlsVersion) - QMI_IDL_OFFSET8(qmiLocGetProtocolConfigParametersIndMsgT_v02, suplTlsVersion_valid)),
+ 0x16,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetProtocolConfigParametersIndMsgT_v02, suplTlsVersion),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetProtocolConfigParametersIndMsgT_v02, emergencyProtocol) - QMI_IDL_OFFSET8(qmiLocGetProtocolConfigParametersIndMsgT_v02, emergencyProtocol_valid)),
+ 0x17,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetProtocolConfigParametersIndMsgT_v02, emergencyProtocol),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetProtocolConfigParametersIndMsgT_v02, wifiScanInjectTimeout) - QMI_IDL_OFFSET8(qmiLocGetProtocolConfigParametersIndMsgT_v02, wifiScanInjectTimeout_valid)),
+ 0x18,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetProtocolConfigParametersIndMsgT_v02, wifiScanInjectTimeout)
+};
+
+static const uint8_t qmiLocSetSensorControlConfigReqMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetSensorControlConfigReqMsgT_v02, sensorsUsage) - QMI_IDL_OFFSET8(qmiLocSetSensorControlConfigReqMsgT_v02, sensorsUsage_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetSensorControlConfigReqMsgT_v02, sensorsUsage),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetSensorControlConfigReqMsgT_v02, sensorProvider) - QMI_IDL_OFFSET8(qmiLocSetSensorControlConfigReqMsgT_v02, sensorProvider_valid)),
+ 0x11,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetSensorControlConfigReqMsgT_v02, sensorProvider)
+};
+
+static const uint8_t qmiLocSetSensorControlConfigIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetSensorControlConfigIndMsgT_v02, status)
+};
+
+/*
+ * qmiLocGetSensorControlConfigReqMsgT is empty
+ * static const uint8_t qmiLocGetSensorControlConfigReqMsgT_data_v02[] = {
+ * };
+ */
+
+static const uint8_t qmiLocGetSensorControlConfigIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetSensorControlConfigIndMsgT_v02, status),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetSensorControlConfigIndMsgT_v02, sensorsUsage) - QMI_IDL_OFFSET8(qmiLocGetSensorControlConfigIndMsgT_v02, sensorsUsage_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetSensorControlConfigIndMsgT_v02, sensorsUsage),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetSensorControlConfigIndMsgT_v02, sensorProvider) - QMI_IDL_OFFSET8(qmiLocGetSensorControlConfigIndMsgT_v02, sensorProvider_valid)),
+ 0x11,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetSensorControlConfigIndMsgT_v02, sensorProvider)
+};
+
+static const uint8_t qmiLocSetSensorPropertiesReqMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetSensorPropertiesReqMsgT_v02, gyroBiasVarianceRandomWalk) - QMI_IDL_OFFSET8(qmiLocSetSensorPropertiesReqMsgT_v02, gyroBiasVarianceRandomWalk_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetSensorPropertiesReqMsgT_v02, gyroBiasVarianceRandomWalk),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetSensorPropertiesReqMsgT_v02, velocityRandomWalkSpectralDensity) - QMI_IDL_OFFSET8(qmiLocSetSensorPropertiesReqMsgT_v02, velocityRandomWalkSpectralDensity_valid)),
+ 0x11,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetSensorPropertiesReqMsgT_v02, velocityRandomWalkSpectralDensity),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetSensorPropertiesReqMsgT_v02, accelerationRandomWalkSpectralDensity) - QMI_IDL_OFFSET8(qmiLocSetSensorPropertiesReqMsgT_v02, accelerationRandomWalkSpectralDensity_valid)),
+ 0x12,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetSensorPropertiesReqMsgT_v02, accelerationRandomWalkSpectralDensity),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetSensorPropertiesReqMsgT_v02, angleRandomWalkSpectralDensity) - QMI_IDL_OFFSET8(qmiLocSetSensorPropertiesReqMsgT_v02, angleRandomWalkSpectralDensity_valid)),
+ 0x13,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetSensorPropertiesReqMsgT_v02, angleRandomWalkSpectralDensity),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetSensorPropertiesReqMsgT_v02, rateRandomWalkSpectralDensity) - QMI_IDL_OFFSET8(qmiLocSetSensorPropertiesReqMsgT_v02, rateRandomWalkSpectralDensity_valid)),
+ 0x14,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetSensorPropertiesReqMsgT_v02, rateRandomWalkSpectralDensity),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetSensorPropertiesReqMsgT_v02, vehicleDataUse) - QMI_IDL_OFFSET8(qmiLocSetSensorPropertiesReqMsgT_v02, vehicleDataUse_valid)),
+ 0x15,
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetSensorPropertiesReqMsgT_v02, vehicleDataUse),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetSensorPropertiesReqMsgT_v02, vehicleVelocityRandomWalkSpectralDensity) - QMI_IDL_OFFSET8(qmiLocSetSensorPropertiesReqMsgT_v02, vehicleVelocityRandomWalkSpectralDensity_valid)),
+ 0x16,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetSensorPropertiesReqMsgT_v02, vehicleVelocityRandomWalkSpectralDensity),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetSensorPropertiesReqMsgT_v02, vehicleAccelRandomWalkSpectralDensity) - QMI_IDL_OFFSET8(qmiLocSetSensorPropertiesReqMsgT_v02, vehicleAccelRandomWalkSpectralDensity_valid)),
+ 0x17,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetSensorPropertiesReqMsgT_v02, vehicleAccelRandomWalkSpectralDensity),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetSensorPropertiesReqMsgT_v02, vehicleAngleRandomWalkSpectralDensity) - QMI_IDL_OFFSET8(qmiLocSetSensorPropertiesReqMsgT_v02, vehicleAngleRandomWalkSpectralDensity_valid)),
+ 0x18,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetSensorPropertiesReqMsgT_v02, vehicleAngleRandomWalkSpectralDensity),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetSensorPropertiesReqMsgT_v02, vehicleAngularRateRandomWalkSpectralDensity) - QMI_IDL_OFFSET8(qmiLocSetSensorPropertiesReqMsgT_v02, vehicleAngularRateRandomWalkSpectralDensity_valid)),
+ 0x19,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetSensorPropertiesReqMsgT_v02, vehicleAngularRateRandomWalkSpectralDensity),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetSensorPropertiesReqMsgT_v02, vehicleOdometryScaleFactorRandomWalkSpectralDensity) - QMI_IDL_OFFSET8(qmiLocSetSensorPropertiesReqMsgT_v02, vehicleOdometryScaleFactorRandomWalkSpectralDensity_valid)),
+ 0x1A,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetSensorPropertiesReqMsgT_v02, vehicleOdometryScaleFactorRandomWalkSpectralDensity),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetSensorPropertiesReqMsgT_v02, vehicleOdometryVariance) - QMI_IDL_OFFSET8(qmiLocSetSensorPropertiesReqMsgT_v02, vehicleOdometryVariance_valid)),
+ 0x1B,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetSensorPropertiesReqMsgT_v02, vehicleOdometryVariance)
+};
+
+static const uint8_t qmiLocSetSensorPropertiesIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetSensorPropertiesIndMsgT_v02, status),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetSensorPropertiesIndMsgT_v02, failedSensorPropertiesMask) - QMI_IDL_OFFSET8(qmiLocSetSensorPropertiesIndMsgT_v02, failedSensorPropertiesMask_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetSensorPropertiesIndMsgT_v02, failedSensorPropertiesMask)
+};
+
+static const uint8_t qmiLocGetSensorPropertiesReqMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetSensorPropertiesReqMsgT_v02, getSensorPropertiesMask)
+};
+
+static const uint8_t qmiLocGetSensorPropertiesIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetSensorPropertiesIndMsgT_v02, status),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetSensorPropertiesIndMsgT_v02, gyroBiasVarianceRandomWalk) - QMI_IDL_OFFSET8(qmiLocGetSensorPropertiesIndMsgT_v02, gyroBiasVarianceRandomWalk_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetSensorPropertiesIndMsgT_v02, gyroBiasVarianceRandomWalk),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetSensorPropertiesIndMsgT_v02, velocityRandomWalkSpectralDensity) - QMI_IDL_OFFSET8(qmiLocGetSensorPropertiesIndMsgT_v02, velocityRandomWalkSpectralDensity_valid)),
+ 0x11,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetSensorPropertiesIndMsgT_v02, velocityRandomWalkSpectralDensity),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetSensorPropertiesIndMsgT_v02, accelerationRandomWalkSpectralDensity) - QMI_IDL_OFFSET8(qmiLocGetSensorPropertiesIndMsgT_v02, accelerationRandomWalkSpectralDensity_valid)),
+ 0x12,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetSensorPropertiesIndMsgT_v02, accelerationRandomWalkSpectralDensity),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetSensorPropertiesIndMsgT_v02, angleRandomWalkSpectralDensity) - QMI_IDL_OFFSET8(qmiLocGetSensorPropertiesIndMsgT_v02, angleRandomWalkSpectralDensity_valid)),
+ 0x13,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetSensorPropertiesIndMsgT_v02, angleRandomWalkSpectralDensity),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetSensorPropertiesIndMsgT_v02, rateRandomWalkSpectralDensity) - QMI_IDL_OFFSET8(qmiLocGetSensorPropertiesIndMsgT_v02, rateRandomWalkSpectralDensity_valid)),
+ 0x14,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetSensorPropertiesIndMsgT_v02, rateRandomWalkSpectralDensity),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetSensorPropertiesIndMsgT_v02, vehicleDataUse) - QMI_IDL_OFFSET8(qmiLocGetSensorPropertiesIndMsgT_v02, vehicleDataUse_valid)),
+ 0x15,
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetSensorPropertiesIndMsgT_v02, vehicleDataUse),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetSensorPropertiesIndMsgT_v02, vehicleVelocityRandomWalkSpectralDensity) - QMI_IDL_OFFSET8(qmiLocGetSensorPropertiesIndMsgT_v02, vehicleVelocityRandomWalkSpectralDensity_valid)),
+ 0x16,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetSensorPropertiesIndMsgT_v02, vehicleVelocityRandomWalkSpectralDensity),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetSensorPropertiesIndMsgT_v02, vehicleAccelRandomWalkSpectralDensity) - QMI_IDL_OFFSET8(qmiLocGetSensorPropertiesIndMsgT_v02, vehicleAccelRandomWalkSpectralDensity_valid)),
+ 0x17,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetSensorPropertiesIndMsgT_v02, vehicleAccelRandomWalkSpectralDensity),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetSensorPropertiesIndMsgT_v02, vehicleAngleRandomWalkSpectralDensity) - QMI_IDL_OFFSET8(qmiLocGetSensorPropertiesIndMsgT_v02, vehicleAngleRandomWalkSpectralDensity_valid)),
+ 0x18,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetSensorPropertiesIndMsgT_v02, vehicleAngleRandomWalkSpectralDensity),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetSensorPropertiesIndMsgT_v02, vehicleAngularRateRandomWalkSpectralDensity) - QMI_IDL_OFFSET8(qmiLocGetSensorPropertiesIndMsgT_v02, vehicleAngularRateRandomWalkSpectralDensity_valid)),
+ 0x19,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetSensorPropertiesIndMsgT_v02, vehicleAngularRateRandomWalkSpectralDensity),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetSensorPropertiesIndMsgT_v02, vehicleOdometryScaleFactorRandomWalkSpectralDensity) - QMI_IDL_OFFSET8(qmiLocGetSensorPropertiesIndMsgT_v02, vehicleOdometryScaleFactorRandomWalkSpectralDensity_valid)),
+ 0x1A,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetSensorPropertiesIndMsgT_v02, vehicleOdometryScaleFactorRandomWalkSpectralDensity),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetSensorPropertiesIndMsgT_v02, vehicleOdometryVariance) - QMI_IDL_OFFSET8(qmiLocGetSensorPropertiesIndMsgT_v02, vehicleOdometryVariance_valid)),
+ 0x1B,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetSensorPropertiesIndMsgT_v02, vehicleOdometryVariance)
+};
+
+static const uint8_t qmiLocSetSensorPerformanceControlConfigReqMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetSensorPerformanceControlConfigReqMsgT_v02, performanceControlMode) - QMI_IDL_OFFSET8(qmiLocSetSensorPerformanceControlConfigReqMsgT_v02, performanceControlMode_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetSensorPerformanceControlConfigReqMsgT_v02, performanceControlMode),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetSensorPerformanceControlConfigReqMsgT_v02, accelSamplingSpec) - QMI_IDL_OFFSET8(qmiLocSetSensorPerformanceControlConfigReqMsgT_v02, accelSamplingSpec_valid)),
+ 0x11,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocSetSensorPerformanceControlConfigReqMsgT_v02, accelSamplingSpec),
+ QMI_IDL_TYPE88(0, 21),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetSensorPerformanceControlConfigReqMsgT_v02, gyroSamplingSpec) - QMI_IDL_OFFSET8(qmiLocSetSensorPerformanceControlConfigReqMsgT_v02, gyroSamplingSpec_valid)),
+ 0x12,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocSetSensorPerformanceControlConfigReqMsgT_v02, gyroSamplingSpec),
+ QMI_IDL_TYPE88(0, 21),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetSensorPerformanceControlConfigReqMsgT_v02, algorithmConfig) - QMI_IDL_OFFSET8(qmiLocSetSensorPerformanceControlConfigReqMsgT_v02, algorithmConfig_valid)),
+ 0x13,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetSensorPerformanceControlConfigReqMsgT_v02, algorithmConfig),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetSensorPerformanceControlConfigReqMsgT_v02, accelSamplingSpecHigh) - QMI_IDL_OFFSET8(qmiLocSetSensorPerformanceControlConfigReqMsgT_v02, accelSamplingSpecHigh_valid)),
+ 0x14,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocSetSensorPerformanceControlConfigReqMsgT_v02, accelSamplingSpecHigh),
+ QMI_IDL_TYPE88(0, 21),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetSensorPerformanceControlConfigReqMsgT_v02, gyroSamplingSpecHigh) - QMI_IDL_OFFSET8(qmiLocSetSensorPerformanceControlConfigReqMsgT_v02, gyroSamplingSpecHigh_valid)),
+ 0x15,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocSetSensorPerformanceControlConfigReqMsgT_v02, gyroSamplingSpecHigh),
+ QMI_IDL_TYPE88(0, 21)
+};
+
+static const uint8_t qmiLocSetSensorPerformanceControlConfigIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetSensorPerformanceControlConfigIndMsgT_v02, status),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetSensorPerformanceControlConfigIndMsgT_v02, failedConfiguration) - QMI_IDL_OFFSET8(qmiLocSetSensorPerformanceControlConfigIndMsgT_v02, failedConfiguration_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetSensorPerformanceControlConfigIndMsgT_v02, failedConfiguration)
+};
+
+/*
+ * qmiLocGetSensorPerformanceControlConfigReqMsgT is empty
+ * static const uint8_t qmiLocGetSensorPerformanceControlConfigReqMsgT_data_v02[] = {
+ * };
+ */
+
+static const uint8_t qmiLocGetSensorPerformanceControlConfigIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetSensorPerformanceControlConfigIndMsgT_v02, status),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetSensorPerformanceControlConfigIndMsgT_v02, performanceControlMode) - QMI_IDL_OFFSET8(qmiLocGetSensorPerformanceControlConfigIndMsgT_v02, performanceControlMode_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetSensorPerformanceControlConfigIndMsgT_v02, performanceControlMode),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetSensorPerformanceControlConfigIndMsgT_v02, accelSamplingSpec) - QMI_IDL_OFFSET8(qmiLocGetSensorPerformanceControlConfigIndMsgT_v02, accelSamplingSpec_valid)),
+ 0x11,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocGetSensorPerformanceControlConfigIndMsgT_v02, accelSamplingSpec),
+ QMI_IDL_TYPE88(0, 21),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetSensorPerformanceControlConfigIndMsgT_v02, gyroSamplingSpec) - QMI_IDL_OFFSET8(qmiLocGetSensorPerformanceControlConfigIndMsgT_v02, gyroSamplingSpec_valid)),
+ 0x12,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocGetSensorPerformanceControlConfigIndMsgT_v02, gyroSamplingSpec),
+ QMI_IDL_TYPE88(0, 21),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetSensorPerformanceControlConfigIndMsgT_v02, algorithmConfig) - QMI_IDL_OFFSET8(qmiLocGetSensorPerformanceControlConfigIndMsgT_v02, algorithmConfig_valid)),
+ 0x13,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetSensorPerformanceControlConfigIndMsgT_v02, algorithmConfig),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetSensorPerformanceControlConfigIndMsgT_v02, accelSamplingSpecHigh) - QMI_IDL_OFFSET8(qmiLocGetSensorPerformanceControlConfigIndMsgT_v02, accelSamplingSpecHigh_valid)),
+ 0x14,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocGetSensorPerformanceControlConfigIndMsgT_v02, accelSamplingSpecHigh),
+ QMI_IDL_TYPE88(0, 21),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetSensorPerformanceControlConfigIndMsgT_v02, gyroSamplingSpecHigh) - QMI_IDL_OFFSET8(qmiLocGetSensorPerformanceControlConfigIndMsgT_v02, gyroSamplingSpecHigh_valid)),
+ 0x15,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocGetSensorPerformanceControlConfigIndMsgT_v02, gyroSamplingSpecHigh),
+ QMI_IDL_TYPE88(0, 21)
+};
+
+static const uint8_t qmiLocInjectSuplCertificateReqMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectSuplCertificateReqMsgT_v02, suplCertId),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x02,
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN | QMI_IDL_FLAGS_SZ_IS_16 | QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectSuplCertificateReqMsgT_v02, suplCertData),
+ ((QMI_LOC_MAX_SUPL_CERT_LENGTH_V02) & 0xFF), ((QMI_LOC_MAX_SUPL_CERT_LENGTH_V02) >> 8),
+ QMI_IDL_OFFSET8(qmiLocInjectSuplCertificateReqMsgT_v02, suplCertData) - QMI_IDL_OFFSET8(qmiLocInjectSuplCertificateReqMsgT_v02, suplCertData_len)
+};
+
+static const uint8_t qmiLocInjectSuplCertificateIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectSuplCertificateIndMsgT_v02, status)
+};
+
+static const uint8_t qmiLocDeleteSuplCertificateReqMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocDeleteSuplCertificateReqMsgT_v02, suplCertId) - QMI_IDL_OFFSET8(qmiLocDeleteSuplCertificateReqMsgT_v02, suplCertId_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocDeleteSuplCertificateReqMsgT_v02, suplCertId)
+};
+
+static const uint8_t qmiLocDeleteSuplCertificateIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocDeleteSuplCertificateIndMsgT_v02, status)
+};
+
+static const uint8_t qmiLocSetPositionEngineConfigParametersReqMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetPositionEngineConfigParametersReqMsgT_v02, injectedPositionControl) - QMI_IDL_OFFSET8(qmiLocSetPositionEngineConfigParametersReqMsgT_v02, injectedPositionControl_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetPositionEngineConfigParametersReqMsgT_v02, injectedPositionControl),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetPositionEngineConfigParametersReqMsgT_v02, filterSvUsage) - QMI_IDL_OFFSET8(qmiLocSetPositionEngineConfigParametersReqMsgT_v02, filterSvUsage_valid)),
+ 0x11,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetPositionEngineConfigParametersReqMsgT_v02, filterSvUsage),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetPositionEngineConfigParametersReqMsgT_v02, storeAssistData) - QMI_IDL_OFFSET8(qmiLocSetPositionEngineConfigParametersReqMsgT_v02, storeAssistData_valid)),
+ 0x12,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetPositionEngineConfigParametersReqMsgT_v02, storeAssistData),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetPositionEngineConfigParametersReqMsgT_v02, enableFasterTTFF) - QMI_IDL_OFFSET8(qmiLocSetPositionEngineConfigParametersReqMsgT_v02, enableFasterTTFF_valid)),
+ 0x13,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetPositionEngineConfigParametersReqMsgT_v02, enableFasterTTFF)
+};
+
+static const uint8_t qmiLocSetPositionEngineConfigParametersIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetPositionEngineConfigParametersIndMsgT_v02, status),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetPositionEngineConfigParametersIndMsgT_v02, failedPositionEngineConfigParamMask) - QMI_IDL_OFFSET8(qmiLocSetPositionEngineConfigParametersIndMsgT_v02, failedPositionEngineConfigParamMask_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetPositionEngineConfigParametersIndMsgT_v02, failedPositionEngineConfigParamMask)
+};
+
+static const uint8_t qmiLocGetPositionEngineConfigParametersReqMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetPositionEngineConfigParametersReqMsgT_v02, getPositionEngineConfigParamMask)
+};
+
+static const uint8_t qmiLocGetPositionEngineConfigParametersIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetPositionEngineConfigParametersIndMsgT_v02, status),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetPositionEngineConfigParametersIndMsgT_v02, injectedPositionControl) - QMI_IDL_OFFSET8(qmiLocGetPositionEngineConfigParametersIndMsgT_v02, injectedPositionControl_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetPositionEngineConfigParametersIndMsgT_v02, injectedPositionControl),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetPositionEngineConfigParametersIndMsgT_v02, filterSvUsage) - QMI_IDL_OFFSET8(qmiLocGetPositionEngineConfigParametersIndMsgT_v02, filterSvUsage_valid)),
+ 0x11,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetPositionEngineConfigParametersIndMsgT_v02, filterSvUsage),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetPositionEngineConfigParametersIndMsgT_v02, storeAssistData) - QMI_IDL_OFFSET8(qmiLocGetPositionEngineConfigParametersIndMsgT_v02, storeAssistData_valid)),
+ 0x12,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetPositionEngineConfigParametersIndMsgT_v02, storeAssistData),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetPositionEngineConfigParametersIndMsgT_v02, enableFasterTTFF) - QMI_IDL_OFFSET8(qmiLocGetPositionEngineConfigParametersIndMsgT_v02, enableFasterTTFF_valid)),
+ 0x13,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetPositionEngineConfigParametersIndMsgT_v02, enableFasterTTFF)
+};
+
+static const uint8_t qmiLocAddCircularGeofenceReqMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocAddCircularGeofenceReqMsgT_v02, transactionId),
+
+ 0x02,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocAddCircularGeofenceReqMsgT_v02, circularGeofenceArgs),
+ QMI_IDL_TYPE88(0, 38),
+
+ 0x03,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocAddCircularGeofenceReqMsgT_v02, breachMask),
+
+ 0x04,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocAddCircularGeofenceReqMsgT_v02, includePosition),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocAddCircularGeofenceReqMsgT_v02, responsiveness) - QMI_IDL_OFFSET8(qmiLocAddCircularGeofenceReqMsgT_v02, responsiveness_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocAddCircularGeofenceReqMsgT_v02, responsiveness),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocAddCircularGeofenceReqMsgT_v02, confidence) - QMI_IDL_OFFSET8(qmiLocAddCircularGeofenceReqMsgT_v02, confidence_valid)),
+ 0x11,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocAddCircularGeofenceReqMsgT_v02, confidence)
+};
+
+static const uint8_t qmiLocAddCircularGeofenceIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocAddCircularGeofenceIndMsgT_v02, status),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocAddCircularGeofenceIndMsgT_v02, transactionId) - QMI_IDL_OFFSET8(qmiLocAddCircularGeofenceIndMsgT_v02, transactionId_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocAddCircularGeofenceIndMsgT_v02, transactionId),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocAddCircularGeofenceIndMsgT_v02, geofenceId) - QMI_IDL_OFFSET8(qmiLocAddCircularGeofenceIndMsgT_v02, geofenceId_valid)),
+ 0x11,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocAddCircularGeofenceIndMsgT_v02, geofenceId)
+};
+
+static const uint8_t qmiLocDeleteGeofenceReqMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocDeleteGeofenceReqMsgT_v02, geofenceId),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x02,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocDeleteGeofenceReqMsgT_v02, transactionId)
+};
+
+static const uint8_t qmiLocDeleteGeofenceIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocDeleteGeofenceIndMsgT_v02, status),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocDeleteGeofenceIndMsgT_v02, geofenceId) - QMI_IDL_OFFSET8(qmiLocDeleteGeofenceIndMsgT_v02, geofenceId_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocDeleteGeofenceIndMsgT_v02, geofenceId),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocDeleteGeofenceIndMsgT_v02, transactionId) - QMI_IDL_OFFSET8(qmiLocDeleteGeofenceIndMsgT_v02, transactionId_valid)),
+ 0x11,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocDeleteGeofenceIndMsgT_v02, transactionId)
+};
+
+static const uint8_t qmiLocQueryGeofenceReqMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocQueryGeofenceReqMsgT_v02, geofenceId),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x02,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocQueryGeofenceReqMsgT_v02, transactionId)
+};
+
+static const uint8_t qmiLocQueryGeofenceIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocQueryGeofenceIndMsgT_v02, status),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocQueryGeofenceIndMsgT_v02, geofenceId) - QMI_IDL_OFFSET8(qmiLocQueryGeofenceIndMsgT_v02, geofenceId_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocQueryGeofenceIndMsgT_v02, geofenceId),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocQueryGeofenceIndMsgT_v02, transactionId) - QMI_IDL_OFFSET8(qmiLocQueryGeofenceIndMsgT_v02, transactionId_valid)),
+ 0x11,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocQueryGeofenceIndMsgT_v02, transactionId),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocQueryGeofenceIndMsgT_v02, geofenceOrigin) - QMI_IDL_OFFSET8(qmiLocQueryGeofenceIndMsgT_v02, geofenceOrigin_valid)),
+ 0x12,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocQueryGeofenceIndMsgT_v02, geofenceOrigin),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocQueryGeofenceIndMsgT_v02, posWrtGeofence) - QMI_IDL_OFFSET8(qmiLocQueryGeofenceIndMsgT_v02, posWrtGeofence_valid)),
+ 0x13,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocQueryGeofenceIndMsgT_v02, posWrtGeofence),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocQueryGeofenceIndMsgT_v02, circularGeofenceArgs) - QMI_IDL_OFFSET8(qmiLocQueryGeofenceIndMsgT_v02, circularGeofenceArgs_valid)),
+ 0x14,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocQueryGeofenceIndMsgT_v02, circularGeofenceArgs),
+ QMI_IDL_TYPE88(0, 38),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocQueryGeofenceIndMsgT_v02, geofenceState) - QMI_IDL_OFFSET8(qmiLocQueryGeofenceIndMsgT_v02, geofenceState_valid)),
+ 0x15,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocQueryGeofenceIndMsgT_v02, geofenceState)
+};
+
+static const uint8_t qmiLocSetGeofenceEngineConfigReqMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetGeofenceEngineConfigReqMsgT_v02, transactionId),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetGeofenceEngineConfigReqMsgT_v02, gnssUnavailableIndicationTimeout) - QMI_IDL_OFFSET8(qmiLocSetGeofenceEngineConfigReqMsgT_v02, gnssUnavailableIndicationTimeout_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetGeofenceEngineConfigReqMsgT_v02, gnssUnavailableIndicationTimeout),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetGeofenceEngineConfigReqMsgT_v02, maxGeofences) - QMI_IDL_OFFSET8(qmiLocSetGeofenceEngineConfigReqMsgT_v02, maxGeofences_valid)),
+ 0x11,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetGeofenceEngineConfigReqMsgT_v02, maxGeofences),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetGeofenceEngineConfigReqMsgT_v02, enableMotionDetectionSources) - QMI_IDL_OFFSET8(qmiLocSetGeofenceEngineConfigReqMsgT_v02, enableMotionDetectionSources_valid)),
+ 0x12,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetGeofenceEngineConfigReqMsgT_v02, enableMotionDetectionSources),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetGeofenceEngineConfigReqMsgT_v02, enableCpiUsage) - QMI_IDL_OFFSET8(qmiLocSetGeofenceEngineConfigReqMsgT_v02, enableCpiUsage_valid)),
+ 0x13,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetGeofenceEngineConfigReqMsgT_v02, enableCpiUsage),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetGeofenceEngineConfigReqMsgT_v02, gnssPositionSessionTimeout) - QMI_IDL_OFFSET8(qmiLocSetGeofenceEngineConfigReqMsgT_v02, gnssPositionSessionTimeout_valid)),
+ 0x14,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetGeofenceEngineConfigReqMsgT_v02, gnssPositionSessionTimeout),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetGeofenceEngineConfigReqMsgT_v02, gnssPositionMaxPuncAcceptable) - QMI_IDL_OFFSET8(qmiLocSetGeofenceEngineConfigReqMsgT_v02, gnssPositionMaxPuncAcceptable_valid)),
+ 0x15,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetGeofenceEngineConfigReqMsgT_v02, gnssPositionMaxPuncAcceptable),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetGeofenceEngineConfigReqMsgT_v02, mediumResponsivenessValue) - QMI_IDL_OFFSET8(qmiLocSetGeofenceEngineConfigReqMsgT_v02, mediumResponsivenessValue_valid)),
+ 0x16,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetGeofenceEngineConfigReqMsgT_v02, mediumResponsivenessValue),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetGeofenceEngineConfigReqMsgT_v02, chalGnssEnvMinCpiWaitInterval) - QMI_IDL_OFFSET8(qmiLocSetGeofenceEngineConfigReqMsgT_v02, chalGnssEnvMinCpiWaitInterval_valid)),
+ 0x17,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetGeofenceEngineConfigReqMsgT_v02, chalGnssEnvMinCpiWaitInterval),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetGeofenceEngineConfigReqMsgT_v02, motionStateInfo) - QMI_IDL_OFFSET8(qmiLocSetGeofenceEngineConfigReqMsgT_v02, motionStateInfo_valid)),
+ 0x18,
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN | QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocSetGeofenceEngineConfigReqMsgT_v02, motionStateInfo),
+ QMI_LOC_GEOFENCE_MAX_MOTION_STATES_V02,
+ QMI_IDL_OFFSET8(qmiLocSetGeofenceEngineConfigReqMsgT_v02, motionStateInfo) - QMI_IDL_OFFSET8(qmiLocSetGeofenceEngineConfigReqMsgT_v02, motionStateInfo_len),
+ QMI_IDL_TYPE88(0, 39)
+};
+
+static const uint8_t qmiLocSetGeofenceEngineConfigIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetGeofenceEngineConfigIndMsgT_v02, status),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetGeofenceEngineConfigIndMsgT_v02, transactionId) - QMI_IDL_OFFSET8(qmiLocSetGeofenceEngineConfigIndMsgT_v02, transactionId_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetGeofenceEngineConfigIndMsgT_v02, transactionId)
+};
+
+static const uint8_t qmiLocGetGeofenceEngineConfigReqMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetGeofenceEngineConfigReqMsgT_v02, transactionId)
+};
+
+static const uint8_t qmiLocGetGeofenceEngineConfigIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetGeofenceEngineConfigIndMsgT_v02, status),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetGeofenceEngineConfigIndMsgT_v02, transactionId) - QMI_IDL_OFFSET8(qmiLocGetGeofenceEngineConfigIndMsgT_v02, transactionId_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetGeofenceEngineConfigIndMsgT_v02, transactionId),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetGeofenceEngineConfigIndMsgT_v02, gnssUnavailableIndicationTimeout) - QMI_IDL_OFFSET8(qmiLocGetGeofenceEngineConfigIndMsgT_v02, gnssUnavailableIndicationTimeout_valid)),
+ 0x11,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetGeofenceEngineConfigIndMsgT_v02, gnssUnavailableIndicationTimeout),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetGeofenceEngineConfigIndMsgT_v02, maxGeofences) - QMI_IDL_OFFSET8(qmiLocGetGeofenceEngineConfigIndMsgT_v02, maxGeofences_valid)),
+ 0x12,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetGeofenceEngineConfigIndMsgT_v02, maxGeofences),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetGeofenceEngineConfigIndMsgT_v02, enabledMotionDetectionSources) - QMI_IDL_OFFSET8(qmiLocGetGeofenceEngineConfigIndMsgT_v02, enabledMotionDetectionSources_valid)),
+ 0x13,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetGeofenceEngineConfigIndMsgT_v02, enabledMotionDetectionSources),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetGeofenceEngineConfigIndMsgT_v02, enabledCpiUsage) - QMI_IDL_OFFSET8(qmiLocGetGeofenceEngineConfigIndMsgT_v02, enabledCpiUsage_valid)),
+ 0x14,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetGeofenceEngineConfigIndMsgT_v02, enabledCpiUsage)
+};
+
+static const uint8_t qmiLocEditGeofenceReqMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEditGeofenceReqMsgT_v02, geofenceId),
+
+ 0x02,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEditGeofenceReqMsgT_v02, transactionId),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEditGeofenceReqMsgT_v02, geofenceState) - QMI_IDL_OFFSET8(qmiLocEditGeofenceReqMsgT_v02, geofenceState_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEditGeofenceReqMsgT_v02, geofenceState),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEditGeofenceReqMsgT_v02, breachMask) - QMI_IDL_OFFSET8(qmiLocEditGeofenceReqMsgT_v02, breachMask_valid)),
+ 0x11,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEditGeofenceReqMsgT_v02, breachMask),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEditGeofenceReqMsgT_v02, responsiveness) - QMI_IDL_OFFSET8(qmiLocEditGeofenceReqMsgT_v02, responsiveness_valid)),
+ 0x12,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEditGeofenceReqMsgT_v02, responsiveness)
+};
+
+static const uint8_t qmiLocEditGeofenceIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEditGeofenceIndMsgT_v02, status),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEditGeofenceIndMsgT_v02, geofenceId) - QMI_IDL_OFFSET8(qmiLocEditGeofenceIndMsgT_v02, geofenceId_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEditGeofenceIndMsgT_v02, geofenceId),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEditGeofenceIndMsgT_v02, transactionId) - QMI_IDL_OFFSET8(qmiLocEditGeofenceIndMsgT_v02, transactionId_valid)),
+ 0x11,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEditGeofenceIndMsgT_v02, transactionId),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEditGeofenceIndMsgT_v02, failedParams) - QMI_IDL_OFFSET8(qmiLocEditGeofenceIndMsgT_v02, failedParams_valid)),
+ 0x12,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEditGeofenceIndMsgT_v02, failedParams)
+};
+
+static const uint8_t qmiLocGetBestAvailablePositionReqMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionReqMsgT_v02, transactionId)
+};
+
+static const uint8_t qmiLocGetBestAvailablePositionIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, status),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, transactionId) - QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, transactionId_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, transactionId),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, latitude) - QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, latitude_valid)),
+ 0x11,
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, latitude),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, longitude) - QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, longitude_valid)),
+ 0x12,
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, longitude),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, horUncCircular) - QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, horUncCircular_valid)),
+ 0x13,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, horUncCircular),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, altitudeWrtEllipsoid) - QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, altitudeWrtEllipsoid_valid)),
+ 0x14,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, altitudeWrtEllipsoid),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, vertUnc) - QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, vertUnc_valid)),
+ 0x15,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, vertUnc),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, timestampUtc) - QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, timestampUtc_valid)),
+ 0x16,
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, timestampUtc),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, timeUnc) - QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, timeUnc_valid)),
+ 0x17,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, timeUnc),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, horUncEllipseSemiMinor) - QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, horUncEllipseSemiMinor_valid)),
+ 0x18,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, horUncEllipseSemiMinor),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, horUncEllipseSemiMajor) - QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, horUncEllipseSemiMajor_valid)),
+ 0x19,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, horUncEllipseSemiMajor),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, horUncEllipseOrientAzimuth) - QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, horUncEllipseOrientAzimuth_valid)),
+ 0x1A,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, horUncEllipseOrientAzimuth),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, horCircularConfidence) - QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, horCircularConfidence_valid)),
+ 0x1B,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, horCircularConfidence),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, horEllipticalConfidence) - QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, horEllipticalConfidence_valid)),
+ 0x1C,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, horEllipticalConfidence),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, horReliability) - QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, horReliability_valid)),
+ 0x1D,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, horReliability),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, horSpeed) - QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, horSpeed_valid)),
+ 0x1E,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, horSpeed),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, horSpeedUnc) - QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, horSpeedUnc_valid)),
+ 0x1F,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, horSpeedUnc),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, altitudeWrtMeanSeaLevel) - QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, altitudeWrtMeanSeaLevel_valid)),
+ 0x20,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, altitudeWrtMeanSeaLevel),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, vertConfidence) - QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, vertConfidence_valid)),
+ 0x21,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, vertConfidence),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, vertReliability) - QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, vertReliability_valid)),
+ 0x22,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, vertReliability),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, vertSpeed) - QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, vertSpeed_valid)),
+ 0x23,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, vertSpeed),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, vertSpeedUnc) - QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, vertSpeedUnc_valid)),
+ 0x24,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, vertSpeedUnc),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, heading) - QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, heading_valid)),
+ 0x25,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, heading),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, headingUnc) - QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, headingUnc_valid)),
+ 0x26,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, headingUnc),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, magneticDeviation) - QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, magneticDeviation_valid)),
+ 0x27,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, magneticDeviation),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, technologyMask) - QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, technologyMask_valid)),
+ 0x28,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, technologyMask),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, DOP) - QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, DOP_valid)),
+ 0x29,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocGetBestAvailablePositionIndMsgT_v02, DOP),
+ QMI_IDL_TYPE88(0, 2),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocGetBestAvailablePositionIndMsgT_v02, gpsTime) - QMI_IDL_OFFSET16RELATIVE(qmiLocGetBestAvailablePositionIndMsgT_v02, gpsTime_valid)),
+ 0x2A,
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocGetBestAvailablePositionIndMsgT_v02, gpsTime),
+ QMI_IDL_TYPE88(0, 1),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocGetBestAvailablePositionIndMsgT_v02, timeSrc) - QMI_IDL_OFFSET16RELATIVE(qmiLocGetBestAvailablePositionIndMsgT_v02, timeSrc_valid)),
+ 0x2B,
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocGetBestAvailablePositionIndMsgT_v02, timeSrc),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocGetBestAvailablePositionIndMsgT_v02, sensorDataUsage) - QMI_IDL_OFFSET16RELATIVE(qmiLocGetBestAvailablePositionIndMsgT_v02, sensorDataUsage_valid)),
+ 0x2C,
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocGetBestAvailablePositionIndMsgT_v02, sensorDataUsage),
+ QMI_IDL_TYPE88(0, 3),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocGetBestAvailablePositionIndMsgT_v02, gnssSvUsedList) - QMI_IDL_OFFSET16RELATIVE(qmiLocGetBestAvailablePositionIndMsgT_v02, gnssSvUsedList_valid)),
+ 0x2D,
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN | QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_GENERIC_2_BYTE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocGetBestAvailablePositionIndMsgT_v02, gnssSvUsedList),
+ QMI_LOC_MAX_SV_USED_LIST_LENGTH_V02,
+ QMI_IDL_OFFSET16RELATIVE(qmiLocGetBestAvailablePositionIndMsgT_v02, gnssSvUsedList) - QMI_IDL_OFFSET16RELATIVE(qmiLocGetBestAvailablePositionIndMsgT_v02, gnssSvUsedList_len)
+};
+
+static const uint8_t qmiLocInjectMotionDataReqMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocInjectMotionDataReqMsgT_v02, motion_data),
+ QMI_IDL_TYPE88(0, 40)
+};
+
+static const uint8_t qmiLocInjectMotionDataIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectMotionDataIndMsgT_v02, status)
+};
+
+static const uint8_t qmiLocGetNiGeofenceIdListReqMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetNiGeofenceIdListReqMsgT_v02, transactionId)
+};
+
+static const uint8_t qmiLocGetNiGeofenceIdListIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetNiGeofenceIdListIndMsgT_v02, status),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetNiGeofenceIdListIndMsgT_v02, transactionId) - QMI_IDL_OFFSET8(qmiLocGetNiGeofenceIdListIndMsgT_v02, transactionId_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetNiGeofenceIdListIndMsgT_v02, transactionId),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetNiGeofenceIdListIndMsgT_v02, niGeofenceIdList) - QMI_IDL_OFFSET8(qmiLocGetNiGeofenceIdListIndMsgT_v02, niGeofenceIdList_valid)),
+ 0x11,
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN | QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetNiGeofenceIdListIndMsgT_v02, niGeofenceIdList),
+ QMI_LOC_MAX_NI_GEOFENCE_ID_LIST_LENGTH_V02,
+ QMI_IDL_OFFSET8(qmiLocGetNiGeofenceIdListIndMsgT_v02, niGeofenceIdList) - QMI_IDL_OFFSET8(qmiLocGetNiGeofenceIdListIndMsgT_v02, niGeofenceIdList_len)
+};
+
+static const uint8_t qmiLocInjectGSMCellInfoReqMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocInjectGSMCellInfoReqMsgT_v02, gsmCellId),
+ QMI_IDL_TYPE88(0, 41),
+
+ 0x02,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectGSMCellInfoReqMsgT_v02, roamingStatus),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocInjectGSMCellInfoReqMsgT_v02, timingAdvance) - QMI_IDL_OFFSET8(qmiLocInjectGSMCellInfoReqMsgT_v02, timingAdvance_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectGSMCellInfoReqMsgT_v02, timingAdvance)
+};
+
+static const uint8_t qmiLocInjectGSMCellInfoIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectGSMCellInfoIndMsgT_v02, status)
+};
+
+static const uint8_t qmiLocInjectWCDMACellInfoReqMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocInjectWCDMACellInfoReqMsgT_v02, wcdmaCellId),
+ QMI_IDL_TYPE88(0, 42),
+
+ 0x02,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectWCDMACellInfoReqMsgT_v02, roamingStatus),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocInjectWCDMACellInfoReqMsgT_v02, freq) - QMI_IDL_OFFSET8(qmiLocInjectWCDMACellInfoReqMsgT_v02, freq_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectWCDMACellInfoReqMsgT_v02, freq),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocInjectWCDMACellInfoReqMsgT_v02, psc) - QMI_IDL_OFFSET8(qmiLocInjectWCDMACellInfoReqMsgT_v02, psc_valid)),
+ 0x11,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectWCDMACellInfoReqMsgT_v02, psc)
+};
+
+static const uint8_t qmiLocInjectWCDMACellInfoIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectWCDMACellInfoIndMsgT_v02, status)
+};
+
+static const uint8_t qmiLocInjectTDSCDMACellInfoReqMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocInjectTDSCDMACellInfoReqMsgT_v02, tdscdmaCellId),
+ QMI_IDL_TYPE88(0, 43),
+
+ 0x02,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectTDSCDMACellInfoReqMsgT_v02, roamingStatus),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocInjectTDSCDMACellInfoReqMsgT_v02, freq) - QMI_IDL_OFFSET8(qmiLocInjectTDSCDMACellInfoReqMsgT_v02, freq_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectTDSCDMACellInfoReqMsgT_v02, freq)
+};
+
+static const uint8_t qmiLocInjectTDSCDMACellInfoIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectTDSCDMACellInfoIndMsgT_v02, status)
+};
+
+static const uint8_t qmiLocInjectSubscriberIDReqMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocInjectSubscriberIDReqMsgT_v02, preferredIMSI) - QMI_IDL_OFFSET8(qmiLocInjectSubscriberIDReqMsgT_v02, preferredIMSI_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectSubscriberIDReqMsgT_v02, preferredIMSI),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocInjectSubscriberIDReqMsgT_v02, preferredMSISDN) - QMI_IDL_OFFSET8(qmiLocInjectSubscriberIDReqMsgT_v02, preferredMSISDN_valid)),
+ 0x11,
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectSubscriberIDReqMsgT_v02, preferredMSISDN)
+};
+
+static const uint8_t qmiLocInjectSubscriberIDIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectSubscriberIDIndMsgT_v02, status)
+};
+
+static const uint8_t qmiLocInjectNetworkInitiatedMessageReqMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectNetworkInitiatedMessageReqMsgT_v02, injectedNIMessageType),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x02,
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN | QMI_IDL_FLAGS_SZ_IS_16 | QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectNetworkInitiatedMessageReqMsgT_v02, injectedNIMessage),
+ ((QMI_LOC_MAX_INJECTED_NETWORK_INITIATED_MESSAGE_LENGTH_V02) & 0xFF), ((QMI_LOC_MAX_INJECTED_NETWORK_INITIATED_MESSAGE_LENGTH_V02) >> 8),
+ QMI_IDL_OFFSET8(qmiLocInjectNetworkInitiatedMessageReqMsgT_v02, injectedNIMessage) - QMI_IDL_OFFSET8(qmiLocInjectNetworkInitiatedMessageReqMsgT_v02, injectedNIMessage_len)
+};
+
+static const uint8_t qmiLocInjectNetworkInitiatedMessageIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectNetworkInitiatedMessageIndMsgT_v02, status)
+};
+
+/*
+ * qmiLocWWANOutOfServiceNotificationReqMsgT is empty
+ * static const uint8_t qmiLocWWANOutOfServiceNotificationReqMsgT_data_v02[] = {
+ * };
+ */
+
+static const uint8_t qmiLocWWANOutOfServiceNotificationIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocWWANOutOfServiceNotificationIndMsgT_v02, status)
+};
+
+static const uint8_t qmiLocPedometerReportReqMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocPedometerReportReqMsgT_v02, timeSource),
+
+ 0x02,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocPedometerReportReqMsgT_v02, timestamp),
+
+ 0x03,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocPedometerReportReqMsgT_v02, timeInterval),
+
+ 0x04,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocPedometerReportReqMsgT_v02, stepCount),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocPedometerReportReqMsgT_v02, stepConfidence) - QMI_IDL_OFFSET8(qmiLocPedometerReportReqMsgT_v02, stepConfidence_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocPedometerReportReqMsgT_v02, stepConfidence),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocPedometerReportReqMsgT_v02, stepCountUncertainty) - QMI_IDL_OFFSET8(qmiLocPedometerReportReqMsgT_v02, stepCountUncertainty_valid)),
+ 0x11,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocPedometerReportReqMsgT_v02, stepCountUncertainty),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocPedometerReportReqMsgT_v02, stepRate) - QMI_IDL_OFFSET8(qmiLocPedometerReportReqMsgT_v02, stepRate_valid)),
+ 0x12,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocPedometerReportReqMsgT_v02, stepRate)
+};
+
+static const uint8_t qmiLocPedometerReportIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocPedometerReportIndMsgT_v02, status)
+};
+
+static const uint8_t qmiLocGetBatchSizeReqMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetBatchSizeReqMsgT_v02, transactionId),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x02,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetBatchSizeReqMsgT_v02, batchSize)
+};
+
+static const uint8_t qmiLocGetBatchSizeIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetBatchSizeIndMsgT_v02, status),
+
+ 0x02,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetBatchSizeIndMsgT_v02, transactionId),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x03,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetBatchSizeIndMsgT_v02, batchSize)
+};
+
+static const uint8_t qmiLocStartBatchingReqMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocStartBatchingReqMsgT_v02, minInterval) - QMI_IDL_OFFSET8(qmiLocStartBatchingReqMsgT_v02, minInterval_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocStartBatchingReqMsgT_v02, minInterval),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocStartBatchingReqMsgT_v02, horizontalAccuracyLevel) - QMI_IDL_OFFSET8(qmiLocStartBatchingReqMsgT_v02, horizontalAccuracyLevel_valid)),
+ 0x11,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocStartBatchingReqMsgT_v02, horizontalAccuracyLevel),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocStartBatchingReqMsgT_v02, fixSessionTimeout) - QMI_IDL_OFFSET8(qmiLocStartBatchingReqMsgT_v02, fixSessionTimeout_valid)),
+ 0x12,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocStartBatchingReqMsgT_v02, fixSessionTimeout)
+};
+
+static const uint8_t qmiLocStartBatchingIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocStartBatchingIndMsgT_v02, status)
+};
+
+static const uint8_t qmiLocEventBatchFullIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventBatchFullIndMsgT_v02, batchCount)
+};
+
+static const uint8_t qmiLocEventLiveBatchedPositionReportIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocEventLiveBatchedPositionReportIndMsgT_v02, liveBatchedReport),
+ QMI_IDL_TYPE88(0, 44)
+};
+
+static const uint8_t qmiLocReadFromBatchReqMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocReadFromBatchReqMsgT_v02, numberOfEntries),
+
+ 0x02,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocReadFromBatchReqMsgT_v02, transactionId),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocReadFromBatchReqMsgT_v02, bufferId) - QMI_IDL_OFFSET8(qmiLocReadFromBatchReqMsgT_v02, bufferId_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_2_BYTE,
+ QMI_IDL_OFFSET8(qmiLocReadFromBatchReqMsgT_v02, bufferId)
+};
+
+static const uint8_t qmiLocReadFromBatchIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocReadFromBatchIndMsgT_v02, status),
+
+ 0x02,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocReadFromBatchIndMsgT_v02, transactionId),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocReadFromBatchIndMsgT_v02, numberOfEntries) - QMI_IDL_OFFSET8(qmiLocReadFromBatchIndMsgT_v02, numberOfEntries_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocReadFromBatchIndMsgT_v02, numberOfEntries),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocReadFromBatchIndMsgT_v02, batchedReportList) - QMI_IDL_OFFSET8(qmiLocReadFromBatchIndMsgT_v02, batchedReportList_valid)),
+ 0x11,
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN | QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocReadFromBatchIndMsgT_v02, batchedReportList),
+ QMI_LOC_READ_FROM_BATCH_MAX_SIZE_V02,
+ QMI_IDL_OFFSET8(qmiLocReadFromBatchIndMsgT_v02, batchedReportList) - QMI_IDL_OFFSET8(qmiLocReadFromBatchIndMsgT_v02, batchedReportList_len),
+ QMI_IDL_TYPE88(0, 44)
+};
+
+static const uint8_t qmiLocStopBatchingReqMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocStopBatchingReqMsgT_v02, transactionId)
+};
+
+static const uint8_t qmiLocStopBatchingIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocStopBatchingIndMsgT_v02, status),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x02,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocStopBatchingIndMsgT_v02, transactionId)
+};
+
+static const uint8_t qmiLocReleaseBatchReqMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocReleaseBatchReqMsgT_v02, transactionId)
+};
+
+static const uint8_t qmiLocReleaseBatchIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocReleaseBatchIndMsgT_v02, status),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x02,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocReleaseBatchIndMsgT_v02, transactionId)
+};
+
+/*
+ * qmiLocEventInjectWifiApDataReqIndMsgT is empty
+ * static const uint8_t qmiLocEventInjectWifiApDataReqIndMsgT_data_v02[] = {
+ * };
+ */
+
+static const uint8_t qmiLocInjectWifiApDataReqMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN | QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocInjectWifiApDataReqMsgT_v02, wifiApInfo),
+ QMI_LOC_WIFI_MAX_REPORTED_APS_PER_MSG_V02,
+ QMI_IDL_OFFSET8(qmiLocInjectWifiApDataReqMsgT_v02, wifiApInfo) - QMI_IDL_OFFSET8(qmiLocInjectWifiApDataReqMsgT_v02, wifiApInfo_len),
+ QMI_IDL_TYPE88(0, 45)
+};
+
+static const uint8_t qmiLocInjectWifiApDataIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectWifiApDataIndMsgT_v02, status)
+};
+
+static const uint8_t qmiLocNotifyWifiAttachmentStatusReqMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocNotifyWifiAttachmentStatusReqMsgT_v02, attachState),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocNotifyWifiAttachmentStatusReqMsgT_v02, accessPointMacAddress) - QMI_IDL_OFFSET8(qmiLocNotifyWifiAttachmentStatusReqMsgT_v02, accessPointMacAddress_valid)),
+ 0x10,
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocNotifyWifiAttachmentStatusReqMsgT_v02, accessPointMacAddress),
+ QMI_LOC_WIFI_MAC_ADDR_LENGTH_V02,
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocNotifyWifiAttachmentStatusReqMsgT_v02, wifiApSsid) - QMI_IDL_OFFSET8(qmiLocNotifyWifiAttachmentStatusReqMsgT_v02, wifiApSsid_valid)),
+ 0x11,
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN | QMI_IDL_STRING,
+ QMI_IDL_OFFSET8(qmiLocNotifyWifiAttachmentStatusReqMsgT_v02, wifiApSsid),
+ QMI_LOC_MAX_WIFI_AP_SSID_STR_LENGTH_V02
+};
+
+static const uint8_t qmiLocNotifyWifiAttachmentStatusIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocNotifyWifiAttachmentStatusIndMsgT_v02, status)
+};
+
+static const uint8_t qmiLocNotifyWifiEnabledStatusReqMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocNotifyWifiEnabledStatusReqMsgT_v02, enabledStatus)
+};
+
+static const uint8_t qmiLocNotifyWifiEnabledStatusIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocNotifyWifiEnabledStatusIndMsgT_v02, status)
+};
+
+static const uint8_t qmiLocEventVehicleDataReadyIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventVehicleDataReadyIndMsgT_v02, vehicleAccelReadyStatus) - QMI_IDL_OFFSET8(qmiLocEventVehicleDataReadyIndMsgT_v02, vehicleAccelReadyStatus_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventVehicleDataReadyIndMsgT_v02, vehicleAccelReadyStatus),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventVehicleDataReadyIndMsgT_v02, vehicleAngularRateReadyStatus) - QMI_IDL_OFFSET8(qmiLocEventVehicleDataReadyIndMsgT_v02, vehicleAngularRateReadyStatus_valid)),
+ 0x11,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventVehicleDataReadyIndMsgT_v02, vehicleAngularRateReadyStatus),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventVehicleDataReadyIndMsgT_v02, vehicleOdometryReadyStatus) - QMI_IDL_OFFSET8(qmiLocEventVehicleDataReadyIndMsgT_v02, vehicleOdometryReadyStatus_valid)),
+ 0x12,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventVehicleDataReadyIndMsgT_v02, vehicleOdometryReadyStatus)
+};
+
+static const uint8_t qmiLocInjectVehicleSensorDataReqMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocInjectVehicleSensorDataReqMsgT_v02, accelData) - QMI_IDL_OFFSET8(qmiLocInjectVehicleSensorDataReqMsgT_v02, accelData_valid)),
+ 0x10,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocInjectVehicleSensorDataReqMsgT_v02, accelData),
+ QMI_IDL_TYPE88(0, 47),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocInjectVehicleSensorDataReqMsgT_v02, angRotationData) - QMI_IDL_OFFSET16RELATIVE(qmiLocInjectVehicleSensorDataReqMsgT_v02, angRotationData_valid)),
+ 0x11,
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocInjectVehicleSensorDataReqMsgT_v02, angRotationData),
+ QMI_IDL_TYPE88(0, 47),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocInjectVehicleSensorDataReqMsgT_v02, odometryData) - QMI_IDL_OFFSET16RELATIVE(qmiLocInjectVehicleSensorDataReqMsgT_v02, odometryData_valid)),
+ 0x12,
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocInjectVehicleSensorDataReqMsgT_v02, odometryData),
+ QMI_IDL_TYPE88(0, 49),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocInjectVehicleSensorDataReqMsgT_v02, changeInTimeScales) - QMI_IDL_OFFSET16RELATIVE(qmiLocInjectVehicleSensorDataReqMsgT_v02, changeInTimeScales_valid)),
+ 0x13,
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocInjectVehicleSensorDataReqMsgT_v02, changeInTimeScales)
+};
+
+static const uint8_t qmiLocInjectVehicleSensorDataIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectVehicleSensorDataIndMsgT_v02, status)
+};
+
+static const uint8_t qmiLocGetAvailWwanPositionReqMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionReqMsgT_v02, transactionId)
+};
+
+static const uint8_t qmiLocGetAvailWwanPositionIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, status),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, transactionId) - QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, transactionId_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, transactionId),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, latitude) - QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, latitude_valid)),
+ 0x11,
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, latitude),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, longitude) - QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, longitude_valid)),
+ 0x12,
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, longitude),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, horUncCircular) - QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, horUncCircular_valid)),
+ 0x13,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, horUncCircular),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, altitudeWrtEllipsoid) - QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, altitudeWrtEllipsoid_valid)),
+ 0x14,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, altitudeWrtEllipsoid),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, vertUnc) - QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, vertUnc_valid)),
+ 0x15,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, vertUnc),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, timestampUtc) - QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, timestampUtc_valid)),
+ 0x16,
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, timestampUtc),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, timeUnc) - QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, timeUnc_valid)),
+ 0x17,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, timeUnc),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, horUncEllipseSemiMinor) - QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, horUncEllipseSemiMinor_valid)),
+ 0x18,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, horUncEllipseSemiMinor),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, horUncEllipseSemiMajor) - QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, horUncEllipseSemiMajor_valid)),
+ 0x19,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, horUncEllipseSemiMajor),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, horUncEllipseOrientAzimuth) - QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, horUncEllipseOrientAzimuth_valid)),
+ 0x1A,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, horUncEllipseOrientAzimuth),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, horCircularConfidence) - QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, horCircularConfidence_valid)),
+ 0x1B,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, horCircularConfidence),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, horEllipticalConfidence) - QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, horEllipticalConfidence_valid)),
+ 0x1C,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, horEllipticalConfidence),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, horReliability) - QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, horReliability_valid)),
+ 0x1D,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, horReliability),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, altitudeWrtMeanSeaLevel) - QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, altitudeWrtMeanSeaLevel_valid)),
+ 0x1E,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, altitudeWrtMeanSeaLevel),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, vertConfidence) - QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, vertConfidence_valid)),
+ 0x1F,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, vertConfidence),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, vertReliability) - QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, vertReliability_valid)),
+ 0x20,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, vertReliability),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, gpsTime) - QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, gpsTime_valid)),
+ 0x21,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, gpsTime),
+ QMI_IDL_TYPE88(0, 1),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, timeSrc) - QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, timeSrc_valid)),
+ 0x22,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGetAvailWwanPositionIndMsgT_v02, timeSrc)
+};
+
+static const uint8_t qmiLocSetPremiumServicesCfgReqMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetPremiumServicesCfgReqMsgT_v02, premiumServiceType),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x02,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetPremiumServicesCfgReqMsgT_v02, premiumServiceCfg)
+};
+
+static const uint8_t qmiLocSetPremiumServicesCfgIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetPremiumServicesCfgIndMsgT_v02, status)
+};
+
+static const uint8_t qmiLocSetXtraVersionCheckReqMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetXtraVersionCheckReqMsgT_v02, xtraVersionCheckMode)
+};
+
+static const uint8_t qmiLocSetXtraVersionCheckIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetXtraVersionCheckIndMsgT_v02, status)
+};
+
+static const uint8_t qmiLocSetGNSSConstRepConfigReqMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetGNSSConstRepConfigReqMsgT_v02, measReportConfig) - QMI_IDL_OFFSET8(qmiLocSetGNSSConstRepConfigReqMsgT_v02, measReportConfig_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetGNSSConstRepConfigReqMsgT_v02, measReportConfig),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetGNSSConstRepConfigReqMsgT_v02, svPolyReportConfig) - QMI_IDL_OFFSET8(qmiLocSetGNSSConstRepConfigReqMsgT_v02, svPolyReportConfig_valid)),
+ 0x11,
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetGNSSConstRepConfigReqMsgT_v02, svPolyReportConfig)
+};
+
+static const uint8_t qmiLocSetGNSSConstRepConfigIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetGNSSConstRepConfigIndMsgT_v02, status)
+};
+
+static const uint8_t qmiLocEventGnssSvMeasInfoIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventGnssSvMeasInfoIndMsgT_v02, seqNum),
+
+ 0x02,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventGnssSvMeasInfoIndMsgT_v02, maxMessageNum),
+
+ 0x03,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventGnssSvMeasInfoIndMsgT_v02, system),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventGnssSvMeasInfoIndMsgT_v02, rcvrClockFrequencyInfo) - QMI_IDL_OFFSET8(qmiLocEventGnssSvMeasInfoIndMsgT_v02, rcvrClockFrequencyInfo_valid)),
+ 0x10,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocEventGnssSvMeasInfoIndMsgT_v02, rcvrClockFrequencyInfo),
+ QMI_IDL_TYPE88(0, 50),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventGnssSvMeasInfoIndMsgT_v02, leapSecondInfo) - QMI_IDL_OFFSET8(qmiLocEventGnssSvMeasInfoIndMsgT_v02, leapSecondInfo_valid)),
+ 0x11,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocEventGnssSvMeasInfoIndMsgT_v02, leapSecondInfo),
+ QMI_IDL_TYPE88(0, 51),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventGnssSvMeasInfoIndMsgT_v02, gpsGloInterSystemBias) - QMI_IDL_OFFSET8(qmiLocEventGnssSvMeasInfoIndMsgT_v02, gpsGloInterSystemBias_valid)),
+ 0x12,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocEventGnssSvMeasInfoIndMsgT_v02, gpsGloInterSystemBias),
+ QMI_IDL_TYPE88(0, 52),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventGnssSvMeasInfoIndMsgT_v02, gpsBdsInterSystemBias) - QMI_IDL_OFFSET8(qmiLocEventGnssSvMeasInfoIndMsgT_v02, gpsBdsInterSystemBias_valid)),
+ 0x13,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocEventGnssSvMeasInfoIndMsgT_v02, gpsBdsInterSystemBias),
+ QMI_IDL_TYPE88(0, 52),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventGnssSvMeasInfoIndMsgT_v02, gpsGalInterSystemBias) - QMI_IDL_OFFSET8(qmiLocEventGnssSvMeasInfoIndMsgT_v02, gpsGalInterSystemBias_valid)),
+ 0x14,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocEventGnssSvMeasInfoIndMsgT_v02, gpsGalInterSystemBias),
+ QMI_IDL_TYPE88(0, 52),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventGnssSvMeasInfoIndMsgT_v02, bdsGloInterSystemBias) - QMI_IDL_OFFSET8(qmiLocEventGnssSvMeasInfoIndMsgT_v02, bdsGloInterSystemBias_valid)),
+ 0x15,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocEventGnssSvMeasInfoIndMsgT_v02, bdsGloInterSystemBias),
+ QMI_IDL_TYPE88(0, 52),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventGnssSvMeasInfoIndMsgT_v02, galGloInterSystemBias) - QMI_IDL_OFFSET8(qmiLocEventGnssSvMeasInfoIndMsgT_v02, galGloInterSystemBias_valid)),
+ 0x16,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocEventGnssSvMeasInfoIndMsgT_v02, galGloInterSystemBias),
+ QMI_IDL_TYPE88(0, 52),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventGnssSvMeasInfoIndMsgT_v02, galBdsInterSystemBias) - QMI_IDL_OFFSET8(qmiLocEventGnssSvMeasInfoIndMsgT_v02, galBdsInterSystemBias_valid)),
+ 0x17,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocEventGnssSvMeasInfoIndMsgT_v02, galBdsInterSystemBias),
+ QMI_IDL_TYPE88(0, 52),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventGnssSvMeasInfoIndMsgT_v02, systemTime) - QMI_IDL_OFFSET8(qmiLocEventGnssSvMeasInfoIndMsgT_v02, systemTime_valid)),
+ 0x18,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocEventGnssSvMeasInfoIndMsgT_v02, systemTime),
+ QMI_IDL_TYPE88(0, 53),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventGnssSvMeasInfoIndMsgT_v02, gloTime) - QMI_IDL_OFFSET8(qmiLocEventGnssSvMeasInfoIndMsgT_v02, gloTime_valid)),
+ 0x19,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocEventGnssSvMeasInfoIndMsgT_v02, gloTime),
+ QMI_IDL_TYPE88(0, 54),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventGnssSvMeasInfoIndMsgT_v02, systemTimeExt) - QMI_IDL_OFFSET8(qmiLocEventGnssSvMeasInfoIndMsgT_v02, systemTimeExt_valid)),
+ 0x1A,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocEventGnssSvMeasInfoIndMsgT_v02, systemTimeExt),
+ QMI_IDL_TYPE88(0, 55),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventGnssSvMeasInfoIndMsgT_v02, svMeasurement) - QMI_IDL_OFFSET8(qmiLocEventGnssSvMeasInfoIndMsgT_v02, svMeasurement_valid)),
+ 0x1B,
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN | QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocEventGnssSvMeasInfoIndMsgT_v02, svMeasurement),
+ QMI_LOC_SV_MEAS_LIST_MAX_SIZE_V02,
+ QMI_IDL_OFFSET8(qmiLocEventGnssSvMeasInfoIndMsgT_v02, svMeasurement) - QMI_IDL_OFFSET8(qmiLocEventGnssSvMeasInfoIndMsgT_v02, svMeasurement_len),
+ QMI_IDL_TYPE88(0, 57)
+};
+
+static const uint8_t qmiLocEventGnssSvPolyIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_2_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventGnssSvPolyIndMsgT_v02, gnssSvId),
+
+ 0x02,
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventGnssSvPolyIndMsgT_v02, T0),
+
+ 0x03,
+ QMI_IDL_GENERIC_2_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventGnssSvPolyIndMsgT_v02, svPolyFlagValid),
+
+ 0x04,
+ QMI_IDL_GENERIC_2_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventGnssSvPolyIndMsgT_v02, svPolyFlags),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventGnssSvPolyIndMsgT_v02, polyCoeffXYZ0) - QMI_IDL_OFFSET8(qmiLocEventGnssSvPolyIndMsgT_v02, polyCoeffXYZ0_valid)),
+ 0x10,
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventGnssSvPolyIndMsgT_v02, polyCoeffXYZ0),
+ QMI_LOC_SV_POLY_XYZ_0_TH_ORDER_COEFF_SIZE_V02,
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventGnssSvPolyIndMsgT_v02, polyCoefXYZN) - QMI_IDL_OFFSET8(qmiLocEventGnssSvPolyIndMsgT_v02, polyCoefXYZN_valid)),
+ 0x11,
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventGnssSvPolyIndMsgT_v02, polyCoefXYZN),
+ QMI_LOC_SV_POLY_XYZ_N_TH_ORDER_COEFF_SIZE_V02,
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventGnssSvPolyIndMsgT_v02, polyCoefClockBias) - QMI_IDL_OFFSET8(qmiLocEventGnssSvPolyIndMsgT_v02, polyCoefClockBias_valid)),
+ 0x12,
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventGnssSvPolyIndMsgT_v02, polyCoefClockBias),
+ QMI_LOC_SV_POLY_SV_CLKBIAS_COEFF_SIZE_V02,
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventGnssSvPolyIndMsgT_v02, gloFrequency) - QMI_IDL_OFFSET8(qmiLocEventGnssSvPolyIndMsgT_v02, gloFrequency_valid)),
+ 0x13,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventGnssSvPolyIndMsgT_v02, gloFrequency),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventGnssSvPolyIndMsgT_v02, IODE) - QMI_IDL_OFFSET8(qmiLocEventGnssSvPolyIndMsgT_v02, IODE_valid)),
+ 0x14,
+ QMI_IDL_GENERIC_2_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventGnssSvPolyIndMsgT_v02, IODE),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventGnssSvPolyIndMsgT_v02, enhancedIOD) - QMI_IDL_OFFSET8(qmiLocEventGnssSvPolyIndMsgT_v02, enhancedIOD_valid)),
+ 0x15,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventGnssSvPolyIndMsgT_v02, enhancedIOD),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventGnssSvPolyIndMsgT_v02, svPosUnc) - QMI_IDL_OFFSET8(qmiLocEventGnssSvPolyIndMsgT_v02, svPosUnc_valid)),
+ 0x16,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventGnssSvPolyIndMsgT_v02, svPosUnc),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventGnssSvPolyIndMsgT_v02, ionoDelay) - QMI_IDL_OFFSET8(qmiLocEventGnssSvPolyIndMsgT_v02, ionoDelay_valid)),
+ 0x17,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventGnssSvPolyIndMsgT_v02, ionoDelay),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventGnssSvPolyIndMsgT_v02, ionoDot) - QMI_IDL_OFFSET8(qmiLocEventGnssSvPolyIndMsgT_v02, ionoDot_valid)),
+ 0x18,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventGnssSvPolyIndMsgT_v02, ionoDot),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventGnssSvPolyIndMsgT_v02, sbasIonoDelay) - QMI_IDL_OFFSET8(qmiLocEventGnssSvPolyIndMsgT_v02, sbasIonoDelay_valid)),
+ 0x19,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventGnssSvPolyIndMsgT_v02, sbasIonoDelay),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventGnssSvPolyIndMsgT_v02, sbasIonoDot) - QMI_IDL_OFFSET8(qmiLocEventGnssSvPolyIndMsgT_v02, sbasIonoDot_valid)),
+ 0x1A,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventGnssSvPolyIndMsgT_v02, sbasIonoDot),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventGnssSvPolyIndMsgT_v02, tropoDelay) - QMI_IDL_OFFSET8(qmiLocEventGnssSvPolyIndMsgT_v02, tropoDelay_valid)),
+ 0x1B,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventGnssSvPolyIndMsgT_v02, tropoDelay),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocEventGnssSvPolyIndMsgT_v02, elevation) - QMI_IDL_OFFSET16RELATIVE(qmiLocEventGnssSvPolyIndMsgT_v02, elevation_valid)),
+ 0x1C,
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocEventGnssSvPolyIndMsgT_v02, elevation),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocEventGnssSvPolyIndMsgT_v02, elevationDot) - QMI_IDL_OFFSET16RELATIVE(qmiLocEventGnssSvPolyIndMsgT_v02, elevationDot_valid)),
+ 0x1D,
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocEventGnssSvPolyIndMsgT_v02, elevationDot),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocEventGnssSvPolyIndMsgT_v02, elenationUnc) - QMI_IDL_OFFSET16RELATIVE(qmiLocEventGnssSvPolyIndMsgT_v02, elenationUnc_valid)),
+ 0x1E,
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocEventGnssSvPolyIndMsgT_v02, elenationUnc),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocEventGnssSvPolyIndMsgT_v02, velCoef) - QMI_IDL_OFFSET16RELATIVE(qmiLocEventGnssSvPolyIndMsgT_v02, velCoef_valid)),
+ 0x1F,
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocEventGnssSvPolyIndMsgT_v02, velCoef),
+ QMI_LOC_SV_POLY_VELOCITY_COEF_SIZE_V02
+};
+
+static const uint8_t qmiLocAddGeofenceContextReqMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocAddGeofenceContextReqMsgT_v02, transactionId),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocAddGeofenceContextReqMsgT_v02, geofenceId) - QMI_IDL_OFFSET8(qmiLocAddGeofenceContextReqMsgT_v02, geofenceId_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocAddGeofenceContextReqMsgT_v02, geofenceId),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocAddGeofenceContextReqMsgT_v02, wifiApSsidInfo) - QMI_IDL_OFFSET8(qmiLocAddGeofenceContextReqMsgT_v02, wifiApSsidInfo_valid)),
+ 0x11,
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN | QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocAddGeofenceContextReqMsgT_v02, wifiApSsidInfo),
+ QMI_LOC_WIFI_AREA_ID_LIST_LENGTH_V02,
+ QMI_IDL_OFFSET8(qmiLocAddGeofenceContextReqMsgT_v02, wifiApSsidInfo) - QMI_IDL_OFFSET8(qmiLocAddGeofenceContextReqMsgT_v02, wifiApSsidInfo_len),
+ QMI_IDL_TYPE88(0, 32),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocAddGeofenceContextReqMsgT_v02, wifiApMacAddressList) - QMI_IDL_OFFSET16RELATIVE(qmiLocAddGeofenceContextReqMsgT_v02, wifiApMacAddressList_valid)),
+ 0x12,
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN | QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocAddGeofenceContextReqMsgT_v02, wifiApMacAddressList),
+ QMI_LOC_WIFI_AREA_ID_LIST_LENGTH_V02,
+ QMI_IDL_OFFSET16RELATIVE(qmiLocAddGeofenceContextReqMsgT_v02, wifiApMacAddressList) - QMI_IDL_OFFSET16RELATIVE(qmiLocAddGeofenceContextReqMsgT_v02, wifiApMacAddressList_len),
+ QMI_IDL_TYPE88(0, 58),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocAddGeofenceContextReqMsgT_v02, tdsCdmaCellIDList) - QMI_IDL_OFFSET16RELATIVE(qmiLocAddGeofenceContextReqMsgT_v02, tdsCdmaCellIDList_valid)),
+ 0x13,
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocAddGeofenceContextReqMsgT_v02, tdsCdmaCellIDList),
+ QMI_LOC_CELL_ID_LIST_LENGTH_V02,
+ QMI_IDL_TYPE88(0, 43),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocAddGeofenceContextReqMsgT_v02, wcdmaCellIDList) - QMI_IDL_OFFSET16RELATIVE(qmiLocAddGeofenceContextReqMsgT_v02, wcdmaCellIDList_valid)),
+ 0x14,
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN | QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocAddGeofenceContextReqMsgT_v02, wcdmaCellIDList),
+ QMI_LOC_CELL_ID_LIST_LENGTH_V02,
+ QMI_IDL_OFFSET16RELATIVE(qmiLocAddGeofenceContextReqMsgT_v02, wcdmaCellIDList) - QMI_IDL_OFFSET16RELATIVE(qmiLocAddGeofenceContextReqMsgT_v02, wcdmaCellIDList_len),
+ QMI_IDL_TYPE88(0, 42),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocAddGeofenceContextReqMsgT_v02, gsmCellIDList) - QMI_IDL_OFFSET16RELATIVE(qmiLocAddGeofenceContextReqMsgT_v02, gsmCellIDList_valid)),
+ 0x15,
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN | QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocAddGeofenceContextReqMsgT_v02, gsmCellIDList),
+ QMI_LOC_CELL_ID_LIST_LENGTH_V02,
+ QMI_IDL_OFFSET16RELATIVE(qmiLocAddGeofenceContextReqMsgT_v02, gsmCellIDList) - QMI_IDL_OFFSET16RELATIVE(qmiLocAddGeofenceContextReqMsgT_v02, gsmCellIDList_len),
+ QMI_IDL_TYPE88(0, 41),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocAddGeofenceContextReqMsgT_v02, iBeaconList) - QMI_IDL_OFFSET16RELATIVE(qmiLocAddGeofenceContextReqMsgT_v02, iBeaconList_valid)),
+ 0x16,
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN | QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocAddGeofenceContextReqMsgT_v02, iBeaconList),
+ QMI_LOC_IBEACON_LIST_LENGTH_V02,
+ QMI_IDL_OFFSET16RELATIVE(qmiLocAddGeofenceContextReqMsgT_v02, iBeaconList) - QMI_IDL_OFFSET16RELATIVE(qmiLocAddGeofenceContextReqMsgT_v02, iBeaconList_len),
+ QMI_IDL_TYPE88(0, 59)
+};
+
+static const uint8_t qmiLocAddGeofenceContextIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocAddGeofenceContextIndMsgT_v02, status),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocAddGeofenceContextIndMsgT_v02, transactionId) - QMI_IDL_OFFSET8(qmiLocAddGeofenceContextIndMsgT_v02, transactionId_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocAddGeofenceContextIndMsgT_v02, transactionId),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocAddGeofenceContextIndMsgT_v02, geofenceId) - QMI_IDL_OFFSET8(qmiLocAddGeofenceContextIndMsgT_v02, geofenceId_valid)),
+ 0x11,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocAddGeofenceContextIndMsgT_v02, geofenceId),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocAddGeofenceContextIndMsgT_v02, contextId) - QMI_IDL_OFFSET8(qmiLocAddGeofenceContextIndMsgT_v02, contextId_valid)),
+ 0x12,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocAddGeofenceContextIndMsgT_v02, contextId)
+};
+
+static const uint8_t qmiLocSetGeofenceEngineContextReqMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetGeofenceEngineContextReqMsgT_v02, transactionId),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetGeofenceEngineContextReqMsgT_v02, utcTimeOfDay) - QMI_IDL_OFFSET8(qmiLocSetGeofenceEngineContextReqMsgT_v02, utcTimeOfDay_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_8_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetGeofenceEngineContextReqMsgT_v02, utcTimeOfDay),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetGeofenceEngineContextReqMsgT_v02, temperature) - QMI_IDL_OFFSET8(qmiLocSetGeofenceEngineContextReqMsgT_v02, temperature_valid)),
+ 0x11,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetGeofenceEngineContextReqMsgT_v02, temperature)
+};
+
+static const uint8_t qmiLocSetGeofenceEngineContextIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetGeofenceEngineContextIndMsgT_v02, status),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocSetGeofenceEngineContextIndMsgT_v02, transactionId) - QMI_IDL_OFFSET8(qmiLocSetGeofenceEngineContextIndMsgT_v02, transactionId_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocSetGeofenceEngineContextIndMsgT_v02, transactionId)
+};
+
+static const uint8_t qmiLocDeleteGeofenceContextReqMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocDeleteGeofenceContextReqMsgT_v02, transactionId),
