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android / kernel / msm.git / 029954ab12840b37bffc3ad6fe329e4a3dccc2ac / . / drivers / staging / qcacld-3.0 / core / mac / src / pe / lim / lim_process_sme_req_messages.c
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/*
* Copyright (c) 2012-2018 The Linux Foundation. All rights reserved.
*
* Previously licensed under the ISC license by Qualcomm Atheros, Inc.
*
*
* Permission to use, copy, modify, and/or distribute this software for
* any purpose with or without fee is hereby granted, provided that the
* above copyright notice and this permission notice appear in all
* copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL
* WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE
* AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL
* DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR
* PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER
* TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
* PERFORMANCE OF THIS SOFTWARE.
*/
/*
* This file was originally distributed by Qualcomm Atheros, Inc.
* under proprietary terms before Copyright ownership was assigned
* to the Linux Foundation.
*/
/*
* This file lim_process_sme_req_messages.cc contains the code
* for processing SME request messages.
* Author: Chandra Modumudi
* Date: 02/11/02
* History:-
* Date Modified by Modification Information
* --------------------------------------------------------------------
*
*/
#include "cds_api.h"
#include "wni_api.h"
#include "wni_cfg.h"
#include "cfg_api.h"
#include "sir_api.h"
#include "sch_api.h"
#include "utils_api.h"
#include "lim_types.h"
#include "lim_utils.h"
#include "lim_assoc_utils.h"
#include "lim_security_utils.h"
#include "lim_ser_des_utils.h"
#include "lim_sme_req_utils.h"
#include "lim_ibss_peer_mgmt.h"
#include "lim_admit_control.h"
#include "dph_hash_table.h"
#include "lim_send_messages.h"
#include "lim_api.h"
#include "wmm_apsd.h"
#include "sir_mac_prot_def.h"
#include "rrm_api.h"
#include "nan_datapath.h"
#include "sap_api.h"
#include <lim_ft.h>
#include "cds_regdomain.h"
#include "lim_process_fils.h"
/*
* This overhead is time for sending NOA start to host in case of GO/sending
* NULL data & receiving ACK in case of P2P Client and starting actual scanning
* with init scan req/rsp plus in case of concurrency, taking care of sending
* null data and receiving ACK to/from AP/Also SetChannel with calibration
* is taking around 7ms .
*/
#define SCAN_MESSAGING_OVERHEAD 20 /* in msecs */
#define JOIN_NOA_DURATION 2000 /* in msecs */
#define OEM_DATA_NOA_DURATION 60 /* in msecs */
#define DEFAULT_PASSIVE_MAX_CHANNEL_TIME 110 /* in msecs */
#define CONV_MS_TO_US 1024 /* conversion factor from ms to us */
#define BEACON_INTERVAL_THRESHOLD 50 /* in msecs */
#define STA_BURST_SCAN_DURATION 120 /* in msecs */
/* SME REQ processing function templates */
static bool __lim_process_sme_sys_ready_ind(tpAniSirGlobal, uint32_t *);
static bool __lim_process_sme_start_bss_req(tpAniSirGlobal, tpSirMsgQ pMsg);
static void __lim_process_sme_scan_req(tpAniSirGlobal, uint32_t *);
static void __lim_process_sme_join_req(tpAniSirGlobal, uint32_t *);
static void __lim_process_sme_reassoc_req(tpAniSirGlobal, uint32_t *);
static void __lim_process_sme_disassoc_req(tpAniSirGlobal, uint32_t *);
static void __lim_process_sme_disassoc_cnf(tpAniSirGlobal, uint32_t *);
static void __lim_process_sme_deauth_req(tpAniSirGlobal, uint32_t *);
static void __lim_process_sme_set_context_req(tpAniSirGlobal, uint32_t *);
static bool __lim_process_sme_stop_bss_req(tpAniSirGlobal, tpSirMsgQ pMsg);
static void __lim_process_send_disassoc_frame(tpAniSirGlobal mac_ctx,
uint32_t *msg_buf);
static void lim_process_sme_channel_change_request(tpAniSirGlobal pMac,
uint32_t *pMsg);
static void lim_process_sme_start_beacon_req(tpAniSirGlobal pMac, uint32_t *pMsg);
static void lim_process_sme_dfs_csa_ie_request(tpAniSirGlobal pMac, uint32_t *pMsg);
static void lim_process_nss_update_request(tpAniSirGlobal pMac, uint32_t *pMsg);
static void lim_process_set_ie_req(tpAniSirGlobal pMac, uint32_t *pMsg);
static void lim_start_bss_update_add_ie_buffer(tpAniSirGlobal pMac,
uint8_t **pDstData_buff,
uint16_t *pDstDataLen,
uint8_t *pSrcData_buff,
uint16_t srcDataLen);
static void lim_update_add_ie_buffer(tpAniSirGlobal pMac,
uint8_t **pDstData_buff,
uint16_t *pDstDataLen,
uint8_t *pSrcData_buff, uint16_t srcDataLen);
static bool lim_update_ibss_prop_add_ies(tpAniSirGlobal pMac,
uint8_t **pDstData_buff,
uint16_t *pDstDataLen,
tSirModifyIE *pModifyIE);
static void lim_process_modify_add_ies(tpAniSirGlobal pMac, uint32_t *pMsg);
static void lim_process_update_add_ies(tpAniSirGlobal pMac, uint32_t *pMsg);
static void lim_process_ext_change_channel(tpAniSirGlobal mac_ctx,
uint32_t *msg);
/**
* lim_process_set_hw_mode() - Send set HW mode command to WMA
* @mac: Globacl MAC pointer
* @msg: Message containing the hw mode index
*
* Send the set HW mode command to WMA
*
* Return: QDF_STATUS_SUCCESS if message posting is successful
*/
static QDF_STATUS lim_process_set_hw_mode(tpAniSirGlobal mac, uint32_t *msg)
{
QDF_STATUS status = QDF_STATUS_SUCCESS;
cds_msg_t cds_message;
struct sir_hw_mode *req_msg;
uint32_t len;
struct s_sir_set_hw_mode *buf;
tSirMsgQ resp_msg;
struct sir_set_hw_mode_resp *param;
buf = (struct s_sir_set_hw_mode *) msg;
if (!buf) {
pe_err("Set HW mode param is NULL");
/* To free the active command list */
goto fail;
}
len = sizeof(*req_msg);
req_msg = qdf_mem_malloc(len);
if (!req_msg) {
pe_err("qdf_mem_malloc failed");
/* Free the active command list
* Probably the malloc is going to fail there as well?!
*/
return QDF_STATUS_E_NOMEM;
}
req_msg->hw_mode_index = buf->set_hw.hw_mode_index;
req_msg->reason = buf->set_hw.reason;
/* Other parameters are not needed for WMA */
cds_message.bodyptr = req_msg;
cds_message.type = SIR_HAL_PDEV_SET_HW_MODE;
pe_debug("Posting SIR_HAL_SOC_SET_HW_MOD to WMA");
status = cds_mq_post_message(QDF_MODULE_ID_WMA, &cds_message);
if (!QDF_IS_STATUS_SUCCESS(status)) {
pe_err("cds_mq_post_message failed!(err=%d)",
status);
qdf_mem_free(req_msg);
goto fail;
}
return status;
fail:
param = qdf_mem_malloc(sizeof(*param));
if (!param) {
pe_err("HW mode resp failed");
return QDF_STATUS_E_FAILURE;
}
param->status = SET_HW_MODE_STATUS_ECANCELED;
param->cfgd_hw_mode_index = 0;
param->num_vdev_mac_entries = 0;
resp_msg.type = eWNI_SME_SET_HW_MODE_RESP;
resp_msg.bodyptr = param;
resp_msg.bodyval = 0;
lim_sys_process_mmh_msg_api(mac, &resp_msg, ePROT);
return QDF_STATUS_SUCCESS;
}
/**
* lim_process_set_dual_mac_cfg_req() - Set dual mac config command to WMA
* @mac: Global MAC pointer
* @msg: Message containing the dual mac config parameter
*
* Send the set dual mac config command to WMA
*
* Return: QDF_STATUS_SUCCESS if message posting is successful
*/
static QDF_STATUS lim_process_set_dual_mac_cfg_req(tpAniSirGlobal mac,
uint32_t *msg)
{
QDF_STATUS status = QDF_STATUS_SUCCESS;
cds_msg_t cds_message;
struct sir_dual_mac_config *req_msg;
uint32_t len;
struct sir_set_dual_mac_cfg *buf;
tSirMsgQ resp_msg;
struct sir_dual_mac_config_resp *param;
buf = (struct sir_set_dual_mac_cfg *) msg;
if (!buf) {
pe_err("Set Dual mac config is NULL");
/* To free the active command list */
goto fail;
}
len = sizeof(*req_msg);
req_msg = qdf_mem_malloc(len);
if (!req_msg) {
pe_err("qdf_mem_malloc failed");
/* Free the active command list
* Probably the malloc is going to fail there as well?!
*/
return QDF_STATUS_E_NOMEM;
}
req_msg->scan_config = buf->set_dual_mac.scan_config;
req_msg->fw_mode_config = buf->set_dual_mac.fw_mode_config;
/* Other parameters are not needed for WMA */
cds_message.bodyptr = req_msg;
cds_message.type = SIR_HAL_PDEV_DUAL_MAC_CFG_REQ;
pe_debug("Post SIR_HAL_PDEV_DUAL_MAC_CFG_REQ to WMA: %x %x",
req_msg->scan_config, req_msg->fw_mode_config);
status = cds_mq_post_message(QDF_MODULE_ID_WMA, &cds_message);
if (!QDF_IS_STATUS_SUCCESS(status)) {
pe_err("cds_mq_post_message failed!(err=%d)",
status);
qdf_mem_free(req_msg);
goto fail;
}
return status;
fail:
param = qdf_mem_malloc(sizeof(*param));
if (!param) {
pe_err("Dual mac config resp failed");
return QDF_STATUS_E_FAILURE;
}
param->status = SET_HW_MODE_STATUS_ECANCELED;
resp_msg.type = eWNI_SME_SET_DUAL_MAC_CFG_RESP;
resp_msg.bodyptr = param;
resp_msg.bodyval = 0;
lim_sys_process_mmh_msg_api(mac, &resp_msg, ePROT);
return QDF_STATUS_SUCCESS;
}
/**
* lim_process_set_antenna_mode_req() - Set antenna mode command
* to WMA
* @mac: Global MAC pointer
* @msg: Message containing the antenna mode parameter
*
* Send the set antenna mode command to WMA
*
* Return: QDF_STATUS_SUCCESS if message posting is successful
*/
static QDF_STATUS lim_process_set_antenna_mode_req(tpAniSirGlobal mac,
uint32_t *msg)
{
QDF_STATUS status = QDF_STATUS_SUCCESS;
cds_msg_t cds_message;
struct sir_antenna_mode_param *req_msg;
struct sir_set_antenna_mode *buf;
tSirMsgQ resp_msg;
struct sir_antenna_mode_resp *param;
buf = (struct sir_set_antenna_mode *) msg;
if (!buf) {
pe_err("Set antenna mode is NULL");
/* To free the active command list */
goto fail;
}
req_msg = qdf_mem_malloc(sizeof(*req_msg));
if (!req_msg) {
pe_err("qdf_mem_malloc failed");
return QDF_STATUS_E_NOMEM;
}
req_msg->num_rx_chains = buf->set_antenna_mode.num_rx_chains;
req_msg->num_tx_chains = buf->set_antenna_mode.num_tx_chains;
cds_message.bodyptr = req_msg;
cds_message.type = SIR_HAL_SOC_ANTENNA_MODE_REQ;
pe_debug("Post SIR_HAL_SOC_ANTENNA_MODE_REQ to WMA: %d %d",
req_msg->num_rx_chains,
req_msg->num_tx_chains);
status = cds_mq_post_message(QDF_MODULE_ID_WMA, &cds_message);
if (!QDF_IS_STATUS_SUCCESS(status)) {
pe_err("cds_mq_post_message failed!(err=%d)",
status);
qdf_mem_free(req_msg);
goto fail;
}
return status;
fail:
param = qdf_mem_malloc(sizeof(*param));
if (!param) {
pe_err("antenna mode resp failed");
return QDF_STATUS_E_NOMEM;
}
param->status = SET_ANTENNA_MODE_STATUS_ECANCELED;
resp_msg.type = eWNI_SME_SET_ANTENNA_MODE_RESP;
resp_msg.bodyptr = param;
resp_msg.bodyval = 0;
lim_sys_process_mmh_msg_api(mac, &resp_msg, ePROT);
return QDF_STATUS_SUCCESS;
}
/**
* __lim_fresh_scan_reqd() - determine if a fresh scan request must be issued.
* @mac_ctx: Pointer to Global MAC structure
* @return_fresh_results: Trigger fresh scan.
*
* PE will do fresh scan, if all of the active sessions are in
* good state (Link Est or BSS Started). If one of the sessions
* is not in one of the above states, then PE does not do fresh
* scan. If no session exists (scanning very first time),
* then PE will always do fresh scan if SME asks it to do that.
*
* Return: true for fresh scan results, false if in invalid state.
*/
static uint8_t
__lim_fresh_scan_reqd(tpAniSirGlobal mac_ctx, uint8_t return_fresh_results)
{
uint8_t valid_state = true;
int i;
pe_debug("gLimSmeState: %d, returnFreshResults 0x%x",
mac_ctx->lim.gLimSmeState, return_fresh_results);
if (mac_ctx->lim.gLimSmeState != eLIM_SME_IDLE_STATE)
return false;
for (i = 0; i < mac_ctx->lim.maxBssId; i++) {
if (mac_ctx->lim.gpSession[i].valid == false)
continue;
pe_debug("session %d, bsstype %d, limSystemRole %d, limSmeState %d",
i, mac_ctx->lim.gpSession[i].bssType,
mac_ctx->lim.gpSession[i].limSystemRole,
mac_ctx->lim.gpSession[i].limSmeState);
if (mac_ctx->lim.gpSession[i].bssType == eSIR_NDI_MODE)
continue;
if (mac_ctx->lim.gpSession[i].bssType ==
eSIR_INFRASTRUCTURE_MODE &&
mac_ctx->lim.gpSession[i].limSmeState ==
eLIM_SME_LINK_EST_STATE)
continue;
if (mac_ctx->lim.gpSession[i].bssType == eSIR_IBSS_MODE &&
mac_ctx->lim.gpSession[i].limSmeState ==
eLIM_SME_NORMAL_STATE)
continue;
if (mac_ctx->lim.gpSession[i].bssType == eSIR_INFRA_AP_MODE &&
mac_ctx->lim.gpSession[i].pePersona ==
QDF_P2P_GO_MODE &&
mac_ctx->lim.gpSession[i].limSmeState ==
eLIM_SME_NORMAL_STATE)
continue;
if (mac_ctx->lim.gpSession[i].limSystemRole == eLIM_AP_ROLE &&
mac_ctx->lim.gpSession[i].limSmeState ==
eLIM_SME_NORMAL_STATE)
continue;
valid_state = false;
break;
}
pe_debug("valid_state: %d", valid_state);
if ((valid_state) &&
(return_fresh_results & SIR_BG_SCAN_RETURN_FRESH_RESULTS))
return true;
else
return false;
}
/**
* __lim_is_sme_assoc_cnf_valid()
*
***FUNCTION:
* This function is called by __lim_process_sme_assoc_cnf_new() upon
* receiving SME_ASSOC_CNF.
*
***LOGIC:
* Message validity checks are performed in this function
*
***ASSUMPTIONS:
*
***NOTE:
*
* @param pMeasReq Pointer to Received ASSOC_CNF message
* @return true When received SME_ASSOC_CNF is formatted
* correctly
* false otherwise
*/
static inline uint8_t __lim_is_sme_assoc_cnf_valid(tpSirSmeAssocCnf pAssocCnf)
{
if (qdf_is_macaddr_group(&pAssocCnf->peer_macaddr))
return false;
else
return true;
} /*** end __lim_is_sme_assoc_cnf_valid() ***/
/**
* __lim_get_sme_join_req_size_for_alloc()
*
***FUNCTION:
* This function is called in various places to get IE length
* from tSirBssDescription structure
* number being scanned.
*
***PARAMS:
*
***LOGIC:
*
***ASSUMPTIONS:
* NA
*
***NOTE:
* NA
*
* @param pBssDescr
* @return Total IE length
*/
static uint16_t __lim_get_sme_join_req_size_for_alloc(uint8_t *pBuf)
{
uint16_t len = 0;
if (!pBuf)
return len;
pBuf += sizeof(uint16_t);
len = lim_get_u16(pBuf);
return len;
}
/**
* __lim_is_defered_msg_for_learn() - message handling in SME learn state
* @pMac: Global MAC context
* @pMsg: Pointer to message posted from SME to LIM.
*
* Has role only if 11h is enabled. Not used on STA side.
* Defers the message if SME is in learn state and brings
* the LIM back to normal mode.
*
* Return: true - If defered false - Otherwise
*/
static bool __lim_is_defered_msg_for_learn(tpAniSirGlobal pMac, tpSirMsgQ pMsg)
{
if (lim_is_system_in_scan_state(pMac)) {
if (lim_defer_msg(pMac, pMsg) != TX_SUCCESS) {
pe_err("Could not defer Msg: %d", pMsg->type);
return false;
}
pe_debug("Defer the message, in learn mode type: %d",
pMsg->type);
return true;
}
return false;
}
/**
* __lim_is_defered_msg_for_radar() - Defers the message if radar is detected
* @mac_ctx: Pointer to Global MAC structure
* @message: Pointer to message posted from SME to LIM.
*
* Has role only if 11h is enabled. Not used on STA side.
* Defers the message if radar is detected.
*
* Return: true, if defered otherwise return false.
*/
static bool
__lim_is_defered_msg_for_radar(tpAniSirGlobal mac_ctx, tpSirMsgQ message)
{
/*
* fRadarDetCurOperChan will be set only if we
* detect radar in current operating channel and
* System Role == AP ROLE
*
* TODO: Need to take care radar detection.
*
* if (LIM_IS_RADAR_DETECTED(mac_ctx))
*/
if (0) {
if (lim_defer_msg(mac_ctx, message) != TX_SUCCESS) {
pe_err("Could not defer Msg: %d", message->type);
return false;
}
pe_debug("Defer the message, in learn mode type: %d",
message->type);
return true;
}
return false;
}
/**
* __lim_process_sme_sys_ready_ind () - Process ready indication from WMA
* @pMac: Global MAC context
* @pMsgBuf: Message from WMA
*
* handles the notification from HDD. PE just forwards this message to HAL.
*
* Return: true-Posting to HAL failed, so PE will consume the buffer.
* false-Posting to HAL successful, so HAL will consume the buffer.
*/
static bool __lim_process_sme_sys_ready_ind(tpAniSirGlobal pMac, uint32_t *pMsgBuf)
{
tSirMsgQ msg;
tSirSmeReadyReq *ready_req = (tSirSmeReadyReq *) pMsgBuf;
msg.type = WMA_SYS_READY_IND;
msg.reserved = 0;
msg.bodyptr = pMsgBuf;
msg.bodyval = 0;
if (ANI_DRIVER_TYPE(pMac) != QDF_DRIVER_TYPE_MFG) {
ready_req->pe_roam_synch_cb = pe_roam_synch_callback;
pe_register_callbacks_with_wma(pMac, ready_req);
pMac->lim.add_bssdescr_callback = ready_req->add_bssdescr_cb;
pMac->lim.sme_msg_callback = ready_req->sme_msg_cb;
}
pe_debug("sending WMA_SYS_READY_IND msg to HAL");
MTRACE(mac_trace_msg_tx(pMac, NO_SESSION, msg.type));
if (eSIR_SUCCESS != wma_post_ctrl_msg(pMac, &msg)) {
pe_err("wma_post_ctrl_msg failed");
return true;
}
return false;
}
/**
*lim_configure_ap_start_bss_session() - Configure the AP Start BSS in session.
*@mac_ctx: Pointer to Global MAC structure
*@session: A pointer to session entry
*@sme_start_bss_req: Start BSS Request from upper layers.
*
* This function is used to configure the start bss parameters
* in to the session.
*
* Return: None.
*/
static void
lim_configure_ap_start_bss_session(tpAniSirGlobal mac_ctx, tpPESession session,
tpSirSmeStartBssReq sme_start_bss_req)
{
session->limSystemRole = eLIM_AP_ROLE;
session->privacy = sme_start_bss_req->privacy;
session->fwdWPSPBCProbeReq = sme_start_bss_req->fwdWPSPBCProbeReq;
session->authType = sme_start_bss_req->authType;
/* Store the DTIM period */
session->dtimPeriod = (uint8_t) sme_start_bss_req->dtimPeriod;
/* Enable/disable UAPSD */
session->apUapsdEnable = sme_start_bss_req->apUapsdEnable;
if (session->pePersona == QDF_P2P_GO_MODE) {
session->proxyProbeRspEn = 0;
} else {
/*
* To detect PBC overlap in SAP WPS mode,
* Host handles Probe Requests.
*/
if (SAP_WPS_DISABLED == sme_start_bss_req->wps_state)
session->proxyProbeRspEn = 1;
else
session->proxyProbeRspEn = 0;
}
session->ssidHidden = sme_start_bss_req->ssidHidden;
session->wps_state = sme_start_bss_req->wps_state;
session->sap_dot11mc = sme_start_bss_req->sap_dot11mc;
session->vendor_vht_sap =
sme_start_bss_req->vendor_vht_sap;
lim_get_short_slot_from_phy_mode(mac_ctx, session, session->gLimPhyMode,
&session->shortSlotTimeSupported);
session->isCoalesingInIBSSAllowed =
sme_start_bss_req->isCoalesingInIBSSAllowed;
session->beacon_tx_rate = sme_start_bss_req->beacon_tx_rate;
}
/**
* __lim_handle_sme_start_bss_request() - process SME_START_BSS_REQ message
*@mac_ctx: Pointer to Global MAC structure
*@msg_buf: A pointer to the SME message buffer
*
* This function is called to process SME_START_BSS_REQ message
* from HDD or upper layer application.
*
* Return: None
*/
static void
__lim_handle_sme_start_bss_request(tpAniSirGlobal mac_ctx, uint32_t *msg_buf)
{
uint16_t size;
uint32_t val = 0;
tSirRetStatus ret_status;
tSirMacChanNum channel_number;
tLimMlmStartReq *mlm_start_req = NULL;
tpSirSmeStartBssReq sme_start_bss_req = NULL;
tSirResultCodes ret_code = eSIR_SME_SUCCESS;
/* Flag Used in case of IBSS to Auto generate BSSID. */
uint32_t auto_gen_bssid = false;
uint8_t session_id;
tpPESession session = NULL;
uint8_t sme_session_id = 0xFF;
uint16_t sme_transaction_id = 0xFF;
uint32_t chanwidth;
struct vdev_type_nss *vdev_type_nss;
tSirRetStatus cfg_get_wmi_dfs_master_param = eSIR_SUCCESS;
/* FEATURE_WLAN_DIAG_SUPPORT */
#ifdef FEATURE_WLAN_DIAG_SUPPORT_LIM
/*
* Since the session is not created yet, sending NULL.
* The response should have the correct state.
*/
lim_diag_event_report(mac_ctx, WLAN_PE_DIAG_START_BSS_REQ_EVENT,
NULL, 0, 0);
#endif /* FEATURE_WLAN_DIAG_SUPPORT */
pe_debug("Received START_BSS_REQ");
size = sizeof(tSirSmeStartBssReq);
sme_start_bss_req = qdf_mem_malloc(size);
if (NULL == sme_start_bss_req) {
pe_err("Allocate Memory fail for LimStartBssReq");
/* Send failure response to host */
ret_code = eSIR_SME_RESOURCES_UNAVAILABLE;
goto free;
}
qdf_mem_copy(sme_start_bss_req, msg_buf, sizeof(tSirSmeStartBssReq));
sme_session_id = sme_start_bss_req->sessionId;
sme_transaction_id = sme_start_bss_req->transactionId;
if ((mac_ctx->lim.gLimSmeState == eLIM_SME_OFFLINE_STATE) ||
(mac_ctx->lim.gLimSmeState == eLIM_SME_IDLE_STATE)) {
if (!lim_is_sme_start_bss_req_valid(mac_ctx,
sme_start_bss_req)) {
pe_warn("Received invalid eWNI_SME_START_BSS_REQ");
ret_code = eSIR_SME_INVALID_PARAMETERS;
goto free;
}
/*
* This is the place where PE is going to create a session.
* If session is not existed, then create a new session
*/
session = pe_find_session_by_bssid(mac_ctx,
sme_start_bss_req->bssid.bytes, &session_id);
if (session != NULL) {
pe_warn("Session Already exists for given BSSID");
ret_code = eSIR_SME_BSS_ALREADY_STARTED_OR_JOINED;
session = NULL;
goto free;
} else {
session = pe_create_session(mac_ctx,
sme_start_bss_req->bssid.bytes,
&session_id, mac_ctx->lim.maxStation,
sme_start_bss_req->bssType);
if (session == NULL) {
pe_warn("Session Can not be created");
ret_code = eSIR_SME_RESOURCES_UNAVAILABLE;
goto free;
}
}
if (QDF_NDI_MODE != sme_start_bss_req->bssPersona) {
/* Probe resp add ie */
lim_start_bss_update_add_ie_buffer(mac_ctx,
&session->addIeParams.probeRespData_buff,
&session->addIeParams.probeRespDataLen,
sme_start_bss_req->addIeParams.
probeRespData_buff,
sme_start_bss_req->addIeParams.
probeRespDataLen);
/* Probe Beacon add ie */
lim_start_bss_update_add_ie_buffer(mac_ctx,
&session->addIeParams.probeRespBCNData_buff,
&session->addIeParams.probeRespBCNDataLen,
sme_start_bss_req->addIeParams.
probeRespBCNData_buff,
sme_start_bss_req->addIeParams.
probeRespBCNDataLen);
/* Assoc resp IE */
lim_start_bss_update_add_ie_buffer(mac_ctx,
&session->addIeParams.assocRespData_buff,
&session->addIeParams.assocRespDataLen,
sme_start_bss_req->addIeParams.
assocRespData_buff,
sme_start_bss_req->addIeParams.
assocRespDataLen);
}
/* Store the session related params in newly created session */
session->pLimStartBssReq = sme_start_bss_req;
/* Store PE session_id in session Table */
session->peSessionId = session_id;
/* Store SME session Id in sessionTable */
session->smeSessionId = sme_start_bss_req->sessionId;
session->transactionId = sme_start_bss_req->transactionId;
qdf_mem_copy(&(session->htConfig),
&(sme_start_bss_req->htConfig),
sizeof(session->htConfig));
qdf_mem_copy(&(session->vht_config),
&(sme_start_bss_req->vht_config),
sizeof(session->vht_config));
sir_copy_mac_addr(session->selfMacAddr,
sme_start_bss_req->self_macaddr.bytes);
/* Copy SSID to session table */
qdf_mem_copy((uint8_t *) &session->ssId,
(uint8_t *) &sme_start_bss_req->ssId,
(sme_start_bss_req->ssId.length + 1));
session->bssType = sme_start_bss_req->bssType;
session->nwType = sme_start_bss_req->nwType;
session->beaconParams.beaconInterval =
sme_start_bss_req->beaconInterval;
/* Store the channel number in session Table */
session->currentOperChannel =
sme_start_bss_req->channelId;
/* Store Persona */
session->pePersona = sme_start_bss_req->bssPersona;
QDF_TRACE(QDF_MODULE_ID_PE, QDF_TRACE_LEVEL_DEBUG,
FL("PE PERSONA=%d"), session->pePersona);
/* Update the phymode */
session->gLimPhyMode = sme_start_bss_req->nwType;
session->maxTxPower =
cfg_get_regulatory_max_transmit_power(mac_ctx,
session->currentOperChannel);
/* Store the dot 11 mode in to the session Table */
session->dot11mode = sme_start_bss_req->dot11mode;
#ifdef FEATURE_WLAN_MCC_TO_SCC_SWITCH
session->cc_switch_mode =
sme_start_bss_req->cc_switch_mode;
#endif
session->htCapability =
IS_DOT11_MODE_HT(session->dot11mode);
session->vhtCapability =
IS_DOT11_MODE_VHT(session->dot11mode);
QDF_TRACE(QDF_MODULE_ID_PE, QDF_TRACE_LEVEL_DEBUG,
FL("*****session->vhtCapability = %d"),
session->vhtCapability);
session->txLdpcIniFeatureEnabled =
sme_start_bss_req->txLdpcIniFeatureEnabled;
#ifdef WLAN_FEATURE_11W
session->limRmfEnabled =
sme_start_bss_req->pmfCapable ? 1 : 0;
pe_debug("Session RMF enabled: %d", session->limRmfEnabled);
#endif
qdf_mem_copy((void *)&session->rateSet,
(void *)&sme_start_bss_req->operationalRateSet,
sizeof(tSirMacRateSet));
qdf_mem_copy((void *)&session->extRateSet,
(void *)&sme_start_bss_req->extendedRateSet,
sizeof(tSirMacRateSet));
if (IS_5G_CH(session->currentOperChannel))
vdev_type_nss = &mac_ctx->vdev_type_nss_5g;
else
vdev_type_nss = &mac_ctx->vdev_type_nss_2g;
switch (sme_start_bss_req->bssType) {
case eSIR_INFRA_AP_MODE:
lim_configure_ap_start_bss_session(mac_ctx, session,
sme_start_bss_req);
if (session->pePersona == QDF_SAP_MODE)
session->vdev_nss = vdev_type_nss->sap;
else
session->vdev_nss = vdev_type_nss->p2p_go;
break;
case eSIR_IBSS_MODE:
session->limSystemRole = eLIM_STA_IN_IBSS_ROLE;
lim_get_short_slot_from_phy_mode(mac_ctx, session,
session->gLimPhyMode,
&session->shortSlotTimeSupported);
/*
* initialize to "OPEN".