+
+ 0x02,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocDeleteGeofenceContextReqMsgT_v02, geofenceId),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocDeleteGeofenceContextReqMsgT_v02, contextId) - QMI_IDL_OFFSET8(qmiLocDeleteGeofenceContextReqMsgT_v02, contextId_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocDeleteGeofenceContextReqMsgT_v02, contextId)
+};
+
+static const uint8_t qmiLocDeleteGeofenceContextIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocDeleteGeofenceContextIndMsgT_v02, status),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocDeleteGeofenceContextIndMsgT_v02, transactionId) - QMI_IDL_OFFSET8(qmiLocDeleteGeofenceContextIndMsgT_v02, transactionId_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocDeleteGeofenceContextIndMsgT_v02, transactionId),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocDeleteGeofenceContextIndMsgT_v02, geofenceId) - QMI_IDL_OFFSET8(qmiLocDeleteGeofenceContextIndMsgT_v02, geofenceId_valid)),
+ 0x11,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocDeleteGeofenceContextIndMsgT_v02, geofenceId),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocDeleteGeofenceContextIndMsgT_v02, contextId) - QMI_IDL_OFFSET8(qmiLocDeleteGeofenceContextIndMsgT_v02, contextId_valid)),
+ 0x12,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocDeleteGeofenceContextIndMsgT_v02, contextId)
+};
+
+static const uint8_t qmiLocInjectGtpClientDownloadedDataReqMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN | QMI_IDL_FLAGS_SZ_IS_16 | QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectGtpClientDownloadedDataReqMsgT_v02, ClientDownloadedData),
+ ((QMI_LOC_MAX_GTP_WWAN_CLIENT_DOWNLOADED_DATA_LEN_V02) & 0xFF), ((QMI_LOC_MAX_GTP_WWAN_CLIENT_DOWNLOADED_DATA_LEN_V02) >> 8),
+ QMI_IDL_OFFSET8(qmiLocInjectGtpClientDownloadedDataReqMsgT_v02, ClientDownloadedData) - QMI_IDL_OFFSET8(qmiLocInjectGtpClientDownloadedDataReqMsgT_v02, ClientDownloadedData_len)
+};
+
+static const uint8_t qmiLocInjectGtpClientDownloadedDataIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocInjectGtpClientDownloadedDataIndMsgT_v02, status)
+};
+
+static const uint8_t qmiLocGdtUploadBeginStatusReqMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGdtUploadBeginStatusReqMsgT_v02, serviceId),
+
+ 0x02,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGdtUploadBeginStatusReqMsgT_v02, sessionId),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x03,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGdtUploadBeginStatusReqMsgT_v02, gdtAccessStatus)
+};
+
+static const uint8_t qmiLocGdtUploadBeginStatusIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGdtUploadBeginStatusIndMsgT_v02, status)
+};
+
+static const uint8_t qmiLocGdtUploadEndReqMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGdtUploadEndReqMsgT_v02, serviceId),
+
+ 0x02,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGdtUploadEndReqMsgT_v02, sessionId),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x03,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGdtUploadEndReqMsgT_v02, gdtEndStatus)
+};
+
+static const uint8_t qmiLocGdtUploadEndIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocGdtUploadEndIndMsgT_v02, status)
+};
+
+static const uint8_t qmiLocStartDbtReqMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocStartDbtReqMsgT_v02, reqId),
+
+ 0x02,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocStartDbtReqMsgT_v02, minDistance),
+
+ 0x03,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocStartDbtReqMsgT_v02, distanceType),
+
+ 0x04,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocStartDbtReqMsgT_v02, needBreadCrumbs),
+
+ 0x05,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocStartDbtReqMsgT_v02, needOriginLocation),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocStartDbtReqMsgT_v02, maxLatency) - QMI_IDL_OFFSET8(qmiLocStartDbtReqMsgT_v02, maxLatency_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocStartDbtReqMsgT_v02, maxLatency),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocStartDbtReqMsgT_v02, usageType) - QMI_IDL_OFFSET8(qmiLocStartDbtReqMsgT_v02, usageType_valid)),
+ 0x11,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocStartDbtReqMsgT_v02, usageType)
+};
+
+static const uint8_t qmiLocStartDbtIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocStartDbtIndMsgT_v02, status)
+};
+
+static const uint8_t qmiLocStopDbtReqMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocStopDbtReqMsgT_v02, reqId)
+};
+
+static const uint8_t qmiLocStopDbtIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocStopDbtIndMsgT_v02, status)
+};
+
+static const uint8_t qmiLocEventDbtPositionReportIndMsgT_data_v02[] = {
+ 0x01,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventDbtPositionReportIndMsgT_v02, reqId),
+
+ 0x02,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocEventDbtPositionReportIndMsgT_v02, dbtPosition),
+ QMI_IDL_TYPE88(0, 60),
+
+ 0x03,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventDbtPositionReportIndMsgT_v02, positionType),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventDbtPositionReportIndMsgT_v02, headingUnc) - QMI_IDL_OFFSET8(qmiLocEventDbtPositionReportIndMsgT_v02, headingUnc_valid)),
+ 0x10,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventDbtPositionReportIndMsgT_v02, headingUnc),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventDbtPositionReportIndMsgT_v02, speedUnc) - QMI_IDL_OFFSET8(qmiLocEventDbtPositionReportIndMsgT_v02, speedUnc_valid)),
+ 0x11,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventDbtPositionReportIndMsgT_v02, speedUnc),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventDbtPositionReportIndMsgT_v02, horConfidence) - QMI_IDL_OFFSET8(qmiLocEventDbtPositionReportIndMsgT_v02, horConfidence_valid)),
+ 0x12,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventDbtPositionReportIndMsgT_v02, horConfidence),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventDbtPositionReportIndMsgT_v02, vertConfidence) - QMI_IDL_OFFSET8(qmiLocEventDbtPositionReportIndMsgT_v02, vertConfidence_valid)),
+ 0x13,
+ QMI_IDL_GENERIC_1_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventDbtPositionReportIndMsgT_v02, vertConfidence),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventDbtPositionReportIndMsgT_v02, DOP) - QMI_IDL_OFFSET8(qmiLocEventDbtPositionReportIndMsgT_v02, DOP_valid)),
+ 0x14,
+ QMI_IDL_AGGREGATE,
+ QMI_IDL_OFFSET8(qmiLocEventDbtPositionReportIndMsgT_v02, DOP),
+ QMI_IDL_TYPE88(0, 2),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET8(qmiLocEventDbtPositionReportIndMsgT_v02, gnssSvUsedList) - QMI_IDL_OFFSET8(qmiLocEventDbtPositionReportIndMsgT_v02, gnssSvUsedList_valid)),
+ 0x15,
+ QMI_IDL_FLAGS_IS_ARRAY | QMI_IDL_FLAGS_IS_VARIABLE_LEN | QMI_IDL_GENERIC_2_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventDbtPositionReportIndMsgT_v02, gnssSvUsedList),
+ QMI_LOC_MAX_SV_USED_LIST_LENGTH_V02,
+ QMI_IDL_OFFSET8(qmiLocEventDbtPositionReportIndMsgT_v02, gnssSvUsedList) - QMI_IDL_OFFSET8(qmiLocEventDbtPositionReportIndMsgT_v02, gnssSvUsedList_len),
+
+ QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocEventDbtPositionReportIndMsgT_v02, numBreadCrumbEntries) - QMI_IDL_OFFSET16RELATIVE(qmiLocEventDbtPositionReportIndMsgT_v02, numBreadCrumbEntries_valid)),
+ 0x16,
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocEventDbtPositionReportIndMsgT_v02, numBreadCrumbEntries),
+
+ QMI_IDL_TLV_FLAGS_LAST_TLV | QMI_IDL_TLV_FLAGS_OPTIONAL | (QMI_IDL_OFFSET16RELATIVE(qmiLocEventDbtPositionReportIndMsgT_v02, bufferId) - QMI_IDL_OFFSET16RELATIVE(qmiLocEventDbtPositionReportIndMsgT_v02, bufferId_valid)),
+ 0x17,
+ QMI_IDL_FLAGS_OFFSET_IS_16 | QMI_IDL_GENERIC_2_BYTE,
+ QMI_IDL_OFFSET16ARRAY(qmiLocEventDbtPositionReportIndMsgT_v02, bufferId)
+};
+
+static const uint8_t qmiLocEventDbtSessionStatusIndMsgT_data_v02[] = {
+ QMI_IDL_TLV_FLAGS_LAST_TLV | 0x01,
+ QMI_IDL_GENERIC_4_BYTE,
+ QMI_IDL_OFFSET8(qmiLocEventDbtSessionStatusIndMsgT_v02, dbtSessionStatus)
+};
+
+/* Type Table */
+static const qmi_idl_type_table_entry loc_type_table_v02[] = {
+ {sizeof(qmiLocApplicationIdStructT_v02), qmiLocApplicationIdStructT_data_v02},
+ {sizeof(qmiLocGPSTimeStructT_v02), qmiLocGPSTimeStructT_data_v02},
+ {sizeof(qmiLocDOPStructT_v02), qmiLocDOPStructT_data_v02},
+ {sizeof(qmiLocSensorUsageIndicatorStructT_v02), qmiLocSensorUsageIndicatorStructT_data_v02},
+ {sizeof(qmiLocSvInfoStructT_v02), qmiLocSvInfoStructT_data_v02},
+ {sizeof(qmiLocNiVxNotifyVerifyStructT_v02), qmiLocNiVxNotifyVerifyStructT_data_v02},
+ {sizeof(qmiLocNiSuplFormattedStringStructT_v02), qmiLocNiSuplFormattedStringStructT_data_v02},
+ {sizeof(qmiLocNiSuplQopStructT_v02), qmiLocNiSuplQopStructT_data_v02},
+ {sizeof(qmiLocIpV4AddrStructType_v02), qmiLocIpV4AddrStructType_data_v02},
+ {sizeof(qmiLocIpV6AddrStructType_v02), qmiLocIpV6AddrStructType_data_v02},
+ {sizeof(qmiLocNiSuplServerInfoStructT_v02), qmiLocNiSuplServerInfoStructT_data_v02},
+ {sizeof(qmiLocNiSuplNotifyVerifyStructT_v02), qmiLocNiSuplNotifyVerifyStructT_data_v02},
+ {sizeof(qmiLocNiUmtsCpCodedStringStructT_v02), qmiLocNiUmtsCpCodedStringStructT_data_v02},
+ {sizeof(qmiLocNiUmtsCpNotifyVerifyStructT_v02), qmiLocNiUmtsCpNotifyVerifyStructT_data_v02},
+ {sizeof(qmiLocNiVxServiceInteractionStructT_v02), qmiLocNiVxServiceInteractionStructT_data_v02},
+ {sizeof(qmiLocNiSuplVer2ExtStructT_v02), qmiLocNiSuplVer2ExtStructT_data_v02},
+ {sizeof(qmiLocEmergencyNotificationStructT_v02), qmiLocEmergencyNotificationStructT_data_v02},
+ {sizeof(qmiLocAssistanceServerUrlStructT_v02), qmiLocAssistanceServerUrlStructT_data_v02},
+ {sizeof(qmiLocTimeServerListStructT_v02), qmiLocTimeServerListStructT_data_v02},
+ {sizeof(qmiLocPredictedOrbitsAllowedSizesStructT_v02), qmiLocPredictedOrbitsAllowedSizesStructT_data_v02},
+ {sizeof(qmiLocPredictedOrbitsServerListStructT_v02), qmiLocPredictedOrbitsServerListStructT_data_v02},
+ {sizeof(qmiLocSensorControlConfigSamplingSpecStructT_v02), qmiLocSensorControlConfigSamplingSpecStructT_data_v02},
+ {sizeof(qmiLocSensorReadyStatusStructT_v02), qmiLocSensorReadyStatusStructT_data_v02},
+ {sizeof(qmiLocGeofencePositionStructT_v02), qmiLocGeofencePositionStructT_data_v02},
+ {sizeof(qmiLocGeofenceIdContinuousStructT_v02), qmiLocGeofenceIdContinuousStructT_data_v02},
+ {sizeof(qmiLocPredictedOrbitsDataValidityStructT_v02), qmiLocPredictedOrbitsDataValidityStructT_data_v02},
+ {sizeof(qmiLocAltitudeSrcInfoStructT_v02), qmiLocAltitudeSrcInfoStructT_data_v02},
+ {sizeof(qmiLocDeleteSvInfoStructT_v02), qmiLocDeleteSvInfoStructT_data_v02},
+ {sizeof(qmiLocDeleteBDSSvInfoStructT_v02), qmiLocDeleteBDSSvInfoStructT_data_v02},
+ {sizeof(qmiLocWifiFixTimeStructT_v02), qmiLocWifiFixTimeStructT_data_v02},
+ {sizeof(qmiLocWifiFixPosStructT_v02), qmiLocWifiFixPosStructT_data_v02},
+ {sizeof(qmiLocWifiApInfoStructT_v02), qmiLocWifiApInfoStructT_data_v02},
+ {sizeof(qmiLocWifiApSsidStructT_v02), qmiLocWifiApSsidStructT_data_v02},
+ {sizeof(qmiLoc3AxisSensorSampleStructT_v02), qmiLoc3AxisSensorSampleStructT_data_v02},
+ {sizeof(qmiLoc3AxisSensorSampleListStructT_v02), qmiLoc3AxisSensorSampleListStructT_data_v02},
+ {sizeof(qmiLocSensorTemperatureSampleStructT_v02), qmiLocSensorTemperatureSampleStructT_data_v02},
+ {sizeof(qmiLocSensorTemperatureSampleListStructT_v02), qmiLocSensorTemperatureSampleListStructT_data_v02},
+ {sizeof(qmiLocApnProfilesStructT_v02), qmiLocApnProfilesStructT_data_v02},
+ {sizeof(qmiLocCircularGeofenceArgsStructT_v02), qmiLocCircularGeofenceArgsStructT_data_v02},
+ {sizeof(qmiLocGeofenceMotionStateConfigStructT_v02), qmiLocGeofenceMotionStateConfigStructT_data_v02},
+ {sizeof(qmiLocMotionDataStructT_v02), qmiLocMotionDataStructT_data_v02},
+ {sizeof(qmiLocGSMCellIdStructT_v02), qmiLocGSMCellIdStructT_data_v02},
+ {sizeof(qmiLocWCDMACellIdStructT_v02), qmiLocWCDMACellIdStructT_data_v02},
+ {sizeof(qmiLocTDSCDMACellIdStructT_v02), qmiLocTDSCDMACellIdStructT_data_v02},
+ {sizeof(qmiLocBatchedReportStructT_v02), qmiLocBatchedReportStructT_data_v02},
+ {sizeof(qmiLocWifiApDataStructT_v02), qmiLocWifiApDataStructT_data_v02},
+ {sizeof(qmiLocVehicleSensorSampleStructT_v02), qmiLocVehicleSensorSampleStructT_data_v02},
+ {sizeof(qmiLocVehicleSensorSampleListStructType_v02), qmiLocVehicleSensorSampleListStructType_data_v02},
+ {sizeof(qmiLocVehicleOdometrySampleStructT_v02), qmiLocVehicleOdometrySampleStructT_data_v02},
+ {sizeof(qmiLocVehicleOdometrySampleListStructT_v02), qmiLocVehicleOdometrySampleListStructT_data_v02},
+ {sizeof(qmiLocRcvrClockFrequencyInfoStructT_v02), qmiLocRcvrClockFrequencyInfoStructT_data_v02},
+ {sizeof(qmiLocLeapSecondInfoStructT_v02), qmiLocLeapSecondInfoStructT_data_v02},
+ {sizeof(qmiLocInterSystemBiasStructT_v02), qmiLocInterSystemBiasStructT_data_v02},
+ {sizeof(qmiLocGnssTimeStructT_v02), qmiLocGnssTimeStructT_data_v02},
+ {sizeof(qmiLocGloTimeStructT_v02), qmiLocGloTimeStructT_data_v02},
+ {sizeof(qmiLocGnssTimeExtStructT_v02), qmiLocGnssTimeExtStructT_data_v02},
+ {sizeof(qmiLocSVTimeSpeedStructT_v02), qmiLocSVTimeSpeedStructT_data_v02},
+ {sizeof(qmiLocSVMeasurementStructT_v02), qmiLocSVMeasurementStructT_data_v02},
+ {sizeof(qmiLocWifiApMacAddressStructT_v02), qmiLocWifiApMacAddressStructT_data_v02},
+ {sizeof(qmiLocIBeaconIdStructT_v02), qmiLocIBeaconIdStructT_data_v02},
+ {sizeof(qmiLocDbtPositionStructT_v02), qmiLocDbtPositionStructT_data_v02}
+};
+
+/* Message Table */
+static const qmi_idl_message_table_entry loc_message_table_v02[] = {
+ {sizeof(qmiLocGenRespMsgT_v02), qmiLocGenRespMsgT_data_v02},
+ {sizeof(qmiLocInformClientRevisionReqMsgT_v02), qmiLocInformClientRevisionReqMsgT_data_v02},
+ {sizeof(qmiLocRegEventsReqMsgT_v02), qmiLocRegEventsReqMsgT_data_v02},
+ {sizeof(qmiLocStartReqMsgT_v02), qmiLocStartReqMsgT_data_v02},
+ {sizeof(qmiLocStopReqMsgT_v02), qmiLocStopReqMsgT_data_v02},
+ {sizeof(qmiLocEventPositionReportIndMsgT_v02), qmiLocEventPositionReportIndMsgT_data_v02},
+ {sizeof(qmiLocEventGnssSvInfoIndMsgT_v02), qmiLocEventGnssSvInfoIndMsgT_data_v02},
+ {sizeof(qmiLocEventNmeaIndMsgT_v02), qmiLocEventNmeaIndMsgT_data_v02},
+ {sizeof(qmiLocEventNiNotifyVerifyReqIndMsgT_v02), qmiLocEventNiNotifyVerifyReqIndMsgT_data_v02},
+ {sizeof(qmiLocEventInjectTimeReqIndMsgT_v02), qmiLocEventInjectTimeReqIndMsgT_data_v02},
+ {sizeof(qmiLocEventInjectPredictedOrbitsReqIndMsgT_v02), qmiLocEventInjectPredictedOrbitsReqIndMsgT_data_v02},
+ {sizeof(qmiLocEventInjectPositionReqIndMsgT_v02), qmiLocEventInjectPositionReqIndMsgT_data_v02},
+ {sizeof(qmiLocEventEngineStateIndMsgT_v02), qmiLocEventEngineStateIndMsgT_data_v02},
+ {sizeof(qmiLocEventFixSessionStateIndMsgT_v02), qmiLocEventFixSessionStateIndMsgT_data_v02},
+ {sizeof(qmiLocEventWifiReqIndMsgT_v02), qmiLocEventWifiReqIndMsgT_data_v02},
+ {sizeof(qmiLocEventSensorStreamingReadyStatusIndMsgT_v02), qmiLocEventSensorStreamingReadyStatusIndMsgT_data_v02},
+ {sizeof(qmiLocEventTimeSyncReqIndMsgT_v02), qmiLocEventTimeSyncReqIndMsgT_data_v02},
+ {sizeof(qmiLocEventSetSpiStreamingReportIndMsgT_v02), qmiLocEventSetSpiStreamingReportIndMsgT_data_v02},
+ {sizeof(qmiLocEventLocationServerConnectionReqIndMsgT_v02), qmiLocEventLocationServerConnectionReqIndMsgT_data_v02},
+ {sizeof(qmiLocEventNiGeofenceNotificationIndMsgT_v02), qmiLocEventNiGeofenceNotificationIndMsgT_data_v02},
+ {sizeof(qmiLocEventGeofenceGenAlertIndMsgT_v02), qmiLocEventGeofenceGenAlertIndMsgT_data_v02},
+ {sizeof(qmiLocEventGeofenceBreachIndMsgT_v02), qmiLocEventGeofenceBreachIndMsgT_data_v02},
+ {sizeof(qmiLocEventPedometerControlIndMsgT_v02), qmiLocEventPedometerControlIndMsgT_data_v02},
+ {sizeof(qmiLocEventMotionDataControlIndMsgT_v02), qmiLocEventMotionDataControlIndMsgT_data_v02},
+ {sizeof(qmiLocEventGeofenceBatchedBreachIndMsgT_v02), qmiLocEventGeofenceBatchedBreachIndMsgT_data_v02},
+ {sizeof(qmiLocEventGeofenceProximityIndMsgT_v02), qmiLocEventGeofenceProximityIndMsgT_data_v02},
+ {sizeof(qmiLocEventGdtUploadBeginStatusReqIndMsgT_v02), qmiLocEventGdtUploadBeginStatusReqIndMsgT_data_v02},
+ {sizeof(qmiLocEventGdtUploadEndReqIndMsgT_v02), qmiLocEventGdtUploadEndReqIndMsgT_data_v02},
+ {sizeof(qmiLocGetServiceRevisionReqMsgT_v02), 0},
+ {sizeof(qmiLocGetServiceRevisionIndMsgT_v02), qmiLocGetServiceRevisionIndMsgT_data_v02},
+ {sizeof(qmiLocGetFixCriteriaReqMsgT_v02), 0},
+ {sizeof(qmiLocGetFixCriteriaIndMsgT_v02), qmiLocGetFixCriteriaIndMsgT_data_v02},
+ {sizeof(qmiLocNiUserRespReqMsgT_v02), qmiLocNiUserRespReqMsgT_data_v02},
+ {sizeof(qmiLocNiUserRespIndMsgT_v02), qmiLocNiUserRespIndMsgT_data_v02},
+ {sizeof(qmiLocInjectPredictedOrbitsDataReqMsgT_v02), qmiLocInjectPredictedOrbitsDataReqMsgT_data_v02},
+ {sizeof(qmiLocInjectPredictedOrbitsDataIndMsgT_v02), qmiLocInjectPredictedOrbitsDataIndMsgT_data_v02},
+ {sizeof(qmiLocGetPredictedOrbitsDataSourceReqMsgT_v02), 0},
+ {sizeof(qmiLocGetPredictedOrbitsDataSourceIndMsgT_v02), qmiLocGetPredictedOrbitsDataSourceIndMsgT_data_v02},
+ {sizeof(qmiLocGetPredictedOrbitsDataValidityReqMsgT_v02), 0},
+ {sizeof(qmiLocGetPredictedOrbitsDataValidityIndMsgT_v02), qmiLocGetPredictedOrbitsDataValidityIndMsgT_data_v02},
+ {sizeof(qmiLocInjectUtcTimeReqMsgT_v02), qmiLocInjectUtcTimeReqMsgT_data_v02},
+ {sizeof(qmiLocInjectUtcTimeIndMsgT_v02), qmiLocInjectUtcTimeIndMsgT_data_v02},
+ {sizeof(qmiLocInjectPositionReqMsgT_v02), qmiLocInjectPositionReqMsgT_data_v02},
+ {sizeof(qmiLocInjectPositionIndMsgT_v02), qmiLocInjectPositionIndMsgT_data_v02},
+ {sizeof(qmiLocSetEngineLockReqMsgT_v02), qmiLocSetEngineLockReqMsgT_data_v02},
+ {sizeof(qmiLocSetEngineLockIndMsgT_v02), qmiLocSetEngineLockIndMsgT_data_v02},
+ {sizeof(qmiLocGetEngineLockReqMsgT_v02), 0},
+ {sizeof(qmiLocGetEngineLockIndMsgT_v02), qmiLocGetEngineLockIndMsgT_data_v02},
+ {sizeof(qmiLocSetSbasConfigReqMsgT_v02), qmiLocSetSbasConfigReqMsgT_data_v02},
+ {sizeof(qmiLocSetSbasConfigIndMsgT_v02), qmiLocSetSbasConfigIndMsgT_data_v02},
+ {sizeof(qmiLocGetSbasConfigReqMsgT_v02), 0},
+ {sizeof(qmiLocGetSbasConfigIndMsgT_v02), qmiLocGetSbasConfigIndMsgT_data_v02},
+ {sizeof(qmiLocSetNmeaTypesReqMsgT_v02), qmiLocSetNmeaTypesReqMsgT_data_v02},
+ {sizeof(qmiLocSetNmeaTypesIndMsgT_v02), qmiLocSetNmeaTypesIndMsgT_data_v02},
+ {sizeof(qmiLocGetNmeaTypesReqMsgT_v02), 0},
+ {sizeof(qmiLocGetNmeaTypesIndMsgT_v02), qmiLocGetNmeaTypesIndMsgT_data_v02},
+ {sizeof(qmiLocSetLowPowerModeReqMsgT_v02), qmiLocSetLowPowerModeReqMsgT_data_v02},
+ {sizeof(qmiLocSetLowPowerModeIndMsgT_v02), qmiLocSetLowPowerModeIndMsgT_data_v02},
+ {sizeof(qmiLocGetLowPowerModeReqMsgT_v02), 0},
+ {sizeof(qmiLocGetLowPowerModeIndMsgT_v02), qmiLocGetLowPowerModeIndMsgT_data_v02},
+ {sizeof(qmiLocSetServerReqMsgT_v02), qmiLocSetServerReqMsgT_data_v02},
+ {sizeof(qmiLocSetServerIndMsgT_v02), qmiLocSetServerIndMsgT_data_v02},
+ {sizeof(qmiLocGetServerReqMsgT_v02), qmiLocGetServerReqMsgT_data_v02},
+ {sizeof(qmiLocGetServerIndMsgT_v02), qmiLocGetServerIndMsgT_data_v02},
+ {sizeof(qmiLocDeleteAssistDataReqMsgT_v02), qmiLocDeleteAssistDataReqMsgT_data_v02},
+ {sizeof(qmiLocDeleteAssistDataIndMsgT_v02), qmiLocDeleteAssistDataIndMsgT_data_v02},
+ {sizeof(qmiLocSetXtraTSessionControlReqMsgT_v02), qmiLocSetXtraTSessionControlReqMsgT_data_v02},
+ {sizeof(qmiLocSetXtraTSessionControlIndMsgT_v02), qmiLocSetXtraTSessionControlIndMsgT_data_v02},
+ {sizeof(qmiLocGetXtraTSessionControlReqMsgT_v02), 0},
+ {sizeof(qmiLocGetXtraTSessionControlIndMsgT_v02), qmiLocGetXtraTSessionControlIndMsgT_data_v02},
+ {sizeof(qmiLocInjectWifiPositionReqMsgT_v02), qmiLocInjectWifiPositionReqMsgT_data_v02},
+ {sizeof(qmiLocInjectWifiPositionIndMsgT_v02), qmiLocInjectWifiPositionIndMsgT_data_v02},
+ {sizeof(qmiLocNotifyWifiStatusReqMsgT_v02), qmiLocNotifyWifiStatusReqMsgT_data_v02},
+ {sizeof(qmiLocNotifyWifiStatusIndMsgT_v02), qmiLocNotifyWifiStatusIndMsgT_data_v02},
+ {sizeof(qmiLocGetRegisteredEventsReqMsgT_v02), 0},
+ {sizeof(qmiLocGetRegisteredEventsIndMsgT_v02), qmiLocGetRegisteredEventsIndMsgT_data_v02},
+ {sizeof(qmiLocSetOperationModeReqMsgT_v02), qmiLocSetOperationModeReqMsgT_data_v02},
+ {sizeof(qmiLocSetOperationModeIndMsgT_v02), qmiLocSetOperationModeIndMsgT_data_v02},
+ {sizeof(qmiLocGetOperationModeReqMsgT_v02), 0},
+ {sizeof(qmiLocGetOperationModeIndMsgT_v02), qmiLocGetOperationModeIndMsgT_data_v02},
+ {sizeof(qmiLocSetSpiStatusReqMsgT_v02), qmiLocSetSpiStatusReqMsgT_data_v02},
+ {sizeof(qmiLocSetSpiStatusIndMsgT_v02), qmiLocSetSpiStatusIndMsgT_data_v02},
+ {sizeof(qmiLocInjectSensorDataReqMsgT_v02), qmiLocInjectSensorDataReqMsgT_data_v02},
+ {sizeof(qmiLocInjectSensorDataIndMsgT_v02), qmiLocInjectSensorDataIndMsgT_data_v02},
+ {sizeof(qmiLocInjectTimeSyncDataReqMsgT_v02), qmiLocInjectTimeSyncDataReqMsgT_data_v02},
+ {sizeof(qmiLocInjectTimeSyncDataIndMsgT_v02), qmiLocInjectTimeSyncDataIndMsgT_data_v02},
+ {sizeof(qmiLocGetCradleMountConfigReqMsgT_v02), 0},
+ {sizeof(qmiLocGetCradleMountConfigIndMsgT_v02), qmiLocGetCradleMountConfigIndMsgT_data_v02},
+ {sizeof(qmiLocSetCradleMountConfigReqMsgT_v02), qmiLocSetCradleMountConfigReqMsgT_data_v02},
+ {sizeof(qmiLocSetCradleMountConfigIndMsgT_v02), qmiLocSetCradleMountConfigIndMsgT_data_v02},
+ {sizeof(qmiLocGetExternalPowerConfigReqMsgT_v02), 0},
+ {sizeof(qmiLocGetExternalPowerConfigIndMsgT_v02), qmiLocGetExternalPowerConfigIndMsgT_data_v02},
+ {sizeof(qmiLocSetExternalPowerConfigReqMsgT_v02), qmiLocSetExternalPowerConfigReqMsgT_data_v02},
+ {sizeof(qmiLocSetExternalPowerConfigIndMsgT_v02), qmiLocSetExternalPowerConfigIndMsgT_data_v02},
+ {sizeof(qmiLocInformLocationServerConnStatusReqMsgT_v02), qmiLocInformLocationServerConnStatusReqMsgT_data_v02},
+ {sizeof(qmiLocInformLocationServerConnStatusIndMsgT_v02), qmiLocInformLocationServerConnStatusIndMsgT_data_v02},
+ {sizeof(qmiLocSetProtocolConfigParametersReqMsgT_v02), qmiLocSetProtocolConfigParametersReqMsgT_data_v02},
+ {sizeof(qmiLocSetProtocolConfigParametersIndMsgT_v02), qmiLocSetProtocolConfigParametersIndMsgT_data_v02},
+ {sizeof(qmiLocGetProtocolConfigParametersReqMsgT_v02), qmiLocGetProtocolConfigParametersReqMsgT_data_v02},
+ {sizeof(qmiLocGetProtocolConfigParametersIndMsgT_v02), qmiLocGetProtocolConfigParametersIndMsgT_data_v02},
+ {sizeof(qmiLocSetSensorControlConfigReqMsgT_v02), qmiLocSetSensorControlConfigReqMsgT_data_v02},
+ {sizeof(qmiLocSetSensorControlConfigIndMsgT_v02), qmiLocSetSensorControlConfigIndMsgT_data_v02},
+ {sizeof(qmiLocGetSensorControlConfigReqMsgT_v02), 0},
+ {sizeof(qmiLocGetSensorControlConfigIndMsgT_v02), qmiLocGetSensorControlConfigIndMsgT_data_v02},
+ {sizeof(qmiLocSetSensorPropertiesReqMsgT_v02), qmiLocSetSensorPropertiesReqMsgT_data_v02},
+ {sizeof(qmiLocSetSensorPropertiesIndMsgT_v02), qmiLocSetSensorPropertiesIndMsgT_data_v02},
+ {sizeof(qmiLocGetSensorPropertiesReqMsgT_v02), qmiLocGetSensorPropertiesReqMsgT_data_v02},
+ {sizeof(qmiLocGetSensorPropertiesIndMsgT_v02), qmiLocGetSensorPropertiesIndMsgT_data_v02},
+ {sizeof(qmiLocSetSensorPerformanceControlConfigReqMsgT_v02), qmiLocSetSensorPerformanceControlConfigReqMsgT_data_v02},
+ {sizeof(qmiLocSetSensorPerformanceControlConfigIndMsgT_v02), qmiLocSetSensorPerformanceControlConfigIndMsgT_data_v02},
+ {sizeof(qmiLocGetSensorPerformanceControlConfigReqMsgT_v02), 0},
+ {sizeof(qmiLocGetSensorPerformanceControlConfigIndMsgT_v02), qmiLocGetSensorPerformanceControlConfigIndMsgT_data_v02},
+ {sizeof(qmiLocInjectSuplCertificateReqMsgT_v02), qmiLocInjectSuplCertificateReqMsgT_data_v02},
+ {sizeof(qmiLocInjectSuplCertificateIndMsgT_v02), qmiLocInjectSuplCertificateIndMsgT_data_v02},
+ {sizeof(qmiLocDeleteSuplCertificateReqMsgT_v02), qmiLocDeleteSuplCertificateReqMsgT_data_v02},
+ {sizeof(qmiLocDeleteSuplCertificateIndMsgT_v02), qmiLocDeleteSuplCertificateIndMsgT_data_v02},
+ {sizeof(qmiLocSetPositionEngineConfigParametersReqMsgT_v02), qmiLocSetPositionEngineConfigParametersReqMsgT_data_v02},
+ {sizeof(qmiLocSetPositionEngineConfigParametersIndMsgT_v02), qmiLocSetPositionEngineConfigParametersIndMsgT_data_v02},
+ {sizeof(qmiLocGetPositionEngineConfigParametersReqMsgT_v02), qmiLocGetPositionEngineConfigParametersReqMsgT_data_v02},
+ {sizeof(qmiLocGetPositionEngineConfigParametersIndMsgT_v02), qmiLocGetPositionEngineConfigParametersIndMsgT_data_v02},
+ {sizeof(qmiLocAddCircularGeofenceReqMsgT_v02), qmiLocAddCircularGeofenceReqMsgT_data_v02},
+ {sizeof(qmiLocAddCircularGeofenceIndMsgT_v02), qmiLocAddCircularGeofenceIndMsgT_data_v02},
+ {sizeof(qmiLocDeleteGeofenceReqMsgT_v02), qmiLocDeleteGeofenceReqMsgT_data_v02},
+ {sizeof(qmiLocDeleteGeofenceIndMsgT_v02), qmiLocDeleteGeofenceIndMsgT_data_v02},
+ {sizeof(qmiLocQueryGeofenceReqMsgT_v02), qmiLocQueryGeofenceReqMsgT_data_v02},
+ {sizeof(qmiLocQueryGeofenceIndMsgT_v02), qmiLocQueryGeofenceIndMsgT_data_v02},
+ {sizeof(qmiLocSetGeofenceEngineConfigReqMsgT_v02), qmiLocSetGeofenceEngineConfigReqMsgT_data_v02},
+ {sizeof(qmiLocSetGeofenceEngineConfigIndMsgT_v02), qmiLocSetGeofenceEngineConfigIndMsgT_data_v02},
+ {sizeof(qmiLocGetGeofenceEngineConfigReqMsgT_v02), qmiLocGetGeofenceEngineConfigReqMsgT_data_v02},
+ {sizeof(qmiLocGetGeofenceEngineConfigIndMsgT_v02), qmiLocGetGeofenceEngineConfigIndMsgT_data_v02},
+ {sizeof(qmiLocEditGeofenceReqMsgT_v02), qmiLocEditGeofenceReqMsgT_data_v02},
+ {sizeof(qmiLocEditGeofenceIndMsgT_v02), qmiLocEditGeofenceIndMsgT_data_v02},
+ {sizeof(qmiLocGetBestAvailablePositionReqMsgT_v02), qmiLocGetBestAvailablePositionReqMsgT_data_v02},
+ {sizeof(qmiLocGetBestAvailablePositionIndMsgT_v02), qmiLocGetBestAvailablePositionIndMsgT_data_v02},
+ {sizeof(qmiLocInjectMotionDataReqMsgT_v02), qmiLocInjectMotionDataReqMsgT_data_v02},
+ {sizeof(qmiLocInjectMotionDataIndMsgT_v02), qmiLocInjectMotionDataIndMsgT_data_v02},
+ {sizeof(qmiLocGetNiGeofenceIdListReqMsgT_v02), qmiLocGetNiGeofenceIdListReqMsgT_data_v02},
+ {sizeof(qmiLocGetNiGeofenceIdListIndMsgT_v02), qmiLocGetNiGeofenceIdListIndMsgT_data_v02},
+ {sizeof(qmiLocInjectGSMCellInfoReqMsgT_v02), qmiLocInjectGSMCellInfoReqMsgT_data_v02},
+ {sizeof(qmiLocInjectGSMCellInfoIndMsgT_v02), qmiLocInjectGSMCellInfoIndMsgT_data_v02},
+ {sizeof(qmiLocInjectWCDMACellInfoReqMsgT_v02), qmiLocInjectWCDMACellInfoReqMsgT_data_v02},
+ {sizeof(qmiLocInjectWCDMACellInfoIndMsgT_v02), qmiLocInjectWCDMACellInfoIndMsgT_data_v02},
+ {sizeof(qmiLocInjectTDSCDMACellInfoReqMsgT_v02), qmiLocInjectTDSCDMACellInfoReqMsgT_data_v02},
+ {sizeof(qmiLocInjectTDSCDMACellInfoIndMsgT_v02), qmiLocInjectTDSCDMACellInfoIndMsgT_data_v02},
+ {sizeof(qmiLocInjectSubscriberIDReqMsgT_v02), qmiLocInjectSubscriberIDReqMsgT_data_v02},
+ {sizeof(qmiLocInjectSubscriberIDIndMsgT_v02), qmiLocInjectSubscriberIDIndMsgT_data_v02},
+ {sizeof(qmiLocInjectNetworkInitiatedMessageReqMsgT_v02), qmiLocInjectNetworkInitiatedMessageReqMsgT_data_v02},
+ {sizeof(qmiLocInjectNetworkInitiatedMessageIndMsgT_v02), qmiLocInjectNetworkInitiatedMessageIndMsgT_data_v02},
+ {sizeof(qmiLocWWANOutOfServiceNotificationReqMsgT_v02), 0},
+ {sizeof(qmiLocWWANOutOfServiceNotificationIndMsgT_v02), qmiLocWWANOutOfServiceNotificationIndMsgT_data_v02},
+ {sizeof(qmiLocPedometerReportReqMsgT_v02), qmiLocPedometerReportReqMsgT_data_v02},
+ {sizeof(qmiLocPedometerReportIndMsgT_v02), qmiLocPedometerReportIndMsgT_data_v02},
+ {sizeof(qmiLocGetBatchSizeReqMsgT_v02), qmiLocGetBatchSizeReqMsgT_data_v02},
+ {sizeof(qmiLocGetBatchSizeIndMsgT_v02), qmiLocGetBatchSizeIndMsgT_data_v02},
+ {sizeof(qmiLocStartBatchingReqMsgT_v02), qmiLocStartBatchingReqMsgT_data_v02},
+ {sizeof(qmiLocStartBatchingIndMsgT_v02), qmiLocStartBatchingIndMsgT_data_v02},
+ {sizeof(qmiLocEventBatchFullIndMsgT_v02), qmiLocEventBatchFullIndMsgT_data_v02},
+ {sizeof(qmiLocEventLiveBatchedPositionReportIndMsgT_v02), qmiLocEventLiveBatchedPositionReportIndMsgT_data_v02},
+ {sizeof(qmiLocReadFromBatchReqMsgT_v02), qmiLocReadFromBatchReqMsgT_data_v02},
+ {sizeof(qmiLocReadFromBatchIndMsgT_v02), qmiLocReadFromBatchIndMsgT_data_v02},
+ {sizeof(qmiLocStopBatchingReqMsgT_v02), qmiLocStopBatchingReqMsgT_data_v02},
+ {sizeof(qmiLocStopBatchingIndMsgT_v02), qmiLocStopBatchingIndMsgT_data_v02},
+ {sizeof(qmiLocReleaseBatchReqMsgT_v02), qmiLocReleaseBatchReqMsgT_data_v02},
+ {sizeof(qmiLocReleaseBatchIndMsgT_v02), qmiLocReleaseBatchIndMsgT_data_v02},
+ {sizeof(qmiLocEventInjectWifiApDataReqIndMsgT_v02), 0},
+ {sizeof(qmiLocInjectWifiApDataReqMsgT_v02), qmiLocInjectWifiApDataReqMsgT_data_v02},
+ {sizeof(qmiLocInjectWifiApDataIndMsgT_v02), qmiLocInjectWifiApDataIndMsgT_data_v02},
+ {sizeof(qmiLocNotifyWifiAttachmentStatusReqMsgT_v02), qmiLocNotifyWifiAttachmentStatusReqMsgT_data_v02},
+ {sizeof(qmiLocNotifyWifiAttachmentStatusIndMsgT_v02), qmiLocNotifyWifiAttachmentStatusIndMsgT_data_v02},
+ {sizeof(qmiLocNotifyWifiEnabledStatusReqMsgT_v02), qmiLocNotifyWifiEnabledStatusReqMsgT_data_v02},
+ {sizeof(qmiLocNotifyWifiEnabledStatusIndMsgT_v02), qmiLocNotifyWifiEnabledStatusIndMsgT_data_v02},
+ {sizeof(qmiLocEventVehicleDataReadyIndMsgT_v02), qmiLocEventVehicleDataReadyIndMsgT_data_v02},
+ {sizeof(qmiLocInjectVehicleSensorDataReqMsgT_v02), qmiLocInjectVehicleSensorDataReqMsgT_data_v02},
+ {sizeof(qmiLocInjectVehicleSensorDataIndMsgT_v02), qmiLocInjectVehicleSensorDataIndMsgT_data_v02},
+ {sizeof(qmiLocGetAvailWwanPositionReqMsgT_v02), qmiLocGetAvailWwanPositionReqMsgT_data_v02},
+ {sizeof(qmiLocGetAvailWwanPositionIndMsgT_v02), qmiLocGetAvailWwanPositionIndMsgT_data_v02},
+ {sizeof(qmiLocSetPremiumServicesCfgReqMsgT_v02), qmiLocSetPremiumServicesCfgReqMsgT_data_v02},
+ {sizeof(qmiLocSetPremiumServicesCfgIndMsgT_v02), qmiLocSetPremiumServicesCfgIndMsgT_data_v02},
+ {sizeof(qmiLocSetXtraVersionCheckReqMsgT_v02), qmiLocSetXtraVersionCheckReqMsgT_data_v02},
+ {sizeof(qmiLocSetXtraVersionCheckIndMsgT_v02), qmiLocSetXtraVersionCheckIndMsgT_data_v02},
+ {sizeof(qmiLocSetGNSSConstRepConfigReqMsgT_v02), qmiLocSetGNSSConstRepConfigReqMsgT_data_v02},
+ {sizeof(qmiLocSetGNSSConstRepConfigIndMsgT_v02), qmiLocSetGNSSConstRepConfigIndMsgT_data_v02},
+ {sizeof(qmiLocEventGnssSvMeasInfoIndMsgT_v02), qmiLocEventGnssSvMeasInfoIndMsgT_data_v02},
+ {sizeof(qmiLocEventGnssSvPolyIndMsgT_v02), qmiLocEventGnssSvPolyIndMsgT_data_v02},
+ {sizeof(qmiLocAddGeofenceContextReqMsgT_v02), qmiLocAddGeofenceContextReqMsgT_data_v02},
+ {sizeof(qmiLocAddGeofenceContextIndMsgT_v02), qmiLocAddGeofenceContextIndMsgT_data_v02},
+ {sizeof(qmiLocSetGeofenceEngineContextReqMsgT_v02), qmiLocSetGeofenceEngineContextReqMsgT_data_v02},
+ {sizeof(qmiLocSetGeofenceEngineContextIndMsgT_v02), qmiLocSetGeofenceEngineContextIndMsgT_data_v02},
+ {sizeof(qmiLocDeleteGeofenceContextReqMsgT_v02), qmiLocDeleteGeofenceContextReqMsgT_data_v02},
+ {sizeof(qmiLocDeleteGeofenceContextIndMsgT_v02), qmiLocDeleteGeofenceContextIndMsgT_data_v02},
+ {sizeof(qmiLocInjectGtpClientDownloadedDataReqMsgT_v02), qmiLocInjectGtpClientDownloadedDataReqMsgT_data_v02},
+ {sizeof(qmiLocInjectGtpClientDownloadedDataIndMsgT_v02), qmiLocInjectGtpClientDownloadedDataIndMsgT_data_v02},
+ {sizeof(qmiLocGdtUploadBeginStatusReqMsgT_v02), qmiLocGdtUploadBeginStatusReqMsgT_data_v02},
+ {sizeof(qmiLocGdtUploadBeginStatusIndMsgT_v02), qmiLocGdtUploadBeginStatusIndMsgT_data_v02},
+ {sizeof(qmiLocGdtUploadEndReqMsgT_v02), qmiLocGdtUploadEndReqMsgT_data_v02},
+ {sizeof(qmiLocGdtUploadEndIndMsgT_v02), qmiLocGdtUploadEndIndMsgT_data_v02},
+ {sizeof(qmiLocStartDbtReqMsgT_v02), qmiLocStartDbtReqMsgT_data_v02},
+ {sizeof(qmiLocStartDbtIndMsgT_v02), qmiLocStartDbtIndMsgT_data_v02},
+ {sizeof(qmiLocStopDbtReqMsgT_v02), qmiLocStopDbtReqMsgT_data_v02},
+ {sizeof(qmiLocStopDbtIndMsgT_v02), qmiLocStopDbtIndMsgT_data_v02},
+ {sizeof(qmiLocEventDbtPositionReportIndMsgT_v02), qmiLocEventDbtPositionReportIndMsgT_data_v02},
+ {sizeof(qmiLocEventDbtSessionStatusIndMsgT_v02), qmiLocEventDbtSessionStatusIndMsgT_data_v02}
+};
+
+/* Range Table */
+/* No Ranges Defined in IDL */
+
+/* Predefine the Type Table Object */
+static const qmi_idl_type_table_object loc_qmi_idl_type_table_object_v02;
+
+/*Referenced Tables Array*/
+static const qmi_idl_type_table_object *loc_qmi_idl_type_table_object_referenced_tables_v02[] =
+{&loc_qmi_idl_type_table_object_v02, &common_qmi_idl_type_table_object_v01};
+
+/*Type Table Object*/
+static const qmi_idl_type_table_object loc_qmi_idl_type_table_object_v02 = {
+ sizeof(loc_type_table_v02)/sizeof(qmi_idl_type_table_entry ),
+ sizeof(loc_message_table_v02)/sizeof(qmi_idl_message_table_entry),
+ 1,
+ loc_type_table_v02,
+ loc_message_table_v02,
+ loc_qmi_idl_type_table_object_referenced_tables_v02,
+ NULL
+};
+
+/*Arrays of service_message_table_entries for commands, responses and indications*/
+static const qmi_idl_service_message_table_entry loc_service_command_messages_v02[] = {
+ {QMI_LOC_GET_SUPPORTED_MSGS_REQ_V02, QMI_IDL_TYPE16(1, 0), 0},
+ {QMI_LOC_GET_SUPPORTED_FIELDS_REQ_V02, QMI_IDL_TYPE16(1, 2), 5},
+ {QMI_LOC_INFORM_CLIENT_REVISION_REQ_V02, QMI_IDL_TYPE16(0, 1), 7},
+ {QMI_LOC_REG_EVENTS_REQ_V02, QMI_IDL_TYPE16(0, 2), 11},
+ {QMI_LOC_START_REQ_V02, QMI_IDL_TYPE16(0, 3), 117},
+ {QMI_LOC_STOP_REQ_V02, QMI_IDL_TYPE16(0, 4), 4},
+ {QMI_LOC_GET_SERVICE_REVISION_REQ_V02, QMI_IDL_TYPE16(0, 28), 0},
+ {QMI_LOC_GET_FIX_CRITERIA_REQ_V02, QMI_IDL_TYPE16(0, 30), 0},
+ {QMI_LOC_NI_USER_RESPONSE_REQ_V02, QMI_IDL_TYPE16(0, 32), 1345},
+ {QMI_LOC_INJECT_PREDICTED_ORBITS_DATA_REQ_V02, QMI_IDL_TYPE16(0, 34), 1053},
+ {QMI_LOC_GET_PREDICTED_ORBITS_DATA_SOURCE_REQ_V02, QMI_IDL_TYPE16(0, 36), 0},
+ {QMI_LOC_GET_PREDICTED_ORBITS_DATA_VALIDITY_REQ_V02, QMI_IDL_TYPE16(0, 38), 0},
+ {QMI_LOC_INJECT_UTC_TIME_REQ_V02, QMI_IDL_TYPE16(0, 40), 18},
+ {QMI_LOC_INJECT_POSITION_REQ_V02, QMI_IDL_TYPE16(0, 42), 123},
+ {QMI_LOC_SET_ENGINE_LOCK_REQ_V02, QMI_IDL_TYPE16(0, 44), 7},
+ {QMI_LOC_GET_ENGINE_LOCK_REQ_V02, QMI_IDL_TYPE16(0, 46), 0},
+ {QMI_LOC_SET_SBAS_CONFIG_REQ_V02, QMI_IDL_TYPE16(0, 48), 4},
+ {QMI_LOC_GET_SBAS_CONFIG_REQ_V02, QMI_IDL_TYPE16(0, 50), 0},
+ {QMI_LOC_SET_NMEA_TYPES_REQ_V02, QMI_IDL_TYPE16(0, 52), 7},
+ {QMI_LOC_GET_NMEA_TYPES_REQ_V02, QMI_IDL_TYPE16(0, 54), 0},
+ {QMI_LOC_SET_LOW_POWER_MODE_REQ_V02, QMI_IDL_TYPE16(0, 56), 4},
+ {QMI_LOC_GET_LOW_POWER_MODE_REQ_V02, QMI_IDL_TYPE16(0, 58), 0},
+ {QMI_LOC_SET_SERVER_REQ_V02, QMI_IDL_TYPE16(0, 60), 297},
+ {QMI_LOC_GET_SERVER_REQ_V02, QMI_IDL_TYPE16(0, 62), 11},
+ {QMI_LOC_DELETE_ASSIST_DATA_REQ_V02, QMI_IDL_TYPE16(0, 64), 1044},
+ {QMI_LOC_SET_XTRA_T_SESSION_CONTROL_REQ_V02, QMI_IDL_TYPE16(0, 66), 4},
+ {QMI_LOC_GET_XTRA_T_SESSION_CONTROL_REQ_V02, QMI_IDL_TYPE16(0, 68), 0},
+ {QMI_LOC_INJECT_WIFI_POSITION_REQ_V02, QMI_IDL_TYPE16(0, 70), 2353},
+ {QMI_LOC_NOTIFY_WIFI_STATUS_REQ_V02, QMI_IDL_TYPE16(0, 72), 7},
+ {QMI_LOC_GET_REGISTERED_EVENTS_REQ_V02, QMI_IDL_TYPE16(0, 74), 0},
+ {QMI_LOC_SET_OPERATION_MODE_REQ_V02, QMI_IDL_TYPE16(0, 76), 7},
+ {QMI_LOC_GET_OPERATION_MODE_REQ_V02, QMI_IDL_TYPE16(0, 78), 0},
+ {QMI_LOC_SET_SPI_STATUS_REQ_V02, QMI_IDL_TYPE16(0, 80), 8},
+ {QMI_LOC_INJECT_SENSOR_DATA_REQ_V02, QMI_IDL_TYPE16(0, 82), 2779},
+ {QMI_LOC_INJECT_TIME_SYNC_DATA_REQ_V02, QMI_IDL_TYPE16(0, 84), 21},
+ {QMI_LOC_SET_CRADLE_MOUNT_CONFIG_REQ_V02, QMI_IDL_TYPE16(0, 88), 11},
+ {QMI_LOC_GET_CRADLE_MOUNT_CONFIG_REQ_V02, QMI_IDL_TYPE16(0, 86), 0},
+ {QMI_LOC_SET_EXTERNAL_POWER_CONFIG_REQ_V02, QMI_IDL_TYPE16(0, 92), 7},
+ {QMI_LOC_GET_EXTERNAL_POWER_CONFIG_REQ_V02, QMI_IDL_TYPE16(0, 90), 0},
+ {QMI_LOC_INFORM_LOCATION_SERVER_CONN_STATUS_REQ_V02, QMI_IDL_TYPE16(0, 94), 129},
+ {QMI_LOC_SET_PROTOCOL_CONFIG_PARAMETERS_REQ_V02, QMI_IDL_TYPE16(0, 96), 57},
+ {QMI_LOC_GET_PROTOCOL_CONFIG_PARAMETERS_REQ_V02, QMI_IDL_TYPE16(0, 98), 11},
+ {QMI_LOC_SET_SENSOR_CONTROL_CONFIG_REQ_V02, QMI_IDL_TYPE16(0, 100), 14},
+ {QMI_LOC_GET_SENSOR_CONTROL_CONFIG_REQ_V02, QMI_IDL_TYPE16(0, 102), 0},
+ {QMI_LOC_SET_SENSOR_PROPERTIES_REQ_V02, QMI_IDL_TYPE16(0, 104), 88},
+ {QMI_LOC_GET_SENSOR_PROPERTIES_REQ_V02, QMI_IDL_TYPE16(0, 106), 7},
+ {QMI_LOC_SET_SENSOR_PERFORMANCE_CONTROL_CONFIGURATION_REQ_V02, QMI_IDL_TYPE16(0, 108), 42},
+ {QMI_LOC_GET_SENSOR_PERFORMANCE_CONTROL_CONFIGURATION_REQ_V02, QMI_IDL_TYPE16(0, 110), 0},
+ {QMI_LOC_INJECT_SUPL_CERTIFICATE_REQ_V02, QMI_IDL_TYPE16(0, 112), 2009},
+ {QMI_LOC_DELETE_SUPL_CERTIFICATE_REQ_V02, QMI_IDL_TYPE16(0, 114), 4},
+ {QMI_LOC_SET_POSITION_ENGINE_CONFIG_PARAMETERS_REQ_V02, QMI_IDL_TYPE16(0, 116), 16},
+ {QMI_LOC_GET_POSITION_ENGINE_CONFIG_PARAMETERS_REQ_V02, QMI_IDL_TYPE16(0, 118), 7},
+ {QMI_LOC_ADD_CIRCULAR_GEOFENCE_REQ_V02, QMI_IDL_TYPE16(0, 120), 52},
+ {QMI_LOC_DELETE_GEOFENCE_REQ_V02, QMI_IDL_TYPE16(0, 122), 14},
+ {QMI_LOC_QUERY_GEOFENCE_REQ_V02, QMI_IDL_TYPE16(0, 124), 14},
+ {QMI_LOC_EDIT_GEOFENCE_REQ_V02, QMI_IDL_TYPE16(0, 130), 32},
+ {QMI_LOC_GET_BEST_AVAILABLE_POSITION_REQ_V02, QMI_IDL_TYPE16(0, 132), 7},
+ {QMI_LOC_INJECT_MOTION_DATA_REQ_V02, QMI_IDL_TYPE16(0, 134), 19},
+ {QMI_LOC_GET_NI_GEOFENCE_ID_LIST_REQ_V02, QMI_IDL_TYPE16(0, 136), 7},
+ {QMI_LOC_INJECT_GSM_CELL_INFO_REQ_V02, QMI_IDL_TYPE16(0, 138), 30},
+ {QMI_LOC_INJECT_NETWORK_INITIATED_MESSAGE_REQ_V02, QMI_IDL_TYPE16(0, 146), 1036},
+ {QMI_LOC_WWAN_OUT_OF_SERVICE_NOTIFICATION_REQ_V02, QMI_IDL_TYPE16(0, 148), 0},
+ {QMI_LOC_PEDOMETER_REPORT_REQ_V02, QMI_IDL_TYPE16(0, 150), 46},
+ {QMI_LOC_INJECT_WCDMA_CELL_INFO_REQ_V02, QMI_IDL_TYPE16(0, 140), 36},
+ {QMI_LOC_INJECT_TDSCDMA_CELL_INFO_REQ_V02, QMI_IDL_TYPE16(0, 142), 33},
+ {QMI_LOC_INJECT_SUBSCRIBER_ID_REQ_V02, QMI_IDL_TYPE16(0, 144), 22},
+ {QMI_LOC_SET_GEOFENCE_ENGINE_CONFIG_REQ_V02, QMI_IDL_TYPE16(0, 126), 224},
+ {QMI_LOC_GET_GEOFENCE_ENGINE_CONFIG_REQ_V02, QMI_IDL_TYPE16(0, 128), 7},
+ {QMI_LOC_GET_BATCH_SIZE_REQ_V02, QMI_IDL_TYPE16(0, 152), 14},
+ {QMI_LOC_START_BATCHING_REQ_V02, QMI_IDL_TYPE16(0, 154), 21},
+ {QMI_LOC_READ_FROM_BATCH_REQ_V02, QMI_IDL_TYPE16(0, 158), 19},
+ {QMI_LOC_STOP_BATCHING_REQ_V02, QMI_IDL_TYPE16(0, 160), 7},
+ {QMI_LOC_RELEASE_BATCH_REQ_V02, QMI_IDL_TYPE16(0, 162), 7},
+ {QMI_LOC_INJECT_WIFI_AP_DATA_REQ_V02, QMI_IDL_TYPE16(0, 165), 2454},
+ {QMI_LOC_NOTIFY_WIFI_ATTACHMENT_STATUS_REQ_V02, QMI_IDL_TYPE16(0, 167), 51},
+ {QMI_LOC_NOTIFY_WIFI_ENABLED_STATUS_REQ_V02, QMI_IDL_TYPE16(0, 169), 7},
+ {QMI_LOC_INJECT_VEHICLE_SENSOR_DATA_REQ_V02, QMI_IDL_TYPE16(0, 172), 3360},
+ {QMI_LOC_GET_AVAILABLE_WWAN_POSITION_REQ_V02, QMI_IDL_TYPE16(0, 174), 7},
+ {QMI_LOC_SET_PREMIUM_SERVICES_CONFIG_REQ_V02, QMI_IDL_TYPE16(0, 176), 14},
+ {QMI_LOC_SET_XTRA_VERSION_CHECK_REQ_V02, QMI_IDL_TYPE16(0, 178), 7},
+ {QMI_LOC_SET_GNSS_CONSTELL_REPORT_CONFIG_V02, QMI_IDL_TYPE16(0, 180), 22},
+ {QMI_LOC_ADD_GEOFENCE_CONTEXT_REQ_V02, QMI_IDL_TYPE16(0, 184), 2517},
+ {QMI_LOC_SET_GEOFENCE_ENGINE_CONTEXT_REQ_V02, QMI_IDL_TYPE16(0, 186), 25},
+ {QMI_LOC_DELETE_GEOFENCE_CONTEXT_REQ_V02, QMI_IDL_TYPE16(0, 188), 21},
+ {QMI_LOC_INJECT_GTP_CLIENT_DOWNLOADED_DATA_REQ_V02, QMI_IDL_TYPE16(0, 190), 517},
+ {QMI_LOC_GDT_UPLOAD_BEGIN_STATUS_REQ_V02, QMI_IDL_TYPE16(0, 192), 21},
+ {QMI_LOC_GDT_UPLOAD_END_REQ_V02, QMI_IDL_TYPE16(0, 194), 21},
+ {QMI_LOC_START_DBT_REQ_V02, QMI_IDL_TYPE16(0, 196), 40},
+ {QMI_LOC_STOP_DBT_REQ_V02, QMI_IDL_TYPE16(0, 198), 4}
+};
+
+static const qmi_idl_service_message_table_entry loc_service_response_messages_v02[] = {
+ {QMI_LOC_GET_SUPPORTED_MSGS_RESP_V02, QMI_IDL_TYPE16(1, 1), 8204},
+ {QMI_LOC_GET_SUPPORTED_FIELDS_RESP_V02, QMI_IDL_TYPE16(1, 3), 115},
+ {QMI_LOC_INFORM_CLIENT_REVISION_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_REG_EVENTS_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_START_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_STOP_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_GET_SERVICE_REVISION_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_GET_FIX_CRITERIA_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_NI_USER_RESPONSE_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_INJECT_PREDICTED_ORBITS_DATA_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_GET_PREDICTED_ORBITS_DATA_SOURCE_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_GET_PREDICTED_ORBITS_DATA_VALIDITY_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_INJECT_UTC_TIME_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_INJECT_POSITION_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_SET_ENGINE_LOCK_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_GET_ENGINE_LOCK_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_SET_SBAS_CONFIG_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_GET_SBAS_CONFIG_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_SET_NMEA_TYPES_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_GET_NMEA_TYPES_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_SET_LOW_POWER_MODE_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_GET_LOW_POWER_MODE_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_SET_SERVER_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_GET_SERVER_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_DELETE_ASSIST_DATA_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_SET_XTRA_T_SESSION_CONTROL_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_GET_XTRA_T_SESSION_CONTROL_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_INJECT_WIFI_POSITION_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_NOTIFY_WIFI_STATUS_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_GET_REGISTERED_EVENTS_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_SET_OPERATION_MODE_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_GET_OPERATION_MODE_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_SET_SPI_STATUS_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_INJECT_SENSOR_DATA_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_INJECT_TIME_SYNC_DATA_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_SET_CRADLE_MOUNT_CONFIG_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_GET_CRADLE_MOUNT_CONFIG_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_SET_EXTERNAL_POWER_CONFIG_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_GET_EXTERNAL_POWER_CONFIG_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_INFORM_LOCATION_SERVER_CONN_STATUS_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_SET_PROTOCOL_CONFIG_PARAMETERS_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_GET_PROTOCOL_CONFIG_PARAMETERS_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_SET_SENSOR_CONTROL_CONFIG_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_GET_SENSOR_CONTROL_CONFIG_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_SET_SENSOR_PROPERTIES_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_GET_SENSOR_PROPERTIES_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_SET_SENSOR_PERFORMANCE_CONTROL_CONFIGURATION_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_GET_SENSOR_PERFORMANCE_CONTROL_CONFIGURATION_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_INJECT_SUPL_CERTIFICATE_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_DELETE_SUPL_CERTIFICATE_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_SET_POSITION_ENGINE_CONFIG_PARAMETERS_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_GET_POSITION_ENGINE_CONFIG_PARAMETERS_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_ADD_CIRCULAR_GEOFENCE_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_DELETE_GEOFENCE_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_QUERY_GEOFENCE_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_EDIT_GEOFENCE_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_GET_BEST_AVAILABLE_POSITION_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_INJECT_MOTION_DATA_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_GET_NI_GEOFENCE_ID_LIST_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_INJECT_GSM_CELL_INFO_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_INJECT_NETWORK_INITIATED_MESSAGE_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_WWAN_OUT_OF_SERVICE_NOTIFICATION_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_PEDOMETER_REPORT_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_INJECT_WCDMA_CELL_INFO_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_INJECT_TDSCDMA_CELL_INFO_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_INJECT_SUBSCRIBER_ID_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_SET_GEOFENCE_ENGINE_CONFIG_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_GET_GEOFENCE_ENGINE_CONFIG_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_GET_BATCH_SIZE_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_START_BATCHING_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_READ_FROM_BATCH_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_STOP_BATCHING_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_RELEASE_BATCH_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_INJECT_WIFI_AP_DATA_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_NOTIFY_WIFI_ATTACHMENT_STATUS_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_NOTIFY_WIFI_ENABLED_STATUS_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_INJECT_VEHICLE_SENSOR_DATA_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_GET_AVAILABLE_WWAN_POSITION_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_SET_PREMIUM_SERVICES_CONFIG_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_SET_XTRA_VERSION_CHECK_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_SET_GNSS_CONSTELL_REPORT_CONFIG_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_ADD_GEOFENCE_CONTEXT_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_SET_GEOFENCE_ENGINE_CONTEXT_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_DELETE_GEOFENCE_CONTEXT_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_INJECT_GTP_CLIENT_DOWNLOADED_DATA_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_GDT_UPLOAD_BEGIN_STATUS_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_GDT_UPLOAD_END_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_START_DBT_RESP_V02, QMI_IDL_TYPE16(0, 0), 7},
+ {QMI_LOC_STOP_DBT_RESP_V02, QMI_IDL_TYPE16(0, 0), 7}
+};
+
+static const qmi_idl_service_message_table_entry loc_service_indication_messages_v02[] = {
+ {QMI_LOC_EVENT_POSITION_REPORT_IND_V02, QMI_IDL_TYPE16(0, 5), 392},
+ {QMI_LOC_EVENT_GNSS_SV_INFO_IND_V02, QMI_IDL_TYPE16(0, 6), 2248},
+ {QMI_LOC_EVENT_NMEA_IND_V02, QMI_IDL_TYPE16(0, 7), 203},
+ {QMI_LOC_EVENT_NI_NOTIFY_VERIFY_REQ_IND_V02, QMI_IDL_TYPE16(0, 8), 1338},
+ {QMI_LOC_EVENT_INJECT_TIME_REQ_IND_V02, QMI_IDL_TYPE16(0, 9), 776},
+ {QMI_LOC_EVENT_INJECT_PREDICTED_ORBITS_REQ_IND_V02, QMI_IDL_TYPE16(0, 10), 783},
+ {QMI_LOC_EVENT_INJECT_POSITION_REQ_IND_V02, QMI_IDL_TYPE16(0, 11), 40},
+ {QMI_LOC_EVENT_ENGINE_STATE_IND_V02, QMI_IDL_TYPE16(0, 12), 7},
+ {QMI_LOC_EVENT_FIX_SESSION_STATE_IND_V02, QMI_IDL_TYPE16(0, 13), 11},
+ {QMI_LOC_EVENT_WIFI_REQ_IND_V02, QMI_IDL_TYPE16(0, 14), 12},
+ {QMI_LOC_EVENT_SENSOR_STREAMING_READY_STATUS_IND_V02, QMI_IDL_TYPE16(0, 15), 48},
+ {QMI_LOC_EVENT_TIME_SYNC_REQ_IND_V02, QMI_IDL_TYPE16(0, 16), 7},
+ {QMI_LOC_EVENT_SET_SPI_STREAMING_REPORT_IND_V02, QMI_IDL_TYPE16(0, 17), 4},
+ {QMI_LOC_EVENT_LOCATION_SERVER_CONNECTION_REQ_IND_V02, QMI_IDL_TYPE16(0, 18), 21},
+ {QMI_LOC_GET_SERVICE_REVISION_IND_V02, QMI_IDL_TYPE16(0, 29), 532},
+ {QMI_LOC_GET_FIX_CRITERIA_IND_V02, QMI_IDL_TYPE16(0, 31), 99},
+ {QMI_LOC_NI_USER_RESPONSE_IND_V02, QMI_IDL_TYPE16(0, 33), 7},
+ {QMI_LOC_INJECT_PREDICTED_ORBITS_DATA_IND_V02, QMI_IDL_TYPE16(0, 35), 12},
+ {QMI_LOC_GET_PREDICTED_ORBITS_DATA_SOURCE_IND_V02, QMI_IDL_TYPE16(0, 37), 790},
+ {QMI_LOC_GET_PREDICTED_ORBITS_DATA_VALIDITY_IND_V02, QMI_IDL_TYPE16(0, 39), 20},
+ {QMI_LOC_INJECT_UTC_TIME_IND_V02, QMI_IDL_TYPE16(0, 41), 7},
+ {QMI_LOC_INJECT_POSITION_IND_V02, QMI_IDL_TYPE16(0, 43), 7},
+ {QMI_LOC_SET_ENGINE_LOCK_IND_V02, QMI_IDL_TYPE16(0, 45), 7},
+ {QMI_LOC_GET_ENGINE_LOCK_IND_V02, QMI_IDL_TYPE16(0, 47), 14},
+ {QMI_LOC_SET_SBAS_CONFIG_IND_V02, QMI_IDL_TYPE16(0, 49), 7},
+ {QMI_LOC_GET_SBAS_CONFIG_IND_V02, QMI_IDL_TYPE16(0, 51), 11},
+ {QMI_LOC_SET_NMEA_TYPES_IND_V02, QMI_IDL_TYPE16(0, 53), 7},
+ {QMI_LOC_GET_NMEA_TYPES_IND_V02, QMI_IDL_TYPE16(0, 55), 14},
+ {QMI_LOC_SET_LOW_POWER_MODE_IND_V02, QMI_IDL_TYPE16(0, 57), 7},
+ {QMI_LOC_GET_LOW_POWER_MODE_IND_V02, QMI_IDL_TYPE16(0, 59), 11},
+ {QMI_LOC_SET_SERVER_IND_V02, QMI_IDL_TYPE16(0, 61), 7},
+ {QMI_LOC_GET_SERVER_IND_V02, QMI_IDL_TYPE16(0, 63), 304},
+ {QMI_LOC_DELETE_ASSIST_DATA_IND_V02, QMI_IDL_TYPE16(0, 65), 7},
+ {QMI_LOC_SET_XTRA_T_SESSION_CONTROL_IND_V02, QMI_IDL_TYPE16(0, 67), 7},
+ {QMI_LOC_GET_XTRA_T_SESSION_CONTROL_IND_V02, QMI_IDL_TYPE16(0, 69), 11},
+ {QMI_LOC_INJECT_WIFI_POSITION_IND_V02, QMI_IDL_TYPE16(0, 71), 7},
+ {QMI_LOC_NOTIFY_WIFI_STATUS_IND_V02, QMI_IDL_TYPE16(0, 73), 7},
+ {QMI_LOC_GET_REGISTERED_EVENTS_IND_V02, QMI_IDL_TYPE16(0, 75), 18},
+ {QMI_LOC_SET_OPERATION_MODE_IND_V02, QMI_IDL_TYPE16(0, 77), 7},
+ {QMI_LOC_GET_OPERATION_MODE_IND_V02, QMI_IDL_TYPE16(0, 79), 14},
+ {QMI_LOC_SET_SPI_STATUS_IND_V02, QMI_IDL_TYPE16(0, 81), 7},
+ {QMI_LOC_INJECT_SENSOR_DATA_IND_V02, QMI_IDL_TYPE16(0, 83), 34},
+ {QMI_LOC_INJECT_TIME_SYNC_DATA_IND_V02, QMI_IDL_TYPE16(0, 85), 7},
+ {QMI_LOC_SET_CRADLE_MOUNT_CONFIG_IND_V02, QMI_IDL_TYPE16(0, 89), 7},
+ {QMI_LOC_GET_CRADLE_MOUNT_CONFIG_IND_V02, QMI_IDL_TYPE16(0, 87), 18},
+ {QMI_LOC_SET_EXTERNAL_POWER_CONFIG_IND_V02, QMI_IDL_TYPE16(0, 93), 7},
+ {QMI_LOC_GET_EXTERNAL_POWER_CONFIG_IND_V02, QMI_IDL_TYPE16(0, 91), 14},
+ {QMI_LOC_INFORM_LOCATION_SERVER_CONN_STATUS_IND_V02, QMI_IDL_TYPE16(0, 95), 7},
+ {QMI_LOC_SET_PROTOCOL_CONFIG_PARAMETERS_IND_V02, QMI_IDL_TYPE16(0, 97), 18},
+ {QMI_LOC_GET_PROTOCOL_CONFIG_PARAMETERS_IND_V02, QMI_IDL_TYPE16(0, 99), 64},
+ {QMI_LOC_SET_SENSOR_CONTROL_CONFIG_IND_V02, QMI_IDL_TYPE16(0, 101), 7},
+ {QMI_LOC_GET_SENSOR_CONTROL_CONFIG_IND_V02, QMI_IDL_TYPE16(0, 103), 21},
+ {QMI_LOC_SET_SENSOR_PROPERTIES_IND_V02, QMI_IDL_TYPE16(0, 105), 14},
+ {QMI_LOC_GET_SENSOR_PROPERTIES_IND_V02, QMI_IDL_TYPE16(0, 107), 95},
+ {QMI_LOC_SET_SENSOR_PERFORMANCE_CONTROL_CONFIGURATION_IND_V02, QMI_IDL_TYPE16(0, 109), 14},
+ {QMI_LOC_GET_SENSOR_PERFORMANCE_CONTROL_CONFIGURATION_IND_V02, QMI_IDL_TYPE16(0, 111), 49},
+ {QMI_LOC_INJECT_SUPL_CERTIFICATE_IND_V02, QMI_IDL_TYPE16(0, 113), 7},
+ {QMI_LOC_DELETE_SUPL_CERTIFICATE_IND_V02, QMI_IDL_TYPE16(0, 115), 7},
+ {QMI_LOC_SET_POSITION_ENGINE_CONFIG_PARAMETERS_IND_V02, QMI_IDL_TYPE16(0, 117), 14},
+ {QMI_LOC_GET_POSITION_ENGINE_CONFIG_PARAMETERS_IND_V02, QMI_IDL_TYPE16(0, 119), 23},
+ {QMI_LOC_EVENT_NI_GEOFENCE_NOTIFICATION_IND_V02, QMI_IDL_TYPE16(0, 19), 14},
+ {QMI_LOC_EVENT_GEOFENCE_GEN_ALERT_IND_V02, QMI_IDL_TYPE16(0, 20), 7},
+ {QMI_LOC_EVENT_GEOFENCE_BREACH_NOTIFICATION_IND_V02, QMI_IDL_TYPE16(0, 21), 85},
+ {QMI_LOC_ADD_CIRCULAR_GEOFENCE_IND_V02, QMI_IDL_TYPE16(0, 121), 21},
+ {QMI_LOC_DELETE_GEOFENCE_IND_V02, QMI_IDL_TYPE16(0, 123), 21},
+ {QMI_LOC_QUERY_GEOFENCE_IND_V02, QMI_IDL_TYPE16(0, 125), 65},
+ {QMI_LOC_EDIT_GEOFENCE_IND_V02, QMI_IDL_TYPE16(0, 131), 28},
+ {QMI_LOC_GET_BEST_AVAILABLE_POSITION_IND_V02, QMI_IDL_TYPE16(0, 133), 391},
+ {QMI_LOC_INJECT_MOTION_DATA_IND_V02, QMI_IDL_TYPE16(0, 135), 7},
+ {QMI_LOC_GET_NI_GEOFENCE_ID_LIST_IND_V02, QMI_IDL_TYPE16(0, 137), 82},
+ {QMI_LOC_INJECT_GSM_CELL_INFO_IND_V02, QMI_IDL_TYPE16(0, 139), 7},
+ {QMI_LOC_INJECT_NETWORK_INITIATED_MESSAGE_IND_V02, QMI_IDL_TYPE16(0, 147), 7},
+ {QMI_LOC_WWAN_OUT_OF_SERVICE_NOTIFICATION_IND_V02, QMI_IDL_TYPE16(0, 149), 7},
+ {QMI_LOC_EVENT_PEDOMETER_CONTROL_IND_V02, QMI_IDL_TYPE16(0, 22), 15},
+ {QMI_LOC_EVENT_MOTION_DATA_CONTROL_IND_V02, QMI_IDL_TYPE16(0, 23), 4},
+ {QMI_LOC_PEDOMETER_REPORT_IND_V02, QMI_IDL_TYPE16(0, 151), 7},
+ {QMI_LOC_INJECT_WCDMA_CELL_INFO_IND_V02, QMI_IDL_TYPE16(0, 141), 7},
+ {QMI_LOC_INJECT_TDSCDMA_CELL_INFO_IND_V02, QMI_IDL_TYPE16(0, 143), 7},
+ {QMI_LOC_INJECT_SUBSCRIBER_ID_IND_V02, QMI_IDL_TYPE16(0, 145), 7},
+ {QMI_LOC_SET_GEOFENCE_ENGINE_CONFIG_IND_V02, QMI_IDL_TYPE16(0, 127), 14},
+ {QMI_LOC_GET_GEOFENCE_ENGINE_CONFIG_IND_V02, QMI_IDL_TYPE16(0, 129), 39},
+ {QMI_LOC_GET_BATCH_SIZE_IND_V02, QMI_IDL_TYPE16(0, 153), 21},
+ {QMI_LOC_START_BATCHING_IND_V02, QMI_IDL_TYPE16(0, 155), 7},
+ {QMI_LOC_EVENT_BATCH_FULL_NOTIFICATION_IND_V02, QMI_IDL_TYPE16(0, 156), 7},
+ {QMI_LOC_EVENT_LIVE_BATCHED_POSITION_REPORT_IND_V02, QMI_IDL_TYPE16(0, 157), 90},
+ {QMI_LOC_READ_FROM_BATCH_IND_V02, QMI_IDL_TYPE16(0, 159), 460},
+ {QMI_LOC_STOP_BATCHING_IND_V02, QMI_IDL_TYPE16(0, 161), 14},
+ {QMI_LOC_RELEASE_BATCH_IND_V02, QMI_IDL_TYPE16(0, 163), 14},
+ {QMI_LOC_EVENT_INJECT_WIFI_AP_DATA_REQ_IND_V02, QMI_IDL_TYPE16(0, 164), 0},
+ {QMI_LOC_INJECT_WIFI_AP_DATA_IND_V02, QMI_IDL_TYPE16(0, 166), 7},
+ {QMI_LOC_NOTIFY_WIFI_ATTACHMENT_STATUS_IND_V02, QMI_IDL_TYPE16(0, 168), 7},
+ {QMI_LOC_NOTIFY_WIFI_ENABLED_STATUS_IND_V02, QMI_IDL_TYPE16(0, 170), 7},
+ {QMI_LOC_EVENT_GEOFENCE_BATCHED_BREACH_NOTIFICATION_IND_V02, QMI_IDL_TYPE16(0, 24), 1254},
+ {QMI_LOC_EVENT_VEHICLE_DATA_READY_STATUS_IND_V02, QMI_IDL_TYPE16(0, 171), 12},
+ {QMI_LOC_INJECT_VEHICLE_SENSOR_DATA_IND_V02, QMI_IDL_TYPE16(0, 173), 7},
+ {QMI_LOC_GET_AVAILABLE_WWAN_POSITION_IND_V02, QMI_IDL_TYPE16(0, 175), 145},
+ {QMI_LOC_SET_PREMIUM_SERVICES_CONFIG_IND_V02, QMI_IDL_TYPE16(0, 177), 7},
+ {QMI_LOC_SET_XTRA_VERSION_CHECK_IND_V02, QMI_IDL_TYPE16(0, 179), 7},
+ {QMI_LOC_EVENT_GNSS_MEASUREMENT_REPORT_IND_V02, QMI_IDL_TYPE16(0, 182), 1610},
+ {QMI_LOC_EVENT_SV_POLYNOMIAL_REPORT_IND_V02, QMI_IDL_TYPE16(0, 183), 325},
+ {QMI_LOC_SET_GNSS_CONSTELL_REPORT_CONFIG_IND_V02, QMI_IDL_TYPE16(0, 181), 7},
+ {QMI_LOC_ADD_GEOFENCE_CONTEXT_IND_V02, QMI_IDL_TYPE16(0, 185), 28},
+ {QMI_LOC_SET_GEOFENCE_ENGINE_CONTEXT_IND_V02, QMI_IDL_TYPE16(0, 187), 14},
+ {QMI_LOC_DELETE_GEOFENCE_CONTEXT_IND_V02, QMI_IDL_TYPE16(0, 189), 28},
+ {QMI_LOC_EVENT_GEOFENCE_PROXIMITY_NOTIFICATION_IND_V02, QMI_IDL_TYPE16(0, 25), 21},
+ {QMI_LOC_INJECT_GTP_CLIENT_DOWNLOADED_DATA_IND_V02, QMI_IDL_TYPE16(0, 191), 7},
+ {QMI_LOC_GDT_UPLOAD_BEGIN_STATUS_IND_V02, QMI_IDL_TYPE16(0, 193), 7},
+ {QMI_LOC_GDT_UPLOAD_END_IND_V02, QMI_IDL_TYPE16(0, 195), 7},
+ {QMI_LOC_EVENT_GDT_UPLOAD_BEGIN_STATUS_REQ_IND_V02, QMI_IDL_TYPE16(0, 26), 273},
+ {QMI_LOC_EVENT_GDT_UPLOAD_END_REQ_IND_V02, QMI_IDL_TYPE16(0, 27), 21},
+ {QMI_LOC_START_DBT_IND_V02, QMI_IDL_TYPE16(0, 197), 7},
+ {QMI_LOC_EVENT_DBT_POSITION_REPORT_IND_V02, QMI_IDL_TYPE16(0, 200), 288},
+ {QMI_LOC_EVENT_DBT_SESSION_STATUS_IND_V02, QMI_IDL_TYPE16(0, 201), 7},
+ {QMI_LOC_STOP_DBT_IND_V02, QMI_IDL_TYPE16(0, 199), 7}
+};
+
+/*Service Object*/
+struct qmi_idl_service_object loc_qmi_idl_service_object_v02 = {
+ 0x06,
+ 0x02,
+ 0x10,
+ 8204,
+ { sizeof(loc_service_command_messages_v02)/sizeof(qmi_idl_service_message_table_entry),
+ sizeof(loc_service_response_messages_v02)/sizeof(qmi_idl_service_message_table_entry),
+ sizeof(loc_service_indication_messages_v02)/sizeof(qmi_idl_service_message_table_entry) },
+ { loc_service_command_messages_v02, loc_service_response_messages_v02, loc_service_indication_messages_v02},
+ &loc_qmi_idl_type_table_object_v02,
+ 0x25,
+ NULL
+};
+
+/* Service Object Accessor */
+qmi_idl_service_object_type loc_get_service_object_internal_v02
+ ( int32_t idl_maj_version, int32_t idl_min_version, int32_t library_version ){
+ if ( LOC_V02_IDL_MAJOR_VERS != idl_maj_version || LOC_V02_IDL_MINOR_VERS != idl_min_version
+ || LOC_V02_IDL_TOOL_VERS != library_version)
+ {
+ return NULL;
+ }
+ return (qmi_idl_service_object_type)&loc_qmi_idl_service_object_v02;
+}
+
diff --git a/location/loc_api/loc_api_v02/location_service_v02.h b/location/loc_api/loc_api_v02/location_service_v02.h
new file mode 100644
index 0000000..1b78cd0
--- /dev/null
+++ b/location/loc_api/loc_api_v02/location_service_v02.h
@@ -0,0 +1,13969 @@
+/* Copyright (c) 2011-2014, The Linux Foundation. All rights reserved.
+ *
+ * Redistribution and use in source and binary forms, with or without
+ * modification, are permitted provided that the following conditions are
+ * met:
+ * * Redistributions of source code must retain the above copyright
+ * notice, this list of conditions and the following disclaimer.
+ * * Redistributions in binary form must reproduce the above
+ * copyright notice, this list of conditions and the following
+ * disclaimer in the documentation and/or other materials provided
+ * with the distribution.
+ * * Neither the name of The Linux Foundation, nor the names of its
+ * contributors may be used to endorse or promote products derived
+ * from this software without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED "AS IS" AND ANY EXPRESS OR IMPLIED
+ * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
+ * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT
+ * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS
+ * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
+ * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
+ * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
+ * BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
+ * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE
+ * OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN
+ * IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ */
+#ifndef LOC_SERVICE_02_H
+#define LOC_SERVICE_02_H
+/**
+ @file location_service_v02.h
+
+ @brief This is the public header file which defines the loc service Data structures.
+
+ This header file defines the types and structures that were defined in
+ loc. It contains the constant values defined, enums, structures,
+ messages, and service message IDs (in that order) Structures that were
+ defined in the IDL as messages contain mandatory elements, optional
+ elements, a combination of mandatory and optional elements (mandatory
+ always come before optionals in the structure), or nothing (null message)
+
+ An optional element in a message is preceded by a uint8_t value that must be
+ set to true if the element is going to be included. When decoding a received
+ message, the uint8_t values will be set to true or false by the decode
+ routine, and should be checked before accessing the values that they
+ correspond to.
+
+ Variable sized arrays are defined as static sized arrays with an unsigned
+ integer (32 bit) preceding it that must be set to the number of elements
+ in the array that are valid. For Example:
+
+ uint32_t test_opaque_len;
+ uint8_t test_opaque[16];
+
+ If only 4 elements are added to test_opaque[] then test_opaque_len must be
+ set to 4 before sending the message. When decoding, the _len value is set
+ by the decode routine and should be checked so that the correct number of
+ elements in the array will be accessed.
+
+*/
+/*====*====*====*====*====*====*====*====*====*====*====*====*====*====*====*
+ *THIS IS AN AUTO GENERATED FILE. DO NOT ALTER IN ANY WAY
+ *====*====*====*====*====*====*====*====*====*====*====*====*====*====*====*/
+
+/* This file was generated with Tool version 6.14.2
+ It was generated on: Sat Dec 13 2014 (Spin 0)
+ From IDL File: location_service_v02.idl */
+
+/** @defgroup loc_qmi_consts Constant values defined in the IDL */
+/** @defgroup loc_qmi_msg_ids Constant values for QMI message IDs */
+/** @defgroup loc_qmi_enums Enumerated types used in QMI messages */
+/** @defgroup loc_qmi_messages Structures sent as QMI messages */
+/** @defgroup loc_qmi_aggregates Aggregate types used in QMI messages */
+/** @defgroup loc_qmi_accessor Accessor for QMI service object */
+/** @defgroup loc_qmi_version Constant values for versioning information */
+
+#include <stdint.h>
+#include "qmi_idl_lib.h"
+#include "common_v01.h"
+
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/** @addtogroup loc_qmi_version
+ @{
+ */
+/** Major Version Number of the IDL used to generate this file */
+#define LOC_V02_IDL_MAJOR_VERS 0x02
+/** Revision Number of the IDL used to generate this file */
+#define LOC_V02_IDL_MINOR_VERS 0x25
+/** Major Version Number of the qmi_idl_compiler used to generate this file */
+#define LOC_V02_IDL_TOOL_VERS 0x06
+/** Maximum Defined Message ID */
+#define LOC_V02_MAX_MESSAGE_ID 0x0095
+/**
+ @}
+ */
+
+
+/** @addtogroup loc_qmi_consts
+ @{
+ */
+
+/** Maximum string length for the Provider field in the application ID. */
+#define QMI_LOC_MAX_APP_ID_PROVIDER_LENGTH_V02 24
+
+/** Maximum string length for the Name field in the application ID. */
+#define QMI_LOC_MAX_APP_ID_NAME_LENGTH_V02 32
+
+/** Maximum string length for the Version field in the application ID. */
+#define QMI_LOC_MAX_APP_ID_VERSION_LENGTH_V02 8
+
+/** Maximum length of the list containing the SVs that were used to generate
+ a position report. */
+#define QMI_LOC_MAX_SV_USED_LIST_LENGTH_V02 80
+
+/** Maximum number of satellites in the satellite report. */
+#define QMI_LOC_SV_INFO_LIST_MAX_SIZE_V02 80
+
+/** Maximum NMEA string length. */
+#define QMI_LOC_NMEA_STRING_MAX_LENGTH_V02 200
+
+/** Maximum length of the requestor ID string. */
+#define QMI_LOC_NI_MAX_REQUESTOR_ID_LENGTH_V02 200
+
+/** Session ID byte length. */
+#define QMI_LOC_NI_SUPL_SLP_SESSION_ID_BYTE_LENGTH_V02 4
+
+/** Maximum client name length allowed. */
+#define QMI_LOC_NI_MAX_CLIENT_NAME_LENGTH_V02 64
+
+/** Maximum URL length accepted by the location engine. */
+#define QMI_LOC_MAX_SERVER_ADDR_LENGTH_V02 255
+
+/** IPv6 address length in bytes. */
+#define QMI_LOC_IPV6_ADDR_LENGTH_V02 8
+
+/** SUPL hash length. */
+#define QMI_LOC_NI_SUPL_HASH_LENGTH_V02 8
+
+/** Maximum client address length allowed. */
+#define QMI_LOC_NI_MAX_EXT_CLIENT_ADDRESS_V02 20
+
+/** Maximum codeword length allowed. */
+#define QMI_LOC_NI_CODEWORD_MAX_LENGTH_V02 20
+
+/** Maximum number of NTP Servers sent out with this event. */
+#define QMI_LOC_MAX_NTP_SERVERS_V02 3
+
+/** Maximum number of predicted orbits servers supported in the location
+ engine. */
+#define QMI_LOC_MAX_PREDICTED_ORBITS_SERVERS_V02 3
+
+/** Maximum length of the list, where each element of the list contains the
+ continuous range of Geofences that were breached at a given position. */
+#define QMI_LOC_MAX_GEOFENCE_ID_CONTINUOUS_LIST_LENGTH_V02 80
+
+/** Maximum length of the list that contains a discrete number Geofences that
+ were breached at a given position. */
+#define QMI_LOC_MAX_GEOFENCE_ID_DISCRETE_LIST_LENGTH_V02 80
+
+/** Maximum length that can be injected. */
+#define QMI_LOC_MAX_GDT_PATH_LEN_V02 255
+
+/** Maximum GNSS Measurement Engine Firmware Version String length. */
+#define QMI_LOC_GNSS_ME_VERSION_STRING_MAX_LENGTH_V02 127
+
+/** Maximum GNSS Measurement Engine Hosted Software Version String length. */
+#define QMI_LOC_GNSS_HOSTED_SW_VERSION_STRING_MAX_LENGTH_V02 127
+
+/** Maximum GNSS Measurement Engine Full Version String length. */
+#define QMI_LOC_GNSS_SW_VERSION_STRING_MAX_LENGTH_V02 255
+
+/** Maximum part length that can be injected. The client should
+ also look at the maxPartSize field in the predicted orbits injection
+ request indication and pick the minimum of the two. */
+#define QMI_LOC_MAX_PREDICTED_ORBITS_PART_LEN_V02 1024
+
+/** Maximum length of the delete SV information list */
+#define QMI_LOC_DELETE_MAX_SV_INFO_LENGTH_V02 128
+
+/** Maximum length of the Delete BDS SV Information list. */
+#define QMI_LOC_DELETE_MAX_BDS_SV_INFO_LENGTH_V02 37
+
+/** MAC address length in bytes. */
+#define QMI_LOC_WIFI_MAC_ADDR_LENGTH_V02 6
+
+/** Wi-Fi SSID string maximum length. */
+#define QMI_LOC_MAX_WIFI_AP_SSID_STR_LENGTH_V02 32
+
+/** Maximum number of APs that the sender can report. */
+#define QMI_LOC_WIFI_MAX_REPORTED_APS_PER_MSG_V02 50
+
+/** Maximum number of samples that can be injected in a TLV. */
+#define QMI_LOC_SENSOR_DATA_MAX_SAMPLES_V02 50
+
+/** Maximum APN string length allowed. */
+#define QMI_LOC_MAX_APN_NAME_LENGTH_V02 100
+
+/** Maximum APN profiles supported. */
+#define QMI_LOC_MAX_APN_PROFILES_V02 6
+
+/** Maximum length of the SUPL certificate. */
+#define QMI_LOC_MAX_SUPL_CERT_LENGTH_V02 2000
+
+/** Maximum number of motion states used by the Geofence engine. */
+#define QMI_LOC_GEOFENCE_MAX_MOTION_STATES_V02 20
+
+/** Maximum length of the network-initiated Geofence ID
+ list. */
+#define QMI_LOC_MAX_NI_GEOFENCE_ID_LIST_LENGTH_V02 16
+
+/** Maximum value of WDMA frequency for injection of WCDMA cell
+ information. */
+#define QMI_LOC_MAX_WCDMA_FREQ_V02 16383
+
+/** Maximum value of PSC for injection of WCDMA cell information. */
+#define QMI_LOC_MAX_WCDMA_PSC_V02 511
+
+/** Maximum value of TDSCDMA frequency for injection of TDSCDMA cell
+ information. */
+#define QMI_LOC_MAX_TDSCDMA_FREQ_V02 16383
+
+/** Maximum length of the injected network-initiated message. */
+#define QMI_LOC_MAX_INJECTED_NETWORK_INITIATED_MESSAGE_LENGTH_V02 1024
+
+/** Maximum number of entries returned from a batch in each indication. */
+#define QMI_LOC_READ_FROM_BATCH_MAX_SIZE_V02 5
+
+/** Maximum number of vehicle sensor samples that can be injected. */
+#define QMI_LOC_VEHICLE_SENSOR_DATA_MAX_SAMPLES_V02 65
+
+/** Maximum number of axes that can be provided in each sample. */
+#define QMI_LOC_VEHICLE_SENSOR_DATA_MAX_AXES_V02 3
+
+/** Maximum number of measurements from an odometer. */
+#define QMI_LOC_VEHICLE_ODOMETRY_MAX_MEASUREMENTS_V02 3
+#define QMI_LOC_MEAS_STATUS_DONT_USE_BITS_V02 0xFFC0000000000000
+
+/** Maximum number of satellites in a measurement block for a given system. */
+#define QMI_LOC_SV_MEAS_LIST_MAX_SIZE_V02 16
+#define QMI_LOC_SV_POLY_VELOCITY_COEF_SIZE_V02 12
+#define QMI_LOC_SV_POLY_XYZ_0_TH_ORDER_COEFF_SIZE_V02 3
+#define QMI_LOC_SV_POLY_XYZ_N_TH_ORDER_COEFF_SIZE_V02 9
+#define QMI_LOC_SV_POLY_SV_CLKBIAS_COEFF_SIZE_V02 4
+
+/** IBeacon string maximum length. */
+#define QMI_LOC_MAX_IBEACON_UUID_STR_LENGTH_V02 32
+
+/** Wi-Fi area ID list length. */
+#define QMI_LOC_WIFI_AREA_ID_LIST_LENGTH_V02 20
+
+/** Cell ID list length. */
+#define QMI_LOC_CELL_ID_LIST_LENGTH_V02 20
+
+/** IBeacon list length. */
+#define QMI_LOC_IBEACON_LIST_LENGTH_V02 20
+
+/** Maximum length that can be injected. */
+#define QMI_LOC_MAX_GTP_WWAN_CLIENT_DOWNLOADED_DATA_LEN_V02 512
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Response Message; Generic response definition. This message is used to tell
+ clients whether their message was accepted for further
+ processing or rejected. */
+typedef struct {
+
+ /* Mandatory */
+ /* Result Code */
+ qmi_response_type_v01 resp;
+}qmiLocGenRespMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Informs the service of the minor revision of the interface
+ definition that the control point implements. */
+typedef struct {
+
+ /* Mandatory */
+ /* Revision */
+ uint32_t revision;
+ /**< Revision that the control point is using. */
+}qmiLocInformClientRevisionReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+typedef uint64_t qmiLocEventRegMaskT_v02;
+#define QMI_LOC_EVENT_MASK_POSITION_REPORT_V02 ((qmiLocEventRegMaskT_v02)0x00000001ull) /**< The control point must enable this mask to receive position report
+ event indications. */
+#define QMI_LOC_EVENT_MASK_GNSS_SV_INFO_V02 ((qmiLocEventRegMaskT_v02)0x00000002ull) /**< The control point must enable this mask to receive satellite report
+ event indications. These reports are sent at a 1 Hz rate. */
+#define QMI_LOC_EVENT_MASK_NMEA_V02 ((qmiLocEventRegMaskT_v02)0x00000004ull) /**< The control point must enable this mask to receive NMEA reports for
+ position and satellites in view. The report is at a 1 Hz rate. */
+#define QMI_LOC_EVENT_MASK_NI_NOTIFY_VERIFY_REQ_V02 ((qmiLocEventRegMaskT_v02)0x00000008ull) /**< The control point must enable this mask to receive NI Notify/Verify request
+ event indications. */
+#define QMI_LOC_EVENT_MASK_INJECT_TIME_REQ_V02 ((qmiLocEventRegMaskT_v02)0x00000010ull) /**< The control point must enable this mask to receive time injection request
+ event indications. */
+#define QMI_LOC_EVENT_MASK_INJECT_PREDICTED_ORBITS_REQ_V02 ((qmiLocEventRegMaskT_v02)0x00000020ull) /**< The control point must enable this mask to receive predicted orbits request
+ event indications. */
+#define QMI_LOC_EVENT_MASK_INJECT_POSITION_REQ_V02 ((qmiLocEventRegMaskT_v02)0x00000040ull) /**< The control point must enable this mask to receive position injection request
+ event indications. */
+#define QMI_LOC_EVENT_MASK_ENGINE_STATE_V02 ((qmiLocEventRegMaskT_v02)0x00000080ull) /**< The control point must enable this mask to receive engine state report
+ event indications. */
+#define QMI_LOC_EVENT_MASK_FIX_SESSION_STATE_V02 ((qmiLocEventRegMaskT_v02)0x00000100ull) /**< The control point must enable this mask to receive fix session status report
+ event indications. */
+#define QMI_LOC_EVENT_MASK_WIFI_REQ_V02 ((qmiLocEventRegMaskT_v02)0x00000200ull) /**< The control point must enable this mask to receive Wi-Fi position request
+ event indications. */
+#define QMI_LOC_EVENT_MASK_SENSOR_STREAMING_READY_STATUS_V02 ((qmiLocEventRegMaskT_v02)0x00000400ull) /**< The control point must enable this mask to receive notifications from the
+ location engine indicating its readiness to accept data from the
+ sensors (accelerometer, gyroscope, etc.). */
+#define QMI_LOC_EVENT_MASK_TIME_SYNC_REQ_V02 ((qmiLocEventRegMaskT_v02)0x00000800ull) /**< The control point must enable this mask to receive time sync requests
+ from the GPS engine. Time sync enables the GPS engine to synchronize
+ its clock with the sensor processor's clock. */
+#define QMI_LOC_EVENT_MASK_SET_SPI_STREAMING_REPORT_V02 ((qmiLocEventRegMaskT_v02)0x00001000ull) /**< The control point must enable this mask to receive Stationary Position
+ Indicator (SPI) streaming report indications. */
+#define QMI_LOC_EVENT_MASK_LOCATION_SERVER_CONNECTION_REQ_V02 ((qmiLocEventRegMaskT_v02)0x00002000ull) /**< The control point must enable this mask to receive location server
+ requests. These requests are generated when the service wishes to
+ establish a connection with a location server. */
+#define QMI_LOC_EVENT_MASK_NI_GEOFENCE_NOTIFICATION_V02 ((qmiLocEventRegMaskT_v02)0x00004000ull) /**< The control point must enable this mask to receive notifications
+ related to network-initiated Geofences. These events notify the client
+ when a network-initiated Geofence is added, deleted, or edited. */
+#define QMI_LOC_EVENT_MASK_GEOFENCE_GEN_ALERT_V02 ((qmiLocEventRegMaskT_v02)0x00008000ull) /**< The control point must enable this mask to receive Geofence alerts.
+ These alerts are generated to inform the client of the changes that may
+ affect a Geofence, e.g., if GPS is turned off or if the network is
+ unavailable. */
+#define QMI_LOC_EVENT_MASK_GEOFENCE_BREACH_NOTIFICATION_V02 ((qmiLocEventRegMaskT_v02)0x00010000ull) /**< The control point must enable this mask to receive notifications when
+ a Geofence is breached. These events are generated when a UE enters
+ or leaves the perimeter of a Geofence. This breach report is for a single
+ Geofence . */
+#define QMI_LOC_EVENT_MASK_PEDOMETER_CONTROL_V02 ((qmiLocEventRegMaskT_v02)0x00020000ull) /**< The control point must enable this mask to register for pedometer
+ control requests from the location engine. The location engine sends
+ this event to control the injection of pedometer reports. */
+#define QMI_LOC_EVENT_MASK_MOTION_DATA_CONTROL_V02 ((qmiLocEventRegMaskT_v02)0x00040000ull) /**< The control point must enable this mask to register for motion data
+ control requests from the location engine. The location engine sends
+ this event to control the injection of motion data. */
+#define QMI_LOC_EVENT_MASK_BATCH_FULL_NOTIFICATION_V02 ((qmiLocEventRegMaskT_v02)0x00080000ull) /**< The control point must enable this mask to receive notification when
+ a batch is full. The location engine sends this event to notify of Batch Full
+ for ongoing batching session. */
+#define QMI_LOC_EVENT_MASK_LIVE_BATCHED_POSITION_REPORT_V02 ((qmiLocEventRegMaskT_v02)0x00100000ull) /**< The control point must enable this mask to receive position report
+ indications along with an ongoing batching session. The location engine sends
+ this event to notify the batched position report while a batching session
+ is ongoing. */
+#define QMI_LOC_EVENT_MASK_INJECT_WIFI_AP_DATA_REQ_V02 ((qmiLocEventRegMaskT_v02)0x00200000ull) /**< The control point must enable this mask to receive Wi-Fi AP data inject request
+ event indications. */
+#define QMI_LOC_EVENT_MASK_GEOFENCE_BATCH_BREACH_NOTIFICATION_V02 ((qmiLocEventRegMaskT_v02)0x00400000ull) /**< The control point must enable this mask to receive notifications when
+ a Geofence is breached. These events are generated when a UE enters
+ or leaves the perimeter of a Geofence. This breach notification is for
+ multiple Geofences. Breaches from multiple Geofences are all batched and
+ sent in the same notification . */
+#define QMI_LOC_EVENT_MASK_VEHICLE_DATA_READY_STATUS_V02 ((qmiLocEventRegMaskT_v02)0x00800000ull) /**< The control point must enable this mask to receive notifications from the
+ location engine indicating its readiness to accept vehicle data (vehicle
+ accelerometer, vehicle angular rate, vehicle odometry, etc.). */
+#define QMI_LOC_EVENT_MASK_GNSS_MEASUREMENT_REPORT_V02 ((qmiLocEventRegMaskT_v02)0x01000000ull) /**< The control point must enable this mask to receive system clock and satellite
+ measurement report events (system clock, SV time, Doppler, etc.). Reports are
+ generated only for the GNSS satellite constellations that are enabled using
+ QMI_LOC_SET_GNSS_CONSTELL_REPORT_CONFIG. */
+#define QMI_LOC_EVENT_MASK_GNSS_SV_POLYNOMIAL_REPORT_V02 ((qmiLocEventRegMaskT_v02)0x02000000ull) /**< The control point must enable this mask to receive satellite position
+ reports as polynomials. Reports are generated only for the GNSS satellite
+ constellations that are enabled using QMI_LOC_SET_GNSS_CONSTELL_REPORT_CONFIG. */
+#define QMI_LOC_EVENT_MASK_GEOFENCE_PROXIMITY_NOTIFICATION_V02 ((qmiLocEventRegMaskT_v02)0x04000000ull) /**< The control point must enable this mask to receive notifications when a Geofence proximity is entered
+ and exited. The proximity of a geofence may be due to different contexts . These contexts are identified
+ using the context id in this indication. The context of a geofence may contain Wifi area ID lists, IBeacon lists,
+ Cell-Id list etc. */
+#define QMI_LOC_EVENT_MASK_GDT_UPLOAD_BEGIN_REQ_V02 ((qmiLocEventRegMaskT_v02)0x08000000ull) /**< The control point must enable this mask to receive GDT (Generic Data Transport )
+ session begin request event indications. */
+#define QMI_LOC_EVENT_MASK_GDT_UPLOAD_END_REQ_V02 ((qmiLocEventRegMaskT_v02)0x10000000ull) /**< The control point must enable this mask to receive GDT (Generic Data Transport )
+ session end request
+ event indications. */
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Used by the control point to register for events from the
+ location subsystem. */
+typedef struct {
+
+ /* Mandatory */
+ /* Event Registration Mask */
+ qmiLocEventRegMaskT_v02 eventRegMask;
+ /**< Specifies the events that the control point is interested in receiving.
+ Valid bitmasks:
+ - QMI_LOC_EVENT_MASK_POSITION_REPORT (0x00000001) -- The control point must enable this mask to receive position report
+ event indications.
+ - QMI_LOC_EVENT_MASK_GNSS_SV_INFO (0x00000002) -- The control point must enable this mask to receive satellite report
+ event indications. These reports are sent at a 1 Hz rate.
+ - QMI_LOC_EVENT_MASK_NMEA (0x00000004) -- The control point must enable this mask to receive NMEA reports for
+ position and satellites in view. The report is at a 1 Hz rate.
+ - QMI_LOC_EVENT_MASK_NI_NOTIFY_VERIFY_REQ (0x00000008) -- The control point must enable this mask to receive NI Notify/Verify request
+ event indications.
+ - QMI_LOC_EVENT_MASK_INJECT_TIME_REQ (0x00000010) -- The control point must enable this mask to receive time injection request
+ event indications.
+ - QMI_LOC_EVENT_MASK_INJECT_PREDICTED_ORBITS_REQ (0x00000020) -- The control point must enable this mask to receive predicted orbits request
+ event indications.
+ - QMI_LOC_EVENT_MASK_INJECT_POSITION_REQ (0x00000040) -- The control point must enable this mask to receive position injection request
+ event indications.
+ - QMI_LOC_EVENT_MASK_ENGINE_STATE (0x00000080) -- The control point must enable this mask to receive engine state report
+ event indications.
+ - QMI_LOC_EVENT_MASK_FIX_SESSION_STATE (0x00000100) -- The control point must enable this mask to receive fix session status report
+ event indications.
+ - QMI_LOC_EVENT_MASK_WIFI_REQ (0x00000200) -- The control point must enable this mask to receive Wi-Fi position request
+ event indications.
+ - QMI_LOC_EVENT_MASK_SENSOR_STREAMING_READY_STATUS (0x00000400) -- The control point must enable this mask to receive notifications from the
+ location engine indicating its readiness to accept data from the
+ sensors (accelerometer, gyroscope, etc.).
+ - QMI_LOC_EVENT_MASK_TIME_SYNC_REQ (0x00000800) -- The control point must enable this mask to receive time sync requests
+ from the GPS engine. Time sync enables the GPS engine to synchronize
+ its clock with the sensor processor's clock.
+ - QMI_LOC_EVENT_MASK_SET_SPI_STREAMING_REPORT (0x00001000) -- The control point must enable this mask to receive Stationary Position
+ Indicator (SPI) streaming report indications.
+ - QMI_LOC_EVENT_MASK_LOCATION_SERVER_CONNECTION_REQ (0x00002000) -- The control point must enable this mask to receive location server
+ requests. These requests are generated when the service wishes to
+ establish a connection with a location server.
+ - QMI_LOC_EVENT_MASK_NI_GEOFENCE_NOTIFICATION (0x00004000) -- The control point must enable this mask to receive notifications
+ related to network-initiated Geofences. These events notify the client
+ when a network-initiated Geofence is added, deleted, or edited.
+ - QMI_LOC_EVENT_MASK_GEOFENCE_GEN_ALERT (0x00008000) -- The control point must enable this mask to receive Geofence alerts.
+ These alerts are generated to inform the client of the changes that may
+ affect a Geofence, e.g., if GPS is turned off or if the network is
+ unavailable.
+ - QMI_LOC_EVENT_MASK_GEOFENCE_BREACH_NOTIFICATION (0x00010000) -- The control point must enable this mask to receive notifications when
+ a Geofence is breached. These events are generated when a UE enters
+ or leaves the perimeter of a Geofence. This breach report is for a single
+ Geofence .
+ - QMI_LOC_EVENT_MASK_PEDOMETER_CONTROL (0x00020000) -- The control point must enable this mask to register for pedometer
+ control requests from the location engine. The location engine sends
+ this event to control the injection of pedometer reports.
+ - QMI_LOC_EVENT_MASK_MOTION_DATA_CONTROL (0x00040000) -- The control point must enable this mask to register for motion data
+ control requests from the location engine. The location engine sends
+ this event to control the injection of motion data.
+ - QMI_LOC_EVENT_MASK_BATCH_FULL_NOTIFICATION (0x00080000) -- The control point must enable this mask to receive notification when
+ a batch is full. The location engine sends this event to notify of Batch Full
+ for ongoing batching session.
+ - QMI_LOC_EVENT_MASK_LIVE_BATCHED_POSITION_REPORT (0x00100000) -- The control point must enable this mask to receive position report
+ indications along with an ongoing batching session. The location engine sends
+ this event to notify the batched position report while a batching session
+ is ongoing.
+ - QMI_LOC_EVENT_MASK_INJECT_WIFI_AP_DATA_REQ (0x00200000) -- The control point must enable this mask to receive Wi-Fi AP data inject request
+ event indications.
+ - QMI_LOC_EVENT_MASK_GEOFENCE_BATCH_BREACH_NOTIFICATION (0x00400000) -- The control point must enable this mask to receive notifications when
+ a Geofence is breached. These events are generated when a UE enters
+ or leaves the perimeter of a Geofence. This breach notification is for
+ multiple Geofences. Breaches from multiple Geofences are all batched and
+ sent in the same notification .
+ - QMI_LOC_EVENT_MASK_VEHICLE_DATA_READY_STATUS (0x00800000) -- The control point must enable this mask to receive notifications from the
+ location engine indicating its readiness to accept vehicle data (vehicle
+ accelerometer, vehicle angular rate, vehicle odometry, etc.).
+ - QMI_LOC_EVENT_MASK_GNSS_MEASUREMENT_REPORT (0x01000000) -- The control point must enable this mask to receive system clock and satellite
+ measurement report events (system clock, SV time, Doppler, etc.). Reports are
+ generated only for the GNSS satellite constellations that are enabled using
+ QMI_LOC_SET_GNSS_CONSTELL_REPORT_CONFIG.
+ - QMI_LOC_EVENT_MASK_GNSS_SV_POLYNOMIAL_REPORT (0x02000000) -- The control point must enable this mask to receive satellite position
+ reports as polynomials. Reports are generated only for the GNSS satellite
+ constellations that are enabled using QMI_LOC_SET_GNSS_CONSTELL_REPORT_CONFIG.