* will be updated upon key installation
*/
session->encryptType = eSIR_ED_NONE;
session->vdev_nss = vdev_type_nss->ibss;
break;
case eSIR_NDI_MODE:
session->limSystemRole = eLIM_NDI_ROLE;
break;
/*
* There is one more mode called auto mode.
* which is used no where
*/
/* FORBUILD -TEMPFIX.. HOW TO use AUTO MODE????? */
default:
/* not used anywhere...used in scan function */
break;
}
pe_debug("persona - %d, nss - %d",
session->pePersona, session->vdev_nss);
session->nss = session->vdev_nss;
/*
* Allocate memory for the array of
* parsed (Re)Assoc request structure
*/
if (sme_start_bss_req->bssType == eSIR_INFRA_AP_MODE) {
session->parsedAssocReq =
qdf_mem_malloc(session->dph.dphHashTable.
size * sizeof(tpSirAssocReq));
if (NULL == session->parsedAssocReq) {
pe_warn("AllocateMemory() failed");
ret_code = eSIR_SME_RESOURCES_UNAVAILABLE;
goto free;
}
}
if (!sme_start_bss_req->channelId &&
sme_start_bss_req->bssType != eSIR_NDI_MODE) {
pe_err("Received invalid eWNI_SME_START_BSS_REQ");
ret_code = eSIR_SME_INVALID_PARAMETERS;
goto free;
}
channel_number = sme_start_bss_req->channelId;
#ifdef QCA_HT_2040_COEX
if (sme_start_bss_req->obssEnabled)
session->htSupportedChannelWidthSet =
session->htCapability;
else
#endif
session->htSupportedChannelWidthSet =
(sme_start_bss_req->sec_ch_offset) ? 1 : 0;
session->htSecondaryChannelOffset =
sme_start_bss_req->sec_ch_offset;
session->htRecommendedTxWidthSet =
(session->htSecondaryChannelOffset) ? 1 : 0;
QDF_TRACE(QDF_MODULE_ID_PE, QDF_TRACE_LEVEL_DEBUG,
FL("cbMode %u"), sme_start_bss_req->cbMode);
if (session->vhtCapability || session->htCapability) {
chanwidth = sme_start_bss_req->vht_channel_width;
pe_debug("vht_channel_width %u htSupportedChannelWidthSet %d",
sme_start_bss_req->vht_channel_width,
session->htSupportedChannelWidthSet);
session->ch_width = chanwidth;
if (session->htSupportedChannelWidthSet) {
session->ch_center_freq_seg0 =
sme_start_bss_req->center_freq_seg0;
session->ch_center_freq_seg1 =
sme_start_bss_req->center_freq_seg1;
} else {
session->ch_center_freq_seg0 = 0;
session->ch_center_freq_seg1 = 0;
}
}
if (session->vhtCapability &&
(session->ch_width > CH_WIDTH_80MHZ)) {
session->nss = 1;
pe_debug("nss set to [%d]", session->nss);
}
pe_debug("vht su tx bformer %d",
session->vht_config.su_beam_former);
/* Delete pre-auth list if any */
lim_delete_pre_auth_list(mac_ctx);
if (session->nss == 1) {
session->vht_config.su_beam_former = 0;
session->vht_config.tx_stbc = 0;
session->vht_config.num_soundingdim = 0;
session->htConfig.ht_tx_stbc = 0;
}
/*
* keep the RSN/WPA IE information in PE Session Entry
* later will be using this to check when received (Re)Assoc req
*/
lim_set_rs_nie_wp_aiefrom_sme_start_bss_req_message(mac_ctx,
&sme_start_bss_req->rsnIE, session);
if (LIM_IS_AP_ROLE(session) ||
LIM_IS_IBSS_ROLE(session) ||
LIM_IS_NDI_ROLE(session)) {
session->gLimProtectionControl =
sme_start_bss_req->protEnabled;
/*
* each byte will have the following info
* bit7 bit6 bit5 bit4 bit3 bit2 bit1 bit0
* reserved reserved RIFS Lsig n-GF ht20 11g 11b
*/
qdf_mem_copy((void *)&session->cfgProtection,
(void *)&sme_start_bss_req->ht_capab,
sizeof(uint16_t));
/* Initialize WPS PBC session link list */
session->pAPWPSPBCSession = NULL;
}
/* Prepare and Issue LIM_MLM_START_REQ to MLM */
mlm_start_req = qdf_mem_malloc(sizeof(tLimMlmStartReq));
if (NULL == mlm_start_req) {
pe_err("Allocate Memory failed for mlmStartReq");
ret_code = eSIR_SME_RESOURCES_UNAVAILABLE;
goto free;
}
/* Copy SSID to the MLM start structure */
qdf_mem_copy((uint8_t *) &mlm_start_req->ssId,
(uint8_t *) &sme_start_bss_req->ssId,
sme_start_bss_req->ssId.length + 1);
mlm_start_req->ssidHidden = sme_start_bss_req->ssidHidden;
mlm_start_req->obssProtEnabled =
sme_start_bss_req->obssProtEnabled;
mlm_start_req->bssType = session->bssType;
/* Fill PE session Id from the session Table */
mlm_start_req->sessionId = session->peSessionId;
if (mlm_start_req->bssType == eSIR_INFRA_AP_MODE ||
mlm_start_req->bssType == eSIR_NDI_MODE) {
/*
* Copy the BSSId from sessionTable to
* mlmStartReq struct
*/
sir_copy_mac_addr(mlm_start_req->bssId, session->bssId);
} else {
/* ibss mode */
mac_ctx->lim.gLimIbssCoalescingHappened = false;
ret_status = wlan_cfg_get_int(mac_ctx,
WNI_CFG_IBSS_AUTO_BSSID,
&auto_gen_bssid);
if (ret_status != eSIR_SUCCESS) {
pe_err("Get Auto Gen BSSID fail,Status: %d",
ret_status);
ret_code = eSIR_LOGE_EXCEPTION;
goto free;
}
if (!auto_gen_bssid) {
/*
* We're not auto generating BSSID.
* Instead, get it from session entry
*/
sir_copy_mac_addr(mlm_start_req->bssId,
session->bssId);
/*
* Start IBSS group BSSID
* Auto Generating BSSID.
*/
auto_gen_bssid = ((mlm_start_req->bssId[0] &
0x01) ? true : false);
}
if (auto_gen_bssid) {
/*
* if BSSID is not any uc id.
* then use locally generated BSSID.
* Autogenerate the BSSID
*/
lim_get_random_bssid(mac_ctx,
mlm_start_req->bssId);
mlm_start_req->bssId[0] = 0x02;
/*
* Copy randomly generated BSSID
* to the session Table
*/
sir_copy_mac_addr(session->bssId,
mlm_start_req->bssId);
}
}
/* store the channel num in mlmstart req structure */
mlm_start_req->channelNumber = session->currentOperChannel;
mlm_start_req->cbMode = sme_start_bss_req->cbMode;
mlm_start_req->beaconPeriod =
session->beaconParams.beaconInterval;
if (LIM_IS_AP_ROLE(session)) {
mlm_start_req->dtimPeriod = session->dtimPeriod;
mlm_start_req->wps_state = session->wps_state;
} else {
if (wlan_cfg_get_int(mac_ctx,
WNI_CFG_DTIM_PERIOD, &val) != eSIR_SUCCESS)
pe_err("could not retrieve DTIM Period");
mlm_start_req->dtimPeriod = (uint8_t) val;
}
if (wlan_cfg_get_int(mac_ctx, WNI_CFG_CFP_PERIOD, &val) !=
eSIR_SUCCESS)
pe_err("could not retrieve Beacon interval");
mlm_start_req->cfParamSet.cfpPeriod = (uint8_t) val;
if (wlan_cfg_get_int(mac_ctx, WNI_CFG_CFP_MAX_DURATION, &val) !=
eSIR_SUCCESS)
pe_err("could not retrieve CFPMaxDuration");
mlm_start_req->cfParamSet.cfpMaxDuration = (uint16_t) val;
/*
* this may not be needed anymore now,
* as rateSet is now included in the
* session entry and MLM has session context.
*/
qdf_mem_copy((void *)&mlm_start_req->rateSet,
(void *)&session->rateSet,
sizeof(tSirMacRateSet));
/* Now populate the 11n related parameters */
mlm_start_req->nwType = session->nwType;
mlm_start_req->htCapable = session->htCapability;
mlm_start_req->htOperMode = mac_ctx->lim.gHTOperMode;
/* Unused */
mlm_start_req->dualCTSProtection =
mac_ctx->lim.gHTDualCTSProtection;
mlm_start_req->txChannelWidthSet =
session->htRecommendedTxWidthSet;
session->limRFBand = lim_get_rf_band(channel_number);
/* Initialize 11h Enable Flag */
session->lim11hEnable = 0;
if (mlm_start_req->bssType != eSIR_IBSS_MODE) {
if (CHAN_HOP_ALL_BANDS_ENABLE ||
SIR_BAND_5_GHZ == session->limRFBand) {
if (wlan_cfg_get_int(mac_ctx,
WNI_CFG_11H_ENABLED, &val) != eSIR_SUCCESS)
pe_err("Fail to get WNI_CFG_11H_ENABLED");
else
session->lim11hEnable = val;
if (session->lim11hEnable &&
(eSIR_INFRA_AP_MODE ==
mlm_start_req->bssType)) {
cfg_get_wmi_dfs_master_param =
wlan_cfg_get_int(mac_ctx,
WNI_CFG_DFS_MASTER_ENABLED,
&val);
session->lim11hEnable = val;
}
if (cfg_get_wmi_dfs_master_param != eSIR_SUCCESS)
/* Failed get CFG WNI_CFG_DFS_MASTER_ENABLED */
pe_err("Get Fail, CFG DFS ENABLE");
}
}
if (!session->lim11hEnable) {
if (cfg_set_int(mac_ctx,
WNI_CFG_LOCAL_POWER_CONSTRAINT, 0) !=
eSIR_SUCCESS)
/*
* Failed to set the CFG param
* WNI_CFG_LOCAL_POWER_CONSTRAINT
*/
pe_err("Set LOCAL_POWER_CONSTRAINT failed");
}
mlm_start_req->beacon_tx_rate = session->beacon_tx_rate;
session->limPrevSmeState = session->limSmeState;
session->limSmeState = eLIM_SME_WT_START_BSS_STATE;
MTRACE(mac_trace
(mac_ctx, TRACE_CODE_SME_STATE,
session->peSessionId,
session->limSmeState));
lim_post_mlm_message(mac_ctx, LIM_MLM_START_REQ,
(uint32_t *) mlm_start_req);
return;
} else {
pe_err("Received unexpected START_BSS_REQ, in state %X",
mac_ctx->lim.gLimSmeState);
ret_code = eSIR_SME_BSS_ALREADY_STARTED_OR_JOINED;
goto free;
} /* if (mac_ctx->lim.gLimSmeState == eLIM_SME_OFFLINE_STATE) */
free:
if ((session != NULL) &&
(session->pLimStartBssReq == sme_start_bss_req)) {
session->pLimStartBssReq = NULL;
}
if (NULL != sme_start_bss_req)
qdf_mem_free(sme_start_bss_req);
if (NULL != mlm_start_req)
qdf_mem_free(mlm_start_req);
if (NULL != session) {
pe_delete_session(mac_ctx, session);
session = NULL;
}
lim_send_sme_start_bss_rsp(mac_ctx, eWNI_SME_START_BSS_RSP, ret_code,
session, sme_session_id, sme_transaction_id);
}
/**
* __lim_process_sme_start_bss_req() - Call handler to start BSS
*
* @pMac: Global MAC context
* @pMsg: Message pointer
*
* Wrapper for the function __lim_handle_sme_start_bss_request
* This message will be defered until softmac come out of
* scan mode or if we have detected radar on the current
* operating channel.
*
* return true - If we consumed the buffer
* false - If have defered the message.
*/
static bool __lim_process_sme_start_bss_req(tpAniSirGlobal pMac, tpSirMsgQ pMsg)
{
if (__lim_is_defered_msg_for_learn(pMac, pMsg) ||
__lim_is_defered_msg_for_radar(pMac, pMsg)) {
/**
* If message defered, buffer is not consumed yet.
* So return false
*/
return false;
}
__lim_handle_sme_start_bss_request(pMac, (uint32_t *) pMsg->bodyptr);
return true;
}
/**
* lim_get_random_bssid()
*
* FUNCTION:This function is called to process generate the random number for bssid
* This function is called to process SME_SCAN_REQ message
* from HDD or upper layer application.
*
* LOGIC:
*
* ASSUMPTIONS:
*
* NOTE:
* 1. geneartes the unique random number for bssid in ibss
*
* @param pMac Pointer to Global MAC structure
* @param *data Pointer to bssid buffer
* @return None
*/
void lim_get_random_bssid(tpAniSirGlobal pMac, uint8_t *data)
{
uint32_t random[2];
random[0] = tx_time_get();
random[0] |= (random[0] << 15);
random[1] = random[0] >> 1;
qdf_mem_copy(data, (uint8_t *) random, sizeof(tSirMacAddr));
}
static QDF_STATUS lim_send_hal_start_scan_offload_req(tpAniSirGlobal pMac,
tpSirSmeScanReq pScanReq)
{
tSirScanOffloadReq *pScanOffloadReq;
uint8_t *p;
tSirMsgQ msg;
uint16_t i, len;
tSirRetStatus status, rc = eSIR_SUCCESS;
tDot11fIEExtCap extracted_extcap = {0};
bool extcap_present = true;
if (pScanReq->uIEFieldLen) {
status = lim_strip_extcap_update_struct(pMac,
(uint8_t *) pScanReq + pScanReq->uIEFieldOffset,
&pScanReq->uIEFieldLen, &extracted_extcap);
if (eSIR_SUCCESS != status) {
extcap_present = false;
pe_debug("Unable to Strip ExtCap IE from Scan Req");
}
if (extcap_present) {
pe_debug("Extcap was part of SCAN IE - Updating FW");
lim_send_ext_cap_ie(pMac, pScanReq->sessionId,
&extracted_extcap, true);
}
} else {
pe_debug("No IEs in the scan request from supplicant");
}
/**
* The tSirScanOffloadReq will reserve the space for first channel,
* so allocate the memory for (numChannels - 1) and uIEFieldLen
*/
len = sizeof(tSirScanOffloadReq) +
(pScanReq->channelList.numChannels - 1) +
pScanReq->uIEFieldLen + pScanReq->oui_field_len;
pScanOffloadReq = qdf_mem_malloc(len);
if (NULL == pScanOffloadReq) {
pe_err("AllocateMemory failed for pScanOffloadReq");
return QDF_STATUS_E_NOMEM;
}
msg.type = WMA_START_SCAN_OFFLOAD_REQ;
msg.bodyptr = pScanOffloadReq;
msg.bodyval = 0;
qdf_copy_macaddr(&pScanOffloadReq->bssId, &pScanReq->bssId);
if (pScanReq->numSsid > SIR_SCAN_MAX_NUM_SSID) {
pe_err("Invalid value (%d) for numSsid",
SIR_SCAN_MAX_NUM_SSID);
qdf_mem_free(pScanOffloadReq);
return QDF_STATUS_E_FAILURE;
}
pScanOffloadReq->numSsid = pScanReq->numSsid;
for (i = 0; i < pScanOffloadReq->numSsid; i++) {
pScanOffloadReq->ssId[i].length = pScanReq->ssId[i].length;
qdf_mem_copy((uint8_t *) pScanOffloadReq->ssId[i].ssId,
(uint8_t *) pScanReq->ssId[i].ssId,
pScanOffloadReq->ssId[i].length);
}
pScanOffloadReq->hiddenSsid = pScanReq->hiddenSsid;
qdf_copy_macaddr(&pScanOffloadReq->selfMacAddr, &pScanReq->selfMacAddr);
pScanOffloadReq->bssType = pScanReq->bssType;
pScanOffloadReq->dot11mode = pScanReq->dot11mode;
pScanOffloadReq->scanType = pScanReq->scanType;
pScanOffloadReq->minChannelTime = pScanReq->minChannelTime;
pScanOffloadReq->maxChannelTime = pScanReq->maxChannelTime;
pScanOffloadReq->scan_num_probes = pScanReq->scan_num_probes;
pScanOffloadReq->scan_probe_repeat_time =
pScanReq->scan_probe_repeat_time;
pScanOffloadReq->restTime = pScanReq->restTime;
pScanOffloadReq->min_rest_time = pScanReq->min_rest_time;
pScanOffloadReq->idle_time = pScanReq->idle_time;
pScanOffloadReq->scan_adaptive_dwell_mode =
pScanReq->scan_adaptive_dwell_mode;
for (i = 0; i < pMac->lim.maxBssId; i++) {
tpPESession session_entry =
pe_find_session_by_sme_session_id(pMac, i);
if (session_entry &&
(eLIM_MLM_LINK_ESTABLISHED_STATE ==
session_entry->limMlmState) &&
(session_entry->beaconParams.beaconInterval
< BEACON_INTERVAL_THRESHOLD)) {
pScanOffloadReq->burst_scan_duration =
STA_BURST_SCAN_DURATION;
break;
}
}
/* for normal scan, the value for p2pScanType should be 0
always */
if (pScanReq->p2pSearch)
pScanOffloadReq->p2pScanType = P2P_SCAN_TYPE_SEARCH;
pScanOffloadReq->sessionId = pScanReq->sessionId;
pScanOffloadReq->scan_id = pScanReq->scan_id;
pScanOffloadReq->scan_requestor_id = USER_SCAN_REQUESTOR_ID;
pScanOffloadReq->scan_adaptive_dwell_mode =
pScanReq->scan_adaptive_dwell_mode;
pScanOffloadReq->scan_ctrl_flags_ext =
pScanReq->scan_ctrl_flags_ext;
if (pScanOffloadReq->sessionId >= pMac->lim.maxBssId)
pe_err("Invalid pe sessionID: %d",
pScanOffloadReq->sessionId);
pScanOffloadReq->channelList.numChannels =
pScanReq->channelList.numChannels;
p = &(pScanOffloadReq->channelList.channelNumber[0]);
for (i = 0; i < pScanOffloadReq->channelList.numChannels; i++)
p[i] = pScanReq->channelList.channelNumber[i];
pScanOffloadReq->uIEFieldLen = pScanReq->uIEFieldLen;
pScanOffloadReq->uIEFieldOffset = len - pScanOffloadReq->uIEFieldLen -
pScanReq->oui_field_len;
qdf_mem_copy((uint8_t *) pScanOffloadReq +
pScanOffloadReq->uIEFieldOffset,
(uint8_t *) pScanReq + pScanReq->uIEFieldOffset,
pScanReq->uIEFieldLen);
pScanOffloadReq->enable_scan_randomization =
pScanReq->enable_scan_randomization;
if (pScanOffloadReq->enable_scan_randomization) {
qdf_mem_copy(pScanOffloadReq->mac_addr, pScanReq->mac_addr,
QDF_MAC_ADDR_SIZE);
qdf_mem_copy(pScanOffloadReq->mac_addr_mask,
pScanReq->mac_addr_mask, QDF_MAC_ADDR_SIZE);
}
pScanOffloadReq->oui_field_len = pScanReq->oui_field_len;
pScanOffloadReq->num_vendor_oui = pScanReq->num_vendor_oui;
pScanOffloadReq->ie_whitelist = pScanReq->ie_whitelist;
if (pScanOffloadReq->ie_whitelist)
qdf_mem_copy(pScanOffloadReq->probe_req_ie_bitmap,
pScanReq->probe_req_ie_bitmap,
PROBE_REQ_BITMAP_LEN * sizeof(uint32_t));
pScanOffloadReq->oui_field_offset = sizeof(tSirScanOffloadReq) +
(pScanOffloadReq->channelList.numChannels - 1) +
pScanOffloadReq->uIEFieldLen;
if (pScanOffloadReq->num_vendor_oui != 0) {
qdf_mem_copy(
(uint8_t *) pScanOffloadReq + pScanOffloadReq->oui_field_offset,
(uint8_t *) pScanReq + pScanReq->oui_field_offset,
pScanReq->oui_field_len);
}
rc = wma_post_ctrl_msg(pMac, &msg);
if (rc != eSIR_SUCCESS) {
pe_err("wma_post_ctrl_msg() return failure");
qdf_mem_free(pScanOffloadReq);
return QDF_STATUS_E_FAILURE;
}
pe_debug("Processed Offload Scan Request Successfully");
return QDF_STATUS_SUCCESS;
}
/**
* __lim_process_sme_scan_req() - Process the SME Scan Request
* @mac_ctx: Global MAC Context
* @msg_buf: Buffer which contains the request and pertinent parameters
*
* This function is called to process SME_SCAN_REQ message
* from HDD or upper layer application.
*
* Return: None
*/
static void __lim_process_sme_scan_req(tpAniSirGlobal mac_ctx,
uint32_t *msg_buf)
{
tpSirSmeScanReq scan_req;
uint8_t valid_req = 0;
#ifdef FEATURE_WLAN_DIAG_SUPPORT_LIM /* FEATURE_WLAN_DIAG_SUPPORT */
lim_diag_event_report(mac_ctx, WLAN_PE_DIAG_SCAN_REQ_EVENT, NULL,
eSIR_SUCCESS, eSIR_SUCCESS);
#endif
mac_ctx->lim.beacon_probe_rsp_cnt_per_scan = 0;
scan_req = (tpSirSmeScanReq) msg_buf;
pe_debug("SME SCAN REQ id %d numChan %d min %d max %d IELen %d first %d fresh %d unique %d type %s (%d) rsp %d",
scan_req->scan_id, scan_req->channelList.numChannels,
scan_req->minChannelTime, scan_req->maxChannelTime,
scan_req->uIEFieldLen, scan_req->returnAfterFirstMatch,
scan_req->returnFreshResults, scan_req->returnUniqueResults,
lim_scan_type_to_string(scan_req->scanType),
scan_req->scanType, mac_ctx->lim.gLimRspReqd ? 1 : 0);
/*
* Since scan req always requires a response, we will overwrite response
* required here. This is added esp to take care of the condition where
* in p2p go case, we hold the scan req and insert single NOA. We send
* the held scan request to FW later on getting start NOA ind from FW so
* we lose state of the gLimRspReqd flag for the scan req if any other
* request comes by then. e.g. While unit testing, we found when insert
* single NOA is done, we see a get stats request which turns the flag
* gLimRspReqd to false; now when we actually start the saved scan req
* for init scan after getting NOA started, the gLimRspReqd being a
* global flag is showing false instead of true value for this saved
* scan req. Since all scan reqs coming to lim require a response,
* there is no harm in setting the global flag gLimRspReqd to true here.
*/
mac_ctx->lim.gLimRspReqd = true;
/*
* copy the Self MAC address from SmeReq to the globalplace,
* used for sending probe req
*/
sir_copy_mac_addr(mac_ctx->lim.gSelfMacAddr,
scan_req->selfMacAddr.bytes);
valid_req = lim_is_sme_scan_req_valid(mac_ctx, scan_req);
if (!valid_req || mac_ctx->lim.scan_disabled) {
pe_err("Scan disabled %d, Valid Scan Req %d",
mac_ctx->lim.scan_disabled, valid_req);
if (mac_ctx->lim.gLimRspReqd) {
mac_ctx->lim.gLimRspReqd = false;
lim_send_sme_scan_rsp(mac_ctx,
eSIR_SME_INVALID_PARAMETERS,
scan_req->sessionId,
scan_req->transactionId,
scan_req->scan_id);
}
return;
}
/*
* If scan request is received in idle, joinFailed
* states or in link established state (in STA role)
* or in normal state (in STA-in-IBSS/AP role) with
* 'return fresh scan results' request from HDD or
* it is periodic background scanning request,
* trigger fresh scan request to MLM
*/
if (__lim_fresh_scan_reqd(mac_ctx, scan_req->returnFreshResults)) {
mac_ctx->lim.gLim24Band11dScanDone = 0;
mac_ctx->lim.gLim50Band11dScanDone = 0;
mac_ctx->lim.gLimReturnAfterFirstMatch =
scan_req->returnAfterFirstMatch;
mac_ctx->lim.gLimReturnUniqueResults =
((scan_req->returnUniqueResults) > 0 ? true : false);
if (QDF_STATUS_SUCCESS !=
lim_send_hal_start_scan_offload_req(mac_ctx,
scan_req)) {
pe_err("Couldn't send Offload scan request");
lim_send_sme_scan_rsp(mac_ctx,
eSIR_SME_INVALID_PARAMETERS,
scan_req->sessionId,
scan_req->transactionId,
scan_req->scan_id);
return;
}
} else {
/* In all other cases return 'cached' scan results */
if (mac_ctx->lim.gLimRspReqd) {
mac_ctx->lim.gLimRspReqd = false;
lim_send_sme_scan_rsp(mac_ctx, eSIR_SME_SUCCESS,
scan_req->sessionId,
scan_req->transactionId, scan_req->scan_id);
}
}
}
/**
* __lim_process_clear_dfs_channel_list()
*
***FUNCTION:
***Clear DFS channel list when country is changed/aquired.
.*This message is sent from SME.
*
***LOGIC:
*
***ASSUMPTIONS:
*
***NOTE:
*
* @param pMac Pointer to Global MAC structure
* @param *pMsgBuf A pointer to the SME message buffer
* @return None
*/
static void __lim_process_clear_dfs_channel_list(tpAniSirGlobal pMac, tpSirMsgQ pMsg)
{
qdf_mem_set(&pMac->lim.dfschannelList, sizeof(tSirDFSChannelList), 0);
}
/**
* __lim_process_sme_join_req() - process SME_JOIN_REQ message
* @mac_ctx: Pointer to Global MAC structure
* @msg_buf: A pointer to the SME message buffer
*
* This function is called to process SME_JOIN_REQ message
* from HDD or upper layer application.
*
* Return: None
*/
static void
__lim_process_sme_join_req(tpAniSirGlobal mac_ctx, uint32_t *msg_buf)
{
tpSirSmeJoinReq sme_join_req = NULL;
tLimMlmJoinReq *mlm_join_req;
tSirResultCodes ret_code = eSIR_SME_SUCCESS;
uint32_t val = 0;
uint16_t n_size;
uint8_t session_id;
tpPESession session = NULL;
uint8_t sme_session_id = 0;
uint16_t sme_transaction_id = 0;
int8_t local_power_constraint = 0, reg_max = 0;
uint16_t ie_len;
uint8_t *vendor_ie;
tSirBssDescription *bss_desc;
struct vdev_type_nss *vdev_type_nss;
if (!mac_ctx || !msg_buf) {
QDF_TRACE(QDF_MODULE_ID_PE, QDF_TRACE_LEVEL_ERROR,
FL("JOIN REQ with invalid data"));
return;
}
/* FEATURE_WLAN_DIAG_SUPPORT */
#ifdef FEATURE_WLAN_DIAG_SUPPORT_LIM
/*
* Not sending any session, since it is not created yet.
* The response whould have correct state.
*/
lim_diag_event_report(mac_ctx, WLAN_PE_DIAG_JOIN_REQ_EVENT, NULL, 0, 0);
#endif /* FEATURE_WLAN_DIAG_SUPPORT */
/*
* Expect Join request in idle state.
* Reassociate request is expected in link established state.
*/
/* Global SME and LIM states are not defined yet for BT-AMP Support */
if (mac_ctx->lim.gLimSmeState == eLIM_SME_IDLE_STATE) {
n_size = __lim_get_sme_join_req_size_for_alloc((uint8_t *)
msg_buf);
sme_join_req = qdf_mem_malloc(n_size);
if (NULL == sme_join_req) {
pe_err("AllocateMemory failed for sme_join_req");
ret_code = eSIR_SME_RESOURCES_UNAVAILABLE;
goto end;
}
(void)qdf_mem_copy((void *)sme_join_req, (void *)msg_buf,
n_size);
if (!lim_is_sme_join_req_valid(mac_ctx, sme_join_req)) {
/* Received invalid eWNI_SME_JOIN_REQ */
/* Log the event */
pe_warn("SessionId:%d JOIN REQ with invalid data",
sme_join_req->sessionId);
ret_code = eSIR_SME_INVALID_PARAMETERS;
goto end;
}
/*
* Update the capability here itself as this is used in
* lim_extract_ap_capability() below. If not updated issues
* like not honoring power constraint on 1st association after
* driver loading might occur.
*/
lim_update_rrm_capability(mac_ctx, sme_join_req);
bss_desc = &sme_join_req->bssDescription;
/* check for the existence of start BSS session */
session = pe_find_session_by_bssid(mac_ctx, bss_desc->bssId,
&session_id);
if (session != NULL) {
pe_err("Session(%d) Already exists for BSSID: "
MAC_ADDRESS_STR " in limSmeState = %X",
session_id,
MAC_ADDR_ARRAY(bss_desc->bssId),
session->limSmeState);
if (session->limSmeState == eLIM_SME_LINK_EST_STATE &&
session->smeSessionId == sme_join_req->sessionId) {
/*
* Received eWNI_SME_JOIN_REQ for same
* BSS as currently associated.