+ - QMI_LOC_EVENT_MASK_GEOFENCE_PROXIMITY_NOTIFICATION (0x04000000) -- The control point must enable this mask to receive notifications when a Geofence proximity is entered
+ and exited. The proximity of a geofence may be due to different contexts . These contexts are identified
+ using the context id in this indication. The context of a geofence may contain Wifi area ID lists, IBeacon lists,
+ Cell-Id list etc.
+ - QMI_LOC_EVENT_MASK_GDT_UPLOAD_BEGIN_REQ (0x08000000) -- The control point must enable this mask to receive GDT (Generic Data Transport )
+ session begin request event indications.
+ - QMI_LOC_EVENT_MASK_GDT_UPLOAD_END_REQ (0x10000000) -- The control point must enable this mask to receive GDT (Generic Data Transport )
+ session end request
+ event indications.
+
+ Multiple events can be registered by ORing the individual masks and
+ sending them in this TLV. All unused bits in this mask must be set to 0.
+ */
+}qmiLocRegEventsReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCFIXRECURRENCEENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_RECURRENCE_PERIODIC_V02 = 1, /**< Request periodic position fixes */
+ eQMI_LOC_RECURRENCE_SINGLE_V02 = 2, /**< Request a single position fix */
+ QMILOCFIXRECURRENCEENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocFixRecurrenceEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCACCURACYLEVELENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_ACCURACY_LOW_V02 = 1, /**< Low accuracy */
+ eQMI_LOC_ACCURACY_MED_V02 = 2, /**< Medium accuracy */
+ eQMI_LOC_ACCURACY_HIGH_V02 = 3, /**< High accuracy */
+ QMILOCACCURACYLEVELENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocAccuracyLevelEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCINTERMEDIATEREPORTSTATEENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_INTERMEDIATE_REPORTS_ON_V02 = 1, /**< Intermediate reports are turned on */
+ eQMI_LOC_INTERMEDIATE_REPORTS_OFF_V02 = 2, /**< Intermediate reports are turned off */
+ QMILOCINTERMEDIATEREPORTSTATEENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocIntermediateReportStateEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCCONFIGINCLUDEALTITUDEASSUMEDINGNSSSVINFOENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_ALTITUDE_ASSUMED_IN_GNSS_SV_INFO_ENABLED_V02 = 1, /**< Enable Altitude Assumed information in GNSS SV Info Event. */
+ eQMI_LOC_ALTITUDE_ASSUMED_IN_GNSS_SV_INFO_DISABLED_V02 = 2, /**< Disable Altitude Assumed information in GNSS SV Info Event. */
+ QMILOCCONFIGINCLUDEALTITUDEASSUMEDINGNSSSVINFOENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocConfigIncludeAltitudeAssumedInGnssSvInfoEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ char applicationProvider[QMI_LOC_MAX_APP_ID_PROVIDER_LENGTH_V02 + 1];
+ /**< Application provider. */
+
+ char applicationName[QMI_LOC_MAX_APP_ID_NAME_LENGTH_V02 + 1];
+ /**< Application name. */
+
+ uint8_t applicationVersion_valid;
+ /**< Specifies whether the application version string contains
+ a valid value: \begin{itemize1}
+ \item 0x00 (FALSE) -- Application version string is invalid
+ \item 0x01 (TRUE) -- Application version string is valid
+ \vspace{-0.18in} \end{itemize1} */
+
+ char applicationVersion[QMI_LOC_MAX_APP_ID_VERSION_LENGTH_V02 + 1];
+ /**< Application version. */
+}qmiLocApplicationIdStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Used by the control point to initiate a GPS session. */
+typedef struct {
+
+ /* Mandatory */
+ /* Session ID */
+ uint8_t sessionId;
+ /**< ID of the session as identified by the control point. The session ID
+ is reported back in the position reports. The control point must
+ specify the same session ID in the QMI_LOC_STOP_REQ message. \n
+ - Range: 0 to 255
+ */
+
+ /* Optional */
+ /* Recurrence Type */
+ uint8_t fixRecurrence_valid; /**< Must be set to true if fixRecurrence is being passed */
+ qmiLocFixRecurrenceEnumT_v02 fixRecurrence;
+ /**< Specifies the type of session in which the control point is interested.
+ If this TLV is not specified, recurrence defaults to SINGLE.
+
+ Valid values: \n
+ - eQMI_LOC_RECURRENCE_PERIODIC (1) -- Request periodic position fixes
+ - eQMI_LOC_RECURRENCE_SINGLE (2) -- Request a single position fix
+ */
+
+ /* Optional */
+ /* Horizontal Accuracy */
+ uint8_t horizontalAccuracyLevel_valid; /**< Must be set to true if horizontalAccuracyLevel is being passed */
+ qmiLocAccuracyLevelEnumT_v02 horizontalAccuracyLevel;
+ /**< Specifies the horizontal accuracy level required by the control point.
+ If not specified, accuracy defaults to LOW.
+
+ Valid values: \n
+ - eQMI_LOC_ACCURACY_LOW (1) -- Low accuracy
+ - eQMI_LOC_ACCURACY_MED (2) -- Medium accuracy
+ - eQMI_LOC_ACCURACY_HIGH (3) -- High accuracy
+ */
+
+ /* Optional */
+ /* Enable/Disable Intermediate Reports */
+ uint8_t intermediateReportState_valid; /**< Must be set to true if intermediateReportState is being passed */
+ qmiLocIntermediateReportStateEnumT_v02 intermediateReportState;
+ /**< Specifies if the control point is interested in receiving intermediate
+ reports. The control point must explicitly set this field to OFF if it
+ does not wish to receive intermediate position reports. Intermediate
+ position reports are generated at 1 Hz and are ON by default. If
+ intermediate reports are turned ON, the client receives position reports
+ even if the accuracy criteria are not met. The status in such a position
+ report is set to IN_PROGRESS in order for the control point to identify
+ intermediate reports.
+
+ Valid values: \n
+ - eQMI_LOC_INTERMEDIATE_REPORTS_ON (1) -- Intermediate reports are turned on
+ - eQMI_LOC_INTERMEDIATE_REPORTS_OFF (2) -- Intermediate reports are turned off
+ */
+
+ /* Optional */
+ /* Minimum Interval Between Final Position Reports */
+ uint8_t minInterval_valid; /**< Must be set to true if minInterval is being passed */
+ uint32_t minInterval;
+ /**< Minimum time interval, specified by the control point, that must elapse between
+ position reports. \n
+ - Units: Milliseconds \n
+ - Default: 1000 ms
+ */
+
+ /* Optional */
+ /* ID of the Application that Sent this Request */
+ uint8_t applicationId_valid; /**< Must be set to true if applicationId is being passed */
+ qmiLocApplicationIdStructT_v02 applicationId;
+ /**< \n Application provider, name, and version.*/
+
+ /* Optional */
+ /* Configuration for Altitude Assumed Info in GNSS SV Info Event */
+ uint8_t configAltitudeAssumed_valid; /**< Must be set to true if configAltitudeAssumed is being passed */
+ qmiLocConfigIncludeAltitudeAssumedInGnssSvInfoEnumT_v02 configAltitudeAssumed;
+ /**< Specifies the configuration to include Altitude Assumed information in the GNSS SV Info Event.
+ When enabled, an additional GNSS SV Info event indication is sent to the control
+ point that also includes the altitude assumed information.
+
+ If not specified, the configuration defaults to ENABLED.
+
+ Valid values: \n
+ - eQMI_LOC_ALTITUDE_ASSUMED_IN_GNSS_SV_INFO_ENABLED (1) -- Enable Altitude Assumed information in GNSS SV Info Event.
+ - eQMI_LOC_ALTITUDE_ASSUMED_IN_GNSS_SV_INFO_DISABLED (2) -- Disable Altitude Assumed information in GNSS SV Info Event.
+ */
+
+ /* Optional */
+ /* Minimum Interval Between Intermediate Position Reports */
+ uint8_t minIntermediatePositionReportInterval_valid; /**< Must be set to true if minIntermediatePositionReportInterval is being passed */
+ uint32_t minIntermediatePositionReportInterval;
+ /**< Minimum time interval for intermediate position reports, specified by the control point,
+ that between position reports elapsed time must longer than the interval time.
+ If this optional value is not set or set to default(0) value, GPS engine will report
+ when an intermediate position is ready.
+ - Units: Milliseconds \n
+ - Default: 0 ms
+ */
+}qmiLocStartReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Used by the control point to stop a GPS session. */
+typedef struct {
+
+ /* Mandatory */
+ /* Session ID */
+ uint8_t sessionId;
+ /**< ID of the session that was specified in the Start request
+ (QMI_LOC_START_REQ).\n
+ - Range: 0 to 255 */
+}qmiLocStopReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+typedef uint32_t qmiLocPosTechMaskT_v02;
+#define QMI_LOC_POS_TECH_MASK_SATELLITE_V02 ((qmiLocPosTechMaskT_v02)0x00000001) /**< Satellites were used to generate the fix */
+#define QMI_LOC_POS_TECH_MASK_CELLID_V02 ((qmiLocPosTechMaskT_v02)0x00000002) /**< Cell towers were used to generate the fix */
+#define QMI_LOC_POS_TECH_MASK_WIFI_V02 ((qmiLocPosTechMaskT_v02)0x00000004) /**< Wi-Fi access points were used to generate the fix */
+#define QMI_LOC_POS_TECH_MASK_SENSORS_V02 ((qmiLocPosTechMaskT_v02)0x00000008) /**< Sensors were used to generate the fix */
+#define QMI_LOC_POS_TECH_MASK_REFERENCE_LOCATION_V02 ((qmiLocPosTechMaskT_v02)0x00000010) /**< Reference Location was used to generate the fix */
+#define QMI_LOC_POS_TECH_MASK_INJECTED_COARSE_POSITION_V02 ((qmiLocPosTechMaskT_v02)0x00000020) /**< Coarse position injected into the location engine was used to
+ generate the fix */
+#define QMI_LOC_POS_TECH_MASK_AFLT_V02 ((qmiLocPosTechMaskT_v02)0x00000040) /**< AFLT was used to generate the fix */
+#define QMI_LOC_POS_TECH_MASK_HYBRID_V02 ((qmiLocPosTechMaskT_v02)0x00000080) /**< GNSS and network-provided measurements were used to
+ generate the fix */
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCSESSIONSTATUSENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_SESS_STATUS_SUCCESS_V02 = 0, /**< Session was successful */
+ eQMI_LOC_SESS_STATUS_IN_PROGRESS_V02 = 1, /**< Session is still in progress; further position reports will be generated
+ until either the fix criteria specified by the client are met or the
+ client response timeout occurs */
+ eQMI_LOC_SESS_STATUS_GENERAL_FAILURE_V02 = 2, /**< Session failed */
+ eQMI_LOC_SESS_STATUS_TIMEOUT_V02 = 3, /**< Fix request failed because the session timed out */
+ eQMI_LOC_SESS_STATUS_USER_END_V02 = 4, /**< Fix request failed because the session was ended by the user */
+ eQMI_LOC_SESS_STATUS_BAD_PARAMETER_V02 = 5, /**< Fix request failed due to bad parameters in the request */
+ eQMI_LOC_SESS_STATUS_PHONE_OFFLINE_V02 = 6, /**< Fix request failed because the phone is offline */
+ eQMI_LOC_SESS_STATUS_ENGINE_LOCKED_V02 = 7, /**< Fix request failed because the engine is locked */
+ QMILOCSESSIONSTATUSENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocSessionStatusEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ uint16_t gpsWeek;
+ /**< Current GPS week as calculated from midnight, Jan. 6, 1980. \n
+ - Units: Weeks */
+
+ uint32_t gpsTimeOfWeekMs;
+ /**< Amount of time into the current GPS week. \n
+ - Units: Milliseconds */
+}qmiLocGPSTimeStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ float PDOP;
+ /**< Position dilution of precision.
+ \begin{itemize1}
+ \item Range: 1 (highest accuracy) to 50 (lowest accuracy)
+ \item PDOP = square root of (HDOP^2 + VDOP^2)
+ \vspace{-0.18in} \end{itemize1} */
+
+ float HDOP;
+ /**< Horizontal dilution of precision.
+ \begin{itemize1}
+ \item Range: 1 (highest accuracy) to 50 (lowest accuracy)
+ \vspace{-0.18in} \end{itemize1} */
+
+ float VDOP;
+ /**< Vertical dilution of precision.
+ \begin{itemize1}
+ \item Range: 1 (highest accuracy) to 50 (lowest accuracy)
+ \vspace{-0.18in} \end{itemize1} */
+}qmiLocDOPStructT_v02; /* Type */
+/**
+ @}
+ */
+
+typedef uint32_t qmiLocSensorUsageMaskT_v02;
+#define QMI_LOC_SENSOR_MASK_USED_ACCEL_V02 ((qmiLocSensorUsageMaskT_v02)0x00000001) /**< Bitmask to specify whether an accelerometer was used. */
+#define QMI_LOC_SENSOR_MASK_USED_GYRO_V02 ((qmiLocSensorUsageMaskT_v02)0x00000002) /**< Bitmask to specify whether a gyroscope was used. */
+typedef uint32_t qmiLocSensorAidedMaskT_v02;
+#define QMI_LOC_SENSOR_AIDED_MASK_HEADING_V02 ((qmiLocSensorAidedMaskT_v02)0x00000001) /**< Bitmask to specify whether a sensor was used to calculate heading. */
+#define QMI_LOC_SENSOR_AIDED_MASK_SPEED_V02 ((qmiLocSensorAidedMaskT_v02)0x00000002) /**< Bitmask to specify whether a sensor was used to calculate speed. */
+#define QMI_LOC_SENSOR_AIDED_MASK_POSITION_V02 ((qmiLocSensorAidedMaskT_v02)0x00000004) /**< Bitmask to specify whether a sensor was used to calculate position. */
+#define QMI_LOC_SENSOR_AIDED_MASK_VELOCITY_V02 ((qmiLocSensorAidedMaskT_v02)0x00000008) /**< Bitmask to specify whether a sensor was used to calculate velocity. */
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ qmiLocSensorUsageMaskT_v02 usageMask;
+ /**< Specifies which sensors were used in calculating the position in the
+ position report.
+
+ Valid bitmasks: \begin{itemize1}
+ \item 0x00000001 -- SENSOR_USED_ ACCEL
+ \item 0x00000002 -- SENSOR_USED_ GYRO
+ \vspace{-0.18in} \end{itemize1} */
+
+ qmiLocSensorAidedMaskT_v02 aidingIndicatorMask;
+ /**< Specifies which results were aided by sensors.
+
+ Valid bitmasks: \n
+ - 0x00000001 -- AIDED_HEADING \n
+ - 0x00000002 -- AIDED_SPEED \n
+ - 0x00000004 -- AIDED_POSITION \n
+ - 0x00000008 -- AIDED_VELOCITY */
+}qmiLocSensorUsageIndicatorStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCTIMESOURCEENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_TIME_SRC_INVALID_V02 = 0, /**< Invalid time. */
+ eQMI_LOC_TIME_SRC_NETWORK_TIME_TRANSFER_V02 = 1, /**< Time is set by the 1X system */
+ eQMI_LOC_TIME_SRC_NETWORK_TIME_TAGGING_V02 = 2, /**< Time is set by WCDMA/GSM time tagging (i.e.,
+ associating network time with GPS time) */
+ eQMI_LOC_TIME_SRC_EXTERNAL_INPUT_V02 = 3, /**< Time is set by an external injection */
+ eQMI_LOC_TIME_SRC_TOW_DECODE_V02 = 4, /**< Time is set after decoding over-the-air GPS navigation data
+ from one GPS satellite */
+ eQMI_LOC_TIME_SRC_TOW_CONFIRMED_V02 = 5, /**< Time is set after decoding over-the-air GPS navigation data
+ from multiple satellites */
+ eQMI_LOC_TIME_SRC_TOW_AND_WEEK_CONFIRMED_V02 = 6, /**< Both time of the week and the GPS week number are known */
+ eQMI_LOC_TIME_SRC_NAV_SOLUTION_V02 = 7, /**< Time is set by the position engine after the fix is obtained */
+ eQMI_LOC_TIME_SRC_SOLVE_FOR_TIME_V02 = 8, /**< Time is set by the position engine after performing SFT;
+ this is done when the clock time uncertainty is large */
+ eQMI_LOC_TIME_SRC_GLO_TOW_DECODE_V02 = 9, /**< Time is set after decoding GLO satellites */
+ eQMI_LOC_TIME_SRC_TIME_TRANSFORM_V02 = 10, /**< Time is set after transforming the GPS to GLO time */
+ eQMI_LOC_TIME_SRC_WCDMA_SLEEP_TIME_TAGGING_V02 = 11, /**< Time is set by the sleep time tag provided by the WCDMA network */
+ eQMI_LOC_TIME_SRC_GSM_SLEEP_TIME_TAGGING_V02 = 12, /**< Time is set by the sleep time tag provided by the GSM network */
+ eQMI_LOC_TIME_SRC_UNKNOWN_V02 = 13, /**< Source of the time is unknown */
+ eQMI_LOC_TIME_SRC_SYSTEM_TIMETICK_V02 = 14, /**< Time is derived from the system clock (better known as the slow clock);
+ GNSS time is maintained irrespective of the GNSS receiver state */
+ eQMI_LOC_TIME_SRC_QZSS_TOW_DECODE_V02 = 15, /**< Time is set after decoding QZSS satellites */
+ eQMI_LOC_TIME_SRC_BDS_TOW_DECODE_V02 = 16, /**< Time is set after decoding BDS satellites */
+ QMILOCTIMESOURCEENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocTimeSourceEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCRELIABILITYENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_RELIABILITY_NOT_SET_V02 = 0, /**< Location reliability is not set */
+ eQMI_LOC_RELIABILITY_VERY_LOW_V02 = 1, /**< Location reliability is very low; use it at your own risk */
+ eQMI_LOC_RELIABILITY_LOW_V02 = 2, /**< Location reliability is low; little or no cross-checking is possible */
+ eQMI_LOC_RELIABILITY_MEDIUM_V02 = 3, /**< Location reliability is medium; limited cross-check passed */
+ eQMI_LOC_RELIABILITY_HIGH_V02 = 4, /**< Location reliability is high; strong cross-check passed */
+ QMILOCRELIABILITYENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocReliabilityEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Sends the position report to the control point. */
+typedef struct {
+
+ /* Mandatory */
+ /* Session Status */
+ qmiLocSessionStatusEnumT_v02 sessionStatus;
+ /**< Session status.
+
+ Valid values: \n
+ - eQMI_LOC_SESS_STATUS_SUCCESS (0) -- Session was successful
+ - eQMI_LOC_SESS_STATUS_IN_PROGRESS (1) -- Session is still in progress; further position reports will be generated
+ until either the fix criteria specified by the client are met or the
+ client response timeout occurs
+ - eQMI_LOC_SESS_STATUS_GENERAL_FAILURE (2) -- Session failed
+ - eQMI_LOC_SESS_STATUS_TIMEOUT (3) -- Fix request failed because the session timed out
+ - eQMI_LOC_SESS_STATUS_USER_END (4) -- Fix request failed because the session was ended by the user
+ - eQMI_LOC_SESS_STATUS_BAD_PARAMETER (5) -- Fix request failed due to bad parameters in the request
+ - eQMI_LOC_SESS_STATUS_PHONE_OFFLINE (6) -- Fix request failed because the phone is offline
+ - eQMI_LOC_SESS_STATUS_ENGINE_LOCKED (7) -- Fix request failed because the engine is locked
+ */
+
+ /* Mandatory */
+ /* Session ID */
+ uint8_t sessionId;
+ /**< ID of the session that was specified in the Start request
+ QMI_LOC_START_REQ. \n
+ - Range: 0 to 255 */
+
+ /* Optional */
+ /* Latitude */
+ uint8_t latitude_valid; /**< Must be set to true if latitude is being passed */
+ double latitude;
+ /**< Latitude (specified in WGS84 datum).
+ \begin{itemize1}
+ \item Type: Floating point
+ \item Units: Degrees
+ \item Range: -90.0 to 90.0 \begin{itemize1}
+ \item Positive values indicate northern latitude
+ \item Negative values indicate southern latitude
+ \vspace{-0.18in} \end{itemize1} \end{itemize1} */
+
+ /* Optional */
+ /* Longitude */
+ uint8_t longitude_valid; /**< Must be set to true if longitude is being passed */
+ double longitude;
+ /**< Longitude (specified in WGS84 datum).
+ \begin{itemize1}
+ \item Type: Floating point
+ \item Units: Degrees
+ \item Range: -180.0 to 180.0 \begin{itemize1}
+ \item Positive values indicate eastern longitude
+ \item Negative values indicate western longitude
+ \vspace{-0.18in} \end{itemize1} \end{itemize1} */
+
+ /* Optional */
+ /* Circular Horizontal Position Uncertainty */
+ uint8_t horUncCircular_valid; /**< Must be set to true if horUncCircular is being passed */
+ float horUncCircular;
+ /**< Horizontal position uncertainty (circular).\n
+ - Units: Meters */
+
+ /* Optional */
+ /* Horizontal Elliptical Uncertainty (Semi-Minor Axis) */
+ uint8_t horUncEllipseSemiMinor_valid; /**< Must be set to true if horUncEllipseSemiMinor is being passed */
+ float horUncEllipseSemiMinor;
+ /**< Semi-minor axis of horizontal elliptical uncertainty.\n
+ - Units: Meters */
+
+ /* Optional */
+ /* Horizontal Elliptical Uncertainty (Semi-Major Axis) */
+ uint8_t horUncEllipseSemiMajor_valid; /**< Must be set to true if horUncEllipseSemiMajor is being passed */
+ float horUncEllipseSemiMajor;
+ /**< Semi-major axis of horizontal elliptical uncertainty.\n
+ - Units: Meters */
+
+ /* Optional */
+ /* Elliptical Horizontal Uncertainty Azimuth */
+ uint8_t horUncEllipseOrientAzimuth_valid; /**< Must be set to true if horUncEllipseOrientAzimuth is being passed */
+ float horUncEllipseOrientAzimuth;
+ /**< Elliptical horizontal uncertainty azimuth of orientation.\n
+ - Units: Decimal degrees \n
+ - Range: 0 to 180 */
+
+ /* Optional */
+ /* Horizontal Confidence */
+ uint8_t horConfidence_valid; /**< Must be set to true if horConfidence is being passed */
+ uint8_t horConfidence;
+ /**< Horizontal uncertainty confidence.
+ If both elliptical and horizontal uncertainties are specified in this message,
+ the confidence corresponds to the elliptical uncertainty. \n
+ - Units: Percent \n
+ - Range: 0 to 99 */
+
+ /* Optional */
+ /* Horizontal Reliability */
+ uint8_t horReliability_valid; /**< Must be set to true if horReliability is being passed */
+ qmiLocReliabilityEnumT_v02 horReliability;
+ /**< Specifies the reliability of the horizontal position.
+ Valid values: \n
+ - eQMI_LOC_RELIABILITY_NOT_SET (0) -- Location reliability is not set
+ - eQMI_LOC_RELIABILITY_VERY_LOW (1) -- Location reliability is very low; use it at your own risk
+ - eQMI_LOC_RELIABILITY_LOW (2) -- Location reliability is low; little or no cross-checking is possible
+ - eQMI_LOC_RELIABILITY_MEDIUM (3) -- Location reliability is medium; limited cross-check passed
+ - eQMI_LOC_RELIABILITY_HIGH (4) -- Location reliability is high; strong cross-check passed
+ */
+
+ /* Optional */
+ /* Horizontal Speed */
+ uint8_t speedHorizontal_valid; /**< Must be set to true if speedHorizontal is being passed */
+ float speedHorizontal;
+ /**< Horizontal speed.\n
+ - Units: Meters/second */
+
+ /* Optional */
+ /* Speed Uncertainty */
+ uint8_t speedUnc_valid; /**< Must be set to true if speedUnc is being passed */
+ float speedUnc;
+ /**< 3-D Speed uncertainty.\n
+ - Units: Meters/second */
+
+ /* Optional */
+ /* Altitude With Respect to Ellipsoid */
+ uint8_t altitudeWrtEllipsoid_valid; /**< Must be set to true if altitudeWrtEllipsoid is being passed */
+ float altitudeWrtEllipsoid;
+ /**< Altitude with respect to the WGS84 ellipsoid.\n
+ - Units: Meters \n
+ - Range: -500 to 15883 */
+
+ /* Optional */
+ /* Altitude With Respect to Sea Level */
+ uint8_t altitudeWrtMeanSeaLevel_valid; /**< Must be set to true if altitudeWrtMeanSeaLevel is being passed */
+ float altitudeWrtMeanSeaLevel;
+ /**< Altitude with respect to mean sea level.\n
+ - Units: Meters */
+
+ /* Optional */
+ /* Vertical Uncertainty */
+ uint8_t vertUnc_valid; /**< Must be set to true if vertUnc is being passed */
+ float vertUnc;
+ /**< Vertical uncertainty.\n
+ - Units: Meters */
+
+ /* Optional */
+ /* Vertical Confidence */
+ uint8_t vertConfidence_valid; /**< Must be set to true if vertConfidence is being passed */
+ uint8_t vertConfidence;
+ /**< Vertical uncertainty confidence.\n
+ - Units: Percent \n
+ - Range: 0 to 99 */
+
+ /* Optional */
+ /* Vertical Reliability */
+ uint8_t vertReliability_valid; /**< Must be set to true if vertReliability is being passed */
+ qmiLocReliabilityEnumT_v02 vertReliability;
+ /**< Specifies the reliability of the vertical position.
+ Valid values: \n
+ - eQMI_LOC_RELIABILITY_NOT_SET (0) -- Location reliability is not set
+ - eQMI_LOC_RELIABILITY_VERY_LOW (1) -- Location reliability is very low; use it at your own risk
+ - eQMI_LOC_RELIABILITY_LOW (2) -- Location reliability is low; little or no cross-checking is possible
+ - eQMI_LOC_RELIABILITY_MEDIUM (3) -- Location reliability is medium; limited cross-check passed
+ - eQMI_LOC_RELIABILITY_HIGH (4) -- Location reliability is high; strong cross-check passed
+ */
+
+ /* Optional */
+ /* Vertical Speed */
+ uint8_t speedVertical_valid; /**< Must be set to true if speedVertical is being passed */
+ float speedVertical;
+ /**< Vertical speed.\n
+ - Units: Meters/second */
+
+ /* Optional */
+ /* Heading */
+ uint8_t heading_valid; /**< Must be set to true if heading is being passed */
+ float heading;
+ /**< Heading.\n
+ - Units: Degrees \n
+ - Range: 0 to 359.999 */
+
+ /* Optional */
+ /* Heading Uncertainty */
+ uint8_t headingUnc_valid; /**< Must be set to true if headingUnc is being passed */
+ float headingUnc;
+ /**< Heading uncertainty.\n
+ - Units: Degrees \n
+ - Range: 0 to 359.999 */
+
+ /* Optional */
+ /* Magnetic Deviation */
+ uint8_t magneticDeviation_valid; /**< Must be set to true if magneticDeviation is being passed */
+ float magneticDeviation;
+ /**< Difference between the bearing to true north and the bearing shown
+ on a magnetic compass. The deviation is positive when the magnetic
+ north is east of true north. */
+
+ /* Optional */
+ /* Technology Used */
+ uint8_t technologyMask_valid; /**< Must be set to true if technologyMask is being passed */
+ qmiLocPosTechMaskT_v02 technologyMask;
+ /**< Technology used in computing this fix.
+ Valid bitmasks: \n
+ - QMI_LOC_POS_TECH_MASK_SATELLITE (0x00000001) -- Satellites were used to generate the fix
+ - QMI_LOC_POS_TECH_MASK_CELLID (0x00000002) -- Cell towers were used to generate the fix
+ - QMI_LOC_POS_TECH_MASK_WIFI (0x00000004) -- Wi-Fi access points were used to generate the fix
+ - QMI_LOC_POS_TECH_MASK_SENSORS (0x00000008) -- Sensors were used to generate the fix
+ - QMI_LOC_POS_TECH_MASK_REFERENCE_LOCATION (0x00000010) -- Reference Location was used to generate the fix
+ - QMI_LOC_POS_TECH_MASK_INJECTED_COARSE_POSITION (0x00000020) -- Coarse position injected into the location engine was used to
+ generate the fix
+ - QMI_LOC_POS_TECH_MASK_AFLT (0x00000040) -- AFLT was used to generate the fix
+ - QMI_LOC_POS_TECH_MASK_HYBRID (0x00000080) -- GNSS and network-provided measurements were used to
+ generate the fix
+ */
+
+ /* Optional */
+ /* Dilution of Precision */
+ uint8_t DOP_valid; /**< Must be set to true if DOP is being passed */
+ qmiLocDOPStructT_v02 DOP;
+ /**< \vspace{0.06in} \n Dilution of precision associated with this position. */
+
+ /* Optional */
+ /* UTC Timestamp */
+ uint8_t timestampUtc_valid; /**< Must be set to true if timestampUtc is being passed */
+ uint64_t timestampUtc;
+ /**< UTC timestamp. \n
+ - Units: Milliseconds since Jan. 1, 1970 */
+
+ /* Optional */
+ /* Leap Seconds */
+ uint8_t leapSeconds_valid; /**< Must be set to true if leapSeconds is being passed */
+ uint8_t leapSeconds;
+ /**< Leap second information. If leapSeconds is not available,
+ timestampUtc is calculated based on a hard-coded value
+ for leap seconds. \n
+ - Units: Seconds */
+
+ /* Optional */
+ /* GPS Time */
+ uint8_t gpsTime_valid; /**< Must be set to true if gpsTime is being passed */
+ qmiLocGPSTimeStructT_v02 gpsTime;
+ /**< \vspace{0.06in} \n The number of weeks since Jan. 5, 1980, and
+ milliseconds into the current week. */
+
+ /* Optional */
+ /* Time Uncertainty */
+ uint8_t timeUnc_valid; /**< Must be set to true if timeUnc is being passed */
+ float timeUnc;
+ /**< Time uncertainty. \n
+ - Units: Milliseconds */
+
+ /* Optional */
+ /* Time Source */
+ uint8_t timeSrc_valid; /**< Must be set to true if timeSrc is being passed */
+ qmiLocTimeSourceEnumT_v02 timeSrc;
+ /**< Time source. Valid values: \n
+ - eQMI_LOC_TIME_SRC_INVALID (0) -- Invalid time.
+ - eQMI_LOC_TIME_SRC_NETWORK_TIME_TRANSFER (1) -- Time is set by the 1X system
+ - eQMI_LOC_TIME_SRC_NETWORK_TIME_TAGGING (2) -- Time is set by WCDMA/GSM time tagging (i.e.,
+ associating network time with GPS time)
+ - eQMI_LOC_TIME_SRC_EXTERNAL_INPUT (3) -- Time is set by an external injection
+ - eQMI_LOC_TIME_SRC_TOW_DECODE (4) -- Time is set after decoding over-the-air GPS navigation data
+ from one GPS satellite
+ - eQMI_LOC_TIME_SRC_TOW_CONFIRMED (5) -- Time is set after decoding over-the-air GPS navigation data
+ from multiple satellites
+ - eQMI_LOC_TIME_SRC_TOW_AND_WEEK_CONFIRMED (6) -- Both time of the week and the GPS week number are known
+ - eQMI_LOC_TIME_SRC_NAV_SOLUTION (7) -- Time is set by the position engine after the fix is obtained
+ - eQMI_LOC_TIME_SRC_SOLVE_FOR_TIME (8) -- Time is set by the position engine after performing SFT;
+ this is done when the clock time uncertainty is large
+ - eQMI_LOC_TIME_SRC_GLO_TOW_DECODE (9) -- Time is set after decoding GLO satellites
+ - eQMI_LOC_TIME_SRC_TIME_TRANSFORM (10) -- Time is set after transforming the GPS to GLO time
+ - eQMI_LOC_TIME_SRC_WCDMA_SLEEP_TIME_TAGGING (11) -- Time is set by the sleep time tag provided by the WCDMA network
+ - eQMI_LOC_TIME_SRC_GSM_SLEEP_TIME_TAGGING (12) -- Time is set by the sleep time tag provided by the GSM network
+ - eQMI_LOC_TIME_SRC_UNKNOWN (13) -- Source of the time is unknown
+ - eQMI_LOC_TIME_SRC_SYSTEM_TIMETICK (14) -- Time is derived from the system clock (better known as the slow clock);
+ GNSS time is maintained irrespective of the GNSS receiver state
+ - eQMI_LOC_TIME_SRC_QZSS_TOW_DECODE (15) -- Time is set after decoding QZSS satellites
+ - eQMI_LOC_TIME_SRC_BDS_TOW_DECODE (16) -- Time is set after decoding BDS satellites */
+
+ /* Optional */
+ /* Sensor Data Usage */
+ uint8_t sensorDataUsage_valid; /**< Must be set to true if sensorDataUsage is being passed */
+ qmiLocSensorUsageIndicatorStructT_v02 sensorDataUsage;
+ /**< \vspace{0.06in} \n Indicates whether sensor data was used in computing the position in this
+ position report. */
+
+ /* Optional */
+ /* Fix Count for This Session */
+ uint8_t fixId_valid; /**< Must be set to true if fixId is being passed */
+ uint32_t fixId;
+ /**< Fix count for the session. Starts with 0 and increments by one
+ for each successive position report for a particular session. */
+
+ /* Optional */
+ /* SVs Used to Calculate the Fix */
+ uint8_t gnssSvUsedList_valid; /**< Must be set to true if gnssSvUsedList is being passed */
+ uint32_t gnssSvUsedList_len; /**< Must be set to # of elements in gnssSvUsedList */
+ uint16_t gnssSvUsedList[QMI_LOC_MAX_SV_USED_LIST_LENGTH_V02];
+ /**< Each entry in the list contains the SV ID of a satellite
+ used for calculating this position report. The following
+ information is associated with each SV ID: \n
+ Range: \n
+ - For GPS: 1 to 32 \n
+ - For SBAS: 33 to 64 \n
+ - For GLONASS: 65 to 96 \n
+ - For QZSS: 193 to 197 \n
+ - For BDS: 201 to 237
+ */
+
+ /* Optional */
+ /* Altitude Assumed */
+ uint8_t altitudeAssumed_valid; /**< Must be set to true if altitudeAssumed is being passed */
+ uint8_t altitudeAssumed;
+ /**< Indicates whether altitude is assumed or calculated: \begin{itemize1}
+ \item 0x00 (FALSE) -- Altitude is calculated
+ \item 0x01 (TRUE) -- Altitude is assumed; there may not be enough
+ satellites to determine the precise altitude
+ \vspace{-0.18in} \end{itemize1}*/
+}qmiLocEventPositionReportIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCSVSYSTEMENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_SV_SYSTEM_GPS_V02 = 1, /**< GPS satellite */
+ eQMI_LOC_SV_SYSTEM_GALILEO_V02 = 2, /**< GALILEO satellite */
+ eQMI_LOC_SV_SYSTEM_SBAS_V02 = 3, /**< SBAS satellite */
+ eQMI_LOC_SV_SYSTEM_COMPASS_V02 = 4, /**< COMPASS satellite */
+ eQMI_LOC_SV_SYSTEM_GLONASS_V02 = 5, /**< GLONASS satellite */
+ eQMI_LOC_SV_SYSTEM_BDS_V02 = 6, /**< BDS satellite */
+ QMILOCSVSYSTEMENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocSvSystemEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCSVSTATUSENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_SV_STATUS_IDLE_V02 = 1, /**< SV is not being actively processed */
+ eQMI_LOC_SV_STATUS_SEARCH_V02 = 2, /**< The system is searching for this SV */
+ eQMI_LOC_SV_STATUS_TRACK_V02 = 3, /**< SV is being tracked */
+ QMILOCSVSTATUSENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocSvStatusEnumT_v02;
+/**
+ @}
+ */
+
+typedef uint32_t qmiLocSvInfoValidMaskT_v02;
+#define QMI_LOC_SV_INFO_MASK_VALID_SYSTEM_V02 ((qmiLocSvInfoValidMaskT_v02)0x00000001) /**< System field is valid in SV information */
+#define QMI_LOC_SV_INFO_MASK_VALID_GNSS_SVID_V02 ((qmiLocSvInfoValidMaskT_v02)0x00000002) /**< gnssSvId field is valid in SV information */
+#define QMI_LOC_SV_INFO_MASK_VALID_HEALTH_STATUS_V02 ((qmiLocSvInfoValidMaskT_v02)0x00000004) /**< healthStatus field is valid in SV information */
+#define QMI_LOC_SV_INFO_MASK_VALID_PROCESS_STATUS_V02 ((qmiLocSvInfoValidMaskT_v02)0x00000008) /**< processStatus field is valid in SV information */
+#define QMI_LOC_SV_INFO_MASK_VALID_SVINFO_MASK_V02 ((qmiLocSvInfoValidMaskT_v02)0x00000010) /**< svInfoMask field is valid in SV information */
+#define QMI_LOC_SV_INFO_MASK_VALID_ELEVATION_V02 ((qmiLocSvInfoValidMaskT_v02)0x00000020) /**< Elevation field is valid in SV information */
+#define QMI_LOC_SV_INFO_MASK_VALID_AZIMUTH_V02 ((qmiLocSvInfoValidMaskT_v02)0x00000040) /**< Azimuth field is valid in SV information */
+#define QMI_LOC_SV_INFO_MASK_VALID_SNR_V02 ((qmiLocSvInfoValidMaskT_v02)0x00000080) /**< SNR field is valid in SV information */
+typedef uint8_t qmiLocSvInfoMaskT_v02;
+#define QMI_LOC_SVINFO_MASK_HAS_EPHEMERIS_V02 ((qmiLocSvInfoMaskT_v02)0x01) /**< Ephemeris is available for this SV */
+#define QMI_LOC_SVINFO_MASK_HAS_ALMANAC_V02 ((qmiLocSvInfoMaskT_v02)0x02) /**< Almanac is available for this SV */
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ qmiLocSvInfoValidMaskT_v02 validMask;
+ /**< Bitmask indicating which of the fields in this TLV are valid.
+
+ Valid bitmasks: \begin{itemize1}
+ \item 0x00000001 -- VALID_SYSTEM
+ \item 0x00000002 -- VALID_GNSS_SVID
+ \item 0x00000004 -- VALID_HEALTH_ STATUS
+ \item 0x00000008 -- VALID_PROCESS_ STATUS
+ \item 0x00000010 -- VALID_SVINFO_ MASK
+ \item 0x00000020 -- VALID_ELEVATION
+ \item 0x00000040 -- VALID_AZIMUTH
+ \item 0x00000080 -- VALID_SNR
+ \vspace{-0.18in} \end{itemize1} */
+
+ qmiLocSvSystemEnumT_v02 system;
+ /**< Indicates to which constellation this SV belongs.
+
+ Valid values: \n
+ - eQMI_LOC_SV_SYSTEM_GPS (1) -- GPS satellite
+ - eQMI_LOC_SV_SYSTEM_GALILEO (2) -- GALILEO satellite
+ - eQMI_LOC_SV_SYSTEM_SBAS (3) -- SBAS satellite
+ - eQMI_LOC_SV_SYSTEM_COMPASS (4) -- COMPASS satellite
+ - eQMI_LOC_SV_SYSTEM_GLONASS (5) -- GLONASS satellite
+ - eQMI_LOC_SV_SYSTEM_BDS (6) -- BDS satellite
+ */
+
+ uint16_t gnssSvId;
+ /**< GNSS SV ID.
+ \begin{itemize1}
+ \item Range: \begin{itemize1}
+ \item For GPS: 1 to 32
+ \item For GLONASS: 1 to 32
+ \item For SBAS: 120 to 151
+ \item For BDS: 201 to 237
+ \end{itemize1} \end{itemize1}
+
+ The GPS and GLONASS SVs can be disambiguated using the system field. */
+
+ uint8_t healthStatus;
+ /**< Health status.
+ \begin{itemize1}
+ \item Range: 0 to 1; 0 = unhealthy, \n 1 = healthy
+ \vspace{-0.18in} \end{itemize1}*/
+
+ qmiLocSvStatusEnumT_v02 svStatus;
+ /**< SV processing status.
+
+ Valid values: \n
+ - eQMI_LOC_SV_STATUS_IDLE (1) -- SV is not being actively processed
+ - eQMI_LOC_SV_STATUS_SEARCH (2) -- The system is searching for this SV
+ - eQMI_LOC_SV_STATUS_TRACK (3) -- SV is being tracked
+ */
+
+ qmiLocSvInfoMaskT_v02 svInfoMask;
+ /**< Indicates whether almanac and ephemeris information is available. \n
+ Valid bitmasks:
+
+ - 0x01 -- SVINFO_HAS_EPHEMERIS \n
+ - 0x02 -- SVINFO_HAS_ALMANAC
+ */
+
+ float elevation;
+ /**< SV elevation angle.\n
+ - Units: Degrees \n
+ - Range: 0 to 90 */
+
+ float azimuth;
+ /**< SV azimuth angle.\n
+ - Units: Degrees \n
+ - Range: 0 to 360 */
+
+ float snr;
+ /**< SV signal-to-noise ratio. \n
+ - Units: dB-Hz */
+}qmiLocSvInfoStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Sends a satellite report to the control point. */
+typedef struct {
+
+ /* Mandatory */
+ /* Altitude Assumed */
+ uint8_t altitudeAssumed;
+ /**< Indicates whether altitude is assumed or calculated: \begin{itemize1}
+ \item 0x00 (FALSE) -- Valid altitude is calculated
+ \item 0x01 (TRUE) -- Valid altitude is assumed; there may not be
+ enough satellites to determine precise altitude
+ \vspace{-0.18in} \end{itemize1}*/
+
+ /* Optional */
+ /* Satellite Info */
+ uint8_t svList_valid; /**< Must be set to true if svList is being passed */
+ uint32_t svList_len; /**< Must be set to # of elements in svList */
+ qmiLocSvInfoStructT_v02 svList[QMI_LOC_SV_INFO_LIST_MAX_SIZE_V02];
+ /**< \vspace{0.06in} \n SV information list. */
+}qmiLocEventGnssSvInfoIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Sends NMEA sentences to the control point */
+typedef struct {
+
+ /* Mandatory */
+ /* NMEA String */
+ char nmea[QMI_LOC_NMEA_STRING_MAX_LENGTH_V02 + 1];
+ /**< NMEA string.
+ \begin{itemize1}
+ \item Type: NULL-terminated string
+ \item Maximum string length (including NULL terminator): 201
+ \vspace{-0.18in} \end{itemize1}*/
+}qmiLocEventNmeaIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCNINOTIFYVERIFYENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_NI_USER_NO_NOTIFY_NO_VERIFY_V02 = 1, /**< No notification and no verification required */
+ eQMI_LOC_NI_USER_NOTIFY_ONLY_V02 = 2, /**< Notify only; no verification required */
+ eQMI_LOC_NI_USER_NOTIFY_VERIFY_ALLOW_NO_RESP_V02 = 3, /**< Notify and verify, but no response required. */
+ eQMI_LOC_NI_USER_NOTIFY_VERIFY_NOT_ALLOW_NO_RESP_V02 = 4, /**< Notify and verify, and require a response */
+ eQMI_LOC_NI_USER_NOTIFY_VERIFY_PRIVACY_OVERRIDE_V02 = 5, /**< Notify and verify; privacy override */
+ QMILOCNINOTIFYVERIFYENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocNiNotifyVerifyEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCNIVXPOSMODEENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_NI_VX_MS_ASSISTED_ONLY_V02 = 1, /**< MS-assisted only allowed */
+ eQMI_LOC_NI_VX_MS_BASED_ONLY_V02 = 2, /**< MS-based only allowed */
+ eQMI_LOC_NI_VX_MS_ASSISTED_PREFERRED_MS_BASED_ALLOWED_V02 = 3, /**< MS-assisted preferred, but MS-based allowed */
+ eQMI_LOC_NI_VX_MS_BASED_PREFERRED_MS_ASSISTED_ALLOWED_V02 = 4, /**< MS-based preferred, but MS-assisted allowed */
+ QMILOCNIVXPOSMODEENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocNiVxPosModeEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCNIVXREQUESTORIDENCODINGSCHEMEENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_NI_VX_OCTET_V02 = 0, /**< Encoding is Octet */
+ eQMI_LOC_NI_VX_EXN_PROTOCOL_MSG_V02 = 1, /**< Encoding is EXN protocol message */
+ eQMI_LOC_NI_VX_ASCII_V02 = 2, /**< Encoding is ASCII */
+ eQMI_LOC_NI_VX_IA5_V02 = 3, /**< Encoding is IA5 */
+ eQMI_LOC_NI_VX_UNICODE_V02 = 4, /**< Encoding is Unicode */
+ eQMI_LOC_NI_VX_SHIFT_JIS_V02 = 5, /**< Encoding is Shift JIS */
+ eQMI_LOC_NI_VX_KOREAN_V02 = 6, /**< Encoding is Korean */
+ eQMI_LOC_NI_VX_LATIN_HEBREW_V02 = 7, /**< Encoding is Latin Hebrew */
+ eQMI_LOC_NI_VX_LATIN_V02 = 8, /**< Encoding is Latin */
+ eQMI_LOC_NI_VX_GSM_V02 = 9, /**< Encoding is GSM */
+ QMILOCNIVXREQUESTORIDENCODINGSCHEMEENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocNiVxRequestorIdEncodingSchemeEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ uint8_t posQosIncl;
+ /**< Indicates whether quality of service is included:\n
+ - 0x01 (TRUE) -- QoS is included \n
+ - 0x00 (FALSE) -- QoS is not included */
+
+ uint8_t posQos;
+ /**< Position QoS timeout. \n
+ - Units: Seconds \n
+ - Range: 0 to 255 */
+
+ uint32_t numFixes;
+ /**< Number of fixes allowed. */
+
+ uint32_t timeBetweenFixes;
+ /**< Time between fixes. \n
+ - Units: Seconds */
+
+ qmiLocNiVxPosModeEnumT_v02 posMode;
+ /**< Position mode.
+ Valid values:
+
+ - eQMI_LOC_NI_VX_MS_ASSISTED_ONLY (1) -- MS-assisted only allowed
+ - eQMI_LOC_NI_VX_MS_BASED_ONLY (2) -- MS-based only allowed
+ - eQMI_LOC_NI_VX_MS_ASSISTED_PREFERRED_MS_BASED_ALLOWED (3) -- MS-assisted preferred, but MS-based allowed
+ - eQMI_LOC_NI_VX_MS_BASED_PREFERRED_MS_ASSISTED_ALLOWED (4) -- MS-based preferred, but MS-assisted allowed
+ */
+
+ qmiLocNiVxRequestorIdEncodingSchemeEnumT_v02 encodingScheme;
+ /**< VX encoding scheme.
+
+ Valid values:
+
+ - eQMI_LOC_NI_VX_OCTET (0) -- Encoding is Octet
+ - eQMI_LOC_NI_VX_EXN_PROTOCOL_MSG (1) -- Encoding is EXN protocol message
+ - eQMI_LOC_NI_VX_ASCII (2) -- Encoding is ASCII
+ - eQMI_LOC_NI_VX_IA5 (3) -- Encoding is IA5
+ - eQMI_LOC_NI_VX_UNICODE (4) -- Encoding is Unicode
+ - eQMI_LOC_NI_VX_SHIFT_JIS (5) -- Encoding is Shift JIS
+ - eQMI_LOC_NI_VX_KOREAN (6) -- Encoding is Korean
+ - eQMI_LOC_NI_VX_LATIN_HEBREW (7) -- Encoding is Latin Hebrew
+ - eQMI_LOC_NI_VX_LATIN (8) -- Encoding is Latin
+ - eQMI_LOC_NI_VX_GSM (9) -- Encoding is GSM
+ */
+
+ uint32_t requestorId_len; /**< Must be set to # of elements in requestorId */
+ uint8_t requestorId[QMI_LOC_NI_MAX_REQUESTOR_ID_LENGTH_V02];
+ /**< Requestor ID. \n
+ - Type: Array of bytes \n
+ - Maximum array length: 200
+ */
+
+ uint16_t userRespTimerInSeconds;
+ /**< Time to wait for the user to respond. \n
+ - Units: Seconds */
+}qmiLocNiVxNotifyVerifyStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCNISUPLPOSMETHODENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_NI_SUPL_POSMETHOD_AGPS_SETASSISTED_V02 = 1, /**< Set assisted */
+ eQMI_LOC_NI_SUPL_POSMETHOD_AGPS_SETBASED_V02 = 2, /**< Set based */
+ eQMI_LOC_NI_SUPL_POSMETHOD_AGPS_SETASSISTED_PREF_V02 = 3, /**< Set assisted preferred */
+ eQMI_LOC_NI_SUPL_POSMETHOD_AGPS_SETBASED_PREF_V02 = 4, /**< Set based preferred */
+ eQMI_LOC_NI_SUPL_POSMETHOD_AUTONOMOUS_GPS_V02 = 5, /**< Standalone GPS */
+ eQMI_LOC_NI_SUPL_POSMETHOD_AFLT_V02 = 6, /**< Advanced forward link trilateration */
+ eQMI_LOC_NI_SUPL_POSMETHOD_ECID_V02 = 7, /**< Exclusive chip ID */
+ eQMI_LOC_NI_SUPL_POSMETHOD_EOTD_V02 = 8, /**< Enhnaced observed time difference */
+ eQMI_LOC_NI_SUPL_POSMETHOD_OTDOA_V02 = 9, /**< Observed time delay of arrival */
+ eQMI_LOC_NI_SUPL_POSMETHOD_NO_POSITION_V02 = 10, /**< No position */
+ QMILOCNISUPLPOSMETHODENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocNiSuplPosMethodEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCNIDATACODINGSCHEMEENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_NI_SS_GERMAN_V02 = 12, /**< Language is German */
+ eQMI_LOC_NI_SS_ENGLISH_V02 = 13, /**< Language is English */
+ eQMI_LOC_NI_SS_ITALIAN_V02 = 14, /**< Language is Italian */
+ eQMI_LOC_NI_SS_FRENCH_V02 = 15, /**< Language is French */
+ eQMI_LOC_NI_SS_SPANISH_V02 = 16, /**< Language is Spanish */
+ eQMI_LOC_NI_SS_DUTCH_V02 = 17, /**< Language is Dutch */
+ eQMI_LOC_NI_SS_SWEDISH_V02 = 18, /**< Language is Swedish */
+ eQMI_LOC_NI_SS_DANISH_V02 = 19, /**< Language is Danish */
+ eQMI_LOC_NI_SS_PORTUGUESE_V02 = 20, /**< Language is Portuguese */
+ eQMI_LOC_NI_SS_FINNISH_V02 = 21, /**< Language is Finnish */
+ eQMI_LOC_NI_SS_NORWEGIAN_V02 = 22, /**< Language is Norwegian */
+ eQMI_LOC_NI_SS_GREEK_V02 = 23, /**< Language is Greek */
+ eQMI_LOC_NI_SS_TURKISH_V02 = 24, /**< Language is Turkish */
+ eQMI_LOC_NI_SS_HUNGARIAN_V02 = 25, /**< Language is Hungarian */
+ eQMI_LOC_NI_SS_POLISH_V02 = 26, /**< Language is Polish */
+ eQMI_LOC_NI_SS_LANGUAGE_UNSPEC_V02 = 27, /**< Language is unspecified */
+ eQMI_LOC_NI_SUPL_UTF8_V02 = 28, /**< Encoding is UTF 8 */
+ eQMI_LOC_NI_SUPL_UCS2_V02 = 29, /**< Encoding is UCS 2 */
+ eQMI_LOC_NI_SUPL_GSM_DEFAULT_V02 = 30, /**< Encoding is GSM default */
+ QMILOCNIDATACODINGSCHEMEENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocNiDataCodingSchemeEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCNISUPLFORMATENUMTYPE_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_NI_SUPL_FORMAT_LOGICAL_NAME_V02 = 0, /**< SUPL logical name format */
+ eQMI_LOC_NI_SUPL_FORMAT_EMAIL_ADDRESS_V02 = 1, /**< SUPL email address format */
+ eQMI_LOC_NI_SUPL_FORMAT_MSISDN_V02 = 2, /**< SUPL MS-ISDN format */
+ eQMI_LOC_NI_SUPL_FORMAT_URL_V02 = 3, /**< SUPL URL format */
+ eQMI_LOC_NI_SUPL_FORMAT_SIP_URL_V02 = 4, /**< SUPL SIP URL format */
+ eQMI_LOC_NI_SUPL_FORMAT_MIN_V02 = 5, /**< SUPL MIN format */
+ eQMI_LOC_NI_SUPL_FORMAT_MDN_V02 = 6, /**< SUPL MDN format */
+ eQMI_LOC_NI_SUPL_FORMAT_IMSPUBLIC_IDENTITY_V02 = 7, /**< SUPL IMS public identity */
+ eQMI_LOC_NI_SUPL_FORMAT_OSS_UNKNOWN_V02 = 2147483647, /**< SUPL unknown format */
+ QMILOCNISUPLFORMATENUMTYPE_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocNiSuplFormatEnumType_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ qmiLocNiSuplFormatEnumType_v02 formatType;
+ /**< Format of the formatted string.
+
+ Valid values: \n
+ - eQMI_LOC_NI_SUPL_FORMAT_LOGICAL_NAME (0) -- SUPL logical name format
+ - eQMI_LOC_NI_SUPL_FORMAT_EMAIL_ADDRESS (1) -- SUPL email address format
+ - eQMI_LOC_NI_SUPL_FORMAT_MSISDN (2) -- SUPL MS-ISDN format
+ - eQMI_LOC_NI_SUPL_FORMAT_URL (3) -- SUPL URL format
+ - eQMI_LOC_NI_SUPL_FORMAT_SIP_URL (4) -- SUPL SIP URL format
+ - eQMI_LOC_NI_SUPL_FORMAT_MIN (5) -- SUPL MIN format
+ - eQMI_LOC_NI_SUPL_FORMAT_MDN (6) -- SUPL MDN format
+ - eQMI_LOC_NI_SUPL_FORMAT_IMSPUBLIC_IDENTITY (7) -- SUPL IMS public identity
+ - eQMI_LOC_NI_SUPL_FORMAT_OSS_UNKNOWN (2147483647) -- SUPL unknown format
+ */
+
+ uint32_t formattedString_len; /**< Must be set to # of elements in formattedString */
+ uint8_t formattedString[QMI_LOC_NI_MAX_CLIENT_NAME_LENGTH_V02];
+ /**< Formatted string. \n
+ - Type: Byte array \n
+ - Maximum string length: 64
+ */
+}qmiLocNiSuplFormattedStringStructT_v02; /* Type */
+/**
+ @}
+ */
+
+typedef uint8_t qmiLocSuplQopValidMaskT_v02;
+#define QMI_LOC_NI_SUPL_MASK_QOP_HORZ_ACC_VALID_V02 ((qmiLocSuplQopValidMaskT_v02)0x01) /**< Horizontal accuracy is valid in the Quality of Position (QoP) */
+#define QMI_LOC_NI_SUPL_MASK_QOP_VER_ACC_VALID_V02 ((qmiLocSuplQopValidMaskT_v02)0x02) /**< Vertical accuracy is valid in the QoP */
+#define QMI_LOC_NI_SUPL_MASK_QOP_MAXAGE_VALID_V02 ((qmiLocSuplQopValidMaskT_v02)0x04) /**< Vertical accuracy is valid in the QoP */
+#define QMI_LOC_NI_SUPL_MASK_QOP_DELAY_VALID_V02 ((qmiLocSuplQopValidMaskT_v02)0x08) /**< Vertical accuracy is valid in the QoP */
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ qmiLocSuplQopValidMaskT_v02 validMask;
+ /**< Bit field indicating which fields are valid in this value.
+
+ Valid bitmasks: \n
+ - 0x01 -- QOP_HORZ_ACC_VALID \n
+ - 0x02 -- QOP_VER_ACC_VALID \n
+ - 0x04 -- QOP_MAXAGE_VALID \n
+ - 0x08 -- QOP_DELAY_VALID*/
+
+ uint8_t horizontalAccuracy;
+ /**< Horizontal accuracy. \n
+ - Units: Meters */
+
+ uint8_t verticalAccuracy;
+ /**< Vertical accuracy. \n
+ - Units: Meters */
+
+ uint16_t maxLocAge;
+ /**< Maximum age of the location if the engine sends a previously
+ computed position. \n
+ - Units: Seconds */
+
+ uint8_t delay;
+ /**< Delay the server is willing to tolerate for the fix. \n
+ - Units: Seconds */
+}qmiLocNiSuplQopStructT_v02; /* Type */
+/**
+ @}
+ */
+
+typedef uint8_t qmiLocServerAddrTypeMaskT_v02;
+#define QMI_LOC_SERVER_ADDR_TYPE_IPV4_MASK_V02 ((qmiLocServerAddrTypeMaskT_v02)0x01) /**< IPv4 server address type */
+#define QMI_LOC_SERVER_ADDR_TYPE_IPV6_MASK_V02 ((qmiLocServerAddrTypeMaskT_v02)0x02) /**< IPv6 server address type */
+#define QMI_LOC_SERVER_ADDR_TYPE_URL_MASK_V02 ((qmiLocServerAddrTypeMaskT_v02)0x04) /**< URL server address type */
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ uint32_t addr;
+ /**< IPv4 address. */
+
+ uint16_t port;
+ /**< IPv4 port. */
+}qmiLocIpV4AddrStructType_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ uint16_t addr[QMI_LOC_IPV6_ADDR_LENGTH_V02];
+ /**< IPv6 address. \n
+ - Type: Array of unsigned integers \n
+ - Maximum length of the array: 8 */
+
+ uint32_t port;
+ /**< IPv6 port. */
+}qmiLocIpV6AddrStructType_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ qmiLocServerAddrTypeMaskT_v02 suplServerAddrTypeMask;
+ /**< Mask specifying the valid fields in this value.
+
+ Valid bitmasks: \n
+ - 0x01 -- IPv4 \n
+ - 0x02 -- IPv6 \n
+ - 0x04 -- URL
+ */
+
+ qmiLocIpV4AddrStructType_v02 ipv4Addr;
+ /**< IPv4 address and port. */
+
+ qmiLocIpV6AddrStructType_v02 ipv6Addr;
+ /**< IPv6 address and port. */
+
+ char urlAddr[QMI_LOC_MAX_SERVER_ADDR_LENGTH_V02 + 1];
+ /**< URL.
+ \begin{itemize1}
+ \item Type: NULL-terminated string
+ \item Maximum string length (including NULL terminator): 256
+ \vspace{-0.18in} \end{itemize1}
+ */
+}qmiLocNiSuplServerInfoStructT_v02; /* Type */
+/**
+ @}
+ */
+
+typedef uint32_t qmiLocNiSuplNotifyVerifyValidMaskT_v02;
+#define QMI_LOC_SUPL_SERVER_INFO_MASK_V02 ((qmiLocNiSuplNotifyVerifyValidMaskT_v02)0x00000001) /**< Mask to denote that the server information
+ is present in an NI SUPL Notify/Verify request event. This mask is set in
+ the valid_flags field of a Notify/Verify structure. */
+#define QMI_LOC_SUPL_SESSION_ID_MASK_V02 ((qmiLocNiSuplNotifyVerifyValidMaskT_v02)0x00000002) /**< Mask to denote that the SUPL session ID
+ is present in an NI SUPL Notify/Verify request event.
+ This mask is set in the valid_flags field of a
+ Notify/Verify structure. */
+#define QMI_LOC_SUPL_HASH_MASK_V02 ((qmiLocNiSuplNotifyVerifyValidMaskT_v02)0x00000004) /**< Mask to denote that the SUPL hash is present
+ in an NI Notify/Verify request event.
+ This mask is set in the valid_flags field of a
+ Notify/Verify structure. */
+#define QMI_LOC_SUPL_POS_METHOD_MASK_V02 ((qmiLocNiSuplNotifyVerifyValidMaskT_v02)0x00000008) /**< Mask to denote that the position method is present
+ in an NI SUPL Notify/Verify request event.
+ This mask is set in the valid_flags field of a
+ Notify/Verify structure. */
+#define QMI_LOC_SUPL_DATA_CODING_SCHEME_MASK_V02 ((qmiLocNiSuplNotifyVerifyValidMaskT_v02)0x00000010) /**< Mask to denote that the data coding scheme
+ is present in an NI SUPL Notify/Verify request event.
+ This mask is set in the valid_flags field of a
+ Notify/Verify structure. */
+#define QMI_LOC_SUPL_REQUESTOR_ID_MASK_V02 ((qmiLocNiSuplNotifyVerifyValidMaskT_v02)0x00000020) /**< Mask to denote that the requestor ID
+ is present in an NI Notify/Verify request event.
+ This mask is set in the valid_flags field of a
+ Notify/Verify structure. */
+#define QMI_LOC_SUPL_CLIENT_NAME_MASK_V02 ((qmiLocNiSuplNotifyVerifyValidMaskT_v02)0x00000040) /**< Mask to denote that the requestor ID
+ is present in an NI Notify/Verify request event.
+ This mask is set in the valid_flags field of a
+ Notify/Verify structure. */
+#define QMI_LOC_SUPL_QOP_MASK_V02 ((qmiLocNiSuplNotifyVerifyValidMaskT_v02)0x00000080) /**< Mask to denote that the quality of position
+ is present in an NI Notify/Verify request event.
+ This mask is set in the valid_flags field of a
+ Notify/Verify structure. */
+#define QMI_LOC_SUPL_USER_RESP_TIMER_MASK_V02 ((qmiLocNiSuplNotifyVerifyValidMaskT_v02)0x00000100) /**< Mask to denote that the user response timer
+ is present in an NI Notify/Verify request event.
+ This mask is set in the valid_flags field of a
+ Notify/Verify structure. */
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ qmiLocNiSuplNotifyVerifyValidMaskT_v02 valid_flags;
+ /**< Indicates which of the following fields are present in this value.
+
+ Valid bitmasks: \begin{itemize1}
+ \item 0x00000001 -- SUPL_SERVER_INFO
+ \item 0x00000002 -- SUPL_SESSION_ID
+ \item 0x00000004 -- SUPL_HASH
+ \item 0x00000008 -- SUPL_POS_METHOD
+ \item 0x00000010 -- SUPL_DATA_ CODING_SCHEME
+ \item 0x00000020 -- SUPL_REQUESTOR_ ID
+ \item 0x00000040 -- SUPL_CLIENT_ NAME
+ \item 0x00000080 -- SUPL_QOP
+ \item 0x00000100 -- SUPL_USER_RESP_ TIMER
+ \vspace{-0.18in} \end{itemize1}
+ */
+
+ qmiLocNiSuplServerInfoStructT_v02 suplServerInfo;
+ /**< SUPL server information. */
+
+ uint8_t suplSessionId[QMI_LOC_NI_SUPL_SLP_SESSION_ID_BYTE_LENGTH_V02];
+ /**< SUPL session ID. \n
+ - Type: Array of unsigned integers \n
+ - Maximum length of the array: 4 */
+
+ uint8_t suplHash[QMI_LOC_NI_SUPL_HASH_LENGTH_V02];
+ /**< Hash for SUPL_INIT; used to validate that the message was not
+ corrupted. \n
+ - Type: Array of unsigned integers \n
+ - Length of the array: 8 */
+
+ qmiLocNiSuplPosMethodEnumT_v02 posMethod;
+ /**< GPS mode to be used for the fix.
+ Valid values:
+
+ - eQMI_LOC_NI_SUPL_POSMETHOD_AGPS_SETASSISTED (1) -- Set assisted
+ - eQMI_LOC_NI_SUPL_POSMETHOD_AGPS_SETBASED (2) -- Set based
+ - eQMI_LOC_NI_SUPL_POSMETHOD_AGPS_SETASSISTED_PREF (3) -- Set assisted preferred
+ - eQMI_LOC_NI_SUPL_POSMETHOD_AGPS_SETBASED_PREF (4) -- Set based preferred
+ - eQMI_LOC_NI_SUPL_POSMETHOD_AUTONOMOUS_GPS (5) -- Standalone GPS
+ - eQMI_LOC_NI_SUPL_POSMETHOD_AFLT (6) -- Advanced forward link trilateration
+ - eQMI_LOC_NI_SUPL_POSMETHOD_ECID (7) -- Exclusive chip ID
+ - eQMI_LOC_NI_SUPL_POSMETHOD_EOTD (8) -- Enhnaced observed time difference
+ - eQMI_LOC_NI_SUPL_POSMETHOD_OTDOA (9) -- Observed time delay of arrival
+ - eQMI_LOC_NI_SUPL_POSMETHOD_NO_POSITION (10) -- No position
+ */
+
+ qmiLocNiDataCodingSchemeEnumT_v02 dataCodingScheme;
+ /**< Data coding scheme applies to both the requestor ID and the client
+ name.
+
+ Valid values: \n
+ - eQMI_LOC_NI_SS_GERMAN (12) -- Language is German
+ - eQMI_LOC_NI_SS_ENGLISH (13) -- Language is English
+ - eQMI_LOC_NI_SS_ITALIAN (14) -- Language is Italian
+ - eQMI_LOC_NI_SS_FRENCH (15) -- Language is French
+ - eQMI_LOC_NI_SS_SPANISH (16) -- Language is Spanish
+ - eQMI_LOC_NI_SS_DUTCH (17) -- Language is Dutch
+ - eQMI_LOC_NI_SS_SWEDISH (18) -- Language is Swedish
+ - eQMI_LOC_NI_SS_DANISH (19) -- Language is Danish
+ - eQMI_LOC_NI_SS_PORTUGUESE (20) -- Language is Portuguese
+ - eQMI_LOC_NI_SS_FINNISH (21) -- Language is Finnish
+ - eQMI_LOC_NI_SS_NORWEGIAN (22) -- Language is Norwegian
+ - eQMI_LOC_NI_SS_GREEK (23) -- Language is Greek
+ - eQMI_LOC_NI_SS_TURKISH (24) -- Language is Turkish
+ - eQMI_LOC_NI_SS_HUNGARIAN (25) -- Language is Hungarian
+ - eQMI_LOC_NI_SS_POLISH (26) -- Language is Polish
+ - eQMI_LOC_NI_SS_LANGUAGE_UNSPEC (27) -- Language is unspecified
+ - eQMI_LOC_NI_SUPL_UTF8 (28) -- Encoding is UTF 8
+ - eQMI_LOC_NI_SUPL_UCS2 (29) -- Encoding is UCS 2
+ - eQMI_LOC_NI_SUPL_GSM_DEFAULT (30) -- Encoding is GSM default
+ */
+
+ qmiLocNiSuplFormattedStringStructT_v02 requestorId;
+ /**< Requestor ID. The encoding scheme for requestor_id is specified in
+ the dataCodingScheme field. */
+
+ qmiLocNiSuplFormattedStringStructT_v02 clientName;
+ /**< Client name. The encoding scheme for client_name is specified in
+ the dataCodingScheme field. */
+
+ qmiLocNiSuplQopStructT_v02 suplQop;
+ /**< SUPL QoP. */
+
+ uint16_t userResponseTimer;
+ /**< Time to wait for the user to respond. \n
+ - Units: Seconds*/
+}qmiLocNiSuplNotifyVerifyStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCNILOCATIONTYPEENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_NI_LOCATIONTYPE_CURRENT_LOCATION_V02 = 1, /**< Current location */
+ eQMI_LOC_NI_LOCATIONTYPE_CURRENT_OR_LAST_KNOWN_LOCATION_V02 = 2, /**< Last known location; may be the current location */
+ eQMI_LOC_NI_LOCATIONTYPE_INITIAL_LOCATION_V02 = 3, /**< Initial location */
+ QMILOCNILOCATIONTYPEENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocNiLocationTypeEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ qmiLocNiDataCodingSchemeEnumT_v02 dataCodingScheme;
+ /**< Identifies the coding scheme of the coded string.
+
+ Valid values: \n
+ - eQMI_LOC_NI_SS_GERMAN (12) -- Language is German
+ - eQMI_LOC_NI_SS_ENGLISH (13) -- Language is English
+ - eQMI_LOC_NI_SS_ITALIAN (14) -- Language is Italian
+ - eQMI_LOC_NI_SS_FRENCH (15) -- Language is French
+ - eQMI_LOC_NI_SS_SPANISH (16) -- Language is Spanish
+ - eQMI_LOC_NI_SS_DUTCH (17) -- Language is Dutch
+ - eQMI_LOC_NI_SS_SWEDISH (18) -- Language is Swedish
+ - eQMI_LOC_NI_SS_DANISH (19) -- Language is Danish
+ - eQMI_LOC_NI_SS_PORTUGUESE (20) -- Language is Portuguese
+ - eQMI_LOC_NI_SS_FINNISH (21) -- Language is Finnish
+ - eQMI_LOC_NI_SS_NORWEGIAN (22) -- Language is Norwegian
+ - eQMI_LOC_NI_SS_GREEK (23) -- Language is Greek
+ - eQMI_LOC_NI_SS_TURKISH (24) -- Language is Turkish
+ - eQMI_LOC_NI_SS_HUNGARIAN (25) -- Language is Hungarian
+ - eQMI_LOC_NI_SS_POLISH (26) -- Language is Polish
+ - eQMI_LOC_NI_SS_LANGUAGE_UNSPEC (27) -- Language is unspecified
+ - eQMI_LOC_NI_SUPL_UTF8 (28) -- Encoding is UTF 8
+ - eQMI_LOC_NI_SUPL_UCS2 (29) -- Encoding is UCS 2
+ - eQMI_LOC_NI_SUPL_GSM_DEFAULT (30) -- Encoding is GSM default
+ */
+
+ uint32_t codedString_len; /**< Must be set to # of elements in codedString */
+ uint8_t codedString[QMI_LOC_NI_CODEWORD_MAX_LENGTH_V02];
+ /**< Coded string. \n
+ - Type: Array of bytes \n
+ - Maximum string length: 20 */
+}qmiLocNiUmtsCpCodedStringStructT_v02; /* Type */
+/**
+ @}
+ */
+
+typedef uint16_t qmiLocNiUmtsCpNotifyVerifyValidMaskT_v02;
+#define QMI_LOC_UMTS_CP_INVOKE_ID_MASK_V02 ((qmiLocNiUmtsCpNotifyVerifyValidMaskT_v02)0x0001) /**< Mask to denote that the invoke ID
+ is present in an NI Notify/Verify request event.
+ This mask is set in the valid flags field of a
+ Notify/Verify structure. */
+#define QMI_LOC_UMTS_CP_DATA_CODING_SCHEME_MASK_V02 ((qmiLocNiUmtsCpNotifyVerifyValidMaskT_v02)0x0002) /**< Mask to denote that the data coding scheme
+ is present in an NI Notify/Verify request event.
+ This mask is set in the valid flags field of a
+ Notify/Verify structure. */
+#define QMI_LOC_UMTS_CP_NOTIFICATION_TEXT_MASK_V02 ((qmiLocNiUmtsCpNotifyVerifyValidMaskT_v02)0x0004) /**< Mask to denote that the notification text
+ is present in an NI Notify/Verify request event.
+ This mask is set in the valid flags field of a
+ Notify/Verify structure. */
+#define QMI_LOC_UMTS_CP_CLIENT_ADDRESS_MASK_V02 ((qmiLocNiUmtsCpNotifyVerifyValidMaskT_v02)0x0008) /**< Mask to denote that the client address
+ is present in an NI Notify/Verify request event.
+ This mask is set in the valid flags field of a
+ Notify/Verify structure. */
+#define QMI_LOC_UMTS_CP_LOCATION_TYPE_MASK_V02 ((qmiLocNiUmtsCpNotifyVerifyValidMaskT_v02)0x0010) /**< Mask to denote that the location type
+ is present in an NI Notify/Verify request event.
+ This mask is set in the valid flags field of a
+ Notify/Verify structure. */
+#define QMI_LOC_UMTS_CP_REQUESTOR_ID_MASK_V02 ((qmiLocNiUmtsCpNotifyVerifyValidMaskT_v02)0x0020) /**< Mask to denote that the requestor ID
+ is present in an NI Notify/Verify request event.
+ This mask is set in the valid flags field of a
+ Notify/Verify structure. */
+#define QMI_LOC_UMTS_CP_CODEWORD_STRING_MASK_V02 ((qmiLocNiUmtsCpNotifyVerifyValidMaskT_v02)0x0040) /**< Mask to denote that the code word string
+ is present in an NI Notify/Verify request event.
+ This mask is set in the valid flags field of a
+ Notify/Verify structure. */
+#define QMI_LOC_UMTS_CP_SERVICE_TYPE_MASK_V02 ((qmiLocNiUmtsCpNotifyVerifyValidMaskT_v02)0x0080) /**< Mask to denote that the service type
+ is present in an NI Notify/Verify request event.
+ This mask is set in the valid flags field of a
+ Notify/Verify structure. */
+#define QMI_LOC_UMTS_CP_USER_RESP_TIMER_MASK_V02 ((qmiLocNiUmtsCpNotifyVerifyValidMaskT_v02)0x0100) /**< Mask to denote that the user response timer
+ is present in an NI Notify/Verify request event.
+ This mask is set in the valid flags field of a
+ Notify/Verify structure. */
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ qmiLocNiUmtsCpNotifyVerifyValidMaskT_v02 valid_flags;
+ /**< Fields that are valid in this value.
+
+ Valid bitmasks: \begin{itemize1}
+ \item 0x0001 -- INVOKE_ID_MASK
+ \item 0x0002 -- DATA_CODING_ SCHEME_MASK
+ \item 0x0004 -- NOTIFICATION_TEXT_ MASK
+ \item 0x0008 -- CLIENT_ADDRESS_ MASK
+ \item 0x0010 -- LOCATION_TYPE_ MASK
+ \item 0x0020 -- REQUESTOR_ID_MASK
+ \item 0x0040 -- CODEWORD_STRING_ MASK
+ \item 0x0080 -- SERVICE_TYPE_MASK
+ \item 0x0100 -- USER_RESP_TIMER_ MASK
+ \vspace{-0.18in} \end{itemize1}
+ */
+
+ uint8_t invokeId;
+ /**< Supplementary Services invoke ID. */
+
+ qmiLocNiDataCodingSchemeEnumT_v02 dataCodingScheme;
+ /**< Type of data encoding scheme for the text.
+ Applies to both the notification text and the client address.
+
+ Valid values: \n
+ - eQMI_LOC_NI_SS_GERMAN (12) -- Language is German
+ - eQMI_LOC_NI_SS_ENGLISH (13) -- Language is English
+ - eQMI_LOC_NI_SS_ITALIAN (14) -- Language is Italian
+ - eQMI_LOC_NI_SS_FRENCH (15) -- Language is French
+ - eQMI_LOC_NI_SS_SPANISH (16) -- Language is Spanish
+ - eQMI_LOC_NI_SS_DUTCH (17) -- Language is Dutch
+ - eQMI_LOC_NI_SS_SWEDISH (18) -- Language is Swedish
+ - eQMI_LOC_NI_SS_DANISH (19) -- Language is Danish
+ - eQMI_LOC_NI_SS_PORTUGUESE (20) -- Language is Portuguese
+ - eQMI_LOC_NI_SS_FINNISH (21) -- Language is Finnish
+ - eQMI_LOC_NI_SS_NORWEGIAN (22) -- Language is Norwegian
+ - eQMI_LOC_NI_SS_GREEK (23) -- Language is Greek
+ - eQMI_LOC_NI_SS_TURKISH (24) -- Language is Turkish
+ - eQMI_LOC_NI_SS_HUNGARIAN (25) -- Language is Hungarian
+ - eQMI_LOC_NI_SS_POLISH (26) -- Language is Polish
+ - eQMI_LOC_NI_SS_LANGUAGE_UNSPEC (27) -- Language is unspecified
+ - eQMI_LOC_NI_SUPL_UTF8 (28) -- Encoding is UTF 8
+ - eQMI_LOC_NI_SUPL_UCS2 (29) -- Encoding is UCS 2
+ - eQMI_LOC_NI_SUPL_GSM_DEFAULT (30) -- Encoding is GSM default
+ */
+
+ uint32_t notificationText_len; /**< Must be set to # of elements in notificationText */
+ uint8_t notificationText[QMI_LOC_NI_MAX_CLIENT_NAME_LENGTH_V02];
+ /**< Notification text; the encoding method is specified in
+ dataCodingScheme. \n
+ - Type: Array of bytes \n
+ - Maximum array length: 64 */
+
+ uint32_t clientAddress_len; /**< Must be set to # of elements in clientAddress */
+ uint8_t clientAddress[QMI_LOC_NI_MAX_EXT_CLIENT_ADDRESS_V02];
+ /**< Client address; the encoding method is specified in
+ dataCodingScheme. \n
+ - Maximum array length: 20 */
+
+ qmiLocNiLocationTypeEnumT_v02 locationType;
+ /**< Location type.
+
+ Valid values: \n
+ - eQMI_LOC_NI_LOCATIONTYPE_CURRENT_LOCATION (1) -- Current location
+ - eQMI_LOC_NI_LOCATIONTYPE_CURRENT_OR_LAST_KNOWN_LOCATION (2) -- Last known location; may be the current location
+ - eQMI_LOC_NI_LOCATIONTYPE_INITIAL_LOCATION (3) -- Initial location
+ */
+
+ qmiLocNiUmtsCpCodedStringStructT_v02 requestorId;
+ /**< Requestor ID; the encoding method is specified in the
+ qmiLocNiUmtsCpCodedStringStructT.dataCodingScheme field. */
+
+ qmiLocNiUmtsCpCodedStringStructT_v02 codewordString;
+ /**< Codeword string; the encoding method is specified in the
+ qmiLocNiUmtsCpCodedStringStructT.dataCodingScheme field. */
+
+ uint8_t lcsServiceTypeId;
+ /**< Service type ID. */
+
+ uint16_t userResponseTimer;
+ /**< Time to wait for the user to respond. \n
+ - Units: Seconds */
+}qmiLocNiUmtsCpNotifyVerifyStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCNISERVICEINTERACTIONENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_NI_SERVICE_INTERACTION_ONGOING_NI_INCOMING_MO_V02 = 1, /**< Service interaction between ongoing NI and incoming MO sessions. */
+ QMILOCNISERVICEINTERACTIONENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocNiServiceInteractionEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ qmiLocNiVxNotifyVerifyStructT_v02 niVxReq;
+ /**< Ongoing NI session request; this information is currently not filled. */
+
+ qmiLocNiServiceInteractionEnumT_v02 serviceInteractionType;
+ /**< Service interaction type specified in qmiLocNiServiceInteractionEnumT.
+
+ Valid values: \n
+ - eQMI_LOC_NI_SERVICE_INTERACTION_ONGOING_NI_INCOMING_MO (1) -- Service interaction between ongoing NI and incoming MO sessions.
+ */
+}qmiLocNiVxServiceInteractionStructT_v02; /* Type */
+/**
+ @}
+ */
+
+typedef uint16_t qmiLocNiSuplVer2ExtSupportedNetworksMaskT_v02;
+#define QMI_LOC_SUPL_VER_2_EXT_MASK_SUPPORTED_NETWORK_WLAN_V02 ((qmiLocNiSuplVer2ExtSupportedNetworksMaskT_v02)0x0001) /**< Denotes that WLAN measurements are allowed as part of location ID
+ and multiple location IDs in the SUPL_POS_INIT message. */
+#define QMI_LOC_SUPL_VER_2_EXT_MASK_SUPPORTED_NETWORK_GSM_V02 ((qmiLocNiSuplVer2ExtSupportedNetworksMaskT_v02)0x0002) /**< Denotes that GSM measurements are allowed as part of location ID
+ and multiple location ID in the SUPL_POS_INIT message. */
+#define QMI_LOC_SUPL_VER_2_EXT_MASK_SUPPORTED_NETWORK_WCDMA_V02 ((qmiLocNiSuplVer2ExtSupportedNetworksMaskT_v02)0x0004) /**< Denotes that WCDMA measurements are allowed as part of location ID
+ and multiple location ID in the SUPL_POS_INIT message. */
+#define QMI_LOC_SUPL_VER_2_EXT_MASK_SUPPORTED_NETWORK_CDMA_V02 ((qmiLocNiSuplVer2ExtSupportedNetworksMaskT_v02)0x0008) /**< Denotes that CDMA measurements are allowed as part of location ID
+ and multiple location ID in the SUPL_POS_INIT message. */
+#define QMI_LOC_SUPL_VER_2_EXT_MASK_SUPPORTED_NETWORK_HRDP_V02 ((qmiLocNiSuplVer2ExtSupportedNetworksMaskT_v02)0x0010) /**< Denotes that HRDP measurements are allowed as part of location ID
+ and multiple location ID in the SUPL_POS_INIT message. */
+#define QMI_LOC_SUPL_VER_2_EXT_MASK_SUPPORTED_NETWORK_UMB_V02 ((qmiLocNiSuplVer2ExtSupportedNetworksMaskT_v02)0x0020) /**< Denotes that UMB measurements are allowed as part of location ID
+ and multiple location ID in the SUPL_POS_INIT message. */
+#define QMI_LOC_SUPL_VER_2_EXT_MASK_SUPPORTED_NETWORK_LTE_V02 ((qmiLocNiSuplVer2ExtSupportedNetworksMaskT_v02)0x0040) /**< Denotes that LTE measurements are allowed as part of location ID
+ and multiple location ID in the SUPL_POS_INIT message. */
+#define QMI_LOC_SUPL_VER_2_EXT_MASK_SUPPORTED_NETWORK_WIMAX_V02 ((qmiLocNiSuplVer2ExtSupportedNetworksMaskT_v02)0x0080) /**< Denotes that WIMAX measurements are allowed as part of location ID
+ and multiple location ID in the SUPL_POS_INIT message. */
+#define QMI_LOC_SUPL_VER_2_EXT_MASK_SUPPORTED_NETWORK_HISTORIC_V02 ((qmiLocNiSuplVer2ExtSupportedNetworksMaskT_v02)0x0100) /**< Denotes that historical information is allowed as part of
+ multiple location ID in the SUPL_POS_INIT message. */
+#define QMI_LOC_SUPL_VER_2_EXT_MASK_SUPPORTED_NETWORK_NONSVRV_V02 ((qmiLocNiSuplVer2ExtSupportedNetworksMaskT_v02)0x0200) /**< Denotes that information about nonserving cells is allowed
+ as part of multiple location ID in the SUPL_POS_INIT message. */
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCNISUPLVER2EXTTRIGGERTYPEENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_SUPL_VER_2_EXT_TRIGGER_TYPE_SINGLE_SHOT_V02 = -1, /**< SUPL INIT message indicates a request for a single shot
+ triggered session */
+ eQMI_LOC_SUPL_VER_2_EXT_TRIGGER_TYPE_PERIODIC_V02 = 0, /**< SUPL INIT message indicates a request for a periodic
+ triggered session */
+ eQMI_LOC_SUPL_VER_2_EXT_TRIGGER_TYPE_AREA_EVENT_V02 = 1, /**< SUPL INIT message indicates a request for an area event
+ triggered session */
+ QMILOCNISUPLVER2EXTTRIGGERTYPEENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocNiSuplVer2ExtTriggerTypeEnumT_v02;
+/**
+ @}
+ */
+
+typedef uint16_t qmiLocNiSuplVer2ExtGnssTypeMaskT_v02;
+#define QMI_LOC_SUPL_VER_2_EXT_MASK_GNSS_GPS_V02 ((qmiLocNiSuplVer2ExtGnssTypeMaskT_v02)0x0001) /**< GPS is allowed to be used as the positioning technology */
+#define QMI_LOC_SUPL_VER_2_EXT_MASK_GNSS_GLONASS_V02 ((qmiLocNiSuplVer2ExtGnssTypeMaskT_v02)0x0002) /**< GLONASS is allowed to be used as the positioning technology */
+#define QMI_LOC_SUPL_VER_2_EXT_MASK_GNSS_GALILEO_V02 ((qmiLocNiSuplVer2ExtGnssTypeMaskT_v02)0x0004) /**< Galileo is allowed to be used as the positioning technology */
+#define QMI_LOC_SUPL_VER_2_EXT_MASK_GNSS_SBAS_V02 ((qmiLocNiSuplVer2ExtGnssTypeMaskT_v02)0x0008) /**< SBAS is allowed to be used as the positioning technology */
+#define QMI_LOC_SUPL_VER_2_EXT_MASK_GNSS_QZSS_V02 ((qmiLocNiSuplVer2ExtGnssTypeMaskT_v02)0x0010) /**< QZSS is allowed to be used as the positioning technology */
+#define QMI_LOC_SUPL_VER_2_EXT_MASK_GNSS_MODERN_GPS_V02 ((qmiLocNiSuplVer2ExtGnssTypeMaskT_v02)0x0020) /**< Modern GPS is allowed to be used as the positioning technology */
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ qmiLocNiSuplVer2ExtSupportedNetworksMaskT_v02 supportedNetworksMask;
+ /**< Specifies which type of network measurements are allowed to be sent as
+ part of the Location ID or Multiple Location IDs parameter in the
+ SUPL_POS_INIT message (see \hyperref[S4]{[S4]}).
+
+ Valid bitmasks: \begin{itemize1}
+ \item 0x0001 -- SUPPORTED_NETWORK_ WLAN
+ \item 0x0002 -- SUPPORTED_NETWORK_ GSM
+ \item 0x0004 -- SUPPORTED_NETWORK_ WCDMA
+ \item 0x0008 -- SUPPORTED_NETWORK_ CDMA
+ \item 0x0010 -- SUPPORTED_NETWORK_ HRDP
+ \item 0x0020 -- SUPPORTED_NETWORK_ UMB
+ \item 0x0040 -- SUPPORTED_NETWORK_ LTE
+ \item 0x0080 -- SUPPORTED_NETWORK_ WIMAX
+ \item 0x0100 -- SUPPORTED_NETWORK_ HISTORIC
+ \item 0x0200 -- SUPPORTED_NETWORK_ NONSVRV
+ \vspace{-0.18in} \end{itemize1}
+ */
+
+ qmiLocNiSuplVer2ExtTriggerTypeEnumT_v02 triggerType;
+ /**< Specifies the type of session trigger requested in the
+ SUPL_POS_INIT message (refer to \hyperref[S4]{[S4]}).
+
+ Valid values: \n
+ - eQMI_LOC_SUPL_VER_2_EXT_TRIGGER_TYPE_SINGLE_SHOT (-1) -- SUPL INIT message indicates a request for a single shot
+ triggered session
+ - eQMI_LOC_SUPL_VER_2_EXT_TRIGGER_TYPE_PERIODIC (0) -- SUPL INIT message indicates a request for a periodic
+ triggered session
+ - eQMI_LOC_SUPL_VER_2_EXT_TRIGGER_TYPE_AREA_EVENT (1) -- SUPL INIT message indicates a request for an area event
+ triggered session
+ */
+
+ qmiLocNiSuplVer2ExtGnssTypeMaskT_v02 gnssType;
+ /**< Specifies which GNSS technologies are allowed as positioning
+ technologies.
+
+ Valid bitmasks: \n
+ - 0x0001 -- GNSS_GPS \n
+ - 0x0002 -- GNSS_GLONASS \n
+ - 0x0004 -- GNSS_GALILEO \n
+ - 0x0008 -- GNSS_SBAS \n
+ - 0x0010 -- GNSS_QZSS \n
+ - 0x0020 -- GNSS_MODERN_GPS
+ */
+}qmiLocNiSuplVer2ExtStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ char eslpUrl[QMI_LOC_MAX_SERVER_ADDR_LENGTH_V02 + 1];
+ /**< ESLP URL. \n
+ Maximum length: 255 bytes */
+}qmiLocEmergencyNotificationStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Indicates an NI Notify/Verify request to the control point. */
+typedef struct {
+
+ /* Mandatory */
+ /* Notification Type */
+ qmiLocNiNotifyVerifyEnumT_v02 notificationType;
+ /**< Type of notification/verification performed.
+
+ Valid values: \n
+ - eQMI_LOC_NI_USER_NO_NOTIFY_NO_VERIFY (1) -- No notification and no verification required
+ - eQMI_LOC_NI_USER_NOTIFY_ONLY (2) -- Notify only; no verification required
+ - eQMI_LOC_NI_USER_NOTIFY_VERIFY_ALLOW_NO_RESP (3) -- Notify and verify, but no response required.
+ - eQMI_LOC_NI_USER_NOTIFY_VERIFY_NOT_ALLOW_NO_RESP (4) -- Notify and verify, and require a response
+ - eQMI_LOC_NI_USER_NOTIFY_VERIFY_PRIVACY_OVERRIDE (5) -- Notify and verify; privacy override
+ */
+
+ /* Optional */
+ /* Network Initiated Vx Request */
+ uint8_t NiVxInd_valid; /**< Must be set to true if NiVxInd is being passed */
+ qmiLocNiVxNotifyVerifyStructT_v02 NiVxInd;
+ /**< \vspace{0.06in} \n Optional NI Vx request payload. */
+
+ /* Optional */
+ /* Network Initiated SUPL Request */
+ uint8_t NiSuplInd_valid; /**< Must be set to true if NiSuplInd is being passed */
+ qmiLocNiSuplNotifyVerifyStructT_v02 NiSuplInd;
+ /**< \vspace{0.06in} \n Optional NI SUPL request payload. */
+
+ /* Optional */
+ /* Network Initiated UMTS Control Plane Request */
+ uint8_t NiUmtsCpInd_valid; /**< Must be set to true if NiUmtsCpInd is being passed */
+ qmiLocNiUmtsCpNotifyVerifyStructT_v02 NiUmtsCpInd;
+ /**< \vspace{0.06in} \n Optional NI UMTS-CP request payload. */
+
+ /* Optional */
+ /* Network Initiated Service Interaction Request */
+ uint8_t NiVxServiceInteractionInd_valid; /**< Must be set to true if NiVxServiceInteractionInd is being passed */
+ qmiLocNiVxServiceInteractionStructT_v02 NiVxServiceInteractionInd;
+ /**< \vspace{0.06in} \n Optional NI service interaction payload. */
+
+ /* Optional */
+ /* Network Initiated SUPL Version 2 Extension */
+ uint8_t NiSuplVer2ExtInd_valid; /**< Must be set to true if NiSuplVer2ExtInd is being passed */
+ qmiLocNiSuplVer2ExtStructT_v02 NiSuplVer2ExtInd;
+ /**< \vspace{0.06in} \n Optional NI SUPL Version 2 Extension payload. When present,
+ this payload is to be used in conjunction with the SUPL
+ indication payload. */
+
+ /* Optional */
+ /* SUPL Emergency Notification */
+ uint8_t suplEmergencyNotification_valid; /**< Must be set to true if suplEmergencyNotification is being passed */
+ qmiLocEmergencyNotificationStructT_v02 suplEmergencyNotification;
+ /**< \vspace{0.06in} \n This specifies that the corresponding NI notification is an
+ emergency notification. Emergency notification
+ can be given even without an Emergency SUPL Location Platform (ESLP)
+ address. */
+}qmiLocEventNiNotifyVerifyReqIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ char serverUrl[QMI_LOC_MAX_SERVER_ADDR_LENGTH_V02 + 1];
+ /**< Assistance server URL.
+ \begin{itemize1}
+ \item Type: NULL-terminated string
+ \item Maximum string length (including NULL terminator): 256
+ \vspace{-0.18in} \end{itemize1} */
+}qmiLocAssistanceServerUrlStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ uint32_t delayThreshold;
+ /**< The time server is to be skipped if a one-way delay to the server
+ exceeds this threshold. \n
+ - Units: Milliseconds */
+
+ uint32_t timeServerList_len; /**< Must be set to # of elements in timeServerList */
+ qmiLocAssistanceServerUrlStructT_v02 timeServerList[QMI_LOC_MAX_NTP_SERVERS_V02];
+ /**< List of Time Server URL's that are recommended by the service for time
+ information, the list is ordered, the client is to use the first
+ server specified in the list as the primary URL to fetch NTP time,
+ the second one as secondary, and so on. \n
+ - Maximum server list items: 3 */
+}qmiLocTimeServerListStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Requests the control point to inject time information. */
+typedef struct {
+
+ /* Optional */
+ /* Time Server Info */
+ uint8_t timeServerInfo_valid; /**< Must be set to true if timeServerInfo is being passed */
+ qmiLocTimeServerListStructT_v02 timeServerInfo;
+ /**< \vspace{0.06in} \n Contains information about the time servers recommended by the
+ location service for NTP time. */
+}qmiLocEventInjectTimeReqIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ uint32_t maxFileSizeInBytes;
+ /**< Maximum allowable predicted orbits file size (in bytes). */
+
+ uint32_t maxPartSize;
+ /**< Maximum allowable predicted orbits file chunk size (in bytes). */
+}qmiLocPredictedOrbitsAllowedSizesStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ uint32_t serverList_len; /**< Must be set to # of elements in serverList */
+ qmiLocAssistanceServerUrlStructT_v02 serverList[QMI_LOC_MAX_PREDICTED_ORBITS_SERVERS_V02];
+ /**< List of predicted orbits URLs. The list is ordered, so the client
+ must use the first server specified in the list as the primary URL
+ from which to download predicted orbits data, the second one as
+ secondary, and so on. \n
+ - Maximum number of servers that can be specified: 3 */
+}qmiLocPredictedOrbitsServerListStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Requests the control point to inject predicted orbits data. */
+typedef struct {
+
+ /* Mandatory */
+ /* Allowed Sizes */
+ qmiLocPredictedOrbitsAllowedSizesStructT_v02 allowedSizes;
+ /**< \vspace{0.06in} \n Maximum part and file size allowed to be injected in the engine. */
+
+ /* Optional */
+ /* Server List */
+ uint8_t serverList_valid; /**< Must be set to true if serverList is being passed */
+ qmiLocPredictedOrbitsServerListStructT_v02 serverList;
+ /**< \vspace{0.06in} \n List of servers that can be used by the client to download
+ predicted orbits data. */
+}qmiLocEventInjectPredictedOrbitsReqIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Requests the control point to inject a position. */
+typedef struct {
+
+ /* Mandatory */
+ /* Latitude */
+ double latitude;
+ /**< Latitude (specified in WGS84 datum).