* Log the event and send success
*/
pe_warn("SessionId: %d", session_id);
pe_warn("JOIN_REQ for current joined BSS");
/* Send Join success response to host */
ret_code = eSIR_SME_ALREADY_JOINED_A_BSS;
session = NULL;
goto end;
} else {
pe_err("JOIN_REQ not for current joined BSS");
ret_code = eSIR_SME_REFUSED;
session = NULL;
goto end;
}
} else {
/*
* Session Entry does not exist for given BSSId
* Try to Create a new session
*/
session = pe_create_session(mac_ctx, bss_desc->bssId,
&session_id, mac_ctx->lim.maxStation,
eSIR_INFRASTRUCTURE_MODE);
if (session == NULL) {
pe_err("Session Can not be created");
ret_code = eSIR_SME_RESOURCES_UNAVAILABLE;
goto end;
} else
pe_debug("SessionId:%d New session created",
session_id);
}
session->max_amsdu_num = sme_join_req->max_amsdu_num;
/*
* Store Session related parameters
* Store PE session Id in session Table
*/
session->peSessionId = session_id;
/* store the smejoin req handle in session table */
session->pLimJoinReq = sme_join_req;
/* Store SME session Id in sessionTable */
session->smeSessionId = sme_join_req->sessionId;
/* Store SME transaction Id in session Table */
session->transactionId = sme_join_req->transactionId;
/* Store beaconInterval */
session->beaconParams.beaconInterval =
bss_desc->beaconInterval;
qdf_mem_copy(&(session->htConfig), &(sme_join_req->htConfig),
sizeof(session->htConfig));
qdf_mem_copy(&(session->vht_config),
&(sme_join_req->vht_config),
sizeof(session->vht_config));
/* Copying of bssId is already done, while creating session */
sir_copy_mac_addr(session->selfMacAddr,
sme_join_req->selfMacAddr);
session->bssType = sme_join_req->bsstype;
session->statypeForBss = STA_ENTRY_PEER;
session->limWmeEnabled = sme_join_req->isWMEenabled;
session->limQosEnabled = sme_join_req->isQosEnabled;
session->wps_registration = sme_join_req->wps_registration;
/* Update supplicant configured ignore assoc disallowed */
session->ignore_assoc_disallowed =
sme_join_req->ignore_assoc_disallowed;
session->enable_bcast_probe_rsp =
sme_join_req->enable_bcast_probe_rsp;
/* Store vendor specfic IE for CISCO AP */
ie_len = (bss_desc->length + sizeof(bss_desc->length) -
GET_FIELD_OFFSET(tSirBssDescription, ieFields));
vendor_ie = cfg_get_vendor_ie_ptr_from_oui(mac_ctx,
SIR_MAC_CISCO_OUI, SIR_MAC_CISCO_OUI_SIZE,
((uint8_t *)&bss_desc->ieFields), ie_len);
if (NULL != vendor_ie) {
pe_debug("Cisco vendor OUI present");
session->isCiscoVendorAP = true;
} else {
session->isCiscoVendorAP = false;
}
/* Copy the dot 11 mode in to the session table */
session->dot11mode = sme_join_req->dot11mode;
#ifdef FEATURE_WLAN_MCC_TO_SCC_SWITCH
session->cc_switch_mode = sme_join_req->cc_switch_mode;
#endif
session->nwType = bss_desc->nwType;
session->enableAmpduPs = sme_join_req->enableAmpduPs;
session->enableHtSmps = sme_join_req->enableHtSmps;
session->htSmpsvalue = sme_join_req->htSmps;
session->send_smps_action =
sme_join_req->send_smps_action;
/*
* By default supported NSS 1x1 is set to true
* and later on updated while determining session
* supported rates which is the intersection of
* self and peer rates
*/
session->supported_nss_1x1 = true;
/*Store Persona */
session->pePersona = sme_join_req->staPersona;
pe_debug("enable Smps: %d mode: %d send action: %d supported nss 1x1: %d pePersona %d cbMode %d",
session->enableHtSmps,
session->htSmpsvalue,
session->send_smps_action,
session->supported_nss_1x1,
session->pePersona,
sme_join_req->cbMode);
/*Store Persona */
session->pePersona = sme_join_req->staPersona;
QDF_TRACE(QDF_MODULE_ID_PE, QDF_TRACE_LEVEL_DEBUG,
FL("PE PERSONA=%d cbMode %u force_24ghz_in_ht20 %d"),
session->pePersona, sme_join_req->cbMode,
sme_join_req->force_24ghz_in_ht20);
/* Copy The channel Id to the session Table */
session->currentOperChannel = bss_desc->channelId;
if (IS_5G_CH(session->currentOperChannel))
vdev_type_nss = &mac_ctx->vdev_type_nss_5g;
else
vdev_type_nss = &mac_ctx->vdev_type_nss_2g;
if (session->pePersona == QDF_P2P_CLIENT_MODE)
session->vdev_nss = vdev_type_nss->p2p_cli;
else
session->vdev_nss = vdev_type_nss->sta;
session->nss = session->vdev_nss;
session->vhtCapability =
IS_DOT11_MODE_VHT(session->dot11mode);
if (session->vhtCapability) {
if (session->pePersona == QDF_STA_MODE) {
session->vht_config.su_beam_formee =
sme_join_req->vht_config.su_beam_formee;
} else {
session->vht_config.su_beam_formee = 0;
}
session->enableVhtpAid =
sme_join_req->enableVhtpAid;
session->enableVhtGid =
sme_join_req->enableVhtGid;
pe_debug("vht su bformer [%d]",
session->vht_config.su_beam_former);
}
pe_debug("vhtCapability: %d su_beam_formee: %d txbf_csn_value: %d su_tx_bformer %d",
session->vhtCapability,
session->vht_config.su_beam_formee,
session->vht_config.csnof_beamformer_antSup,
session->vht_config.su_beam_former);
/*Phy mode */
session->gLimPhyMode = bss_desc->nwType;
handle_ht_capabilityand_ht_info(mac_ctx, session);
session->force_24ghz_in_ht20 =
sme_join_req->force_24ghz_in_ht20;
/* cbMode is already merged value of peer and self -
* done by csr in csr_get_cb_mode_from_ies */
session->htSupportedChannelWidthSet =
(sme_join_req->cbMode) ? 1 : 0;
session->htRecommendedTxWidthSet =
session->htSupportedChannelWidthSet;
session->htSecondaryChannelOffset = sme_join_req->cbMode;
if (PHY_DOUBLE_CHANNEL_HIGH_PRIMARY == sme_join_req->cbMode) {
session->ch_center_freq_seg0 =
session->currentOperChannel - 2;
session->ch_width = CH_WIDTH_40MHZ;
} else if (PHY_DOUBLE_CHANNEL_LOW_PRIMARY ==
sme_join_req->cbMode) {
session->ch_center_freq_seg0 =
session->currentOperChannel + 2;
session->ch_width = CH_WIDTH_40MHZ;
} else {
session->ch_center_freq_seg0 = 0;
session->ch_width = CH_WIDTH_20MHZ;
}
/* Record if management frames need to be protected */
#ifdef WLAN_FEATURE_11W
if (eSIR_ED_AES_128_CMAC == sme_join_req->MgmtEncryptionType)
session->limRmfEnabled = 1;
else
session->limRmfEnabled = 0;
#endif
#ifdef FEATURE_WLAN_DIAG_SUPPORT_LIM
session->rssi = bss_desc->rssi;
#endif
/* Copy the SSID from smejoinreq to session entry */
session->ssId.length = sme_join_req->ssId.length;
qdf_mem_copy(session->ssId.ssId, sme_join_req->ssId.ssId,
session->ssId.length);
/*
* Determin 11r or ESE connection based on input from SME
* which inturn is dependent on the profile the user wants
* to connect to, So input is coming from supplicant
*/
session->is11Rconnection = sme_join_req->is11Rconnection;
#ifdef FEATURE_WLAN_ESE
session->isESEconnection = sme_join_req->isESEconnection;
#endif
session->isFastTransitionEnabled =
sme_join_req->isFastTransitionEnabled;
session->isFastRoamIniFeatureEnabled =
sme_join_req->isFastRoamIniFeatureEnabled;
session->txLdpcIniFeatureEnabled =
sme_join_req->txLdpcIniFeatureEnabled;
lim_update_fils_config(session, sme_join_req);
if (session->bssType == eSIR_INFRASTRUCTURE_MODE) {
session->limSystemRole = eLIM_STA_ROLE;
} else {
/*
* Throw an error and return and make
* sure to delete the session.
*/
pe_err("recvd JOIN_REQ with invalid bss type %d",
session->bssType);
ret_code = eSIR_SME_INVALID_PARAMETERS;
goto end;
}
if (sme_join_req->addIEScan.length)
qdf_mem_copy(&session->pLimJoinReq->addIEScan,
&sme_join_req->addIEScan, sizeof(tSirAddie));
if (sme_join_req->addIEAssoc.length)
qdf_mem_copy(&session->pLimJoinReq->addIEAssoc,
&sme_join_req->addIEAssoc, sizeof(tSirAddie));
val = sizeof(tLimMlmJoinReq) +
session->pLimJoinReq->bssDescription.length + 2;
mlm_join_req = qdf_mem_malloc(val);
if (NULL == mlm_join_req) {
pe_err("AllocateMemory failed for mlmJoinReq");
ret_code = eSIR_SME_RESOURCES_UNAVAILABLE;
goto end;
}
/* PE SessionId is stored as a part of JoinReq */
mlm_join_req->sessionId = session->peSessionId;
if (wlan_cfg_get_int(mac_ctx, WNI_CFG_JOIN_FAILURE_TIMEOUT,
(uint32_t *) &mlm_join_req->joinFailureTimeout) !=
eSIR_SUCCESS) {
pe_err("couldn't retrieve JoinFailureTimer value"
" setting to default value");
mlm_join_req->joinFailureTimeout =
WNI_CFG_JOIN_FAILURE_TIMEOUT_STADEF;
}
/* copy operational rate from session */
qdf_mem_copy((void *)&session->rateSet,
(void *)&sme_join_req->operationalRateSet,
sizeof(tSirMacRateSet));
qdf_mem_copy((void *)&session->extRateSet,
(void *)&sme_join_req->extendedRateSet,
sizeof(tSirMacRateSet));
/*
* this may not be needed anymore now, as rateSet is now
* included in the session entry and MLM has session context.
*/
qdf_mem_copy((void *)&mlm_join_req->operationalRateSet,
(void *)&session->rateSet,
sizeof(tSirMacRateSet));
session->encryptType = sme_join_req->UCEncryptionType;
mlm_join_req->bssDescription.length =
session->pLimJoinReq->bssDescription.length;
qdf_mem_copy((uint8_t *) &mlm_join_req->bssDescription.bssId,
(uint8_t *)
&session->pLimJoinReq->bssDescription.bssId,
session->pLimJoinReq->bssDescription.length + 2);
session->limCurrentBssCaps =
session->pLimJoinReq->bssDescription.capabilityInfo;
reg_max = cfg_get_regulatory_max_transmit_power(mac_ctx,
session->currentOperChannel);
local_power_constraint = reg_max;
lim_extract_ap_capability(mac_ctx,
(uint8_t *)
session->pLimJoinReq->bssDescription.ieFields,
lim_get_ielen_from_bss_description(
&session->pLimJoinReq->bssDescription),
&session->limCurrentBssQosCaps,
&session->limCurrentBssPropCap,
&session->gLimCurrentBssUapsd,
&local_power_constraint, session);
/*
* Once the AP capabilities are available then set the
* beam forming capabilities accordingly.
*/
if (session->nss == 1) {
session->vht_config.su_beam_former = 0;
session->vht_config.tx_stbc = 0;
session->vht_config.num_soundingdim = 0;
session->htConfig.ht_tx_stbc = 0;
}
session->maxTxPower = lim_get_max_tx_power(reg_max,
local_power_constraint,
mac_ctx->roam.configParam.nTxPowerCap);
session->def_max_tx_pwr = session->maxTxPower;
pe_debug("Reg max %d local power con %d max tx pwr %d",
reg_max, local_power_constraint, session->maxTxPower);
if (sme_join_req->powerCap.maxTxPower > session->maxTxPower) {
sme_join_req->powerCap.maxTxPower = session->maxTxPower;
pe_debug("Update MaxTxPower in join Req to %d",
sme_join_req->powerCap.maxTxPower);
}
if (session->gLimCurrentBssUapsd) {
session->gUapsdPerAcBitmask =
session->pLimJoinReq->uapsdPerAcBitmask;
pe_debug("UAPSD flag for all AC - 0x%2x",
session->gUapsdPerAcBitmask);
/* resetting the dynamic uapsd mask */
session->gUapsdPerAcDeliveryEnableMask = 0;
session->gUapsdPerAcTriggerEnableMask = 0;
}
session->limRFBand =
lim_get_rf_band(session->currentOperChannel);
/* Initialize 11h Enable Flag */
if (SIR_BAND_5_GHZ == session->limRFBand) {
if (wlan_cfg_get_int(mac_ctx, WNI_CFG_11H_ENABLED,
&val) != eSIR_SUCCESS) {
pe_err("Fail to get WNI_CFG_11H_ENABLED");
session->lim11hEnable =
WNI_CFG_11H_ENABLED_STADEF;
} else {
session->lim11hEnable = val;
}
} else {
session->lim11hEnable = 0;
}
/*
* To care of the scenario when STA transitions from
* IBSS to Infrastructure mode.
*/
mac_ctx->lim.gLimIbssCoalescingHappened = false;
session->limPrevSmeState = session->limSmeState;
session->limSmeState = eLIM_SME_WT_JOIN_STATE;
MTRACE(mac_trace(mac_ctx, TRACE_CODE_SME_STATE,
session->peSessionId,
session->limSmeState));
/* Indicate whether spectrum management is enabled */
session->spectrumMgtEnabled =
sme_join_req->spectrumMgtIndicator;
/* Enable the spectrum management if this is a DFS channel */
if (session->country_info_present &&
lim_isconnected_on_dfs_channel(
session->currentOperChannel))
session->spectrumMgtEnabled = true;
session->isOSENConnection = sme_join_req->isOSENConnection;
/* Issue LIM_MLM_JOIN_REQ to MLM */
lim_post_mlm_message(mac_ctx, LIM_MLM_JOIN_REQ,
(uint32_t *) mlm_join_req);
return;
} else {
/* Received eWNI_SME_JOIN_REQ un expected state */
pe_err("received unexpected SME_JOIN_REQ in state %X",
mac_ctx->lim.gLimSmeState);
lim_print_sme_state(mac_ctx, LOGE, mac_ctx->lim.gLimSmeState);
ret_code = eSIR_SME_UNEXPECTED_REQ_RESULT_CODE;
session = NULL;
goto end;
}
end:
lim_get_session_info(mac_ctx, (uint8_t *) msg_buf,
&sme_session_id, &sme_transaction_id);
if (sme_join_req) {
qdf_mem_free(sme_join_req);
sme_join_req = NULL;
if (NULL != session)
session->pLimJoinReq = NULL;
}
if (ret_code != eSIR_SME_SUCCESS) {
if (NULL != session) {
pe_delete_session(mac_ctx, session);
session = NULL;
}
}
pe_debug("Send failure status on sessionid: %d with ret_code: %d",
sme_session_id, ret_code);
lim_send_sme_join_reassoc_rsp(mac_ctx, eWNI_SME_JOIN_RSP, ret_code,
eSIR_MAC_UNSPEC_FAILURE_STATUS, session, sme_session_id,
sme_transaction_id);
}
uint8_t lim_get_max_tx_power(int8_t regMax, int8_t apTxPower,
uint8_t iniTxPower)
{
uint8_t maxTxPower = 0;
uint8_t txPower = QDF_MIN(regMax, (apTxPower));
txPower = QDF_MIN(txPower, iniTxPower);
if ((txPower >= MIN_TX_PWR_CAP) && (txPower <= MAX_TX_PWR_CAP))
maxTxPower = txPower;
else if (txPower < MIN_TX_PWR_CAP)
maxTxPower = MIN_TX_PWR_CAP;
else
maxTxPower = MAX_TX_PWR_CAP;
return maxTxPower;
}
/**
* __lim_process_sme_reassoc_req() - process reassoc req
*
* @mac_ctx: Pointer to Global MAC structure
* @msg_buf: pointer to the SME message buffer
*
* This function is called to process SME_REASSOC_REQ message
* from HDD or upper layer application.