+ \begin{itemize1}
+ \item Type: Floating point
+ \item Units: Degrees
+ \item Range: -90.0 to 90.0 \begin{itemize1}
+ \item Positive values indicate northern latitude
+ \item Negative values indicate southern latitude
+ \vspace{-0.18in} \end{itemize1} \end{itemize1} */
+
+ /* Mandatory */
+ /* Longitude */
+ double longitude;
+ /**< Longitude (specified in WGS84 datum).
+ \begin{itemize1}
+ \item Type: Floating point
+ \item Units: Degrees
+ \item Range: -180.0 to 180.0 \begin{itemize1}
+ \item Positive values indicate eastern longitude
+ \item Negative values indicate western longitude
+ \vspace{-0.18in} \end{itemize1} \end{itemize1} */
+
+ /* Mandatory */
+ /* Circular Horizontal Uncertainty */
+ float horUncCircular;
+ /**< Horizontal position uncertainty (circular).\n
+ - Units: Meters */
+
+ /* Mandatory */
+ /* UTC Timestamp */
+ uint64_t timestampUtc;
+ /**< UTC timestamp.
+ \begin{itemize1}
+ \item Units: Milliseconds since Jan. 1, 1970
+ \vspace{-0.18in} \end{itemize1} */
+}qmiLocEventInjectPositionReqIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCENGINESTATEENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_ENGINE_STATE_ON_V02 = 1, /**< Location engine is on */
+ eQMI_LOC_ENGINE_STATE_OFF_V02 = 2, /**< Location engine is off */
+ QMILOCENGINESTATEENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocEngineStateEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Sends the engine state to the control point. */
+typedef struct {
+
+ /* Mandatory */
+ /* Engine State */
+ qmiLocEngineStateEnumT_v02 engineState;
+ /**< Location engine state.
+
+ Valid values: \n
+ - eQMI_LOC_ENGINE_STATE_ON (1) -- Location engine is on
+ - eQMI_LOC_ENGINE_STATE_OFF (2) -- Location engine is off
+ */
+}qmiLocEventEngineStateIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCFIXSESSIONSTATEENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_FIX_SESSION_STARTED_V02 = 1, /**< Location fix session has started */
+ eQMI_LOC_FIX_SESSION_FINISHED_V02 = 2, /**< Location fix session has ended */
+ QMILOCFIXSESSIONSTATEENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocFixSessionStateEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Sends the fix session state to the control point. */
+typedef struct {
+
+ /* Mandatory */
+ /* Session State */
+ qmiLocFixSessionStateEnumT_v02 sessionState;
+ /**< LOC fix session state.
+
+ Valid values: \n
+ - eQMI_LOC_FIX_SESSION_STARTED (1) -- Location fix session has started
+ - eQMI_LOC_FIX_SESSION_FINISHED (2) -- Location fix session has ended
+ */
+
+ /* Optional */
+ /* Session ID */
+ uint8_t sessionId_valid; /**< Must be set to true if sessionId is being passed */
+ uint8_t sessionId;
+ /**< ID of the session that was specified in the Start request.
+ This may not be specified for a fix session corresponding to
+ a network-initiated request. \n
+ - Range: 0 to 255 */
+}qmiLocEventFixSessionStateIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCWIFIREQUESTENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_WIFI_START_PERIODIC_HI_FREQ_FIXES_V02 = 0, /**< Start periodic fixes with high frequency */
+ eQMI_LOC_WIFI_START_PERIODIC_KEEP_WARM_V02 = 1, /**< Keep warm for low frequency fixes without data downloads */
+ eQMI_LOC_WIFI_STOP_PERIODIC_FIXES_V02 = 2, /**< Stop periodic fixes request */
+ QMILOCWIFIREQUESTENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocWifiRequestEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Sends a Wi-Fi request to the control point. */
+typedef struct {
+
+ /* Mandatory */
+ /* Request Type */
+ qmiLocWifiRequestEnumT_v02 requestType;
+ /**< Request type.
+
+ Valid values: \n
+ - eQMI_LOC_WIFI_START_PERIODIC_HI_FREQ_FIXES (0) -- Start periodic fixes with high frequency
+ - eQMI_LOC_WIFI_START_PERIODIC_KEEP_WARM (1) -- Keep warm for low frequency fixes without data downloads
+ - eQMI_LOC_WIFI_STOP_PERIODIC_FIXES (2) -- Stop periodic fixes request
+ */
+
+ /* Optional */
+ /* Time Between Fixes */
+ uint8_t tbfInMs_valid; /**< Must be set to true if tbfInMs is being passed */
+ uint16_t tbfInMs;
+ /**< Time between fixes for a periodic request.\n
+ - Units: Milliseconds */
+}qmiLocEventWifiReqIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ uint16_t samplesPerBatch;
+ /**< Specifies the number of samples per batch the GNSS location engine is to
+ receive. The sensor sampling frequency can be computed as follows: \vspace{-0.06in} \n
+
+ samplingFrequency = samplesPerBatch * batchesPerSecond \vspace{-0.06in} \n
+
+ samplesPerBatch must be a nonzero positive value.
+ */
+
+ uint16_t batchesPerSecond;
+ /**< Number of sensor-data batches the GNSS location engine is to receive
+ per second. The rate is specified in an integral number of batches per
+ second (Hz). \vspace{-0.06in} \n
+
+ batchesPerSecond must be a nonzero positive value.
+ */
+}qmiLocSensorControlConfigSamplingSpecStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ uint8_t injectEnable;
+ /**< Indicates whether the GNSS location engine is ready to accept data from this
+ sensor.
+
+ Valid values: \begin{itemize1}
+ \item 0x01 (TRUE) -- GNSS location engine is ready to accept sensor
+ data
+ \item 0x00 (FALSE) -- GNSS location engine is not ready to accept
+ sensor data
+ \vspace{-0.18in} \end{itemize1}
+ */
+
+ qmiLocSensorControlConfigSamplingSpecStructT_v02 dataFrequency;
+ /**< Rate at which the GNSS engine would like the sensor to be sampled. \n
+ The rate is specified in integral number of samples per second (Hz)\n
+ and batches per second.
+ */
+}qmiLocSensorReadyStatusStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Notifies the control point if the GNSS location engine is
+ ready to accept sensor data. */
+typedef struct {
+
+ /* Optional */
+ /* Accelerometer Accept Ready */
+ uint8_t accelReady_valid; /**< Must be set to true if accelReady is being passed */
+ qmiLocSensorReadyStatusStructT_v02 accelReady;
+ /**< \vspace{0.06in} \n Indicates whether the GNSS location engine is ready
+ to accept accelerometer sensor data.
+ */
+
+ /* Optional */
+ /* Gyroscope Accept Ready */
+ uint8_t gyroReady_valid; /**< Must be set to true if gyroReady is being passed */
+ qmiLocSensorReadyStatusStructT_v02 gyroReady;
+ /**< \vspace{0.06in} \n Indicates whether the GNSS location engine is ready
+ to accept gyroscope sensor data.
+ */
+
+ /* Optional */
+ /* Accelerometer Temperature Accept Ready */
+ uint8_t accelTemperatureReady_valid; /**< Must be set to true if accelTemperatureReady is being passed */
+ qmiLocSensorReadyStatusStructT_v02 accelTemperatureReady;
+ /**< \vspace{0.06in} \n Indicates whether the GNSS location engine is ready
+ to accept accelerometer temperature data.
+ */
+
+ /* Optional */
+ /* Gyroscope Temperature Accept Ready */
+ uint8_t gyroTemperatureReady_valid; /**< Must be set to true if gyroTemperatureReady is being passed */
+ qmiLocSensorReadyStatusStructT_v02 gyroTemperatureReady;
+ /**< \vspace{0.06in} \n Indicates whether the GNSS location engine is ready
+ to accept gyroscope temperature data.
+ */
+
+ /* Optional */
+ /* Calibrated Magnetometer Accept Ready */
+ uint8_t calibratedMagReady_valid; /**< Must be set to true if calibratedMagReady is being passed */
+ qmiLocSensorReadyStatusStructT_v02 calibratedMagReady;
+ /**< \vspace{0.06in} \n Indicates whether the GNSS location engine is ready
+ to accept calibrated magnetometer data.
+ */
+
+ /* Optional */
+ /* Uncalibrated Magnetometer Accept Ready */
+ uint8_t uncalibratedMagReady_valid; /**< Must be set to true if uncalibratedMagReady is being passed */
+ qmiLocSensorReadyStatusStructT_v02 uncalibratedMagReady;
+ /**< \vspace{0.06in} \n Indicates whether the GNSS location engine is ready
+ to accept uncalibrated magnetometer data.
+ */
+}qmiLocEventSensorStreamingReadyStatusIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Notifies the control point to inject time synchronization
+ data. */
+typedef struct {
+
+ /* Mandatory */
+ /* Opaque Time Sync Reference Counter */
+ uint32_t refCounter;
+ /**< This TLV is sent to registered control points. It is sent by
+ the location engine when it needs to synchronize location engine and
+ control point (sensor processor) times.
+ This TLV must be echoed back in the Time Sync Inject request. */
+}qmiLocEventTimeSyncReqIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Requests the control point to enable Stationary Position
+ Indicator (SPI) streaming reports. */
+typedef struct {
+
+ /* Mandatory */
+ /* Enable/Disable SPI Requests */
+ uint8_t enable;
+ /**< Indicates whether the client is to start or stop sending an SPI status stream.
+ \begin{itemize1}
+ \item 0x01 (TRUE) -- Client is to start sending an SPI status stream
+ \item 0x00 (FALSE) -- Client is to stop sending an SPI status stream
+ \vspace{-0.18in} \end{itemize1}*/
+}qmiLocEventSetSpiStreamingReportIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCWWANTYPEENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_WWAN_TYPE_INTERNET_V02 = 0, /**< Bring up the WWAN type used for an Internet connection */
+ eQMI_LOC_WWAN_TYPE_AGNSS_V02 = 1, /**< Bring up the WWAN type used for AGNSS connections */
+ eQMI_LOC_WWAN_TYPE_AGNSS_EMERGENCY_V02 = 2, /**< Bring up the WWAN type used for AGNSS Emergency connections */
+ QMILOCWWANTYPEENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocWWANTypeEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCSERVERREQUESTENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_SERVER_REQUEST_OPEN_V02 = 1, /**< Open a connection to the location server */
+ eQMI_LOC_SERVER_REQUEST_CLOSE_V02 = 2, /**< Close a connection to the location server */
+ QMILOCSERVERREQUESTENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocServerRequestEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Requests the client to open or close a connection
+ to the assisted GPS location server. */
+typedef struct {
+
+ /* Mandatory */
+ /* Connection Handle */
+ uint32_t connHandle;
+ /**< Identifies a connection across Open and Close request events. */
+
+ /* Mandatory */
+ /* Request Type */
+ qmiLocServerRequestEnumT_v02 requestType;
+ /**< Open or close a connection to the location server.
+
+ Valid values: \n
+ - eQMI_LOC_SERVER_REQUEST_OPEN (1) -- Open a connection to the location server
+ - eQMI_LOC_SERVER_REQUEST_CLOSE (2) -- Close a connection to the location server
+ */
+
+ /* Mandatory */
+ /* WWAN Type */
+ qmiLocWWANTypeEnumT_v02 wwanType;
+ /**< Identifies the WWAN type for this request.
+ Valid values: \n
+ - eQMI_LOC_WWAN_TYPE_INTERNET (0) -- Bring up the WWAN type used for an Internet connection
+ - eQMI_LOC_WWAN_TYPE_AGNSS (1) -- Bring up the WWAN type used for AGNSS connections
+ - eQMI_LOC_WWAN_TYPE_AGNSS_EMERGENCY (2) -- Bring up the WWAN type used for AGNSS Emergency connections
+ */
+}qmiLocEventLocationServerConnectionReqIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCNIGEOFENCEOPERATIONENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_NI_GEOFENCE_ADDED_V02 = 1, /**< An NI Geofence was added */
+ eQMI_LOC_NI_GEOFENCE_DELETED_V02 = 2, /**< An NI Geofence was deleted */
+ eQMI_LOC_NI_GEOFENCE_EDITED_V02 = 3, /**< An NI Geofence was edited; the control point can query the
+ Geofence to find the its current state */
+ QMILOCNIGEOFENCEOPERATIONENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocNiGeofenceOperationEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Informs the control point about
+ network-initiated Geofences. */
+typedef struct {
+
+ /* Mandatory */
+ /* Geofence ID */
+ uint32_t geofenceId;
+ /**< ID of the Geofence for which this
+ notification was generated. */
+
+ /* Mandatory */
+ /* Operation Type */
+ qmiLocNiGeofenceOperationEnumT_v02 operationType;
+ /**< Operation for which this notification was generated.
+
+ Valid values: \n
+ - eQMI_LOC_NI_GEOFENCE_ADDED (1) -- An NI Geofence was added
+ - eQMI_LOC_NI_GEOFENCE_DELETED (2) -- An NI Geofence was deleted
+ - eQMI_LOC_NI_GEOFENCE_EDITED (3) -- An NI Geofence was edited; the control point can query the
+ Geofence to find the its current state
+ */
+}qmiLocEventNiGeofenceNotificationIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCGEOFENCEGENALERTENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_GEOFENCE_GEN_ALERT_GNSS_UNAVAILABLE_V02 = 1, /**< GNSS is unavailable and GNSS position fixes
+ cannot be used to monitor Geofences */
+ eQMI_LOC_GEOFENCE_GEN_ALERT_GNSS_AVAILABLE_V02 = 2, /**< GNSS is now available and GNSS postion fixes can
+ be used to monitor Geofences */
+ eQMI_LOC_GEOFENCE_GEN_ALERT_OOS_V02 = 3, /**< The engine is out of service and no cell ID coverage
+ information is available */
+ eQMI_LOC_GEOFENCE_GEN_ALERT_TIME_INVALID_V02 = 4, /**< The engine has an invalid time */
+ QMILOCGEOFENCEGENALERTENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocGeofenceGenAlertEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Notifies the control point of the
+ Geofence status. */
+typedef struct {
+
+ /* Mandatory */
+ /* Geofence General Alert */
+ qmiLocGeofenceGenAlertEnumT_v02 geofenceAlert;
+ /**< Specifies the Geofence general alert type.
+
+ Valid values: \n
+ - eQMI_LOC_GEOFENCE_GEN_ALERT_GNSS_UNAVAILABLE (1) -- GNSS is unavailable and GNSS position fixes
+ cannot be used to monitor Geofences
+ - eQMI_LOC_GEOFENCE_GEN_ALERT_GNSS_AVAILABLE (2) -- GNSS is now available and GNSS postion fixes can
+ be used to monitor Geofences
+ - eQMI_LOC_GEOFENCE_GEN_ALERT_OOS (3) -- The engine is out of service and no cell ID coverage
+ information is available
+ - eQMI_LOC_GEOFENCE_GEN_ALERT_TIME_INVALID (4) -- The engine has an invalid time
+ */
+}qmiLocEventGeofenceGenAlertIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCGEOFENCEBREACHTYPEENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_GEOFENCE_BREACH_TYPE_ENTERING_V02 = 1, /**< Denotes that a client entered the Geofence */
+ eQMI_LOC_GEOFENCE_BREACH_TYPE_LEAVING_V02 = 2, /**< Denotes that a client left the Geofence */
+ QMILOCGEOFENCEBREACHTYPEENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocGeofenceBreachTypeEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ /* UTC Timestamp */
+ uint64_t timestampUtc;
+ /**< UTC timestamp.
+ \begin{itemize1}
+ \item Units: Milliseconds since Jan. 1, 1970
+ \vspace{-0.18in} \end{itemize1} */
+
+ /* Latitude */
+ double latitude;
+ /**< Latitude (specified in WGS84 datum).
+ \begin{itemize1}
+ \item Type: Floating point
+ \item Units: Degrees
+ \item Range: -90.0 to 90.0 \begin{itemize1}
+ \item Positive values indicate northern latitude
+ \item Negative values indicate southern latitude
+ \vspace{-0.18in} \end{itemize1} \end{itemize1} */
+
+ /* Longitude */
+ double longitude;
+ /**< Longitude (specified in WGS84 datum).
+ \begin{itemize1}
+ \item Type: Floating point
+ \item Units: Degrees
+ \item Range: -180.0 to 180.0 \begin{itemize1}
+ \item Positive values indicate eastern longitude
+ \item Negative values indicate western longitude
+ \vspace{-0.18in} \end{itemize1} \end{itemize1} */
+
+ /* Horizontal Elliptical Uncertainty (Semi-Minor Axis) */
+ float horUncEllipseSemiMinor;
+ /**< Semi-minor axis of horizontal elliptical uncertainty.\n
+ - Units: Meters */
+
+ /* Horizontal Elliptical Uncertainty (Semi-Major Axis) */
+ float horUncEllipseSemiMajor;
+ /**< Semi-major axis of horizontal elliptical uncertainty.\n
+ - Units: Meters */
+
+ /* Elliptical Horizontal Uncertainty Azimuth */
+ float horUncEllipseOrientAzimuth;
+ /**< Elliptical horizontal uncertainty azimuth of orientation.\n
+ - Units: Decimal degrees \n
+ - Range: 0 to 180 */
+
+ /* Horizontal Speed validity bit */
+ uint8_t speedHorizontal_valid;
+ /**< Indicates whether the Horizontal speed field contains valid
+ information.
+ \begin{itemize1}
+ \item 0x01 (TRUE) -- Horizontal speed is valid
+ \item 0x00 (FALSE) -- Horizontal speed is invalid
+ and is to be ignored
+ \vspace{-0.18in} \end{itemize1} */
+
+ /* Horizontal Speed */
+ float speedHorizontal;
+ /**< Horizontal speed.\n
+ - Units: Meters/second */
+
+ /* Altitude validity bit */
+ uint8_t altitudeWrtEllipsoid_valid;
+ /**< Indicates whether the altitude field contains valid
+ information.
+ \begin{itemize1}
+ \item 0x01 (TRUE) -- Altitude field is valid
+ \item 0x00 (FALSE) -- Altitude field is invalid
+ and is to be ignored
+ \vspace{-0.18in} \end{itemize1}
+ */
+
+ /* Altitude With Respect to Ellipsoid */
+ float altitudeWrtEllipsoid;
+ /**< Altitude with respect to the WGS84 ellipsoid.\n
+ - Units: Meters \n
+ - Range: -500 to 15883 */
+
+ /* Vertical Uncertainty validity bit */
+ uint8_t vertUnc_valid;
+ /**< Indicates whether the Vertical Uncertainty field contains valid
+ information.
+ \begin{itemize1}
+ \item 0x01 (TRUE) -- Vertical Uncertainty field is valid
+ \item 0x00 (FALSE) -- Vertical Uncertainty field is invalid
+ and is to be ignored
+ \vspace{-0.18in} \end{itemize1} */
+
+ /* Vertical Uncertainty */
+ float vertUnc;
+ /**< Vertical uncertainty.\n
+ - Units: Meters */
+
+ /* Vertical Speed validity bit */
+ uint8_t speedVertical_valid;
+ /**< Indicates whether the Vertical Speed field contains valid
+ information.
+ \begin{itemize1}
+ \item 0x01 (TRUE) -- Vertical Speed field is valid
+ \item 0x00 (FALSE) -- Vertical Speed field is invalid
+ and is to be ignored
+ \vspace{-0.18in} \end{itemize1} */
+
+ /* Vertical Speed */
+ float speedVertical;
+ /**< Vertical speed.\n
+ - Units: Meters/second */
+
+ /* heading validity bit */
+ uint8_t heading_valid;
+ /**< Indicates whether the Heading field contains valid
+ information.
+ \begin{itemize1}
+ \item 0x01 (TRUE) -- Heading field is valid
+ \item 0x00 (FALSE) -- Heading field is invalid
+ and is to be ignored
+ \vspace{-0.18in} \end{itemize1} */
+
+ /* Heading */
+ float heading;
+ /**< Heading.\n
+ - Units: Degrees \n
+ - Range: 0 to 359.999 */
+}qmiLocGeofencePositionStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCGEOFENCECONFIDENCEENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_GEOFENCE_CONFIDENCE_LOW_V02 = 0x01, /**< Geofence engine indicates a breach with
+ low confidence; this setting results in lower
+ power usage, and it can impact the yield because
+ incorrect breach events may be sent */
+ eQMI_LOC_GEOFENCE_CONFIDENCE_MED_V02 = 0x02, /**< (Default) Geofence engine indicates a breach with
+ medium confidence */
+ eQMI_LOC_GEOFENCE_CONFIDENCE_HIGH_V02 = 0x03, /**< Geofence engine indicates a breach with
+ high confidence; this setting results in higher
+ power usage */
+ QMILOCGEOFENCECONFIDENCEENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocGeofenceConfidenceEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Notifies the control point of
+ a Geofence breach event. */
+typedef struct {
+
+ /* Mandatory */
+ /* Geofence ID */
+ uint32_t geofenceId;
+ /**< ID of the Geofence for which this
+ notification was generated. */
+
+ /* Mandatory */
+ /* Geofence Breach Type */
+ qmiLocGeofenceBreachTypeEnumT_v02 breachType;
+ /**< The type of breach that generated this event.
+
+ Valid values: \n
+ - eQMI_LOC_GEOFENCE_BREACH_TYPE_ENTERING (1) -- Denotes that a client entered the Geofence
+ - eQMI_LOC_GEOFENCE_BREACH_TYPE_LEAVING (2) -- Denotes that a client left the Geofence
+ */
+
+ /* Optional */
+ /* Geofence Position */
+ uint8_t geofencePosition_valid; /**< Must be set to true if geofencePosition is being passed */
+ qmiLocGeofencePositionStructT_v02 geofencePosition;
+ /**< \vspace{0.06in} \n Position of the client when it breached the Geofence.
+ This TLV is included if the client configures the
+ Geofence to report position. The position is reported
+ at the same confidence level that was specified in the
+ Add Circular Geofence request. */
+
+ /* Optional */
+ /* Geofence Breach Confidence */
+ uint8_t breachConfidence_valid; /**< Must be set to true if breachConfidence is being passed */
+ qmiLocGeofenceConfidenceEnumT_v02 breachConfidence;
+ /**< \vspace{0.06in} \n
+ Given a breach event, the confidence determines the probability
+ that the breach happened at the Geofence boundary.
+ Valid values: \n
+ - eQMI_LOC_GEOFENCE_CONFIDENCE_LOW (0x01) -- Geofence engine indicates a breach with
+ low confidence; this setting results in lower
+ power usage, and it can impact the yield because
+ incorrect breach events may be sent
+ - eQMI_LOC_GEOFENCE_CONFIDENCE_MED (0x02) -- (Default) Geofence engine indicates a breach with
+ medium confidence
+ - eQMI_LOC_GEOFENCE_CONFIDENCE_HIGH (0x03) -- Geofence engine indicates a breach with
+ high confidence; this setting results in higher
+ power usage
+ */
+}qmiLocEventGeofenceBreachIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Recommends how pedometer reports are to be
+ sent to the location engine. */
+typedef struct {
+
+ /* Mandatory */
+ /* Request Pedometer Data */
+ uint8_t requestPedometerData;
+ /**< Indicates whether the GNSS location engine is requesting the client to
+ send pedometer data.
+ \begin{itemize1}
+ \item 0x01 (TRUE) -- GNSS location engine is requesting
+ pedometer data
+ \item 0x00 (FALSE) -- GNSS location engine is not requesting
+ pedometer data
+ \vspace{-0.18in} \end{itemize1}
+ */
+
+ /* Optional */
+ /* Reset Step Count */
+ uint8_t resetStepCount_valid; /**< Must be set to true if resetStepCount is being passed */
+ uint8_t resetStepCount;
+ /**< Indicates whether the location engine is to reset the step count.
+ \begin{itemize1}
+ \item 0x01 (TRUE) -- Pedometer step count is to be reset
+ \item 0x00 (FALSE) -- Pedometer step count is not to be reset
+ \vspace{-0.18in} \end{itemize1} */
+
+ /* Optional */
+ /* Step Count Threshold */
+ uint8_t stepCountThreshold_valid; /**< Must be set to true if stepCountThreshold is being passed */
+ uint32_t stepCountThreshold;
+ /**< Specifies the number of steps to be sampled in a pedometer report,
+ as recommended by the the location engine. If the threshold is set to 0,
+ the location engine wants a pedometer report at every step event.
+ */
+}qmiLocEventPedometerControlIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Recommends how motion data reports are to be
+ sent to the location engine. */
+typedef struct {
+
+ /* Mandatory */
+ /* Request Motion Data */
+ uint8_t requestMotionData;
+ /**< Indicates whether the GNSS location engine is requesting
+ the client to send motion data.
+ \begin{itemize1}
+ \item 0x01 (TRUE) -- GNSS location engine is requesting
+ motion data
+ \item 0x00 (FALSE) -- GNSS location engine is not requesting
+ motion data
+ \vspace{-0.18in} \end{itemize1}
+ */
+}qmiLocEventMotionDataControlIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ /* Low Geofence ID */
+ uint32_t idLow;
+ /**< Contains the starting ID of the Geofence in the range of the continuous
+ range of Geofences that were breached at the same position. */
+
+ /* High Geofence ID */
+ uint32_t idHigh;
+ /**< Contains the ending ID of the Geofence in the range of the continuous
+ range of Geofences that were breached at the same position. */
+}qmiLocGeofenceIdContinuousStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Notifies the control point of a Geofence breach event by
+ batching all the Geofences that were breached. */
+typedef struct {
+
+ /* Mandatory */
+ /* Geofence Breach Type */
+ qmiLocGeofenceBreachTypeEnumT_v02 breachType;
+ /**< Type of breach that generated this event.
+
+ Valid values: \n
+ - eQMI_LOC_GEOFENCE_BREACH_TYPE_ENTERING (1) -- Denotes that a client entered the Geofence
+ - eQMI_LOC_GEOFENCE_BREACH_TYPE_LEAVING (2) -- Denotes that a client left the Geofence
+ */
+
+ /* Optional */
+ /* Geofence ID Continuous */
+ uint8_t geofenceIdContinuousList_valid; /**< Must be set to true if geofenceIdContinuousList is being passed */
+ uint32_t geofenceIdContinuousList_len; /**< Must be set to # of elements in geofenceIdContinuousList */
+ qmiLocGeofenceIdContinuousStructT_v02 geofenceIdContinuousList[QMI_LOC_MAX_GEOFENCE_ID_CONTINUOUS_LIST_LENGTH_V02];
+ /**< \vspace{0.06in} \n Each entry in the list contains the continuous range of Geofence IDs that were breached
+ at the same position. This list does not overlap with the discrete Geofence ID list. */
+
+ /* Optional */
+ /* Geofence ID Discrete */
+ uint8_t geofenceIdDiscreteList_valid; /**< Must be set to true if geofenceIdDiscreteList is being passed */
+ uint32_t geofenceIdDiscreteList_len; /**< Must be set to # of elements in geofenceIdDiscreteList */
+ uint32_t geofenceIdDiscreteList[QMI_LOC_MAX_GEOFENCE_ID_DISCRETE_LIST_LENGTH_V02];
+ /**< This list contains the Geofence IDs that were breached at the same position.
+ This list does not overlap with the continuous Geofence ID list. */
+
+ /* Optional */
+ /* Geofence Position */
+ uint8_t geofencePosition_valid; /**< Must be set to true if geofencePosition is being passed */
+ qmiLocGeofencePositionStructT_v02 geofencePosition;
+ /**< \vspace{0.06in} \n Position of the client when it breached the Geofence.
+ This TLV is included if the client configures the
+ Geofence to report its position. The position is reported
+ at the same confidence level that was specified in the
+ Add Circular Geofence request. */
+
+ /* Optional */
+ /* Geofence Breach Confidence */
+ uint8_t breachConfidence_valid; /**< Must be set to true if breachConfidence is being passed */
+ qmiLocGeofenceConfidenceEnumT_v02 breachConfidence;
+ /**< \vspace{0.06in} \n
+ Given a breach event, the confidence determines the probability
+ that the breach happened at the Geofence boundary.
+ Valid values: \n
+ - eQMI_LOC_GEOFENCE_CONFIDENCE_LOW (0x01) -- Geofence engine indicates a breach with
+ low confidence; this setting results in lower
+ power usage, and it can impact the yield because
+ incorrect breach events may be sent
+ - eQMI_LOC_GEOFENCE_CONFIDENCE_MED (0x02) -- (Default) Geofence engine indicates a breach with
+ medium confidence
+ - eQMI_LOC_GEOFENCE_CONFIDENCE_HIGH (0x03) -- Geofence engine indicates a breach with
+ high confidence; this setting results in higher
+ power usage
+ */
+
+ /* Optional */
+ /* Heading Uncertainty */
+ uint8_t headingUnc_valid; /**< Must be set to true if headingUnc is being passed */
+ float headingUnc;
+ /**< Heading uncertainty.\n
+ - Units: Degrees \n
+ - Range: 0 to 359.999 */
+
+ /* Optional */
+ /* Vertical Uncertainty */
+ uint8_t vertUnc_valid; /**< Must be set to true if vertUnc is being passed */
+ float vertUnc;
+ /**< Vertical uncertainty.\n
+ - Units: Meters */
+
+ /* Optional */
+ /* Speed Uncertainty */
+ uint8_t speedUnc_valid; /**< Must be set to true if speedUnc is being passed */
+ float speedUnc;
+ /**< 3-D speed uncertainty.\n
+ - Units: Meters/second */
+
+ /* Optional */
+ /* Horizontal Confidence */
+ uint8_t horConfidence_valid; /**< Must be set to true if horConfidence is being passed */
+ uint8_t horConfidence;
+ /**< Horizontal uncertainty confidence.\n
+ - Units: Percent \n
+ - Range: 0 to 99 */
+
+ /* Optional */
+ /* Vertical Confidence */
+ uint8_t vertConfidence_valid; /**< Must be set to true if vertConfidence is being passed */
+ uint8_t vertConfidence;
+ /**< Vertical uncertainty confidence.\n
+ - Units: Percent \n
+ - Range: 0 to 99 */
+
+ /* Optional */
+ /* Dilution of Precision */
+ uint8_t DOP_valid; /**< Must be set to true if DOP is being passed */
+ qmiLocDOPStructT_v02 DOP;
+ /**< \vspace{0.06in} \n Dilution of precision associated with this position. */
+
+ /* Optional */
+ /* SVs Used to Calculate the Fix */
+ uint8_t gnssSvUsedList_valid; /**< Must be set to true if gnssSvUsedList is being passed */
+ uint32_t gnssSvUsedList_len; /**< Must be set to # of elements in gnssSvUsedList */
+ uint16_t gnssSvUsedList[QMI_LOC_MAX_SV_USED_LIST_LENGTH_V02];
+ /**< Each entry in the list contains the SV ID of a satellite
+ used for calculating this position report. The following
+ information is associated with each SV ID: \n
+ Range: \n
+ - For GPS: 1 to 32 \n
+ - For SBAS: 33 to 64 \n
+ - For GLONASS: 65 to 96 \n
+ - For QZSS: 193 to 197 \n
+ - For BDS: 201 to 237
+ */
+}qmiLocEventGeofenceBatchedBreachIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCGEOFENCEPROXIMITYTYPEENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_GEOFENCE_PROXIMITY_TYPE_IN_V02 = 1, /**< Denotes that a client is in proximity of the Geofence \n */
+ eQMI_LOC_GEOFENCE_PROXIMITY_TYPE_OUT_V02 = 2, /**< Denotes that a client is out of proximity of the Geofence */
+ QMILOCGEOFENCEPROXIMITYTYPEENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocGeofenceProximityTypeEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Notifies the control point of a Geofence proximity event. */
+typedef struct {
+
+ /* Mandatory */
+ /* Geofence Breach Type */
+ qmiLocGeofenceProximityTypeEnumT_v02 proximityType;
+ /**< Valid values: \n
+ - eQMI_LOC_GEOFENCE_PROXIMITY_TYPE_IN (1) -- Denotes that a client is in proximity of the Geofence \n
+ - eQMI_LOC_GEOFENCE_PROXIMITY_TYPE_OUT (2) -- Denotes that a client is out of proximity of the Geofence
+ */
+
+ /* Mandatory */
+ /* Geofence ID */
+ uint32_t geofenceId;
+ /**< Identifier of the Geofence that is in proximity to the handset.
+ */
+
+ /* Optional */
+ /* Geofence Context ID */
+ uint8_t contextId_valid; /**< Must be set to true if contextId is being passed */
+ uint32_t contextId;
+ /**< Identifier for the context of the Geofence to which the handset is in proximity.
+ A single Geofence may be associated with different contexts.
+ */
+}qmiLocEventGeofenceProximityIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCGDTSERVICEIDENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_GDT_SERVICE_WWAN_V02 = 1, /**< GDT Service for WWAN */
+ QMILOCGDTSERVICEIDENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocGdtServiceIdEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCGDTACCESSSTATUSENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_GDT_ACCESS_ALLOWED_V02 = 1, /**< GDT ACCESS to the service is allowed */
+ eQMI_LOC_GDT_ACCESS_FAILED_V02 = 2, /**< Any type of GDT access error */
+ eQMI_LOC_GDT_ACCESS_NOT_ALLOWED_V02 = 3, /**< GDT ACCESS to the service is not allowed */
+ QMILOCGDTACCESSSTATUSENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocGdtAccessStatusEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Requests the control point to transfer data. */
+typedef struct {
+
+ /* Mandatory */
+ /* GDT service ID */
+ qmiLocGdtServiceIdEnumT_v02 serviceId;
+
+ /* Mandatory */
+ /* Session ID */
+ uint32_t sessionId;
+
+ /* Mandatory */
+ /* Data */
+ uint32_t filePath_len; /**< Must be set to # of elements in filePath */
+ char filePath[QMI_LOC_MAX_GDT_PATH_LEN_V02];
+ /**< file path to the data. \n
+ - Type: Array of bytes \n
+ - Maximum length of the array: 255
+ */
+}qmiLocEventGdtUploadBeginStatusReqIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCGDTENDSTATUSENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_GDT_SUCCESS_V02 = 1, /**< The sent data is accepeted */
+ eQMI_LOC_GDT_FAILED_V02 = 2, /**< The sent data was not accepted */
+ eQMI_LOC_GDT_INVALID_V02 = 3, /**< General error in received data */
+ QMILOCGDTENDSTATUSENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocGdtEndStatusEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Requests the control point to report the status of the
+ transfered data. */
+typedef struct {
+
+ /* Mandatory */
+ /* GDT service ID */
+ qmiLocGdtServiceIdEnumT_v02 serviceId;
+
+ /* Mandatory */
+ /* Session ID */
+ uint32_t sessionId;
+
+ /* Mandatory */
+ /* GDT End status */
+ qmiLocGdtEndStatusEnumT_v02 endStatus;
+}qmiLocEventGdtUploadEndReqIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCSTATUSENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_SUCCESS_V02 = 0, /**< Request was completed successfully \n */
+ eQMI_LOC_GENERAL_FAILURE_V02 = 1, /**< Request failed because of a general failure \n */
+ eQMI_LOC_UNSUPPORTED_V02 = 2, /**< Request failed because it is not supported \n */
+ eQMI_LOC_INVALID_PARAMETER_V02 = 3, /**< Request failed because it contained invalid parameters \n */
+ eQMI_LOC_ENGINE_BUSY_V02 = 4, /**< Request failed because the engine is busy \n */
+ eQMI_LOC_PHONE_OFFLINE_V02 = 5, /**< Request failed because the phone is offline \n */
+ eQMI_LOC_TIMEOUT_V02 = 6, /**< Request failed because it timed out \n */
+ eQMI_LOC_CONFIG_NOT_SUPPORTED_V02 = 7, /**< Request failed because an undefined configuration was requested \n */
+ eQMI_LOC_INSUFFICIENT_MEMORY_V02 = 8, /**< Request failed because the engine could not allocate sufficient memory for the request \n */
+ eQMI_LOC_MAX_GEOFENCE_PROGRAMMED_V02 = 9, /**< Request failed because the maximum number of Geofences are already programmed \n */
+ eQMI_LOC_XTRA_VERSION_CHECK_FAILURE_V02 = 10, /**< Location service failed because of an XTRA version-based file format check failure */
+ QMILOCSTATUSENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocStatusEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Client can query the service revision using this message. */
+typedef struct {
+ /* This element is a placeholder to prevent the declaration of
+ an empty struct. DO NOT USE THIS FIELD UNDER ANY CIRCUMSTANCE */
+ char __placeholder;
+}qmiLocGetServiceRevisionReqMsgT_v02;
+
+ /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Client can query the service revision using this message. */
+typedef struct {
+
+ /* Mandatory */
+ /* Get Revision Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Get Revision request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+
+ /* Mandatory */
+ /* Interface Definition Minor Revision */
+ uint32_t revision;
+ /**< Revision of the service. This is the minor revision of the interface that
+ the service implements. Minor revision updates of the service are always
+ backward compatible. */
+
+ /* Optional */
+ /* GNSS Measurement Engine Firmware Version String */
+ uint8_t gnssMeFWVerString_valid; /**< Must be set to true if gnssMeFWVerString is being passed */
+ char gnssMeFWVerString[QMI_LOC_GNSS_ME_VERSION_STRING_MAX_LENGTH_V02 + 1];
+ /**< Version of the GNSS measurement engine software running under the LOC API.
+ \begin{itemize1}
+ \item Type: NULL-terminated string
+ \item Maximum string length (including NULL terminator): 128
+ \vspace{0.1in} \end{itemize1}
+
+ \textbf{Note:} This string is only provided on platforms that have
+ a measurement engine that supports this version string. On all other
+ platforms, this optional TLV is not provided. */
+
+ /* Optional */
+ /* GNSS Hosted Software Version String */
+ uint8_t gnssHostSWVerString_valid; /**< Must be set to true if gnssHostSWVerString is being passed */
+ char gnssHostSWVerString[QMI_LOC_GNSS_HOSTED_SW_VERSION_STRING_MAX_LENGTH_V02 + 1];
+ /**< Version of the GNSS hosted software running under the LOC API.
+ \begin{itemize1}
+ \item Type: NULL-terminated string
+ \item Maximum string length (including NULL terminator): 128
+ \vspace{0.1in}\end{itemize1}
+
+ \textbf{Note:} This string is only provided on hosted architectures
+ (measurement and position engine running on different processors) that
+ support this version string. On all other platforms, this optional TLV
+ is not provided. */
+
+ /* Optional */
+ /* GNSS Software Version String */
+ uint8_t gnssSWVerString_valid; /**< Must be set to true if gnssSWVerString is being passed */
+ char gnssSWVerString[QMI_LOC_GNSS_SW_VERSION_STRING_MAX_LENGTH_V02 + 1];
+ /**< Aggregate version of the GNSS software.
+ \begin{itemize1}
+ \item Type: NULL-terminated string
+ \item Maximum string length (including NULL terminator): 256
+ \vspace{-0.18in} \end{itemize1} */
+}qmiLocGetServiceRevisionIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Gets the fix criteria from the location engine. */
+typedef struct {
+ /* This element is a placeholder to prevent the declaration of
+ an empty struct. DO NOT USE THIS FIELD UNDER ANY CIRCUMSTANCE */
+ char __placeholder;
+}qmiLocGetFixCriteriaReqMsgT_v02;
+
+ /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Gets the fix criteria from the location engine. */
+typedef struct {
+
+ /* Mandatory */
+ /* Get Fix Criteria Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Get Fix Criteria request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+
+ /* Optional */
+ /* Horizontal Accuracy */
+ uint8_t horizontalAccuracyLevel_valid; /**< Must be set to true if horizontalAccuracyLevel is being passed */
+ qmiLocAccuracyLevelEnumT_v02 horizontalAccuracyLevel;
+ /**< Horizontal accuracy level.
+
+ Valid values: \n
+ - eQMI_LOC_ACCURACY_LOW (1) -- Low accuracy
+ - eQMI_LOC_ACCURACY_MED (2) -- Medium accuracy
+ - eQMI_LOC_ACCURACY_HIGH (3) -- High accuracy
+ */
+
+ /* Optional */
+ /* Enable/Disable Intermediate Fixes */
+ uint8_t intermediateReportState_valid; /**< Must be set to true if intermediateReportState is being passed */
+ qmiLocIntermediateReportStateEnumT_v02 intermediateReportState;
+ /**< Intermediate Report state (ON, OFF).\n
+ The client must explicitly set this field to OFF to stop receiving
+ intermediate position reports. Intermediate position reports are
+ generated at 1 Hz and are ON by default. If intermediate reports
+ are turned ON, the client receives position reports even if the
+ accuracy criteria is not met. The status in the position report is
+ set to IN_PROGRESS for intermediate reports.
+
+ Valid values: \n
+ - eQMI_LOC_INTERMEDIATE_REPORTS_ON (1) -- Intermediate reports are turned on
+ - eQMI_LOC_INTERMEDIATE_REPORTS_OFF (2) -- Intermediate reports are turned off
+ */
+
+ /* Optional */
+ /* Minimum Interval Between Fixes */
+ uint8_t minInterval_valid; /**< Must be set to true if minInterval is being passed */
+ uint32_t minInterval;
+ /**< Time that must elapse before alerting the client. \n
+ - Units: Milliseconds */
+
+ /* Optional */
+ /* ID of the Application that Sent the Position Request */
+ uint8_t applicationId_valid; /**< Must be set to true if applicationId is being passed */
+ qmiLocApplicationIdStructT_v02 applicationId;
+ /**< \vspace{0.06in} \n Application provider, name, and version.*/
+}qmiLocGetFixCriteriaIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCNIUSERRESPENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_NI_LCS_NOTIFY_VERIFY_ACCEPT_V02 = 1, /**< User accepted the Notify/Verify request */
+ eQMI_LOC_NI_LCS_NOTIFY_VERIFY_DENY_V02 = 2, /**< User denied the Notify/Verify request */
+ eQMI_LOC_NI_LCS_NOTIFY_VERIFY_NORESP_V02 = 3, /**< User did not respond to the Notify/Verify request */
+ QMILOCNIUSERRESPENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocNiUserRespEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Sends the NI user response back to the engine; success or
+ failure is reported in a separate indication. */
+typedef struct {
+
+ /* Mandatory */
+ /* User Response */
+ qmiLocNiUserRespEnumT_v02 userResp;
+ /**< User accepted or denied.
+
+ Valid values: \n
+ - eQMI_LOC_NI_LCS_NOTIFY_VERIFY_ACCEPT (1) -- User accepted the Notify/Verify request
+ - eQMI_LOC_NI_LCS_NOTIFY_VERIFY_DENY (2) -- User denied the Notify/Verify request
+ - eQMI_LOC_NI_LCS_NOTIFY_VERIFY_NORESP (3) -- User did not respond to the Notify/Verify request
+ */
+
+ /* Mandatory */
+ /* Notification Type */
+ qmiLocNiNotifyVerifyEnumT_v02 notificationType;
+ /**< Type of notification/verification performed.
+
+ Valid values: \n
+ - eQMI_LOC_NI_USER_NO_NOTIFY_NO_VERIFY (1) -- No notification and no verification required
+ - eQMI_LOC_NI_USER_NOTIFY_ONLY (2) -- Notify only; no verification required
+ - eQMI_LOC_NI_USER_NOTIFY_VERIFY_ALLOW_NO_RESP (3) -- Notify and verify, but no response required.
+ - eQMI_LOC_NI_USER_NOTIFY_VERIFY_NOT_ALLOW_NO_RESP (4) -- Notify and verify, and require a response
+ - eQMI_LOC_NI_USER_NOTIFY_VERIFY_PRIVACY_OVERRIDE (5) -- Notify and verify; privacy override
+ */
+
+ /* Optional */
+ /* Network Initiated Vx Request */
+ uint8_t NiVxPayload_valid; /**< Must be set to true if NiVxPayload is being passed */
+ qmiLocNiVxNotifyVerifyStructT_v02 NiVxPayload;
+ /**< \vspace{0.06in} \n Optional NI VX request payload. */
+
+ /* Optional */
+ /* Network Initiated SUPL Request */
+ uint8_t NiSuplPayload_valid; /**< Must be set to true if NiSuplPayload is being passed */
+ qmiLocNiSuplNotifyVerifyStructT_v02 NiSuplPayload;
+ /**< \vspace{0.06in} \n Optional NI SUPL request payload. */
+
+ /* Optional */
+ /* Network Initiated UMTS Control Plane Request */
+ uint8_t NiUmtsCpPayload_valid; /**< Must be set to true if NiUmtsCpPayload is being passed */
+ qmiLocNiUmtsCpNotifyVerifyStructT_v02 NiUmtsCpPayload;
+ /**< \vspace{0.06in} \n Optional NI UMTS-CP request payload. */
+
+ /* Optional */
+ /* Network Initiated Service Interaction Request */
+ uint8_t NiVxServiceInteractionPayload_valid; /**< Must be set to true if NiVxServiceInteractionPayload is being passed */
+ qmiLocNiVxServiceInteractionStructT_v02 NiVxServiceInteractionPayload;
+ /**< \vspace{0.06in} \n Optional NI service interaction payload. */
+
+ /* Optional */
+ /* Network Initiated SUPL Version 2 Extension */
+ uint8_t NiSuplVer2ExtPayload_valid; /**< Must be set to true if NiSuplVer2ExtPayload is being passed */
+ qmiLocNiSuplVer2ExtStructT_v02 NiSuplVer2ExtPayload;
+ /**< \vspace{0.06in} \n Optional SUPL Version 2 Extension payload. */
+
+ /* Optional */
+ /* SUPL Emergency Notification */
+ uint8_t suplEmergencyNotification_valid; /**< Must be set to true if suplEmergencyNotification is being passed */
+ qmiLocEmergencyNotificationStructT_v02 suplEmergencyNotification;
+ /**< \vspace{0.06in} \n SUPL emergency notification payload. Emergency notification
+ can be given even without an ESLP address */
+}qmiLocNiUserRespReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Sends the NI user response back to the engine; success or
+ failure is reported in a separate indication. */
+typedef struct {
+
+ /* Mandatory */
+ /* NI User Response Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the NI User Response request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+}qmiLocNiUserRespIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCPREDICTEDORBITSDATAFORMATENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_PREDICTED_ORBITS_XTRA_V02 = 0, /**< Default is QCOM-XTRA format. */
+ QMILOCPREDICTEDORBITSDATAFORMATENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocPredictedOrbitsDataFormatEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Injects predicted orbits data. */
+typedef struct {
+
+ /* Mandatory */
+ /* Total Size */
+ uint32_t totalSize;
+ /**< Total size of the predicted orbits data to be injected. \n
+ - Units: Bytes */
+
+ /* Mandatory */
+ /* Total Parts */
+ uint16_t totalParts;
+ /**< Total number of parts into which the predicted orbits data is
+ divided. */
+
+ /* Mandatory */
+ /* Part Number */
+ uint16_t partNum;
+ /**< Number of the current predicted orbits data part; starts at 1. */
+
+ /* Mandatory */
+ /* Data */
+ uint32_t partData_len; /**< Must be set to # of elements in partData */
+ char partData[QMI_LOC_MAX_PREDICTED_ORBITS_PART_LEN_V02];
+ /**< Predicted orbits data. \n
+ - Type: Array of bytes \n
+ - Maximum length of the array: 1024
+ */
+
+ /* Optional */
+ /* Format Type */
+ uint8_t formatType_valid; /**< Must be set to true if formatType is being passed */
+ qmiLocPredictedOrbitsDataFormatEnumT_v02 formatType;
+ /**< Predicted orbits data format. \n
+ Valid values: \n
+ - eQMI_LOC_PREDICTED_ORBITS_XTRA (0) -- Default is QCOM-XTRA format.
+ */
+}qmiLocInjectPredictedOrbitsDataReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Injects predicted orbits data. */
+typedef struct {
+
+ /* Mandatory */
+ /* Data Injection Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Data Injection request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+
+ /* Optional */
+ /* Part Number */
+ uint8_t partNum_valid; /**< Must be set to true if partNum is being passed */
+ uint16_t partNum;
+ /**< Number of the predicted orbits data part for which this indication
+ is sent; starts at 1. */
+}qmiLocInjectPredictedOrbitsDataIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Gets the predicted orbits data source. */
+typedef struct {
+ /* This element is a placeholder to prevent the declaration of
+ an empty struct. DO NOT USE THIS FIELD UNDER ANY CIRCUMSTANCE */
+ char __placeholder;
+}qmiLocGetPredictedOrbitsDataSourceReqMsgT_v02;
+
+ /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Gets the predicted orbits data source. */
+typedef struct {
+
+ /* Mandatory */
+ /* Predicted Orbits Data Source Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the query request for a predicted orbits data source.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+
+ /* Optional */
+ /* Allowed Sizes */
+ uint8_t allowedSizes_valid; /**< Must be set to true if allowedSizes is being passed */
+ qmiLocPredictedOrbitsAllowedSizesStructT_v02 allowedSizes;
+ /**< \n Maximum part and file size allowed to be injected in the engine. */
+
+ /* Optional */
+ /* Server List */
+ uint8_t serverList_valid; /**< Must be set to true if serverList is being passed */
+ qmiLocPredictedOrbitsServerListStructT_v02 serverList;
+ /**< \n List of servers that can be used by the client to download
+ predicted orbits data. */
+}qmiLocGetPredictedOrbitsDataSourceIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Gets the predicted orbits data validity. */
+typedef struct {
+ /* This element is a placeholder to prevent the declaration of
+ an empty struct. DO NOT USE THIS FIELD UNDER ANY CIRCUMSTANCE */
+ char __placeholder;
+}qmiLocGetPredictedOrbitsDataValidityReqMsgT_v02;
+
+ /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ uint64_t startTimeInUTC;
+ /**< Predicted orbits data is valid starting from this time. \n
+ - Units: Seconds (since Jan. 1, 1970)
+ */
+
+ uint16_t durationHours;
+ /**< Duration from the start time for which the data is valid.\n
+ - Units: Hours
+ */
+}qmiLocPredictedOrbitsDataValidityStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Gets the predicted orbits data validity. */
+typedef struct {
+
+ /* Mandatory */
+ /* Predicted Orbits Data Validity Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the query request for predicted orbits data validity.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+
+ /* Optional */
+ /* Validity Info */
+ uint8_t validityInfo_valid; /**< Must be set to true if validityInfo is being passed */
+ qmiLocPredictedOrbitsDataValidityStructT_v02 validityInfo;
+}qmiLocGetPredictedOrbitsDataValidityIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Injects UTC time in the location engine. */
+typedef struct {
+
+ /* Mandatory */
+ /* UTC Time */
+ uint64_t timeUtc;
+ /**< UTC time since Jan. 1, 1970.\n
+ - Units: Milliseconds */
+
+ /* Mandatory */
+ /* Time Uncertainty */
+ uint32_t timeUnc;
+ /**< Time uncertainty.\n
+ - Units: Milliseconds */
+}qmiLocInjectUtcTimeReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Injects UTC time in the location engine. */
+typedef struct {
+
+ /* Mandatory */
+ /* UTC Time Injection Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the UTC Time Injection request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+}qmiLocInjectUtcTimeIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCALTSRCENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_ALT_SRC_UNKNOWN_V02 = 0, /**< Source is unknown */
+ eQMI_LOC_ALT_SRC_GPS_V02 = 1, /**< GPS is the source */
+ eQMI_LOC_ALT_SRC_CELL_ID_V02 = 2, /**< Cell ID provided the source */
+ eQMI_LOC_ALT_SRC_ENHANCED_CELL_ID_V02 = 3, /**< Source is enhanced cell ID */
+ eQMI_LOC_ALT_SRC_WIFI_V02 = 4, /**< Wi-Fi is the source */
+ eQMI_LOC_ALT_SRC_TERRESTRIAL_V02 = 5, /**< Terrestrial source */
+ eQMI_LOC_ALT_SRC_TERRESTRIAL_HYBRID_V02 = 6, /**< Hybrid terrestrial source */
+ eQMI_LOC_ALT_SRC_ALTITUDE_DATABASE_V02 = 7, /**< Altitude database is the source */
+ eQMI_LOC_ALT_SRC_BAROMETRIC_ALTIMETER_V02 = 8, /**< Barometric altimeter is the source */
+ eQMI_LOC_ALT_SRC_OTHER_V02 = 9, /**< Other sources */
+ QMILOCALTSRCENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocAltSrcEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCALTSRCLINKAGEENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_ALT_SRC_LINKAGE_NOT_SPECIFIED_V02 = 0, /**< Not specified */
+ eQMI_LOC_ALT_SRC_LINKAGE_FULLY_INTERDEPENDENT_V02 = 1, /**< Fully interdependent */
+ eQMI_LOC_ALT_SRC_LINKAGE_DEPENDS_ON_LAT_LONG_V02 = 2, /**< Depends on latitude and longitude */
+ eQMI_LOC_ALT_SRC_LINKAGE_FULLY_INDEPENDENT_V02 = 3, /**< Fully independent */
+ QMILOCALTSRCLINKAGEENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocAltSrcLinkageEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCALTSRCUNCERTAINTYCOVERAGEENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_ALT_UNCERTAINTY_NOT_SPECIFIED_V02 = 0, /**< Not specified */
+ eQMI_LOC_ALT_UNCERTAINTY_POINT_V02 = 1, /**< Altitude uncertainty is valid at the injected horizontal
+ position coordinates only */
+ eQMI_LOC_ALT_UNCERTAINTY_FULL_V02 = 2, /**< Altitude uncertainty applies to the position of the device
+ regardless of horizontal position (within the horizontal
+ uncertainty region, if provided) */
+ QMILOCALTSRCUNCERTAINTYCOVERAGEENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocAltSrcUncertaintyCoverageEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ qmiLocAltSrcEnumT_v02 source;
+ /**< Specifies the source of the altitude.
+
+ Valid values: \n
+ - eQMI_LOC_ALT_SRC_UNKNOWN (0) -- Source is unknown
+ - eQMI_LOC_ALT_SRC_GPS (1) -- GPS is the source
+ - eQMI_LOC_ALT_SRC_CELL_ID (2) -- Cell ID provided the source
+ - eQMI_LOC_ALT_SRC_ENHANCED_CELL_ID (3) -- Source is enhanced cell ID
+ - eQMI_LOC_ALT_SRC_WIFI (4) -- Wi-Fi is the source
+ - eQMI_LOC_ALT_SRC_TERRESTRIAL (5) -- Terrestrial source
+ - eQMI_LOC_ALT_SRC_TERRESTRIAL_HYBRID (6) -- Hybrid terrestrial source
+ - eQMI_LOC_ALT_SRC_ALTITUDE_DATABASE (7) -- Altitude database is the source
+ - eQMI_LOC_ALT_SRC_BAROMETRIC_ALTIMETER (8) -- Barometric altimeter is the source
+ - eQMI_LOC_ALT_SRC_OTHER (9) -- Other sources
+ */
+
+ qmiLocAltSrcLinkageEnumT_v02 linkage;
+ /**< Specifies the dependency between the horizontal and
+ altitude position components.
+
+ Valid values: \n
+ - eQMI_LOC_ALT_SRC_LINKAGE_NOT_SPECIFIED (0) -- Not specified
+ - eQMI_LOC_ALT_SRC_LINKAGE_FULLY_INTERDEPENDENT (1) -- Fully interdependent
+ - eQMI_LOC_ALT_SRC_LINKAGE_DEPENDS_ON_LAT_LONG (2) -- Depends on latitude and longitude
+ - eQMI_LOC_ALT_SRC_LINKAGE_FULLY_INDEPENDENT (3) -- Fully independent
+ */
+
+ qmiLocAltSrcUncertaintyCoverageEnumT_v02 coverage;
+ /**< Specifies the region of uncertainty.
+
+ Valid values: \n
+ - eQMI_LOC_ALT_UNCERTAINTY_NOT_SPECIFIED (0) -- Not specified
+ - eQMI_LOC_ALT_UNCERTAINTY_POINT (1) -- Altitude uncertainty is valid at the injected horizontal
+ position coordinates only
+ - eQMI_LOC_ALT_UNCERTAINTY_FULL (2) -- Altitude uncertainty applies to the position of the device
+ regardless of horizontal position (within the horizontal
+ uncertainty region, if provided)
+ */
+}qmiLocAltitudeSrcInfoStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCPOSITIONSRCENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_POSITION_SRC_GNSS_V02 = 0, /**< Position source is GNSS */
+ eQMI_LOC_POSITION_SRC_CELLID_V02 = 1, /**< Position source is Cell ID */
+ eQMI_LOC_POSITION_SRC_ENH_CELLID_V02 = 2, /**< Position source is Enhanced Cell ID */
+ eQMI_LOC_POSITION_SRC_WIFI_V02 = 3, /**< Position source is Wi-Fi */
+ eQMI_LOC_POSITION_SRC_TERRESTRIAL_V02 = 4, /**< Position source is Terrestrial */
+ eQMI_LOC_POSITION_SRC_GNSS_TERRESTRIAL_HYBRID_V02 = 5, /**< Position source is GNSS Terrestrial Hybrid */
+ eQMI_LOC_POSITION_SRC_OTHER_V02 = 6, /**< Other sources */
+ QMILOCPOSITIONSRCENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocPositionSrcEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Injects a position to the location engine. */
+typedef struct {
+
+ /* Optional */
+ /* Latitude */
+ uint8_t latitude_valid; /**< Must be set to true if latitude is being passed */
+ double latitude;
+ /**< Latitude (specified in WGS84 datum).
+ \begin{itemize1}
+ \item Type: Floating point
+ \item Units: Degrees
+ \item Range: -90.0 to 90.0 \begin{itemize1}
+ \item Positive values indicate northern latitude
+ \item Negative values indicate southern latitude
+ \vspace{-0.18in} \end{itemize1} \end{itemize1}
+ */
+
+ /* Optional */
+ /* Longitude */
+ uint8_t longitude_valid; /**< Must be set to true if longitude is being passed */
+ double longitude;
+ /**< Longitude (specified in WGS84 datum).
+ \begin{itemize1}
+ \item Type: Floating point
+ \item Units: Degrees
+ \item Range: -180.0 to 180.0 \begin{itemize1}
+ \item Positive values indicate eastern longitude
+ \item Negative values indicate western longitude
+ \vspace{-0.18in} \end{itemize1} \end{itemize1}
+ */
+
+ /* Optional */
+ /* Circular Horizontal Uncertainty */
+ uint8_t horUncCircular_valid; /**< Must be set to true if horUncCircular is being passed */
+ float horUncCircular;
+ /**< Horizontal position uncertainty (circular).\n
+ - Units: Meters */
+
+ /* Optional */
+ /* Horizontal Confidence */
+ uint8_t horConfidence_valid; /**< Must be set to true if horConfidence is being passed */
+ uint8_t horConfidence;
+ /**< Horizontal confidence, as defined by ETSI TS 101 109 (\hyperref[S4]{[S4]}).
+ \begin{itemize1}
+ \item Units: Percent (1 to 99)
+ \item 0, 101 to 255 -- invalid value
+ \item If 100 is received, reinterpret to 99
+ \end{itemize1}
+ This field must be specified together with horizontal uncertainty.
+ If not specified when horUncCircular is set, the default value is 50. */
+
+ /* Optional */
+ /* Horizontal Reliability */
+ uint8_t horReliability_valid; /**< Must be set to true if horReliability is being passed */
+ qmiLocReliabilityEnumT_v02 horReliability;
+ /**< Specifies the reliability of the horizontal position.
+
+ Valid values: \n
+ - eQMI_LOC_RELIABILITY_NOT_SET (0) -- Location reliability is not set
+ - eQMI_LOC_RELIABILITY_VERY_LOW (1) -- Location reliability is very low; use it at your own risk
+ - eQMI_LOC_RELIABILITY_LOW (2) -- Location reliability is low; little or no cross-checking is possible
+ - eQMI_LOC_RELIABILITY_MEDIUM (3) -- Location reliability is medium; limited cross-check passed
+ - eQMI_LOC_RELIABILITY_HIGH (4) -- Location reliability is high; strong cross-check passed
+ */
+
+ /* Optional */
+ /* Altitude With Respect to Ellipsoid */
+ uint8_t altitudeWrtEllipsoid_valid; /**< Must be set to true if altitudeWrtEllipsoid is being passed */
+ float altitudeWrtEllipsoid;
+ /**< Altitude with respect to the WGS84 ellipsoid.
+ \begin{itemize1}
+ \item Units: Meters \begin{itemize1}
+ \item Positive = height
+ \item Negative = depth
+ \vspace{-0.18in} \end{itemize1} \end{itemize1}*/
+
+ /* Optional */
+ /* Altitude With Respect to Sea Level */
+ uint8_t altitudeWrtMeanSeaLevel_valid; /**< Must be set to true if altitudeWrtMeanSeaLevel is being passed */
+ float altitudeWrtMeanSeaLevel;
+ /**< Altitude with respect to mean sea level.\n
+ - Units: Meters */
+
+ /* Optional */
+ /* Vertical Uncertainty */
+ uint8_t vertUnc_valid; /**< Must be set to true if vertUnc is being passed */
+ float vertUnc;
+ /**< Vertical uncertainty. This is mandatory if either altitudeWrtEllipsoid
+ or altitudeWrtMeanSeaLevel is specified.\n
+ - Units: Meters */
+
+ /* Optional */
+ /* Vertical Confidence */
+ uint8_t vertConfidence_valid; /**< Must be set to true if vertConfidence is being passed */
+ uint8_t vertConfidence;
+ /**< Vertical confidence, as defined by ETSI TS 101 109 (\hyperref[S4]{[S4]}).
+ \begin{itemize1}
+ \item Units: Percent (0-99)
+ \item 0 -- invalid value
+ \item 100 to 256 -- not used
+ \item If 100 is received, reinterpret to 99
+ \end{itemize1}
+ This field must be specified together with the vertical uncertainty.
+ If not specified, the default value will be 50. */
+
+ /* Optional */
+ /* Vertical Reliability */
+ uint8_t vertReliability_valid; /**< Must be set to true if vertReliability is being passed */
+ qmiLocReliabilityEnumT_v02 vertReliability;
+ /**< Specifies the reliability of the vertical position.
+
+ Valid values: \n
+ - eQMI_LOC_RELIABILITY_NOT_SET (0) -- Location reliability is not set
+ - eQMI_LOC_RELIABILITY_VERY_LOW (1) -- Location reliability is very low; use it at your own risk
+ - eQMI_LOC_RELIABILITY_LOW (2) -- Location reliability is low; little or no cross-checking is possible
+ - eQMI_LOC_RELIABILITY_MEDIUM (3) -- Location reliability is medium; limited cross-check passed
+ - eQMI_LOC_RELIABILITY_HIGH (4) -- Location reliability is high; strong cross-check passed
+ */
+
+ /* Optional */
+ /* Altitude Source Info */
+ uint8_t altSourceInfo_valid; /**< Must be set to true if altSourceInfo is being passed */
+ qmiLocAltitudeSrcInfoStructT_v02 altSourceInfo;
+ /**< \vspace{0.06in} \n Specifies information regarding the altitude source. */
+
+ /* Optional */
+ /* UTC Timestamp */
+ uint8_t timestampUtc_valid; /**< Must be set to true if timestampUtc is being passed */
+ uint64_t timestampUtc;
+ /**< UTC timestamp. \n
+ - Units: Milliseconds (since Jan. 1, 1970) */
+
+ /* Optional */
+ /* Position Age */
+ uint8_t timestampAge_valid; /**< Must be set to true if timestampAge is being passed */
+ int32_t timestampAge;
+ /**< Position age, which is an estimate of how long ago this fix was made. \n
+ - Units: Milliseconds */
+
+ /* Optional */
+ /* Position Source */
+ uint8_t positionSrc_valid; /**< Must be set to true if positionSrc is being passed */
+ qmiLocPositionSrcEnumT_v02 positionSrc;
+ /**< Source from which this position was obtained.
+
+ Valid values: \n
+ - eQMI_LOC_POSITION_SRC_GNSS (0) -- Position source is GNSS
+ - eQMI_LOC_POSITION_SRC_CELLID (1) -- Position source is Cell ID
+ - eQMI_LOC_POSITION_SRC_ENH_CELLID (2) -- Position source is Enhanced Cell ID
+ - eQMI_LOC_POSITION_SRC_WIFI (3) -- Position source is Wi-Fi
+ - eQMI_LOC_POSITION_SRC_TERRESTRIAL (4) -- Position source is Terrestrial
+ - eQMI_LOC_POSITION_SRC_GNSS_TERRESTRIAL_HYBRID (5) -- Position source is GNSS Terrestrial Hybrid
+ - eQMI_LOC_POSITION_SRC_OTHER (6) -- Other sources
+
+ If altitude is specified and the altitude source is not specified, the engine
+ assumes that the altitude was obtained using the specified position source. \n
+ If both altitude and altitude source are specified, the engine assumes
+ that only latitude and longitude were obtained using the specified position
+ source.
+ */
+
+ /* Optional */
+ /* Raw Circular Horizontal Uncertainty */
+ uint8_t rawHorUncCircular_valid; /**< Must be set to true if rawHorUncCircular is being passed */
+ float rawHorUncCircular;
+ /**< Horizontal position uncertainty (circular) without any optimization.\n
+ - Units: Meters */
+
+ /* Optional */
+ /* Raw Horizontal Confidence */
+ uint8_t rawHorConfidence_valid; /**< Must be set to true if rawHorConfidence is being passed */
+ uint8_t rawHorConfidence;
+ /**< Horizontal confidence associated with raw horizontal uncertainty,
+ as defined by ETSI TS 101 109 (\hyperref[S4]{[S4]}).
+ \begin{itemize1}
+ \item Units: Percent (1 to 99)
+ \item 0, 101 to 255 -- invalid value
+ \item If 100 is received, reinterpret to 99
+ \end{itemize1}
+ This field must be specified together with raw horizontal uncertainty.
+ If not specified when rawHorUncCircular is set, the default value is 50. */
+}qmiLocInjectPositionReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Injects a position to the location engine. */
+typedef struct {
+
+ /* Mandatory */
+ /* UTC Position Injection Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the UTC Position Injection request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+}qmiLocInjectPositionIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCLOCKENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_LOCK_NONE_V02 = 1, /**< Do not lock any position sessions */
+ eQMI_LOC_LOCK_MI_V02 = 2, /**< Lock mobile-initiated position sessions */
+ eQMI_LOC_LOCK_MT_V02 = 3, /**< Lock mobile-terminated position sessions */
+ eQMI_LOC_LOCK_ALL_V02 = 4, /**< Lock all position sessions */
+ QMILOCLOCKENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocLockEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Sets the location engine lock. */
+typedef struct {
+
+ /* Mandatory */
+ /* Lock Type */
+ qmiLocLockEnumT_v02 lockType;
+ /**< Type of lock.
+
+ Valid values: \n
+ - eQMI_LOC_LOCK_NONE (1) -- Do not lock any position sessions
+ - eQMI_LOC_LOCK_MI (2) -- Lock mobile-initiated position sessions
+ - eQMI_LOC_LOCK_MT (3) -- Lock mobile-terminated position sessions
+ - eQMI_LOC_LOCK_ALL (4) -- Lock all position sessions
+ */
+}qmiLocSetEngineLockReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Sets the location engine lock. */
+typedef struct {
+
+ /* Mandatory */
+ /* Set Engine Lock Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Set Engine Lock request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+}qmiLocSetEngineLockIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Gets the location engine lock. */
+typedef struct {
+ /* This element is a placeholder to prevent the declaration of
+ an empty struct. DO NOT USE THIS FIELD UNDER ANY CIRCUMSTANCE */
+ char __placeholder;
+}qmiLocGetEngineLockReqMsgT_v02;
+
+ /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Gets the location engine lock. */
+typedef struct {
+
+ /* Mandatory */
+ /* Get Engine Lock Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Get Engine Lock request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+
+ /* Optional */
+ /* Lock Type */
+ uint8_t lockType_valid; /**< Must be set to true if lockType is being passed */
+ qmiLocLockEnumT_v02 lockType;
+ /**< Type of lock.
+
+ Valid values: \n
+ - eQMI_LOC_LOCK_NONE (1) -- Do not lock any position sessions
+ - eQMI_LOC_LOCK_MI (2) -- Lock mobile-initiated position sessions
+ - eQMI_LOC_LOCK_MT (3) -- Lock mobile-terminated position sessions
+ - eQMI_LOC_LOCK_ALL (4) -- Lock all position sessions
+ */
+}qmiLocGetEngineLockIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Sets the SBAS configuration. */
+typedef struct {
+
+ /* Mandatory */
+ /* SBAS Config */
+ uint8_t sbasConfig;
+ /**< Indicates whether SBAS configuration is enabled.
+ \begin{itemize1}
+ \item 0x01 (TRUE) -- SBAS configuration is enabled
+ \item 0x00 (FALSE) -- SBAS configuration is disabled
+ \vspace{-0.18in} \end{itemize1}*/
+}qmiLocSetSbasConfigReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Sets the SBAS configuration. */
+typedef struct {
+
+ /* Mandatory */
+ /* Set SBAS Config Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Set SBAS Configuration request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+}qmiLocSetSbasConfigIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Gets the SBAS configuration from the location engine. */
+typedef struct {
+ /* This element is a placeholder to prevent the declaration of
+ an empty struct. DO NOT USE THIS FIELD UNDER ANY CIRCUMSTANCE */
+ char __placeholder;
+}qmiLocGetSbasConfigReqMsgT_v02;
+
+ /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Gets the SBAS configuration from the location engine. */
+typedef struct {
+
+ /* Mandatory */
+ /* Get SBAS Config Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Get SBAS Configuration request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+
+ /* Optional */
+ /* SBAS Config */
+ uint8_t sbasConfig_valid; /**< Must be set to true if sbasConfig is being passed */
+ uint8_t sbasConfig;
+ /**< Indicates whether SBAS configuration is enabled.
+ \begin{itemize1}
+ \item 0x01 (TRUE) -- SBAS configuration is enabled
+ \item 0x00 (FALSE) -- SBAS configuration is disabled
+ \vspace{-0.18in} \end{itemize1}*/
+}qmiLocGetSbasConfigIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+typedef uint32_t qmiLocNmeaSentenceMaskT_v02;
+#define QMI_LOC_NMEA_MASK_GGA_V02 ((qmiLocNmeaSentenceMaskT_v02)0x00000001) /**< Enable GGA type */
+#define QMI_LOC_NMEA_MASK_RMC_V02 ((qmiLocNmeaSentenceMaskT_v02)0x00000002) /**< Enable RMC type */
+#define QMI_LOC_NMEA_MASK_GSV_V02 ((qmiLocNmeaSentenceMaskT_v02)0x00000004) /**< Enable GSV type */
+#define QMI_LOC_NMEA_MASK_GSA_V02 ((qmiLocNmeaSentenceMaskT_v02)0x00000008) /**< Enable GSA type */
+#define QMI_LOC_NMEA_MASK_VTG_V02 ((qmiLocNmeaSentenceMaskT_v02)0x00000010) /**< Enable VTG type */
+#define QMI_LOC_NMEA_MASK_PQXFI_V02 ((qmiLocNmeaSentenceMaskT_v02)0x00000020) /**< Enable PQXFI type */
+#define QMI_LOC_NMEA_MASK_PSTIS_V02 ((qmiLocNmeaSentenceMaskT_v02)0x00000040) /**< Enable PSTIS type */
+#define QMI_LOC_NMEA_MASK_GLGSV_V02 ((qmiLocNmeaSentenceMaskT_v02)0x00000080) /**< Enable GLGSV type */
+#define QMI_LOC_NMEA_MASK_GNGSA_V02 ((qmiLocNmeaSentenceMaskT_v02)0x00000100) /**< Enable GNGSA type */
+#define QMI_LOC_NMEA_MASK_GNGNS_V02 ((qmiLocNmeaSentenceMaskT_v02)0x00000200) /**< Enable GNGNS type */
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Sets the NMEA types. */
+typedef struct {
+
+ /* Mandatory */
+ /* NMEA Sentence Types */
+ qmiLocNmeaSentenceMaskT_v02 nmeaSentenceType;
+ /**< Bitmasks of NMEA types to enable.
+
+ Valid bitmasks: \n
+ - QMI_LOC_NMEA_MASK_GGA (0x00000001) -- Enable GGA type
+ - QMI_LOC_NMEA_MASK_RMC (0x00000002) -- Enable RMC type
+ - QMI_LOC_NMEA_MASK_GSV (0x00000004) -- Enable GSV type
+ - QMI_LOC_NMEA_MASK_GSA (0x00000008) -- Enable GSA type
+ - QMI_LOC_NMEA_MASK_VTG (0x00000010) -- Enable VTG type
+ - QMI_LOC_NMEA_MASK_PQXFI (0x00000020) -- Enable PQXFI type
+ - QMI_LOC_NMEA_MASK_PSTIS (0x00000040) -- Enable PSTIS type
+ - QMI_LOC_NMEA_MASK_GLGSV (0x00000080) -- Enable GLGSV type
+ - QMI_LOC_NMEA_MASK_GNGSA (0x00000100) -- Enable GNGSA type
+ - QMI_LOC_NMEA_MASK_GNGNS (0x00000200) -- Enable GNGNS type
+ */
+}qmiLocSetNmeaTypesReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Sets the NMEA types. */
+typedef struct {
+
+ /* Mandatory */
+ /* Set NMEA Types Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of Set NMEA Types request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+}qmiLocSetNmeaTypesIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Gets the NMEA types from the location engine. */
+typedef struct {
+ /* This element is a placeholder to prevent the declaration of
+ an empty struct. DO NOT USE THIS FIELD UNDER ANY CIRCUMSTANCE */
+ char __placeholder;
+}qmiLocGetNmeaTypesReqMsgT_v02;
+
+ /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Gets the NMEA types from the location engine. */
+typedef struct {
+
+ /* Mandatory */
+ /* Get NMEA Types Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Get NMEA Types request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+
+ /* Optional */
+ /* NMEA Sentence Types */
+ uint8_t nmeaSentenceType_valid; /**< Must be set to true if nmeaSentenceType is being passed */
+ qmiLocNmeaSentenceMaskT_v02 nmeaSentenceType;
+ /**< NMEA types to enable.
+
+ Valid bitmasks: \n
+ - QMI_LOC_NMEA_MASK_GGA (0x00000001) -- Enable GGA type
+ - QMI_LOC_NMEA_MASK_RMC (0x00000002) -- Enable RMC type
+ - QMI_LOC_NMEA_MASK_GSV (0x00000004) -- Enable GSV type
+ - QMI_LOC_NMEA_MASK_GSA (0x00000008) -- Enable GSA type
+ - QMI_LOC_NMEA_MASK_VTG (0x00000010) -- Enable VTG type
+ - QMI_LOC_NMEA_MASK_PQXFI (0x00000020) -- Enable PQXFI type
+ - QMI_LOC_NMEA_MASK_PSTIS (0x00000040) -- Enable PSTIS type
+ - QMI_LOC_NMEA_MASK_GLGSV (0x00000080) -- Enable GLGSV type
+ - QMI_LOC_NMEA_MASK_GNGSA (0x00000100) -- Enable GNGSA type
+ - QMI_LOC_NMEA_MASK_GNGNS (0x00000200) -- Enable GNGNS type
+ */
+}qmiLocGetNmeaTypesIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Enables/disables Low Power Mode (LPM) configuration. */
+typedef struct {
+
+ /* Mandatory */
+ /* Enable Low Power Mode */
+ uint8_t lowPowerMode;
+ /**< Indicates whether to enable Low Power mode:\n
+ - 0x01 (TRUE) -- Enable LPM \n
+ - 0x00 (FALSE) -- Disable LPM */
+}qmiLocSetLowPowerModeReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Enables/disables Low Power Mode (LPM) configuration. */
+typedef struct {
+
+ /* Mandatory */
+ /* Set LPM Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Set Low Power Mode request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+}qmiLocSetLowPowerModeIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Gets the LPM status from the location engine. */
+typedef struct {
+ /* This element is a placeholder to prevent the declaration of
+ an empty struct. DO NOT USE THIS FIELD UNDER ANY CIRCUMSTANCE */
+ char __placeholder;
+}qmiLocGetLowPowerModeReqMsgT_v02;
+
+ /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Gets the LPM status from the location engine. */
+typedef struct {
+
+ /* Mandatory */
+ /* Get LPM Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Get LPM request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+
+ /* Optional */
+ /* Enable/Disable LPM */
+ uint8_t lowPowerMode_valid; /**< Must be set to true if lowPowerMode is being passed */
+ uint8_t lowPowerMode;
+ /**< Indicates whether to enable Low Power mode:\n
+ - 0x01 (TRUE) -- Enable LPM \n
+ - 0x00 (FALSE) -- Disable LPM */
+}qmiLocGetLowPowerModeIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCSERVERTYPEENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_SERVER_TYPE_CDMA_PDE_V02 = 1, /**< Server type is CDMA PDE */
+ eQMI_LOC_SERVER_TYPE_CDMA_MPC_V02 = 2, /**< Server type is CDMA MPC */
+ eQMI_LOC_SERVER_TYPE_UMTS_SLP_V02 = 3, /**< Server type is UMTS SLP */
+ eQMI_LOC_SERVER_TYPE_CUSTOM_PDE_V02 = 4, /**< Server type is custom PDE */
+ QMILOCSERVERTYPEENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocServerTypeEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Specifies the A-GPS server type and address. */
+typedef struct {
+
+ /* Mandatory */
+ /* Server Type */
+ qmiLocServerTypeEnumT_v02 serverType;
+ /**< Type of server.
+
+ Valid values: \n
+ - eQMI_LOC_SERVER_TYPE_CDMA_PDE (1) -- Server type is CDMA PDE
+ - eQMI_LOC_SERVER_TYPE_CDMA_MPC (2) -- Server type is CDMA MPC
+ - eQMI_LOC_SERVER_TYPE_UMTS_SLP (3) -- Server type is UMTS SLP
+ - eQMI_LOC_SERVER_TYPE_CUSTOM_PDE (4) -- Server type is custom PDE
+ */
+
+ /* Optional */
+ /* IPv4 Address */
+ uint8_t ipv4Addr_valid; /**< Must be set to true if ipv4Addr is being passed */
+ qmiLocIpV4AddrStructType_v02 ipv4Addr;
+ /**< \vspace{0.06in} \n IPv4 address and port. */
+
+ /* Optional */
+ /* IPv6 Address */
+ uint8_t ipv6Addr_valid; /**< Must be set to true if ipv6Addr is being passed */
+ qmiLocIpV6AddrStructType_v02 ipv6Addr;
+ /**< \vspace{0.06in} \n IPv6 address and port. */
+
+ /* Optional */
+ /* Uniform Resource Locator */
+ uint8_t urlAddr_valid; /**< Must be set to true if urlAddr is being passed */
+ char urlAddr[QMI_LOC_MAX_SERVER_ADDR_LENGTH_V02 + 1];
+ /**< URL address.
+ \begin{itemize1}
+ \item Type: NULL-terminated string
+ \item Maximum string length (including NULL terminator): 256
+ \vspace{-0.18in} \end{itemize1}
+ */
+}qmiLocSetServerReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Specifies the A-GPS server type and address. */
+typedef struct {
+
+ /* Mandatory */
+ /* Set Server Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Set Server request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+}qmiLocSetServerIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Gets the location server from the location engine. */
+typedef struct {
+
+ /* Mandatory */
+ /* Server Type */
+ qmiLocServerTypeEnumT_v02 serverType;
+ /**< Type of server.
+
+ Valid values: \n
+ - eQMI_LOC_SERVER_TYPE_CDMA_PDE (1) -- Server type is CDMA PDE
+ - eQMI_LOC_SERVER_TYPE_CDMA_MPC (2) -- Server type is CDMA MPC
+ - eQMI_LOC_SERVER_TYPE_UMTS_SLP (3) -- Server type is UMTS SLP
+ - eQMI_LOC_SERVER_TYPE_CUSTOM_PDE (4) -- Server type is custom PDE
+ */
+
+ /* Optional */
+ /* Server Address Type */
+ uint8_t serverAddrTypeMask_valid; /**< Must be set to true if serverAddrTypeMask is being passed */
+ qmiLocServerAddrTypeMaskT_v02 serverAddrTypeMask;
+ /**< Type of address the client wants. If unspecified, the
+ indication will contain all the types of addresses
+ it has for the specified server type.
+
+ Valid bitmasks: \n
+ - 0x01 -- IPv4 \n
+ - 0x02 -- IPv6 \n
+ - 0x04 -- URL
+ */
+}qmiLocGetServerReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Gets the location server from the location engine. */
+typedef struct {
+
+ /* Mandatory */
+ /* Get Server Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Get Server request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+
+ /* Mandatory */
+ /* Server Type */
+ qmiLocServerTypeEnumT_v02 serverType;
+ /**< Type of server.
+
+ Valid values: \n
+ - eQMI_LOC_SERVER_TYPE_CDMA_PDE (1) -- Server type is CDMA PDE
+ - eQMI_LOC_SERVER_TYPE_CDMA_MPC (2) -- Server type is CDMA MPC
+ - eQMI_LOC_SERVER_TYPE_UMTS_SLP (3) -- Server type is UMTS SLP
+ - eQMI_LOC_SERVER_TYPE_CUSTOM_PDE (4) -- Server type is custom PDE
+ */
+
+ /* Optional */
+ /* IPv4 Address */
+ uint8_t ipv4Addr_valid; /**< Must be set to true if ipv4Addr is being passed */
+ qmiLocIpV4AddrStructType_v02 ipv4Addr;
+ /**< \vspace{0.06in} \n IPv4 address and port. */
+
+ /* Optional */
+ /* IPv6 Address */
+ uint8_t ipv6Addr_valid; /**< Must be set to true if ipv6Addr is being passed */
+ qmiLocIpV6AddrStructType_v02 ipv6Addr;
+ /**< \vspace{0.06in} \n IPv6 address and port. */
+
+ /* Optional */
+ /* Uniform Resource Locator */
+ uint8_t urlAddr_valid; /**< Must be set to true if urlAddr is being passed */
+ char urlAddr[QMI_LOC_MAX_SERVER_ADDR_LENGTH_V02 + 1];
+ /**< URL.
+ \begin{itemize1}
+ \item Type: NULL-terminated string
+ \item Maximum string length (including NULL terminator): 256
+ \vspace{-0.18in} \end{itemize1}
+ */
+}qmiLocGetServerIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+typedef uint64_t qmiLocDeleteGnssDataMaskT_v02;
+#define QMI_LOC_MASK_DELETE_GPS_SVDIR_V02 ((qmiLocDeleteGnssDataMaskT_v02)0x00000001ull) /**< Mask to delete GPS SVDIR */
+#define QMI_LOC_MASK_DELETE_GPS_SVSTEER_V02 ((qmiLocDeleteGnssDataMaskT_v02)0x00000002ull) /**< Mask to delete GPS SVSTEER */
+#define QMI_LOC_MASK_DELETE_GPS_TIME_V02 ((qmiLocDeleteGnssDataMaskT_v02)0x00000004ull) /**< Mask to delete GPS time */
+#define QMI_LOC_MASK_DELETE_GPS_ALM_CORR_V02 ((qmiLocDeleteGnssDataMaskT_v02)0x00000008ull) /**< Mask to delete almanac correlation */
+#define QMI_LOC_MASK_DELETE_GLO_SVDIR_V02 ((qmiLocDeleteGnssDataMaskT_v02)0x00000010ull) /**< Mask to delete GLONASS SVDIR */
+#define QMI_LOC_MASK_DELETE_GLO_SVSTEER_V02 ((qmiLocDeleteGnssDataMaskT_v02)0x00000020ull) /**< Mask to delete GLONASS SVSTEER */
+#define QMI_LOC_MASK_DELETE_GLO_TIME_V02 ((qmiLocDeleteGnssDataMaskT_v02)0x00000040ull) /**< Mask to delete GLONASS time */
+#define QMI_LOC_MASK_DELETE_GLO_ALM_CORR_V02 ((qmiLocDeleteGnssDataMaskT_v02)0x00000080ull) /**< Mask to delete GLONASS almanac correlation */
+#define QMI_LOC_MASK_DELETE_SBAS_SVDIR_V02 ((qmiLocDeleteGnssDataMaskT_v02)0x00000100ull) /**< Mask to delete SBAS SVDIR */
+#define QMI_LOC_MASK_DELETE_SBAS_SVSTEER_V02 ((qmiLocDeleteGnssDataMaskT_v02)0x00000200ull) /**< Mask to delete SBAS SVSTEER */
+#define QMI_LOC_MASK_DELETE_POSITION_V02 ((qmiLocDeleteGnssDataMaskT_v02)0x00000400ull) /**< Mask to delete position estimate */
+#define QMI_LOC_MASK_DELETE_TIME_V02 ((qmiLocDeleteGnssDataMaskT_v02)0x00000800ull) /**< Mask to delete time estimate */
+#define QMI_LOC_MASK_DELETE_IONO_V02 ((qmiLocDeleteGnssDataMaskT_v02)0x00001000ull) /**< Mask to delete IONO */
+#define QMI_LOC_MASK_DELETE_UTC_V02 ((qmiLocDeleteGnssDataMaskT_v02)0x00002000ull) /**< Mask to delete UTC estimate */
+#define QMI_LOC_MASK_DELETE_HEALTH_V02 ((qmiLocDeleteGnssDataMaskT_v02)0x00004000ull) /**< Mask to delete SV health record */
+#define QMI_LOC_MASK_DELETE_SADATA_V02 ((qmiLocDeleteGnssDataMaskT_v02)0x00008000ull) /**< Mask to delete SADATA */
+#define QMI_LOC_MASK_DELETE_RTI_V02 ((qmiLocDeleteGnssDataMaskT_v02)0x00010000ull) /**< Mask to delete RTI */
+#define QMI_LOC_MASK_DELETE_SV_NO_EXIST_V02 ((qmiLocDeleteGnssDataMaskT_v02)0x00020000ull) /**< Mask to delete SV_NO_EXIST */
+#define QMI_LOC_MASK_DELETE_FREQ_BIAS_EST_V02 ((qmiLocDeleteGnssDataMaskT_v02)0x00040000ull) /**< Mask to delete frequency bias estimate */
+#define QMI_LOC_MASK_DELETE_BDS_SVDIR_V02 ((qmiLocDeleteGnssDataMaskT_v02)0x00080000ull) /**< Mask to delete BDS SVDIR */
+#define QMI_LOC_MASK_DELETE_BDS_SVSTEER_V02 ((qmiLocDeleteGnssDataMaskT_v02)0x00100000ull) /**< Mask to delete BDS SVSTEER */
+#define QMI_LOC_MASK_DELETE_BDS_TIME_V02 ((qmiLocDeleteGnssDataMaskT_v02)0x00200000ull) /**< Mask to delete BDS time */
+#define QMI_LOC_MASK_DELETE_BDS_ALM_CORR_V02 ((qmiLocDeleteGnssDataMaskT_v02)0x00400000ull) /**< Mask to delete BDS almanac correlation */
+#define QMI_LOC_MASK_DELETE_GNSS_SV_BLACKLIST_GPS_V02 ((qmiLocDeleteGnssDataMaskT_v02)0x00800000ull) /**< Mask to delete GNSS SV blacklist GPS */
+#define QMI_LOC_MASK_DELETE_GNSS_SV_BLACKLIST_GLO_V02 ((qmiLocDeleteGnssDataMaskT_v02)0x01000000ull) /**< Mask to delete GNSS SV blacklist GLO */
+#define QMI_LOC_MASK_DELETE_GNSS_SV_BLACKLIST_BDS_V02 ((qmiLocDeleteGnssDataMaskT_v02)0x02000000ull) /**< Mask to delete GNSS SV blacklist BDS */
+typedef uint32_t qmiLocDeleteCelldbDataMaskT_v02;
+#define QMI_LOC_MASK_DELETE_CELLDB_POS_V02 ((qmiLocDeleteCelldbDataMaskT_v02)0x00000001) /**< Mask to delete cell database position */
+#define QMI_LOC_MASK_DELETE_CELLDB_LATEST_GPS_POS_V02 ((qmiLocDeleteCelldbDataMaskT_v02)0x00000002) /**< Mask to delete cell database latest GPS position */
+#define QMI_LOC_MASK_DELETE_CELLDB_OTA_POS_V02 ((qmiLocDeleteCelldbDataMaskT_v02)0x00000004) /**< Mask to delete cell database OTA position */
+#define QMI_LOC_MASK_DELETE_CELLDB_EXT_REF_POS_V02 ((qmiLocDeleteCelldbDataMaskT_v02)0x00000008) /**< Mask to delete cell database external reference position */
+#define QMI_LOC_MASK_DELETE_CELLDB_TIMETAG_V02 ((qmiLocDeleteCelldbDataMaskT_v02)0x00000010) /**< Mask to delete cell database time tag */
+#define QMI_LOC_MASK_DELETE_CELLDB_CELLID_V02 ((qmiLocDeleteCelldbDataMaskT_v02)0x00000020) /**< Mask to delete cell database cell ID */
+#define QMI_LOC_MASK_DELETE_CELLDB_CACHED_CELLID_V02 ((qmiLocDeleteCelldbDataMaskT_v02)0x00000040) /**< Mask to delete cell database cached cell ID */
+#define QMI_LOC_MASK_DELETE_CELLDB_LAST_SRV_CELL_V02 ((qmiLocDeleteCelldbDataMaskT_v02)0x00000080) /**< Mask to delete cell database last service cell */
+#define QMI_LOC_MASK_DELETE_CELLDB_CUR_SRV_CELL_V02 ((qmiLocDeleteCelldbDataMaskT_v02)0x00000100) /**< Mask to delete cell database current service cell */
+#define QMI_LOC_MASK_DELETE_CELLDB_NEIGHBOR_INFO_V02 ((qmiLocDeleteCelldbDataMaskT_v02)0x00000200) /**< Mask to delete cell database neighbor information */
+typedef uint32_t qmiLocDeleteClockInfoMaskT_v02;
+#define QMI_LOC_MASK_DELETE_CLOCK_INFO_TIME_EST_V02 ((qmiLocDeleteClockInfoMaskT_v02)0x00000001) /**< Mask to delete time estimate from clock information */
+#define QMI_LOC_MASK_DELETE_CLOCK_INFO_FREQ_EST_V02 ((qmiLocDeleteClockInfoMaskT_v02)0x00000002) /**< Mask to delete frequency estimate from clock information */
+#define QMI_LOC_MASK_DELETE_CLOCK_INFO_WEEK_NUMBER_V02 ((qmiLocDeleteClockInfoMaskT_v02)0x00000004) /**< Mask to delete week number from clock information */
+#define QMI_LOC_MASK_DELETE_CLOCK_INFO_RTC_TIME_V02 ((qmiLocDeleteClockInfoMaskT_v02)0x00000008) /**< Mask to delete RTC time from clock information */
+#define QMI_LOC_MASK_DELETE_CLOCK_INFO_TIME_TRANSFER_V02 ((qmiLocDeleteClockInfoMaskT_v02)0x00000010) /**< Mask to delete time transfer from clock information */
+#define QMI_LOC_MASK_DELETE_CLOCK_INFO_GPSTIME_EST_V02 ((qmiLocDeleteClockInfoMaskT_v02)0x00000020) /**< Mask to delete GPS time estimate from clock information */
+#define QMI_LOC_MASK_DELETE_CLOCK_INFO_GLOTIME_EST_V02 ((qmiLocDeleteClockInfoMaskT_v02)0x00000040) /**< Mask to delete GLONASS time estimate from clock information */
+#define QMI_LOC_MASK_DELETE_CLOCK_INFO_GLODAY_NUMBER_V02 ((qmiLocDeleteClockInfoMaskT_v02)0x00000080) /**< Mask to delete GLONASS day number from clock information */
+#define QMI_LOC_MASK_DELETE_CLOCK_INFO_GLO4YEAR_NUMBER_V02 ((qmiLocDeleteClockInfoMaskT_v02)0x00000100) /**< Mask to delete GLONASS four year number from clock information */
+#define QMI_LOC_MASK_DELETE_CLOCK_INFO_GLO_RF_GRP_DELAY_V02 ((qmiLocDeleteClockInfoMaskT_v02)0x00000200) /**< Mask to delete GLONASS RF GRP delay from clock information */
+#define QMI_LOC_MASK_DELETE_CLOCK_INFO_DISABLE_TT_V02 ((qmiLocDeleteClockInfoMaskT_v02)0x00000400) /**< Mask to delete disable TT from clock information */
+#define QMI_LOC_MASK_DELETE_CLOCK_INFO_GG_LEAPSEC_V02 ((qmiLocDeleteClockInfoMaskT_v02)0x00000800) /**< Mask to delete a BDS time estimate from the clock information */
+#define QMI_LOC_MASK_DELETE_CLOCK_INFO_GG_GGTB_V02 ((qmiLocDeleteClockInfoMaskT_v02)0x00001000) /**< Mask to delete a BDS time estimate from the clock information */
+#define QMI_LOC_MASK_DELETE_CLOCK_INFO_BDSTIME_EST_V02 ((qmiLocDeleteClockInfoMaskT_v02)0x00002000) /**< Mask to delete a BDS time estimate from the clock information */
+#define QMI_LOC_MASK_DELETE_CLOCK_INFO_GB_GBTB_V02 ((qmiLocDeleteClockInfoMaskT_v02)0x00004000) /**< Mask to delete Glonass-to-BDS time bias-related information from the
+ clock information */
+#define QMI_LOC_MASK_DELETE_CLOCK_INFO_BG_BGTB_V02 ((qmiLocDeleteClockInfoMaskT_v02)0x00008000) /**< Mask to delete BDS-to-GLONASS time bias-related information from the
+ clock information */
+#define QMI_LOC_MASK_DELETE_CLOCK_INFO_BDSWEEK_NUMBER_V02 ((qmiLocDeleteClockInfoMaskT_v02)0x00010000) /**< Mask to delete the BDS week number from the clock information */
+#define QMI_LOC_MASK_DELETE_CLOCK_INFO_BDS_RF_GRP_DELAY_V02 ((qmiLocDeleteClockInfoMaskT_v02)0x00020000) /**< Mask to delete the BDS RF GRP delay from the clock information */
+typedef uint8_t qmiLocDeleteSvInfoMaskT_v02;
+#define QMI_LOC_MASK_DELETE_EPHEMERIS_V02 ((qmiLocDeleteSvInfoMaskT_v02)0x01) /**< Delete ephemeris for the satellite */
+#define QMI_LOC_MASK_DELETE_ALMANAC_V02 ((qmiLocDeleteSvInfoMaskT_v02)0x02) /**< Delete almanac for the satellite */
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ uint16_t gnssSvId;
+ /**< SV ID of the satellite whose data is to be deleted.
+ \begin{itemize1}
+ \item Range: \begin{itemize1}
+ \item For GPS: 1 to 32
+ \item For SBAS: 33 to 64
+ \item For GLONASS: 65 to 96
+ \vspace{-0.18in} \end{itemize1} \end{itemize1} */
+
+ qmiLocSvSystemEnumT_v02 system;
+ /**< Indicates to which constellation this SV belongs.
+
+ Valid values: \n
+ - eQMI_LOC_SV_SYSTEM_GPS (1) -- GPS satellite
+ - eQMI_LOC_SV_SYSTEM_GALILEO (2) -- GALILEO satellite
+ - eQMI_LOC_SV_SYSTEM_SBAS (3) -- SBAS satellite
+ - eQMI_LOC_SV_SYSTEM_COMPASS (4) -- COMPASS satellite
+ - eQMI_LOC_SV_SYSTEM_GLONASS (5) -- GLONASS satellite
+ - eQMI_LOC_SV_SYSTEM_BDS (6) -- BDS satellite
+ */
+
+ qmiLocDeleteSvInfoMaskT_v02 deleteSvInfoMask;
+ /**< Indicates if the ephemeris or almanac for a satellite
+ is to be deleted. \n
+ Valid values: \n
+ - 0x01 -- DELETE_EPHEMERIS \n
+ - 0x02 -- DELETE_ALMANAC
+ */
+}qmiLocDeleteSvInfoStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ uint16_t gnssSvId;
+ /**< SV ID of the satellite whose data is to be deleted. \n
+ Range for BDS: 201 to 237 */
+
+ qmiLocDeleteSvInfoMaskT_v02 deleteSvInfoMask;
+ /**< Indicates if the ephemeris or almanac for a satellite
+ is to be deleted. \n
+ Valid values: \n
+ - QMI_LOC_MASK_DELETE_EPHEMERIS (0x01) -- Delete ephemeris for the satellite
+ - QMI_LOC_MASK_DELETE_ALMANAC (0x02) -- Delete almanac for the satellite
+ */
+}qmiLocDeleteBDSSvInfoStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; This command is used to delete the location engine
+ assistance data */
+typedef struct {
+
+ /* Mandatory */
+ /* Delete All */
+ uint8_t deleteAllFlag;
+ /**< Indicates whether all assistance data is to be deleted.
+
+ Valid values: \begin{itemize1}
+ \item 0x01 (TRUE) -- All assistance data is to be deleted; if
+ this flag is set, all the other information
+ contained in the optional fields for this
+ message are ignored
+ \item 0x00 (FALSE) -- The optional fields in the message are to be
+ used to determine which data is to be deleted
+ \vspace{-0.18in} \end{itemize1} */
+
+ /* Optional */
+ /* Delete SV Info */
+ uint8_t deleteSvInfoList_valid; /**< Must be set to true if deleteSvInfoList is being passed */
+ uint32_t deleteSvInfoList_len; /**< Must be set to # of elements in deleteSvInfoList */
+ qmiLocDeleteSvInfoStructT_v02 deleteSvInfoList[QMI_LOC_DELETE_MAX_SV_INFO_LENGTH_V02];
+ /**< \vspace{0.06in} \n List of satellites for which the assistance data is to be deleted.
+ */
+
+ /* Optional */
+ /* Delete GNSS Data */
+ uint8_t deleteGnssDataMask_valid; /**< Must be set to true if deleteGnssDataMask is being passed */
+ qmiLocDeleteGnssDataMaskT_v02 deleteGnssDataMask;
+ /**< Mask for the GNSS data that is to be deleted.
+
+ Valid values: \n
+ - QMI_LOC_MASK_DELETE_GPS_SVDIR (0x00000001) -- Mask to delete GPS SVDIR
+ - QMI_LOC_MASK_DELETE_GPS_SVSTEER (0x00000002) -- Mask to delete GPS SVSTEER
+ - QMI_LOC_MASK_DELETE_GPS_TIME (0x00000004) -- Mask to delete GPS time
+ - QMI_LOC_MASK_DELETE_GPS_ALM_CORR (0x00000008) -- Mask to delete almanac correlation
+ - QMI_LOC_MASK_DELETE_GLO_SVDIR (0x00000010) -- Mask to delete GLONASS SVDIR
+ - QMI_LOC_MASK_DELETE_GLO_SVSTEER (0x00000020) -- Mask to delete GLONASS SVSTEER
+ - QMI_LOC_MASK_DELETE_GLO_TIME (0x00000040) -- Mask to delete GLONASS time
+ - QMI_LOC_MASK_DELETE_GLO_ALM_CORR (0x00000080) -- Mask to delete GLONASS almanac correlation
+ - QMI_LOC_MASK_DELETE_SBAS_SVDIR (0x00000100) -- Mask to delete SBAS SVDIR
+ - QMI_LOC_MASK_DELETE_SBAS_SVSTEER (0x00000200) -- Mask to delete SBAS SVSTEER
+ - QMI_LOC_MASK_DELETE_POSITION (0x00000400) -- Mask to delete position estimate
+ - QMI_LOC_MASK_DELETE_TIME (0x00000800) -- Mask to delete time estimate
+ - QMI_LOC_MASK_DELETE_IONO (0x00001000) -- Mask to delete IONO
+ - QMI_LOC_MASK_DELETE_UTC (0x00002000) -- Mask to delete UTC estimate
+ - QMI_LOC_MASK_DELETE_HEALTH (0x00004000) -- Mask to delete SV health record
+ - QMI_LOC_MASK_DELETE_SADATA (0x00008000) -- Mask to delete SADATA
+ - QMI_LOC_MASK_DELETE_RTI (0x00010000) -- Mask to delete RTI
+ - QMI_LOC_MASK_DELETE_SV_NO_EXIST (0x00020000) -- Mask to delete SV_NO_EXIST
+ - QMI_LOC_MASK_DELETE_FREQ_BIAS_EST (0x00040000) -- Mask to delete frequency bias estimate
+ - QMI_LOC_MASK_DELETE_BDS_SVDIR (0x00080000) -- Mask to delete BDS SVDIR
+ - QMI_LOC_MASK_DELETE_BDS_SVSTEER (0x00100000) -- Mask to delete BDS SVSTEER
+ - QMI_LOC_MASK_DELETE_BDS_TIME (0x00200000) -- Mask to delete BDS time
+ - QMI_LOC_MASK_DELETE_BDS_ALM_CORR (0x00400000) -- Mask to delete BDS almanac correlation
+ - QMI_LOC_MASK_DELETE_GNSS_SV_BLACKLIST_GPS (0x00800000) -- Mask to delete GNSS SV blacklist GPS
+ - QMI_LOC_MASK_DELETE_GNSS_SV_BLACKLIST_GLO (0x01000000) -- Mask to delete GNSS SV blacklist GLO
+ - QMI_LOC_MASK_DELETE_GNSS_SV_BLACKLIST_BDS (0x02000000) -- Mask to delete GNSS SV blacklist BDS
+ */
+
+ /* Optional */
+ /* Delete Cell Database */
+ uint8_t deleteCellDbDataMask_valid; /**< Must be set to true if deleteCellDbDataMask is being passed */
+ qmiLocDeleteCelldbDataMaskT_v02 deleteCellDbDataMask;
+ /**< Mask for the cell database assistance data that is to be deleted.
+
+ Valid values: \begin{itemize1}
+ \item 0x00000001 -- DELETE_CELLDB_ POS
+ \item 0x00000002 -- DELETE_CELLDB_ LATEST_GPS_POS
+ \item 0x00000004 -- DELETE_CELLDB_ OTA_POS
+ \item 0x00000008 -- DELETE_CELLDB_ EXT_REF_POS
+ \item 0x00000010 -- DELETE_CELLDB_ TIMETAG
+ \item 0x00000020 -- DELETE_CELLDB_ CELLID
+ \item 0x00000040 -- DELETE_CELLDB_ CACHED_CELLID
+ \item 0x00000080 -- DELETE_CELLDB_ LAST_SRV_CELL
+ \item 0x00000100 -- DELETE_CELLDB_ CUR_SRV_CELL
+ \item 0x00000200 -- DELETE_CELLDB_ NEIGHBOR_INFO
+ \vspace{-0.18in} \end{itemize1}
+ */
+
+ /* Optional */
+ /* Delete Clock Info */
+ uint8_t deleteClockInfoMask_valid; /**< Must be set to true if deleteClockInfoMask is being passed */
+ qmiLocDeleteClockInfoMaskT_v02 deleteClockInfoMask;
+ /**< Mask for the clock information assistance data that is to be deleted.
+
+ Valid bitmasks: \n
+ - QMI_LOC_MASK_DELETE_CLOCK_INFO_TIME_EST (0x00000001) -- Mask to delete time estimate from clock information
+ - QMI_LOC_MASK_DELETE_CLOCK_INFO_FREQ_EST (0x00000002) -- Mask to delete frequency estimate from clock information
+ - QMI_LOC_MASK_DELETE_CLOCK_INFO_WEEK_NUMBER (0x00000004) -- Mask to delete week number from clock information
+ - QMI_LOC_MASK_DELETE_CLOCK_INFO_RTC_TIME (0x00000008) -- Mask to delete RTC time from clock information
+ - QMI_LOC_MASK_DELETE_CLOCK_INFO_TIME_TRANSFER (0x00000010) -- Mask to delete time transfer from clock information
+ - QMI_LOC_MASK_DELETE_CLOCK_INFO_GPSTIME_EST (0x00000020) -- Mask to delete GPS time estimate from clock information
+ - QMI_LOC_MASK_DELETE_CLOCK_INFO_GLOTIME_EST (0x00000040) -- Mask to delete GLONASS time estimate from clock information
+ - QMI_LOC_MASK_DELETE_CLOCK_INFO_GLODAY_NUMBER (0x00000080) -- Mask to delete GLONASS day number from clock information
+ - QMI_LOC_MASK_DELETE_CLOCK_INFO_GLO4YEAR_NUMBER (0x00000100) -- Mask to delete GLONASS four year number from clock information
+ - QMI_LOC_MASK_DELETE_CLOCK_INFO_GLO_RF_GRP_DELAY (0x00000200) -- Mask to delete GLONASS RF GRP delay from clock information
+ - QMI_LOC_MASK_DELETE_CLOCK_INFO_DISABLE_TT (0x00000400) -- Mask to delete disable TT from clock information
+ - QMI_LOC_MASK_DELETE_CLOCK_INFO_GG_LEAPSEC (0x00000800) -- Mask to delete a BDS time estimate from the clock information
+ - QMI_LOC_MASK_DELETE_CLOCK_INFO_GG_GGTB (0x00001000) -- Mask to delete a BDS time estimate from the clock information
+ - QMI_LOC_MASK_DELETE_CLOCK_INFO_BDSTIME_EST (0x00002000) -- Mask to delete a BDS time estimate from the clock information
+ - QMI_LOC_MASK_DELETE_CLOCK_INFO_GB_GBTB (0x00004000) -- Mask to delete Glonass-to-BDS time bias-related information from the
+ clock information
+ - QMI_LOC_MASK_DELETE_CLOCK_INFO_BG_BGTB (0x00008000) -- Mask to delete BDS-to-GLONASS time bias-related information from the
+ clock information
+ - QMI_LOC_MASK_DELETE_CLOCK_INFO_BDSWEEK_NUMBER (0x00010000) -- Mask to delete the BDS week number from the clock information
+ - QMI_LOC_MASK_DELETE_CLOCK_INFO_BDS_RF_GRP_DELAY (0x00020000) -- Mask to delete the BDS RF GRP delay from the clock information
+ */
+
+ /* Optional */
+ /* Delete BDS SV Info */
+ uint8_t deleteBdsSvInfoList_valid; /**< Must be set to true if deleteBdsSvInfoList is being passed */
+ uint32_t deleteBdsSvInfoList_len; /**< Must be set to # of elements in deleteBdsSvInfoList */
+ qmiLocDeleteBDSSvInfoStructT_v02 deleteBdsSvInfoList[QMI_LOC_DELETE_MAX_BDS_SV_INFO_LENGTH_V02];
+ /**< \vspace{0.06in} \n List of BDS satellites for which the assistance data is to be deleted.
+ */
+}qmiLocDeleteAssistDataReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; This command is used to delete the location engine
+ assistance data */
+typedef struct {
+
+ /* Mandatory */
+ /* Delete Assist Data Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Delete Assist Data request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+}qmiLocDeleteAssistDataIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Enables/disables XTRA-T session control. */
+typedef struct {
+
+ /* Mandatory */
+ /* Enable XTRA-T */
+ uint8_t xtraTSessionControl;
+ /**< Indicates whether to enable XTRA-T:\n
+ - 0x01 (TRUE) -- Enable XTRA-T \n
+ - 0x00 (FALSE) -- Disable XTRA-T */
+}qmiLocSetXtraTSessionControlReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Enables/disables XTRA-T session control. */
+typedef struct {
+
+ /* Mandatory */
+ /* Set XTRA-T Session Control Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Set XTRA-T Session Control request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+}qmiLocSetXtraTSessionControlIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Gets the XTRA-T session control value from the location
+ engine. */
+typedef struct {
+ /* This element is a placeholder to prevent the declaration of
+ an empty struct. DO NOT USE THIS FIELD UNDER ANY CIRCUMSTANCE */
+ char __placeholder;
+}qmiLocGetXtraTSessionControlReqMsgT_v02;
+
+ /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Gets the XTRA-T session control value from the location
+ engine. */
+typedef struct {
+
+ /* Mandatory */
+ /* Get XTRA-T Session Control Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Get XTRA-T Session Control request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+
+ /* Optional */
+ /* Enable/Disable XTRA-T */
+ uint8_t xtraTSessionControl_valid; /**< Must be set to true if xtraTSessionControl is being passed */
+ uint8_t xtraTSessionControl;
+ /**< Indicates whether to enable XTRA-T:\n
+ - 0x01 (TRUE) -- Enable XTRA-T \n
+ - 0x00 (FALSE) -- Disable XTRA-T */
+}qmiLocGetXtraTSessionControlIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ uint32_t wifiPositionTime;
+ /**< Common counter (typically, the number of milliseconds since bootup).
+ This field is only to be provided if the modem and host processors are
+ synchronized. */
+}qmiLocWifiFixTimeStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCWIFIFIXERRORCODEENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_WIFI_FIX_ERROR_SUCCESS_V02 = 0, /**< Wi-Fi fix is successful. */
+ eQMI_LOC_WIFI_FIX_ERROR_WIFI_NOT_AVAILABLE_V02 = 1, /**< Wi-Fi fix failed because Wi-Fi is not available on the device. */
+ eQMI_LOC_WIFI_FIX_ERROR_NO_AP_FOUND_V02 = 2, /**< Wi-Fi fix failed because no access points were found. */
+ eQMI_LOC_WIFI_FIX_ERROR_UNAUTHORIZED_V02 = 3, /**< Wi-Fi fix failed because the server denied access due to bad authorization
+ code. */
+ eQMI_LOC_WIFI_FIX_ERROR_SERVER_UNAVAILABLE_V02 = 4, /**< Wi-Fi fix failed because the Wi-Fi server was unavailable. */
+ eQMI_LOC_WIFI_FIX_ERROR_LOCATION_CANNOT_BE_DETERMINED_V02 = 5, /**< Wi-Fi fix failed even though APs were found and the server could be reached.
+ This may be because the APs found are not in the database. */
+ eQMI_LOC_WIFI_FIX_ERROR_UNKNOWN_V02 = 6, /**< Wi-Fi fix failed, but the cause could not be determined. */
+ QMILOCWIFIFIXERRORCODEENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocWifiFixErrorCodeEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ double lat;
+ /**< Wi-Fi position latitude. \n
+ - Type: Floating point \n
+ - Units: Degrees */
+
+ double lon;
+ /**< Wi-Fi position longitude. \n
+ - Type: Floating point \n
+ - Units: Degrees */
+
+ uint16_t hepe;
+ /**< Wi-Fi position HEPE.\n
+ - Units: Meters */
+
+ uint8_t numApsUsed;
+ /**< Number of Access Points (AP) used to generate a fix. */
+
+ qmiLocWifiFixErrorCodeEnumT_v02 fixErrorCode;
+ /**< Wi-Fi position error code; set to 0 if the fix succeeds. This position
+ is only used by a module if the value is 0. If there was a failure,
+ the error code provided by the Wi-Fi positioning system can be provided
+ here.
+
+ Valid values: \n
+ - eQMI_LOC_WIFI_FIX_ERROR_SUCCESS (0) -- Wi-Fi fix is successful.
+ - eQMI_LOC_WIFI_FIX_ERROR_WIFI_NOT_AVAILABLE (1) -- Wi-Fi fix failed because Wi-Fi is not available on the device.
+ - eQMI_LOC_WIFI_FIX_ERROR_NO_AP_FOUND (2) -- Wi-Fi fix failed because no access points were found.
+ - eQMI_LOC_WIFI_FIX_ERROR_UNAUTHORIZED (3) -- Wi-Fi fix failed because the server denied access due to bad authorization
+ code.
+ - eQMI_LOC_WIFI_FIX_ERROR_SERVER_UNAVAILABLE (4) -- Wi-Fi fix failed because the Wi-Fi server was unavailable.
+ - eQMI_LOC_WIFI_FIX_ERROR_LOCATION_CANNOT_BE_DETERMINED (5) -- Wi-Fi fix failed even though APs were found and the server could be reached.
+ This may be because the APs found are not in the database.
+ - eQMI_LOC_WIFI_FIX_ERROR_UNKNOWN (6) -- Wi-Fi fix failed, but the cause could not be determined.
+ */
+}qmiLocWifiFixPosStructT_v02; /* Type */
+/**
+ @}
+ */
+
+typedef uint8_t qmiLocWifiApQualifierMaskT_v02;
+#define QMI_LOC_WIFI_AP_QUALIFIER_BEING_USED_V02 ((qmiLocWifiApQualifierMaskT_v02)0x01) /**< Access point is being used by the WPS. */
+#define QMI_LOC_WIFI_AP_QUALIFIER_HIDDEN_SSID_V02 ((qmiLocWifiApQualifierMaskT_v02)0x02) /**< AP does not broadcast SSID. */
+#define QMI_LOC_WIFI_AP_QUALIFIER_PRIVATE_V02 ((qmiLocWifiApQualifierMaskT_v02)0x04) /**< AP has encryption turned on. */
+#define QMI_LOC_WIFI_AP_QUALIFIER_INFRASTRUCTURE_MODE_V02 ((qmiLocWifiApQualifierMaskT_v02)0x08) /**< AP is in infrastructure mode and not in ad-hoc/unknown mode. */
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ uint8_t macAddr[QMI_LOC_WIFI_MAC_ADDR_LENGTH_V02];
+ /**< Associated MAC address of the AP. \n
+ - Type: Array of unsigned integers \n
+ - Address length: 6
+ */
+
+ int32_t rssi;
+ /**< Receive signal strength indicator.\n
+ - Units: dBm (offset with +100 dB) */
+
+ uint16_t channel;
+ /**< Wi-Fi channel on which a beacon was received. */
+
+ qmiLocWifiApQualifierMaskT_v02 apQualifier;
+ /**< A bitmask of Boolean qualifiers for APs.
+ All unused bits in this mask must be set to 0.
+
+ Valid values: \n
+ - 0x01 -- BEING_USED \n
+ - 0x02 -- HIDDEN_SSID \n
+ - 0x04 -- PRIVATE \n
+ - 0x08 -- INFRASTRUCTURE_MODE
+ */
+}qmiLocWifiApInfoStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ char ssid[QMI_LOC_MAX_WIFI_AP_SSID_STR_LENGTH_V02 + 1];
+ /**< NULL-terminated SSID string of the Wi-Fi AP. Its maximum length according to the ASCII standard is 32 octets. */
+}qmiLocWifiApSsidStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Injects the Wi-Fi position. */
+typedef struct {
+
+ /* Optional */
+ /* Wi-Fi Fix Time */
+ uint8_t wifiFixTime_valid; /**< Must be set to true if wifiFixTime is being passed */
+ qmiLocWifiFixTimeStructT_v02 wifiFixTime;
+ /**< \vspace{0.06in} \n Time of Wi-Fi position fix. */
+
+ /* Optional */
+ /* Wi-Fi Position */
+ uint8_t wifiFixPosition_valid; /**< Must be set to true if wifiFixPosition is being passed */
+ qmiLocWifiFixPosStructT_v02 wifiFixPosition;
+ /**< \vspace{0.06in} \n Wi-Fi position fix. */
+
+ /* Optional */
+ /* Wi-Fi Access Point Information */
+ uint8_t apInfo_valid; /**< Must be set to true if apInfo is being passed */
+ uint32_t apInfo_len; /**< Must be set to # of elements in apInfo */
+ qmiLocWifiApInfoStructT_v02 apInfo[QMI_LOC_WIFI_MAX_REPORTED_APS_PER_MSG_V02];
+ /**< \vspace{0.06in} \n AP scan list.
+ SSID of the Wi-Fi AP.
+ The ordering of the Wi-Fi AP SSID list should matchthe Wi-Fi AP MAC address list if both are provided,
+ i.e., the first element of the Wi-Fi AP SSID list must be the SSID of the AP whose MAC
+ address is in the first element in the Wi-Fi AP Info MAC Address, and so on. */
+
+ /* Optional */
+ /* Horizontal Reliability */
+ uint8_t horizontalReliability_valid; /**< Must be set to true if horizontalReliability is being passed */
+ qmiLocReliabilityEnumT_v02 horizontalReliability;
+ /**< Specifies the reliability of the horizontal position.
+
+ Valid values: \n
+ - eQMI_LOC_RELIABILITY_NOT_SET (0) -- Location reliability is not set
+ - eQMI_LOC_RELIABILITY_VERY_LOW (1) -- Location reliability is very low; use it at your own risk
+ - eQMI_LOC_RELIABILITY_LOW (2) -- Location reliability is low; little or no cross-checking is possible
+ - eQMI_LOC_RELIABILITY_MEDIUM (3) -- Location reliability is medium; limited cross-check passed
+ - eQMI_LOC_RELIABILITY_HIGH (4) -- Location reliability is high; strong cross-check passed
+ */
+
+ /* Optional */
+ /* Raw HEPE */
+ uint8_t rawHepe_valid; /**< Must be set to true if rawHepe is being passed */
+ uint16_t rawHepe;
+ /**< Wi-Fi position raw HEPE, which has no optimization.\n
+ - Units: Meters */
+
+ /* Optional */
+ /* Wi-Fi AP SSID String */
+ uint8_t wifiApSsidInfo_valid; /**< Must be set to true if wifiApSsidInfo is being passed */
+ uint32_t wifiApSsidInfo_len; /**< Must be set to # of elements in wifiApSsidInfo */
+ qmiLocWifiApSsidStructT_v02 wifiApSsidInfo[QMI_LOC_WIFI_MAX_REPORTED_APS_PER_MSG_V02];
+ /**< \vspace{0.04in} \n
+ The ordering of the Wi-Fi AP SSID list should match the Wi-Fi AP MAC address list if both are provided,
+ i.e., the first element of the Wi-Fi AP SSID list must be the SSID of the AP whose MAC
+ address is in the first element in the Wi-Fi AP Info MAC address, and so on.*/
+}qmiLocInjectWifiPositionReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Injects the Wi-Fi position. */
+typedef struct {
+
+ /* Mandatory */
+ /* Inject Wi-Fi Position Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Inject Wi-Fi Position request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+}qmiLocInjectWifiPositionIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCWIFISTATUSENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_WIFI_STATUS_AVAILABLE_V02 = 1, /**< Wi-Fi is available */
+ eQMI_LOC_WIFI_STATUS_UNAVAILABLE_V02 = 2, /**< Wi-Fi is not available */
+ QMILOCWIFISTATUSENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocWifiStatusEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Notifies the location engine of the Wi-Fi status. */
+typedef struct {
+
+ /* Mandatory */
+ /* Availablility of Wi-Fi */
+ qmiLocWifiStatusEnumT_v02 wifiStatus;
+ /**< Wi-Fi status information.
+
+ Valid values: \n
+ - eQMI_LOC_WIFI_STATUS_AVAILABLE (1) -- Wi-Fi is available
+ - eQMI_LOC_WIFI_STATUS_UNAVAILABLE (2) -- Wi-Fi is not available
+ */
+}qmiLocNotifyWifiStatusReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Notifies the location engine of the Wi-Fi status. */
+typedef struct {
+
+ /* Mandatory */
+ /* Status of Notify Wi-Fi Status Request */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Notify Wi-Fi Status request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+}qmiLocNotifyWifiStatusIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Gets the mask of the events for which a client has
+ registered. */
+typedef struct {
+ /* This element is a placeholder to prevent the declaration of
+ an empty struct. DO NOT USE THIS FIELD UNDER ANY CIRCUMSTANCE */
+ char __placeholder;
+}qmiLocGetRegisteredEventsReqMsgT_v02;
+
+ /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Gets the mask of the events for which a client has
+ registered. */
+typedef struct {
+
+ /* Mandatory */
+ /* Get Registered Events Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Get Registered Events request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+
+ /* Optional */
+ /* Event Registration Mask */
+ uint8_t eventRegMask_valid; /**< Must be set to true if eventRegMask is being passed */
+ qmiLocEventRegMaskT_v02 eventRegMask;
+ /**< Event registration mask.
+ Valid bitmasks: \n
+ - QMI_LOC_EVENT_MASK_POSITION_REPORT (0x00000001) -- The control point must enable this mask to receive position report
+ event indications.
+ - QMI_LOC_EVENT_MASK_GNSS_SV_INFO (0x00000002) -- The control point must enable this mask to receive satellite report
+ event indications. These reports are sent at a 1 Hz rate.
+ - QMI_LOC_EVENT_MASK_NMEA (0x00000004) -- The control point must enable this mask to receive NMEA reports for
+ position and satellites in view. The report is at a 1 Hz rate.
+ - QMI_LOC_EVENT_MASK_NI_NOTIFY_VERIFY_REQ (0x00000008) -- The control point must enable this mask to receive NI Notify/Verify request
+ event indications.
+ - QMI_LOC_EVENT_MASK_INJECT_TIME_REQ (0x00000010) -- The control point must enable this mask to receive time injection request
+ event indications.
+ - QMI_LOC_EVENT_MASK_INJECT_PREDICTED_ORBITS_REQ (0x00000020) -- The control point must enable this mask to receive predicted orbits request
+ event indications.
+ - QMI_LOC_EVENT_MASK_INJECT_POSITION_REQ (0x00000040) -- The control point must enable this mask to receive position injection request
+ event indications.
+ - QMI_LOC_EVENT_MASK_ENGINE_STATE (0x00000080) -- The control point must enable this mask to receive engine state report
+ event indications.
+ - QMI_LOC_EVENT_MASK_FIX_SESSION_STATE (0x00000100) -- The control point must enable this mask to receive fix session status report
+ event indications.
+ - QMI_LOC_EVENT_MASK_WIFI_REQ (0x00000200) -- The control point must enable this mask to receive Wi-Fi position request
+ event indications.
+ - QMI_LOC_EVENT_MASK_SENSOR_STREAMING_READY_STATUS (0x00000400) -- The control point must enable this mask to receive notifications from the
+ location engine indicating its readiness to accept data from the
+ sensors (accelerometer, gyroscope, etc.).
+ - QMI_LOC_EVENT_MASK_TIME_SYNC_REQ (0x00000800) -- The control point must enable this mask to receive time sync requests
+ from the GPS engine. Time sync enables the GPS engine to synchronize
+ its clock with the sensor processor's clock.
+ - QMI_LOC_EVENT_MASK_SET_SPI_STREAMING_REPORT (0x00001000) -- The control point must enable this mask to receive Stationary Position
+ Indicator (SPI) streaming report indications.
+ - QMI_LOC_EVENT_MASK_LOCATION_SERVER_CONNECTION_REQ (0x00002000) -- The control point must enable this mask to receive location server
+ requests. These requests are generated when the service wishes to
+ establish a connection with a location server.
+ - QMI_LOC_EVENT_MASK_NI_GEOFENCE_NOTIFICATION (0x00004000) -- The control point must enable this mask to receive notifications
+ related to network-initiated Geofences. These events notify the client
+ when a network-initiated Geofence is added, deleted, or edited.
+ - QMI_LOC_EVENT_MASK_GEOFENCE_GEN_ALERT (0x00008000) -- The control point must enable this mask to receive Geofence alerts.
+ These alerts are generated to inform the client of the changes that may
+ affect a Geofence, e.g., if GPS is turned off or if the network is
+ unavailable.
+ - QMI_LOC_EVENT_MASK_GEOFENCE_BREACH_NOTIFICATION (0x00010000) -- The control point must enable this mask to receive notifications when
+ a Geofence is breached. These events are generated when a UE enters
+ or leaves the perimeter of a Geofence. This breach report is for a single
+ Geofence .
+ - QMI_LOC_EVENT_MASK_PEDOMETER_CONTROL (0x00020000) -- The control point must enable this mask to register for pedometer
+ control requests from the location engine. The location engine sends
+ this event to control the injection of pedometer reports.
+ - QMI_LOC_EVENT_MASK_MOTION_DATA_CONTROL (0x00040000) -- The control point must enable this mask to register for motion data
+ control requests from the location engine. The location engine sends
+ this event to control the injection of motion data.
+ - QMI_LOC_EVENT_MASK_BATCH_FULL_NOTIFICATION (0x00080000) -- The control point must enable this mask to receive notification when
+ a batch is full. The location engine sends this event to notify of Batch Full
+ for ongoing batching session.
+ - QMI_LOC_EVENT_MASK_LIVE_BATCHED_POSITION_REPORT (0x00100000) -- The control point must enable this mask to receive position report
+ indications along with an ongoing batching session. The location engine sends
+ this event to notify the batched position report while a batching session
+ is ongoing.
+ - QMI_LOC_EVENT_MASK_INJECT_WIFI_AP_DATA_REQ (0x00200000) -- The control point must enable this mask to receive Wi-Fi AP data inject request
+ event indications.
+ - QMI_LOC_EVENT_MASK_GEOFENCE_BATCH_BREACH_NOTIFICATION (0x00400000) -- The control point must enable this mask to receive notifications when
+ a Geofence is breached. These events are generated when a UE enters
+ or leaves the perimeter of a Geofence. This breach notification is for
+ multiple Geofences. Breaches from multiple Geofences are all batched and
+ sent in the same notification .
+ - QMI_LOC_EVENT_MASK_VEHICLE_DATA_READY_STATUS (0x00800000) -- The control point must enable this mask to receive notifications from the
+ location engine indicating its readiness to accept vehicle data (vehicle
+ accelerometer, vehicle angular rate, vehicle odometry, etc.).
+ - QMI_LOC_EVENT_MASK_GNSS_MEASUREMENT_REPORT (0x01000000) -- The control point must enable this mask to receive system clock and satellite
+ measurement report events (system clock, SV time, Doppler, etc.). Reports are
+ generated only for the GNSS satellite constellations that are enabled using
+ QMI_LOC_SET_GNSS_CONSTELL_REPORT_CONFIG.
+ - QMI_LOC_EVENT_MASK_GNSS_SV_POLYNOMIAL_REPORT (0x02000000) -- The control point must enable this mask to receive satellite position
+ reports as polynomials. Reports are generated only for the GNSS satellite
+ constellations that are enabled using QMI_LOC_SET_GNSS_CONSTELL_REPORT_CONFIG.
+ - QMI_LOC_EVENT_MASK_GEOFENCE_PROXIMITY_NOTIFICATION (0x04000000) -- The control point must enable this mask to receive notifications when a Geofence proximity is entered
+ and exited. The proximity of a geofence may be due to different contexts . These contexts are identified
+ using the context id in this indication. The context of a geofence may contain Wifi area ID lists, IBeacon lists,
+ Cell-Id list etc.
+ - QMI_LOC_EVENT_MASK_GDT_UPLOAD_BEGIN_REQ (0x08000000) -- The control point must enable this mask to receive GDT (Generic Data Transport )
+ session begin request event indications.
+ - QMI_LOC_EVENT_MASK_GDT_UPLOAD_END_REQ (0x10000000) -- The control point must enable this mask to receive GDT (Generic Data Transport )
+ session end request
+ event indications.
+ */
+}qmiLocGetRegisteredEventsIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCOPERATIONMODEENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_OPER_MODE_DEFAULT_V02 = 1, /**< Use the default engine mode */
+ eQMI_LOC_OPER_MODE_MSB_V02 = 2, /**< Use the MS-based mode */
+ eQMI_LOC_OPER_MODE_MSA_V02 = 3, /**< Use the MS-assisted mode */
+ eQMI_LOC_OPER_MODE_STANDALONE_V02 = 4, /**< Use Standalone mode */
+ eQMI_LOC_OPER_MODE_CELL_ID_V02 = 5, /**< Use cell ID; this mode is only valid for GSM/UMTS networks */
+ eQMI_LOC_OPER_MODE_WWAN_V02 = 6, /**< Use WWAN measurements to calculate the position; if this mode is
+ set, AFLT will be used for 1X networks and OTDOA will be used
+ for LTE networks */
+ QMILOCOPERATIONMODEENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocOperationModeEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Tells the engine to use the specified operation mode while
+ making the position fixes. */
+typedef struct {
+
+ /* Mandatory */
+ /* Operation Mode */
+ qmiLocOperationModeEnumT_v02 operationMode;
+ /**< Preferred operation mode.
+
+ Valid values: \n
+ - eQMI_LOC_OPER_MODE_DEFAULT (1) -- Use the default engine mode
+ - eQMI_LOC_OPER_MODE_MSB (2) -- Use the MS-based mode
+ - eQMI_LOC_OPER_MODE_MSA (3) -- Use the MS-assisted mode
+ - eQMI_LOC_OPER_MODE_STANDALONE (4) -- Use Standalone mode
+ - eQMI_LOC_OPER_MODE_CELL_ID (5) -- Use cell ID; this mode is only valid for GSM/UMTS networks
+ - eQMI_LOC_OPER_MODE_WWAN (6) -- Use WWAN measurements to calculate the position; if this mode is
+ set, AFLT will be used for 1X networks and OTDOA will be used
+ for LTE networks
+ */
+}qmiLocSetOperationModeReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Tells the engine to use the specified operation mode while
+ making the position fixes. */
+typedef struct {
+
+ /* Mandatory */
+ /* Set Operation Mode Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Set Operation Mode request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+}qmiLocSetOperationModeIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Gets the current operation mode from the engine. */
+typedef struct {
+ /* This element is a placeholder to prevent the declaration of
+ an empty struct. DO NOT USE THIS FIELD UNDER ANY CIRCUMSTANCE */
+ char __placeholder;
+}qmiLocGetOperationModeReqMsgT_v02;
+
+ /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Gets the current operation mode from the engine. */
+typedef struct {
+
+ /* Mandatory */
+ /* Get Operation Mode Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Get Operation Mode request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+
+ /* Optional */
+ /* Operation Mode */
+ uint8_t operationMode_valid; /**< Must be set to true if operationMode is being passed */
+ qmiLocOperationModeEnumT_v02 operationMode;
+ /**< Current operation mode.
+
+ Valid values: \n
+ - eQMI_LOC_OPER_MODE_DEFAULT (1) -- Use the default engine mode
+ - eQMI_LOC_OPER_MODE_MSB (2) -- Use the MS-based mode
+ - eQMI_LOC_OPER_MODE_MSA (3) -- Use the MS-assisted mode
+ - eQMI_LOC_OPER_MODE_STANDALONE (4) -- Use Standalone mode
+ - eQMI_LOC_OPER_MODE_CELL_ID (5) -- Use cell ID; this mode is only valid for GSM/UMTS networks
+ - eQMI_LOC_OPER_MODE_WWAN (6) -- Use WWAN measurements to calculate the position; if this mode is
+ set, AFLT will be used for 1X networks and OTDOA will be used
+ for LTE networks
+ */
+}qmiLocGetOperationModeIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Used by the control point to set the SPI status, which
+ indicates whether the device is stationary. */
+typedef struct {
+
+ /* Mandatory */
+ /* Stationary Status */
+ uint8_t stationary;
+ /**< Indicates whether the device is stationary:
+ \begin{itemize1}
+ \item 0x00 (FALSE) -- Device is not stationary
+ \item 0x01 (TRUE) -- Device is stationary
+ \vspace{-0.18in} \end{itemize1}*/
+
+ /* Optional */
+ /* Confidence */
+ uint8_t confidenceStationary_valid; /**< Must be set to true if confidenceStationary is being passed */
+ uint8_t confidenceStationary;
+ /**< Confidence in the Stationary state expressed as a percentage.\n
+ - Range: 0 to 100 */
+}qmiLocSetSpiStatusReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Used by the control point to set the SPI status, which
+ indicates whether the device is stationary. */
+typedef struct {
+
+ /* Mandatory */
+ /* Status of SPI Status Request */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the SPI Status request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+}qmiLocSetSpiStatusIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+typedef uint8_t qmiLocSensorDataFlagMaskT_v02;
+#define QMI_LOC_SENSOR_DATA_FLAG_SIGN_REVERSAL_V02 ((qmiLocSensorDataFlagMaskT_v02)0x01) /**< Bitmask to specify that a sign reversal is required while interpreting
+ the sensor data; only applies to the accelerometer samples */
+#define QMI_LOC_SENSOR_DATA_FLAG_SENSOR_TIME_IS_MODEM_TIME_V02 ((qmiLocSensorDataFlagMaskT_v02)0x02) /**< Bitmask to specify that the sensor time stamp is the same as the modem
+ time stamp */
+#define QMI_LOC_SENSOR_DATA_FLAG_CALIBRATED_DATA_V02 ((qmiLocSensorDataFlagMaskT_v02)0x04) /**< Bitmask to specify that the injected sensor data is calibrated */
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCSENSORDATATIMESOURCEENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_SENSOR_TIME_SOURCE_UNSPECIFIED_V02 = 0, /**< Sensor time source is unspecified */
+ eQMI_LOC_SENSOR_TIME_SOURCE_COMMON_V02 = 1, /**< Time source is common between the sensors and
+ the location engine */
+ QMILOCSENSORDATATIMESOURCEENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocSensorDataTimeSourceEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ uint16_t timeOffset;
+ /**< Sample time offset. This time offset must be
+ relative to the timestamp of the first sensor data sample.\n
+ - Units: Milliseconds */
+
+ float xAxis;
+ /**< Sensor x-axis sample. \n
+ - Units Accelerometer: Meters/seconds^2 \n
+ - Units Gyroscope: Radians/second \n
+ - Units Magnetometer: microTesla */
+
+ float yAxis;
+ /**< Sensor y-axis sample. \n
+ - Units Accelerometer: Meters/seconds^2 \n
+ - Units Gyroscope: Radians/second \n
+ - Units Magnetometer: microTesla */
+
+ float zAxis;
+ /**< Sensor z-axis sample. \n
+ - Units Accelerometer: Meters/seconds^2 ) \n
+ - Units Gyroscope: Radians/second \n
+ - Units Magnetometer: microTesla */
+}qmiLoc3AxisSensorSampleStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ uint32_t timeOfFirstSample;
+ /**< Denotes a full 32-bit timestamp of the first (oldest) sample in this
+ message.The timestamp is in the time reference scale that is
+ used by the sensor time source.\n
+ - Units: Milliseconds */
+
+ qmiLocSensorDataFlagMaskT_v02 flags;
+ /**< Flags to indicate any deviation from the default measurement
+ assumptions. All unused bits in this field must be set to 0.
+
+ Valid bitmasks:
+ - QMI_LOC_SENSOR_DATA_FLAG_SIGN_REVERSAL (0x01) -- Bitmask to specify that a sign reversal is required while interpreting
+ the sensor data; only applies to the accelerometer samples
+ - QMI_LOC_SENSOR_DATA_FLAG_SENSOR_TIME_IS_MODEM_TIME (0x02) -- Bitmask to specify that the sensor time stamp is the same as the modem
+ time stamp
+ - QMI_LOC_SENSOR_DATA_FLAG_CALIBRATED_DATA (0x04) -- Bitmask to specify that the injected sensor data is calibrated */
+
+ uint32_t sensorData_len; /**< Must be set to # of elements in sensorData */
+ qmiLoc3AxisSensorSampleStructT_v02 sensorData[QMI_LOC_SENSOR_DATA_MAX_SAMPLES_V02];
+ /**< Variable length array to specify sensor samples. \n
+ - Maximum length of the array: 50 */
+}qmiLoc3AxisSensorSampleListStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ uint16_t timeOffset;
+ /**< Sample time offset. This time offset must be
+ relative to the timestamp of the first sensor sample.\n
+ - Units: Milliseconds */
+
+ float temperature;
+ /**< Sensor temperature. \n
+ - Type: Floating point \n
+ - Units: Degrees Celsius \n
+ - Range: -50 to +100.00 */
+}qmiLocSensorTemperatureSampleStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ qmiLocSensorDataTimeSourceEnumT_v02 timeSource;
+ /**< Denotes the time source of the sensor data. Location service will use
+ this field to identify the time reference used in the
+ sensor data timestamps.
+
+ Valid values: \n
+ - eQMI_LOC_SENSOR_TIME_SOURCE_UNSPECIFIED (0) -- Sensor time source is unspecified
+ - eQMI_LOC_SENSOR_TIME_SOURCE_COMMON (1) -- Time source is common between the sensors and
+ the location engine
+ */
+
+ uint32_t timeOfFirstSample;
+ /**< Denotes a full 32-bit timestamp of the first (oldest) sample in this
+ message. The timestamp is in the time reference scale that is
+ used by the sensor time source.\n
+ - Units: Milliseconds */
+
+ uint32_t temperatureData_len; /**< Must be set to # of elements in temperatureData */
+ qmiLocSensorTemperatureSampleStructT_v02 temperatureData[QMI_LOC_SENSOR_DATA_MAX_SAMPLES_V02];
+ /**< Variable length array to specify sensor temperature samples. \n
+ - Maximum length of the array: 50 */
+}qmiLocSensorTemperatureSampleListStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Used by the control point to inject sensor data into the
+ GNSS location engine. */
+typedef struct {
+
+ /* Optional */
+ /* Opaque Identifier */
+ uint8_t opaqueIdentifier_valid; /**< Must be set to true if opaqueIdentifier is being passed */
+ uint32_t opaqueIdentifier;
+ /**< An opaque identifier that is sent in by the client that will be echoed
+ in the indication so the client can relate the indication to the
+ request. */
+
+ /* Optional */
+ /* 3-Axis Accelerometer Data */
+ uint8_t threeAxisAccelData_valid; /**< Must be set to true if threeAxisAccelData is being passed */
+ qmiLoc3AxisSensorSampleListStructT_v02 threeAxisAccelData;
+ /**< \vspace{0.06in} \n Accelerometer sensor samples. */
+
+ /* Optional */
+ /* 3-Axis Gyroscope Data */
+ uint8_t threeAxisGyroData_valid; /**< Must be set to true if threeAxisGyroData is being passed */
+ qmiLoc3AxisSensorSampleListStructT_v02 threeAxisGyroData;
+ /**< \vspace{0.06in} \n Gyroscope sensor samples. */
+
+ /* Optional */
+ /* 3-Axis Accelerometer Data Time Source */
+ uint8_t threeAxisAccelDataTimeSource_valid; /**< Must be set to true if threeAxisAccelDataTimeSource is being passed */
+ qmiLocSensorDataTimeSourceEnumT_v02 threeAxisAccelDataTimeSource;
+ /**< Time source for the 3-axis accelerometer data. The location service uses
+ this field to identify the time reference used in the accelerometer data
+ timestamps. If not specified, the location service assumes that the
+ time source for the accelereometer data is unknown. \n
+ Values: \n
+ - eQMI_LOC_SENSOR_TIME_SOURCE_UNSPECIFIED (0) -- Sensor time source is unspecified
+ - eQMI_LOC_SENSOR_TIME_SOURCE_COMMON (1) -- Time source is common between the sensors and
+ the location engine
+ */
+
+ /* Optional */
+ /* 3-Axis Gyroscope Data Time Source */
+ uint8_t threeAxisGyroDataTimeSource_valid; /**< Must be set to true if threeAxisGyroDataTimeSource is being passed */
+ qmiLocSensorDataTimeSourceEnumT_v02 threeAxisGyroDataTimeSource;
+ /**< Time source for the 3-axis gyroscope data. The location service uses
+ this field to identify the time reference used in the gyroscope data
+ timestamps. If not specified, the location service assumes that the
+ time source for the gyroscope data is unknown. \n
+ Values: \n
+ - eQMI_LOC_SENSOR_TIME_SOURCE_UNSPECIFIED (0) -- Sensor time source is unspecified
+ - eQMI_LOC_SENSOR_TIME_SOURCE_COMMON (1) -- Time source is common between the sensors and
+ the location engine
+ */
+
+ /* Optional */
+ /* Accelerometer Temperature Data */
+ uint8_t accelTemperatureData_valid; /**< Must be set to true if accelTemperatureData is being passed */
+ qmiLocSensorTemperatureSampleListStructT_v02 accelTemperatureData;
+ /**< \vspace{0.06in} \nAccelerometer temperature samples. This data is optional and does not
+ have to be included in the message along with accelerometer data. */
+
+ /* Optional */
+ /* Gyroscope Temperature Data */
+ uint8_t gyroTemperatureData_valid; /**< Must be set to true if gyroTemperatureData is being passed */
+ qmiLocSensorTemperatureSampleListStructT_v02 gyroTemperatureData;
+ /**< \vspace{0.06in} \n Gyroscope temperature samples. This data is optional and does not
+ have to be included in the message along with gyroscope data. */
+
+ /* Optional */
+ /* 3-Axis Magnetometer Data */
+ uint8_t threeAxisMagData_valid; /**< Must be set to true if threeAxisMagData is being passed */
+ qmiLoc3AxisSensorSampleListStructT_v02 threeAxisMagData;
+ /**< \vspace{0.06in} \n Magnetometer sensor samples. */
+
+ /* Optional */
+ /* 3-Axis Magnetometer Data Time Source */
+ uint8_t threeAxisMagDataTimeSource_valid; /**< Must be set to true if threeAxisMagDataTimeSource is being passed */
+ qmiLocSensorDataTimeSourceEnumT_v02 threeAxisMagDataTimeSource;
+ /**< Time source for the 3-axis magnetometer data. The location service uses
+ this field to identify the time reference used in the magnetometer data
+ timestamps. If not specified, the location service assumes that the
+ time source for the magnetometer data is unknown. \n
+ Values: \n
+ - eQMI_LOC_SENSOR_TIME_SOURCE_UNSPECIFIED (0) -- Sensor time source is unspecified
+ - eQMI_LOC_SENSOR_TIME_SOURCE_COMMON (1) -- Time source is common between the sensors and
+ the location engine
+ */
+}qmiLocInjectSensorDataReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Used by the control point to inject sensor data into the
+ GNSS location engine. */
+typedef struct {
+
+ /* Mandatory */
+ /* Inject Sensor Data Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Inject Sensor Data request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+
+ /* Optional */
+ /* Opaque Identifier */
+ uint8_t opaqueIdentifier_valid; /**< Must be set to true if opaqueIdentifier is being passed */
+ uint32_t opaqueIdentifier;
+ /**< Opaque identifier that was sent in by the client echoed
+ so the client can relate the indication to the request. */
+
+ /* Optional */
+ /* Accelerometer Samples Accepted */
+ uint8_t threeAxisAccelSamplesAccepted_valid; /**< Must be set to true if threeAxisAccelSamplesAccepted is being passed */
+ uint8_t threeAxisAccelSamplesAccepted;
+ /**< Lets the client know how many 3-axis accelerometer samples
+ were accepted. This field is present only if the accelerometer
+ samples were sent in the request. */
+
+ /* Optional */
+ /* Gyroscope Samples Accepted */
+ uint8_t threeAxisGyroSamplesAccepted_valid; /**< Must be set to true if threeAxisGyroSamplesAccepted is being passed */
+ uint8_t threeAxisGyroSamplesAccepted;
+ /**< Lets the client know how many 3-axis gyroscope samples were
+ accepted. This field is present only if the gyroscope
+ samples were sent in the request. */
+
+ /* Optional */
+ /* Accelerometer Temperature Samples Accepted */
+ uint8_t accelTemperatureSamplesAccepted_valid; /**< Must be set to true if accelTemperatureSamplesAccepted is being passed */
+ uint8_t accelTemperatureSamplesAccepted;
+ /**< Lets the client know how many accelerometer temperature
+ samples were accepted. This field is present only if the accelerometer
+ temperature samples were sent in the request. */
+
+ /* Optional */
+ /* Gyroscope Temperature Samples Accepted */
+ uint8_t gyroTemperatureSamplesAccepted_valid; /**< Must be set to true if gyroTemperatureSamplesAccepted is being passed */
+ uint8_t gyroTemperatureSamplesAccepted;
+ /**< Lets the client know how many gyroscope temperature samples
+ were accepted. This field is present only if the gyroscope
+ temperature samples were sent in the request. */
+
+ /* Optional */
+ /* Magnetometer Samples Accepted */
+ uint8_t threeAxisMagSamplesAccepted_valid; /**< Must be set to true if threeAxisMagSamplesAccepted is being passed */
+ uint8_t threeAxisMagSamplesAccepted;
+ /**< Lets the client know how many 3-axis magnetometer samples
+ were accepted. This field is present only if the magnetometer
+ samples were sent in the request. */
+}qmiLocInjectSensorDataIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Used by the control point to inject time sync data. */
+typedef struct {
+
+ /* Mandatory */
+ /* Reference Time Sync Counter */
+ uint32_t refCounter;
+ /**< Must be set to the value that was sent to the control point when the
+ GNSS location engine requested time sync injection. */
+
+ /* Mandatory */
+ /* Sensor Receive Time */
+ uint32_t sensorProcRxTime;
+ /**< Value of the sensor time when the control point received the
+ Time Sync Inject request from the GNSS location engine.
+
+ Must be monotonically increasing, jitter @latexonly $\leq$ @endlatexonly 1
+ millisecond, never stopping until the process is rebooted.\n
+ - Units: Milliseconds */
+
+ /* Mandatory */
+ /* Sensor Transmit Time */
+ uint32_t sensorProcTxTime;
+ /**< Value of the sensor time when the control point injects this message
+ for use by the GNSS location engine.
+
+ Must be monotonically increasing, jitter @latexonly $\leq$ @endlatexonly 1
+ millisecond, never stopping until the process is rebooted.\n
+ - Units: Milliseconds */
+}qmiLocInjectTimeSyncDataReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Used by the control point to inject time sync data. */
+typedef struct {
+
+ /* Mandatory */
+ /* Inject Time Sync Data Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Inject Time Sync Data request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+}qmiLocInjectTimeSyncDataIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCCRADLEMOUNTSTATEENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_CRADLE_STATE_NOT_MOUNTED_V02 = 0, /**< Device is mounted on the cradle */
+ eQMI_LOC_CRADLE_STATE_MOUNTED_V02 = 1, /**< Device is not mounted on the cradle */
+ eQMI_LOC_CRADLE_STATE_UNKNOWN_V02 = 2, /**< Unknown cradle mount state */
+ QMILOCCRADLEMOUNTSTATEENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocCradleMountStateEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Used by the control point to get the current
+ cradle mount configuration. */
+typedef struct {
+ /* This element is a placeholder to prevent the declaration of
+ an empty struct. DO NOT USE THIS FIELD UNDER ANY CIRCUMSTANCE */
+ char __placeholder;
+}qmiLocGetCradleMountConfigReqMsgT_v02;
+
+ /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Used by the control point to get the current
+ cradle mount configuration. */
+typedef struct {
+
+ /* Mandatory */
+ /* Get Cradle Mount Config Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Get Cradle Mount Configuration request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+
+ /* Optional */
+ /* Cradle Mount State */
+ uint8_t cradleMountState_valid; /**< Must be set to true if cradleMountState is being passed */
+ qmiLocCradleMountStateEnumT_v02 cradleMountState;
+ /**< Cradle Mount state set by the control point.
+
+ Valid values: \n
+ - eQMI_LOC_CRADLE_STATE_NOT_MOUNTED (0) -- Device is mounted on the cradle
+ - eQMI_LOC_CRADLE_STATE_MOUNTED (1) -- Device is not mounted on the cradle
+ - eQMI_LOC_CRADLE_STATE_UNKNOWN (2) -- Unknown cradle mount state
+ */
+
+ /* Optional */
+ /* Cradle Mount Confidence */
+ uint8_t confidenceCradleMountState_valid; /**< Must be set to true if confidenceCradleMountState is being passed */
+ uint8_t confidenceCradleMountState;
+ /**< Confidence of the Cradle Mount state expressed as a percentage.\n
+ - Range: 0 to 100 */
+}qmiLocGetCradleMountConfigIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Used by the control point to set the current
+ cradle mount configuration. */
+typedef struct {
+
+ /* Mandatory */
+ /* Cradle Mount State */
+ qmiLocCradleMountStateEnumT_v02 cradleMountState;
+ /**< Cradle Mount state set by the control point.
+
+ Valid values: \n
+ - eQMI_LOC_CRADLE_STATE_NOT_MOUNTED (0) -- Device is mounted on the cradle
+ - eQMI_LOC_CRADLE_STATE_MOUNTED (1) -- Device is not mounted on the cradle
+ - eQMI_LOC_CRADLE_STATE_UNKNOWN (2) -- Unknown cradle mount state
+ */
+
+ /* Optional */
+ /* Cradle Mount Confidence */
+ uint8_t confidenceCradleMountState_valid; /**< Must be set to true if confidenceCradleMountState is being passed */
+ uint8_t confidenceCradleMountState;
+ /**< Confidence in the Cradle Mount state expressed as a percentage.\n
+ - Range: 0 to 100 */
+}qmiLocSetCradleMountConfigReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Used by the control point to set the current
+ cradle mount configuration. */
+typedef struct {
+
+ /* Mandatory */
+ /* Set Cradle Mount Config Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Set Cradle Mount Configuration request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+}qmiLocSetCradleMountConfigIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCEXTERNALPOWERCONFIGENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_EXTERNAL_POWER_NOT_CONNECTED_V02 = 0, /**< Device is not connected to an external power source */
+ eQMI_LOC_EXTERNAL_POWER_CONNECTED_V02 = 1, /**< Device is connected to an external power source */
+ eQMI_LOC_EXTERNAL_POWER_UNKNOWN_V02 = 2, /**< Unknown external power state */
+ QMILOCEXTERNALPOWERCONFIGENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocExternalPowerConfigEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Used by the control point to get the current
+ external power configuration. */
+typedef struct {
+ /* This element is a placeholder to prevent the declaration of
+ an empty struct. DO NOT USE THIS FIELD UNDER ANY CIRCUMSTANCE */
+ char __placeholder;
+}qmiLocGetExternalPowerConfigReqMsgT_v02;
+
+ /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Used by the control point to get the current
+ external power configuration. */
+typedef struct {
+
+ /* Mandatory */
+ /* Get Ext Power Config Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Get External Power Configuration request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+
+ /* Optional */
+ /* External Power State */
+ uint8_t externalPowerState_valid; /**< Must be set to true if externalPowerState is being passed */
+ qmiLocExternalPowerConfigEnumT_v02 externalPowerState;
+ /**< Power state; injected by the control point.
+
+ Valid values: \n
+ - eQMI_LOC_EXTERNAL_POWER_NOT_CONNECTED (0) -- Device is not connected to an external power source
+ - eQMI_LOC_EXTERNAL_POWER_CONNECTED (1) -- Device is connected to an external power source
+ - eQMI_LOC_EXTERNAL_POWER_UNKNOWN (2) -- Unknown external power state
+ */
+}qmiLocGetExternalPowerConfigIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Used by the control point to set the current
+ external power configuration. */
+typedef struct {
+
+ /* Mandatory */
+ /* External Power State */
+ qmiLocExternalPowerConfigEnumT_v02 externalPowerState;
+ /**< Power state; injected by the control point.
+
+ Valid values: \n
+ - eQMI_LOC_EXTERNAL_POWER_NOT_CONNECTED (0) -- Device is not connected to an external power source
+ - eQMI_LOC_EXTERNAL_POWER_CONNECTED (1) -- Device is connected to an external power source
+ - eQMI_LOC_EXTERNAL_POWER_UNKNOWN (2) -- Unknown external power state
+ */
+}qmiLocSetExternalPowerConfigReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Used by the control point to set the current
+ external power configuration. */
+typedef struct {
+
+ /* Mandatory */
+ /* Set Ext Power Config Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Set External Power Configuration request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+}qmiLocSetExternalPowerConfigIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCSERVERPDNENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_APN_PROFILE_PDN_TYPE_IPV4_V02 = 0x01, /**< IPv4 PDN type */
+ eQMI_LOC_APN_PROFILE_PDN_TYPE_IPV6_V02 = 0x02, /**< IPv6 PDN type */
+ eQMI_LOC_APN_PROFILE_PDN_TYPE_IPV4V6_V02 = 0x03, /**< IPv4v6 PDN type */
+ eQMI_LOC_APN_PROFILE_PDN_TYPE_PPP_V02 = 0x04, /**< PPP PDN type */
+ QMILOCSERVERPDNENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocServerPDNEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ qmiLocServerPDNEnumT_v02 pdnType;
+ /**< PDN type of the APN profile.
+
+ Valid values: \n
+ - eQMI_LOC_APN_PROFILE_PDN_TYPE_IPV4 (0x01) -- IPv4 PDN type
+ - eQMI_LOC_APN_PROFILE_PDN_TYPE_IPV6 (0x02) -- IPv6 PDN type
+ - eQMI_LOC_APN_PROFILE_PDN_TYPE_IPV4V6 (0x03) -- IPv4v6 PDN type
+ - eQMI_LOC_APN_PROFILE_PDN_TYPE_PPP (0x04) -- PPP PDN type
+ */
+
+ char apnName[QMI_LOC_MAX_APN_NAME_LENGTH_V02 + 1];
+ /**< APN name.
+ \begin{itemize1}
+ \item Type: NULL-terminated string
+ \item Maximum string length (including NULL terminator): 101
+ \vspace{-0.18in} \end{itemize1}
+ */
+}qmiLocApnProfilesStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCSERVERREQSTATUSENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_SERVER_REQ_STATUS_SUCCESS_V02 = 1, /**< Location server request was successful */
+ eQMI_LOC_SERVER_REQ_STATUS_FAILURE_V02 = 2, /**< Location server request failed */
+ QMILOCSERVERREQSTATUSENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocServerReqStatusEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Used by the control point to inform the service about the
+ status of the location server connection request that the
+ service may have sent via the
+ QMI_LOC_EVENT_LOCATION_SERVER_CONNECTION_REQ_IND event. */
+typedef struct {
+
+ /* Mandatory */
+ /* Connection Handle */
+ uint32_t connHandle;
+ /**< Connection handle that the service specified in the
+ Location Server Connection request event. */
+
+ /* Mandatory */
+ /* Request Type */
+ qmiLocServerRequestEnumT_v02 requestType;
+ /**< Type of connection request service that was specified in the
+ Location Server Connection Request event.
+
+ Valid values: \n
+ - eQMI_LOC_SERVER_REQUEST_OPEN (1) -- Open a connection to the location server
+ - eQMI_LOC_SERVER_REQUEST_CLOSE (2) -- Close a connection to the location server
+ */
+
+ /* Mandatory */
+ /* Connection Status */
+ qmiLocServerReqStatusEnumT_v02 statusType;
+ /**< Status of the Connection request.
+
+ Valid values: \n
+ - eQMI_LOC_SERVER_REQ_STATUS_SUCCESS (1) -- Location server request was successful
+ - eQMI_LOC_SERVER_REQ_STATUS_FAILURE (2) -- Location server request failed
+ */
+
+ /* Optional */
+ /* APN Profile */
+ uint8_t apnProfile_valid; /**< Must be set to true if apnProfile is being passed */
+ qmiLocApnProfilesStructT_v02 apnProfile;
+ /**< \vspace{0.06in} \n Access Point Name (APN) profile information is present only when
+ requestType is OPEN and statusType is SUCCESS. */
+}qmiLocInformLocationServerConnStatusReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Used by the control point to inform the service about the
+ status of the location server connection request that the
+ service may have sent via the
+ QMI_LOC_EVENT_LOCATION_SERVER_CONNECTION_REQ_IND event. */
+typedef struct {
+
+ /* Mandatory */
+ /* Status of Inform Loc Server Conn Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Inform Location Server Connection Status request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+}qmiLocInformLocationServerConnStatusIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCVXVERSIONENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_VX_VERSION_V1_ONLY_V02 = 1, /**< V1 VX version */
+ eQMI_LOC_VX_VERSION_V2_ONLY_V02 = 2, /**< V2 VX version */
+ QMILOCVXVERSIONENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocVxVersionEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCSUPLVERSIONENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_SUPL_VERSION_1_0_V02 = 1, /**< SUPL version 1.0 */
+ eQMI_LOC_SUPL_VERSION_2_0_V02 = 2, /**< SUPL version 2.0 */
+ QMILOCSUPLVERSIONENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocSuplVersionEnumT_v02;
+/**
+ @}
+ */
+
+typedef uint32_t qmiLocLppConfigMaskT_v02;
+#define QMI_LOC_LPP_CONFIG_ENABLE_USER_PLANE_V02 ((qmiLocLppConfigMaskT_v02)0x00000001) /**< Enable user plane configuration for LTE Positioning Profile (LPP) */
+#define QMI_LOC_LPP_CONFIG_ENABLE_CONTROL_PLANE_V02 ((qmiLocLppConfigMaskT_v02)0x00000002) /**< Enable control plane configuration for LPP */
+typedef uint32_t qmiLocAssistedGlonassProtocolMaskT_v02;
+#define QMI_LOC_ASSISTED_GLONASS_PROTOCOL_MASK_RRC_CP_V02 ((qmiLocAssistedGlonassProtocolMaskT_v02)0x00000001) /**< Assisted GLONASS is supported over RRC in the control plane */
+#define QMI_LOC_ASSISTED_GLONASS_PROTOCOL_MASK_RRLP_UP_V02 ((qmiLocAssistedGlonassProtocolMaskT_v02)0x00000002) /**< Assisted GLONASS is supported over RRLP in the user plane */
+#define QMI_LOC_ASSISTED_GLONASS_PROTOCOL_MASK_LPP_UP_V02 ((qmiLocAssistedGlonassProtocolMaskT_v02)0x00000004) /**< Assisted GLONASS is supported over LPP in the user plane;
+ QMI_LOC_LPP_CONFIG_ENABLE_USER_PLANE must be set
+ in the LPP configuration for this to take effect */
+#define QMI_LOC_ASSISTED_GLONASS_PROTOCOL_MASK_LPP_CP_V02 ((qmiLocAssistedGlonassProtocolMaskT_v02)0x00000008) /**< Assisted GLONASS is supported over LPP in the control plane;
+ QMI_LOC_LPP_CONFIG_ENABLE_CONTROL_PLANE must be set
+ in the LPP configuration for this to take effect */
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCSUPLHASHALGOENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_SUPL_HASH_ALGO_SHA1_V02 = 0, /**< SHA-1 hash algorithm for SUPL version 2.0 or later */
+ eQMI_LOC_SUPL_HASH_ALGO_SHA256_V02 = 1, /**< SHA-256 hash algorithm for SUPL version 2.0 or later */
+ QMILOCSUPLHASHALGOENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocSuplHashAlgoEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCSUPLTLSVERSIONENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_SUPL_TLS_VERSION_1_0_V02 = 0, /**< SUPL TLS version 1.0 */
+ eQMI_LOC_SUPL_TLS_VERSION_1_1_V02 = 1, /**< SUPL TLS version 1.1 */
+ QMILOCSUPLTLSVERSIONENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocSuplTlsVersionEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCEMERGENCYPROTOCOLENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_EMERGENCY_PROTOCOL_WCDMA_CP_V02 = 0, /**< Use Control Plane Protocol during an emergency while on WCDMA */
+ eQMI_LOC_EMERGENCY_PROTOCOL_WCDMA_UP_V02 = 1, /**< Use SUPL 2.0 emergency services during an emergency while on WCDMA */
+ QMILOCEMERGENCYPROTOCOLENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocEmergencyProtocolEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Used by the control point to configure parameters stored
+ in the nonvolatile memory. */
+typedef struct {
+
+ /* Optional */
+ /* SUPL Security */
+ uint8_t suplSecurity_valid; /**< Must be set to true if suplSecurity is being passed */
+ uint8_t suplSecurity;
+ /**< Indicates whether SUPL security is enabled.
+ \begin{itemize1}
+ \item 0x01 (TRUE) -- SUPL security is enabled
+ \item 0x00 (FALSE) -- SUPL security is disabled
+ \vspace{-0.18in} \end{itemize1} */
+
+ /* Optional */
+ /* VX Version */
+ uint8_t vxVersion_valid; /**< Must be set to true if vxVersion is being passed */
+ qmiLocVxVersionEnumT_v02 vxVersion;
+ /**< VX version.
+
+ Valid values: \n
+ - eQMI_LOC_VX_VERSION_V1_ONLY (1) -- V1 VX version
+ - eQMI_LOC_VX_VERSION_V2_ONLY (2) -- V2 VX version
+ */
+
+ /* Optional */
+ /* SUPL Version */
+ uint8_t suplVersion_valid; /**< Must be set to true if suplVersion is being passed */
+ qmiLocSuplVersionEnumT_v02 suplVersion;
+ /**< SUPL version.
+
+ Valid values: \n
+ - eQMI_LOC_SUPL_VERSION_1_0 (1) -- SUPL version 1.0
+ - eQMI_LOC_SUPL_VERSION_2_0 (2) -- SUPL version 2.0
+ */
+
+ /* Optional */
+ /* LPP Configuration */
+ uint8_t lppConfig_valid; /**< Must be set to true if lppConfig is being passed */
+ qmiLocLppConfigMaskT_v02 lppConfig;
+ /**< LTE Positioning Profile (LPP) configuration.
+
+ Valid bitmasks: \begin{itemize1}
+ \item 0x00000001 -- LPP_CONFIG_ ENABLE_USER_PLANE
+ \item 0x00000002 -- LPP_CONFIG_ ENABLE_CONTROL_PLANE
+ \vspace{-0.18in} \end{itemize1}
+ */
+
+ /* Optional */
+ /* Assisted GLONASS Protocol Mask */
+ uint8_t assistedGlonassProtocolMask_valid; /**< Must be set to true if assistedGlonassProtocolMask is being passed */
+ qmiLocAssistedGlonassProtocolMaskT_v02 assistedGlonassProtocolMask;
+ /**< Configures the protocols that the location service supports
+ for assisted GLONASS.
+
+ Valid bitmasks: \n
+ - QMI_LOC_ASSISTED_GLONASS_PROTOCOL_MASK_RRC_CP (0x00000001) -- Assisted GLONASS is supported over RRC in the control plane
+ - QMI_LOC_ASSISTED_GLONASS_PROTOCOL_MASK_RRLP_UP (0x00000002) -- Assisted GLONASS is supported over RRLP in the user plane
+ - QMI_LOC_ASSISTED_GLONASS_PROTOCOL_MASK_LPP_UP (0x00000004) -- Assisted GLONASS is supported over LPP in the user plane;
+ QMI_LOC_LPP_CONFIG_ENABLE_USER_PLANE must be set
+ in the LPP configuration for this to take effect
+ - QMI_LOC_ASSISTED_GLONASS_PROTOCOL_MASK_LPP_CP (0x00000008) -- Assisted GLONASS is supported over LPP in the control plane;
+ QMI_LOC_LPP_CONFIG_ENABLE_CONTROL_PLANE must be set
+ in the LPP configuration for this to take effect
+ */
+
+ /* Optional */
+ /* SUPL Hash Algorithm */
+ uint8_t suplHashAlgo_valid; /**< Must be set to true if suplHashAlgo is being passed */
+ qmiLocSuplHashAlgoEnumT_v02 suplHashAlgo;
+ /**< SUPL hash algorithm to be used.
+
+ Valid values: \n
+ - eQMI_LOC_SUPL_HASH_ALGO_SHA1 (0) -- SHA-1 hash algorithm for SUPL version 2.0 or later
+ - eQMI_LOC_SUPL_HASH_ALGO_SHA256 (1) -- SHA-256 hash algorithm for SUPL version 2.0 or later
+ */
+
+ /* Optional */
+ /* SUPL TLS Version */
+ uint8_t suplTlsVersion_valid; /**< Must be set to true if suplTlsVersion is being passed */
+ qmiLocSuplTlsVersionEnumT_v02 suplTlsVersion;
+ /**< SUPL Transport Layer Security (TLS) version. This configuration is only
+ applicable to SUPL 2.0 or later, as SUPL 1.0 always uses TLS version 1.0.
+
+ Valid values: \n
+ - eQMI_LOC_SUPL_TLS_VERSION_1_0 (0) -- SUPL TLS version 1.0
+ - eQMI_LOC_SUPL_TLS_VERSION_1_1 (1) -- SUPL TLS version 1.1
+ */
+
+ /* Optional */
+ /* Emergency Protocol */
+ uint8_t emergencyProtocol_valid; /**< Must be set to true if emergencyProtocol is being passed */
+ qmiLocEmergencyProtocolEnumT_v02 emergencyProtocol;
+ /**< Configures the protocol to be used during an emergency. \n
+ \textbf{Note:} Currently, this can only be selected on WCDMA. For GSM
+ and 1X, the UE only allows a control plane NI trigger for positioning.
+ For LTE, the UE allows either a SUPL or a control plane NI trigger.
+
+ Valid values: \n
+ - eQMI_LOC_EMERGENCY_PROTOCOL_WCDMA_CP (0) -- Use Control Plane Protocol during an emergency while on WCDMA
+ - eQMI_LOC_EMERGENCY_PROTOCOL_WCDMA_UP (1) -- Use SUPL 2.0 emergency services during an emergency while on WCDMA
+ */
+
+ /* Optional */
+ /* Wi-Fi Scan Injection Timeout Period */
+ uint8_t wifiScanInjectTimeout_valid; /**< Must be set to true if wifiScanInjectTimeout is being passed */
+ uint8_t wifiScanInjectTimeout;
+ /**< Configures the timeout duration that the service waits for scan results
+ injection from the control point after the event notification is sent. \n
+ \textbf{Note:} The timeout value is in seconds. \n
+ Values: \n
+ 0 to 10 seconds \n
+ The minimum value (0 seconds) is the default. At this value, the service
+ disables sending the Wi-Fi scan injection notification and ignores any
+ scan results injection request.
+ */
+}qmiLocSetProtocolConfigParametersReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+typedef uint64_t qmiLocProtocolConfigParamMaskT_v02;
+#define QMI_LOC_PROTOCOL_CONFIG_PARAM_MASK_SUPL_SECURITY_V02 ((qmiLocProtocolConfigParamMaskT_v02)0x0000000000000001ull) /**< Mask for the SUPL security configuration parameter */
+#define QMI_LOC_PROTOCOL_CONFIG_PARAM_MASK_VX_VERSION_V02 ((qmiLocProtocolConfigParamMaskT_v02)0x0000000000000002ull) /**< Mask for the VX version configuration parameter */
+#define QMI_LOC_PROTOCOL_CONFIG_PARAM_MASK_SUPL_VERSION_V02 ((qmiLocProtocolConfigParamMaskT_v02)0x0000000000000004ull) /**< Mask for the SUPL version configuration parameter */
+#define QMI_LOC_PROTOCOL_CONFIG_PARAM_MASK_LPP_CONFIG_V02 ((qmiLocProtocolConfigParamMaskT_v02)0x0000000000000008ull) /**< Mask for the LPP configuration parameter */
+#define QMI_LOC_PROTOCOL_CONFIG_PARAM_MASK_ASSISTED_GLONASS_PROTOCOL_V02 ((qmiLocProtocolConfigParamMaskT_v02)0x0000000000000010ull) /**< Mask for the assisted GLONASS configuration parameter */
+#define QMI_LOC_PROTOCOL_CONFIG_PARAM_MASK_SUPL_HASH_ALGO_V02 ((qmiLocProtocolConfigParamMaskT_v02)0x0000000000000020ull) /**< Mask for the SUPL hash algorithm configuration parameter */
+#define QMI_LOC_PROTOCOL_CONFIG_PARAM_MASK_SUPL_TLS_VERSION_V02 ((qmiLocProtocolConfigParamMaskT_v02)0x0000000000000040ull) /**< Mask for the SUPL TLS version configuration parameter */
+#define QMI_LOC_PROTOCOL_CONFIG_PARAM_MASK_EMERGENCY_PROTOCOL_V02 ((qmiLocProtocolConfigParamMaskT_v02)0x0000000000000080ull) /**< Mask for the emergency protocol configuration parameter */
+#define QMI_LOC_PROTOCOL_CONFIG_PARAM_MASK_WIFI_SCAN_INJECT_TIMEOUT_V02 ((qmiLocProtocolConfigParamMaskT_v02)0x0000000000000100ull) /**< Mask for the Wi-Fi scan injection timeout configuration parameter */
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Used by the control point to configure parameters stored
+ in the nonvolatile memory. */
+typedef struct {
+
+ /* Mandatory */
+ /* Set Config Params Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Set Configuration Parameters request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+
+ /* Optional */
+ /* Failed Parameters */
+ uint8_t failedProtocolConfigParamMask_valid; /**< Must be set to true if failedProtocolConfigParamMask is being passed */
+ qmiLocProtocolConfigParamMaskT_v02 failedProtocolConfigParamMask;
+ /**< Identifies parameters that were not set successfully. This field
+ is sent only if the status is not SUCCESS.
+
+ Valid bitmasks: \n
+ - QMI_LOC_PROTOCOL_CONFIG_PARAM_MASK_SUPL_SECURITY (0x0000000000000001) -- Mask for the SUPL security configuration parameter
+ - QMI_LOC_PROTOCOL_CONFIG_PARAM_MASK_VX_VERSION (0x0000000000000002) -- Mask for the VX version configuration parameter
+ - QMI_LOC_PROTOCOL_CONFIG_PARAM_MASK_SUPL_VERSION (0x0000000000000004) -- Mask for the SUPL version configuration parameter
+ - QMI_LOC_PROTOCOL_CONFIG_PARAM_MASK_LPP_CONFIG (0x0000000000000008) -- Mask for the LPP configuration parameter
+ - QMI_LOC_PROTOCOL_CONFIG_PARAM_MASK_ASSISTED_GLONASS_PROTOCOL (0x0000000000000010) -- Mask for the assisted GLONASS configuration parameter
+ - QMI_LOC_PROTOCOL_CONFIG_PARAM_MASK_SUPL_HASH_ALGO (0x0000000000000020) -- Mask for the SUPL hash algorithm configuration parameter
+ - QMI_LOC_PROTOCOL_CONFIG_PARAM_MASK_SUPL_TLS_VERSION (0x0000000000000040) -- Mask for the SUPL TLS version configuration parameter
+ - QMI_LOC_PROTOCOL_CONFIG_PARAM_MASK_EMERGENCY_PROTOCOL (0x0000000000000080) -- Mask for the emergency protocol configuration parameter
+ - QMI_LOC_PROTOCOL_CONFIG_PARAM_MASK_WIFI_SCAN_INJECT_TIMEOUT (0x0000000000000100) -- Mask for the Wi-Fi scan injection timeout configuration parameter
+ */
+}qmiLocSetProtocolConfigParametersIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Used by the control point to get the configuration
+ parameters stored in the nonvolatile memory. */
+typedef struct {
+
+ /* Mandatory */
+ /* Config Parameters */
+ qmiLocProtocolConfigParamMaskT_v02 getProtocolConfigParamMask;
+ /**< Mask denoting the configuration parameters to be retrieved.
+
+ Valid bitmasks: \n
+ - QMI_LOC_PROTOCOL_CONFIG_PARAM_MASK_SUPL_SECURITY (0x0000000000000001) -- Mask for the SUPL security configuration parameter
+ - QMI_LOC_PROTOCOL_CONFIG_PARAM_MASK_VX_VERSION (0x0000000000000002) -- Mask for the VX version configuration parameter
+ - QMI_LOC_PROTOCOL_CONFIG_PARAM_MASK_SUPL_VERSION (0x0000000000000004) -- Mask for the SUPL version configuration parameter
+ - QMI_LOC_PROTOCOL_CONFIG_PARAM_MASK_LPP_CONFIG (0x0000000000000008) -- Mask for the LPP configuration parameter
+ - QMI_LOC_PROTOCOL_CONFIG_PARAM_MASK_ASSISTED_GLONASS_PROTOCOL (0x0000000000000010) -- Mask for the assisted GLONASS configuration parameter
+ - QMI_LOC_PROTOCOL_CONFIG_PARAM_MASK_SUPL_HASH_ALGO (0x0000000000000020) -- Mask for the SUPL hash algorithm configuration parameter
+ - QMI_LOC_PROTOCOL_CONFIG_PARAM_MASK_SUPL_TLS_VERSION (0x0000000000000040) -- Mask for the SUPL TLS version configuration parameter
+ - QMI_LOC_PROTOCOL_CONFIG_PARAM_MASK_EMERGENCY_PROTOCOL (0x0000000000000080) -- Mask for the emergency protocol configuration parameter
+ - QMI_LOC_PROTOCOL_CONFIG_PARAM_MASK_WIFI_SCAN_INJECT_TIMEOUT (0x0000000000000100) -- Mask for the Wi-Fi scan injection timeout configuration parameter
+ */
+}qmiLocGetProtocolConfigParametersReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Used by the control point to get the configuration
+ parameters stored in the nonvolatile memory. */
+typedef struct {
+
+ /* Mandatory */
+ /* Get Config Params Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Get Configuration Parameters request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+
+ /* Optional */
+ /* SUPL Security */
+ uint8_t suplSecurity_valid; /**< Must be set to true if suplSecurity is being passed */
+ uint8_t suplSecurity;
+ /**< Indicates whether SUPL security is enabled.
+ \begin{itemize1}
+ \item 0x01 (TRUE) -- SUPL security is enabled
+ \item 0x00 (FALSE) -- SUPL security is disabled
+ \vspace{-0.18in} \end{itemize1}*/
+
+ /* Optional */
+ /* VX Version */
+ uint8_t vxVersion_valid; /**< Must be set to true if vxVersion is being passed */
+ qmiLocVxVersionEnumT_v02 vxVersion;
+ /**< VX version.
+
+ Valid values: \n
+ - eQMI_LOC_VX_VERSION_V1_ONLY (1) -- V1 VX version
+ - eQMI_LOC_VX_VERSION_V2_ONLY (2) -- V2 VX version
+ */
+
+ /* Optional */
+ /* SUPL Version */
+ uint8_t suplVersion_valid; /**< Must be set to true if suplVersion is being passed */
+ qmiLocSuplVersionEnumT_v02 suplVersion;
+ /**< SUPL version.
+
+ Valid values: \n
+ - eQMI_LOC_SUPL_VERSION_1_0 (1) -- SUPL version 1.0
+ - eQMI_LOC_SUPL_VERSION_2_0 (2) -- SUPL version 2.0
+ */
+
+ /* Optional */
+ /* LPP Configuration */
+ uint8_t lppConfig_valid; /**< Must be set to true if lppConfig is being passed */
+ qmiLocLppConfigMaskT_v02 lppConfig;
+ /**< LTE Positioning Profile (LPP) configuration.
+
+ Valid bitmasks: \begin{itemize1}
+ \item 0x00000001 -- LPP_CONFIG_ ENABLE_USER_PLANE
+ \item 0x00000002 -- LPP_CONFIG_ ENABLE_CONTROL_PLANE
+ \vspace{-0.18in} \end{itemize1}
+ */
+
+ /* Optional */
+ /* Assisted GLONASS Protocol Mask */
+ uint8_t assistedGlonassProtocolMask_valid; /**< Must be set to true if assistedGlonassProtocolMask is being passed */
+ qmiLocAssistedGlonassProtocolMaskT_v02 assistedGlonassProtocolMask;
+ /**< Assisted GLONASS Protocol mask.
+
+ Valid bitmasks: \n
+ - QMI_LOC_ASSISTED_GLONASS_PROTOCOL_MASK_RRC_CP (0x00000001) -- Assisted GLONASS is supported over RRC in the control plane
+ - QMI_LOC_ASSISTED_GLONASS_PROTOCOL_MASK_RRLP_UP (0x00000002) -- Assisted GLONASS is supported over RRLP in the user plane
+ - QMI_LOC_ASSISTED_GLONASS_PROTOCOL_MASK_LPP_UP (0x00000004) -- Assisted GLONASS is supported over LPP in the user plane;
+ QMI_LOC_LPP_CONFIG_ENABLE_USER_PLANE must be set
+ in the LPP configuration for this to take effect
+ - QMI_LOC_ASSISTED_GLONASS_PROTOCOL_MASK_LPP_CP (0x00000008) -- Assisted GLONASS is supported over LPP in the control plane;
+ QMI_LOC_LPP_CONFIG_ENABLE_CONTROL_PLANE must be set
+ in the LPP configuration for this to take effect
+ */
+
+ /* Optional */
+ /* SUPL Hash Algorithm */
+ uint8_t suplHashAlgo_valid; /**< Must be set to true if suplHashAlgo is being passed */
+ qmiLocSuplHashAlgoEnumT_v02 suplHashAlgo;
+ /**< SUPL hash algorithm to be used.
+
+ Valid values: \n
+ - eQMI_LOC_SUPL_HASH_ALGO_SHA1 (0) -- SHA-1 hash algorithm for SUPL version 2.0 or later
+ - eQMI_LOC_SUPL_HASH_ALGO_SHA256 (1) -- SHA-256 hash algorithm for SUPL version 2.0 or later
+ */
+
+ /* Optional */
+ /* SUPL TLS Version */
+ uint8_t suplTlsVersion_valid; /**< Must be set to true if suplTlsVersion is being passed */
+ qmiLocSuplTlsVersionEnumT_v02 suplTlsVersion;
+ /**< SUPL TLS version. This configuration is only
+ applicable to SUPL 2.0 or later, as SUPL 1.0 always uses TLS version 1.0.
+
+ Valid values: \n
+ - eQMI_LOC_SUPL_TLS_VERSION_1_0 (0) -- SUPL TLS version 1.0
+ - eQMI_LOC_SUPL_TLS_VERSION_1_1 (1) -- SUPL TLS version 1.1
+ */
+
+ /* Optional */
+ /* Emergency Protocol */
+ uint8_t emergencyProtocol_valid; /**< Must be set to true if emergencyProtocol is being passed */
+ qmiLocEmergencyProtocolEnumT_v02 emergencyProtocol;
+ /**< Protocol to be used during emergency.
+
+ Valid values: \n
+ - eQMI_LOC_EMERGENCY_PROTOCOL_WCDMA_CP (0) -- Use Control Plane Protocol during an emergency while on WCDMA
+ - eQMI_LOC_EMERGENCY_PROTOCOL_WCDMA_UP (1) -- Use SUPL 2.0 emergency services during an emergency while on WCDMA
+ */
+
+ /* Optional */
+ /* Wi-Fi Scan Injection Timeout Period */
+ uint8_t wifiScanInjectTimeout_valid; /**< Must be set to true if wifiScanInjectTimeout is being passed */
+ uint8_t wifiScanInjectTimeout;
+ /**< Timeout duration that the service waits for a scan results
+ injection from the control point after the event notification is sent. \n
+ Values: \n
+ 0 to 10 seconds
+ */
+}qmiLocGetProtocolConfigParametersIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCSENSORSCONTROLCONFIGSENSORUSEENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_SENSOR_CONFIG_SENSOR_USE_ENABLE_V02 = 0, /**< Sensors data should be requested whenever a position request is
+ received. If sensor data are injected, the positioning engine
+ attempts to improve the heading and positioning performance using sensors.
+ This is the default.
+ */
+ eQMI_LOC_SENSOR_CONFIG_SENSOR_USE_DISABLE_V02 = 1, /**< Inertial sensors are not to be used to aid heading and position
+ improvement. */
+ QMILOCSENSORSCONTROLCONFIGSENSORUSEENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocSensorsControlConfigSensorUseEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCSENSORSCONTROLCONFIGSENSORPROVIDERENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_SENSOR_CONFIG_USE_PROVIDER_SSC_V02 = 0, /**< Sensors data provider is Snapdragon Sensor Core (SSC);
+ this is the default
+ */
+ eQMI_LOC_SENSOR_CONFIG_USE_PROVIDER_NATIVE_V02 = 1, /**< Sensors data provider is on the host processor */
+ QMILOCSENSORSCONTROLCONFIGSENSORPROVIDERENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocSensorsControlConfigSensorProviderEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Sets the sensor control configuration. */
+typedef struct {
+
+ /* Optional */
+ /* Sensors Usage */
+ uint8_t sensorsUsage_valid; /**< Must be set to true if sensorsUsage is being passed */
+ qmiLocSensorsControlConfigSensorUseEnumT_v02 sensorsUsage;
+ /**< Controls how sensors are used to aid heading and positioning
+ performance.
+
+ Valid values: \n
+ - eQMI_LOC_SENSOR_CONFIG_SENSOR_USE_ENABLE (0) -- Sensors data should be requested whenever a position request is
+ received. If sensor data are injected, the positioning engine
+ attempts to improve the heading and positioning performance using sensors.
+ This is the default.
+
+ - eQMI_LOC_SENSOR_CONFIG_SENSOR_USE_DISABLE (1) -- Inertial sensors are not to be used to aid heading and position
+ improvement.
+ */
+
+ /* Optional */
+ /* Sensors Provider */
+ uint8_t sensorProvider_valid; /**< Must be set to true if sensorProvider is being passed */
+ qmiLocSensorsControlConfigSensorProviderEnumT_v02 sensorProvider;
+ /**< Controls which sensors data provider is to be used.
+
+ Valid values: \n
+ - eQMI_LOC_SENSOR_CONFIG_USE_PROVIDER_SSC (0) -- Sensors data provider is Snapdragon Sensor Core (SSC);
+ this is the default
+
+ - eQMI_LOC_SENSOR_CONFIG_USE_PROVIDER_NATIVE (1) -- Sensors data provider is on the host processor
+ */
+}qmiLocSetSensorControlConfigReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Sets the sensor control configuration. */
+typedef struct {
+
+ /* Mandatory */
+ /* Set Sensor Control Config Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Set Sensor Control Configuration request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+}qmiLocSetSensorControlConfigIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Retrieves the current sensor control configuration. */
+typedef struct {
+ /* This element is a placeholder to prevent the declaration of
+ an empty struct. DO NOT USE THIS FIELD UNDER ANY CIRCUMSTANCE */
+ char __placeholder;
+}qmiLocGetSensorControlConfigReqMsgT_v02;
+
+ /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Retrieves the current sensor control configuration. */
+typedef struct {
+
+ /* Mandatory */
+ /* Get Sensor Control Config Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Get Sensors Control Configuration request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+
+ /* Optional */
+ /* Sensors Usage */
+ uint8_t sensorsUsage_valid; /**< Must be set to true if sensorsUsage is being passed */
+ qmiLocSensorsControlConfigSensorUseEnumT_v02 sensorsUsage;
+ /**< Controls how sensors are used to aid the heading and positioning
+ performance.
+
+ Valid values: \n
+ - eQMI_LOC_SENSOR_CONFIG_SENSOR_USE_ENABLE (0) -- Sensors data should be requested whenever a position request is
+ received. If sensor data are injected, the positioning engine
+ attempts to improve the heading and positioning performance using sensors.
+ This is the default.
+
+ - eQMI_LOC_SENSOR_CONFIG_SENSOR_USE_DISABLE (1) -- Inertial sensors are not to be used to aid heading and position
+ improvement.
+ */
+
+ /* Optional */
+ /* Sensors Provider */
+ uint8_t sensorProvider_valid; /**< Must be set to true if sensorProvider is being passed */
+ qmiLocSensorsControlConfigSensorProviderEnumT_v02 sensorProvider;
+ /**< Controls which sensors data provider to be used.