*
* Return: None
*/
static void __lim_process_sme_reassoc_req(tpAniSirGlobal mac_ctx,
uint32_t *msg_buf)
{
uint16_t caps;
uint32_t val;
tpSirSmeJoinReq reassoc_req = NULL;
tLimMlmReassocReq *mlm_reassoc_req;
tSirResultCodes ret_code = eSIR_SME_SUCCESS;
tpPESession session_entry = NULL;
uint8_t session_id;
uint8_t sme_session_id;
uint16_t transaction_id;
int8_t local_pwr_constraint = 0, reg_max = 0;
uint32_t tele_bcn_en = 0;
uint16_t size;
size = __lim_get_sme_join_req_size_for_alloc((uint8_t *)msg_buf);
reassoc_req = qdf_mem_malloc(size);
if (NULL == reassoc_req) {
pe_err("call to AllocateMemory failed for reassoc_req");
ret_code = eSIR_SME_RESOURCES_UNAVAILABLE;
goto end;
}
(void)qdf_mem_copy((void *)reassoc_req, (void *)msg_buf, size);
if (!lim_is_sme_join_req_valid(mac_ctx,
(tpSirSmeJoinReq)reassoc_req)) {
/*
* Received invalid eWNI_SME_REASSOC_REQ
*/
pe_warn("received SME_REASSOC_REQ with invalid data");
ret_code = eSIR_SME_INVALID_PARAMETERS;
goto end;
}
session_entry = pe_find_session_by_bssid(mac_ctx,
reassoc_req->bssDescription.bssId,
&session_id);
if (session_entry == NULL) {
pe_err("Session does not exist for given bssId");
lim_print_mac_addr(mac_ctx, reassoc_req->bssDescription.bssId,
LOGE);
ret_code = eSIR_SME_INVALID_PARAMETERS;
lim_get_session_info(mac_ctx, (uint8_t *)msg_buf,
&sme_session_id, &transaction_id);
session_entry =
pe_find_session_by_sme_session_id(mac_ctx,
sme_session_id);
if (session_entry != NULL)
lim_handle_sme_join_result(mac_ctx,
eSIR_SME_INVALID_PARAMETERS,
eSIR_MAC_UNSPEC_FAILURE_STATUS,
session_entry);
goto end;
}
#ifdef FEATURE_WLAN_DIAG_SUPPORT /* FEATURE_WLAN_DIAG_SUPPORT */
lim_diag_event_report(mac_ctx, WLAN_PE_DIAG_REASSOC_REQ_EVENT,
session_entry, eSIR_SUCCESS, eSIR_SUCCESS);
#endif /* FEATURE_WLAN_DIAG_SUPPORT */
/* mac_ctx->lim.gpLimReassocReq = reassoc_req;//TO SUPPORT BT-AMP */
/* Store the reassoc handle in the session Table */
session_entry->pLimReAssocReq = reassoc_req;
session_entry->dot11mode = reassoc_req->dot11mode;
session_entry->vhtCapability =
IS_DOT11_MODE_VHT(reassoc_req->dot11mode);
if (session_entry->vhtCapability) {
if (session_entry->pePersona == QDF_STA_MODE) {
session_entry->vht_config.su_beam_formee =
reassoc_req->vht_config.su_beam_formee;
} else {
reassoc_req->vht_config.su_beam_formee = 0;
}
session_entry->enableVhtpAid =
reassoc_req->enableVhtpAid;
session_entry->enableVhtGid =
reassoc_req->enableVhtGid;
pe_debug("vht su bformer [%d]", session_entry->vht_config.su_beam_former);
}
pe_debug("vhtCapability: %d su_beam_formee: %d su_tx_bformer %d",
session_entry->vhtCapability,
session_entry->vht_config.su_beam_formee,
session_entry->vht_config.su_beam_former);
session_entry->enableHtSmps = reassoc_req->enableHtSmps;
session_entry->htSmpsvalue = reassoc_req->htSmps;
session_entry->send_smps_action =
reassoc_req->send_smps_action;
pe_debug("enableHtSmps: %d htSmps: %d send action: %d supported nss 1x1: %d",
session_entry->enableHtSmps,
session_entry->htSmpsvalue,
session_entry->send_smps_action,
session_entry->supported_nss_1x1);
/*
* Reassociate request is expected
* in link established state only.
*/
if (session_entry->limSmeState != eLIM_SME_LINK_EST_STATE) {
if (session_entry->limSmeState == eLIM_SME_WT_REASSOC_STATE) {
/*
* May be from 11r FT pre-auth. So lets check it
* before we bail out
*/
pe_debug("Session in reassoc state is %d",
session_entry->peSessionId);
/* Make sure its our preauth bssid */
if (qdf_mem_cmp(reassoc_req->bssDescription.bssId,
session_entry->limReAssocbssId,
6)) {
lim_print_mac_addr(mac_ctx,
reassoc_req->bssDescription.
bssId, LOGE);
pe_err("Unknown bssId in reassoc state");
ret_code = eSIR_SME_INVALID_PARAMETERS;
goto end;
}
lim_process_mlm_ft_reassoc_req(mac_ctx, msg_buf,
session_entry);
return;
}
/*
* Should not have received eWNI_SME_REASSOC_REQ
*/
pe_err("received unexpected SME_REASSOC_REQ in state %X",
session_entry->limSmeState);
lim_print_sme_state(mac_ctx, LOGE, session_entry->limSmeState);
ret_code = eSIR_SME_UNEXPECTED_REQ_RESULT_CODE;
goto end;
}
qdf_mem_copy(session_entry->limReAssocbssId,
session_entry->pLimReAssocReq->bssDescription.bssId,
sizeof(tSirMacAddr));
session_entry->limReassocChannelId =
session_entry->pLimReAssocReq->bssDescription.channelId;
session_entry->reAssocHtSupportedChannelWidthSet =
(session_entry->pLimReAssocReq->cbMode) ? 1 : 0;
session_entry->reAssocHtRecommendedTxWidthSet =
session_entry->reAssocHtSupportedChannelWidthSet;
session_entry->reAssocHtSecondaryChannelOffset =
session_entry->pLimReAssocReq->cbMode;
session_entry->limReassocBssCaps =
session_entry->pLimReAssocReq->bssDescription.capabilityInfo;
reg_max = cfg_get_regulatory_max_transmit_power(mac_ctx,
session_entry->currentOperChannel);
local_pwr_constraint = reg_max;
lim_extract_ap_capability(mac_ctx,
(uint8_t *)session_entry->pLimReAssocReq->bssDescription.ieFields,
lim_get_ielen_from_bss_description(
&session_entry->pLimReAssocReq->bssDescription),
&session_entry->limReassocBssQosCaps,
&session_entry->limReassocBssPropCap,
&session_entry->gLimCurrentBssUapsd,
&local_pwr_constraint, session_entry);
session_entry->maxTxPower = QDF_MIN(reg_max, (local_pwr_constraint));
pe_err("Reg max = %d, local pwr constraint = %d, max tx = %d",
reg_max, local_pwr_constraint, session_entry->maxTxPower);
/* Copy the SSID from session entry to local variable */
session_entry->limReassocSSID.length = reassoc_req->ssId.length;
qdf_mem_copy(session_entry->limReassocSSID.ssId,
reassoc_req->ssId.ssId,
session_entry->limReassocSSID.length);
if (session_entry->gLimCurrentBssUapsd) {
session_entry->gUapsdPerAcBitmask =
session_entry->pLimReAssocReq->uapsdPerAcBitmask;
pe_debug("UAPSD flag for all AC - 0x%2x",
session_entry->gUapsdPerAcBitmask);
}
mlm_reassoc_req = qdf_mem_malloc(sizeof(tLimMlmReassocReq));
if (NULL == mlm_reassoc_req) {
pe_err("call to AllocateMemory failed for mlmReassocReq");
ret_code = eSIR_SME_RESOURCES_UNAVAILABLE;
goto end;
}
qdf_mem_copy(mlm_reassoc_req->peerMacAddr,
session_entry->limReAssocbssId, sizeof(tSirMacAddr));
if (wlan_cfg_get_int(mac_ctx, WNI_CFG_REASSOCIATION_FAILURE_TIMEOUT,
(uint32_t *)&mlm_reassoc_req->reassocFailureTimeout) !=
eSIR_SUCCESS)
pe_err("could not retrieve ReassocFailureTimeout value");
if (cfg_get_capability_info(mac_ctx, &caps, session_entry) !=
eSIR_SUCCESS)
pe_err("could not retrieve Capabilities value");
lim_update_caps_info_for_bss(mac_ctx, &caps,
reassoc_req->bssDescription.capabilityInfo);
pe_debug("Capabilities info Reassoc: 0x%X", caps);
mlm_reassoc_req->capabilityInfo = caps;
/* Update PE session_id */
mlm_reassoc_req->sessionId = session_id;
/*
* If telescopic beaconing is enabled, set listen interval to
* WNI_CFG_TELE_BCN_MAX_LI
*/
if (wlan_cfg_get_int(mac_ctx, WNI_CFG_TELE_BCN_WAKEUP_EN,
&tele_bcn_en) != eSIR_SUCCESS)
pe_err("Couldn't get WNI_CFG_TELE_BCN_WAKEUP_EN");
val = WNI_CFG_LISTEN_INTERVAL_STADEF;
if (tele_bcn_en) {
if (wlan_cfg_get_int(mac_ctx, WNI_CFG_TELE_BCN_MAX_LI, &val) !=
eSIR_SUCCESS)
pe_err("could not retrieve ListenInterval");
} else {
if (wlan_cfg_get_int(mac_ctx, WNI_CFG_LISTEN_INTERVAL, &val) !=
eSIR_SUCCESS)
pe_err("could not retrieve ListenInterval");
}
mlm_reassoc_req->listenInterval = (uint16_t) val;
/* Indicate whether spectrum management is enabled */
session_entry->spectrumMgtEnabled = reassoc_req->spectrumMgtIndicator;
/* Enable the spectrum management if this is a DFS channel */
if (session_entry->country_info_present &&
lim_isconnected_on_dfs_channel(
session_entry->currentOperChannel))
session_entry->spectrumMgtEnabled = true;
session_entry->limPrevSmeState = session_entry->limSmeState;
session_entry->limSmeState = eLIM_SME_WT_REASSOC_STATE;
MTRACE(mac_trace(mac_ctx, TRACE_CODE_SME_STATE,
session_entry->peSessionId,
session_entry->limSmeState));
lim_post_mlm_message(mac_ctx,
LIM_MLM_REASSOC_REQ, (uint32_t *)mlm_reassoc_req);
return;
end:
if (reassoc_req) {
qdf_mem_free(reassoc_req);
if (session_entry)
session_entry->pLimReAssocReq = NULL;
}
if (session_entry) {
/*
* error occurred after we determined the session so extract
* session and transaction info from there
*/
sme_session_id = session_entry->smeSessionId;
transaction_id = session_entry->transactionId;
} else
/*
* error occurred before or during the time we determined
* the session so extract the session and transaction info
* from the message
*/
lim_get_session_info(mac_ctx, (uint8_t *) msg_buf,
&sme_session_id, &transaction_id);
/*
* Send Reassoc failure response to host
* (note session_entry may be NULL, but that's OK)
*/
lim_send_sme_join_reassoc_rsp(mac_ctx, eWNI_SME_REASSOC_RSP,
ret_code, eSIR_MAC_UNSPEC_FAILURE_STATUS,
session_entry, sme_session_id,
transaction_id);
}
bool send_disassoc_frame = 1;
/**
* __lim_process_sme_disassoc_req()
*
***FUNCTION:
* This function is called to process SME_DISASSOC_REQ message
* from HDD or upper layer application.