+
+ Valid values: \n
+ - eQMI_LOC_SENSOR_CONFIG_USE_PROVIDER_SSC (0) -- Sensors data provider is Snapdragon Sensor Core (SSC);
+ this is the default
+
+ - eQMI_LOC_SENSOR_CONFIG_USE_PROVIDER_NATIVE (1) -- Sensors data provider is on the host processor
+ */
+}qmiLocGetSensorControlConfigIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+typedef uint32_t qmiLocSensorPropertiesMaskT_v02;
+#define QMI_LOC_SENSOR_PROPERTIES_MASK_GYRO_BIAS_VARIANCE_RANDOM_WALK_V02 ((qmiLocSensorPropertiesMaskT_v02)0x00000001) /**< Denotes the gyro bias variance random walk parameter */
+#define QMI_LOC_SENSOR_PROPERTIES_MASK_VELOCITY_RANDOM_WALK_SPECTRAL_DENSITY_V02 ((qmiLocSensorPropertiesMaskT_v02)0x00000002) /**< Denotes the velocity random walk spectral density parameter */
+#define QMI_LOC_SENSOR_PROPERTIES_MASK_ACCELERATION_RANDOM_WALK_SPECTRAL_DENSITY_V02 ((qmiLocSensorPropertiesMaskT_v02)0x00000004) /**< Denotes the acceleration random walk spectral density parameter */
+#define QMI_LOC_SENSOR_PROPERTIES_MASK_ANGLE_RANDOM_WALK_SPECTRAL_DENSITY_V02 ((qmiLocSensorPropertiesMaskT_v02)0x00000008) /**< Denotes the angle random walk spectral density parameter */
+#define QMI_LOC_SENSOR_PROPERTIES_MASK_RATE_RANDOM_WALK_SPECTRAL_DENSITY_V02 ((qmiLocSensorPropertiesMaskT_v02)0x00000010) /**< Denotes the rate random walk spectral density parameter */
+#define QMI_LOC_SENSOR_PROPERTIES_MASK_VEHICLE_DATA_USE_CONTROL_V02 ((qmiLocSensorPropertiesMaskT_v02)0x00000020) /**< Denotes the vehicle data use control parameter */
+#define QMI_LOC_SENSOR_PROPERTIES_MASK_VEHICLE_VELOCITY_RWSD_V02 ((qmiLocSensorPropertiesMaskT_v02)0x00000040) /**< Denotes the vehicle velocity random walk spectral density */
+#define QMI_LOC_SENSOR_PROPERTIES_MASK_VEHICLE_ACCEL_RWSD_V02 ((qmiLocSensorPropertiesMaskT_v02)0x00000080) /**< Denotes the vehicle accelerometer random walk spectral density */
+#define QMI_LOC_SENSOR_PROPERTIES_MASK_VEHICLE_ANGLE_RWSD_V02 ((qmiLocSensorPropertiesMaskT_v02)0x00000100) /**< Denotes the vehicle angle random walk spectral density */
+#define QMI_LOC_SENSOR_PROPERTIES_MASK_VEHICLE_ANGULAR_RATE_RWSD_V02 ((qmiLocSensorPropertiesMaskT_v02)0x00000200) /**< Denotes the vehicle angular rate random walk spectral density */
+#define QMI_LOC_SENSOR_PROPERTIES_MASK_VEHICLE_ODOMETRY_SCALE_RWSD_V02 ((qmiLocSensorPropertiesMaskT_v02)0x00000400) /**< Denotes the vehicle odometry scale random walk spectral density */
+#define QMI_LOC_SENSOR_PROPERTIES_MASK_VEHICLE_ODOMETRY_VARIANCE_V02 ((qmiLocSensorPropertiesMaskT_v02)0x00000800) /**< Denotes the vehicle odometry variance */
+typedef uint64_t qmiLocVehicleDataUseControlMaskT_v02;
+#define QMI_LOC_VEHICLE_DATA_ENABLE_USE_MASK_ACCEL_X_AXIS_V02 ((qmiLocVehicleDataUseControlMaskT_v02)0x0000000000000001ull) /**< Enable use of X-axis vehicle acceleration sensor data */
+#define QMI_LOC_VEHICLE_DATA_ENABLE_USE_MASK_ACCEL_Y_AXIS_V02 ((qmiLocVehicleDataUseControlMaskT_v02)0x0000000000000002ull) /**< Enable use of Y-axis vehicle acceleration sensor data */
+#define QMI_LOC_VEHICLE_DATA_ENABLE_USE_MASK_ACCEL_Z_AXIS_V02 ((qmiLocVehicleDataUseControlMaskT_v02)0x0000000000000004ull) /**< Enable use of Z-axis vehicle acceleration sensor data */
+#define QMI_LOC_VEHICLE_DATA_ENABLE_USE_MASK_GYRO_X_AXIS_V02 ((qmiLocVehicleDataUseControlMaskT_v02)0x0000000000000010ull) /**< Enable use of X-axis vehicle gyroscope data */
+#define QMI_LOC_VEHICLE_DATA_ENABLE_USE_MASK_GYRO_Y_AXIS_V02 ((qmiLocVehicleDataUseControlMaskT_v02)0x0000000000000020ull) /**< Enable use of Y-axis vehicle gyroscope data */
+#define QMI_LOC_VEHICLE_DATA_ENABLE_USE_MASK_GYRO_Z_AXIS_V02 ((qmiLocVehicleDataUseControlMaskT_v02)0x0000000000000040ull) /**< Enable use of Z-axis vehicle gyroscope data */
+#define QMI_LOC_VEHICLE_DATA_ENABLE_USE_MASK_ODOMETRY_V02 ((qmiLocVehicleDataUseControlMaskT_v02)0x0000000000000100ull) /**< Enable use of odometry data */
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Sets the properties specific to the type of sensor used.
+ The control point must set sensor properties before they can be
+ used to aid in heading and positioning performance improvement.
+ */
+typedef struct {
+
+ /* Optional */
+ /* Gyro Bias Random Walk Variance */
+ uint8_t gyroBiasVarianceRandomWalk_valid; /**< Must be set to true if gyroBiasVarianceRandomWalk is being passed */
+ float gyroBiasVarianceRandomWalk;
+ /**< Specifies the gyro bias random walk variance parameter as a positive
+ floating-point value. This value has internal default value 1.0e-5 radian^2/second^4.
+ The gyro bias variance random walk parameter is derived from either the
+ sensors data sheet or a sensors conformance test. \n
+ - Units: Radians^2/seconds^4
+
+ */
+
+ /* Optional */
+ /* Velocity Random Walk Spectral Density */
+ uint8_t velocityRandomWalkSpectralDensity_valid; /**< Must be set to true if velocityRandomWalkSpectralDensity is being passed */
+ float velocityRandomWalkSpectralDensity;
+ /**< Specifies the velocity random walk spectral density parameter as a positive
+ floating-point value. This value does not have any internal defaults.
+ The velocity random walk spectral density parameter is derived from either the
+ sensors data sheet or a sensors conformance test. \n
+ - Units: Meters/seconds^2/Hertz^0.5
+
+ */
+
+ /* Optional */
+ /* Acceleration Random Walk Spectral Density */
+ uint8_t accelerationRandomWalkSpectralDensity_valid; /**< Must be set to true if accelerationRandomWalkSpectralDensity is being passed */
+ float accelerationRandomWalkSpectralDensity;
+ /**< Specifies the acceleration random walk spectral density parameter as a positive
+ floating-point value. This value does not have any internal defaults.
+ The acceleration random walk spectral density parameter is derived from either the
+ sensors data sheet or a sensors conformance test. \n
+ - Units: Meters/seconds^3/Hertz^0.5
+
+ */
+
+ /* Optional */
+ /* Angle Random Walk Spectral Density */
+ uint8_t angleRandomWalkSpectralDensity_valid; /**< Must be set to true if angleRandomWalkSpectralDensity is being passed */
+ float angleRandomWalkSpectralDensity;
+ /**< Specifies the angle random walk spectral density parameter as a positive
+ floating-point value. This value does not have any internal defaults.
+ The angle random walk spectral density parameter is derived from either the
+ sensors data sheet or a sensors conformance test. \n
+ - Units: Radians/seconds/Hertz^0.5
+
+ */
+
+ /* Optional */
+ /* Rate Random Walk Spectral Density */
+ uint8_t rateRandomWalkSpectralDensity_valid; /**< Must be set to true if rateRandomWalkSpectralDensity is being passed */
+ float rateRandomWalkSpectralDensity;
+ /**< Specifies the rate random walk spectral density parameter as a positive
+ floating-point value. This value does not have any internal defaults.
+ The rate random walk spectral density parameter is derived from either the
+ sensors data sheet or a sensors conformance test. \n
+ - Units: Radians/seconds^2/Hertz^0.5
+
+ */
+
+ /* Optional */
+ /* Vehicle Data Use Control */
+ uint8_t vehicleDataUse_valid; /**< Must be set to true if vehicleDataUse is being passed */
+ qmiLocVehicleDataUseControlMaskT_v02 vehicleDataUse;
+ /**< Identifies which portions of the vehicle data to use in location
+ estimation (information provided by the message
+ QMI_LOC_INJECT_VEHICLE_SENSOR_DATA). Valid bitmasks: \n
+ - QMI_LOC_VEHICLE_DATA_ENABLE_USE_MASK_ACCEL_X_AXIS (0x0000000000000001) -- Enable use of X-axis vehicle acceleration sensor data
+ - QMI_LOC_VEHICLE_DATA_ENABLE_USE_MASK_ACCEL_Y_AXIS (0x0000000000000002) -- Enable use of Y-axis vehicle acceleration sensor data
+ - QMI_LOC_VEHICLE_DATA_ENABLE_USE_MASK_ACCEL_Z_AXIS (0x0000000000000004) -- Enable use of Z-axis vehicle acceleration sensor data
+ - QMI_LOC_VEHICLE_DATA_ENABLE_USE_MASK_GYRO_X_AXIS (0x0000000000000010) -- Enable use of X-axis vehicle gyroscope data
+ - QMI_LOC_VEHICLE_DATA_ENABLE_USE_MASK_GYRO_Y_AXIS (0x0000000000000020) -- Enable use of Y-axis vehicle gyroscope data
+ - QMI_LOC_VEHICLE_DATA_ENABLE_USE_MASK_GYRO_Z_AXIS (0x0000000000000040) -- Enable use of Z-axis vehicle gyroscope data
+ - QMI_LOC_VEHICLE_DATA_ENABLE_USE_MASK_ODOMETRY (0x0000000000000100) -- Enable use of odometry data
+ \b Note: All other bits are reserved for future use and are to be set to 0. */
+
+ /* Optional */
+ /* Vehicle Velocity Random Walk Spectral Density */
+ uint8_t vehicleVelocityRandomWalkSpectralDensity_valid; /**< Must be set to true if vehicleVelocityRandomWalkSpectralDensity is being passed */
+ float vehicleVelocityRandomWalkSpectralDensity;
+ /**< Vehicle velocity random walk spectral density. \n
+ - Type: 32-bit float \n
+ - Units: Meters/seconds^2/Hz^0.5 \n
+ - Valid values: Positive values \n
+ - Default: None
+ */
+
+ /* Optional */
+ /* Vehicle Acceleration Random Walk Spectral Density */
+ uint8_t vehicleAccelRandomWalkSpectralDensity_valid; /**< Must be set to true if vehicleAccelRandomWalkSpectralDensity is being passed */
+ float vehicleAccelRandomWalkSpectralDensity;
+ /**< Vehicle accelerometer random walk spectral density. \n
+ - Type: 32-bit float \n
+ - Units: Meters/seconds^3/Hz^0.5 \n
+ - Valid values: Positive values \n
+ - Default: None
+ */
+
+ /* Optional */
+ /* Vehicle Angle Random Walk Spectral Density */
+ uint8_t vehicleAngleRandomWalkSpectralDensity_valid; /**< Must be set to true if vehicleAngleRandomWalkSpectralDensity is being passed */
+ float vehicleAngleRandomWalkSpectralDensity;
+ /**< Vehicle angle random walk spectral density. \n
+ - Type: 32-bit float \n
+ - Units: Radians/seconds/Hz^0.5 \n
+ - Valid values: Positive values \n
+ - Default: None
+ */
+
+ /* Optional */
+ /* Vehicle Angular Rate Random Walk Spectral Density */
+ uint8_t vehicleAngularRateRandomWalkSpectralDensity_valid; /**< Must be set to true if vehicleAngularRateRandomWalkSpectralDensity is being passed */
+ float vehicleAngularRateRandomWalkSpectralDensity;
+ /**< Vehicle angular rate random walk spectral density. \n
+ - Type: 32-bit float \n
+ - Units: Radians/seconds^2/Hz^0.5 \n
+ - Valid values: Positive values \n
+ - Default: None
+ */
+
+ /* Optional */
+ /* Vehicle Odometry Scale Factor Random Walk Spectral Density */
+ uint8_t vehicleOdometryScaleFactorRandomWalkSpectralDensity_valid; /**< Must be set to true if vehicleOdometryScaleFactorRandomWalkSpectralDensity is being passed */
+ float vehicleOdometryScaleFactorRandomWalkSpectralDensity;
+ /**< Vehicle odometry scale factor random walk spectral density. \n
+ - Type: 32-bit float \n
+ - Units: (1/seconds)/Hz^0.5 \n
+ - Range: Approximately 0.0001 to 0.001 \n
+ - Default: 0.001 (actual calibration recommended)
+ */
+
+ /* Optional */
+ /* Vehicle Odometry Variance */
+ uint8_t vehicleOdometryVariance_valid; /**< Must be set to true if vehicleOdometryVariance is being passed */
+ float vehicleOdometryVariance;
+ /**< Vehicle odometry variance of each odometry sample
+ (coarseness of measurement). \n
+ - Type: 32-bit float \n
+ - Units: Meters^2 \n
+ - Valid values: Positive values \n
+ - Default: None
+ */
+}qmiLocSetSensorPropertiesReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Sets the properties specific to the type of sensor used.
+ The control point must set sensor properties before they can be
+ used to aid in heading and positioning performance improvement.
+ */
+typedef struct {
+
+ /* Mandatory */
+ /* Set Sensor Properties Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Set Sensor Properties request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure */
+
+ /* Optional */
+ /* Failed Set Sensor Properties */
+ uint8_t failedSensorPropertiesMask_valid; /**< Must be set to true if failedSensorPropertiesMask is being passed */
+ qmiLocSensorPropertiesMaskT_v02 failedSensorPropertiesMask;
+ /**< This field is sent only if the status is not SUCCESS.
+ Identifies the parameters that were not set successfully.
+
+ Valid bitmasks:
+ - QMI_LOC_SENSOR_PROPERTIES_MASK_GYRO_BIAS_VARIANCE_RANDOM_WALK (0x00000001) -- Denotes the gyro bias variance random walk parameter
+ - QMI_LOC_SENSOR_PROPERTIES_MASK_VELOCITY_RANDOM_WALK_SPECTRAL_DENSITY (0x00000002) -- Denotes the velocity random walk spectral density parameter
+ - QMI_LOC_SENSOR_PROPERTIES_MASK_ACCELERATION_RANDOM_WALK_SPECTRAL_DENSITY (0x00000004) -- Denotes the acceleration random walk spectral density parameter
+ - QMI_LOC_SENSOR_PROPERTIES_MASK_ANGLE_RANDOM_WALK_SPECTRAL_DENSITY (0x00000008) -- Denotes the angle random walk spectral density parameter
+ - QMI_LOC_SENSOR_PROPERTIES_MASK_RATE_RANDOM_WALK_SPECTRAL_DENSITY (0x00000010) -- Denotes the rate random walk spectral density parameter
+ - QMI_LOC_SENSOR_PROPERTIES_MASK_VEHICLE_DATA_USE_CONTROL (0x00000020) -- Denotes the vehicle data use control parameter
+ - QMI_LOC_SENSOR_PROPERTIES_MASK_VEHICLE_VELOCITY_RWSD (0x00000040) -- Denotes the vehicle velocity random walk spectral density
+ - QMI_LOC_SENSOR_PROPERTIES_MASK_VEHICLE_ACCEL_RWSD (0x00000080) -- Denotes the vehicle accelerometer random walk spectral density
+ - QMI_LOC_SENSOR_PROPERTIES_MASK_VEHICLE_ANGLE_RWSD (0x00000100) -- Denotes the vehicle angle random walk spectral density
+ - QMI_LOC_SENSOR_PROPERTIES_MASK_VEHICLE_ANGULAR_RATE_RWSD (0x00000200) -- Denotes the vehicle angular rate random walk spectral density
+ - QMI_LOC_SENSOR_PROPERTIES_MASK_VEHICLE_ODOMETRY_SCALE_RWSD (0x00000400) -- Denotes the vehicle odometry scale random walk spectral density
+ - QMI_LOC_SENSOR_PROPERTIES_MASK_VEHICLE_ODOMETRY_VARIANCE (0x00000800) -- Denotes the vehicle odometry variance
+ \vspace{-0.18in} \end{itemize1}
+ */
+}qmiLocSetSensorPropertiesIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Retrieves the current sensor properties. */
+typedef struct {
+
+ /* Mandatory */
+ /* Sensor Properties Config Parameters */
+ qmiLocSensorPropertiesMaskT_v02 getSensorPropertiesMask;
+ /**< Mask denoting the sensor properties parameters to be retrieved.
+
+ Valid bitmasks:
+ - QMI_LOC_SENSOR_PROPERTIES_MASK_GYRO_BIAS_VARIANCE_RANDOM_WALK (0x00000001) -- Denotes the gyro bias variance random walk parameter
+ - QMI_LOC_SENSOR_PROPERTIES_MASK_VELOCITY_RANDOM_WALK_SPECTRAL_DENSITY (0x00000002) -- Denotes the velocity random walk spectral density parameter
+ - QMI_LOC_SENSOR_PROPERTIES_MASK_ACCELERATION_RANDOM_WALK_SPECTRAL_DENSITY (0x00000004) -- Denotes the acceleration random walk spectral density parameter
+ - QMI_LOC_SENSOR_PROPERTIES_MASK_ANGLE_RANDOM_WALK_SPECTRAL_DENSITY (0x00000008) -- Denotes the angle random walk spectral density parameter
+ - QMI_LOC_SENSOR_PROPERTIES_MASK_RATE_RANDOM_WALK_SPECTRAL_DENSITY (0x00000010) -- Denotes the rate random walk spectral density parameter
+ - QMI_LOC_SENSOR_PROPERTIES_MASK_VEHICLE_DATA_USE_CONTROL (0x00000020) -- Denotes the vehicle data use control parameter
+ - QMI_LOC_SENSOR_PROPERTIES_MASK_VEHICLE_VELOCITY_RWSD (0x00000040) -- Denotes the vehicle velocity random walk spectral density
+ - QMI_LOC_SENSOR_PROPERTIES_MASK_VEHICLE_ACCEL_RWSD (0x00000080) -- Denotes the vehicle accelerometer random walk spectral density
+ - QMI_LOC_SENSOR_PROPERTIES_MASK_VEHICLE_ANGLE_RWSD (0x00000100) -- Denotes the vehicle angle random walk spectral density
+ - QMI_LOC_SENSOR_PROPERTIES_MASK_VEHICLE_ANGULAR_RATE_RWSD (0x00000200) -- Denotes the vehicle angular rate random walk spectral density
+ - QMI_LOC_SENSOR_PROPERTIES_MASK_VEHICLE_ODOMETRY_SCALE_RWSD (0x00000400) -- Denotes the vehicle odometry scale random walk spectral density
+ - QMI_LOC_SENSOR_PROPERTIES_MASK_VEHICLE_ODOMETRY_VARIANCE (0x00000800) -- Denotes the vehicle odometry variance
+ */
+}qmiLocGetSensorPropertiesReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Retrieves the current sensor properties. */
+typedef struct {
+
+ /* Mandatory */
+ /* Get Sensor Properties Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Get Sensors Properties request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+
+ /* Optional */
+ /* Gyro Bias Random Walk Variance */
+ uint8_t gyroBiasVarianceRandomWalk_valid; /**< Must be set to true if gyroBiasVarianceRandomWalk is being passed */
+ float gyroBiasVarianceRandomWalk;
+ /**< Specifies the gyro bias random walk variance parameter as a positive
+ floating-point value. This value has internal default value 1.0e-5 radian^2/second^4.
+ The gyro bias variance random walk parameter is derived from either the
+ sensors data sheet or a sensors conformance test. \n
+ - Units: Radians^2/seconds^4
+
+ */
+
+ /* Optional */
+ /* Velocity Random Walk Spectral Density */
+ uint8_t velocityRandomWalkSpectralDensity_valid; /**< Must be set to true if velocityRandomWalkSpectralDensity is being passed */
+ float velocityRandomWalkSpectralDensity;
+ /**< Specifies the velocity random walk spectral density parameter as a positive
+ floating-point value. This value does not have any internal defaults.
+ The velocity random walk spectral density parameter is derived from either the
+ sensors data sheet or a sensors conformance test. \n
+ - Units: Meters/seconds^2/Hertz^0.5
+
+ */
+
+ /* Optional */
+ /* Acceleration Random Walk Spectral Density */
+ uint8_t accelerationRandomWalkSpectralDensity_valid; /**< Must be set to true if accelerationRandomWalkSpectralDensity is being passed */
+ float accelerationRandomWalkSpectralDensity;
+ /**< Specifies the acceleration random walk spectral density parameter as a positive
+ floating-point value. This value does not have any internal defaults.
+ The acceleration random walk spectral density parameter is derived from either the
+ sensors data sheet or a sensors conformance test. \n
+ - Units: Meters/seconds^3/Hertz^0.5
+
+ */
+
+ /* Optional */
+ /* Angle Random Walk Spectral Density */
+ uint8_t angleRandomWalkSpectralDensity_valid; /**< Must be set to true if angleRandomWalkSpectralDensity is being passed */
+ float angleRandomWalkSpectralDensity;
+ /**< Specifies the angle random walk spectral density parameter as a positive
+ floating-point value. This value does not have any internal defaults.
+ The angle random walk spectral density parameter is derived from either the
+ sensors data sheet or a sensors conformance test. \n
+ - Units: Radians/seconds/Hertz^0.5
+
+ */
+
+ /* Optional */
+ /* Rate Random Walk Spectral Density */
+ uint8_t rateRandomWalkSpectralDensity_valid; /**< Must be set to true if rateRandomWalkSpectralDensity is being passed */
+ float rateRandomWalkSpectralDensity;
+ /**< Specifies the rate random walk spectral density parameter as a positive
+ floating-point value. This value does not have any internal defaults.
+ The rate random walk spectral density parameter is derived from either the
+ sensors data sheet or a sensors conformance test. \n
+ - Units: Radians/seconds^2/Hertz^0.5
+
+ */
+
+ /* Optional */
+ /* Vehicle Data Use Control */
+ uint8_t vehicleDataUse_valid; /**< Must be set to true if vehicleDataUse is being passed */
+ qmiLocVehicleDataUseControlMaskT_v02 vehicleDataUse;
+ /**< Identifies which portions of the vehicle data to use in location
+ estimation (information provided by message
+ QMI_LOC_INJECT_VEHICLE_SENSOR_DATA). Valid bitmasks: \n
+ - QMI_LOC_VEHICLE_DATA_ENABLE_USE_MASK_ACCEL_X_AXIS (0x0000000000000001) -- Enable use of X-axis vehicle acceleration sensor data
+ - QMI_LOC_VEHICLE_DATA_ENABLE_USE_MASK_ACCEL_Y_AXIS (0x0000000000000002) -- Enable use of Y-axis vehicle acceleration sensor data
+ - QMI_LOC_VEHICLE_DATA_ENABLE_USE_MASK_ACCEL_Z_AXIS (0x0000000000000004) -- Enable use of Z-axis vehicle acceleration sensor data
+ - QMI_LOC_VEHICLE_DATA_ENABLE_USE_MASK_GYRO_X_AXIS (0x0000000000000010) -- Enable use of X-axis vehicle gyroscope data
+ - QMI_LOC_VEHICLE_DATA_ENABLE_USE_MASK_GYRO_Y_AXIS (0x0000000000000020) -- Enable use of Y-axis vehicle gyroscope data
+ - QMI_LOC_VEHICLE_DATA_ENABLE_USE_MASK_GYRO_Z_AXIS (0x0000000000000040) -- Enable use of Z-axis vehicle gyroscope data
+ - QMI_LOC_VEHICLE_DATA_ENABLE_USE_MASK_ODOMETRY (0x0000000000000100) -- Enable use of odometry data
+ @note1 All other bits are reserved for future use and are to be set to 0. */
+
+ /* Optional */
+ /* Vehicle Velocity Random Walk Spectral Density */
+ uint8_t vehicleVelocityRandomWalkSpectralDensity_valid; /**< Must be set to true if vehicleVelocityRandomWalkSpectralDensity is being passed */
+ float vehicleVelocityRandomWalkSpectralDensity;
+ /**< Vehicle velocity random walk spectral density. \n
+ - Type: 32-bit float \n
+ - Units: Meters/seconds^2/Hz^0.5 \n
+ - Valid values: Positive values \n
+ - Default: None
+ */
+
+ /* Optional */
+ /* Vehicle Acceleration Random Walk Spectral Density */
+ uint8_t vehicleAccelRandomWalkSpectralDensity_valid; /**< Must be set to true if vehicleAccelRandomWalkSpectralDensity is being passed */
+ float vehicleAccelRandomWalkSpectralDensity;
+ /**< Vehicle accelerometer random walk spectral density. \n
+ - Type: 32-bit float \n
+ - Units: Meters/seconds^3/Hz^0.5 \n
+ - Valid values: Positive values \n
+ - Default: None
+ */
+
+ /* Optional */
+ /* Vehicle Angle Random Walk Spectral Density */
+ uint8_t vehicleAngleRandomWalkSpectralDensity_valid; /**< Must be set to true if vehicleAngleRandomWalkSpectralDensity is being passed */
+ float vehicleAngleRandomWalkSpectralDensity;
+ /**< Vehicle angle random walk spectral density. \n
+ - Type: 32-bit float \n
+ - Units: Radians/seconds/Hz^0.5 \n
+ - Valid values: Positive values \n
+ - Default: None
+ */
+
+ /* Optional */
+ /* Vehicle Angular Rate Random Walk Spectral Density */
+ uint8_t vehicleAngularRateRandomWalkSpectralDensity_valid; /**< Must be set to true if vehicleAngularRateRandomWalkSpectralDensity is being passed */
+ float vehicleAngularRateRandomWalkSpectralDensity;
+ /**< Vehicle angular rate random walk spectral density. \n
+ - Type: 32-bit float \n
+ - Units: Radians/seconds^2/Hz^0.5 \n
+ - Valid values: Positive values \n
+ - Default: None
+ */
+
+ /* Optional */
+ /* Vehicle Odometry Scale Factor Random Walk Spectral Density */
+ uint8_t vehicleOdometryScaleFactorRandomWalkSpectralDensity_valid; /**< Must be set to true if vehicleOdometryScaleFactorRandomWalkSpectralDensity is being passed */
+ float vehicleOdometryScaleFactorRandomWalkSpectralDensity;
+ /**< Vehicle odometry scale factor random walk spectral density. \n
+ - Type: 32-bit float \n
+ - Units: (1/seconds)/Hz^0.5 \n
+ - Range: Approximately 0.0001 to 0.001 \n
+ - Default: 0.001 (actual calibration recommended)
+ */
+
+ /* Optional */
+ /* Vehicle Odometry Variance */
+ uint8_t vehicleOdometryVariance_valid; /**< Must be set to true if vehicleOdometryVariance is being passed */
+ float vehicleOdometryVariance;
+ /**< Vehicle odometry variance of each odometry sample
+ (coarseness of measurement). \n
+ - Type: 32-bit float \n
+ - Units: Meters^2 \n
+ - Valid values: Positive values \n
+ - Default: None
+ */
+}qmiLocGetSensorPropertiesIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCSENSORPERFORMANCECONTROLMODEENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_SENSOR_PERFORMANCE_CONTROL_MODE_AUTO_V02 = 0, /**< Sensors usage is to be determined by the GNSS location engine.
+ This mode can optimize power consumption and give a
+ power-balanced positioning and heading enhancement using
+ inertial sensors */
+ eQMI_LOC_SENSOR_PERFORMANCE_CONTROL_MODE_FORCED_V02 = 1, /**< Sensors usage is to be forced ON.
+ This mode can be requested by the control point when
+ power consumption is not a restriction to the use of
+ inertial sensors. */
+ QMILOCSENSORPERFORMANCECONTROLMODEENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocSensorPerformanceControlModeEnumT_v02;
+/**
+ @}
+ */
+
+typedef uint32_t qmiLocSensorAlgorithmMaskT_v02;
+#define QMI_LOC_SENSOR_ALGORITHM_MASK_DISABLE_INS_POSITIONING_FILTER_V02 ((qmiLocSensorAlgorithmMaskT_v02)0x00000001) /**< Inertial sensors are not to be used in Accelerometer-integrated fashion with
+ GNSS. They can still be used for aiding in heading improvements. */
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Provides fine-grained control of sensor based positioning
+ performance. */
+typedef struct {
+
+ /* Optional */
+ /* Sensor Performance Control Mode */
+ uint8_t performanceControlMode_valid; /**< Must be set to true if performanceControlMode is being passed */
+ qmiLocSensorPerformanceControlModeEnumT_v02 performanceControlMode;
+ /**< Controls when sensors data is requested during GNSS fix processing.
+ This field is relevant only when sensors have been enabled using the
+ sensors control configuration.
+
+ Valid values: \n
+ - eQMI_LOC_SENSOR_PERFORMANCE_CONTROL_MODE_AUTO (0) -- Sensors usage is to be determined by the GNSS location engine.
+ This mode can optimize power consumption and give a
+ power-balanced positioning and heading enhancement using
+ inertial sensors
+ - eQMI_LOC_SENSOR_PERFORMANCE_CONTROL_MODE_FORCED (1) -- Sensors usage is to be forced ON.
+ This mode can be requested by the control point when
+ power consumption is not a restriction to the use of
+ inertial sensors.
+ */
+
+ /* Optional */
+ /* Accelerometer Sampling Specification */
+ uint8_t accelSamplingSpec_valid; /**< Must be set to true if accelSamplingSpec is being passed */
+ qmiLocSensorControlConfigSamplingSpecStructT_v02 accelSamplingSpec;
+ /**< \vspace{0.06in} \n Sets the nominal rate at which the GNSS location
+ engine is to request acceleration data to be used by the low data rate
+ filter. The sensor data rate is specified in terms of the nominal number
+ of samples per batch and the number of batches per second.
+ However, the final control of the actual requested rate resides with
+ the Sensors Manager Module/GNSS location engine. \n
+ Default: 10 Hz sampling rate and 2 Hz batching rate.
+ */
+
+ /* Optional */
+ /* Gyroscope Sampling Specification */
+ uint8_t gyroSamplingSpec_valid; /**< Must be set to true if gyroSamplingSpec is being passed */
+ qmiLocSensorControlConfigSamplingSpecStructT_v02 gyroSamplingSpec;
+ /**< \vspace{0.06in} \n Sets the nominal rate at which the GNSS location
+ engine is to request gyro data to be used by the high data rate filter.
+ The sensor data rate is specified in terms of the nominal number of
+ samples per batch and the number of batches per second.
+ However, the final control of the actual requested rate resides with
+ the Sensors Manager Module/GNSS location engine. \n
+ Default: 10 Hz sampling rate and 2 Hz batching rate.
+ */
+
+ /* Optional */
+ /* Algorithm Configuration */
+ uint8_t algorithmConfig_valid; /**< Must be set to true if algorithmConfig is being passed */
+ qmiLocSensorAlgorithmMaskT_v02 algorithmConfig;
+ /**< Sets which sensor algorithms are to be used when processing sensor data.
+
+ Valid bitmasks: \begin{itemize1}
+ \item 0x00000001 -- DISABLE_INS_ POSITIONING_FILTER
+ \vspace{-0.18in} \end{itemize1}
+ */
+
+ /* Optional */
+ /* High Data Rate Filter Accelerometer Sampling Specification */
+ uint8_t accelSamplingSpecHigh_valid; /**< Must be set to true if accelSamplingSpecHigh is being passed */
+ qmiLocSensorControlConfigSamplingSpecStructT_v02 accelSamplingSpecHigh;
+ /**< \vspace{0.06in} \n Sets the nominal rate at which the GNSS location engine is to request
+ acceleration data to be used by the high data rate filter. The sensor
+ data rate is specified in terms of the nominal number of samples per
+ batch and the number of batches per second.
+ However, the final control of the actual requested rate resides with
+ the Sensors Manager Module/GNSS location engine. \n
+ Default: 100 Hz sampling rate and 4 Hz batching rate.
+ */
+
+ /* Optional */
+ /* High Data Rate Filter Gyroscope Sampling Specification */
+ uint8_t gyroSamplingSpecHigh_valid; /**< Must be set to true if gyroSamplingSpecHigh is being passed */
+ qmiLocSensorControlConfigSamplingSpecStructT_v02 gyroSamplingSpecHigh;
+ /**< \vspace{0.06in} \n Sets the nominal rate at which the GNSS location engine is to request
+ gyro data to be used by the high data rate filter. The sensor data rate
+ is specified in terms of the nominal number of samples per batch and the
+ number of batches per second.
+ However, the final control of the actual requested rate resides with
+ the Sensors Manager Module/GNSS location engine. \n
+ Default: 100 Hz sampling rate and 4 Hz batching rate.
+ */
+}qmiLocSetSensorPerformanceControlConfigReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+typedef uint32_t qmiLocSensorPerformanceControlConfigFailureMaskT_v02;
+#define QMI_LOC_SENSOR_PERFORMANCE_CONTROL_CONFIG_PARAM_MASK_PERFORMANCE_MODE_V02 ((qmiLocSensorPerformanceControlConfigFailureMaskT_v02)0x00000001) /**< Failed to set the performance mode */
+#define QMI_LOC_SENSOR_PERFORMANCE_CONTROL_CONFIG_PARAM_MASK_ACCEL_SAMPLING_SPEC_V02 ((qmiLocSensorPerformanceControlConfigFailureMaskT_v02)0x00000002) /**< Failed to set the accelerometer sampling specification */
+#define QMI_LOC_SENSOR_PERFORMANCE_CONTROL_CONFIG_PARAM_MASK_GYRO_SAMPLING_SPEC_V02 ((qmiLocSensorPerformanceControlConfigFailureMaskT_v02)0x00000004) /**< Failed to set the gyroscope sampling specification */
+#define QMI_LOC_SENSOR_PERFORMANCE_CONTROL_CONFIG_PARAM_MASK_ALGORITHM_CONFIG_V02 ((qmiLocSensorPerformanceControlConfigFailureMaskT_v02)0x00000008) /**< Failed to set the algorithm configuration */
+#define QMI_LOC_SENSOR_PERFORMANCE_CONTROL_CONFIG_PARAM_MASK_ACCEL_SAMPLING_SPEC_HIGH_V02 ((qmiLocSensorPerformanceControlConfigFailureMaskT_v02)0x00000010) /**< Failed to set the accelerometer sampling specification */
+#define QMI_LOC_SENSOR_PERFORMANCE_CONTROL_CONFIG_PARAM_MASK_GYRO_SAMPLING_SPEC_HIGH_V02 ((qmiLocSensorPerformanceControlConfigFailureMaskT_v02)0x00000020) /**< Failed to set the gyroscope sampling specification */
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Provides fine-grained control of sensor based positioning
+ performance. */
+typedef struct {
+
+ /* Mandatory */
+ /* Set Sensor Perf Control Config Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Set Sensor Performance Control Configuration request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+
+ /* Optional */
+ /* Failed Configuration */
+ uint8_t failedConfiguration_valid; /**< Must be set to true if failedConfiguration is being passed */
+ qmiLocSensorPerformanceControlConfigFailureMaskT_v02 failedConfiguration;
+ /**< Identifies parameters that were not configured successfully. This field
+ is sent only if the status is not a success.
+
+
+ Valid bitmasks: \begin{itemize1}
+ \item 0x00000001 -- PERFORMANCE_ MODE
+ \item 0x00000002 -- ACCEL_SAMPLING_ SPEC
+ \item 0x00000004 -- GYRO_SAMPLING_ SPEC
+ \item 0x00000008 -- ALGORITHM_ CONFIG
+ \item 0x00000010 -- ACCEL_SAMPLING_ SPEC_HIGH
+ \item 0x00000020 -- GYRO_SAMPLING_ SPEC_HIGH
+ \vspace{-0.18in} \end{itemize1}
+ */
+}qmiLocSetSensorPerformanceControlConfigIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Retrieves the current sensor performance control
+ configuration. */
+typedef struct {
+ /* This element is a placeholder to prevent the declaration of
+ an empty struct. DO NOT USE THIS FIELD UNDER ANY CIRCUMSTANCE */
+ char __placeholder;
+}qmiLocGetSensorPerformanceControlConfigReqMsgT_v02;
+
+ /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Retrieves the current sensor performance control
+ configuration. */
+typedef struct {
+
+ /* Mandatory */
+ /* Get Sensor Perf Control Config Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Get Sensor Performance Control Configuration request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+
+ /* Optional */
+ /* Performance Control Mode */
+ uint8_t performanceControlMode_valid; /**< Must be set to true if performanceControlMode is being passed */
+ qmiLocSensorPerformanceControlModeEnumT_v02 performanceControlMode;
+ /**< Controls when sensor data is requested during GNSS fix processing.
+ This field is relevant only when sensors have been enabled using the
+ sensor control configuration.
+
+ Valid values: \n
+ - eQMI_LOC_SENSOR_PERFORMANCE_CONTROL_MODE_AUTO (0) -- Sensors usage is to be determined by the GNSS location engine.
+ This mode can optimize power consumption and give a
+ power-balanced positioning and heading enhancement using
+ inertial sensors
+ - eQMI_LOC_SENSOR_PERFORMANCE_CONTROL_MODE_FORCED (1) -- Sensors usage is to be forced ON.
+ This mode can be requested by the control point when
+ power consumption is not a restriction to the use of
+ inertial sensors.
+ */
+
+ /* Optional */
+ /* Accelerometer Sampling Specification */
+ uint8_t accelSamplingSpec_valid; /**< Must be set to true if accelSamplingSpec is being passed */
+ qmiLocSensorControlConfigSamplingSpecStructT_v02 accelSamplingSpec;
+ /**< \vspace{0.06in} \n Sets the nominal rate at which the GNSS location engine is to request
+ acceleration data to be used by the high data rate filter. The sensor
+ data rate is specified in terms of the nominal number of samples per
+ batch and the number of batches per second.
+ However, the final control of the actual requested rate resides with
+ the Sensors Manager Module/GNSS location engine. \n
+ Default: 10 Hz sampling rate and 2 Hz batching rate.
+ */
+
+ /* Optional */
+ /* Gyroscope Sampling Specification */
+ uint8_t gyroSamplingSpec_valid; /**< Must be set to true if gyroSamplingSpec is being passed */
+ qmiLocSensorControlConfigSamplingSpecStructT_v02 gyroSamplingSpec;
+ /**< \vspace{0.06in} \n Sets the nominal rate at which the GNSS location engine is to request
+ gyro data to be used by the high data rate filter. The sensor data
+ rate is specified in terms of the nominal number of samples per batch
+ and the number of batches per second.
+ However, the final control of the actual requested rate resides with
+ the Sensors Manager Module/GNSS location engine. \n
+ Default: 10 Hz sampling rate and 2 Hz batching rate.
+ */
+
+ /* Optional */
+ /* Algorithm Configuration */
+ uint8_t algorithmConfig_valid; /**< Must be set to true if algorithmConfig is being passed */
+ qmiLocSensorAlgorithmMaskT_v02 algorithmConfig;
+ /**< Informs which sensor algorithms are currently set.
+
+ Valid bitmasks: \begin{itemize1}
+ \item 0x00000001 -- DISABLE_INS_ POSITIONING_FILTER
+ \vspace{-0.18in} \end{itemize1}
+ */
+
+ /* Optional */
+ /* High Data Rate Filter Accelerometer Sampling Specification */
+ uint8_t accelSamplingSpecHigh_valid; /**< Must be set to true if accelSamplingSpecHigh is being passed */
+ qmiLocSensorControlConfigSamplingSpecStructT_v02 accelSamplingSpecHigh;
+ /**< \vspace{0.06in} \n Sets the nominal rate at which the GNSS location engine is to request
+ acceleration data to be used by the high data rate filter. The sensor
+ data rate is specified in terms of the nominal number of samples per
+ batch and the number of batches per second.
+ However, the final control of the actual requested rate resides with
+ the Sensors Manager Module/GNSS location engine. \n
+ Default: 100 Hz sampling rate and 4 Hz batching rate.
+ */
+
+ /* Optional */
+ /* High Data Rate Filter Gyroscope Sampling Specification */
+ uint8_t gyroSamplingSpecHigh_valid; /**< Must be set to true if gyroSamplingSpecHigh is being passed */
+ qmiLocSensorControlConfigSamplingSpecStructT_v02 gyroSamplingSpecHigh;
+ /**< \vspace{0.06in} \n Sets the nominal rate at which the GNSS location engine is to request
+ gyro data to be used by the high data rate filter. The sensor data rate
+ is specified in terms of the nominal number of samples per batch and the
+ number of batches per second.
+ However, the final control of the actual requested rate resides with
+ the Sensors Manager Module/GNSS location engine. \n
+ Default: 100 Hz sampling rate and 4 Hz batching rate.
+ */
+}qmiLocGetSensorPerformanceControlConfigIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Injects a SUPL certificate to be used in AGNSS sessions. */
+typedef struct {
+
+ /* Mandatory */
+ /* SUPL Certificate ID */
+ uint8_t suplCertId;
+ /**< Certificate ID of the SUPL certificate. \n
+ - Units: Bytes \n
+ - Range: 0 to 9 */
+
+ /* Mandatory */
+ /* SUPL Certificate Data */
+ uint32_t suplCertData_len; /**< Must be set to # of elements in suplCertData */
+ uint8_t suplCertData[QMI_LOC_MAX_SUPL_CERT_LENGTH_V02];
+ /**< SUPL certificate contents. \n
+ - Type: Array of bytes \n
+ - Maximum certificate size: 2000 bytes */
+}qmiLocInjectSuplCertificateReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Injects a SUPL certificate to be used in AGNSS sessions. */
+typedef struct {
+
+ /* Mandatory */
+ /* SUPL Certificate Injection Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Inject SUPL Certificate request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+}qmiLocInjectSuplCertificateIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Deletes a SUPL certificate. */
+typedef struct {
+
+ /* Optional */
+ /* SUPL Certificate ID */
+ uint8_t suplCertId_valid; /**< Must be set to true if suplCertId is being passed */
+ uint8_t suplCertId;
+ /**< Certificate ID of the SUPL certificate to be deleted. \n
+ - Units: Bytes \n
+ - Range: 0 to 9 \n
+ If suplCertId is not specified,
+ all SUPL certificates are deleted. */
+}qmiLocDeleteSuplCertificateReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Deletes a SUPL certificate. */
+typedef struct {
+
+ /* Mandatory */
+ /* SUPL Certificate Deletion Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Delete SUPL Certificate request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+}qmiLocDeleteSuplCertificateIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+typedef uint32_t qmiLocPositionEngineConfigParamMaskT_v02;
+#define QMI_LOC_POSITION_ENGINE_CONFIG_PARAM_MASK_INJECTED_POSITION_CONTROL_V02 ((qmiLocPositionEngineConfigParamMaskT_v02)0x00000001) /**< Denotes whether the position engine uses the
+ injected position in a direct position calculation. */
+#define QMI_LOC_POSITION_ENGINE_CONFIG_PARAM_MASK_FILTER_SV_USAGE_V02 ((qmiLocPositionEngineConfigParamMaskT_v02)0x00000002) /**< Denotes whether the position engine filters the
+ SV usage in the fix. */
+#define QMI_LOC_POSITION_ENGINE_CONFIG_PARAM_MASK_STORE_ASSIST_DATA_V02 ((qmiLocPositionEngineConfigParamMaskT_v02)0x00000004) /**< Denotes whether the position engine stores assistance data
+ in persistent memory. */
+#define QMI_LOC_POSITION_ENGINE_CONFIG_PARAM_MASK_ENABLE_FASTER_TTFF_V02 ((qmiLocPositionEngineConfigParamMaskT_v02)0x00000008) /**< Denotes whether the position engine stays on to optimize
+ the TTFF for the subsequent position fix. */
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Used by the control point to configure position engine
+ functionality. */
+typedef struct {
+
+ /* Optional */
+ /* Injected Position Control */
+ uint8_t injectedPositionControl_valid; /**< Must be set to true if injectedPositionControl is being passed */
+ uint8_t injectedPositionControl;
+ /**< Controls how the injected position is used in the position engine.
+
+ Valid values: \begin{itemize1}
+ \item 0x01 (TRUE) -- Use the injected position in a direct position
+ calculation
+ \item 0x00 (FALSE) -- Do not use the injected position in a direct
+ position calculation
+ \end{itemize1}
+ The default value is TRUE.
+ */
+
+ /* Optional */
+ /* Filter SV Usage */
+ uint8_t filterSvUsage_valid; /**< Must be set to true if filterSvUsage is being passed */
+ uint8_t filterSvUsage;
+ /**< Controls whether SV usage is filtered in a position fix.
+
+ Valid values: \begin{itemize1}
+ \item 0x01 (TRUE) -- Filter the usage of SVs in the fix
+ \item 0x00 (FALSE) -- Do not filter the usage of SVs in the fix
+ \end{itemize1}
+ The default value is FALSE.
+ */
+
+ /* Optional */
+ /* Store Assist Data */
+ uint8_t storeAssistData_valid; /**< Must be set to true if storeAssistData is being passed */
+ uint8_t storeAssistData;
+ /**< Controls whether assistance data is to be stored in
+ persistent memory.
+
+ Valid values: \begin{itemize1}
+ \item 0x01 (TRUE) -- Store assistance data in persistent memory
+ \item 0x00 (FALSE) -- Do not store assistance data in persistent memory
+ \end{itemize1}
+ The default value is TRUE.
+ */
+
+ /* Optional */
+ /* Enable Faster TTFF */
+ uint8_t enableFasterTTFF_valid; /**< Must be set to true if enableFasterTTFF is being passed */
+ uint8_t enableFasterTTFF;
+ /**< Allows the receiver to stay on after a position session in order to
+ collect information that will help reduce the Time To First Fix (TTFF)
+ when the next position request is made. The receiver will stay
+ on only if the engine determines that it needs to collect some
+ information. The receiver will stay on for the duration needed to
+ collect the information.
+ If enabled, the clients may see a delay in receiving the Engine Off
+ event after the position session ends.
+
+ Valid values: \begin{itemize1}
+ \item 0x01 (TRUE) -- Allow the engine to stay on for reduced TTFF
+ \item 0x00 (FALSE) -- Do not allow the engine to stay on for reduced
+ TTFF
+ \end{itemize1}
+ The default value is TRUE.*/
+}qmiLocSetPositionEngineConfigParametersReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Used by the control point to configure position engine
+ functionality. */
+typedef struct {
+
+ /* Mandatory */
+ /* Set Position Engine Configuration Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Set Configuration Parameters request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+
+ /* Optional */
+ /* Failed Parameters */
+ uint8_t failedPositionEngineConfigParamMask_valid; /**< Must be set to true if failedPositionEngineConfigParamMask is being passed */
+ qmiLocPositionEngineConfigParamMaskT_v02 failedPositionEngineConfigParamMask;
+ /**< Identifies the parameters that were not set successfully.
+ This field is sent only if the status is other than SUCCESS.
+
+ Valid bitmasks:\n
+ - QMI_LOC_POSITION_ENGINE_CONFIG_PARAM_MASK_INJECTED_POSITION_CONTROL (0x00000001) -- Denotes whether the position engine uses the
+ injected position in a direct position calculation.
+ - QMI_LOC_POSITION_ENGINE_CONFIG_PARAM_MASK_FILTER_SV_USAGE (0x00000002) -- Denotes whether the position engine filters the
+ SV usage in the fix.
+ - QMI_LOC_POSITION_ENGINE_CONFIG_PARAM_MASK_STORE_ASSIST_DATA (0x00000004) -- Denotes whether the position engine stores assistance data
+ in persistent memory.
+ - QMI_LOC_POSITION_ENGINE_CONFIG_PARAM_MASK_ENABLE_FASTER_TTFF (0x00000008) -- Denotes whether the position engine stays on to optimize
+ the TTFF for the subsequent position fix.
+ */
+}qmiLocSetPositionEngineConfigParametersIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Used by the control point to get the position engine
+ configuration parameters. */
+typedef struct {
+
+ /* Mandatory */
+ /* Config Parameters */
+ qmiLocPositionEngineConfigParamMaskT_v02 getPositionEngineConfigParamMask;
+ /**< Mask denoting the configuration parameters to be retrieved.
+
+ Valid bitmasks:
+ - QMI_LOC_POSITION_ENGINE_CONFIG_PARAM_MASK_INJECTED_POSITION_CONTROL (0x00000001) -- Denotes whether the position engine uses the
+ injected position in a direct position calculation.
+ - QMI_LOC_POSITION_ENGINE_CONFIG_PARAM_MASK_FILTER_SV_USAGE (0x00000002) -- Denotes whether the position engine filters the
+ SV usage in the fix.
+ - QMI_LOC_POSITION_ENGINE_CONFIG_PARAM_MASK_STORE_ASSIST_DATA (0x00000004) -- Denotes whether the position engine stores assistance data
+ in persistent memory.
+ - QMI_LOC_POSITION_ENGINE_CONFIG_PARAM_MASK_ENABLE_FASTER_TTFF (0x00000008) -- Denotes whether the position engine stays on to optimize
+ the TTFF for the subsequent position fix.
+ */
+}qmiLocGetPositionEngineConfigParametersReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Used by the control point to get the position engine
+ configuration parameters. */
+typedef struct {
+
+ /* Mandatory */
+ /* Get Position Engine Configuration Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Get Configuration Parameters request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+
+ /* Optional */
+ /* Injected Position Control */
+ uint8_t injectedPositionControl_valid; /**< Must be set to true if injectedPositionControl is being passed */
+ uint8_t injectedPositionControl;
+ /**< Specifies whether the injected position is used for a direct calculation
+ in the position engine.
+
+ Valid values: \begin{itemize1}
+ \item 0x01 (TRUE) -- The injected position is used in a direct
+ position calculation
+ \item 0x00 (FALSE) -- The injected position is not used in a direct
+ position calculation
+ \end{itemize1}
+ The default value is TRUE.
+ */
+
+ /* Optional */
+ /* Filter SV Usage */
+ uint8_t filterSvUsage_valid; /**< Must be set to true if filterSvUsage is being passed */
+ uint8_t filterSvUsage;
+ /**< Specifies whether SV usage is filtered in a position fix.
+
+ Valid values: \begin{itemize1}
+ \item 0x01 (TRUE) -- SV usage is filtered in the fix
+ \item 0x00 (FALSE) -- SV usage is not filtered in the fix
+ \end{itemize1}
+ The default value is FALSE.
+ */
+
+ /* Optional */
+ /* Store Assist Data */
+ uint8_t storeAssistData_valid; /**< Must be set to true if storeAssistData is being passed */
+ uint8_t storeAssistData;
+ /**< Specifies whether assistance data is stored in persistent memory.
+
+ Valid values: \begin{itemize1}
+ \item 0x01 (TRUE) -- Assistance data is stored in persistent memory
+ \item 0x00 (FALSE) -- Assistance data is not stored in persistent
+ memory
+ \end{itemize1}
+ The default value is TRUE.
+ */
+
+ /* Optional */
+ /* Enable Faster TTFF */
+ uint8_t enableFasterTTFF_valid; /**< Must be set to true if enableFasterTTFF is being passed */
+ uint8_t enableFasterTTFF;
+ /**< Allows the receiver to stay on after a position session in order to
+ collect information that will help reduce the TTFF
+ when the next position request is made. The receiver will stay
+ on only if the engine determines that it needs to collect some
+ information. The receiver will stay on for the duration needed to
+ collect the information.
+ If enabled, the clients may see a delay in receiving the Engine Off
+ event after the position session ends.
+
+ Valid values: \begin{itemize1}
+ \item 0x01 (TRUE) -- Allow the engine to stay on for reduced TTFF
+ \item 0x00 (FALSE) -- Do not allow the engine to stay on for reduced
+ TTFF
+ \end{itemize1}
+ The default value is TRUE.*/
+}qmiLocGetPositionEngineConfigParametersIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+typedef uint8_t qmiLocGeofenceBreachMaskT_v02;
+#define QMI_LOC_GEOFENCE_BREACH_ENTERING_MASK_V02 ((qmiLocGeofenceBreachMaskT_v02)0x01) /**< If this mask is set, a breach event is reported
+ when the Geofence is entered */
+#define QMI_LOC_GEOFENCE_BREACH_LEAVING_MASK_V02 ((qmiLocGeofenceBreachMaskT_v02)0x02) /**< If this mask is set, a breach event is reported
+ when the Geofence is exited */
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCGEOFENCERESPONSIVENESSENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_GEOFENCE_RESPONSIVENESS_LOW_V02 = 0x01, /**< The Geofence is monitored for a breach at a
+ low rate of 15 minutes. The gap between the actual breach and
+ the time it is reported is higher. This
+ setting results in lower power usage. */
+ eQMI_LOC_GEOFENCE_RESPONSIVENESS_MED_V02 = 0x02, /**< The Geofence is monitored for a breach at a
+ medium rate of 2 minutes. This is the default setting. */
+ eQMI_LOC_GEOFENCE_RESPONSIVENESS_HIGH_V02 = 0x03, /**< The Geofence is monitored for a breach at a
+ high rate of 10 seconds. The gap between the actual breach and
+ the time it is reported is low. This results
+ in higher power usage. */
+ eQMI_LOC_GEOFENCE_RESPONSIVENESS_ULTRA_HIGH_V02 = 0x04, /**< The Geofence is monitored for a breach at a
+ very high rate of 1 second. The gap between the actual breach and
+ the time it is reported is very low. This results
+ in very high power usage. This setting must be avoided whenever
+ possible because of the drastic power implications. */
+ QMILOCGEOFENCERESPONSIVENESSENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocGeofenceResponsivenessEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ double latitude;
+ /**< Latitude of the center of the Geofence.*/
+
+ double longitude;
+ /**< Longitude of the center of the Geofence.*/
+
+ uint32_t radius;
+ /**< Radius of the circular Geofence in meters. */
+}qmiLocCircularGeofenceArgsStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCGEOFENCEPOSITIONENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_GEOFENCE_POSITION_INSIDE_V02 = 0x01, /**< Position is inside a Geofence */
+ eQMI_LOC_GEOFENCE_POSITION_OUTSIDE_V02 = 0x02, /**< Position is outside a Geofence */
+ QMILOCGEOFENCEPOSITIONENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocGeofencePositionEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Used by the control point to add a circular Geofence. */
+typedef struct {
+
+ /* Mandatory */
+ /* Transaction ID */
+ uint32_t transactionId;
+ /**< Identifies the transaction. The transaction ID
+ is returned in the Add Circular Geofence
+ indication. */
+
+ /* Mandatory */
+ /* Circular Geofence Arguments */
+ qmiLocCircularGeofenceArgsStructT_v02 circularGeofenceArgs;
+
+ /* Mandatory */
+ /* Breach Event Mask */
+ qmiLocGeofenceBreachMaskT_v02 breachMask;
+ /**< Specifies the breach events in which the client is interested.
+
+ Valid values: \begin{itemize1}
+ \item 0x01 -- GEOFENCE_BREACH_ ENTERING_MASK
+ \item 0x02 -- GEOFENCE_BREACH_ LEAVING_MASK
+ \vspace{-0.18in} \end{itemize1} */
+
+ /* Mandatory */
+ /* Include Position in Breach Event */
+ uint8_t includePosition;
+ /**< Specifies whether the Geofence engine is to include the position
+ in a breach event.
+
+ Valid values: \begin{itemize1}
+ \item 0x01 (TRUE) -- Position will be reported with the breach event
+ \item 0x00 (FALSE) -- Position will not be reported with the breach
+ event
+ \vspace{-0.18in} \end{itemize1} */
+
+ /* Optional */
+ /* Responsiveness */
+ uint8_t responsiveness_valid; /**< Must be set to true if responsiveness is being passed */
+ qmiLocGeofenceResponsivenessEnumT_v02 responsiveness;
+ /**< Specifies the rate of detection for a Geofence breach.
+ This may impact the time lag between the actual breach event and
+ when it is reported. This parameter has power implications
+ and is to be fine-tuned to optimize power savings.
+
+ Valid values: \n
+ - eQMI_LOC_GEOFENCE_RESPONSIVENESS_LOW (0x01) -- The Geofence is monitored for a breach at a
+ low rate of 15 minutes. The gap between the actual breach and
+ the time it is reported is higher. This
+ setting results in lower power usage.
+ - eQMI_LOC_GEOFENCE_RESPONSIVENESS_MED (0x02) -- The Geofence is monitored for a breach at a
+ medium rate of 2 minutes. This is the default setting.
+ - eQMI_LOC_GEOFENCE_RESPONSIVENESS_HIGH (0x03) -- The Geofence is monitored for a breach at a
+ high rate of 10 seconds. The gap between the actual breach and
+ the time it is reported is low. This results
+ in higher power usage.
+ - eQMI_LOC_GEOFENCE_RESPONSIVENESS_ULTRA_HIGH (0x04) -- The Geofence is monitored for a breach at a
+ very high rate of 1 second. The gap between the actual breach and
+ the time it is reported is very low. This results
+ in very high power usage. This setting must be avoided whenever
+ possible because of the drastic power implications.
+ */
+
+ /* Optional */
+ /* Confidence */
+ uint8_t confidence_valid; /**< Must be set to true if confidence is being passed */
+ qmiLocGeofenceConfidenceEnumT_v02 confidence;
+ /**< Given a breach event, the confidence determines the probability
+ that the breach happened at the Geofence boundary.
+ This parameter has power implications and
+ is to be fine-tuned to optimize power savings.
+
+ Valid values: \n
+ - eQMI_LOC_GEOFENCE_CONFIDENCE_LOW (0x01) -- Geofence engine indicates a breach with
+ low confidence; this setting results in lower
+ power usage, and it can impact the yield because
+ incorrect breach events may be sent
+ - eQMI_LOC_GEOFENCE_CONFIDENCE_MED (0x02) -- (Default) Geofence engine indicates a breach with
+ medium confidence
+ - eQMI_LOC_GEOFENCE_CONFIDENCE_HIGH (0x03) -- Geofence engine indicates a breach with
+ high confidence; this setting results in higher
+ power usage
+ */
+}qmiLocAddCircularGeofenceReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Used by the control point to add a circular Geofence. */
+typedef struct {
+
+ /* Mandatory */
+ /* Add Circular Geofence Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Add Circular Geofence request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+
+ /* Optional */
+ /* Transaction ID */
+ uint8_t transactionId_valid; /**< Must be set to true if transactionId is being passed */
+ uint32_t transactionId;
+ /**< Transaction ID that was specified in the Add Circular
+ Geofence request. This parameter will always be present
+ if the status field is set to SUCCESS. */
+
+ /* Optional */
+ /* Geofence ID */
+ uint8_t geofenceId_valid; /**< Must be set to true if geofenceId is being passed */
+ uint32_t geofenceId;
+ /**< Geofence identifier allocated by the engine.
+ The client must include this identifier in all transactions
+ pertaining to this Geofence. */
+}qmiLocAddCircularGeofenceIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Used by the control point to delete a Geofence. */
+typedef struct {
+
+ /* Mandatory */
+ /* Geofence ID */
+ uint32_t geofenceId;
+ /**< Identifier for the Geofence that is to be deleted. */
+
+ /* Mandatory */
+ /* Transaction ID */
+ uint32_t transactionId;
+ /**< Identifies the transaction. The transaction ID
+ is returned in the Delete Geofence
+ indication. */
+}qmiLocDeleteGeofenceReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Used by the control point to delete a Geofence. */
+typedef struct {
+
+ /* Mandatory */
+ /* Delete Geofence Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Delete Geofence request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+
+ /* Optional */
+ /* Geofence ID */
+ uint8_t geofenceId_valid; /**< Must be set to true if geofenceId is being passed */
+ uint32_t geofenceId;
+ /**< Identifier for the Geofence that was deleted. */
+
+ /* Optional */
+ /* Transaction ID */
+ uint8_t transactionId_valid; /**< Must be set to true if transactionId is being passed */
+ uint32_t transactionId;
+ /**< Transaction ID that was specified in the Delete
+ Geofence request. This parameter will always be present
+ if the status field is set to SUCCESS. */
+}qmiLocDeleteGeofenceIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCGEOFENCEORIGINENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_GEOFENCE_ORIGIN_NETWORK_V02 = 1, /**< Geofence was initiated by a network-initiated client */
+ eQMI_LOC_GEOFENCE_ORIGIN_DEVICE_V02 = 2, /**< Geofence was initiated by the device */
+ QMILOCGEOFENCEORIGINENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocGeofenceOriginEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCGEOFENCESTATEENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_GEOFENCE_STATE_ACTIVE_V02 = 1, /**< Geofence is being actively monitored */
+ eQMI_LOC_GEOFENCE_STATE_SUSPEND_V02 = 2, /**< Geofence monitoring is suspended */
+ QMILOCGEOFENCESTATEENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocGeofenceStateEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Used by the control point to query a Geofence. */
+typedef struct {
+
+ /* Mandatory */
+ /* Geofence ID */
+ uint32_t geofenceId;
+ /**< Identifier for the Geofence that is to be queried. */
+
+ /* Mandatory */
+ /* Transaction ID */
+ uint32_t transactionId;
+ /**< Identifies the transaction. The transaction ID
+ is returned with the Query Geofence
+ indication. */
+}qmiLocQueryGeofenceReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Used by the control point to query a Geofence. */
+typedef struct {
+
+ /* Mandatory */
+ /* Query Geofence Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Query Geofence request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+
+ /* Optional */
+ /* Geofence ID */
+ uint8_t geofenceId_valid; /**< Must be set to true if geofenceId is being passed */
+ uint32_t geofenceId;
+ /**< Identifier for the Geofence that was queried. */
+
+ /* Optional */
+ /* Transaction ID */
+ uint8_t transactionId_valid; /**< Must be set to true if transactionId is being passed */
+ uint32_t transactionId;
+ /**< Transaction ID that was specified in the Query
+ Geofence request. This parameter will always be present
+ if the status field is set to SUCCESS. */
+
+ /* Optional */
+ /* Geofence Origin */
+ uint8_t geofenceOrigin_valid; /**< Must be set to true if geofenceOrigin is being passed */
+ qmiLocGeofenceOriginEnumT_v02 geofenceOrigin;
+ /**< Originator of the Geofence.
+
+ Valid values: \n
+ - eQMI_LOC_GEOFENCE_ORIGIN_NETWORK (1) -- Geofence was initiated by a network-initiated client
+ - eQMI_LOC_GEOFENCE_ORIGIN_DEVICE (2) -- Geofence was initiated by the device
+ */
+
+ /* Optional */
+ /* Position with Respect to Geofence */
+ uint8_t posWrtGeofence_valid; /**< Must be set to true if posWrtGeofence is being passed */
+ qmiLocGeofencePositionEnumT_v02 posWrtGeofence;
+ /**< Indicates if the client is currently inside or outside
+ the Geofence.
+
+ Valid values: \n
+ - eQMI_LOC_GEOFENCE_POSITION_INSIDE (0x01) -- Position is inside a Geofence
+ - eQMI_LOC_GEOFENCE_POSITION_OUTSIDE (0x02) -- Position is outside a Geofence
+ */
+
+ /* Optional */
+ /* Circular Geofence Parameters */
+ uint8_t circularGeofenceArgs_valid; /**< Must be set to true if circularGeofenceArgs is being passed */
+ qmiLocCircularGeofenceArgsStructT_v02 circularGeofenceArgs;
+
+ /* Optional */
+ /* Geofence State */
+ uint8_t geofenceState_valid; /**< Must be set to true if geofenceState is being passed */
+ qmiLocGeofenceStateEnumT_v02 geofenceState;
+ /**< Specifies whether the Geofence is to be actively monitored.
+
+ Valid values: \n
+ - eQMI_LOC_GEOFENCE_STATE_ACTIVE (1) -- Geofence is being actively monitored
+ - eQMI_LOC_GEOFENCE_STATE_SUSPEND (2) -- Geofence monitoring is suspended
+ */
+}qmiLocQueryGeofenceIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+typedef uint32_t qmiLocMotionDetectionSourceMaskT_v02;
+#define QMI_LOC_MOTION_DETECTION_SOURCE_SENSORS_V02 ((qmiLocMotionDetectionSourceMaskT_v02)0x00000001) /**< Sensors are used for motion detection */
+#define QMI_LOC_MOTION_DETECTION_SOURCE_WIFI_V02 ((qmiLocMotionDetectionSourceMaskT_v02)0x00000002) /**< Wi-Fi is used for motion detection */
+#define QMI_LOC_MOTION_DETECTION_SOURCE_WWAN_V02 ((qmiLocMotionDetectionSourceMaskT_v02)0x00000004) /**< Wireless WAN is used for motion detection */
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCGEOFENCEMOTIONSTATESENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_GEOFENCE_MOTION_STATE_STATIONARY_V02 = 0, /**< Motion state Stationary -- Handset is completely stationary */
+ eQMI_LOC_GEOFENCE_MOTION_STATE_FIDDLE_V02 = 1, /**< Motion state Fiddle -- Handset is not in motion but is being "fiddled" with */
+ eQMI_LOC_GEOFENCE_MOTION_STATE_WALK_V02 = 2, /**< Motion state Walk -- User is walking with the handset */
+ eQMI_LOC_GEOFENCE_MOTION_STATE_RUN_V02 = 3, /**< Motion state Run -- User is running with the handset */
+ eQMI_LOC_GEOFENCE_MOTION_STATE_DRIVE_V02 = 4, /**< Motion state Drive -- User is driving with the handset */
+ QMILOCGEOFENCEMOTIONSTATESENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocGeofenceMotionStatesEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ qmiLocGeofenceMotionStatesEnumT_v02 motionState;
+ /**< Motion state for which information is being configured. */
+
+ float motionStateSpeed;
+ /**< Motion state speed in milliseconds.
+
+ These are positive floating values.
+ The state speed must be configured carefully. Very low speed
+ configuration for a state may result in missing Geofence
+ breaches in some scenarios.
+
+ Typical motion state speeds: \n
+ - Stationary speed -- 0 meters/sec
+ - Fiddle speed -- 0 meters/sec \n
+ - Walk speed -- 3 meters/sec \n
+ - Run speed -- 8 meters/sec \n
+ - Drive speed -- 56 meters/sec
+ */
+}qmiLocGeofenceMotionStateConfigStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Used by the control point to set the Geofence engine configuration. */
+typedef struct {
+
+ /* Mandatory */
+ /* Transaction ID */
+ uint32_t transactionId;
+ /**< Identifies the transaction. The transaction ID
+ is returned with the Set Geofence Configuration
+ indication. */
+
+ /* Optional */
+ /* GNSS Unavailable Indication Timeout */
+ uint8_t gnssUnavailableIndicationTimeout_valid; /**< Must be set to true if gnssUnavailableIndicationTimeout is being passed */
+ uint32_t gnssUnavailableIndicationTimeout;
+ /**< In a bad GNSS environment, this is the timeout after which the Geofence
+ engine sends out a GNSS Unavailable indication. The GNSS Unavailable
+ indication is sent under the following conditions: \begin{itemize1}
+ \item If gnssUnavailableIndicationTimeout is less than
+ gnssPositionSessionTimeout, the GNSS
+ Unavailable timeout indication is sent after
+ gnssPositionSessionTimeout expires
+ \item If gnssPositionSessionTimeout is less than
+ gnssUnavailableIndicationTimeout, the
+ GNSS Unavailable timeout indication is sent after
+ gnssUnavailableIndicationTimeout expires
+ \vspace{-0.18in} \end{itemize1} */
+
+ /* Optional */
+ /* Max Geofences */
+ uint8_t maxGeofences_valid; /**< Must be set to true if maxGeofences is being passed */
+ uint32_t maxGeofences;
+ /**< Identifies the maximum number of Geofences that can be supported by
+ the Geofence engine. If this number is less than the currently deployed
+ Geofences, this command fails.
+
+ If the command succeeds, the engine supports the maximum number of
+ Geofences requested, provided there is enough memory to support that
+ many Geofences. Increasing this value to a very large number in a
+ constrained memory environment might affect other modules negatively.
+ This value is determined by phone manufacturers. The default value
+ is 200. */
+
+ /* Optional */
+ /* Enable Motion Detection Sources */
+ uint8_t enableMotionDetectionSources_valid; /**< Must be set to true if enableMotionDetectionSources is being passed */
+ qmiLocMotionDetectionSourceMaskT_v02 enableMotionDetectionSources;
+ /**< Identifies the sources that can be enabled for motion detection by
+ the Geofence engine. The sources of motion detection that are enabled
+ by the Geofence engine are dependent on the platform.
+ These sources can only be set once at boot time and they are not expected to be changed after that.
+ Any attempt to set the value of the motion detection sources at runtime results in an undefined behavior.
+ Valid values: \n
+ - QMI_LOC_MOTION_DETECTION_SOURCE_SENSORS (0x00000001) -- Sensors are used for motion detection
+ - QMI_LOC_MOTION_DETECTION_SOURCE_WIFI (0x00000002) -- Wi-Fi is used for motion detection
+ - QMI_LOC_MOTION_DETECTION_SOURCE_WWAN (0x00000004) -- Wireless WAN is used for motion detection */
+
+ /* Optional */
+ /* Enable Coarse Position Injection Usage */
+ uint8_t enableCpiUsage_valid; /**< Must be set to true if enableCpiUsage is being passed */
+ uint8_t enableCpiUsage;
+ /**< Indicates whether external Coarse Position Injection (CPI) is used
+ by the Geofence engine.
+ \begin{itemize1}
+ \item 0x01 (TRUE) -- CPI is enabled (default)
+ \item 0x00 (FALSE) -- CPI is disabled
+ \vspace{-0.18in} \end{itemize1}*/
+
+ /* Optional */
+ /* GNSS Position QOS Session Timeout */
+ uint8_t gnssPositionSessionTimeout_valid; /**< Must be set to true if gnssPositionSessionTimeout is being passed */
+ uint32_t gnssPositionSessionTimeout;
+ /**< Identifies the session timeout value (in seconds) for requesting a
+ position in a bad GNSS environment.
+
+ Valid values: \begin{itemize1}
+ \item If the gnssUnavailableIndicationTimeout value is less than
+ gnssPositionSessionTimeout, in a bad GNSS environment, the GNSS
+ Unavailable timeout indication is sent after
+ gnssPositionSessionTimeout expires.
+ \item If gnssPositionSessionTimeout is less than gnssUnavailableIndicationTimeout,
+ in a bad GNSS environment, the GNSS Unavailable timeout indication
+ is sent after gnssUnavailableIndicationTimeout expires. \vspace{-0.18in} \end{itemize1}
+ */
+
+ /* Optional */
+ /* GNSS Position Maximum Position Uncertainity Acceptable */
+ uint8_t gnssPositionMaxPuncAcceptable_valid; /**< Must be set to true if gnssPositionMaxPuncAcceptable is being passed */
+ uint32_t gnssPositionMaxPuncAcceptable;
+ /**< GNSS maximum position uncertainity in meters acceptable by
+ the Geofence engine.
+
+ Valid values: \n
+ - All positive values
+ */
+
+ /* Optional */
+ /* Medium Responsiveness Value */
+ uint8_t mediumResponsivenessValue_valid; /**< Must be set to true if mediumResponsivenessValue is being passed */
+ uint32_t mediumResponsivenessValue;
+ /**< Medium responsiveness value in seconds that the Geofence engine
+ uses for all medium responsiveness Geofences in the Geofence engine.
+
+ Valid values: \begin{itemize1}
+ \item Positive values (in seconds)
+ \item If the value is configured for less than 30 sec, the value is
+ set at 30 sec
+ \item If the value is configured for more than 600 sec, the value is
+ set at 600 sec
+ \item Default -- The Geofence engine uses 120 sec as the medium
+ responsiveness value
+ \end{itemize1}
+
+ If the medium responsiveness value is changed, the responsiveness
+ of the existing medium responsiveness Geofence does not change until the next
+ position fix, which is based on the previous medium responsiveness
+ setting.
+ */
+
+ /* Optional */
+ /* Challenging GNSS Environment Minimmum CPI Wait Interval */
+ uint8_t chalGnssEnvMinCpiWaitInterval_valid; /**< Must be set to true if chalGnssEnvMinCpiWaitInterval is being passed */
+ uint32_t chalGnssEnvMinCpiWaitInterval;
+ /**< Number of seconds that the Geofence engine is to wait between
+ CPI requests in challenging a GNSS environment.
+
+ Valid values: \n
+ - Positive values (in seconds)
+ */
+
+ /* Optional */
+ /* Geofence Motion State Information */
+ uint8_t motionStateInfo_valid; /**< Must be set to true if motionStateInfo is being passed */
+ uint32_t motionStateInfo_len; /**< Must be set to # of elements in motionStateInfo */
+ qmiLocGeofenceMotionStateConfigStructT_v02 motionStateInfo[QMI_LOC_GEOFENCE_MAX_MOTION_STATES_V02];
+ /**< \vspace{4pt} \n Motion state informatino (e.g., motion state speed) that the
+ Geofence engine is to use.
+ */
+}qmiLocSetGeofenceEngineConfigReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Used by the control point to set the Geofence engine configuration. */
+typedef struct {
+
+ /* Mandatory */
+ /* Set Geofence Engine Configuration Status. */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Set Geofence Engine Configuration request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure */
+
+ /* Optional */
+ /* Transaction ID */
+ uint8_t transactionId_valid; /**< Must be set to true if transactionId is being passed */
+ uint32_t transactionId;
+ /**< Transaction ID that was specified in the Set Geofence Configuration
+ request. This parameter is always present if the status
+ field is set to SUCCESS. */
+}qmiLocSetGeofenceEngineConfigIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Used by the control point to get the Geofence engine configuration. */
+typedef struct {
+
+ /* Mandatory */
+ /* Transaction ID */
+ uint32_t transactionId;
+ /**< Identifies the transaction. The transaction ID
+ is returned with the Get Geofence Engine Configuration
+ indication. */
+}qmiLocGetGeofenceEngineConfigReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Used by the control point to get the Geofence engine configuration. */
+typedef struct {
+
+ /* Mandatory */
+ /* Get Geofence Engine Configuration Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Get Geofence Engine Configuration request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure */
+
+ /* Optional */
+ /* Transaction ID */
+ uint8_t transactionId_valid; /**< Must be set to true if transactionId is being passed */
+ uint32_t transactionId;
+ /**< Transaction ID that was specified in the Get Geofence Engine Configuration
+ request. This parameter is always present
+ if the status field is set to SUCCESS. */
+
+ /* Optional */
+ /* GPS Unavailable Indication Timeout */
+ uint8_t gnssUnavailableIndicationTimeout_valid; /**< Must be set to true if gnssUnavailableIndicationTimeout is being passed */
+ uint32_t gnssUnavailableIndicationTimeout;
+ /**< In a bad GNSS environment, the timeout after which the Geofence engine
+ sends out a GNSS unavailable indication. */
+
+ /* Optional */
+ /* Max Geofences */
+ uint8_t maxGeofences_valid; /**< Must be set to true if maxGeofences is being passed */
+ uint32_t maxGeofences;
+ /**< Identifies the maximum number of Geofences that are currently supported
+ in the Geofence engine. */
+
+ /* Optional */
+ /* Enabled Motion Detection Sources */
+ uint8_t enabledMotionDetectionSources_valid; /**< Must be set to true if enabledMotionDetectionSources is being passed */
+ qmiLocMotionDetectionSourceMaskT_v02 enabledMotionDetectionSources;
+ /**< Identifies the sources that are currently enabled for motion detection
+ by the Geofence engine.
+
+ Valid values: \n
+ - QMI_LOC_MOTION_DETECTION_SOURCE_SENSORS (0x00000001) -- Sensors are used for motion detection
+ - QMI_LOC_MOTION_DETECTION_SOURCE_WIFI (0x00000002) -- Wi-Fi is used for motion detection
+ - QMI_LOC_MOTION_DETECTION_SOURCE_WWAN (0x00000004) -- Wireless WAN is used for motion detection */
+
+ /* Optional */
+ /* Enabled for CPI Position Injection Usage */
+ uint8_t enabledCpiUsage_valid; /**< Must be set to true if enabledCpiUsage is being passed */
+ uint8_t enabledCpiUsage;
+ /**< Indicates whether CPI usage is enabled.
+ \begin{itemize1}
+ \item 0x01 (TRUE) -- CPI usage is enabled
+ \item 0x00 (FALSE) -- CPI usage is disabled
+ \vspace{-0.18in} \end{itemize1}*/
+}qmiLocGetGeofenceEngineConfigIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Used by the control point to edit a Geofence. */
+typedef struct {
+
+ /* Mandatory */
+ /* Geofence ID */
+ uint32_t geofenceId;
+ /**< Identifier for the Geofence to be edited. */
+
+ /* Mandatory */
+ /* Transaction ID */
+ uint32_t transactionId;
+ /**< Transaction ID that was specified in the Edit Geofence
+ request. This parameter will always be present if the
+ status field is set to SUCCESS.
+ */
+
+ /* Optional */
+ /* Geofence State */
+ uint8_t geofenceState_valid; /**< Must be set to true if geofenceState is being passed */
+ qmiLocGeofenceStateEnumT_v02 geofenceState;
+ /**< Specifies whether the Geofence is to be actively monitored.
+
+ Valid values: \n
+ - eQMI_LOC_GEOFENCE_STATE_ACTIVE (1) -- Geofence is being actively monitored
+ - eQMI_LOC_GEOFENCE_STATE_SUSPEND (2) -- Geofence monitoring is suspended
+ */
+
+ /* Optional */
+ /* Breach Event Mask */
+ uint8_t breachMask_valid; /**< Must be set to true if breachMask is being passed */
+ qmiLocGeofenceBreachMaskT_v02 breachMask;
+ /**< Specifies the breach events in which the client is interested.
+
+ Valid values: \begin{itemize1}
+ \item 0x01 -- GEOFENCE_BREACH_ ENTERING_MASK
+ \item 0x02 -- GEOFENCE_BREACH_ LEAVING_MASK
+ \vspace{-0.18in} \end{itemize1} */
+
+ /* Optional */
+ /* Responsiveness */
+ uint8_t responsiveness_valid; /**< Must be set to true if responsiveness is being passed */
+ qmiLocGeofenceResponsivenessEnumT_v02 responsiveness;
+ /**< Specifies the rate of detection for a Geofence breach.
+ This may impact the time lag between the actual breach event and
+ when it is reported. This parameter has power implications
+ and is to be fine-tuned to optimize power savings.
+
+ Valid values: \n
+ - eQMI_LOC_GEOFENCE_RESPONSIVENESS_LOW (0x01) -- The Geofence is monitored for a breach at a
+ low rate of 15 minutes. The gap between the actual breach and
+ the time it is reported is higher. This
+ setting results in lower power usage.
+ - eQMI_LOC_GEOFENCE_RESPONSIVENESS_MED (0x02) -- The Geofence is monitored for a breach at a
+ medium rate of 2 minutes. This is the default setting.
+ - eQMI_LOC_GEOFENCE_RESPONSIVENESS_HIGH (0x03) -- The Geofence is monitored for a breach at a
+ high rate of 10 seconds. The gap between the actual breach and
+ the time it is reported is low. This results
+ in higher power usage.
+ - eQMI_LOC_GEOFENCE_RESPONSIVENESS_ULTRA_HIGH (0x04) -- The Geofence is monitored for a breach at a
+ very high rate of 1 second. The gap between the actual breach and
+ the time it is reported is very low. This results
+ in very high power usage. This setting must be avoided whenever
+ possible because of the drastic power implications.
+ */
+}qmiLocEditGeofenceReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+typedef uint32_t qmiLocGeofenceConfigParamMaskT_v02;
+#define QMI_LOC_GEOFENCE_PARAM_MASK_GEOFENCE_STATE_V02 ((qmiLocGeofenceConfigParamMaskT_v02)0x00000001) /**< Mask for the Geofence state parameter. */
+#define QMI_LOC_GEOFENCE_PARAM_MASK_BREACH_MASK_V02 ((qmiLocGeofenceConfigParamMaskT_v02)0x00000002) /**< Mask for Geofence breach mask parameter. */
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Used by the control point to edit a Geofence. */
+typedef struct {
+
+ /* Mandatory */
+ /* Edit Geofence Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Edit Geofence request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure */
+
+ /* Optional */
+ /* Geofence ID */
+ uint8_t geofenceId_valid; /**< Must be set to true if geofenceId is being passed */
+ uint32_t geofenceId;
+ /**< Identifier for the Geofence that was edited. */
+
+ /* Optional */
+ /* Transaction ID */
+ uint8_t transactionId_valid; /**< Must be set to true if transactionId is being passed */
+ uint32_t transactionId;
+ /**< Identifies the transaction. The transaction ID
+ is specified in the Edit Geofence request. */
+
+ /* Optional */
+ /* Failed Parameters */
+ uint8_t failedParams_valid; /**< Must be set to true if failedParams is being passed */
+ qmiLocGeofenceConfigParamMaskT_v02 failedParams;
+ /**< Specified only when the status is not set to SUCCESS. If
+ the mask corresponding to a field is set, it indicates that
+ the Geofence parameter could not be edited.
+
+ Valid values: \begin{itemize1}
+ \item 0x00000001 -- GEOFENCE_PARAM_ MASK_GEOFENCE_STATE
+ \item 0x00000002 -- GEOFENCE_PARAM_ MASK_BREACH_MASK
+ \vspace{-0.18in} \end{itemize1} */
+}qmiLocEditGeofenceIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Used by the control point to get the best available
+ position estimate from the location engine. */
+typedef struct {
+
+ /* Mandatory */
+ /* Transaction ID */
+ uint32_t transactionId;
+ /**< Identifies the transaction. The transaction ID
+ is returned in the Get Best Available Position indication. */
+}qmiLocGetBestAvailablePositionReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Used by the control point to get the best available
+ position estimate from the location engine. */
+typedef struct {
+
+ /* Mandatory */
+ /* Get Best Available Position Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Get Best Available Position request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure */
+
+ /* Optional */
+ /* Transaction ID */
+ uint8_t transactionId_valid; /**< Must be set to true if transactionId is being passed */
+ uint32_t transactionId;
+ /**< Transaction ID that was specified in the Get Best
+ Available Position request. This parameter will
+ always be present if the status field is set to
+ SUCCESS. */
+
+ /* Optional */
+ /* Latitude */
+ uint8_t latitude_valid; /**< Must be set to true if latitude is being passed */
+ double latitude;
+ /**< Latitude (specified in WGS84 datum).
+ \begin{itemize1}
+ \item Type: Floating point
+ \item Units: Degrees
+ \item Range: -90.0 to 90.0 \begin{itemize1}
+ \item Positive values indicate northern latitude
+ \item Negative values indicate southern latitude
+ \vspace{-0.18in} \end{itemize1} \end{itemize1} */
+
+ /* Optional */
+ /* Longitude */
+ uint8_t longitude_valid; /**< Must be set to true if longitude is being passed */
+ double longitude;
+ /**< Longitude (specified in WGS84 datum).
+ \begin{itemize1}
+ \item Type: Floating point
+ \item Units: Degrees
+ \item Range: -180.0 to 180.0 \begin{itemize1}
+ \item Positive values indicate eastern longitude
+ \item Negative values indicate western longitude
+ \vspace{-0.18in} \end{itemize1} \end{itemize1} */
+
+ /* Optional */
+ /* Circular Horizontal Position Uncertainty */
+ uint8_t horUncCircular_valid; /**< Must be set to true if horUncCircular is being passed */
+ float horUncCircular;
+ /**< Horizontal position uncertainty (circular).\n
+ - Units: Meters */
+
+ /* Optional */
+ /* Altitude With Respect to Ellipsoid */
+ uint8_t altitudeWrtEllipsoid_valid; /**< Must be set to true if altitudeWrtEllipsoid is being passed */
+ float altitudeWrtEllipsoid;
+ /**< Altitude with respect to the WGS84 ellipsoid.\n
+ - Units: Meters \n
+ - Range: -500 to 15883 */
+
+ /* Optional */
+ /* Vertical Uncertainty */
+ uint8_t vertUnc_valid; /**< Must be set to true if vertUnc is being passed */
+ float vertUnc;
+ /**< Vertical uncertainty.\n
+ - Units: Meters */
+
+ /* Optional */
+ /* UTC Timestamp */
+ uint8_t timestampUtc_valid; /**< Must be set to true if timestampUtc is being passed */
+ uint64_t timestampUtc;
+ /**< UTC timestamp.
+ \begin{itemize1}
+ \item Units: Milliseconds since Jan. 1, 1970
+ \vspace{-0.18in} \end{itemize1} */
+
+ /* Optional */
+ /* Time Uncertainty */
+ uint8_t timeUnc_valid; /**< Must be set to true if timeUnc is being passed */
+ float timeUnc;
+ /**< Time uncertainty. \n
+ - Units: Milliseconds */
+
+ /* Optional */
+ /* Horizontal Elliptical Uncertainty Semi-Minor Axis */
+ uint8_t horUncEllipseSemiMinor_valid; /**< Must be set to true if horUncEllipseSemiMinor is being passed */
+ float horUncEllipseSemiMinor;
+ /**< Semi-minor axis of horizontal elliptical uncertainty. \n
+ - Units: Meters */
+
+ /* Optional */
+ /* Horizontal Elliptical Uncertainty Semi-Major Axis */
+ uint8_t horUncEllipseSemiMajor_valid; /**< Must be set to true if horUncEllipseSemiMajor is being passed */
+ float horUncEllipseSemiMajor;
+ /**< Semi-major axis of horizontal elliptical uncertainty. \n
+ - Units: Meters */
+
+ /* Optional */
+ /* Horizontal Elliptical Uncertainty Azimuth */
+ uint8_t horUncEllipseOrientAzimuth_valid; /**< Must be set to true if horUncEllipseOrientAzimuth is being passed */
+ float horUncEllipseOrientAzimuth;
+ /**< Elliptical horizontal uncertainty azimuth of orientation. \n
+ - Units: Decimal degrees \n
+ - Range: 0 to 180 */
+
+ /* Optional */
+ /* Horizontal Circular Confidence */
+ uint8_t horCircularConfidence_valid; /**< Must be set to true if horCircularConfidence is being passed */
+ uint8_t horCircularConfidence;
+ /**< Horizontal circular uncertainty confidence. \n
+ - Units: Percent \n
+ - Range: 0 to 99 */
+
+ /* Optional */
+ /* Horizontal Elliptical Confidence */
+ uint8_t horEllipticalConfidence_valid; /**< Must be set to true if horEllipticalConfidence is being passed */
+ uint8_t horEllipticalConfidence;
+ /**< Horizontal elliptical uncertainty confidence. \n
+ - Units: Percent \n
+ - Range: 0 to 99 */
+
+ /* Optional */
+ /* Horizontal Reliability */
+ uint8_t horReliability_valid; /**< Must be set to true if horReliability is being passed */
+ qmiLocReliabilityEnumT_v02 horReliability;
+ /**< Specifies the reliability of the horizontal position.
+
+ Valid values: \n
+ - eQMI_LOC_RELIABILITY_NOT_SET (0) -- Location reliability is not set
+ - eQMI_LOC_RELIABILITY_VERY_LOW (1) -- Location reliability is very low; use it at your own risk
+ - eQMI_LOC_RELIABILITY_LOW (2) -- Location reliability is low; little or no cross-checking is possible
+ - eQMI_LOC_RELIABILITY_MEDIUM (3) -- Location reliability is medium; limited cross-check passed
+ - eQMI_LOC_RELIABILITY_HIGH (4) -- Location reliability is high; strong cross-check passed
+ */
+
+ /* Optional */
+ /* Horizontal Speed */
+ uint8_t horSpeed_valid; /**< Must be set to true if horSpeed is being passed */
+ float horSpeed;
+ /**< Horizontal speed. \n
+ - Units: Meters/second */
+
+ /* Optional */
+ /* Horizontal Speed Uncertainty */
+ uint8_t horSpeedUnc_valid; /**< Must be set to true if horSpeedUnc is being passed */
+ float horSpeedUnc;
+ /**< Horizontal speed uncertainty. \n
+ - Units: Meters/second */
+
+ /* Optional */
+ /* Altitude With Respect to Sea Level */
+ uint8_t altitudeWrtMeanSeaLevel_valid; /**< Must be set to true if altitudeWrtMeanSeaLevel is being passed */
+ float altitudeWrtMeanSeaLevel;
+ /**< Altitude with respect to mean sea level. \n
+ - Units: Meters */
+
+ /* Optional */
+ /* Vertical Confidence */
+ uint8_t vertConfidence_valid; /**< Must be set to true if vertConfidence is being passed */
+ uint8_t vertConfidence;
+ /**< Vertical uncertainty confidence. \n
+ - Units: Percent \n
+ - Range: 0 to 99 */
+
+ /* Optional */
+ /* Vertical Reliability */
+ uint8_t vertReliability_valid; /**< Must be set to true if vertReliability is being passed */
+ qmiLocReliabilityEnumT_v02 vertReliability;
+ /**< Specifies the reliability of the vertical position.
+
+ Valid values: \n
+ - eQMI_LOC_RELIABILITY_NOT_SET (0) -- Location reliability is not set
+ - eQMI_LOC_RELIABILITY_VERY_LOW (1) -- Location reliability is very low; use it at your own risk
+ - eQMI_LOC_RELIABILITY_LOW (2) -- Location reliability is low; little or no cross-checking is possible
+ - eQMI_LOC_RELIABILITY_MEDIUM (3) -- Location reliability is medium; limited cross-check passed
+ - eQMI_LOC_RELIABILITY_HIGH (4) -- Location reliability is high; strong cross-check passed
+ */
+
+ /* Optional */
+ /* Vertical Speed */
+ uint8_t vertSpeed_valid; /**< Must be set to true if vertSpeed is being passed */
+ float vertSpeed;
+ /**< Vertical speed. \n
+ - Units: Meters/second */
+
+ /* Optional */
+ /* Vertical Speed Uncertainty */
+ uint8_t vertSpeedUnc_valid; /**< Must be set to true if vertSpeedUnc is being passed */
+ float vertSpeedUnc;
+ /**< Vertical speed uncertainty. \n
+ - Units: Meters/second */
+
+ /* Optional */
+ /* Heading */
+ uint8_t heading_valid; /**< Must be set to true if heading is being passed */
+ float heading;
+ /**< Heading. \n
+ - Units: Degrees \n
+ - Range: 0 to 359.999 */
+
+ /* Optional */
+ /* Heading Uncertainty */
+ uint8_t headingUnc_valid; /**< Must be set to true if headingUnc is being passed */
+ float headingUnc;
+ /**< Heading uncertainty. \n
+ - Type: Floating point \n
+ - Range: 0 to 359.999 */
+
+ /* Optional */
+ /* Magnetic Deviation */
+ uint8_t magneticDeviation_valid; /**< Must be set to true if magneticDeviation is being passed */
+ float magneticDeviation;
+ /**< Difference between the bearing to true north and the bearing shown
+ on a magnetic compass. The deviation is positive when the magnetic
+ north is east of true north. */
+
+ /* Optional */
+ /* Technology Used Mask */
+ uint8_t technologyMask_valid; /**< Must be set to true if technologyMask is being passed */
+ qmiLocPosTechMaskT_v02 technologyMask;
+ /**< Technology used in computing this fix.
+ Valid bitmasks: \n
+ - QMI_LOC_POS_TECH_MASK_SATELLITE (0x00000001) -- Satellites were used to generate the fix
+ - QMI_LOC_POS_TECH_MASK_CELLID (0x00000002) -- Cell towers were used to generate the fix
+ - QMI_LOC_POS_TECH_MASK_WIFI (0x00000004) -- Wi-Fi access points were used to generate the fix
+ - QMI_LOC_POS_TECH_MASK_SENSORS (0x00000008) -- Sensors were used to generate the fix
+ - QMI_LOC_POS_TECH_MASK_REFERENCE_LOCATION (0x00000010) -- Reference Location was used to generate the fix
+ - QMI_LOC_POS_TECH_MASK_INJECTED_COARSE_POSITION (0x00000020) -- Coarse position injected into the location engine was used to
+ generate the fix
+ - QMI_LOC_POS_TECH_MASK_AFLT (0x00000040) -- AFLT was used to generate the fix
+ - QMI_LOC_POS_TECH_MASK_HYBRID (0x00000080) -- GNSS and network-provided measurements were used to
+ generate the fix
+ */
+
+ /* Optional */
+ /* Dilution of Precision */
+ uint8_t DOP_valid; /**< Must be set to true if DOP is being passed */
+ qmiLocDOPStructT_v02 DOP;
+
+ /* Optional */
+ /* GPS Time */
+ uint8_t gpsTime_valid; /**< Must be set to true if gpsTime is being passed */
+ qmiLocGPSTimeStructT_v02 gpsTime;
+
+ /* Optional */
+ /* Time Source */
+ uint8_t timeSrc_valid; /**< Must be set to true if timeSrc is being passed */
+ qmiLocTimeSourceEnumT_v02 timeSrc;
+ /**< Time source.
+ Valid values: \n
+ - eQMI_LOC_TIME_SRC_INVALID (0) -- Invalid time.