*
***LOGIC:
*
***ASSUMPTIONS:
*
***NOTE:
*
* @param pMac Pointer to Global MAC structure
* @param *pMsgBuf A pointer to the SME message buffer
* @return None
*/
static void __lim_process_sme_disassoc_req(tpAniSirGlobal pMac, uint32_t *pMsgBuf)
{
uint16_t disassocTrigger, reasonCode;
tLimMlmDisassocReq *pMlmDisassocReq;
tSirResultCodes retCode = eSIR_SME_SUCCESS;
tSirSmeDisassocReq smeDisassocReq;
tpPESession psessionEntry = NULL;
uint8_t sessionId;
uint8_t smesessionId;
uint16_t smetransactionId;
if (pMsgBuf == NULL) {
pe_err("Buffer is Pointing to NULL");
return;
}
qdf_mem_copy(&smeDisassocReq, pMsgBuf, sizeof(tSirSmeDisassocReq));
smesessionId = smeDisassocReq.sessionId;
smetransactionId = smeDisassocReq.transactionId;
if (!lim_is_sme_disassoc_req_valid(pMac,
&smeDisassocReq,
psessionEntry)) {
pe_err("received invalid SME_DISASSOC_REQ message");
if (pMac->lim.gLimRspReqd) {
pMac->lim.gLimRspReqd = false;
retCode = eSIR_SME_INVALID_PARAMETERS;
disassocTrigger = eLIM_HOST_DISASSOC;
goto sendDisassoc;
}
return;
}
psessionEntry = pe_find_session_by_bssid(pMac,
smeDisassocReq.bssid.bytes,
&sessionId);
if (psessionEntry == NULL) {
pe_err("session does not exist for given bssId "
MAC_ADDRESS_STR,
MAC_ADDR_ARRAY(smeDisassocReq.bssid.bytes));
retCode = eSIR_SME_INVALID_PARAMETERS;
disassocTrigger = eLIM_HOST_DISASSOC;
goto sendDisassoc;
}
pe_debug("received DISASSOC_REQ message on sessionid %d Systemrole %d Reason: %u SmeState: %d from: "
MAC_ADDRESS_STR, smesessionId,
GET_LIM_SYSTEM_ROLE(psessionEntry), smeDisassocReq.reasonCode,
pMac->lim.gLimSmeState,
MAC_ADDR_ARRAY(smeDisassocReq.peer_macaddr.bytes));
#ifdef FEATURE_WLAN_DIAG_SUPPORT_LIM /* FEATURE_WLAN_DIAG_SUPPORT */
lim_diag_event_report(pMac, WLAN_PE_DIAG_DISASSOC_REQ_EVENT, psessionEntry,
0, smeDisassocReq.reasonCode);
#endif /* FEATURE_WLAN_DIAG_SUPPORT */
/* Update SME session Id and SME transaction ID */
psessionEntry->smeSessionId = smesessionId;
psessionEntry->transactionId = smetransactionId;
pe_debug("ho_fail: %d ", smeDisassocReq.process_ho_fail);
psessionEntry->process_ho_fail = smeDisassocReq.process_ho_fail;
switch (GET_LIM_SYSTEM_ROLE(psessionEntry)) {
case eLIM_STA_ROLE:
switch (psessionEntry->limSmeState) {
case eLIM_SME_ASSOCIATED_STATE:
case eLIM_SME_LINK_EST_STATE:
pe_debug("Rcvd SME_DISASSOC_REQ in limSmeState: %d ",
psessionEntry->limSmeState);
psessionEntry->limPrevSmeState =
psessionEntry->limSmeState;
psessionEntry->limSmeState = eLIM_SME_WT_DISASSOC_STATE;
/* Delete all TDLS peers connected before leaving BSS */
lim_delete_tdls_peers(pMac, psessionEntry);
MTRACE(mac_trace(pMac, TRACE_CODE_SME_STATE,
psessionEntry->peSessionId,
psessionEntry->limSmeState));
break;
case eLIM_SME_WT_DEAUTH_STATE:
/* PE shall still process the DISASSOC_REQ and proceed with
* link tear down even if it had already sent a DEAUTH_IND to
* to SME. pMac->lim.gLimPrevSmeState shall remain the same as
* its been set when PE entered WT_DEAUTH_STATE.
*/
psessionEntry->limSmeState = eLIM_SME_WT_DISASSOC_STATE;
MTRACE(mac_trace
(pMac, TRACE_CODE_SME_STATE,
psessionEntry->peSessionId,
psessionEntry->limSmeState));
pe_debug("Rcvd SME_DISASSOC_REQ while in SME_WT_DEAUTH_STATE");
break;
case eLIM_SME_WT_DISASSOC_STATE:
/* PE Recieved a Disassoc frame. Normally it gets DISASSOC_CNF but it
* received DISASSOC_REQ. Which means host is also trying to disconnect.
* PE can continue processing DISASSOC_REQ and send the response instead
* of failing the request. SME will anyway ignore DEAUTH_IND that was sent
* for disassoc frame.
*
* It will send a disassoc, which is ok. However, we can use the global flag
* sendDisassoc to not send disassoc frame.
*/
pe_debug("Rcvd SME_DISASSOC_REQ while in SME_WT_DISASSOC_STATE");
break;
case eLIM_SME_JOIN_FAILURE_STATE: {
/* Already in Disconnected State, return success */
pe_debug("Rcvd SME_DISASSOC_REQ while in eLIM_SME_JOIN_FAILURE_STATE");
if (pMac->lim.gLimRspReqd) {
retCode = eSIR_SME_SUCCESS;
disassocTrigger = eLIM_HOST_DISASSOC;
goto sendDisassoc;
}
}
break;
default:
/**
* STA is not currently associated.
* Log error and send response to host
*/
pe_err("received unexpected SME_DISASSOC_REQ in state %X",
psessionEntry->limSmeState);
lim_print_sme_state(pMac, LOGE,
psessionEntry->limSmeState);
if (pMac->lim.gLimRspReqd) {
if (psessionEntry->limSmeState !=
eLIM_SME_WT_ASSOC_STATE)
pMac->lim.gLimRspReqd = false;
retCode = eSIR_SME_UNEXPECTED_REQ_RESULT_CODE;
disassocTrigger = eLIM_HOST_DISASSOC;
goto sendDisassoc;
}
return;
}
break;
case eLIM_AP_ROLE:
/* Fall through */
break;
case eLIM_STA_IN_IBSS_ROLE:
default:
/* eLIM_UNKNOWN_ROLE */
pe_err("received unexpected SME_DISASSOC_REQ for role %d",
GET_LIM_SYSTEM_ROLE(psessionEntry));
retCode = eSIR_SME_UNEXPECTED_REQ_RESULT_CODE;
disassocTrigger = eLIM_HOST_DISASSOC;
goto sendDisassoc;
} /* end switch (pMac->lim.gLimSystemRole) */
disassocTrigger = eLIM_HOST_DISASSOC;
reasonCode = smeDisassocReq.reasonCode;
if (smeDisassocReq.doNotSendOverTheAir) {
pe_debug("do not send dissoc over the air");
send_disassoc_frame = 0;
}
/* Trigger Disassociation frame to peer MAC entity */
pe_debug("Sending Disasscoc with disassoc Trigger"
" : %d, reasonCode : %d",
disassocTrigger, reasonCode);
pMlmDisassocReq = qdf_mem_malloc(sizeof(tLimMlmDisassocReq));
if (NULL == pMlmDisassocReq) {
pe_err("call to AllocateMemory failed for mlmDisassocReq");
return;
}
qdf_copy_macaddr(&pMlmDisassocReq->peer_macaddr,
&smeDisassocReq.peer_macaddr);
pMlmDisassocReq->reasonCode = reasonCode;
pMlmDisassocReq->disassocTrigger = disassocTrigger;
/* Update PE session ID */
pMlmDisassocReq->sessionId = sessionId;
lim_post_mlm_message(pMac,
LIM_MLM_DISASSOC_REQ, (uint32_t *) pMlmDisassocReq);
return;
sendDisassoc:
if (psessionEntry)
lim_send_sme_disassoc_ntf(pMac,
smeDisassocReq.peer_macaddr.bytes,
retCode,
disassocTrigger,
1, smesessionId, smetransactionId,
psessionEntry);
else
lim_send_sme_disassoc_ntf(pMac,
smeDisassocReq.peer_macaddr.bytes,
retCode, disassocTrigger, 1,
smesessionId, smetransactionId, NULL);
} /*** end __lim_process_sme_disassoc_req() ***/
/** -----------------------------------------------------------------
\brief __lim_process_sme_disassoc_cnf() - Process SME_DISASSOC_CNF
This function is called to process SME_DISASSOC_CNF message
from HDD or upper layer application.
\param pMac - global mac structure
\param pStaDs - station dph hash node
\return none
\sa
----------------------------------------------------------------- */
static void __lim_process_sme_disassoc_cnf(tpAniSirGlobal pMac, uint32_t *pMsgBuf)
{
tSirSmeDisassocCnf smeDisassocCnf;
uint16_t aid;
tpDphHashNode pStaDs;
tpPESession psessionEntry;
uint8_t sessionId;
qdf_mem_copy(&smeDisassocCnf, pMsgBuf,
sizeof(struct sSirSmeDisassocCnf));
psessionEntry = pe_find_session_by_bssid(pMac,
smeDisassocCnf.bssid.bytes,
&sessionId);
if (psessionEntry == NULL) {
pe_err("session does not exist for given bssId");
return;
}
if (!lim_is_sme_disassoc_cnf_valid(pMac, &smeDisassocCnf, psessionEntry)) {
pe_err("received invalid SME_DISASSOC_CNF message");
return;
}
#ifdef FEATURE_WLAN_DIAG_SUPPORT_LIM /* FEATURE_WLAN_DIAG_SUPPORT */
if (smeDisassocCnf.messageType == eWNI_SME_DISASSOC_CNF)
lim_diag_event_report(pMac, WLAN_PE_DIAG_DISASSOC_CNF_EVENT,
psessionEntry,
(uint16_t) smeDisassocCnf.statusCode, 0);
else if (smeDisassocCnf.messageType == eWNI_SME_DEAUTH_CNF)
lim_diag_event_report(pMac, WLAN_PE_DIAG_DEAUTH_CNF_EVENT,
psessionEntry,
(uint16_t) smeDisassocCnf.statusCode, 0);
#endif /* FEATURE_WLAN_DIAG_SUPPORT */
switch (GET_LIM_SYSTEM_ROLE(psessionEntry)) {
case eLIM_STA_ROLE:
if ((psessionEntry->limSmeState != eLIM_SME_IDLE_STATE) &&
(psessionEntry->limSmeState != eLIM_SME_WT_DISASSOC_STATE)
&& (psessionEntry->limSmeState !=
eLIM_SME_WT_DEAUTH_STATE)) {
pe_err("received unexp SME_DISASSOC_CNF in state %X",
psessionEntry->limSmeState);
lim_print_sme_state(pMac, LOGE,
psessionEntry->limSmeState);
return;
}
break;
case eLIM_AP_ROLE:
/* Fall through */
break;
case eLIM_STA_IN_IBSS_ROLE:
default: /* eLIM_UNKNOWN_ROLE */
pe_err("received unexpected SME_DISASSOC_CNF role %d",
GET_LIM_SYSTEM_ROLE(psessionEntry));
return;
}
if ((psessionEntry->limSmeState == eLIM_SME_WT_DISASSOC_STATE) ||
(psessionEntry->limSmeState == eLIM_SME_WT_DEAUTH_STATE) ||
LIM_IS_AP_ROLE(psessionEntry)) {
pStaDs = dph_lookup_hash_entry(pMac,
smeDisassocCnf.peer_macaddr.bytes, &aid,
&psessionEntry->dph.dphHashTable);
if (pStaDs == NULL) {
pe_err("DISASSOC_CNF for a STA with no context, addr= "
MAC_ADDRESS_STR,
MAC_ADDR_ARRAY(smeDisassocCnf.peer_macaddr.bytes));
return;
}
if ((pStaDs->mlmStaContext.mlmState ==
eLIM_MLM_WT_DEL_STA_RSP_STATE) ||
(pStaDs->mlmStaContext.mlmState ==
eLIM_MLM_WT_DEL_STA_RSP_STATE)) {
pe_err("No need of cleanup for addr:" MAC_ADDRESS_STR "as MLM state is %d",
MAC_ADDR_ARRAY(smeDisassocCnf.peer_macaddr.bytes),
pStaDs->mlmStaContext.mlmState);
return;
}
/* Delete FT session if there exists one */
lim_ft_cleanup_pre_auth_info(pMac, psessionEntry);
lim_cleanup_rx_path(pMac, pStaDs, psessionEntry);
lim_clean_up_disassoc_deauth_req(pMac,
(char *)&smeDisassocCnf.peer_macaddr, 0);
}
return;
}
/**
* __lim_process_sme_deauth_req() - process sme deauth req
* @mac_ctx: Pointer to Global MAC structure
* @msg_buf: pointer to the SME message buffer
*
* This function is called to process SME_DEAUTH_REQ message
* from HDD or upper layer application.
*
* Return: None
*/
static void __lim_process_sme_deauth_req(tpAniSirGlobal mac_ctx,
uint32_t *msg_buf)
{
uint16_t deauth_trigger, reason_code;
tLimMlmDeauthReq *mlm_deauth_req;
tSirSmeDeauthReq sme_deauth_req;
tSirResultCodes ret_code = eSIR_SME_SUCCESS;
tpPESession session_entry;
uint8_t session_id; /* PE sessionId */
uint8_t sme_session_id;
uint16_t sme_transaction_id;
qdf_mem_copy(&sme_deauth_req, msg_buf, sizeof(tSirSmeDeauthReq));
sme_session_id = sme_deauth_req.sessionId;
sme_transaction_id = sme_deauth_req.transactionId;
/*
* We need to get a session first but we don't even know
* if the message is correct.
*/
session_entry = pe_find_session_by_bssid(mac_ctx,
sme_deauth_req.bssid.bytes,
&session_id);
if (session_entry == NULL) {
pe_err("session does not exist for given bssId");
ret_code = eSIR_SME_INVALID_PARAMETERS;
deauth_trigger = eLIM_HOST_DEAUTH;
goto send_deauth;
}
if (!lim_is_sme_deauth_req_valid(mac_ctx, &sme_deauth_req,
session_entry)) {
pe_err("received invalid SME_DEAUTH_REQ message");
mac_ctx->lim.gLimRspReqd = false;
ret_code = eSIR_SME_INVALID_PARAMETERS;
deauth_trigger = eLIM_HOST_DEAUTH;
goto send_deauth;
}
pe_debug("received DEAUTH_REQ sessionid %d Systemrole %d reasoncode %u limSmestate %d from "
MAC_ADDRESS_STR, sme_session_id,
GET_LIM_SYSTEM_ROLE(session_entry), sme_deauth_req.reasonCode,
session_entry->limSmeState,
MAC_ADDR_ARRAY(sme_deauth_req.peer_macaddr.bytes));
#ifdef FEATURE_WLAN_DIAG_SUPPORT_LIM /* FEATURE_WLAN_DIAG_SUPPORT */
lim_diag_event_report(mac_ctx, WLAN_PE_DIAG_DEAUTH_REQ_EVENT,
session_entry, 0, sme_deauth_req.reasonCode);
#endif /* FEATURE_WLAN_DIAG_SUPPORT */
/* Update SME session ID and Transaction ID */
session_entry->smeSessionId = sme_session_id;
session_entry->transactionId = sme_transaction_id;
switch (GET_LIM_SYSTEM_ROLE(session_entry)) {
case eLIM_STA_ROLE:
switch (session_entry->limSmeState) {
case eLIM_SME_ASSOCIATED_STATE:
case eLIM_SME_LINK_EST_STATE:
/* Delete all TDLS peers connected before leaving BSS */
lim_delete_tdls_peers(mac_ctx, session_entry);
case eLIM_SME_WT_ASSOC_STATE:
case eLIM_SME_JOIN_FAILURE_STATE:
case eLIM_SME_IDLE_STATE:
session_entry->limPrevSmeState =
session_entry->limSmeState;
session_entry->limSmeState = eLIM_SME_WT_DEAUTH_STATE;
MTRACE(mac_trace(mac_ctx, TRACE_CODE_SME_STATE,
session_entry->peSessionId,
session_entry->limSmeState));
/* Send Deauthentication request to MLM below */
break;
case eLIM_SME_WT_DEAUTH_STATE:
case eLIM_SME_WT_DISASSOC_STATE:
/*
* PE Recieved a Deauth/Disassoc frame. Normally it get
* DEAUTH_CNF/DISASSOC_CNF but it received DEAUTH_REQ.
* Which means host is also trying to disconnect.
* PE can continue processing DEAUTH_REQ and send
* the response instead of failing the request.
* SME will anyway ignore DEAUTH_IND/DISASSOC_IND that
* was sent for deauth/disassoc frame.