+ - eQMI_LOC_TIME_SRC_NETWORK_TIME_TRANSFER (1) -- Time is set by the 1X system
+ - eQMI_LOC_TIME_SRC_NETWORK_TIME_TAGGING (2) -- Time is set by WCDMA/GSM time tagging (i.e.,
+ associating network time with GPS time)
+ - eQMI_LOC_TIME_SRC_EXTERNAL_INPUT (3) -- Time is set by an external injection
+ - eQMI_LOC_TIME_SRC_TOW_DECODE (4) -- Time is set after decoding over-the-air GPS navigation data
+ from one GPS satellite
+ - eQMI_LOC_TIME_SRC_TOW_CONFIRMED (5) -- Time is set after decoding over-the-air GPS navigation data
+ from multiple satellites
+ - eQMI_LOC_TIME_SRC_TOW_AND_WEEK_CONFIRMED (6) -- Both time of the week and the GPS week number are known
+ - eQMI_LOC_TIME_SRC_NAV_SOLUTION (7) -- Time is set by the position engine after the fix is obtained
+ - eQMI_LOC_TIME_SRC_SOLVE_FOR_TIME (8) -- Time is set by the position engine after performing SFT;
+ this is done when the clock time uncertainty is large
+ - eQMI_LOC_TIME_SRC_GLO_TOW_DECODE (9) -- Time is set after decoding GLO satellites
+ - eQMI_LOC_TIME_SRC_TIME_TRANSFORM (10) -- Time is set after transforming the GPS to GLO time
+ - eQMI_LOC_TIME_SRC_WCDMA_SLEEP_TIME_TAGGING (11) -- Time is set by the sleep time tag provided by the WCDMA network
+ - eQMI_LOC_TIME_SRC_GSM_SLEEP_TIME_TAGGING (12) -- Time is set by the sleep time tag provided by the GSM network
+ - eQMI_LOC_TIME_SRC_UNKNOWN (13) -- Source of the time is unknown
+ - eQMI_LOC_TIME_SRC_SYSTEM_TIMETICK (14) -- Time is derived from the system clock (better known as the slow clock);
+ GNSS time is maintained irrespective of the GNSS receiver state
+ - eQMI_LOC_TIME_SRC_QZSS_TOW_DECODE (15) -- Time is set after decoding QZSS satellites
+ - eQMI_LOC_TIME_SRC_BDS_TOW_DECODE (16) -- Time is set after decoding BDS satellites
+ */
+
+ /* Optional */
+ /* Sensor Data Usage */
+ uint8_t sensorDataUsage_valid; /**< Must be set to true if sensorDataUsage is being passed */
+ qmiLocSensorUsageIndicatorStructT_v02 sensorDataUsage;
+
+ /* Optional */
+ /* SVs Used to Calculate the Fix */
+ uint8_t gnssSvUsedList_valid; /**< Must be set to true if gnssSvUsedList is being passed */
+ uint32_t gnssSvUsedList_len; /**< Must be set to # of elements in gnssSvUsedList */
+ uint16_t gnssSvUsedList[QMI_LOC_MAX_SV_USED_LIST_LENGTH_V02];
+ /**< Each entry in the list contains the SV ID of a satellite
+ used for calculating this position report. The following
+ information is associated with each SV ID: \n
+ Range: \n
+ - For GPS: 1 to 32 \n
+ - For SBAS: 33 to 64 \n
+ - For GLONASS: 65 to 96 \n
+ - For QZSS: 193 to 197 \n
+ - For BDS: 201 to 237
+ */
+}qmiLocGetBestAvailablePositionIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCMOTIONSTATEENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_MOTION_STATE_UNKNOWN_V02 = 0, /**< Device state is not known */
+ eQMI_LOC_MOTION_STATE_STATIONARY_V02 = 1, /**< Device state is Stationary */
+ eQMI_LOC_MOTION_STATE_IN_MOTION_V02 = 2, /**< Device state is In Motion */
+ QMILOCMOTIONSTATEENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocMotionStateEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCMOTIONMODEENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_MOTION_MODE_UNKNOWN_V02 = 0, /**< Device movement is not known */
+ eQMI_LOC_MOTION_MODE_STATIONARY_V02 = 1, /**< Device is not moving */
+ eQMI_LOC_MOTION_MODE_PEDESTRIAN_UNKNOWN_V02 = 200, /**< Device movement is in Pedestrian mode; nothing else is known about the movement */
+ eQMI_LOC_MOTION_MODE_PEDESTRIAN_WALKING_V02 = 201, /**< Device movement is in pedestrian Walking mode */
+ eQMI_LOC_MOTION_MODE_PEDESTRIAN_RUNNING_V02 = 202, /**< Device movement is in pedestrian Running mode */
+ eQMI_LOC_MOTION_MODE_VEHICLE_UNKNOWN_V02 = 300, /**< Device movement is in Vehicular mode; nothing else is known about the movement */
+ QMILOCMOTIONMODEENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocMotionModeEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ qmiLocMotionStateEnumT_v02 motion_state;
+ /**< Current motion state of the user.
+
+ Valid values: \n
+ - eQMI_LOC_MOTION_STATE_UNKNOWN (0) -- Device state is not known
+ - eQMI_LOC_MOTION_STATE_STATIONARY (1) -- Device state is Stationary
+ - eQMI_LOC_MOTION_STATE_IN_MOTION (2) -- Device state is In Motion
+ */
+
+ qmiLocMotionModeEnumT_v02 motion_mode;
+ /**< Modes of user motion.
+
+ Valid values: \n
+ - eQMI_LOC_MOTION_MODE_UNKNOWN (0) -- Device movement is not known
+ - eQMI_LOC_MOTION_MODE_STATIONARY (1) -- Device is not moving
+ - eQMI_LOC_MOTION_MODE_PEDESTRIAN_UNKNOWN (200) -- Device movement is in Pedestrian mode; nothing else is known about the movement
+ - eQMI_LOC_MOTION_MODE_PEDESTRIAN_WALKING (201) -- Device movement is in pedestrian Walking mode
+ - eQMI_LOC_MOTION_MODE_PEDESTRIAN_RUNNING (202) -- Device movement is in pedestrian Running mode
+ - eQMI_LOC_MOTION_MODE_VEHICLE_UNKNOWN (300) -- Device movement is in Vehicular mode; nothing else is known about the movement
+ */
+
+ float probability_of_state;
+ /**< Probability that the device is actually undergoing the motion state
+ specified by the combination of the values of motion_state, motion_mode,
+ and motion_sub_mode. \vspace{0.1in}
+
+ This value is a floating point number in the range of 0 to 100, in
+ units of percent probability. Any value greater than 99.9999 is
+ applied as 99.9999. \vspace{0.1in}
+
+ It is recommended that if a particular combination of motion_state and
+ motion_mode cannot be determined with more than 50 percent confidence,
+ that a more general statement of user motion be made.
+ For example, if the mode of In-Motion + Pedestrian-Running can only be
+ determined with 50 percent probability, and the simpler statement of In-Motion
+ can be determined with 90 percent probability, it is recommended that this field
+ be used to simply state In-Motion with 90 percent probability. \vspace{0.1in}
+
+ If the motion_state is not known, the value in this field is not used.
+ */
+
+ uint16_t age;
+ /**< Age of the motion data in milliseconds at the time of injection.
+ */
+
+ uint16_t timeout;
+ /**< If the age of the motion data input exceeds the timeout value, the data
+ will no longer be used. The timeout value is in units of milliseconds.
+ Values in the range of 0 to 10000 are accepted. If 65535 is provided,
+ the motion data input is applied until the next input is
+ received. \n
+
+ If the determination of motion data is an instantaneous observation
+ and no notice is guaranteed to be given via the QMI on a change in the
+ state of the motion data, it is recommended that this field be set to 0. \vspace{0.1in}
+
+ If the determination of motion data is continuously monitored
+ external to the QMI and an update is always applied to the QMI upon any
+ change in state, a value of 65535 is used for this field.
+ Note that in this case, if a certain mode is set and is not later
+ unset (e.g., by sending in the request message with a user motion
+ state of Unknown), the value is applied indefinitely.
+ */
+}qmiLocMotionDataStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Injects motion data for MSM GPS service use. */
+typedef struct {
+
+ /* Mandatory */
+ /* Motion Data */
+ qmiLocMotionDataStructT_v02 motion_data;
+}qmiLocInjectMotionDataReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Injects motion data for MSM GPS service use. */
+typedef struct {
+
+ /* Mandatory */
+ /* Inject Motion Data Request Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Inject Motion Data request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+}qmiLocInjectMotionDataIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Used by the control point to retrieve the list of network
+ initiated Geofence IDs. */
+typedef struct {
+
+ /* Mandatory */
+ /* Transaction ID */
+ uint32_t transactionId;
+ /**< Identifies the transaction. The same transaction ID
+ will be returned in the Get NI Geofence ID List indication. */
+}qmiLocGetNiGeofenceIdListReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Used by the control point to retrieve the list of network
+ initiated Geofence IDs. */
+typedef struct {
+
+ /* Mandatory */
+ /* Get NI Geofence ID List Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Get NI Geofence ID List request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure */
+
+ /* Optional */
+ /* Transaction ID */
+ uint8_t transactionId_valid; /**< Must be set to true if transactionId is being passed */
+ uint32_t transactionId;
+ /**< Transaction ID that was specified in the Get NI
+ Geofence ID List request. */
+
+ /* Optional */
+ /* NI Geofence ID List */
+ uint8_t niGeofenceIdList_valid; /**< Must be set to true if niGeofenceIdList is being passed */
+ uint32_t niGeofenceIdList_len; /**< Must be set to # of elements in niGeofenceIdList */
+ uint32_t niGeofenceIdList[QMI_LOC_MAX_NI_GEOFENCE_ID_LIST_LENGTH_V02];
+ /**< List containing the NI Geofence IDs.
+ - Type: Array of unsigned 32-bit integers \n
+ - Maximum NI Geofence ID List length: 16 */
+}qmiLocGetNiGeofenceIdListIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ uint32_t MCC;
+ /**< GSM mobile country code. Refer to ITU-T E.212 \hyperref[S6]{[S6]}. */
+
+ uint32_t MNC;
+ /**< GSM mobile network code. Refer to \hyperref[S6]{[S6]}. */
+
+ uint32_t LAC;
+ /**< GSM location area code. Refer to \hyperref[S6]{[S6]}. */
+
+ uint32_t CID;
+ /**< GSM cell identification. Refer to \hyperref[S6]{[S6]}. */
+}qmiLocGSMCellIdStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Injects GSM cell information into the location
+ engine. */
+typedef struct {
+
+ /* Mandatory */
+ /* GSM Cell ID */
+ qmiLocGSMCellIdStructT_v02 gsmCellId;
+ /**< \vspace{0.06in} \n Identifies the GSM cell on which the device is currently camped. */
+
+ /* Mandatory */
+ /* Roaming Status */
+ uint8_t roamingStatus;
+ /**< Indicates whether the device is roaming.
+ \begin{itemize1}
+ \item 0x01 (TRUE) -- Device is roaming
+ \item 0x00 (FALSE) -- Device is not roaming
+ \vspace{-0.18in} \end{itemize1}*/
+
+ /* Optional */
+ /* Timing Advance */
+ uint8_t timingAdvance_valid; /**< Must be set to true if timingAdvance is being passed */
+ uint32_t timingAdvance;
+ /**< Round trip delay between the MS and the BS, in units of 3.69 microseconds.
+ Refer to 3GPP TS 05.10 and TS 45.010. */
+}qmiLocInjectGSMCellInfoReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Injects GSM cell information into the location
+ engine. */
+typedef struct {
+
+ /* Mandatory */
+ /* Inject GSM Cell Info Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Inject GSM Cell Info request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure */
+}qmiLocInjectGSMCellInfoIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCROAMINGSTATUSENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_PHONE_NOT_ROAMING_V02 = 1, /**< Modem is camped on a home network */
+ eQMI_LOC_PHONE_ROAMING_V02 = 2, /**< Modem is camped on a roaming network */
+ QMILOCROAMINGSTATUSENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocRoamingStatusEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ uint32_t mcc;
+ /**< WCDMA mobile country code. Refer to ITU-T E.212 \hyperref[S6]{[S6]}. */
+
+ uint32_t mnc;
+ /**< WCDMA mobile network code. Refer to \hyperref[S6]{[S6]}. */
+
+ uint32_t cid;
+ /**< WCDMA cell identity. Refer to \hyperref[S6]{[S6]}. */
+}qmiLocWCDMACellIdStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Injects WCDMA cell information into the location
+ engine. */
+typedef struct {
+
+ /* Mandatory */
+ /* WCDMA Cell ID */
+ qmiLocWCDMACellIdStructT_v02 wcdmaCellId;
+ /**< \n Identifies the WCDMA cell on which the device is currently camped. */
+
+ /* Mandatory */
+ /* Roaming Status */
+ qmiLocRoamingStatusEnumT_v02 roamingStatus;
+ /**< Indicates whether the device is roaming.
+
+ Valid values: \n
+ - eQMI_LOC_PHONE_NOT_ROAMING (1) -- Modem is camped on a home network
+ - eQMI_LOC_PHONE_ROAMING (2) -- Modem is camped on a roaming network
+ */
+
+ /* Optional */
+ /* Cell Frequency */
+ uint8_t freq_valid; /**< Must be set to true if freq is being passed */
+ uint32_t freq;
+ /**< Frequency information of the serving cell. \n
+ Valid range: 0 to 16383 \n
+ Refer to TS 25.331 \hyperref[S7]{[S7]}. */
+
+ /* Optional */
+ /* Primary Scrambling Code */
+ uint8_t psc_valid; /**< Must be set to true if psc is being passed */
+ uint32_t psc;
+ /**< Primary scrambling code of the serving cell. \n
+ Valid range: 0 to 511 \n
+ Refer to \hyperref[S7]{[S7]}. */
+}qmiLocInjectWCDMACellInfoReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Injects WCDMA cell information into the location
+ engine. */
+typedef struct {
+
+ /* Mandatory */
+ /* Inject WCDMA Cell Info Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Inject WCDMA Cell Info request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure */
+}qmiLocInjectWCDMACellInfoIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ uint32_t mcc;
+ /**< TDSCDMA mobile country code. Refer to ITU-T E.212 \hyperref[S6]{[S6]}. */
+
+ uint32_t mnc;
+ /**< TDSCDMA mobile network code. Refer to \hyperref[S6]{[S6]}. */
+
+ uint32_t cid;
+ /**< TDSCDMA cell identity. Refer to TS 25.331 \hyperref[S7]{[S7]}. */
+
+ uint32_t lac;
+ /**< TDSCDMA location area code. Refer to \hyperref[S6]{[S6]}. */
+}qmiLocTDSCDMACellIdStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Injects TDSCDMA cell information into the location
+ engine. */
+typedef struct {
+
+ /* Mandatory */
+ /* TDSCDMA Cell ID */
+ qmiLocTDSCDMACellIdStructT_v02 tdscdmaCellId;
+ /**< \n Identifies the TDSCDMA cell on which the device is currently camped. */
+
+ /* Mandatory */
+ /* Roaming Status */
+ qmiLocRoamingStatusEnumT_v02 roamingStatus;
+ /**< Indicates whether the device is roaming.
+
+ Valid values: \n
+ - eQMI_LOC_PHONE_NOT_ROAMING (1) -- Modem is camped on a home network
+ - eQMI_LOC_PHONE_ROAMING (2) -- Modem is camped on a roaming network
+ */
+
+ /* Optional */
+ /* Cell Frequency */
+ uint8_t freq_valid; /**< Must be set to true if freq is being passed */
+ uint32_t freq;
+ /**< Frequency information of the serving cell. \n
+ Valid range: 0 to 16383 \n
+ Refer to \hyperref[S7]{[S7]}. */
+}qmiLocInjectTDSCDMACellInfoReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Injects TDSCDMA cell information into the location
+ engine. */
+typedef struct {
+
+ /* Mandatory */
+ /* Inject TDSCDMA Cell Info Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Inject TDSCDMA Cell Info request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure */
+}qmiLocInjectTDSCDMACellInfoIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Injects the phone's subscriber ID into the location engine. */
+typedef struct {
+
+ /* Optional */
+ /* Preferred IMSI */
+ uint8_t preferredIMSI_valid; /**< Must be set to true if preferredIMSI is being passed */
+ uint64_t preferredIMSI;
+ /**< IMSI number of the preferred RAT. Refer to \hyperref[S6]{[S6]}.*/
+
+ /* Optional */
+ /* Preferred MSISDN */
+ uint8_t preferredMSISDN_valid; /**< Must be set to true if preferredMSISDN is being passed */
+ uint64_t preferredMSISDN;
+ /**< MSISDN number of the preferred RAT. Refer to \hyperref[S6]{[S6]}.*/
+}qmiLocInjectSubscriberIDReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Injects the phone's subscriber ID into the location engine. */
+typedef struct {
+
+ /* Mandatory */
+ /* Inject Subscriber ID Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Inject Subscriber ID request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure */
+}qmiLocInjectSubscriberIDIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCINJECTEDNETWORKINITIATEDMESSAGETYPEENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_INJECTED_NETWORK_INITIATED_MESSAGE_TYPE_SUPL_V02 = 0, /**< SUPL network-initiated message is being injected. */
+ QMILOCINJECTEDNETWORKINITIATEDMESSAGETYPEENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocInjectedNetworkInitiatedMessageTypeEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Injects a network-initiated message into the location
+ engine. */
+typedef struct {
+
+ /* Mandatory */
+ /* Injected Network Initiated Message Type */
+ qmiLocInjectedNetworkInitiatedMessageTypeEnumT_v02 injectedNIMessageType;
+ /**< Type of the network-initiated message being injected.
+
+ Valid values: \n
+ - eQMI_LOC_INJECTED_NETWORK_INITIATED_MESSAGE_TYPE_SUPL (0) -- SUPL network-initiated message is being injected. */
+
+ /* Mandatory */
+ /* Injected Network Initiated Message */
+ uint32_t injectedNIMessage_len; /**< Must be set to # of elements in injectedNIMessage */
+ uint8_t injectedNIMessage[QMI_LOC_MAX_INJECTED_NETWORK_INITIATED_MESSAGE_LENGTH_V02];
+ /**< Network-initiated message body.
+ If the inject NI message type is TYPE_SUPL, the message contains
+ a SUPL INIT message as defined in OMA-TS-ULP-V2_0-20110527-C \hyperref[S5]{[S5]}. */
+}qmiLocInjectNetworkInitiatedMessageReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Injects a network-initiated message into the location
+ engine. */
+typedef struct {
+
+ /* Mandatory */
+ /* Inject Network Initiated Message Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Inject Network Initiated Message request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure */
+}qmiLocInjectNetworkInitiatedMessageIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Notifies the location engine that the device is out of
+ service. */
+typedef struct {
+ /* This element is a placeholder to prevent the declaration of
+ an empty struct. DO NOT USE THIS FIELD UNDER ANY CIRCUMSTANCE */
+ char __placeholder;
+}qmiLocWWANOutOfServiceNotificationReqMsgT_v02;
+
+ /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Notifies the location engine that the device is out of
+ service. */
+typedef struct {
+
+ /* Mandatory */
+ /* Notify WWAN Out of Service Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Notify WWAN Out of Service request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+}qmiLocWWANOutOfServiceNotificationIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Used by the control point to inject pedometer data
+ into the location engine. */
+typedef struct {
+
+ /* Mandatory */
+ /* Time Source */
+ qmiLocSensorDataTimeSourceEnumT_v02 timeSource;
+ /**< Time source for the pedometer. The location service uses
+ this field to identify the time reference used in the
+ pedometer data time stamp.
+
+ Valid values: \n
+ - eQMI_LOC_SENSOR_TIME_SOURCE_UNSPECIFIED (0) -- Sensor time source is unspecified
+ - eQMI_LOC_SENSOR_TIME_SOURCE_COMMON (1) -- Time source is common between the sensors and
+ the location engine
+ */
+
+ /* Mandatory */
+ /* Pedometer Report Timestamp */
+ uint32_t timestamp;
+ /**< Time stamp of the last step event in this report, i.e., the time stamp
+ of the step event that caused this report to be generated.
+ The time stamp is in the time reference scale that is
+ used by the pedometer time source. \n
+ - Units: Milliseconds */
+
+ /* Mandatory */
+ /* Time Interval */
+ uint32_t timeInterval;
+ /**< Time interval during which the step count was calculated. Subtracting
+ timeInterval from the timestamp field yields the time when
+ the step detection for the first step in this report started. \n
+ - Units: Milliseconds */
+
+ /* Mandatory */
+ /* Step Count */
+ uint32_t stepCount;
+ /**< Number of steps counted during the time interval. */
+
+ /* Optional */
+ /* Step Confidence */
+ uint8_t stepConfidence_valid; /**< Must be set to true if stepConfidence is being passed */
+ uint8_t stepConfidence;
+ /**< Confidence associated with the step. This field is only applicable
+ for a single step report, i.e., if the step count is one. \n
+ - Range: 0 to 100 \n
+ \textbf{Note:} The report is ignored if confidence is 0. */
+
+ /* Optional */
+ /* Step Count Uncertainty */
+ uint8_t stepCountUncertainty_valid; /**< Must be set to true if stepCountUncertainty is being passed */
+ float stepCountUncertainty;
+ /**< Uncertainty (in steps) associated with the step count. */
+
+ /* Optional */
+ /* Step Rate */
+ uint8_t stepRate_valid; /**< Must be set to true if stepRate is being passed */
+ float stepRate;
+ /**< Current estimate for the rate of steps per second. \n
+ - Units: steps/second \n
+ - Range: >= 0.0 */
+}qmiLocPedometerReportReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Used by the control point to inject pedometer data
+ into the location engine. */
+typedef struct {
+
+ /* Mandatory */
+ /* Status of Pedometer Report Request */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Pedometer Report request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+}qmiLocPedometerReportIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Used by the control point to get the batching size. */
+typedef struct {
+
+ /* Mandatory */
+ /* Transaction ID */
+ uint32_t transactionId;
+ /**< Identifies the transaction. The transaction ID is returned in the Get
+ Batch Size indication. */
+
+ /* Mandatory */
+ /* Requested Batch Size */
+ uint32_t batchSize;
+ /**< Request the service with the number of location fixes to be batched. */
+}qmiLocGetBatchSizeReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Used by the control point to get the batching size. */
+typedef struct {
+
+ /* Mandatory */
+ /* Get Batch Size Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Get Batch Size request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+
+ /* Mandatory */
+ /* Transaction ID */
+ uint32_t transactionId;
+ /**< Transaction ID that was specified in the Get Batch
+ Size request.
+ */
+
+ /* Mandatory */
+ /* Batch Size Supported */
+ uint32_t batchSize;
+ /**< Number of location fixes that the service is able to batch.
+ The batch size value is returned as 0 in the case of a failure status.
+ */
+}qmiLocGetBatchSizeIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Used by the control point to initiate a batching session. */
+typedef struct {
+
+ /* Optional */
+ /* Minimum Interval Between Position Reports */
+ uint8_t minInterval_valid; /**< Must be set to true if minInterval is being passed */
+ uint32_t minInterval;
+ /**< Minimum time interval, specified by the control point, that must elapse between
+ position reports. \n
+ - Units: milliseconds \n
+ - Default: 60000 ms
+ */
+
+ /* Optional */
+ /* Horizontal Accuracy Level */
+ uint8_t horizontalAccuracyLevel_valid; /**< Must be set to true if horizontalAccuracyLevel is being passed */
+ qmiLocAccuracyLevelEnumT_v02 horizontalAccuracyLevel;
+ /**< Specifies the horizontal accuracy level required by the control point.
+ If not specified, accuracy defaults to LOW.
+
+ Valid values: \n
+ - eQMI_LOC_ACCURACY_LOW (1) -- Low accuracy
+ - eQMI_LOC_ACCURACY_MED (2) -- Medium accuracy
+ - eQMI_LOC_ACCURACY_HIGH (3) -- High accuracy
+ */
+
+ /* Optional */
+ /* Fix Session Timeout Period */
+ uint8_t fixSessionTimeout_valid; /**< Must be set to true if fixSessionTimeout is being passed */
+ uint32_t fixSessionTimeout;
+ /**< Configures the fix session timeout duration. \n
+ - Units: Milliseconds \n
+ - Default: 20,000 ms
+ */
+}qmiLocStartBatchingReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Used by the control point to initiate a batching session. */
+typedef struct {
+
+ /* Mandatory */
+ /* Start Batching Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Start Batching request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+}qmiLocStartBatchingIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Used to notify the control point that the batched buffer is full. */
+typedef struct {
+
+ /* Mandatory */
+ /* Number of Entries in the Batch During Full Event */
+ uint32_t batchCount;
+ /**< Number of entries in the batch during a full event.
+ */
+}qmiLocEventBatchFullIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+typedef uint64_t qmiLocBatchedReportValidFieldsMaskT_v02;
+#define QMI_LOC_BATCHED_REPORT_MASK_VALID_LATITUDE_V02 ((qmiLocBatchedReportValidFieldsMaskT_v02)0x00000001ull) /**< Latitude field is valid for this fix */
+#define QMI_LOC_BATCHED_REPORT_MASK_VALID_LONGITUDE_V02 ((qmiLocBatchedReportValidFieldsMaskT_v02)0x00000002ull) /**< Longitude field is valid for this fix */
+#define QMI_LOC_BATCHED_REPORT_MASK_VALID_HOR_CIR_UNC_V02 ((qmiLocBatchedReportValidFieldsMaskT_v02)0x00000004ull) /**< Horizontal circular uncertainty field is valid for this fix */
+#define QMI_LOC_BATCHED_REPORT_MASK_VALID_SPEED_HOR_V02 ((qmiLocBatchedReportValidFieldsMaskT_v02)0x00000008ull) /**< Horizontal speed field is valid for this fix */
+#define QMI_LOC_BATCHED_REPORT_MASK_VALID_SPEED_UNC_V02 ((qmiLocBatchedReportValidFieldsMaskT_v02)0x00000010ull) /**< Speed uncertainty field is valid for this fix */
+#define QMI_LOC_BATCHED_REPORT_MASK_VALID_ALT_WRT_ELP_V02 ((qmiLocBatchedReportValidFieldsMaskT_v02)0x00000020ull) /**< Altitude with respect to ellipsoid field is valid for this fix */
+#define QMI_LOC_BATCHED_REPORT_MASK_VALID_SPEED_VER_V02 ((qmiLocBatchedReportValidFieldsMaskT_v02)0x00000040ull) /**< Vertical speed field is valid for this fix */
+#define QMI_LOC_BATCHED_REPORT_MASK_VALID_HEADING_V02 ((qmiLocBatchedReportValidFieldsMaskT_v02)0x00000080ull) /**< Heading field is valid for this fix */
+#define QMI_LOC_BATCHED_REPORT_MASK_VALID_HEADING_UNC_V02 ((qmiLocBatchedReportValidFieldsMaskT_v02)0x00000100ull) /**< Heading uncertainty field is valid for this fix */
+#define QMI_LOC_BATCHED_REPORT_MASK_VALID_TECH_MASK_V02 ((qmiLocBatchedReportValidFieldsMaskT_v02)0x00000200ull) /**< Technology source mask field is valid for this fix */
+#define QMI_LOC_BATCHED_REPORT_MASK_VALID_TIMESTAMP_UTC_V02 ((qmiLocBatchedReportValidFieldsMaskT_v02)0x00000400ull) /**< UTC timestamp field is valid for this fix */
+#define QMI_LOC_BATCHED_REPORT_MASK_VALID_TIME_UNC_V02 ((qmiLocBatchedReportValidFieldsMaskT_v02)0x00000800ull) /**< Time uncertainty field is valid for this fix */
+#define QMI_LOC_BATCHED_REPORT_MASK_VALID_MAGNETIC_DEV_V02 ((qmiLocBatchedReportValidFieldsMaskT_v02)0x00001000ull) /**< Magnetic deviation field is valid for this fix */
+#define QMI_LOC_BATCHED_REPORT_MASK_VALID_VERT_UNC_V02 ((qmiLocBatchedReportValidFieldsMaskT_v02)0x00002000ull) /**< Vertical uncertainty field is valid for this fix */
+#define QMI_LOC_BATCHED_REPORT_MASK_VALID_HOR_CONF_V02 ((qmiLocBatchedReportValidFieldsMaskT_v02)0x00004000ull) /**< Horizontal confidence field is valid for this fix */
+#define QMI_LOC_BATCHED_REPORT_MASK_VALID_TIMESTAMP_GPS_V02 ((qmiLocBatchedReportValidFieldsMaskT_v02)0x00008000ull) /**< GPS timestamp field is valid for this fix */
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ uint32_t fixId;
+ /**< Fix count for the session. The count starts at 0 and increments by one for
+ each successive batched position report for a particular session. */
+
+ qmiLocBatchedReportValidFieldsMaskT_v02 validFields;
+ /**< Mask of all valid fields for this fix.
+ Valid bitmasks: \n
+ - QMI_LOC_BATCHED_REPORT_MASK_VALID_LATITUDE (0x00000001) -- Latitude field is valid for this fix
+ - QMI_LOC_BATCHED_REPORT_MASK_VALID_LONGITUDE (0x00000002) -- Longitude field is valid for this fix
+ - QMI_LOC_BATCHED_REPORT_MASK_VALID_HOR_CIR_UNC (0x00000004) -- Horizontal circular uncertainty field is valid for this fix
+ - QMI_LOC_BATCHED_REPORT_MASK_VALID_SPEED_HOR (0x00000008) -- Horizontal speed field is valid for this fix
+ - QMI_LOC_BATCHED_REPORT_MASK_VALID_SPEED_UNC (0x00000010) -- Speed uncertainty field is valid for this fix
+ - QMI_LOC_BATCHED_REPORT_MASK_VALID_ALT_WRT_ELP (0x00000020) -- Altitude with respect to ellipsoid field is valid for this fix
+ - QMI_LOC_BATCHED_REPORT_MASK_VALID_SPEED_VER (0x00000040) -- Vertical speed field is valid for this fix
+ - QMI_LOC_BATCHED_REPORT_MASK_VALID_HEADING (0x00000080) -- Heading field is valid for this fix
+ - QMI_LOC_BATCHED_REPORT_MASK_VALID_HEADING_UNC (0x00000100) -- Heading uncertainty field is valid for this fix
+ - QMI_LOC_BATCHED_REPORT_MASK_VALID_TECH_MASK (0x00000200) -- Technology source mask field is valid for this fix
+ - QMI_LOC_BATCHED_REPORT_MASK_VALID_TIMESTAMP_UTC (0x00000400) -- UTC timestamp field is valid for this fix
+ - QMI_LOC_BATCHED_REPORT_MASK_VALID_TIME_UNC (0x00000800) -- Time uncertainty field is valid for this fix
+ - QMI_LOC_BATCHED_REPORT_MASK_VALID_MAGNETIC_DEV (0x00001000) -- Magnetic deviation field is valid for this fix
+ - QMI_LOC_BATCHED_REPORT_MASK_VALID_VERT_UNC (0x00002000) -- Vertical uncertainty field is valid for this fix
+ - QMI_LOC_BATCHED_REPORT_MASK_VALID_HOR_CONF (0x00004000) -- Horizontal confidence field is valid for this fix
+ - QMI_LOC_BATCHED_REPORT_MASK_VALID_TIMESTAMP_GPS (0x00008000) -- GPS timestamp field is valid for this fix
+ */
+
+ double latitude;
+ /**< Latitude (specified in WGS84 datum).
+ \begin{itemize1}
+ \item Type: Floating point
+ \item Units: Degrees
+ \item Range: -90.0 to 90.0 \begin{itemize1}
+ \item Positive values indicate northern latitude
+ \item Negative values indicate southern latitude
+ \vspace{-0.18in} \end{itemize1} \end{itemize1} */
+
+ double longitude;
+ /**< Longitude (specified in WGS84 datum).
+ \begin{itemize1}
+ \item Type: Floating point
+ \item Units: Degrees
+ \item Range: -180.0 to 180.0 \begin{itemize1}
+ \item Positive values indicate eastern longitude
+ \item Negative values indicate western longitude
+ \vspace{-0.18in} \end{itemize1} \end{itemize1} */
+
+ float horUncCircular;
+ /**< Horizontal position uncertainty (circular).\n
+ - Units: Meters */
+
+ float speedHorizontal;
+ /**< Horizontal speed.\n
+ - Units: Meters/second */
+
+ float speedUnc;
+ /**< 3-D Speed uncertainty.\n
+ - Units: Meters/second */
+
+ float altitudeWrtEllipsoid;
+ /**< Altitude with respect to the WGS84 ellipsoid.\n
+ - Units: Meters \n
+ - Range: -500 to 15883 */
+
+ float speedVertical;
+ /**< Vertical speed.\n
+ - Units: Meters/second */
+
+ float heading;
+ /**< Heading.\n
+ - Units: Degrees \n
+ - Range: 0 to 359.999 */
+
+ float headingUnc;
+ /**< Heading uncertainty.\n
+ - Units: Degrees \n
+ - Range: 0 to 359.999 */
+
+ qmiLocPosTechMaskT_v02 technologyMask;
+ /**< Technology used in computing this fix.
+ Valid bitmasks: \n
+ - QMI_LOC_POS_TECH_MASK_SATELLITE (0x00000001) -- Satellites were used to generate the fix
+ - QMI_LOC_POS_TECH_MASK_CELLID (0x00000002) -- Cell towers were used to generate the fix
+ - QMI_LOC_POS_TECH_MASK_WIFI (0x00000004) -- Wi-Fi access points were used to generate the fix
+ - QMI_LOC_POS_TECH_MASK_SENSORS (0x00000008) -- Sensors were used to generate the fix
+ - QMI_LOC_POS_TECH_MASK_REFERENCE_LOCATION (0x00000010) -- Reference Location was used to generate the fix
+ - QMI_LOC_POS_TECH_MASK_INJECTED_COARSE_POSITION (0x00000020) -- Coarse position injected into the location engine was used to
+ generate the fix
+ - QMI_LOC_POS_TECH_MASK_AFLT (0x00000040) -- AFLT was used to generate the fix
+ - QMI_LOC_POS_TECH_MASK_HYBRID (0x00000080) -- GNSS and network-provided measurements were used to
+ generate the fix
+ */
+
+ uint64_t timestampUtc;
+ /**< UTC timestamp. \n
+ - Units: Milliseconds since Jan. 1, 1970 */
+
+ float timeUnc;
+ /**< Time uncertainty. \n
+ - Units: Milliseconds */
+
+ float magneticDeviation;
+ /**< Difference between the bearing to true north and the bearing shown
+ on a magnetic compass. The deviation is positive when the magnetic
+ north is east of true north. */
+
+ float vertUnc;
+ /**< Vertical uncertainty.\n
+ - Units: Meters */
+
+ uint8_t horConfidence;
+ /**< Horizontal confidence.
+ - Units: Percent
+ - Range: 0 to 99 */
+
+ qmiLocGPSTimeStructT_v02 gpsTime;
+ /**< Number of weeks since Jan. 5, 1980, and milliseconds into the current week. */
+}qmiLocBatchedReportStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Used to notify the control point with the live batched
+ position report. */
+typedef struct {
+
+ /* Mandatory */
+ /* Batched Position Report */
+ qmiLocBatchedReportStructT_v02 liveBatchedReport;
+ /**< \n Live position report that is also batched. */
+}qmiLocEventLiveBatchedPositionReportIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Used by the control point to retrieve fixes from the batch. */
+typedef struct {
+
+ /* Mandatory */
+ /* Number of Fix Entries to be Retrieved from the Batch */
+ uint32_t numberOfEntries;
+ /**< Number of fix entries to be retrieved from the batch. \n
+ Maximum limit -- QMI_LOC_READ_FROM_BATCH_MAX_SIZE.
+ */
+
+ /* Mandatory */
+ /* Transaction ID */
+ uint32_t transactionId;
+ /**< Identifies the transaction. The transaction ID is returned in the Read
+ from Batch indication. */
+
+ /* Optional */
+ /* Bread Crumb Buffer Id */
+ uint8_t bufferId_valid; /**< Must be set to true if bufferId is being passed */
+ uint16_t bufferId;
+ /**< The buffer id that was received by the control point in
+ QMI_LOC_EVENT_DBT_POSITION_REPORT*/
+}qmiLocReadFromBatchReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Used by the control point to retrieve fixes from the batch. */
+typedef struct {
+
+ /* Mandatory */
+ /* Read from Batch Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Read from Batch request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+
+ /* Mandatory */
+ /* Transaction ID */
+ uint32_t transactionId;
+ /**< Transaction ID that was specified in the Read from Batch
+ request.
+ */
+
+ /* Optional */
+ /* Number of Fix Entries Returned from the Batch */
+ uint8_t numberOfEntries_valid; /**< Must be set to true if numberOfEntries is being passed */
+ uint32_t numberOfEntries;
+ /**< Number of fix entries returned from the batch. */
+
+ /* Optional */
+ /* List of Batched Position Reports Returned */
+ uint8_t batchedReportList_valid; /**< Must be set to true if batchedReportList is being passed */
+ uint32_t batchedReportList_len; /**< Must be set to # of elements in batchedReportList */
+ qmiLocBatchedReportStructT_v02 batchedReportList[QMI_LOC_READ_FROM_BATCH_MAX_SIZE_V02];
+ /**< \n List of fix reports returned from the batch. */
+}qmiLocReadFromBatchIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Used by the control point to stop an ongoing batching session. */
+typedef struct {
+
+ /* Mandatory */
+ /* Transaction ID */
+ uint32_t transactionId;
+ /**< Transaction ID of the request. */
+}qmiLocStopBatchingReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Used by the control point to stop an ongoing batching session. */
+typedef struct {
+
+ /* Mandatory */
+ /* Stop Batching Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Stop Batching request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+
+ /* Mandatory */
+ /* Transaction ID */
+ uint32_t transactionId;
+ /**< Transaction ID that was specified in the Stop Batching request.
+ */
+}qmiLocStopBatchingIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Used by the control point to release the batching buffer. */
+typedef struct {
+
+ /* Mandatory */
+ /* Transaction ID */
+ uint32_t transactionId;
+ /**< Identifies the transaction. */
+}qmiLocReleaseBatchReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Used by the control point to release the batching buffer. */
+typedef struct {
+
+ /* Mandatory */
+ /* Release Batch Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Release Batch request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+
+ /* Mandatory */
+ /* Transaction ID */
+ uint32_t transactionId;
+ /**< Transaction ID that was specified in the Release Batch request.
+ */
+}qmiLocReleaseBatchIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Requests the control point to inject Wi-Fi AP data. */
+typedef struct {
+ /* This element is a placeholder to prevent the declaration of
+ an empty struct. DO NOT USE THIS FIELD UNDER ANY CIRCUMSTANCE */
+ char __placeholder;
+}qmiLocEventInjectWifiApDataReqIndMsgT_v02;
+
+ /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCWIFIAPDATADEVICETYPEENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_WIFI_AP_DATA_DEVICE_TYPE_WLAN_802_11_A_V02 = 0, /**< Wi-Fi AP device is 802.11a. */
+ eQMI_LOC_WIFI_AP_DATA_DEVICE_TYPE_WLAN_802_11_B_V02 = 1, /**< Wi-Fi AP device is 802.11b. */
+ eQMI_LOC_WIFI_AP_DATA_DEVICE_TYPE_WLAN_802_11_G_V02 = 2, /**< Wi-Fi AP device is 802.11g. */
+ QMILOCWIFIAPDATADEVICETYPEENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocWifiApDataDeviceTypeEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCWIFIAPDATARTDUNITTYPEENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_WIFI_AP_DATA_RTD_UNIT_MICROSEC_V02 = 0, /**< Wi-Fi AP data Round-trip Delay (RTD) is in microseconds. */
+ eQMI_LOC_WIFI_AP_DATA_RTD_UNIT_HUNDREDS_OF_NANOSEC_V02 = 1, /**< Wi-Fi AP data RTD is in hundreds of nanoseconds. */
+ eQMI_LOC_WIFI_AP_DATA_RTD_UNIT_TENS_OF_NANOSEC_V02 = 2, /**< Wi-Fi AP data RTD is in tens of nanoseconds. */
+ eQMI_LOC_WIFI_AP_DATA_RTD_UNIT_NANOSEC_V02 = 3, /**< Wi-Fi AP data RTD is in nanoseconds. */
+ eQMI_LOC_WIFI_AP_DATA_RTD_UNIT_TENTH_OF_NANOSEC_V02 = 4, /**< Wi-Fi AP data RTD is in tenths of nanoseconds. */
+ QMILOCWIFIAPDATARTDUNITTYPEENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocWifiApDataRtdUnitTypeEnumT_v02;
+/**
+ @}
+ */
+
+typedef uint32_t qmiLocWifiApDataMaskT_v02;
+#define QMI_LOC_WIFI_APDATA_MASK_AP_TRANSMIT_POWER_V02 ((qmiLocWifiApDataMaskT_v02)0x00000001) /**< AP transmit power is valid */
+#define QMI_LOC_WIFI_APDATA_MASK_AP_ANTENNA_GAIN_V02 ((qmiLocWifiApDataMaskT_v02)0x00000002) /**< AP antenna gain is valid */
+#define QMI_LOC_WIFI_APDATA_MASK_AP_SNR_V02 ((qmiLocWifiApDataMaskT_v02)0x00000004) /**< AP signal-to-noise ratio is valid */
+#define QMI_LOC_WIFI_APDATA_MASK_AP_DEVICE_TYPE_V02 ((qmiLocWifiApDataMaskT_v02)0x00000008) /**< AP device type is valid */
+#define QMI_LOC_WIFI_APDATA_MASK_AP_RSSI_V02 ((qmiLocWifiApDataMaskT_v02)0x00000010) /**< AP RSSI is valid */
+#define QMI_LOC_WIFI_APDATA_MASK_AP_CHANNEL_V02 ((qmiLocWifiApDataMaskT_v02)0x00000020) /**< AP channel is valid */
+#define QMI_LOC_WIFI_APDATA_MASK_AP_ROUNDTRIP_DELAY_V02 ((qmiLocWifiApDataMaskT_v02)0x00000040) /**< AP roundtrip delay is valid */
+#define QMI_LOC_WIFI_APDATA_MASK_AP_ROUNDTRIP_DELAY_ACCURACY_V02 ((qmiLocWifiApDataMaskT_v02)0x00000080) /**< AP roundtrip delay accuracy is valid */
+#define QMI_LOC_WIFI_APDATA_MASK_MOBILE_SNR_V02 ((qmiLocWifiApDataMaskT_v02)0x00000100) /**< Mobile signal-to-noise ratio is valid */
+#define QMI_LOC_WIFI_APDATA_MASK_MOBILE_RSSI_V02 ((qmiLocWifiApDataMaskT_v02)0x00000200) /**< Mobile RSSI is valid */
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ qmiLocWifiApDataMaskT_v02 wifiApDataMask;
+ /**< Specifies which Wi-Fi AP scan information types are being used.
+
+ Valid values: \n
+ - QMI_LOC_WIFI_APDATA_MASK_AP_TRANSMIT_POWER (0x00000001) -- AP transmit power is valid
+ - QMI_LOC_WIFI_APDATA_MASK_AP_ANTENNA_GAIN (0x00000002) -- AP antenna gain is valid
+ - QMI_LOC_WIFI_APDATA_MASK_AP_SNR (0x00000004) -- AP signal-to-noise ratio is valid
+ - QMI_LOC_WIFI_APDATA_MASK_AP_DEVICE_TYPE (0x00000008) -- AP device type is valid
+ - QMI_LOC_WIFI_APDATA_MASK_AP_RSSI (0x00000010) -- AP RSSI is valid
+ - QMI_LOC_WIFI_APDATA_MASK_AP_CHANNEL (0x00000020) -- AP channel is valid
+ - QMI_LOC_WIFI_APDATA_MASK_AP_ROUNDTRIP_DELAY (0x00000040) -- AP roundtrip delay is valid
+ - QMI_LOC_WIFI_APDATA_MASK_AP_ROUNDTRIP_DELAY_ACCURACY (0x00000080) -- AP roundtrip delay accuracy is valid
+ - QMI_LOC_WIFI_APDATA_MASK_MOBILE_SNR (0x00000100) -- Mobile signal-to-noise ratio is valid
+ - QMI_LOC_WIFI_APDATA_MASK_MOBILE_RSSI (0x00000200) -- Mobile RSSI is valid */
+
+ uint8_t macAddress[QMI_LOC_WIFI_MAC_ADDR_LENGTH_V02];
+ /**< MAC address. \n
+ Each address is of length QMI_LOC_WIFI_MAC_ADDR_LENGTH.
+ */
+
+ int32_t apTransmitPower;
+ /**< AP transmit power in dBm. */
+
+ int32_t apAntennaGain;
+ /**< AP antenna gain in dBI. */
+
+ int32_t apSignalToNoise;
+ /**< AP SNR received at the mobile device. */
+
+ qmiLocWifiApDataDeviceTypeEnumT_v02 apDeviceType;
+ /**< List of AP device types. */
+
+ int32_t apRssi;
+ /**< AP signal strength indicator in dBm. */
+
+ uint16_t apChannel;
+ /**< AP Wi-Fi channel on which a beacon was received. */
+
+ uint32_t apRoundTripDelay;
+ /**< Round trip delay between the mobile device and the AP, in units of
+ apRoundTripDelayUnit. */
+
+ qmiLocWifiApDataRtdUnitTypeEnumT_v02 apRoundTripDelayUnit;
+ /**< Units of apRoundTripDelay and its accuracy; mandatory if apRoundTripDelay
+ is present. */
+
+ uint8_t apRoundTripDelayAccuracy;
+ /**< AP's accuracy of round trip delay apRoundTripDelay, in units of
+ apRoundTripDelayUnit. */
+
+ int32_t mobileSignalToNoise;
+ /**< Mobile SNR received at the AP. */
+
+ int32_t mobileRssi;
+ /**< Mobile signal strength at the AP. */
+}qmiLocWifiApDataStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Injects Wi-Fi AP data. */
+typedef struct {
+
+ /* Mandatory */
+ /* Wi-Fi AP Scan Data */
+ uint32_t wifiApInfo_len; /**< Must be set to # of elements in wifiApInfo */
+ qmiLocWifiApDataStructT_v02 wifiApInfo[QMI_LOC_WIFI_MAX_REPORTED_APS_PER_MSG_V02];
+ /**< \n List of Wi-Fi AP scan information entered by the control point. */
+}qmiLocInjectWifiApDataReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Injects Wi-Fi AP data. */
+typedef struct {
+
+ /* Mandatory */
+ /* Wi-Fi AP Scan Information Injection Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Inject Wi-Fi AP Scan Information request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure */
+}qmiLocInjectWifiApDataIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCWIFIACCESSPOINTATTACHSTATESENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_WIFI_ACCESS_POINT_ATTACHED_V02 = 0, /**< Attached to an access point */
+ eQMI_LOC_WIFI_ACCESS_POINT_DETACHED_V02 = 1, /**< Detached from an access point */
+ eQMI_LOC_WIFI_ACCESS_POINT_HANDOVER_V02 = 2, /**< Handed over to another access point */
+ QMILOCWIFIACCESSPOINTATTACHSTATESENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocWifiAccessPointAttachStatesEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Used by the control point to inject the Wi-Fi attachment status. */
+typedef struct {
+
+ /* Mandatory */
+ /* Attach State */
+ qmiLocWifiAccessPointAttachStatesEnumT_v02 attachState;
+ /**< Wi.Fi access point attach state.
+
+ Valid values: \n
+ - eQMI_LOC_WIFI_ACCESS_POINT_ATTACHED (0) -- Attached to an access point
+ - eQMI_LOC_WIFI_ACCESS_POINT_DETACHED (1) -- Detached from an access point
+ - eQMI_LOC_WIFI_ACCESS_POINT_HANDOVER (2) -- Handed over to another access point */
+
+ /* Optional */
+ /* Access Point MAC Address */
+ uint8_t accessPointMacAddress_valid; /**< Must be set to true if accessPointMacAddress is being passed */
+ uint8_t accessPointMacAddress[QMI_LOC_WIFI_MAC_ADDR_LENGTH_V02];
+ /**< MAC address of the access point to which the Wi-Fi is attached.
+ This must always be specified if the attach state is Handover.
+ */
+
+ /* Optional */
+ /* Wi-Fi AP SSID String */
+ uint8_t wifiApSsid_valid; /**< Must be set to true if wifiApSsid is being passed */
+ char wifiApSsid[QMI_LOC_MAX_WIFI_AP_SSID_STR_LENGTH_V02 + 1];
+ /**< The NULL-terminated SSID of the Wi-Fi AP. Its maximum length according to the ASCII standard is 32 octets. */
+}qmiLocNotifyWifiAttachmentStatusReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Used by the control point to inject the Wi-Fi attachment status. */
+typedef struct {
+
+ /* Mandatory */
+ /* Status of Wi-Fi Attachment Status Request */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of Wi-Fi Attachment Status request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure */
+}qmiLocNotifyWifiAttachmentStatusIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCWIFIENABLEDSTATUSENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_WIFI_ENABLED_FALSE_V02 = 0, /**< Wi-Fi is disabled on the device */
+ eQMI_LOC_WIFI_ENABLED_TRUE_V02 = 1, /**< Wi-Fi is enabled on the device */
+ QMILOCWIFIENABLEDSTATUSENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocWifiEnabledStatusEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Used by the control point to inject the Wi-Fi enabled status. */
+typedef struct {
+
+ /* Mandatory */
+ /* Enabled Status */
+ qmiLocWifiEnabledStatusEnumT_v02 enabledStatus;
+ /**< Wi-Fi enabled status on the device.
+
+ Valid values: \n
+ - eQMI_LOC_WIFI_ENABLED_FALSE (0) -- Wi-Fi is disabled on the device
+ - eQMI_LOC_WIFI_ENABLED_TRUE (1) -- Wi-Fi is enabled on the device */
+}qmiLocNotifyWifiEnabledStatusReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Used by the control point to inject the Wi-Fi enabled status. */
+typedef struct {
+
+ /* Mandatory */
+ /* Status of Wi-Fi Enabled Status Request */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Wi-Fi Enabled Status request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure */
+}qmiLocNotifyWifiEnabledStatusIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Notifies the control point whether the GNSS location engine is
+ ready to accept vehicle data. */
+typedef struct {
+
+ /* Optional */
+ /* Vehicle Accelerometer Ready Status */
+ uint8_t vehicleAccelReadyStatus_valid; /**< Must be set to true if vehicleAccelReadyStatus is being passed */
+ uint8_t vehicleAccelReadyStatus;
+ /**< The location service uses this TLV to let a control point know when it is
+ ready or not ready to receive vehicle accelerometer data input.
+ Values: \n
+ - 0x00 -- Not ready \n
+ - 0x01 -- Ready */
+
+ /* Optional */
+ /* Vehicle Angular Rate Ready Status */
+ uint8_t vehicleAngularRateReadyStatus_valid; /**< Must be set to true if vehicleAngularRateReadyStatus is being passed */
+ uint8_t vehicleAngularRateReadyStatus;
+ /**< The location service uses this TLV to let a control point know when it is
+ ready or not ready to receive vehicle angular rate data input.
+ Values: \n
+ - 0x00 -- Not ready \n
+ - 0x01 -- Ready */
+
+ /* Optional */
+ /* Vehicle Odometry Ready Status */
+ uint8_t vehicleOdometryReadyStatus_valid; /**< Must be set to true if vehicleOdometryReadyStatus is being passed */
+ uint8_t vehicleOdometryReadyStatus;
+ /**< The location service uses this TLV to let a control point know when it is
+ ready or not ready to receive vehicle odometry data input.
+ Values: \n
+ - 0x00 -- Not ready \n
+ - 0x01 -- Ready*/
+}qmiLocEventVehicleDataReadyIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ uint32_t timeOffset;
+ /**< Sample time offset. This time offset must be
+ relative to the vehicle sensor time of the first sample. \n
+ - Units: Microseconds \n
+ - Range: Up to over 4000 seconds */
+
+ uint32_t axisSample_len; /**< Must be set to # of elements in axisSample */
+ float axisSample[QMI_LOC_VEHICLE_SENSOR_DATA_MAX_AXES_V02];
+ /**< Sensor axis sample. \n
+ - Type: Floating point \n
+ - Units accelerometer: Meters/seconds^2 \n
+ - Units gyroscope: Radians/seconds \vspace{4pt}
+
+ Note: The axes samples must be in the following order: \n
+ 1. X-Axis \n
+ 2. Y-Axis \n
+ 3. Z-Axis */
+}qmiLocVehicleSensorSampleStructT_v02; /* Type */
+/**
+ @}
+ */
+
+typedef uint8_t qmiLocAxesMaskT_v02;
+#define QMI_LOC_MASK_X_AXIS_V02 ((qmiLocAxesMaskT_v02)0x01) /**< X-axis is valid */
+#define QMI_LOC_MASK_Y_AXIS_V02 ((qmiLocAxesMaskT_v02)0x02) /**< Y-axis is valid */
+#define QMI_LOC_MASK_Z_AXIS_V02 ((qmiLocAxesMaskT_v02)0x04) /**< Z-axis is valid */
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ uint32_t sampleTimeBase;
+ /**< Denotes a 32-bit time tag of the reference time from which
+ all samples in this message are offset. This time must
+ be the same as or (slightly) earlier than the first (oldest)
+ sample in this message. \n
+ - Units: Milliseconds \n
+ - Range: ~4 million seconds, or almost 50 days between rollovers */
+
+ qmiLocAxesMaskT_v02 axesValidity;
+ /**< Identifies the axes that are valid for all sensor samples.
+
+ Valid values: \n
+ - QMI_LOC_MASK_X_AXIS (0x01) -- X-axis is valid
+ - QMI_LOC_MASK_Y_AXIS (0x02) -- Y-axis is valid
+ - QMI_LOC_MASK_Z_AXIS (0x04) -- Z-axis is valid */
+
+ uint32_t sensorData_len; /**< Must be set to # of elements in sensorData */
+ qmiLocVehicleSensorSampleStructT_v02 sensorData[QMI_LOC_VEHICLE_SENSOR_DATA_MAX_SAMPLES_V02];
+}qmiLocVehicleSensorSampleListStructType_v02; /* Type */
+/**
+ @}
+ */
+
+typedef uint32_t qmiLocVehicleOdometryMeasDeviationMaskType_v02;
+#define QMI_LOC_MASK_VEHICLE_ODOMETRY_REVERSE_MOVEMENT_V02 ((qmiLocVehicleOdometryMeasDeviationMaskType_v02)0x00000001) /**< Odometry data in this message includes at least some data where
+ the vehicle may have been moving in the reverse direction; this
+ bit must be set if odometry data may be in reverse, and should
+ not be set if odometry data is all in the forward direction */
+#define QMI_LOC_MASK_VEHICLE_ODOMETRY_AFFECTED_BY_ERRORS_V02 ((qmiLocVehicleOdometryMeasDeviationMaskType_v02)0x00000002) /**< Odometry data in this message includes at least some data affected
+ by a major error source affecting distance-travelled accuracy,
+ such as wheel slippage due to skidding, gravel, snow, or ice, as
+ detected by the vehicle, e.g., via an ABS or other system */
+#define QMI_LOC_MASK_VEHICLE_ODOMETRY_ABSOLUTE_MEASUREMENT_V02 ((qmiLocVehicleOdometryMeasDeviationMaskType_v02)0x00000004) /**< Odometry data in this message is an absolute amount since the vehicle
+ began service, and is the same vehicle that is regularly used with
+ this device (so that the offset of this value, since the last time
+ this measurement was used by the location engine, can safely be used
+ as a likely correct estimate of distance travelled since last
+ use) */
+typedef uint32_t qmiLocVehicleOdometryWheelFlagsMaskT_v02;
+#define QMI_LOC_MASK_VEHICLE_ODOMETRY_LEFT_AND_RIGHT_AVERAGE_V02 ((qmiLocVehicleOdometryWheelFlagsMaskT_v02)0x00000001) /**< Average of left and right non-turning wheels */
+#define QMI_LOC_MASK_VEHICLE_ODOMETRY_LEFT_V02 ((qmiLocVehicleOdometryWheelFlagsMaskT_v02)0x00000002) /**< Left side, non-turning wheel */
+#define QMI_LOC_MASK_VEHICLE_ODOMETRY_RIGHT_V02 ((qmiLocVehicleOdometryWheelFlagsMaskT_v02)0x00000004) /**< Right side, non-turning wheel */
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ uint32_t timeOffset;
+ /**< Sample time offset. This time offset must be
+ relative to the sensor time of the first sample. \n
+ - Units: Microseconds \n
+ - Range: Up to over 4000 seconds */
+
+ uint32_t distanceTravelled_len; /**< Must be set to # of elements in distanceTravelled */
+ uint32_t distanceTravelled[QMI_LOC_VEHICLE_ODOMETRY_MAX_MEASUREMENTS_V02];
+ /**< Distance travelled (odometry) sample offset. \n
+ - Units of accumulated distance: Millimeters \n
+ - Range: Over 4000 kilometers
+
+ This measurement (with units in millimeters) is added to
+ the distance_travelled_base measurement (in meters) to
+ get the total distance travelled sample value.
+
+ Note: The order of measurements must be as follows: \n
+ 1. Left and right average \n
+ 2. Left \n
+ 3. Right
+ */
+}qmiLocVehicleOdometrySampleStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ uint32_t sampleTimeBase;
+ /**< Denotes a 32-bit time tag of a reference time, from which
+ all samples in this message are offset. Note this time must
+ be the same or (slightly) earlier than the first (oldest)
+ sample in this message. \n
+ - Units: 1 millisecond \n
+ - Range: ~4 million seconds, or almost 50 days between rollovers */
+
+ qmiLocVehicleOdometryMeasDeviationMaskType_v02 flags;
+ /**< Flags to indicate any deviation from the default measurement
+ assumptions. Valid bitmasks: \n
+ - QMI_LOC_MASK_VEHICLE_ODOMETRY_REVERSE_MOVEMENT (0x00000001) -- Odometry data in this message includes at least some data where
+ the vehicle may have been moving in the reverse direction; this
+ bit must be set if odometry data may be in reverse, and should
+ not be set if odometry data is all in the forward direction
+ - QMI_LOC_MASK_VEHICLE_ODOMETRY_AFFECTED_BY_ERRORS (0x00000002) -- Odometry data in this message includes at least some data affected
+ by a major error source affecting distance-travelled accuracy,
+ such as wheel slippage due to skidding, gravel, snow, or ice, as
+ detected by the vehicle, e.g., via an ABS or other system
+ - QMI_LOC_MASK_VEHICLE_ODOMETRY_ABSOLUTE_MEASUREMENT (0x00000004) -- Odometry data in this message is an absolute amount since the vehicle
+ began service, and is the same vehicle that is regularly used with
+ this device (so that the offset of this value, since the last time
+ this measurement was used by the location engine, can safely be used
+ as a likely correct estimate of distance travelled since last
+ use) */
+
+ qmiLocVehicleOdometryWheelFlagsMaskT_v02 wheelFlags;
+ /**< Delineates for which wheels measurements are being provided
+ in the following samples, where one or more of the following
+ bits must be set, and data samples aligned with these axes must
+ appear in groups, in this order.
+
+ Valid bitmasks: \n
+ - QMI_LOC_MASK_VEHICLE_ODOMETRY_LEFT_AND_RIGHT_AVERAGE (0x00000001) -- Average of left and right non-turning wheels
+ - QMI_LOC_MASK_VEHICLE_ODOMETRY_LEFT (0x00000002) -- Left side, non-turning wheel
+ - QMI_LOC_MASK_VEHICLE_ODOMETRY_RIGHT (0x00000004) -- Right side, non-turning wheel */
+
+ uint32_t distanceTravelledBase;
+ /**< Distance traveled base. \n
+ - Units of accumulated distance: Meters \n
+ - Range: Over 4,000,0000 kilometers \vspace{0.06in} \n
+
+ Distance travelled (odometry) is to be reported in a continuously
+ accumulating way from device power up. It may be incremental distance
+ starting at 0, or another arbitrary point, from device power up, or the
+ absolute distance traveled by the vehicle
+ (and if so, set QMI_LOC_MASK_VEHICLE_ODOMETRY_ABSOLUTE_MEASUREMENT),
+ as long as it grows incrementally from device power up.
+
+ This distance_travelled_base is added to the distrance_travelled_offset
+ of each sample (below) to get the absolute distance of each sample
+ point.
+
+ Distance travelled errors are expected to be primarily due to the
+ scale factor, with some allowance for noise due to minor slippage
+ events (e.g., gravel.)
+ Major wheel slippage events that affect odometry
+ must be flagged -- see the flags field.
+
+ Note that other events, such as a vehicle travelling in reverse, may
+ also affect the available accuracy of this information, and notification
+ of those events must be provided -- see the flags field. */
+
+ uint32_t odometryData_len; /**< Must be set to # of elements in odometryData */
+ qmiLocVehicleOdometrySampleStructT_v02 odometryData[QMI_LOC_VEHICLE_SENSOR_DATA_MAX_SAMPLES_V02];
+ /**< Variable length array to specify the odometry samples.
+ Maximum length of the array is 50. */
+}qmiLocVehicleOdometrySampleListStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Injects on-vehicle sensor data into the location engine. */
+typedef struct {
+
+ /* Optional */
+ /* On-Vehicle Accelerometer Data */
+ uint8_t accelData_valid; /**< Must be set to true if accelData is being passed */
+ qmiLocVehicleSensorSampleListStructType_v02 accelData;
+ /**< \vspace{0.06in} \n Vehicle accelerometer sensor samples. */
+
+ /* Optional */
+ /* On-Vehicle Angular Rotation Data */
+ uint8_t angRotationData_valid; /**< Must be set to true if angRotationData is being passed */
+ qmiLocVehicleSensorSampleListStructType_v02 angRotationData;
+ /**< \vspace{0.06in} \n Vehicle angular rotation data sensor samples. */
+
+ /* Optional */
+ /* Odometry Data */
+ uint8_t odometryData_valid; /**< Must be set to true if odometryData is being passed */
+ qmiLocVehicleOdometrySampleListStructT_v02 odometryData;
+ /**< \vspace{0.06in} \n Odometer sensor samples. */
+
+ /* Optional */
+ /* External Time Sync Information */
+ uint8_t changeInTimeScales_valid; /**< Must be set to true if changeInTimeScales is being passed */
+ int32_t changeInTimeScales;
+ /**< This field is to be used in conjunction with an external
+ time-sync mechanism that is aligning the vehicle sensor time scale
+ with the on-device sensor time scale to ensure that updates in
+ that time offset do not appear as jumps in the relative sensor time
+ of the samples provided in this message. If there is no such sync
+ mechanism, e.g., if only the vehicle time is provided, this field
+ may be left at 0.
+
+ This field is defined as the change from the previously-sent QMI
+ message with similar TLVs 0x10, 0x11, or 0x12 in it, to this QMI
+ message in the amount that the sensor_time is ahead of an
+ external vehicle time. \n
+
+ - Units: Microseconds \n
+ - Range: Approximately -2100 seconds to + 2100 seconds, where
+ full-scale (minimum and maximum value) is interpreted
+ as equal to or greater than this value of an offset change
+ (unlikely to be reached in practice, unless there is a
+ startup, major resync, or some other rollover event). */
+}qmiLocInjectVehicleSensorDataReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Injects on-vehicle sensor data into the location engine. */
+typedef struct {
+
+ /* Mandatory */
+ /* Inject Vehicle Sensor Data Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Inject Vehicle Sensor Data request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure */
+}qmiLocInjectVehicleSensorDataIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Used by the control point to get the first available WWAN
+ position from the location engine. */
+typedef struct {
+
+ /* Mandatory */
+ /* Transaction ID */
+ uint32_t transactionId;
+ /**< Identifies the transaction. The transaction ID
+ is returned in the Get Available WWAN Position indication. */
+}qmiLocGetAvailWwanPositionReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Used by the control point to get the first available WWAN
+ position from the location engine. */
+typedef struct {
+
+ /* Mandatory */
+ /* Get Available WWAN Position Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Get Available WWAN Position request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure */
+
+ /* Optional */
+ /* Transaction ID */
+ uint8_t transactionId_valid; /**< Must be set to true if transactionId is being passed */
+ uint32_t transactionId;
+ /**< Transaction ID that was specified in the Get Available
+ WWAN Position request. This parameter will
+ always be present if the status field is set to
+ SUCCESS. */
+
+ /* Optional */
+ /* Latitude */
+ uint8_t latitude_valid; /**< Must be set to true if latitude is being passed */
+ double latitude;
+ /**< Latitude (specified in WGS84 datum).
+ \begin{itemize1}
+ \item Type: Floating point
+ \item Units: Degrees
+ \item Range: -90.0 to 90.0 \begin{itemize1}
+ \item Positive values indicate northern latitude
+ \item Negative values indicate southern latitude
+ \vspace{-0.18in} \end{itemize1} \end{itemize1} */
+
+ /* Optional */
+ /* Longitude */
+ uint8_t longitude_valid; /**< Must be set to true if longitude is being passed */
+ double longitude;
+ /**< Longitude (specified in WGS84 datum).
+ \begin{itemize1}
+ \item Type: Floating point
+ \item Units: Degrees
+ \item Range: -180.0 to 180.0 \begin{itemize1}
+ \item Positive values indicate eastern longitude
+ \item Negative values indicate western longitude
+ \vspace{-0.18in} \end{itemize1} \end{itemize1} */
+
+ /* Optional */
+ /* Circular Horizontal Position Uncertainty */
+ uint8_t horUncCircular_valid; /**< Must be set to true if horUncCircular is being passed */
+ float horUncCircular;
+ /**< Horizontal position uncertainty (circular).\n
+ - Units: Meters */
+
+ /* Optional */
+ /* Altitude With Respect to Ellipsoid */
+ uint8_t altitudeWrtEllipsoid_valid; /**< Must be set to true if altitudeWrtEllipsoid is being passed */
+ float altitudeWrtEllipsoid;
+ /**< Altitude with respect to the WGS84 ellipsoid.\n
+ - Units: Meters \n
+ - Range: -500 to 15883 */
+
+ /* Optional */
+ /* Vertical Uncertainty */
+ uint8_t vertUnc_valid; /**< Must be set to true if vertUnc is being passed */
+ float vertUnc;
+ /**< Vertical uncertainty.\n
+ - Units: Meters */
+
+ /* Optional */
+ /* UTC Timestamp */
+ uint8_t timestampUtc_valid; /**< Must be set to true if timestampUtc is being passed */
+ uint64_t timestampUtc;
+ /**< UTC timestamp. \n
+ - Units: Milliseconds since Jan. 1, 1970 */
+
+ /* Optional */
+ /* Time Uncertainty */
+ uint8_t timeUnc_valid; /**< Must be set to true if timeUnc is being passed */
+ float timeUnc;
+ /**< Time uncertainty. \n
+ - Units: Milliseconds */
+
+ /* Optional */
+ /* Horizontal Elliptical Uncertainty Semi-Minor Axis */
+ uint8_t horUncEllipseSemiMinor_valid; /**< Must be set to true if horUncEllipseSemiMinor is being passed */
+ float horUncEllipseSemiMinor;
+ /**< Semi-minor axis of horizontal elliptical uncertainty. \n
+ - Units: Meters */
+
+ /* Optional */
+ /* Horizontal Elliptical Uncertainty Semi-Major Axis */
+ uint8_t horUncEllipseSemiMajor_valid; /**< Must be set to true if horUncEllipseSemiMajor is being passed */
+ float horUncEllipseSemiMajor;
+ /**< Semi-major axis of horizontal elliptical uncertainty. \n
+ - Units: Meters */
+
+ /* Optional */
+ /* Horizontal Elliptical Uncertainty Azimuth */
+ uint8_t horUncEllipseOrientAzimuth_valid; /**< Must be set to true if horUncEllipseOrientAzimuth is being passed */
+ float horUncEllipseOrientAzimuth;
+ /**< Elliptical horizontal uncertainty azimuth of orientation. \n
+ - Units: Decimal degrees \n
+ - Range: 0 to 180 */
+
+ /* Optional */
+ /* Horizontal Circular Confidence */
+ uint8_t horCircularConfidence_valid; /**< Must be set to true if horCircularConfidence is being passed */
+ uint8_t horCircularConfidence;
+ /**< Horizontal circular uncertainty confidence. \n
+ - Units: Percent \n
+ - Range: 0 to 99 */
+
+ /* Optional */
+ /* Horizontal Elliptical Confidence */
+ uint8_t horEllipticalConfidence_valid; /**< Must be set to true if horEllipticalConfidence is being passed */
+ uint8_t horEllipticalConfidence;
+ /**< Horizontal elliptical uncertainty confidence. \n
+ - Units: Percent \n
+ - Range: 0 to 99 */
+
+ /* Optional */
+ /* Horizontal Reliability */
+ uint8_t horReliability_valid; /**< Must be set to true if horReliability is being passed */
+ qmiLocReliabilityEnumT_v02 horReliability;
+ /**< Specifies the reliability of the horizontal position.
+ Valid values: \n
+ - eQMI_LOC_RELIABILITY_NOT_SET (0) -- Location reliability is not set
+ - eQMI_LOC_RELIABILITY_VERY_LOW (1) -- Location reliability is very low; use it at your own risk
+ - eQMI_LOC_RELIABILITY_LOW (2) -- Location reliability is low; little or no cross-checking is possible
+ - eQMI_LOC_RELIABILITY_MEDIUM (3) -- Location reliability is medium; limited cross-check passed
+ - eQMI_LOC_RELIABILITY_HIGH (4) -- Location reliability is high; strong cross-check passed
+ */
+
+ /* Optional */
+ /* Altitude With Respect to Sea Level */
+ uint8_t altitudeWrtMeanSeaLevel_valid; /**< Must be set to true if altitudeWrtMeanSeaLevel is being passed */
+ float altitudeWrtMeanSeaLevel;
+ /**< Altitude with respect to mean sea level. \n
+ - Units: Meters */
+
+ /* Optional */
+ /* Vertical Confidence */
+ uint8_t vertConfidence_valid; /**< Must be set to true if vertConfidence is being passed */
+ uint8_t vertConfidence;
+ /**< Vertical uncertainty confidence. \n
+ - Units: Percent \n
+ - Range: 0 to 99 */
+
+ /* Optional */
+ /* Vertical Reliability */
+ uint8_t vertReliability_valid; /**< Must be set to true if vertReliability is being passed */
+ qmiLocReliabilityEnumT_v02 vertReliability;
+ /**< Specifies the reliability of the vertical position.
+
+ Valid values: \n
+ - eQMI_LOC_RELIABILITY_NOT_SET (0) -- Location reliability is not set
+ - eQMI_LOC_RELIABILITY_VERY_LOW (1) -- Location reliability is very low; use it at your own risk
+ - eQMI_LOC_RELIABILITY_LOW (2) -- Location reliability is low; little or no cross-checking is possible
+ - eQMI_LOC_RELIABILITY_MEDIUM (3) -- Location reliability is medium; limited cross-check passed
+ - eQMI_LOC_RELIABILITY_HIGH (4) -- Location reliability is high; strong cross-check passed
+ */
+
+ /* Optional */
+ /* GPS Time */
+ uint8_t gpsTime_valid; /**< Must be set to true if gpsTime is being passed */
+ qmiLocGPSTimeStructT_v02 gpsTime;
+
+ /* Optional */
+ /* Time Source */
+ uint8_t timeSrc_valid; /**< Must be set to true if timeSrc is being passed */
+ qmiLocTimeSourceEnumT_v02 timeSrc;
+ /**< Time source.
+
+ Valid values: \n
+ - eQMI_LOC_TIME_SRC_INVALID (0) -- Invalid time.
+ - eQMI_LOC_TIME_SRC_NETWORK_TIME_TRANSFER (1) -- Time is set by the 1X system
+ - eQMI_LOC_TIME_SRC_NETWORK_TIME_TAGGING (2) -- Time is set by WCDMA/GSM time tagging (i.e.,
+ associating network time with GPS time)
+ - eQMI_LOC_TIME_SRC_EXTERNAL_INPUT (3) -- Time is set by an external injection
+ - eQMI_LOC_TIME_SRC_TOW_DECODE (4) -- Time is set after decoding over-the-air GPS navigation data
+ from one GPS satellite
+ - eQMI_LOC_TIME_SRC_TOW_CONFIRMED (5) -- Time is set after decoding over-the-air GPS navigation data
+ from multiple satellites
+ - eQMI_LOC_TIME_SRC_TOW_AND_WEEK_CONFIRMED (6) -- Both time of the week and the GPS week number are known
+ - eQMI_LOC_TIME_SRC_NAV_SOLUTION (7) -- Time is set by the position engine after the fix is obtained
+ - eQMI_LOC_TIME_SRC_SOLVE_FOR_TIME (8) -- Time is set by the position engine after performing SFT;
+ this is done when the clock time uncertainty is large
+ - eQMI_LOC_TIME_SRC_GLO_TOW_DECODE (9) -- Time is set after decoding GLO satellites
+ - eQMI_LOC_TIME_SRC_TIME_TRANSFORM (10) -- Time is set after transforming the GPS to GLO time
+ - eQMI_LOC_TIME_SRC_WCDMA_SLEEP_TIME_TAGGING (11) -- Time is set by the sleep time tag provided by the WCDMA network
+ - eQMI_LOC_TIME_SRC_GSM_SLEEP_TIME_TAGGING (12) -- Time is set by the sleep time tag provided by the GSM network
+ - eQMI_LOC_TIME_SRC_UNKNOWN (13) -- Source of the time is unknown
+ - eQMI_LOC_TIME_SRC_SYSTEM_TIMETICK (14) -- Time is derived from the system clock (better known as the slow clock);
+ GNSS time is maintained irrespective of the GNSS receiver state
+ - eQMI_LOC_TIME_SRC_QZSS_TOW_DECODE (15) -- Time is set after decoding QZSS satellites
+ - eQMI_LOC_TIME_SRC_BDS_TOW_DECODE (16) -- Time is set after decoding BDS satellites
+ */
+}qmiLocGetAvailWwanPositionIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCPREMIUMSERVICEENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_PREMIUM_SERVICE_GTP_CELL_V02 = 0, /**< Premium service -- Global terrestrial positioning for the cell */
+ eQMI_LOC_PREMIUM_SERVICE_SAP_V02 = 1, /**< Premium service -- Sensor-assisted positioning */
+ eQMI_LOC_PREMIUM_SERVICE_GTP_ENH_CELL_V02 = 2, /**< Premium service -- Global terrestrial positioning enhanced cell */
+ QMILOCPREMIUMSERVICEENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocPremiumServiceEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCPREMIUMSERVICECFGENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_PREMIUM_SERVICE_DISABLED_V02 = 0, /**< Premium service disabled */
+ eQMI_LOC_PREMIUM_SERVICE_ENABLED_BASIC_V02 = 1, /**< Premium service enabled for basic */
+ eQMI_LOC_PREMIUM_SERVICE_ENABLED_PREMIUM_V02 = 2, /**< Premium service enabled for premium */
+ QMILOCPREMIUMSERVICECFGENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocPremiumServiceCfgEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Used by the control point to set the configuration
+ information for all iZat premium services to the location
+ engine. */
+typedef struct {
+
+ /* Mandatory */
+ /* Set Premium Service Type */
+ qmiLocPremiumServiceEnumT_v02 premiumServiceType;
+ /**< Specifies the premium service to configure.
+
+ Valid values: \n
+ - eQMI_LOC_PREMIUM_SERVICE_GTP_CELL (0) -- Premium service -- Global terrestrial positioning for the cell
+ - eQMI_LOC_PREMIUM_SERVICE_SAP (1) -- Premium service -- Sensor-assisted positioning
+ - eQMI_LOC_PREMIUM_SERVICE_GTP_ENH_CELL (2) -- Premium service -- Global terrestrial positioning enhanced cell
+ */
+
+ /* Mandatory */
+ /* Set Premium Service Configuration */
+ qmiLocPremiumServiceCfgEnumT_v02 premiumServiceCfg;
+ /**< Specifies the premium service configuration mode.
+
+ Valid values: \n
+ - eQMI_LOC_PREMIUM_SERVICE_DISABLED (0) -- Premium service disabled
+ - eQMI_LOC_PREMIUM_SERVICE_ENABLED_BASIC (1) -- Premium service enabled for basic
+ - eQMI_LOC_PREMIUM_SERVICE_ENABLED_PREMIUM (2) -- Premium service enabled for premium
+ */
+}qmiLocSetPremiumServicesCfgReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Used by the control point to set the configuration
+ information for all iZat premium services to the location
+ engine. */
+typedef struct {
+
+ /* Mandatory */
+ /* Set Premium Service Configuration Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Set Premium Services Configuration request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure */
+}qmiLocSetPremiumServicesCfgIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCXTRAVERSIONCHECKENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_XTRA_VERSION_CHECK_DISABLE_V02 = 0, /**< XTRA file version check is not required */
+ eQMI_LOC_XTRA_VERSION_CHECK_AUTO_V02 = 1, /**< XTRA file version check is required; the Location service decides the 'expected version' based on the preprovisioned XTRA version configuration */
+ eQMI_LOC_XTRA_VERSION_CHECK_XTRA2_V02 = 2, /**< Check the XTRA file against XTRA2 format */
+ eQMI_LOC_XTRA_VERSION_CHECK_XTRA3_V02 = 3, /**< Check the XTRA file against XTRA3 format */
+ QMILOCXTRAVERSIONCHECKENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocXtraVersionCheckEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Used by the control point to enable or disable XTRA version
+ verification. */
+typedef struct {
+
+ /* Mandatory */
+ /* Set XTRA Version Check Mode */
+ qmiLocXtraVersionCheckEnumT_v02 xtraVersionCheckMode;
+ /**< Specifies XTRA version check mode.
+
+ Valid values: \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_DISABLE (0) -- XTRA file version check is not required
+ - eQMI_LOC_XTRA_VERSION_CHECK_AUTO (1) -- XTRA file version check is required; the Location service decides the 'expected version' based on the preprovisioned XTRA version configuration
+ - eQMI_LOC_XTRA_VERSION_CHECK_XTRA2 (2) -- Check the XTRA file against XTRA2 format
+ - eQMI_LOC_XTRA_VERSION_CHECK_XTRA3 (3) -- Check the XTRA file against XTRA3 format
+ */
+}qmiLocSetXtraVersionCheckReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Used by the control point to enable or disable XTRA version
+ verification. */
+typedef struct {
+
+ /* Mandatory */
+ /* Set XTRA Version Check Mode Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Set XTRA version check request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure */
+}qmiLocSetXtraVersionCheckIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+typedef uint64_t qmiLocGNSSConstellEnumT_v02;
+#define eQMI_SYSTEM_GPS_V02 ((qmiLocGNSSConstellEnumT_v02)0x01ull) /**< Enable GPS \n */
+#define eQMI_SYSTEM_GLO_V02 ((qmiLocGNSSConstellEnumT_v02)0x02ull) /**< Enable GLONASS \n */
+#define eQMI_SYSTEM_BDS_V02 ((qmiLocGNSSConstellEnumT_v02)0x04ull) /**< Enable BDS \n */
+#define eQMI_SYSTEM_GAL_V02 ((qmiLocGNSSConstellEnumT_v02)0x08ull) /**< Enable Galileo */
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Sets satellite constellations of interest for reporting. */
+typedef struct {
+
+ /* Optional */
+ /* GNSS Measurement Report Constellation Control */
+ uint8_t measReportConfig_valid; /**< Must be set to true if measReportConfig is being passed */
+ qmiLocGNSSConstellEnumT_v02 measReportConfig;
+ /**< GNSS measurement report constellation control. \n
+ Valid values: \n
+ - eQMI_SYSTEM_GPS (0x01) -- Enable GPS \n
+ - eQMI_SYSTEM_GLO (0x02) -- Enable GLONASS \n
+ - eQMI_SYSTEM_BDS (0x04) -- Enable BDS \n
+ - eQMI_SYSTEM_GAL (0x08) -- Enable Galileo
+ */
+
+ /* Optional */
+ /* SV Polynomial Report Constellation Control */
+ uint8_t svPolyReportConfig_valid; /**< Must be set to true if svPolyReportConfig is being passed */
+ qmiLocGNSSConstellEnumT_v02 svPolyReportConfig;
+ /**< SV polynomial report constellation control. \n
+ Valid values: \n
+ - eQMI_SYSTEM_GPS (0x01) -- Enable GPS \n
+ - eQMI_SYSTEM_GLO (0x02) -- Enable GLONASS \n
+ - eQMI_SYSTEM_BDS (0x04) -- Enable BDS \n
+ - eQMI_SYSTEM_GAL (0x08) -- Enable Galileo
+ */
+}qmiLocSetGNSSConstRepConfigReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Sets satellite constellations of interest for reporting. */
+typedef struct {
+
+ /* Mandatory */
+ /* Set GNSS Constellation Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the GNSS constellation.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+}qmiLocSetGNSSConstRepConfigIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCSOURCEOFFREQENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_FREQ_SOURCE_INVALID_V02 = 0, /**< Source of the frequency is invalid */
+ eQMI_LOC_FREQ_SOURCE_EXTERNAL_V02 = 1, /**< Source of the frequency is from an external injection */
+ eQMI_LOC_FREQ_SOURCE_PE_CLK_REPORT_V02 = 2, /**< Source of the frequency is from the GNSS navigation engine */
+ eQMI_LOC_FREQ_SOURCE_UNKNOWN_V02 = 3, /**< Source of the frequency is unknown */
+ QMILOCSOURCEOFFREQENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocSourceofFreqEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ float clockDrift;
+ /**< Receiver clock drift. \n
+ - Units: Meters per second
+ */
+
+ float clockDriftUnc;
+ /**< Receiver clock frift uncertainty. \n
+ - Units: Meters per second
+ */
+
+ qmiLocSourceofFreqEnumT_v02 sourceOfFreq;
+ /**< Source of the clock frequency information.
+
+ Valid values: \n
+ - eQMI_LOC_FREQ_SOURCE_INVALID (0) -- Source of the frequency is invalid
+ - eQMI_LOC_FREQ_SOURCE_EXTERNAL (1) -- Source of the frequency is from an external injection
+ - eQMI_LOC_FREQ_SOURCE_PE_CLK_REPORT (2) -- Source of the frequency is from the GNSS navigation engine
+ - eQMI_LOC_FREQ_SOURCE_UNKNOWN (3) -- Source of the frequency is unknown
+ */
+}qmiLocRcvrClockFrequencyInfoStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ uint8_t leapSec;
+ /**< GPS time leap second delta to UTC time. \n
+ For nonzero values of leapSecUnc, leapSec must be treated as unknown. \n
+ - Units: Seconds
+ */
+
+ uint8_t leapSecUnc;
+ /**< Uncertainty for the GPS leap second. \n
+ - Units: Seconds
+ */
+}qmiLocLeapSecondInfoStructT_v02; /* Type */
+/**
+ @}
+ */
+
+typedef uint8_t qmiLocInterSystemBiasValidMaskT_v02;
+#define QMI_LOC_SYS_TIME_BIAS_VALID_V02 ((qmiLocInterSystemBiasValidMaskT_v02)0x01) /**< System time bias is valid \n */
+#define QMI_LOC_SYS_TIME_BIAS_UNC_VALID_V02 ((qmiLocInterSystemBiasValidMaskT_v02)0x02) /**< System time bias uncertainty is valid */
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ qmiLocInterSystemBiasValidMaskT_v02 validMask;
+ /**< Fields that are valid. \n
+ Valid values: \n
+ - QMI_LOC_SYS_TIME_BIAS_VALID (0x01) -- System time bias is valid \n
+ - QMI_LOC_SYS_TIME_BIAS_UNC_VALID (0x02) -- System time bias uncertainty is valid \n
+ */
+
+ float timeBias;
+ /**< System 1 to System 2 time bias. \n
+ - Units: Milliseconds
+ */
+
+ float timeBiasUnc;
+ /**< System 1 to System 2 time bias uncertainty. \n
+ - Units: Milliseconds
+ */
+}qmiLocInterSystemBiasStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ qmiLocSvSystemEnumT_v02 system;
+ /**< Specifies the satellite system constellation. */
+
+ uint16_t systemWeek;
+ /**< Current system week. \n
+ - For GPS: Calculated from midnight, Jan. 6, 1980 \n
+ - For BDS: Calculated from 00:00:00 on January 1, 2006 of Coordinated Universal Time (UTC) \n
+ - For GAL: Calculated from 00:00 UT on Sunday August 22, 1999 (midnight between August 21 and August 22) \n
+ If the week is unknown, set this value to 65535. \n
+ - Units: Weeks */
+
+ uint32_t systemMsec;
+ /**< Amount of time into the current week. \n
+ - Units: Milliseconds */
+
+ float systemClkTimeBias;
+ /**< System clock time bias (submilliseconds). \n
+ - Units: Milliseconds
+ (system time = systemMsec - systemClkTimeBias)
+ */
+
+ float systemClkTimeUncMs;
+ /**< Single-sided maximum time bias uncertainty. \n
+ - Units: Milliseconds
+ */
+}qmiLocGnssTimeStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ uint8_t gloFourYear;
+ /**< GLONASS four year number from 1996. Refer to GLONASS ICD. \n
+ Applicable only for GLONASS and is to be ignored for other constellations. \n
+ If unknown, set this value to 255.
+ */
+
+ uint16_t gloDays;
+ /**< GLONASS day number in four years. Refer to GLONASS ICD. \n
+ Applicable only for GLONASS and is to be ignored for other constellations. \n
+ If unknown, set this value to 65535.
+ */
+
+ uint32_t gloMsec;
+ /**< GLONASS time of day in msec. Refer to GLONASS ICD. \n
+ - Units: Milliseconds
+ */
+
+ float gloClkTimeBias;
+ /**< System clock time bias (submillisecond). \n
+ - Units: Milliseconds
+ (system time = systemMsec - systemClkTimeBias)
+ */
+
+ float gloClkTimeUncMs;
+ /**< Single-sided maximum time bias uncertainty. \n
+ - Units: Milliseconds
+ */
+}qmiLocGloTimeStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ uint32_t refFCount;
+ /**< Receiver frame counter value at a reference tick. */
+
+ uint8_t systemRtc_valid;
+ /**< Validity indicator for the system RTC. */
+
+ uint64_t systemRtcMs;
+ /**< Platform system RTC value. \n
+ - Units: Milliseconds
+ */
+
+ qmiLocTimeSourceEnumT_v02 sourceOfTime;
+ /**< Source of the time information.
+
+ Valid values: \n
+ - eQMI_LOC_TIME_SRC_INVALID (0) -- Invalid time.
+ - eQMI_LOC_TIME_SRC_NETWORK_TIME_TRANSFER (1) -- Time is set by the 1X system
+ - eQMI_LOC_TIME_SRC_NETWORK_TIME_TAGGING (2) -- Time is set by WCDMA/GSM time tagging (i.e.,
+ associating network time with GPS time)
+ - eQMI_LOC_TIME_SRC_EXTERNAL_INPUT (3) -- Time is set by an external injection
+ - eQMI_LOC_TIME_SRC_TOW_DECODE (4) -- Time is set after decoding over-the-air GPS navigation data
+ from one GPS satellite
+ - eQMI_LOC_TIME_SRC_TOW_CONFIRMED (5) -- Time is set after decoding over-the-air GPS navigation data
+ from multiple satellites
+ - eQMI_LOC_TIME_SRC_TOW_AND_WEEK_CONFIRMED (6) -- Both time of the week and the GPS week number are known
+ - eQMI_LOC_TIME_SRC_NAV_SOLUTION (7) -- Time is set by the position engine after the fix is obtained
+ - eQMI_LOC_TIME_SRC_SOLVE_FOR_TIME (8) -- Time is set by the position engine after performing SFT;
+ this is done when the clock time uncertainty is large
+ - eQMI_LOC_TIME_SRC_GLO_TOW_DECODE (9) -- Time is set after decoding GLO satellites
+ - eQMI_LOC_TIME_SRC_TIME_TRANSFORM (10) -- Time is set after transforming the GPS to GLO time
+ - eQMI_LOC_TIME_SRC_WCDMA_SLEEP_TIME_TAGGING (11) -- Time is set by the sleep time tag provided by the WCDMA network
+ - eQMI_LOC_TIME_SRC_GSM_SLEEP_TIME_TAGGING (12) -- Time is set by the sleep time tag provided by the GSM network
+ - eQMI_LOC_TIME_SRC_UNKNOWN (13) -- Source of the time is unknown
+ - eQMI_LOC_TIME_SRC_SYSTEM_TIMETICK (14) -- Time is derived from the system clock (better known as the slow clock);
+ GNSS time is maintained irrespective of the GNSS receiver state
+ - eQMI_LOC_TIME_SRC_QZSS_TOW_DECODE (15) -- Time is set after decoding QZSS satellites
+ - eQMI_LOC_TIME_SRC_BDS_TOW_DECODE (16) -- Time is set after decoding BDS satellites
+ */
+}qmiLocGnssTimeExtStructT_v02; /* Type */
+/**
+ @}
+ */
+
+typedef uint64_t qmiLocSvMeasStatusValidMaskT_v02;
+#define QMI_LOC_MASK_MEAS_STATUS_SM_STAT_BIT_VALID_V02 ((qmiLocSvMeasStatusValidMaskT_v02)0x00000001ull) /**< Satellite time in submilliseconds (code-phase) */
+#define QMI_LOC_MASK_MEAS_STATUS_SB_STAT_BIT_VALID_V02 ((qmiLocSvMeasStatusValidMaskT_v02)0x00000002ull) /**< Satellite sub-bit time */
+#define QMI_LOC_MASK_MEAS_STATUS_MS_STAT_BIT_VALID_V02 ((qmiLocSvMeasStatusValidMaskT_v02)0x00000004ull) /**< Satellite time in milliseconds */
+#define QMI_LOC_MASK_MEAS_STATUS_BE_CONFIRM_STAT_BIT_VALID_V02 ((qmiLocSvMeasStatusValidMaskT_v02)0x00000008ull) /**< Signal bit edge is confirmed */
+#define QMI_LOC_MASK_MEAS_STATUS_VEL_STAT_BIT_VALID_V02 ((qmiLocSvMeasStatusValidMaskT_v02)0x00000010ull) /**< Satellite Doppler is measured */
+#define QMI_LOC_MASK_MEAS_STATUS_VEL_FINE_STAT_BIT_VALID_V02 ((qmiLocSvMeasStatusValidMaskT_v02)0x00000020ull) /**< Fine/coarse Doppler measurement indicator */
+#define QMI_LOC_MASK_MEAS_STATUS_FROM_RNG_DIFF_STAT_BIT_VALID_V02 ((qmiLocSvMeasStatusValidMaskT_v02)0x00000200ull) /**< Range update from satellite differences */
+#define QMI_LOC_MASK_MEAS_STATUS_FROM_VE_DIFF_STAT_BIT_VALID_V02 ((qmiLocSvMeasStatusValidMaskT_v02)0x00000400ull) /**< Doppler update from satellite differences */
+typedef uint64_t qmiLocSvMeasStatusMaskT_v02;
+#define QMI_LOC_MASK_MEAS_STATUS_SM_VALID_V02 ((qmiLocSvMeasStatusMaskT_v02)0x00000001ull) /**< Satellite time in submilliseconds (code phase) is known */
+#define QMI_LOC_MASK_MEAS_STATUS_SB_VALID_V02 ((qmiLocSvMeasStatusMaskT_v02)0x00000002ull) /**< Satellite sub-bit time is known */
+#define QMI_LOC_MASK_MEAS_STATUS_MS_VALID_V02 ((qmiLocSvMeasStatusMaskT_v02)0x00000004ull) /**< Satellite time in milliseconds is known */
+#define QMI_LOC_MASK_MEAS_STATUS_BE_CONFIRM_V02 ((qmiLocSvMeasStatusMaskT_v02)0x00000008ull) /**< Signal bit edge is confirmed */
+#define QMI_LOC_MASK_MEAS_STATUS_VELOCITY_VALID_V02 ((qmiLocSvMeasStatusMaskT_v02)0x00000010ull) /**< Satellite Doppler is measured */
+#define QMI_LOC_MASK_MEAS_STATUS_VELOCITY_FINE_V02 ((qmiLocSvMeasStatusMaskT_v02)0x00000020ull) /**< TRUE: Fine Doppler is measured, FALSE: Coarse Doppler is measured */
+#define QMI_LOC_MASK_MEAS_STATUS_FROM_RNG_DIFF_V02 ((qmiLocSvMeasStatusMaskT_v02)0x00000200ull) /**< Range update from satellite differences is measured */
+#define QMI_LOC_MASK_MEAS_STATUS_FROM_VE_DIFF_V02 ((qmiLocSvMeasStatusMaskT_v02)0x00000400ull) /**< Doppler update from satellite differences is measured */
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ uint32_t svTimeMs;
+ /**< Satellite time in milliseconds. \n
+ - For GPS, BDS, and GAL: Range is 0 thru (604800000-1) \n
+ - For GLONASS: Range is 0 thru (86400000-1) \n
+ - Units: Milliseconds \vspace{4pt} \n
+
+ This is valid when the QMI_LOC_MEAS_STATUS_MS_VALID bit is set
+ in the measurement status. \vspace{4pt} \n
+
+ @note1hang All SV times in the current measurement block are
+ alredy propagated to a common reference time epoch. \n
+ */
+
+ float svTimeSubMs;
+ /**< Satellite time in submilliseconds. \n
+ Total SV Time = svMs + svSubMs \n
+ - Units: Milliseconds
+ */
+
+ float svTimeUncMs;
+ /**< Satellite time uncertainty. \n
+ - Units: Milliseconds
+ */
+
+ float dopplerShift;
+ /**< Satellite Doppler. \n
+ - Units: Meters per second
+ */
+
+ float dopplerShiftUnc;
+ /**< Satellite Doppler uncertainty. \n
+ - Units: Meters per second
+ */
+
+ uint8_t dopplerAccel_valid;
+ /**< Validity for Doppler acceleration. */
+
+ float dopplerAccel;
+ /**< Satellite Doppler acceleration. \n
+ - Units: Hz/second
+ */
+}qmiLocSVTimeSpeedStructT_v02; /* Type */
+/**
+ @}
+ */
+
+typedef uint16_t qmiLocMeasFieldsValidMaskT_v02;
+#define QMI_LOC_SV_HEALTH_VALID_V02 ((qmiLocMeasFieldsValidMaskT_v02)0x01) /**< SV health information is valid */
+#define QMI_LOC_SV_MULTIPATH_EST_VALID_V02 ((qmiLocMeasFieldsValidMaskT_v02)0x02) /**< Multipath estimate for SV is valid */
+#define QMI_LOC_SV_FINE_SPEED_VALID_V02 ((qmiLocMeasFieldsValidMaskT_v02)0x04) /**< Fine speed for SV is valid */
+#define QMI_LOC_SV_FINE_SPEED_UNC_VALID_V02 ((qmiLocMeasFieldsValidMaskT_v02)0x08) /**< Fine speed uncertainty for SV is valid */
+#define QMI_LOC_SV_CARRIER_PHASE_VALID_V02 ((qmiLocMeasFieldsValidMaskT_v02)0x10) /**< Carrier phase for SV is valid */
+#define QMI_LOC_SV_SV_DIRECTION_VALID_V02 ((qmiLocMeasFieldsValidMaskT_v02)0x20) /**< SV direction information for SV is valid */
+#define QMI_LOC_SV_CYCLESLIP_COUNT_VALID_V02 ((qmiLocMeasFieldsValidMaskT_v02)0x40) /**< Cycle slip count information is valid */
+#define QMI_LOC_SV_LOSSOFLOCK_VALID_V02 ((qmiLocMeasFieldsValidMaskT_v02)0x80) /**< Loss of lock information is valid */
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ uint16_t gnssSvId;
+ /**< GNSS SV ID.
+ \begin{itemize1}
+ \item Range: \begin{itemize1}
+ \item For GPS: 1 to 32
+ \item For SBAS: 33 to 64
+ \item For GLONASS: 65 to 96. When slot-number to SV ID mapping is unknown, set as 255.
+ \item For BDS: 201 to 237
+ \vspace{-0.18in} \end{itemize1} \end{itemize1} */
+
+ uint8_t gloFrequency;
+ /**< GLONASS frequency number + 7. \n
+ Valid only for a GLONASS system and
+ is to be ignored for all other systems. \n
+ - Range: 1 to 14
+ */
+
+ qmiLocSvStatusEnumT_v02 svStatus;
+ /**< Satellite search state.
+
+ Valid values: \n
+ - eQMI_LOC_SV_STATUS_IDLE (1) -- SV is not being actively processed
+ - eQMI_LOC_SV_STATUS_SEARCH (2) -- The system is searching for this SV
+ - eQMI_LOC_SV_STATUS_TRACK (3) -- SV is being tracked
+ */
+
+ qmiLocMeasFieldsValidMaskT_v02 validMask;
+ /**< Validity mask (0 = Not valid; 1 = Valid). \n
+
+ - QMI_LOC_SV_HEALTH_VALID (0x01) -- SV health information is valid
+ - QMI_LOC_SV_MULTIPATH_EST_VALID (0x02) -- Multipath estimate for SV is valid
+ - QMI_LOC_SV_FINE_SPEED_VALID (0x04) -- Fine speed for SV is valid
+ - QMI_LOC_SV_FINE_SPEED_UNC_VALID (0x08) -- Fine speed uncertainty for SV is valid
+ - QMI_LOC_SV_CARRIER_PHASE_VALID (0x10) -- Carrier phase for SV is valid
+ - QMI_LOC_SV_SV_DIRECTION_VALID (0x20) -- SV direction information for SV is valid
+ - QMI_LOC_SV_CYCLESLIP_COUNT_VALID (0x40) -- Cycle slip count information is valid
+ - QMI_LOC_SV_LOSSOFLOCK_VALID (0x80) -- Loss of lock information is valid
+ */
+
+ uint8_t healthStatus;
+ /**< Health status. \n
+ \begin{itemize1}
+ - Range: 0 to 1, where 0 = unhealthy, 1 = healthy
+ */
+
+ qmiLocSvInfoMaskT_v02 svInfoMask;
+ /**< Indicates whether almanac and ephemeris information is available.
+
+ Valid values: \n
+ - QMI_LOC_SVINFO_MASK_HAS_EPHEMERIS (0x01) -- Ephemeris is available for this SV
+ - QMI_LOC_SVINFO_MASK_HAS_ALMANAC (0x02) -- Almanac is available for this SV
+ */
+
+ qmiLocSvMeasStatusValidMaskT_v02 validMeasStatusMask;
+ /**< Validity mask for measurement status information. \n
+ A set bit in validMeasStatusMask indicates that the corresponding bit
+ in measurementStatus has valid status information: \n
+ Valid masks: \n
+ - QMI_LOC_MASK_MEAS_STATUS_SM_STAT_BIT_VALID (0x00000001) -- Satellite time in submilliseconds (code-phase)
+ - QMI_LOC_MASK_MEAS_STATUS_SB_STAT_BIT_VALID (0x00000002) -- Satellite sub-bit time
+ - QMI_LOC_MASK_MEAS_STATUS_MS_STAT_BIT_VALID (0x00000004) -- Satellite time in milliseconds
+ - QMI_LOC_MASK_MEAS_STATUS_BE_CONFIRM_STAT_BIT_VALID (0x00000008) -- Signal bit edge is confirmed
+ - QMI_LOC_MASK_MEAS_STATUS_VEL_STAT_BIT_VALID (0x00000010) -- Satellite Doppler is measured
+ - QMI_LOC_MASK_MEAS_STATUS_VEL_FINE_STAT_BIT_VALID (0x00000020) -- Fine/coarse Doppler measurement indicator
+ - QMI_LOC_MASK_MEAS_STATUS_FROM_RNG_DIFF_STAT_BIT_VALID (0x00000200) -- Range update from satellite differences
+ - QMI_LOC_MASK_MEAS_STATUS_FROM_VE_DIFF_STAT_BIT_VALID (0x00000400) -- Doppler update from satellite differences
+\vspace{4pt}
+ Additionally, MSB 0xFFC0000000000000 bits indicate the validity of DONT_USE bits. \n
+
+ */
+
+ qmiLocSvMeasStatusMaskT_v02 measurementStatus;
+ /**< Bitmask indicating the SV measurement status.
+
+ Valid bitmasks: \n
+ - QMI_LOC_MASK_MEAS_STATUS_SM_VALID (0x00000001) -- Satellite time in submilliseconds (code phase) is known
+ - QMI_LOC_MASK_MEAS_STATUS_SB_VALID (0x00000002) -- Satellite sub-bit time is known
+ - QMI_LOC_MASK_MEAS_STATUS_MS_VALID (0x00000004) -- Satellite time in milliseconds is known
+ - QMI_LOC_MASK_MEAS_STATUS_BE_CONFIRM (0x00000008) -- Signal bit edge is confirmed
+ - QMI_LOC_MASK_MEAS_STATUS_VELOCITY_VALID (0x00000010) -- Satellite Doppler is measured
+ - QMI_LOC_MASK_MEAS_STATUS_VELOCITY_FINE (0x00000020) -- TRUE: Fine Doppler is measured, FALSE: Coarse Doppler is measured
+ - QMI_LOC_MASK_MEAS_STATUS_FROM_RNG_DIFF (0x00000200) -- Range update from satellite differences is measured
+ - QMI_LOC_MASK_MEAS_STATUS_FROM_VE_DIFF (0x00000400) -- Doppler update from satellite differences is measured
+
+ If any MSB bit in 0xFFC0000000000000 DONT_USE is set, the measurement
+ must not be used by the client.
+ */
+
+ uint16_t CNo;
+ /**< Carrier to noise ratio. \n
+ - Units: dBHz \n
+ - Scale: 0.1
+ */
+
+ uint16_t gloRfLoss;
+ /**< GLONASS RF loss reference to the antenna. \n
+ - Units: dB \n
+ - Scale: 0.1
+ */
+
+ int32_t measLatency;
+ /**< Age of the measurement. A positive value means the measurement precedes the reference time. \n
+ - Units: Milliseconds
+ */
+
+ qmiLocSVTimeSpeedStructT_v02 svTimeSpeed;
+ /**< SV time and speed information. */
+
+ uint8_t lossOfLock;
+ /**< Loss of signal lock indicator. \n
+ - 0: Signal is in continuous track \n
+ - 1: Signal is not in track
+ */
+
+ float multipathEstimate;
+ /**< Estimate of multipath in a measurement. \n
+ - Units: Meters
+ */
+
+ float fineSpeed;
+ /**< Carrier phase derived speed. \n
+ - Units: Meters per second
+ */
+
+ float fineSpeedUnc;
+ /**< Carrier phase derived speed uncertainty. \n
+ - Units: Meters per second
+ */
+
+ double carrierPhase;
+ /**< Carrier phase measurement (L1 cycles).
+ */
+
+ uint8_t cycleSlipCount;
+ /**< Increments when a cycle slip is detected. */
+
+ float svAzimuth;
+ /**< Satellite azimuth. \n
+ - Units: Radians \n
+ - Range: 0 to 2*pi()
+ */
+
+ float svElevation;
+ /**< Satellite elevation. \n
+ - Units: Radians \n
+ - Range: 0 to pi()/2
+ */
+}qmiLocSVMeasurementStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Sends a satellite measurement report to the control point. */
+typedef struct {
+
+ /* Mandatory */
+ /* Current Message Sequence Number */
+ uint8_t seqNum;
+ /**< Current message number. Used for segmentation/assembly of measurement reports. */
+
+ /* Mandatory */
+ /* Maximum Number of Messages to be Sent for Present Time Epoch */
+ uint8_t maxMessageNum;
+ /**< Maximum number of messages that are to be sent for the present time epoch. */
+
+ /* Mandatory */
+ /* Specifies Satellite System Constellation of This Report */
+ qmiLocSvSystemEnumT_v02 system;
+ /**< Specifies the satellite system constellation of this report.
+
+ Valid values: \n
+ - eQMI_LOC_SV_SYSTEM_GPS (1) -- GPS satellite
+ - eQMI_LOC_SV_SYSTEM_GALILEO (2) -- GALILEO satellite
+ - eQMI_LOC_SV_SYSTEM_SBAS (3) -- SBAS satellite
+ - eQMI_LOC_SV_SYSTEM_COMPASS (4) -- COMPASS satellite
+ - eQMI_LOC_SV_SYSTEM_GLONASS (5) -- GLONASS satellite
+ - eQMI_LOC_SV_SYSTEM_BDS (6) -- BDS satellite
+ */
+
+ /* Optional */
+ /* GNSS Receiver Clock Frequency Information */
+ uint8_t rcvrClockFrequencyInfo_valid; /**< Must be set to true if rcvrClockFrequencyInfo is being passed */
+ qmiLocRcvrClockFrequencyInfoStructT_v02 rcvrClockFrequencyInfo;
+
+ /* Optional */
+ /* Leap Second Information */
+ uint8_t leapSecondInfo_valid; /**< Must be set to true if leapSecondInfo is being passed */
+ qmiLocLeapSecondInfoStructT_v02 leapSecondInfo;
+
+ /* Optional */
+ /* GPS to GLONASS Intersystem Time Bias */
+ uint8_t gpsGloInterSystemBias_valid; /**< Must be set to true if gpsGloInterSystemBias is being passed */
+ qmiLocInterSystemBiasStructT_v02 gpsGloInterSystemBias;
+ /**< \vspace{4pt} \n
+ This is reported if both GPS and GLONASS system
+ information reporting are enabled. \n
+ - System 1: GPS \n
+ - System 2: GLONASS
+ */
+
+ /* Optional */
+ /* GPS to BDS Intersystem Time Bias */
+ uint8_t gpsBdsInterSystemBias_valid; /**< Must be set to true if gpsBdsInterSystemBias is being passed */
+ qmiLocInterSystemBiasStructT_v02 gpsBdsInterSystemBias;
+ /**< \vspace{4pt} \n
+ This is reported if both GPS and BDS system
+ information reporting are enabled. \n
+ - System 1: GPS \n
+ - System 2: BDS
+ */
+
+ /* Optional */
+ /* GPS to GALILEO Intersystem Time Bias */
+ uint8_t gpsGalInterSystemBias_valid; /**< Must be set to true if gpsGalInterSystemBias is being passed */
+ qmiLocInterSystemBiasStructT_v02 gpsGalInterSystemBias;
+ /**< \vspace{4pt} \n
+ This is reported if both GPS and GALILEO system
+ information reporting are enabled. \n
+ - System 1: GPS \n
+ - System 2: GALILEO
+ */
+
+ /* Optional */
+ /* BDS to GLONASS Intersystem Time Bias */
+ uint8_t bdsGloInterSystemBias_valid; /**< Must be set to true if bdsGloInterSystemBias is being passed */
+ qmiLocInterSystemBiasStructT_v02 bdsGloInterSystemBias;
+ /**< \vspace{4pt} \n
+ This is reported if both BDS and GLONASS system
+ information reporting are enabled. \n
+ - System 1: BDS \n
+ - System 2: GLONASS
+ */
+
+ /* Optional */
+ /* GAL to GLONASS Intersystem Time Bias */
+ uint8_t galGloInterSystemBias_valid; /**< Must be set to true if galGloInterSystemBias is being passed */
+ qmiLocInterSystemBiasStructT_v02 galGloInterSystemBias;
+ /**< \vspace{4pt} \n
+ This is reported if both GAL and GLONASS system
+ information reporting are enabled. \n
+ - System 1: GAL \n
+ - System 2: GLONASS
+ */
+
+ /* Optional */
+ /* GAL to BDS Intersystem Time Bias */
+ uint8_t galBdsInterSystemBias_valid; /**< Must be set to true if galBdsInterSystemBias is being passed */
+ qmiLocInterSystemBiasStructT_v02 galBdsInterSystemBias;
+ /**< \vspace{4pt} \n
+ This is reported if both GAL and BDS system
+ information reporting are enabled. \n
+ - System 1: GAL \n
+ - System 2: BDS
+ */
+
+ /* Optional */
+ /* Satellite System Time Information for GPS, BDS, GAL Constellation */
+ uint8_t systemTime_valid; /**< Must be set to true if systemTime is being passed */
+ qmiLocGnssTimeStructT_v02 systemTime;
+
+ /* Optional */
+ /* GLONASS System Time Information */
+ uint8_t gloTime_valid; /**< Must be set to true if gloTime is being passed */
+ qmiLocGloTimeStructT_v02 gloTime;
+
+ /* Optional */
+ /* Extended Time Information */
+ uint8_t systemTimeExt_valid; /**< Must be set to true if systemTimeExt is being passed */
+ qmiLocGnssTimeExtStructT_v02 systemTimeExt;
+
+ /* Optional */
+ /* Satellite System Measurement Report for Enabled Constellation */
+ uint8_t svMeasurement_valid; /**< Must be set to true if svMeasurement is being passed */
+ uint32_t svMeasurement_len; /**< Must be set to # of elements in svMeasurement */
+ qmiLocSVMeasurementStructT_v02 svMeasurement[QMI_LOC_SV_MEAS_LIST_MAX_SIZE_V02];
+}qmiLocEventGnssSvMeasInfoIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+typedef uint16_t qmiLocSvPolyStatusMaskT_v02;
+#define QMI_LOC_SV_POLY_SRC_ALM_CORR_V02 ((qmiLocSvPolyStatusMaskT_v02)0x01) /**< Polynomials based on XTRA */
+#define QMI_LOC_SV_POLY_GLO_STR4_V02 ((qmiLocSvPolyStatusMaskT_v02)0x02) /**< GLONASS string 4 has been received */
+typedef uint16_t qmiLocSvPolyStatusMaskValidityT_v02;
+#define QMI_LOC_SV_POLY_SRC_ALM_CORR_VALID_V02 ((qmiLocSvPolyStatusMaskValidityT_v02)0x01) /**< Validity status for QMI_LOC_SV_POLY_SRC_ALM_CORR */
+#define QMI_LOC_SV_POLY_GLO_STR4_VALID_V02 ((qmiLocSvPolyStatusMaskValidityT_v02)0x02) /**< Validity status for QMI_LOC_SV_POLY_GLO_STR4 */
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Sends a satellite polynomial report to the control point. */
+typedef struct {
+
+ /* Mandatory */
+ /* GNSS SV Polynomial Report */
+ uint16_t gnssSvId;
+ /**< GNSS SV ID. \begin{itemize1}
+ \item Range: \begin{itemize1}
+ \item For GPS: 1 to 32
+ \item For SBAS: 33 to 64
+ \item For GLONASS: 65 to 96 (when the slot number to SV ID mapping is unknown, set to 255)
+ \item For BDS: 201 to 237
+ \vspace{-0.18in} \end{itemize1} \end{itemize1} */
+
+ /* Mandatory */
+ /* Reference Time for Polynomial Calculations */
+ double T0;
+ /**< Reference time for polynomial calculations. \n
+ - GPS: Seconds in the week \n
+ - GLO: Full seconds since Jan. 1, 1996 \n
+ - BDS: Full seconds since Jan. 1, 2006
+ */
+
+ /* Mandatory */
+ /* SV Polynomial Validity Status */
+ qmiLocSvPolyStatusMaskValidityT_v02 svPolyFlagValid;
+ /**< Validity mask for bits in svPolyFlags. A set bit in svPolyFlagValid indicates that a
+ corresponding bit in svPolyFlags has valid status information.
+
+ Valid bitmasks: \n
+ - QMI_LOC_SV_POLY_SRC_ALM_CORR_VALID (0x01) -- Validity status for QMI_LOC_SV_POLY_SRC_ALM_CORR
+ - QMI_LOC_SV_POLY_GLO_STR4_VALID (0x02) -- Validity status for QMI_LOC_SV_POLY_GLO_STR4 */
+
+ /* Mandatory */
+ /* SV Polynomial Report Status */
+ qmiLocSvPolyStatusMaskT_v02 svPolyFlags;
+ /**< Flags indicating the status of a polynomial report.
+
+ Valid bitmasks: \n
+ - QMI_LOC_SV_POLY_SRC_ALM_CORR (0x01) -- Polynomials based on XTRA
+ - QMI_LOC_SV_POLY_GLO_STR4 (0x02) -- GLONASS string 4 has been received */
+
+ /* Optional */
+ /* Polynomial Coefficient's 0th Term for X, Y, and Z Coordinates */
+ uint8_t polyCoeffXYZ0_valid; /**< Must be set to true if polyCoeffXYZ0 is being passed */
+ double polyCoeffXYZ0[QMI_LOC_SV_POLY_XYZ_0_TH_ORDER_COEFF_SIZE_V02];
+ /**< Polynomial coefficient's 0th term for X, Y, and Z coordinates (C0X, C0Y, C0Z). \n
+ - Units: Meters
+ */
+
+ /* Optional */
+ /* Polynomial Coefficient's 1st, 2nd, and 3rd Terms for X, Y, and Z Coordinates */
+ uint8_t polyCoefXYZN_valid; /**< Must be set to true if polyCoefXYZN is being passed */
+ double polyCoefXYZN[QMI_LOC_SV_POLY_XYZ_N_TH_ORDER_COEFF_SIZE_V02];
+ /**< Polynomial coefficient's 1st, 2nd, and 3rd terms for X, Y, and Z coordinates (C1X, C2X,... C2Z, C3Z). \begin{itemize1}
+ \item Units: \begin{itemize1}
+ \item 1st term -- Meters/second
+ \item 2nd term -- Meters/second^2
+ \item 3rd term -- Meters/seconds^3 \vspace{-0.18in} \end{itemize1} end{itemize1}
+ */
+
+ /* Optional */
+ /* Polynomial Coefficients for Satellite Clock Bias Correction */
+ uint8_t polyCoefClockBias_valid; /**< Must be set to true if polyCoefClockBias is being passed */
+ float polyCoefClockBias[QMI_LOC_SV_POLY_SV_CLKBIAS_COEFF_SIZE_V02];
+ /**< Polynomial coefficients for satellite clock bias correction (C0T, C1T, C2T, C3T). \begin{itemize1}
+ \item Units: \begin{itemize1}
+ \item 0th term -- Milliseconds/second
+ \item 1st term -- Milliseconds/second^2
+ \item 2nd term -- Milliseconds/second^3
+ \item 3rd term -- Milliseconds/second^4 \vspace{-0.18in} \end{itemize1} end{itemize1}
+ */
+
+ /* Optional */
+ /* GLONASS Frequency Number */
+ uint8_t gloFrequency_valid; /**< Must be set to true if gloFrequency is being passed */
+ uint8_t gloFrequency;
+ /**< GLONASS frequency number + 7. \n
+ Valid only for GLONASS systems and
+ must be ignored for all other systems. \n
+ - Range: 1 to 14
+ */
+
+ /* Optional */
+ /* Ephemeris Reference Time */
+ uint8_t IODE_valid; /**< Must be set to true if IODE is being passed */
+ uint16_t IODE;
+ /**< Ephemeris reference time. \n
+ - GPS -- Issue of data ephemeris used (unitless) \n
+ - GLONASS -- Tb 7-bit
+ */
+
+ /* Optional */
+ /* Enhanced Reference Time */
+ uint8_t enhancedIOD_valid; /**< Must be set to true if enhancedIOD is being passed */
+ uint32_t enhancedIOD;
+ /**< For BDS ephemeris, this is TOE.
+ */
+
+ /* Optional */
+ /* SV Position Uncertainty */
+ uint8_t svPosUnc_valid; /**< Must be set to true if svPosUnc is being passed */
+ float svPosUnc;
+ /**< SV position uncertainty. \n
+ - Units: Meters
+ */
+
+ /* Optional */
+ /* Iono Delay */
+ uint8_t ionoDelay_valid; /**< Must be set to true if ionoDelay is being passed */
+ float ionoDelay;
+ /**< Ionospheric delay at T0. \n
+ - Units: Meters
+ */
+
+ /* Optional */
+ /* Iono Delay Rate */
+ uint8_t ionoDot_valid; /**< Must be set to true if ionoDot is being passed */
+ float ionoDot;
+ /**< Ionospheric delay rate. \n
+ - Units: Meters/second
+ */
+
+ /* Optional */
+ /* SBAS Iono Delay */
+ uint8_t sbasIonoDelay_valid; /**< Must be set to true if sbasIonoDelay is being passed */
+ float sbasIonoDelay;
+ /**< SBAS ionospheric delay at T0. \n
+ - Units: Meters
+ */
+
+ /* Optional */
+ /* SBAS Iono Delay Rate */
+ uint8_t sbasIonoDot_valid; /**< Must be set to true if sbasIonoDot is being passed */
+ float sbasIonoDot;
+ /**< SBAS ionospheric delay rate. \n
+ - Units: Meters/second
+ */
+
+ /* Optional */
+ /* Tropospheric Delay */
+ uint8_t tropoDelay_valid; /**< Must be set to true if tropoDelay is being passed */
+ float tropoDelay;
+ /**< Tropospheric delay. \n
+ - Units: Meters
+ */
+
+ /* Optional */
+ /* Satellite Elevation */
+ uint8_t elevation_valid; /**< Must be set to true if elevation is being passed */
+ float elevation;
+ /**< Satellite elevation at T0. \n
+ - Units: Radians
+ */
+
+ /* Optional */
+ /* Satellite Elevation Rate */
+ uint8_t elevationDot_valid; /**< Must be set to true if elevationDot is being passed */
+ float elevationDot;
+ /**< Satellite elevation rate. \n
+ - Units: Radians/second
+ */
+
+ /* Optional */
+ /* Satellite Elevation Uncertainty */
+ uint8_t elenationUnc_valid; /**< Must be set to true if elenationUnc is being passed */
+ float elenationUnc;
+ /**< SV elevation uncertainty. \n
+ - Units: Radians
+ */
+
+ /* Optional */
+ /* Polynomial Coefficients for SV Velocity */
+ uint8_t velCoef_valid; /**< Must be set to true if velCoef is being passed */
+ double velCoef[QMI_LOC_SV_POLY_VELOCITY_COEF_SIZE_V02];
+ /**< Polynomial coefficients for SV velocity (C0X, C1X, C2X, C3X,... C2Z, C3Z). \begin{itemize1}
+ \item Units: \begin{itemize1}
+ \item 0th term -- Meters/second
+ \item 1st term -- Meters/second^2
+ \item 2nd term -- Meters/second^3
+ \item 3rd term -- Meters/second^4 \vspace{-0.18in} \end{itemize1} end{itemize1}
+ */
+}qmiLocEventGnssSvPolyIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ uint8_t wifiApMacAddress[QMI_LOC_WIFI_MAC_ADDR_LENGTH_V02];
+ /**< MAC address of the Wi-Fi AP. */
+}qmiLocWifiApMacAddressStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ char uuid[QMI_LOC_MAX_IBEACON_UUID_STR_LENGTH_V02 + 1];
+ /**< NULL-terminated IBeacon identifier string; a 128-bit value. */
+
+ uint32_t majorNumber;
+ /**< IBeacon major number.*/
+
+ uint32_t minorNumber;
+ /**< IBeacon minor number.*/
+}qmiLocIBeaconIdStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Used by the control point to inject the Geofence context. */
+typedef struct {
+
+ /* Mandatory */
+ /* Transaction ID */
+ uint32_t transactionId;
+ /**< Identifies the transaction. The transaction ID
+ is returned in the Add Geofence Context indication. */
+
+ /* Optional */
+ /* Geofence ID */
+ uint8_t geofenceId_valid; /**< Must be set to true if geofenceId is being passed */
+ uint32_t geofenceId;
+ /**< Geofence identifier allocated by the engine. \n
+ If the Geofence ID is not provided, a Geofence is created with an Area ID
+ list only (e.g., Wi-Fi only list Geofence). \n
+ If the Geofence ID is provided, the added list is used as assistance data
+ to the existing Geofence. */
+
+ /* Optional */
+ /* Wi-Fi AP SSID String */
+ uint8_t wifiApSsidInfo_valid; /**< Must be set to true if wifiApSsidInfo is being passed */
+ uint32_t wifiApSsidInfo_len; /**< Must be set to # of elements in wifiApSsidInfo */
+ qmiLocWifiApSsidStructT_v02 wifiApSsidInfo[QMI_LOC_WIFI_AREA_ID_LIST_LENGTH_V02];
+ /**< \vspace{4pt} \n The ordering of the Wi-Fi AP SSID list should match the Wi-Fi AP MAC address
+ list when both are provided,
+ i.e., the first element of the Wi-Fi AP SSID list must be the SSID of the AP whose MAC
+ address is in the first element in the Wi-Fi AP MAC address, etc. */
+
+ /* Optional */
+ /* Wi-Fi AP MAC Address List for the Geofence */
+ uint8_t wifiApMacAddressList_valid; /**< Must be set to true if wifiApMacAddressList is being passed */
+ uint32_t wifiApMacAddressList_len; /**< Must be set to # of elements in wifiApMacAddressList */
+ qmiLocWifiApMacAddressStructT_v02 wifiApMacAddressList[QMI_LOC_WIFI_AREA_ID_LIST_LENGTH_V02];
+ /**< The ordering of the Wi-Fi AP SSID list should match the Wi-Fi AP MAC address
+ list when both are provided,
+ i.e., the first element of the Wi-Fi AP SSID list must be the SSID of the AP whose MAC
+ address is in the first element in the Wi-Fi AP MAC address, etc. */
+
+ /* Optional */
+ /* TDSCDMA Cell ID List for the Geofence */
+ uint8_t tdsCdmaCellIDList_valid; /**< Must be set to true if tdsCdmaCellIDList is being passed */
+ qmiLocTDSCDMACellIdStructT_v02 tdsCdmaCellIDList[QMI_LOC_CELL_ID_LIST_LENGTH_V02];
+ /**< \n Identifies the TDSCDMA cell on which the device is currently camped. */
+
+ /* Optional */
+ /* WCDMA Cell ID List for the Geofence */
+ uint8_t wcdmaCellIDList_valid; /**< Must be set to true if wcdmaCellIDList is being passed */
+ uint32_t wcdmaCellIDList_len; /**< Must be set to # of elements in wcdmaCellIDList */
+ qmiLocWCDMACellIdStructT_v02 wcdmaCellIDList[QMI_LOC_CELL_ID_LIST_LENGTH_V02];
+ /**< \n Identifies the WCDMA cell on which the device is currently camped. */
+
+ /* Optional */
+ /* GSM Cell ID List for the Geofence */
+ uint8_t gsmCellIDList_valid; /**< Must be set to true if gsmCellIDList is being passed */
+ uint32_t gsmCellIDList_len; /**< Must be set to # of elements in gsmCellIDList */
+ qmiLocGSMCellIdStructT_v02 gsmCellIDList[QMI_LOC_CELL_ID_LIST_LENGTH_V02];
+ /**< \n Identifies the GSM cell on which the device is currently camped. */
+
+ /* Optional */
+ /* IBeacon List of the Geofence */
+ uint8_t iBeaconList_valid; /**< Must be set to true if iBeaconList is being passed */
+ uint32_t iBeaconList_len; /**< Must be set to # of elements in iBeaconList */
+ qmiLocIBeaconIdStructT_v02 iBeaconList[QMI_LOC_IBEACON_LIST_LENGTH_V02];
+}qmiLocAddGeofenceContextReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Used by the control point to inject the Geofence context. */
+typedef struct {
+
+ /* Mandatory */
+ /* Status of the Add Geofence Context Request */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Add Geofence Context request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+
+ /* Optional */
+ /* Transaction ID */
+ uint8_t transactionId_valid; /**< Must be set to true if transactionId is being passed */
+ uint32_t transactionId;
+ /**< Transaction ID that was specified in the Add Geofence Context
+ request. This parameter is always present
+ if the status field is set to SUCCESS. */
+
+ /* Optional */
+ /* Geofence ID */
+ uint8_t geofenceId_valid; /**< Must be set to true if geofenceId is being passed */
+ uint32_t geofenceId;
+ /**< Geofence identifier allocated by the engine. \n
+ If the client specifies the Geofence ID during the Add Geofence Context request,
+ the same ID is returned. \n
+ If the client does not specify the Geofence ID during the Add Geofence Context request,
+ a new Geofence ID is created by the Geofence engine and returned. */
+
+ /* Optional */
+ /* Context ID */
+ uint8_t contextId_valid; /**< Must be set to true if contextId is being passed */
+ uint32_t contextId;
+ /**< Geofence context ID allocated by the engine.
+ The context ID is generated by the Geofence engine to identify the context
+ for a particular Geofence ID.
+ The same Geofence ID may be associated with multiple contexts. */
+}qmiLocAddGeofenceContextIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Used by the control point to inject the Geofence engine context. */
+typedef struct {
+
+ /* Mandatory */
+ /* Transaction ID */
+ uint32_t transactionId;
+ /**< Identifies the transaction. The transaction ID
+ is returned in the Set Geofence Engine Context indication. */
+
+ /* Optional */
+ /* UTC Timestamp of the Day */
+ uint8_t utcTimeOfDay_valid; /**< Must be set to true if utcTimeOfDay is being passed */
+ uint64_t utcTimeOfDay;
+ /**< The UTC time of the day. */
+
+ /* Optional */
+ /* Temperature of the Day in Fahrenheit */
+ uint8_t temperature_valid; /**< Must be set to true if temperature is being passed */
+ int32_t temperature;
+ /**< The temperature of the day in degrees Fahrenheit. */
+}qmiLocSetGeofenceEngineContextReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Used by the control point to inject the Geofence engine context. */
+typedef struct {
+
+ /* Mandatory */
+ /* Status of the Set Geofence Engine Context Request */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Set Geofence Engine Context request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+
+ /* Optional */
+ /* Transaction ID */
+ uint8_t transactionId_valid; /**< Must be set to true if transactionId is being passed */
+ uint32_t transactionId;
+ /**< Transaction ID that was specified in the Set Geofence Engine Context
+ request. This parameter will always be present
+ if the status field is set to SUCCESS. */
+}qmiLocSetGeofenceEngineContextIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Used by the control point to Delete the geofence context. */
+typedef struct {
+
+ /* Mandatory */
+ /* Transaction ID */
+ uint32_t transactionId;
+ /**< Identifies the transaction. The transaction ID
+ is returned in the Delete Geofence Context indication. */
+
+ /* Mandatory */
+ /* Geofence ID */
+ uint32_t geofenceId;
+ /**< Identifies the Geofence whose context is to be deleted. */
+
+ /* Optional */
+ /* Context ID */
+ uint8_t contextId_valid; /**< Must be set to true if contextId is being passed */
+ uint32_t contextId;
+ /**< Identifies the context associated with the Geofence to be deleted.
+ If not specified, all contexts associated with this Geofence are deleted. */
+}qmiLocDeleteGeofenceContextReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Used by the control point to Delete the geofence context. */
+typedef struct {
+
+ /* Mandatory */
+ /* Status of the Delete Geofence Context Request */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Delete Geofence Context request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+
+ /* Optional */
+ /* Transaction ID */
+ uint8_t transactionId_valid; /**< Must be set to true if transactionId is being passed */
+ uint32_t transactionId;
+ /**< Transaction ID that was specified in the Delete Geofence Context request.
+ This parameter will always be present
+ if the status field is set to SUCCESS. */
+
+ /* Optional */
+ /* Geofence ID */
+ uint8_t geofenceId_valid; /**< Must be set to true if geofenceId is being passed */
+ uint32_t geofenceId;
+ /**< Identifier for the Geofence whose context was deleted. */
+
+ /* Optional */
+ /* Context ID */
+ uint8_t contextId_valid; /**< Must be set to true if contextId is being passed */
+ uint32_t contextId;
+ /**< Identifier for the context of the Geofence that was deleted. */
+}qmiLocDeleteGeofenceContextIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Injects GTP WWAN client downloaded data. */
+typedef struct {
+
+ /* Mandatory */
+ /* Data */
+ uint32_t ClientDownloadedData_len; /**< Must be set to # of elements in ClientDownloadedData */
+ char ClientDownloadedData[QMI_LOC_MAX_GTP_WWAN_CLIENT_DOWNLOADED_DATA_LEN_V02];
+ /**< WWAN client downloaded data. \n
+ - Type: Array of bytes \n
+ - Maximum length of the array: 512
+ */
+}qmiLocInjectGtpClientDownloadedDataReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Injects GTP WWAN client downloaded data. */
+typedef struct {
+
+ /* Mandatory */
+ /* GTP client downloaded data injection Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the GTP client downloaded data injection.
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+}qmiLocInjectGtpClientDownloadedDataIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Sends a GDT upload begin response to GDT MP. */
+typedef struct {
+
+ /* Mandatory */
+ /* GDT service ID */
+ qmiLocGdtServiceIdEnumT_v02 serviceId;
+
+ /* Mandatory */
+ /* Session ID */
+ uint32_t sessionId;
+
+ /* Mandatory */
+ /* Access status to GDT */
+ qmiLocGdtAccessStatusEnumT_v02 gdtAccessStatus;
+ /**< GDT status information for this serviceId.
+
+ Valid values: \n
+ - eQMI_LOC_GDT_ACCESS_ALLOWED (1) -- GDT ACCESS to the service is allowed
+ - eQMI_LOC_GDT_ACCESS_FAILED (2) -- Any type of GDT access error
+ - eQMI_LOC_GDT_ACCESS_NOT_ALLOWED (3) -- GDT ACCESS to the service is not allowed
+ */
+}qmiLocGdtUploadBeginStatusReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Sends a GDT upload begin response to GDT MP. */
+typedef struct {
+
+ /* Mandatory */
+ /* GDT upload begin Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the GDT begin request.
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+}qmiLocGdtUploadBeginStatusIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCGDTENDACKENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_GDT_ACK_SUCCESS_V02 = 1, /**< The sent data is accepeted */
+ eQMI_LOC_GDT_ACK_FAILED_V02 = 2, /**< The sent data was not accepted */
+ eQMI_LOC_GDT_ACK_INVALID_V02 = 3, /**< General error in received data */
+ QMILOCGDTENDACKENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocGdtEndAckEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Sends a GDT upload end response to GDT MP. */
+typedef struct {
+
+ /* Mandatory */
+ /* GDT service ID */
+ qmiLocGdtServiceIdEnumT_v02 serviceId;
+
+ /* Mandatory */
+ /* Session ID */
+ uint32_t sessionId;
+
+ /* Mandatory */
+ /* Access status to GDT */
+ qmiLocGdtEndAckEnumT_v02 gdtEndStatus;
+ /**< GDT end status information for this serviceId.
+
+ Valid values: \n
+ - eQMI_LOC_GDT_ACK_SUCCESS (1) -- The sent data is accepeted
+ - eQMI_LOC_GDT_ACK_FAILED (2) -- The sent data was not accepted
+ - eQMI_LOC_GDT_ACK_INVALID (3) -- General error in received data
+ */
+}qmiLocGdtUploadEndReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Sends a GDT upload end response to GDT MP. */
+typedef struct {
+
+ /* Mandatory */
+ /* UTC GDP upload end Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the GDT upload end request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+}qmiLocGdtUploadEndIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCDBTUSAGEENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_DBT_USAGE_NAVIGATION_V02 = 1, /**< Navigation usage type */
+ QMILOCDBTUSAGEENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocDbtUsageEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCDBDISTANCETYPEENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_DBT_DISTANCE_TYPE_STRAIGHT_LINE_V02 = 1, /**< Straight line distance between
+ location updates */
+ QMILOCDBDISTANCETYPEENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocDbDistanceTypeEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Used by the control point to initiate a DBT session. */
+typedef struct {
+
+ /* Mandatory */
+ /* Request ID */
+ uint8_t reqId;
+ /**< ID of the request as identified by the control point. The request ID
+ is reported back in the position reports. The control point must
+ specify the same request ID in the QMI_LOC_STOP_DBT_REQ message. \n
+ - Range: 0 to 255
+ */
+
+ /* Mandatory */
+ /* Minimum Distance Between Position Reports */
+ uint32_t minDistance;
+ /**< Minimum distance, specified by the control point,
+ that must be traversed between position reports. \n
+ - Units: Meters \n
+ */
+
+ /* Mandatory */
+ /* Type of distance to be tracked */
+ qmiLocDbDistanceTypeEnumT_v02 distanceType;
+ /**< Straight line distance or distance accumulated\n
+
+ Valid values: \n
+ - eQMI_LOC_DBT_DISTANCE_TYPE_STRAIGHT_LINE (1) -- Straight line distance between
+ location updates
+ */
+
+ /* Mandatory */
+ /* Start Breadcrumb Operation */
+ uint8_t needBreadCrumbs;
+ /**< Indicates whether the control point wants the bread crumb
+ (position history) information
+ \begin{itemize1}
+ \item 0x01 (TRUE) -- Control point is requesting bread crumb
+ information
+ \item 0x00 (FALSE) -- Control point is not requesting bread
+ crumb information
+ \vspace{-0.18in} \end{itemize1}
+ */
+
+ /* Mandatory */
+ /* Need Origin Location */
+ uint8_t needOriginLocation;
+ /**< Indicates whether the control point wants the position
+ corresponding to the origin
+ \begin{itemize1}
+ \item 0x01 (TRUE) -- Control point is requesting origin
+ location
+ \item 0x00 (FALSE) -- Control point is not requesting origin
+ location
+ \vspace{-0.18in} \end{itemize1}
+ */
+
+ /* Optional */
+ /* Maximum Latency threshold for Position Reports */
+ uint8_t maxLatency_valid; /**< Must be set to true if maxLatency is being passed */
+ uint32_t maxLatency;
+ /**< Maximum time period , specified by the control point, after the min
+ distance criteria has been met within which a location update needs
+ to be provided. If not specified a ideal value will be assumed by the
+ engine \n
+ - Units: seconds \n
+ */
+
+ /* Optional */
+ /* Usage Type */
+ uint8_t usageType_valid; /**< Must be set to true if usageType is being passed */
+ qmiLocDbtUsageEnumT_v02 usageType;
+ /**< Specifies the type of usage by the control point. It refers specifically
+ to the use case category of the client. For eg a navigation client should
+ set this to QMI_LOC_USAGE_NAVIGATION for better performance in difficult
+ signal conditions such as tunnels."
+
+ If not specified, the service will use default algorithms to provide an ideal
+ performance.
+
+ Valid values: \n
+ - eQMI_LOC_DBT_USAGE_NAVIGATION (1) -- Navigation usage type
+ */
+}qmiLocStartDbtReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Used by the control point to initiate a DBT session. */
+typedef struct {
+
+ /* Mandatory */
+ /* Start DBT Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Start DBT request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+}qmiLocStartDbtIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Request Message; Used by the control point to stop a DBT session. */
+typedef struct {
+
+ /* Mandatory */
+ /* Request ID */
+ uint8_t reqId;
+ /**< ID of the request that was specified in the Start DBT
+ request (QMI_LOC_START_DBT_REQ).\n
+ - Range: 0 to 255 */
+}qmiLocStopDbtReqMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Used by the control point to stop a DBT session. */
+typedef struct {
+
+ /* Mandatory */
+ /* Stop DBT Status */
+ qmiLocStatusEnumT_v02 status;
+ /**< Status of the Stop DBT request.
+
+ Valid values: \n
+ - eQMI_LOC_SUCCESS (0) -- Request was completed successfully \n
+ - eQMI_LOC_GENERAL_FAILURE (1) -- Request failed because of a general failure \n
+ - eQMI_LOC_UNSUPPORTED (2) -- Request failed because it is not supported \n
+ - eQMI_LOC_INVALID_PARAMETER (3) -- Request failed because it contained invalid parameters \n
+ - eQMI_LOC_ENGINE_BUSY (4) -- Request failed because the engine is busy \n
+ - eQMI_LOC_PHONE_OFFLINE (5) -- Request failed because the phone is offline \n
+ - eQMI_LOC_TIMEOUT (6) -- Request failed because it timed out \n
+ - eQMI_LOC_CONFIG_NOT_SUPPORTED (7) -- Request failed because an undefined configuration was requested \n
+ - eQMI_LOC_INSUFFICIENT_MEMORY (8) -- Request failed because the engine could not allocate sufficient memory for the request \n
+ - eQMI_LOC_MAX_GEOFENCE_PROGRAMMED (9) -- Request failed because the maximum number of Geofences are already programmed \n
+ - eQMI_LOC_XTRA_VERSION_CHECK_FAILURE (10) -- Location service failed because of an XTRA version-based file format check failure
+ */
+}qmiLocStopDbtIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCDBTPOSITIONTYPEENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_DBT_POSITION_TYPE_ORIGIN_V02 = 1, /**< Position reported is at the origin */
+ eQMI_LOC_DBT_POSITION_TYPE_TRACKING_V02 = 2, /**< Position reported is of tracking type
+ where the origin location has already
+ been reported */
+ QMILOCDBTPOSITIONTYPEENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocDbtPositionTypeEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_aggregates
+ @{
+ */
+typedef struct {
+
+ /* UTC Timestamp */
+ uint64_t timestampUtc;
+ /**< UTC timestamp.
+ \begin{itemize1}
+ \item Units: Milliseconds since Jan. 1, 1970
+ \vspace{-0.18in} \end{itemize1} */
+
+ /* Latitude */
+ double latitude;
+ /**< Latitude (specified in WGS84 datum).
+ \begin{itemize1}
+ \item Type: Floating point
+ \item Units: Degrees
+ \item Range: -90.0 to 90.0 \begin{itemize1}
+ \item Positive values indicate northern latitude
+ \item Negative values indicate southern latitude
+ \vspace{-0.18in} \end{itemize1} \end{itemize1} */
+
+ /* Longitude */
+ double longitude;
+ /**< Longitude (specified in WGS84 datum).
+ \begin{itemize1}
+ \item Type: Floating point
+ \item Units: Degrees
+ \item Range: -180.0 to 180.0 \begin{itemize1}
+ \item Positive values indicate eastern longitude
+ \item Negative values indicate western longitude
+ \vspace{-0.18in} \end{itemize1} \end{itemize1} */
+
+ /* Horizontal Elliptical Uncertainty (Semi-Minor Axis) */
+ float horUncEllipseSemiMinor;
+ /**< Semi-minor axis of horizontal elliptical uncertainty.\n
+ - Units: Meters */
+
+ /* Horizontal Elliptical Uncertainty (Semi-Major Axis) */
+ float horUncEllipseSemiMajor;
+ /**< Semi-major axis of horizontal elliptical uncertainty.\n
+ - Units: Meters */
+
+ /* Elliptical Horizontal Uncertainty Azimuth */
+ float horUncEllipseOrientAzimuth;
+ /**< Elliptical horizontal uncertainty azimuth of orientation.\n
+ - Units: Decimal degrees \n
+ - Range: 0 to 180 */
+
+ /* Horizontal Speed validity bit */
+ uint8_t speedHorizontal_valid;
+ /**< Indicates whether the Horizontal speed field contains valid
+ information.
+ \begin{itemize1}
+ \item 0x01 (TRUE) -- Horizontal speed is valid
+ \item 0x00 (FALSE) -- Horizontal speed is invalid
+ and is to be ignored
+ \vspace{-0.18in} \end{itemize1} */
+
+ /* Horizontal Speed */
+ float speedHorizontal;
+ /**< Horizontal speed.\n
+ - Units: Meters/second */
+
+ /* Altitude validity bit */
+ uint8_t altitudeWrtEllipsoid_valid;
+ /**< Indicates whether the altitude field contains valid
+ information.
+ \begin{itemize1}
+ \item 0x01 (TRUE) -- Altitude field is valid
+ \item 0x00 (FALSE) -- Altitude field is invalid
+ and is to be ignored
+ \vspace{-0.18in} \end{itemize1}
+ */
+
+ /* Altitude With Respect to Ellipsoid */
+ float altitudeWrtEllipsoid;
+ /**< Altitude with respect to the WGS84 ellipsoid.\n
+ - Units: Meters \n
+ - Range: -500 to 15883 */
+
+ /* Vertical Uncertainty validity bit */
+ uint8_t vertUnc_valid;
+ /**< Indicates whether the Vertical Uncertainty field contains valid
+ information.
+ \begin{itemize1}
+ \item 0x01 (TRUE) -- Vertical Uncertainty field is valid
+ \item 0x00 (FALSE) -- Vertical Uncertainty field is invalid
+ and is to be ignored
+ \vspace{-0.18in} \end{itemize1} */
+
+ /* Vertical Uncertainty */
+ float vertUnc;
+ /**< Vertical uncertainty.\n
+ - Units: Meters */
+
+ /* Vertical Speed validity bit */
+ uint8_t speedVertical_valid;
+ /**< Indicates whether the Vertical Speed field contains valid
+ information.
+ \begin{itemize1}
+ \item 0x01 (TRUE) -- Vertical Speed field is valid
+ \item 0x00 (FALSE) -- Vertical Speed field is invalid
+ and is to be ignored
+ \vspace{-0.18in} \end{itemize1} */
+
+ /* Vertical Speed */
+ float speedVertical;
+ /**< Vertical speed.\n
+ - Units: Meters/second */
+
+ /* heading validity bit */
+ uint8_t heading_valid;
+ /**< Indicates whether the Heading field contains valid
+ information.
+ \begin{itemize1}
+ \item 0x01 (TRUE) -- Heading field is valid
+ \item 0x00 (FALSE) -- Heading field is invalid
+ and is to be ignored
+ \vspace{-0.18in} \end{itemize1} */
+
+ /* Heading */
+ float heading;
+ /**< Heading.\n
+ - Units: Degrees \n
+ - Range: 0 to 359.999 */
+}qmiLocDbtPositionStructT_v02; /* Type */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Notifies the control point of
+ a Distance Based Tracking Position Report */
+typedef struct {
+
+ /* Mandatory */
+ /* Request ID */
+ uint8_t reqId;
+ /**< ID of the DBT request for which this
+ report was generated. */
+
+ /* Mandatory */
+ /* DBT Position */
+ qmiLocDbtPositionStructT_v02 dbtPosition;
+ /**< Position of the client when it has traversed the
+ distance specified.
+ */
+
+ /* Mandatory */
+ /* DBT Position */
+ qmiLocDbtPositionTypeEnumT_v02 positionType;
+ /**< Specifies if the position reported is at the
+ origin of the DBT session or during the tracking
+ duration of the session */
+
+ /* Optional */
+ /* Heading Uncertainty */
+ uint8_t headingUnc_valid; /**< Must be set to true if headingUnc is being passed */
+ float headingUnc;
+ /**< Heading uncertainty.\n
+ - Units: Degrees \n
+ - Range: 0 to 359.999 */
+
+ /* Optional */
+ /* Speed Uncertainty */
+ uint8_t speedUnc_valid; /**< Must be set to true if speedUnc is being passed */
+ float speedUnc;
+ /**< 3-D speed uncertainty.\n
+ - Units: Meters/second */
+
+ /* Optional */
+ /* Horizontal Confidence */
+ uint8_t horConfidence_valid; /**< Must be set to true if horConfidence is being passed */
+ uint8_t horConfidence;
+ /**< Horizontal uncertainty confidence.\n
+ - Units: Percent \n
+ - Range: 0 to 99 */
+
+ /* Optional */
+ /* Vertical Confidence */
+ uint8_t vertConfidence_valid; /**< Must be set to true if vertConfidence is being passed */
+ uint8_t vertConfidence;
+ /**< Vertical uncertainty confidence.\n
+ - Units: Percent \n
+ - Range: 0 to 99 */
+
+ /* Optional */
+ /* Dilution of Precision */
+ uint8_t DOP_valid; /**< Must be set to true if DOP is being passed */
+ qmiLocDOPStructT_v02 DOP;
+ /**< \vspace{0.06in} \n Dilution of precision associated with this position. */
+
+ /* Optional */
+ /* SVs Used to Calculate the Fix */
+ uint8_t gnssSvUsedList_valid; /**< Must be set to true if gnssSvUsedList is being passed */
+ uint32_t gnssSvUsedList_len; /**< Must be set to # of elements in gnssSvUsedList */
+ uint16_t gnssSvUsedList[QMI_LOC_MAX_SV_USED_LIST_LENGTH_V02];
+ /**< Each entry in the list contains the SV ID of a satellite
+ used for calculating this position report. The following
+ information is associated with each SV ID: \n
+ Range: \n
+ - For GPS: 1 to 32 \n
+ - For SBAS: 33 to 64 \n
+ - For GLONASS: 65 to 96 \n
+ - For QZSS: 193 to 197 \n
+ - For BDS: 201 to 237
+ */
+
+ /* Optional */
+ /* DBT Bread Crumb Entries */
+ uint8_t numBreadCrumbEntries_valid; /**< Must be set to true if numBreadCrumbEntries is being passed */
+ uint32_t numBreadCrumbEntries;
+ /**< The number of bread crumb(position history) entries available for
+ extraction. Bread crumb refers to positions that were obtained by
+ the location engine before the distance threshold specified by the
+ control point had not been traveresed */
+
+ /* Optional */
+ /* DBT Bread Crumb Buffer Id */
+ uint8_t bufferId_valid; /**< Must be set to true if bufferId is being passed */
+ uint16_t bufferId;
+ /**< The buffer id associated with bread crumb or position history
+ preceeding the current position report. The control point can use
+ the command QMI_LOC_READ_BREADCRUMB with the buffer id to retrieve
+ the position history*/
+}qmiLocEventDbtPositionReportIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_enums
+ @{
+ */
+typedef enum {
+ QMILOCDBTSESSIONSTATUSENUMT_MIN_ENUM_VAL_V02 = -2147483647, /**< To force a 32 bit signed enum. Do not change or use*/
+ eQMI_LOC_DBT_UNABLE_TO_TRACK_V02 = 1, /**< Distance based tracking is unavailable and DBT fixes
+ cannot be obtained currently */
+ eQMI_LOC_DBT_ABLE_TO_TRACK_V02 = 2, /**< Distance based tracking is available and DBT fixes
+ can be obtained currently */
+ QMILOCDBTSESSIONSTATUSENUMT_MAX_ENUM_VAL_V02 = 2147483647 /**< To force a 32 bit signed enum. Do not change or use*/
+}qmiLocDbtSessionStatusEnumT_v02;
+/**
+ @}
+ */
+
+/** @addtogroup loc_qmi_messages
+ @{
+ */
+/** Indication Message; Notifies the control point of the
+ DBT session status. */
+typedef struct {
+
+ /* Mandatory */
+ /* DBT Session Status */
+ qmiLocDbtSessionStatusEnumT_v02 dbtSessionStatus;
+ /**< Specifies the DBT Session Status type.
+
+ Valid values: \n
+ - eQMI_LOC_DBT_UNABLE_TO_TRACK (1) -- Distance based tracking is unavailable and DBT fixes
+ cannot be obtained currently
+ - eQMI_LOC_DBT_ABLE_TO_TRACK (2) -- Distance based tracking is available and DBT fixes
+ can be obtained currently
+ */
+}qmiLocEventDbtSessionStatusIndMsgT_v02; /* Message */
+/**
+ @}
+ */
+
+/* Conditional compilation tags for message removal */
+//#define REMOVE_QMI_LOC_ADD_CIRCULAR_GEOFENCE_V02
+//#define REMOVE_QMI_LOC_ADD_GEOFENCE_CONTEXT_V02
+//#define REMOVE_QMI_LOC_DELETE_ASSIST_DATA_V02
+//#define REMOVE_QMI_LOC_DELETE_GEOFENCE_V02
+//#define REMOVE_QMI_LOC_DELETE_GEOFENCE_CONTEXT_V02
+//#define REMOVE_QMI_LOC_DELETE_SUPL_CERTIFICATE_V02
+//#define REMOVE_QMI_LOC_EDIT_GEOFENCE_V02
+//#define REMOVE_QMI_LOC_EVENT_BATCH_FULL_NOTIFICATION_V02
+//#define REMOVE_QMI_LOC_EVENT_DBT_POSITION_REPORT_V02
+//#define REMOVE_QMI_LOC_EVENT_DBT_SESSION_STATUS_V02
+//#define REMOVE_QMI_LOC_EVENT_ENGINE_STATE_V02
+//#define REMOVE_QMI_LOC_EVENT_FIX_SESSION_STATE_V02
+//#define REMOVE_QMI_LOC_EVENT_GDT_UPLOAD_BEGIN_STATUS_REQ_V02
+//#define REMOVE_QMI_LOC_EVENT_GDT_UPLOAD_END_REQ_V02
+//#define REMOVE_QMI_LOC_EVENT_GEOFENCE_BATCHED_BREACH_NOTIFICATION_V02
+//#define REMOVE_QMI_LOC_EVENT_GEOFENCE_BREACH_NOTIFICATION_V02
+//#define REMOVE_QMI_LOC_EVENT_GEOFENCE_GEN_ALERT_V02
+//#define REMOVE_QMI_LOC_EVENT_GEOFENCE_PROXIMITY_NOTIFICATION_V02
+//#define REMOVE_QMI_LOC_EVENT_GNSS_MEASUREMENT_REPORT_IND_V02
+//#define REMOVE_QMI_LOC_EVENT_GNSS_SV_INFO_V02
+//#define REMOVE_QMI_LOC_EVENT_INJECT_POSITION_REQ_V02
+//#define REMOVE_QMI_LOC_EVENT_INJECT_PREDICTED_ORBITS_REQ_V02
+//#define REMOVE_QMI_LOC_EVENT_INJECT_TIME_REQ_V02
+//#define REMOVE_QMI_LOC_EVENT_INJECT_WIFI_AP_DATA_REQ_V02
+//#define REMOVE_QMI_LOC_EVENT_LIVE_BATCHED_POSITION_REPORT_V02
+//#define REMOVE_QMI_LOC_EVENT_LOCATION_SERVER_CONNECTION_REQ_V02
+//#define REMOVE_QMI_LOC_EVENT_MOTION_DATA_CONTROL_V02
+//#define REMOVE_QMI_LOC_EVENT_NI_GEOFENCE_NOTIFICATION_V02
+//#define REMOVE_QMI_LOC_EVENT_NI_NOTIFY_VERIFY_REQ_V02
+//#define REMOVE_QMI_LOC_EVENT_NMEA_V02
+//#define REMOVE_QMI_LOC_EVENT_PEDOMETER_CONTROL_V02
+//#define REMOVE_QMI_LOC_EVENT_POSITION_REPORT_V02
+//#define REMOVE_QMI_LOC_EVENT_SENSOR_STREAMING_READY_STATUS_V02
+//#define REMOVE_QMI_LOC_EVENT_SET_SPI_STREAMING_REPORT_V02
+//#define REMOVE_QMI_LOC_EVENT_SV_POLYNOMIAL_REPORT_IND_V02
+//#define REMOVE_QMI_LOC_EVENT_TIME_SYNC_REQ_V02
+//#define REMOVE_QMI_LOC_EVENT_VEHICLE_DATA_READY_STATUS_V02
+//#define REMOVE_QMI_LOC_EVENT_WIFI_REQ_V02
+//#define REMOVE_QMI_LOC_GDT_UPLOAD_BEGIN_STATUS_V02
+//#define REMOVE_QMI_LOC_GDT_UPLOAD_END_V02
+//#define REMOVE_QMI_LOC_GET_AVAILABLE_WWAN_POSITION_V02
+//#define REMOVE_QMI_LOC_GET_BATCH_SIZE_V02
+//#define REMOVE_QMI_LOC_GET_BEST_AVAILABLE_POSITION_V02
+//#define REMOVE_QMI_LOC_GET_CRADLE_MOUNT_CONFIG_V02
+//#define REMOVE_QMI_LOC_GET_ENGINE_LOCK_V02
+//#define REMOVE_QMI_LOC_GET_EXTERNAL_POWER_CONFIG_V02
+//#define REMOVE_QMI_LOC_GET_FIX_CRITERIA_V02
+//#define REMOVE_QMI_LOC_GET_GEOFENCE_ENGINE_CONFIG_V02
+//#define REMOVE_QMI_LOC_GET_LOW_POWER_MODE_V02
+//#define REMOVE_QMI_LOC_GET_NI_GEOFENCE_ID_LIST_V02
+//#define REMOVE_QMI_LOC_GET_NMEA_TYPES_V02
+//#define REMOVE_QMI_LOC_GET_OPERATION_MODE_V02
+//#define REMOVE_QMI_LOC_GET_POSITION_ENGINE_CONFIG_PARAMETERS_V02
+//#define REMOVE_QMI_LOC_GET_PREDICTED_ORBITS_DATA_SOURCE_V02
+//#define REMOVE_QMI_LOC_GET_PREDICTED_ORBITS_DATA_VALIDITY_V02
+//#define REMOVE_QMI_LOC_GET_PROTOCOL_CONFIG_PARAMETERS_V02
+//#define REMOVE_QMI_LOC_GET_REGISTERED_EVENTS_V02
+//#define REMOVE_QMI_LOC_GET_SBAS_CONFIG_V02
+//#define REMOVE_QMI_LOC_GET_SENSOR_CONTROL_CONFIG_V02
+//#define REMOVE_QMI_LOC_GET_SENSOR_PERFORMANCE_CONTROL_CONFIGURATION_V02
+//#define REMOVE_QMI_LOC_GET_SENSOR_PROPERTIES_V02
+//#define REMOVE_QMI_LOC_GET_SERVER_V02
+//#define REMOVE_QMI_LOC_GET_SERVICE_REVISION_V02
+//#define REMOVE_QMI_LOC_GET_SUPPORTED_FIELDS_V02
+//#define REMOVE_QMI_LOC_GET_SUPPORTED_MSGS_V02
+//#define REMOVE_QMI_LOC_GET_XTRA_T_SESSION_CONTROL_V02
+//#define REMOVE_QMI_LOC_INFORM_CLIENT_REVISION_V02
+//#define REMOVE_QMI_LOC_INFORM_LOCATION_SERVER_CONN_STATUS_V02
+//#define REMOVE_QMI_LOC_INFORM_NI_USER_RESPONSE_V02
+//#define REMOVE_QMI_LOC_INJECT_GSM_CELL_INFO_V02
+//#define REMOVE_QMI_LOC_INJECT_GTP_CLIENT_DOWNLOADED_DATA_V02
+//#define REMOVE_QMI_LOC_INJECT_MOTION_DATA_V02
+//#define REMOVE_QMI_LOC_INJECT_NETWORK_INITIATED_MESSAGE_V02
+//#define REMOVE_QMI_LOC_INJECT_POSITION_V02
+//#define REMOVE_QMI_LOC_INJECT_PREDICTED_ORBITS_DATA_V02
+//#define REMOVE_QMI_LOC_INJECT_SENSOR_DATA_V02
+//#define REMOVE_QMI_LOC_INJECT_SUBSCRIBER_ID_V02
+//#define REMOVE_QMI_LOC_INJECT_SUPL_CERTIFICATE_V02
+//#define REMOVE_QMI_LOC_INJECT_TDSCDMA_CELL_INFO_V02
+//#define REMOVE_QMI_LOC_INJECT_TIME_SYNC_DATA_V02
+//#define REMOVE_QMI_LOC_INJECT_UTC_TIME_V02
+//#define REMOVE_QMI_LOC_INJECT_VEHICLE_SENSOR_DATA_V02
+//#define REMOVE_QMI_LOC_INJECT_WCDMA_CELL_INFO_V02
+//#define REMOVE_QMI_LOC_INJECT_WIFI_AP_DATA_V02
+//#define REMOVE_QMI_LOC_INJECT_WIFI_POSITION_V02
+//#define REMOVE_QMI_LOC_NOTIFY_WIFI_ATTACHMENT_STATUS_V02
+//#define REMOVE_QMI_LOC_NOTIFY_WIFI_ENABLED_STATUS_V02
+//#define REMOVE_QMI_LOC_NOTIFY_WIFI_STATUS_V02
+//#define REMOVE_QMI_LOC_PEDOMETER_REPORT_V02
+//#define REMOVE_QMI_LOC_QUERY_GEOFENCE_V02
+//#define REMOVE_QMI_LOC_READ_FROM_BATCH_V02
+//#define REMOVE_QMI_LOC_REG_EVENTS_V02
+//#define REMOVE_QMI_LOC_RELEASE_BATCH_V02
+//#define REMOVE_QMI_LOC_SET_CRADLE_MOUNT_CONFIG_V02
+//#define REMOVE_QMI_LOC_SET_ENGINE_LOCK_V02
+//#define REMOVE_QMI_LOC_SET_EXTERNAL_POWER_CONFIG_V02
+//#define REMOVE_QMI_LOC_SET_GEOFENCE_ENGINE_CONFIG_V02
+//#define REMOVE_QMI_LOC_SET_GEOFENCE_ENGINE_CONTEXT_V02
+//#define REMOVE_QMI_LOC_SET_GNSS_CONSTELL_REPORT_CONFIG_V02
+//#define REMOVE_QMI_LOC_SET_LOW_POWER_MODE_V02
+//#define REMOVE_QMI_LOC_SET_NMEA_TYPES_V02
+//#define REMOVE_QMI_LOC_SET_OPERATION_MODE_V02
+//#define REMOVE_QMI_LOC_SET_POSITION_ENGINE_CONFIG_PARAMETERS_V02
+//#define REMOVE_QMI_LOC_SET_PREMIUM_SERVICES_CONFIG_V02
+//#define REMOVE_QMI_LOC_SET_PROTOCOL_CONFIG_PARAMETERS_V02
+//#define REMOVE_QMI_LOC_SET_SBAS_CONFIG_V02
+//#define REMOVE_QMI_LOC_SET_SENSOR_CONTROL_CONFIG_V02
+//#define REMOVE_QMI_LOC_SET_SENSOR_PERFORMANCE_CONTROL_CONFIGURATION_V02
+//#define REMOVE_QMI_LOC_SET_SENSOR_PROPERTIES_V02
+//#define REMOVE_QMI_LOC_SET_SERVER_V02
+//#define REMOVE_QMI_LOC_SET_SPI_STATUS_V02
+//#define REMOVE_QMI_LOC_SET_XTRA_T_SESSION_CONTROL_V02
+//#define REMOVE_QMI_LOC_SET_XTRA_VERSION_CHECK_V02
+//#define REMOVE_QMI_LOC_START_V02
+//#define REMOVE_QMI_LOC_START_BATCHING_V02
+//#define REMOVE_QMI_LOC_START_DBT_V02
+//#define REMOVE_QMI_LOC_STOP_V02
+//#define REMOVE_QMI_LOC_STOP_BATCHING_V02
+//#define REMOVE_QMI_LOC_STOP_DBT_V02
+//#define REMOVE_QMI_LOC_WWAN_OUT_OF_SERVICE_NOTIFICATION_V02
+
+/*Service Message Definition*/
+/** @addtogroup loc_qmi_msg_ids
+ @{
+ */
+#define QMI_LOC_GET_SUPPORTED_MSGS_REQ_V02 0x001E
+#define QMI_LOC_GET_SUPPORTED_MSGS_RESP_V02 0x001E
+#define QMI_LOC_GET_SUPPORTED_FIELDS_REQ_V02 0x001F
+#define QMI_LOC_GET_SUPPORTED_FIELDS_RESP_V02 0x001F
+#define QMI_LOC_INFORM_CLIENT_REVISION_REQ_V02 0x0020
+#define QMI_LOC_INFORM_CLIENT_REVISION_RESP_V02 0x0020
+#define QMI_LOC_REG_EVENTS_REQ_V02 0x0021
+#define QMI_LOC_REG_EVENTS_RESP_V02 0x0021
+#define QMI_LOC_START_REQ_V02 0x0022
+#define QMI_LOC_START_RESP_V02 0x0022
+#define QMI_LOC_STOP_REQ_V02 0x0023
+#define QMI_LOC_STOP_RESP_V02 0x0023
+#define QMI_LOC_EVENT_POSITION_REPORT_IND_V02 0x0024
+#define QMI_LOC_EVENT_GNSS_SV_INFO_IND_V02 0x0025
+#define QMI_LOC_EVENT_NMEA_IND_V02 0x0026
+#define QMI_LOC_EVENT_NI_NOTIFY_VERIFY_REQ_IND_V02 0x0027
+#define QMI_LOC_EVENT_INJECT_TIME_REQ_IND_V02 0x0028
+#define QMI_LOC_EVENT_INJECT_PREDICTED_ORBITS_REQ_IND_V02 0x0029
+#define QMI_LOC_EVENT_INJECT_POSITION_REQ_IND_V02 0x002A
+#define QMI_LOC_EVENT_ENGINE_STATE_IND_V02 0x002B
+#define QMI_LOC_EVENT_FIX_SESSION_STATE_IND_V02 0x002C
+#define QMI_LOC_EVENT_WIFI_REQ_IND_V02 0x002D
+#define QMI_LOC_EVENT_SENSOR_STREAMING_READY_STATUS_IND_V02 0x002E
+#define QMI_LOC_EVENT_TIME_SYNC_REQ_IND_V02 0x002F
+#define QMI_LOC_EVENT_SET_SPI_STREAMING_REPORT_IND_V02 0x0030
+#define QMI_LOC_EVENT_LOCATION_SERVER_CONNECTION_REQ_IND_V02 0x0031
+#define QMI_LOC_GET_SERVICE_REVISION_REQ_V02 0x0032
+#define QMI_LOC_GET_SERVICE_REVISION_RESP_V02 0x0032
+#define QMI_LOC_GET_SERVICE_REVISION_IND_V02 0x0032
+#define QMI_LOC_GET_FIX_CRITERIA_REQ_V02 0x0033
+#define QMI_LOC_GET_FIX_CRITERIA_RESP_V02 0x0033
+#define QMI_LOC_GET_FIX_CRITERIA_IND_V02 0x0033
+#define QMI_LOC_NI_USER_RESPONSE_REQ_V02 0x0034
+#define QMI_LOC_NI_USER_RESPONSE_RESP_V02 0x0034
+#define QMI_LOC_NI_USER_RESPONSE_IND_V02 0x0034
+#define QMI_LOC_INJECT_PREDICTED_ORBITS_DATA_REQ_V02 0x0035
+#define QMI_LOC_INJECT_PREDICTED_ORBITS_DATA_RESP_V02 0x0035
+#define QMI_LOC_INJECT_PREDICTED_ORBITS_DATA_IND_V02 0x0035
+#define QMI_LOC_GET_PREDICTED_ORBITS_DATA_SOURCE_REQ_V02 0x0036
+#define QMI_LOC_GET_PREDICTED_ORBITS_DATA_SOURCE_RESP_V02 0x0036
+#define QMI_LOC_GET_PREDICTED_ORBITS_DATA_SOURCE_IND_V02 0x0036
+#define QMI_LOC_GET_PREDICTED_ORBITS_DATA_VALIDITY_REQ_V02 0x0037
+#define QMI_LOC_GET_PREDICTED_ORBITS_DATA_VALIDITY_RESP_V02 0x0037
+#define QMI_LOC_GET_PREDICTED_ORBITS_DATA_VALIDITY_IND_V02 0x0037
+#define QMI_LOC_INJECT_UTC_TIME_REQ_V02 0x0038
+#define QMI_LOC_INJECT_UTC_TIME_RESP_V02 0x0038
+#define QMI_LOC_INJECT_UTC_TIME_IND_V02 0x0038
+#define QMI_LOC_INJECT_POSITION_REQ_V02 0x0039
+#define QMI_LOC_INJECT_POSITION_RESP_V02 0x0039
+#define QMI_LOC_INJECT_POSITION_IND_V02 0x0039
+#define QMI_LOC_SET_ENGINE_LOCK_REQ_V02 0x003A
+#define QMI_LOC_SET_ENGINE_LOCK_RESP_V02 0x003A
+#define QMI_LOC_SET_ENGINE_LOCK_IND_V02 0x003A
+#define QMI_LOC_GET_ENGINE_LOCK_REQ_V02 0x003B
+#define QMI_LOC_GET_ENGINE_LOCK_RESP_V02 0x003B
+#define QMI_LOC_GET_ENGINE_LOCK_IND_V02 0x003B
+#define QMI_LOC_SET_SBAS_CONFIG_REQ_V02 0x003C
+#define QMI_LOC_SET_SBAS_CONFIG_RESP_V02 0x003C
+#define QMI_LOC_SET_SBAS_CONFIG_IND_V02 0x003C
+#define QMI_LOC_GET_SBAS_CONFIG_REQ_V02 0x003D
+#define QMI_LOC_GET_SBAS_CONFIG_RESP_V02 0x003D
+#define QMI_LOC_GET_SBAS_CONFIG_IND_V02 0x003D
+#define QMI_LOC_SET_NMEA_TYPES_REQ_V02 0x003E
+#define QMI_LOC_SET_NMEA_TYPES_RESP_V02 0x003E
+#define QMI_LOC_SET_NMEA_TYPES_IND_V02 0x003E
+#define QMI_LOC_GET_NMEA_TYPES_REQ_V02 0x003F
+#define QMI_LOC_GET_NMEA_TYPES_RESP_V02 0x003F
+#define QMI_LOC_GET_NMEA_TYPES_IND_V02 0x003F
+#define QMI_LOC_SET_LOW_POWER_MODE_REQ_V02 0x0040
+#define QMI_LOC_SET_LOW_POWER_MODE_RESP_V02 0x0040
+#define QMI_LOC_SET_LOW_POWER_MODE_IND_V02 0x0040
+#define QMI_LOC_GET_LOW_POWER_MODE_REQ_V02 0x0041
+#define QMI_LOC_GET_LOW_POWER_MODE_RESP_V02 0x0041
+#define QMI_LOC_GET_LOW_POWER_MODE_IND_V02 0x0041
+#define QMI_LOC_SET_SERVER_REQ_V02 0x0042
+#define QMI_LOC_SET_SERVER_RESP_V02 0x0042
+#define QMI_LOC_SET_SERVER_IND_V02 0x0042
+#define QMI_LOC_GET_SERVER_REQ_V02 0x0043
+#define QMI_LOC_GET_SERVER_RESP_V02 0x0043
+#define QMI_LOC_GET_SERVER_IND_V02 0x0043
+#define QMI_LOC_DELETE_ASSIST_DATA_REQ_V02 0x0044
+#define QMI_LOC_DELETE_ASSIST_DATA_RESP_V02 0x0044
+#define QMI_LOC_DELETE_ASSIST_DATA_IND_V02 0x0044
+#define QMI_LOC_SET_XTRA_T_SESSION_CONTROL_REQ_V02 0x0045
+#define QMI_LOC_SET_XTRA_T_SESSION_CONTROL_RESP_V02 0x0045
+#define QMI_LOC_SET_XTRA_T_SESSION_CONTROL_IND_V02 0x0045
+#define QMI_LOC_GET_XTRA_T_SESSION_CONTROL_REQ_V02 0x0046
+#define QMI_LOC_GET_XTRA_T_SESSION_CONTROL_RESP_V02 0x0046
+#define QMI_LOC_GET_XTRA_T_SESSION_CONTROL_IND_V02 0x0046
+#define QMI_LOC_INJECT_WIFI_POSITION_REQ_V02 0x0047
+#define QMI_LOC_INJECT_WIFI_POSITION_RESP_V02 0x0047
+#define QMI_LOC_INJECT_WIFI_POSITION_IND_V02 0x0047
+#define QMI_LOC_NOTIFY_WIFI_STATUS_REQ_V02 0x0048
+#define QMI_LOC_NOTIFY_WIFI_STATUS_RESP_V02 0x0048
+#define QMI_LOC_NOTIFY_WIFI_STATUS_IND_V02 0x0048
+#define QMI_LOC_GET_REGISTERED_EVENTS_REQ_V02 0x0049
+#define QMI_LOC_GET_REGISTERED_EVENTS_RESP_V02 0x0049
+#define QMI_LOC_GET_REGISTERED_EVENTS_IND_V02 0x0049
+#define QMI_LOC_SET_OPERATION_MODE_REQ_V02 0x004A
+#define QMI_LOC_SET_OPERATION_MODE_RESP_V02 0x004A
+#define QMI_LOC_SET_OPERATION_MODE_IND_V02 0x004A
+#define QMI_LOC_GET_OPERATION_MODE_REQ_V02 0x004B
+#define QMI_LOC_GET_OPERATION_MODE_RESP_V02 0x004B
+#define QMI_LOC_GET_OPERATION_MODE_IND_V02 0x004B
+#define QMI_LOC_SET_SPI_STATUS_REQ_V02 0x004C
+#define QMI_LOC_SET_SPI_STATUS_RESP_V02 0x004C
+#define QMI_LOC_SET_SPI_STATUS_IND_V02 0x004C
+#define QMI_LOC_INJECT_SENSOR_DATA_REQ_V02 0x004D
+#define QMI_LOC_INJECT_SENSOR_DATA_RESP_V02 0x004D
+#define QMI_LOC_INJECT_SENSOR_DATA_IND_V02 0x004D
+#define QMI_LOC_INJECT_TIME_SYNC_DATA_REQ_V02 0x004E
+#define QMI_LOC_INJECT_TIME_SYNC_DATA_RESP_V02 0x004E
+#define QMI_LOC_INJECT_TIME_SYNC_DATA_IND_V02 0x004E
+#define QMI_LOC_SET_CRADLE_MOUNT_CONFIG_REQ_V02 0x004F
+#define QMI_LOC_SET_CRADLE_MOUNT_CONFIG_RESP_V02 0x004F
+#define QMI_LOC_SET_CRADLE_MOUNT_CONFIG_IND_V02 0x004F
+#define QMI_LOC_GET_CRADLE_MOUNT_CONFIG_REQ_V02 0x0050
+#define QMI_LOC_GET_CRADLE_MOUNT_CONFIG_RESP_V02 0x0050
+#define QMI_LOC_GET_CRADLE_MOUNT_CONFIG_IND_V02 0x0050
+#define QMI_LOC_SET_EXTERNAL_POWER_CONFIG_REQ_V02 0x0051
+#define QMI_LOC_SET_EXTERNAL_POWER_CONFIG_RESP_V02 0x0051
+#define QMI_LOC_SET_EXTERNAL_POWER_CONFIG_IND_V02 0x0051
+#define QMI_LOC_GET_EXTERNAL_POWER_CONFIG_REQ_V02 0x0052
+#define QMI_LOC_GET_EXTERNAL_POWER_CONFIG_RESP_V02 0x0052
+#define QMI_LOC_GET_EXTERNAL_POWER_CONFIG_IND_V02 0x0052
+#define QMI_LOC_INFORM_LOCATION_SERVER_CONN_STATUS_REQ_V02 0x0053
+#define QMI_LOC_INFORM_LOCATION_SERVER_CONN_STATUS_RESP_V02 0x0053
+#define QMI_LOC_INFORM_LOCATION_SERVER_CONN_STATUS_IND_V02 0x0053
+#define QMI_LOC_SET_PROTOCOL_CONFIG_PARAMETERS_REQ_V02 0x0054
+#define QMI_LOC_SET_PROTOCOL_CONFIG_PARAMETERS_RESP_V02 0x0054
+#define QMI_LOC_SET_PROTOCOL_CONFIG_PARAMETERS_IND_V02 0x0054
+#define QMI_LOC_GET_PROTOCOL_CONFIG_PARAMETERS_REQ_V02 0x0055
+#define QMI_LOC_GET_PROTOCOL_CONFIG_PARAMETERS_RESP_V02 0x0055
+#define QMI_LOC_GET_PROTOCOL_CONFIG_PARAMETERS_IND_V02 0x0055
+#define QMI_LOC_SET_SENSOR_CONTROL_CONFIG_REQ_V02 0x0056
+#define QMI_LOC_SET_SENSOR_CONTROL_CONFIG_RESP_V02 0x0056
+#define QMI_LOC_SET_SENSOR_CONTROL_CONFIG_IND_V02 0x0056
+#define QMI_LOC_GET_SENSOR_CONTROL_CONFIG_REQ_V02 0x0057
+#define QMI_LOC_GET_SENSOR_CONTROL_CONFIG_RESP_V02 0x0057
+#define QMI_LOC_GET_SENSOR_CONTROL_CONFIG_IND_V02 0x0057
+#define QMI_LOC_SET_SENSOR_PROPERTIES_REQ_V02 0x0058
+#define QMI_LOC_SET_SENSOR_PROPERTIES_RESP_V02 0x0058
+#define QMI_LOC_SET_SENSOR_PROPERTIES_IND_V02 0x0058
+#define QMI_LOC_GET_SENSOR_PROPERTIES_REQ_V02 0x0059
+#define QMI_LOC_GET_SENSOR_PROPERTIES_RESP_V02 0x0059
+#define QMI_LOC_GET_SENSOR_PROPERTIES_IND_V02 0x0059
+#define QMI_LOC_SET_SENSOR_PERFORMANCE_CONTROL_CONFIGURATION_REQ_V02 0x005A
+#define QMI_LOC_SET_SENSOR_PERFORMANCE_CONTROL_CONFIGURATION_RESP_V02 0x005A
+#define QMI_LOC_SET_SENSOR_PERFORMANCE_CONTROL_CONFIGURATION_IND_V02 0x005A
+#define QMI_LOC_GET_SENSOR_PERFORMANCE_CONTROL_CONFIGURATION_REQ_V02 0x005B
+#define QMI_LOC_GET_SENSOR_PERFORMANCE_CONTROL_CONFIGURATION_RESP_V02 0x005B
+#define QMI_LOC_GET_SENSOR_PERFORMANCE_CONTROL_CONFIGURATION_IND_V02 0x005B
+#define QMI_LOC_INJECT_SUPL_CERTIFICATE_REQ_V02 0x005C
+#define QMI_LOC_INJECT_SUPL_CERTIFICATE_RESP_V02 0x005C
+#define QMI_LOC_INJECT_SUPL_CERTIFICATE_IND_V02 0x005C
+#define QMI_LOC_DELETE_SUPL_CERTIFICATE_REQ_V02 0x005D
+#define QMI_LOC_DELETE_SUPL_CERTIFICATE_RESP_V02 0x005D
+#define QMI_LOC_DELETE_SUPL_CERTIFICATE_IND_V02 0x005D
+#define QMI_LOC_SET_POSITION_ENGINE_CONFIG_PARAMETERS_REQ_V02 0x005E
+#define QMI_LOC_SET_POSITION_ENGINE_CONFIG_PARAMETERS_RESP_V02 0x005E
+#define QMI_LOC_SET_POSITION_ENGINE_CONFIG_PARAMETERS_IND_V02 0x005E
+#define QMI_LOC_GET_POSITION_ENGINE_CONFIG_PARAMETERS_REQ_V02 0x005F
+#define QMI_LOC_GET_POSITION_ENGINE_CONFIG_PARAMETERS_RESP_V02 0x005F
+#define QMI_LOC_GET_POSITION_ENGINE_CONFIG_PARAMETERS_IND_V02 0x005F
+#define QMI_LOC_EVENT_NI_GEOFENCE_NOTIFICATION_IND_V02 0x0060
+#define QMI_LOC_EVENT_GEOFENCE_GEN_ALERT_IND_V02 0x0061
+#define QMI_LOC_EVENT_GEOFENCE_BREACH_NOTIFICATION_IND_V02 0x0062
+#define QMI_LOC_ADD_CIRCULAR_GEOFENCE_REQ_V02 0x0063
+#define QMI_LOC_ADD_CIRCULAR_GEOFENCE_RESP_V02 0x0063
+#define QMI_LOC_ADD_CIRCULAR_GEOFENCE_IND_V02 0x0063
+#define QMI_LOC_DELETE_GEOFENCE_REQ_V02 0x0064
+#define QMI_LOC_DELETE_GEOFENCE_RESP_V02 0x0064
+#define QMI_LOC_DELETE_GEOFENCE_IND_V02 0x0064
+#define QMI_LOC_QUERY_GEOFENCE_REQ_V02 0x0065
+#define QMI_LOC_QUERY_GEOFENCE_RESP_V02 0x0065
+#define QMI_LOC_QUERY_GEOFENCE_IND_V02 0x0065
+#define QMI_LOC_EDIT_GEOFENCE_REQ_V02 0x0066
+#define QMI_LOC_EDIT_GEOFENCE_RESP_V02 0x0066
+#define QMI_LOC_EDIT_GEOFENCE_IND_V02 0x0066
+#define QMI_LOC_GET_BEST_AVAILABLE_POSITION_REQ_V02 0x0067
+#define QMI_LOC_GET_BEST_AVAILABLE_POSITION_RESP_V02 0x0067
+#define QMI_LOC_GET_BEST_AVAILABLE_POSITION_IND_V02 0x0067
+#define QMI_LOC_INJECT_MOTION_DATA_REQ_V02 0x0068
+#define QMI_LOC_INJECT_MOTION_DATA_RESP_V02 0x0068
+#define QMI_LOC_INJECT_MOTION_DATA_IND_V02 0x0068
+#define QMI_LOC_GET_NI_GEOFENCE_ID_LIST_REQ_V02 0x0069
+#define QMI_LOC_GET_NI_GEOFENCE_ID_LIST_RESP_V02 0x0069
+#define QMI_LOC_GET_NI_GEOFENCE_ID_LIST_IND_V02 0x0069
+#define QMI_LOC_INJECT_GSM_CELL_INFO_REQ_V02 0x006A
+#define QMI_LOC_INJECT_GSM_CELL_INFO_RESP_V02 0x006A
+#define QMI_LOC_INJECT_GSM_CELL_INFO_IND_V02 0x006A
+#define QMI_LOC_INJECT_NETWORK_INITIATED_MESSAGE_REQ_V02 0x006B
+#define QMI_LOC_INJECT_NETWORK_INITIATED_MESSAGE_RESP_V02 0x006B
+#define QMI_LOC_INJECT_NETWORK_INITIATED_MESSAGE_IND_V02 0x006B
+#define QMI_LOC_WWAN_OUT_OF_SERVICE_NOTIFICATION_REQ_V02 0x006C
+#define QMI_LOC_WWAN_OUT_OF_SERVICE_NOTIFICATION_RESP_V02 0x006C
+#define QMI_LOC_WWAN_OUT_OF_SERVICE_NOTIFICATION_IND_V02 0x006C
+#define QMI_LOC_EVENT_PEDOMETER_CONTROL_IND_V02 0x006D
+#define QMI_LOC_EVENT_MOTION_DATA_CONTROL_IND_V02 0x006E
+#define QMI_LOC_PEDOMETER_REPORT_REQ_V02 0x006F
+#define QMI_LOC_PEDOMETER_REPORT_RESP_V02 0x006F
+#define QMI_LOC_PEDOMETER_REPORT_IND_V02 0x006F
+#define QMI_LOC_INJECT_WCDMA_CELL_INFO_REQ_V02 0x0070
+#define QMI_LOC_INJECT_WCDMA_CELL_INFO_RESP_V02 0x0070
+#define QMI_LOC_INJECT_WCDMA_CELL_INFO_IND_V02 0x0070
+#define QMI_LOC_INJECT_TDSCDMA_CELL_INFO_REQ_V02 0x0071
+#define QMI_LOC_INJECT_TDSCDMA_CELL_INFO_RESP_V02 0x0071
+#define QMI_LOC_INJECT_TDSCDMA_CELL_INFO_IND_V02 0x0071
+#define QMI_LOC_INJECT_SUBSCRIBER_ID_REQ_V02 0x0072
+#define QMI_LOC_INJECT_SUBSCRIBER_ID_RESP_V02 0x0072
+#define QMI_LOC_INJECT_SUBSCRIBER_ID_IND_V02 0x0072
+#define QMI_LOC_SET_GEOFENCE_ENGINE_CONFIG_REQ_V02 0x0073
+#define QMI_LOC_SET_GEOFENCE_ENGINE_CONFIG_RESP_V02 0x0073
+#define QMI_LOC_SET_GEOFENCE_ENGINE_CONFIG_IND_V02 0x0073
+#define QMI_LOC_GET_GEOFENCE_ENGINE_CONFIG_REQ_V02 0x0074
+#define QMI_LOC_GET_GEOFENCE_ENGINE_CONFIG_RESP_V02 0x0074
+#define QMI_LOC_GET_GEOFENCE_ENGINE_CONFIG_IND_V02 0x0074
+#define QMI_LOC_GET_BATCH_SIZE_REQ_V02 0x0075
+#define QMI_LOC_GET_BATCH_SIZE_RESP_V02 0x0075
+#define QMI_LOC_GET_BATCH_SIZE_IND_V02 0x0075
+#define QMI_LOC_START_BATCHING_REQ_V02 0x0076
+#define QMI_LOC_START_BATCHING_RESP_V02 0x0076
+#define QMI_LOC_START_BATCHING_IND_V02 0x0076
+#define QMI_LOC_EVENT_BATCH_FULL_NOTIFICATION_IND_V02 0x0077
+#define QMI_LOC_EVENT_LIVE_BATCHED_POSITION_REPORT_IND_V02 0x0078
+#define QMI_LOC_READ_FROM_BATCH_REQ_V02 0x0079
+#define QMI_LOC_READ_FROM_BATCH_RESP_V02 0x0079
+#define QMI_LOC_READ_FROM_BATCH_IND_V02 0x0079
+#define QMI_LOC_STOP_BATCHING_REQ_V02 0x007A
+#define QMI_LOC_STOP_BATCHING_RESP_V02 0x007A
+#define QMI_LOC_STOP_BATCHING_IND_V02 0x007A
+#define QMI_LOC_RELEASE_BATCH_REQ_V02 0x007B
+#define QMI_LOC_RELEASE_BATCH_RESP_V02 0x007B
+#define QMI_LOC_RELEASE_BATCH_IND_V02 0x007B
+#define QMI_LOC_EVENT_INJECT_WIFI_AP_DATA_REQ_IND_V02 0x007C
+#define QMI_LOC_INJECT_WIFI_AP_DATA_REQ_V02 0x007D
+#define QMI_LOC_INJECT_WIFI_AP_DATA_RESP_V02 0x007D
+#define QMI_LOC_INJECT_WIFI_AP_DATA_IND_V02 0x007D
+#define QMI_LOC_NOTIFY_WIFI_ATTACHMENT_STATUS_REQ_V02 0x007E
+#define QMI_LOC_NOTIFY_WIFI_ATTACHMENT_STATUS_RESP_V02 0x007E
+#define QMI_LOC_NOTIFY_WIFI_ATTACHMENT_STATUS_IND_V02 0x007E
+#define QMI_LOC_NOTIFY_WIFI_ENABLED_STATUS_REQ_V02 0x007F
+#define QMI_LOC_NOTIFY_WIFI_ENABLED_STATUS_RESP_V02 0x007F
+#define QMI_LOC_NOTIFY_WIFI_ENABLED_STATUS_IND_V02 0x007F
+#define QMI_LOC_EVENT_GEOFENCE_BATCHED_BREACH_NOTIFICATION_IND_V02 0x0080
+#define QMI_LOC_EVENT_VEHICLE_DATA_READY_STATUS_IND_V02 0x0081
+#define QMI_LOC_INJECT_VEHICLE_SENSOR_DATA_REQ_V02 0x0082
+#define QMI_LOC_INJECT_VEHICLE_SENSOR_DATA_RESP_V02 0x0082
+#define QMI_LOC_INJECT_VEHICLE_SENSOR_DATA_IND_V02 0x0082
+#define QMI_LOC_GET_AVAILABLE_WWAN_POSITION_REQ_V02 0x0083
+#define QMI_LOC_GET_AVAILABLE_WWAN_POSITION_RESP_V02 0x0083
+#define QMI_LOC_GET_AVAILABLE_WWAN_POSITION_IND_V02 0x0083
+#define QMI_LOC_SET_PREMIUM_SERVICES_CONFIG_REQ_V02 0x0084
+#define QMI_LOC_SET_PREMIUM_SERVICES_CONFIG_RESP_V02 0x0084
+#define QMI_LOC_SET_PREMIUM_SERVICES_CONFIG_IND_V02 0x0084
+#define QMI_LOC_SET_XTRA_VERSION_CHECK_REQ_V02 0x0085
+#define QMI_LOC_SET_XTRA_VERSION_CHECK_RESP_V02 0x0085
+#define QMI_LOC_SET_XTRA_VERSION_CHECK_IND_V02 0x0085
+#define QMI_LOC_EVENT_GNSS_MEASUREMENT_REPORT_IND_V02 0x0086
+#define QMI_LOC_EVENT_SV_POLYNOMIAL_REPORT_IND_V02 0x0087
+#define QMI_LOC_SET_GNSS_CONSTELL_REPORT_CONFIG_V02 0x0088
+#define QMI_LOC_SET_GNSS_CONSTELL_REPORT_CONFIG_RESP_V02 0x0088
+#define QMI_LOC_SET_GNSS_CONSTELL_REPORT_CONFIG_IND_V02 0x0088
+#define QMI_LOC_ADD_GEOFENCE_CONTEXT_REQ_V02 0x0089
+#define QMI_LOC_ADD_GEOFENCE_CONTEXT_RESP_V02 0x0089
+#define QMI_LOC_ADD_GEOFENCE_CONTEXT_IND_V02 0x0089
+#define QMI_LOC_SET_GEOFENCE_ENGINE_CONTEXT_REQ_V02 0x008A
+#define QMI_LOC_SET_GEOFENCE_ENGINE_CONTEXT_RESP_V02 0x008A
+#define QMI_LOC_SET_GEOFENCE_ENGINE_CONTEXT_IND_V02 0x008A
+#define QMI_LOC_DELETE_GEOFENCE_CONTEXT_REQ_V02 0x008B
+#define QMI_LOC_DELETE_GEOFENCE_CONTEXT_RESP_V02 0x008B
+#define QMI_LOC_DELETE_GEOFENCE_CONTEXT_IND_V02 0x008B
+#define QMI_LOC_EVENT_GEOFENCE_PROXIMITY_NOTIFICATION_IND_V02 0x008C
+#define QMI_LOC_INJECT_GTP_CLIENT_DOWNLOADED_DATA_REQ_V02 0x008D
+#define QMI_LOC_INJECT_GTP_CLIENT_DOWNLOADED_DATA_RESP_V02 0x008D
+#define QMI_LOC_INJECT_GTP_CLIENT_DOWNLOADED_DATA_IND_V02 0x008D
+#define QMI_LOC_GDT_UPLOAD_BEGIN_STATUS_REQ_V02 0x008E
+#define QMI_LOC_GDT_UPLOAD_BEGIN_STATUS_RESP_V02 0x008E
+#define QMI_LOC_GDT_UPLOAD_BEGIN_STATUS_IND_V02 0x008E
+#define QMI_LOC_GDT_UPLOAD_END_REQ_V02 0x008F
+#define QMI_LOC_GDT_UPLOAD_END_RESP_V02 0x008F
+#define QMI_LOC_GDT_UPLOAD_END_IND_V02 0x008F
+#define QMI_LOC_EVENT_GDT_UPLOAD_BEGIN_STATUS_REQ_IND_V02 0x0090
+#define QMI_LOC_EVENT_GDT_UPLOAD_END_REQ_IND_V02 0x0091
+#define QMI_LOC_START_DBT_REQ_V02 0x0092
+#define QMI_LOC_START_DBT_RESP_V02 0x0092
+#define QMI_LOC_START_DBT_IND_V02 0x0092
+#define QMI_LOC_EVENT_DBT_POSITION_REPORT_IND_V02 0x0093
+#define QMI_LOC_EVENT_DBT_SESSION_STATUS_IND_V02 0x0094
+#define QMI_LOC_STOP_DBT_REQ_V02 0x0095
+#define QMI_LOC_STOP_DBT_RESP_V02 0x0095
+#define QMI_LOC_STOP_DBT_IND_V02 0x0095
+/**
+ @}
+ */
+
+/* Service Object Accessor */
+/** @addtogroup wms_qmi_accessor
+ @{
+ */
+/** This function is used internally by the autogenerated code. Clients should use the
+ macro loc_get_service_object_v02( ) that takes in no arguments. */
+qmi_idl_service_object_type loc_get_service_object_internal_v02
+ ( int32_t idl_maj_version, int32_t idl_min_version, int32_t library_version );
+
+/** This macro should be used to get the service object */
+#define loc_get_service_object_v02( ) \
+ loc_get_service_object_internal_v02( \
+ LOC_V02_IDL_MAJOR_VERS, LOC_V02_IDL_MINOR_VERS, \
+ LOC_V02_IDL_TOOL_VERS )
+/**
+ @}
+ */
+
+
+#ifdef __cplusplus
+}
+#endif
+#endif
+