*/
session_entry->limSmeState = eLIM_SME_WT_DEAUTH_STATE;
pe_debug("Rcvd SME_DEAUTH_REQ while in SME_WT_DEAUTH_STATE");
break;
default:
/*
* STA is not in a state to deauthenticate with
* peer. Log error and send response to host.
*/
pe_err("received unexp SME_DEAUTH_REQ in state %X",
session_entry->limSmeState);
lim_print_sme_state(mac_ctx, LOGE,
session_entry->limSmeState);
if (mac_ctx->lim.gLimRspReqd) {
mac_ctx->lim.gLimRspReqd = false;
ret_code = eSIR_SME_STA_NOT_AUTHENTICATED;
deauth_trigger = eLIM_HOST_DEAUTH;
/*
* here we received deauth request from AP so
* sme state is eLIM_SME_WT_DEAUTH_STATE.if we
* have ISSUED delSta then mlm state should be
* eLIM_MLM_WT_DEL_STA_RSP_STATE and ifwe got
* delBSS rsp then mlm state should be
* eLIM_MLM_IDLE_STATE so the below condition
* captures the state where delSta not done
* and firmware still in connected state.
*/
if (session_entry->limSmeState ==
eLIM_SME_WT_DEAUTH_STATE &&
session_entry->limMlmState !=
eLIM_MLM_IDLE_STATE &&
session_entry->limMlmState !=
eLIM_MLM_WT_DEL_STA_RSP_STATE)
ret_code = eSIR_SME_DEAUTH_STATUS;
goto send_deauth;
}
return;
}
break;
case eLIM_STA_IN_IBSS_ROLE:
pe_err("Deauth not allowed in IBSS");
if (mac_ctx->lim.gLimRspReqd) {
mac_ctx->lim.gLimRspReqd = false;
ret_code = eSIR_SME_INVALID_PARAMETERS;
deauth_trigger = eLIM_HOST_DEAUTH;
goto send_deauth;
}
return;
case eLIM_AP_ROLE:
break;
default:
pe_err("received unexpected SME_DEAUTH_REQ for role %X",
GET_LIM_SYSTEM_ROLE(session_entry));
if (mac_ctx->lim.gLimRspReqd) {
mac_ctx->lim.gLimRspReqd = false;
ret_code = eSIR_SME_INVALID_PARAMETERS;
deauth_trigger = eLIM_HOST_DEAUTH;
goto send_deauth;
}
return;
} /* end switch (mac_ctx->lim.gLimSystemRole) */
if (sme_deauth_req.reasonCode == eLIM_LINK_MONITORING_DEAUTH) {
/* Deauthentication is triggered by Link Monitoring */
pe_debug("** Lost link with AP **");
deauth_trigger = eLIM_LINK_MONITORING_DEAUTH;
reason_code = eSIR_MAC_UNSPEC_FAILURE_REASON;
} else {
deauth_trigger = eLIM_HOST_DEAUTH;
reason_code = sme_deauth_req.reasonCode;
}
/* Trigger Deauthentication frame to peer MAC entity */
mlm_deauth_req = qdf_mem_malloc(sizeof(tLimMlmDeauthReq));
if (NULL == mlm_deauth_req) {
pe_err("call to AllocateMemory failed for mlmDeauthReq");
if (mac_ctx->lim.gLimRspReqd) {
mac_ctx->lim.gLimRspReqd = false;
ret_code = eSIR_SME_RESOURCES_UNAVAILABLE;
deauth_trigger = eLIM_HOST_DEAUTH;
goto send_deauth;
}
return;
}
qdf_copy_macaddr(&mlm_deauth_req->peer_macaddr,
&sme_deauth_req.peer_macaddr);
mlm_deauth_req->reasonCode = reason_code;
mlm_deauth_req->deauthTrigger = deauth_trigger;
/* Update PE session Id */
mlm_deauth_req->sessionId = session_id;
lim_post_mlm_message(mac_ctx, LIM_MLM_DEAUTH_REQ,
(uint32_t *)mlm_deauth_req);
return;
send_deauth:
lim_send_sme_deauth_ntf(mac_ctx, sme_deauth_req.peer_macaddr.bytes,
ret_code, deauth_trigger, 1,
sme_session_id, sme_transaction_id);
}
/**
* __lim_process_sme_set_context_req()
*
* @mac_ctx: Pointer to Global MAC structure
* @msg_buf: pointer to the SME message buffer
*
* This function is called to process SME_SETCONTEXT_REQ message
* from HDD or upper layer application.
*
* Return: None
*/
static void
__lim_process_sme_set_context_req(tpAniSirGlobal mac_ctx, uint32_t *msg_buf)
{
tpSirSmeSetContextReq set_context_req;
tLimMlmSetKeysReq *mlm_set_key_req;
tpPESession session_entry;
uint8_t session_id; /* PE sessionID */
uint8_t sme_session_id;
uint16_t sme_transaction_id;
if (msg_buf == NULL) {
pe_err("Buffer is Pointing to NULL");
return;
}
set_context_req = qdf_mem_malloc(sizeof(struct sSirSmeSetContextReq));
if (NULL == set_context_req) {
pe_err("call to AllocateMemory failed for set_context_req");
return;
}
qdf_mem_copy(set_context_req, msg_buf,
sizeof(struct sSirSmeSetContextReq));
sme_session_id = set_context_req->sessionId;
sme_transaction_id = set_context_req->transactionId;
if ((!lim_is_sme_set_context_req_valid(mac_ctx, set_context_req))) {
pe_warn("received invalid SME_SETCONTEXT_REQ message");
goto end;
}
if (set_context_req->keyMaterial.numKeys >
SIR_MAC_MAX_NUM_OF_DEFAULT_KEYS) {
pe_err("numKeys:%d is more than SIR_MAC_MAX_NUM_OF_DEFAULT_KEYS",
set_context_req->keyMaterial.numKeys);
lim_send_sme_set_context_rsp(mac_ctx,
set_context_req->peer_macaddr, 1,
eSIR_SME_INVALID_PARAMETERS, NULL,
sme_session_id, sme_transaction_id);
goto end;
}
session_entry = pe_find_session_by_bssid(mac_ctx,
set_context_req->bssid.bytes, &session_id);
if (session_entry == NULL) {
pe_err("Session does not exist for given BSSID");
lim_send_sme_set_context_rsp(mac_ctx,
set_context_req->peer_macaddr, 1,
eSIR_SME_INVALID_PARAMETERS, NULL,
sme_session_id, sme_transaction_id);
goto end;
}
#ifdef FEATURE_WLAN_DIAG_SUPPORT_LIM /* FEATURE_WLAN_DIAG_SUPPORT */
lim_diag_event_report(mac_ctx, WLAN_PE_DIAG_SETCONTEXT_REQ_EVENT,
session_entry, 0, 0);
#endif /* FEATURE_WLAN_DIAG_SUPPORT */
if ((LIM_IS_STA_ROLE(session_entry) &&
(session_entry->limSmeState == eLIM_SME_LINK_EST_STATE)) ||
((LIM_IS_IBSS_ROLE(session_entry) ||
LIM_IS_AP_ROLE(session_entry)) &&
(session_entry->limSmeState == eLIM_SME_NORMAL_STATE))) {
/* Trigger MLM_SETKEYS_REQ */
mlm_set_key_req = qdf_mem_malloc(sizeof(tLimMlmSetKeysReq));
if (NULL == mlm_set_key_req) {
pe_err("mem alloc failed for mlmSetKeysReq");
goto end;
}
mlm_set_key_req->edType = set_context_req->keyMaterial.edType;
mlm_set_key_req->numKeys =
set_context_req->keyMaterial.numKeys;
if (mlm_set_key_req->numKeys >
SIR_MAC_MAX_NUM_OF_DEFAULT_KEYS) {
pe_err("no.of keys exceeded max num of default keys limit");
qdf_mem_free(mlm_set_key_req);
goto end;
}
qdf_copy_macaddr(&mlm_set_key_req->peer_macaddr,
&set_context_req->peer_macaddr);
qdf_mem_copy((uint8_t *) &mlm_set_key_req->key,
(uint8_t *) &set_context_req->keyMaterial.key,
sizeof(tSirKeys) *
(mlm_set_key_req->numKeys ? mlm_set_key_req->
numKeys : 1));
mlm_set_key_req->sessionId = session_id;
mlm_set_key_req->smesessionId = sme_session_id;
pe_debug("received SETCONTEXT_REQ message sessionId=%d",
mlm_set_key_req->sessionId);
if (((set_context_req->keyMaterial.edType == eSIR_ED_WEP40) ||
(set_context_req->keyMaterial.edType == eSIR_ED_WEP104)) &&
LIM_IS_AP_ROLE(session_entry)) {
if (set_context_req->keyMaterial.key[0].keyLength) {
uint8_t key_id;
key_id =
set_context_req->keyMaterial.key[0].keyId;
qdf_mem_copy((uint8_t *)
&session_entry->WEPKeyMaterial[key_id],
(uint8_t *) &set_context_req->keyMaterial,
sizeof(tSirKeyMaterial));
} else {
uint32_t i;
for (i = 0; i < SIR_MAC_MAX_NUM_OF_DEFAULT_KEYS;
i++) {
qdf_mem_copy((uint8_t *)
&mlm_set_key_req->key[i],
(uint8_t *)session_entry->WEPKeyMaterial[i].key,
sizeof(tSirKeys));
}
}
}
lim_post_mlm_message(mac_ctx, LIM_MLM_SETKEYS_REQ,
(uint32_t *) mlm_set_key_req);
} else {
pe_err("rcvd unexpected SME_SETCONTEXT_REQ for role %d, state=%X",
GET_LIM_SYSTEM_ROLE(session_entry),
session_entry->limSmeState);
lim_print_sme_state(mac_ctx, LOGE, session_entry->limSmeState);
lim_send_sme_set_context_rsp(mac_ctx,
set_context_req->peer_macaddr, 1,
eSIR_SME_UNEXPECTED_REQ_RESULT_CODE,
session_entry, sme_session_id,
sme_transaction_id);
}
end:
qdf_mem_free(set_context_req);
return;
}
/**
* lim_process_sme_get_assoc_sta_info() - process sme assoc sta req
*
* @mac_ctx: Pointer to Global MAC structure
* @msg_buf: pointer to the SME message buffer
*
* This function is called to process SME_GET_ASSOC_STAS_REQ message
* from HDD or upper layer application.
*
* Return: None
*/
static void lim_process_sme_get_assoc_sta_info(tpAniSirGlobal mac_ctx,
uint32_t *msg_buf)
{
tSirSmeGetAssocSTAsReq get_assoc_stas_req;
tpDphHashNode sta_ds = NULL;
tpPESession session_entry = NULL;
tSap_Event sap_event;
tpWLAN_SAPEventCB sap_event_cb = NULL;
tpSap_AssocMacAddr assoc_sta_tmp = NULL;
uint8_t session_id = CSR_SESSION_ID_INVALID;
uint8_t assoc_id = 0;
uint8_t sta_cnt = 0;
if (msg_buf == NULL) {
pe_err("Buffer is Pointing to NULL");
return;
}
qdf_mem_copy(&get_assoc_stas_req, msg_buf,
sizeof(struct sSirSmeGetAssocSTAsReq));
/*
* Get Associated stations from PE.
* Find PE session Entry
*/
session_entry = pe_find_session_by_bssid(mac_ctx,
get_assoc_stas_req.bssid.bytes,
&session_id);
if (session_entry == NULL) {
pe_err("session does not exist for given bssId");
goto lim_assoc_sta_end;
}
if (!LIM_IS_AP_ROLE(session_entry)) {
pe_err("Received unexpected message in state %X, in role %X",
session_entry->limSmeState,
GET_LIM_SYSTEM_ROLE(session_entry));
goto lim_assoc_sta_end;
}
/* Retrieve values obtained in the request message */
sap_event_cb = (tpWLAN_SAPEventCB)get_assoc_stas_req.pSapEventCallback;
assoc_sta_tmp = (tpSap_AssocMacAddr)get_assoc_stas_req.pAssocStasArray;
if (NULL == assoc_sta_tmp)
goto lim_assoc_sta_end;
for (assoc_id = 0; assoc_id < session_entry->dph.dphHashTable.size;
assoc_id++) {
sta_ds = dph_get_hash_entry(mac_ctx, assoc_id,
&session_entry->dph.dphHashTable);
if (NULL == sta_ds)
continue;
if (sta_ds->valid) {
qdf_mem_copy((uint8_t *) &assoc_sta_tmp->staMac,
(uint8_t *) &sta_ds->staAddr,
QDF_MAC_ADDR_SIZE);
assoc_sta_tmp->assocId = (uint8_t) sta_ds->assocId;
assoc_sta_tmp->staId = (uint8_t) sta_ds->staIndex;
qdf_mem_copy((uint8_t *)&assoc_sta_tmp->supportedRates,
(uint8_t *)&sta_ds->supportedRates,
sizeof(tSirSupportedRates));
assoc_sta_tmp->ShortGI40Mhz = sta_ds->htShortGI40Mhz;
assoc_sta_tmp->ShortGI20Mhz = sta_ds->htShortGI20Mhz;
assoc_sta_tmp->Support40Mhz =
sta_ds->htDsssCckRate40MHzSupport;
pe_debug("dph Station Number = %d",
sta_cnt + 1);
pe_debug("MAC = " MAC_ADDRESS_STR,
MAC_ADDR_ARRAY(sta_ds->staAddr));
pe_debug("Association Id: %d Station Index: %d",
sta_ds->assocId, sta_ds->staIndex);
assoc_sta_tmp++;
sta_cnt++;
}
}
lim_assoc_sta_end:
/*
* Call hdd callback with sap event to send the list of
* associated stations from PE
*/
if (sap_event_cb != NULL) {
sap_event.sapHddEventCode = eSAP_ASSOC_STA_CALLBACK_EVENT;
sap_event.sapevt.sapAssocStaListEvent.module =
QDF_MODULE_ID_PE;
sap_event.sapevt.sapAssocStaListEvent.noOfAssocSta = sta_cnt;
sap_event.sapevt.sapAssocStaListEvent.pAssocStas =
(tpSap_AssocMacAddr)get_assoc_stas_req.pAssocStasArray;
sap_event_cb(&sap_event, get_assoc_stas_req.pUsrContext);
}
}
/**
* lim_process_sme_get_wpspbc_sessions - process sme get wpspbc req
*
* @mac_ctx: Pointer to Global MAC structure
* @msg_buf: pointer to WPS PBC overlap query message
*
* This function parses get WPS PBC overlap information
* message and call callback to pass WPS PBC overlap
* information back to hdd.
*
* Return: None
*/
static void lim_process_sme_get_wpspbc_sessions(tpAniSirGlobal mac_ctx,
uint32_t *msg_buf)
{
tSirSmeGetWPSPBCSessionsReq get_wps_pbc_sessions_req;
tpPESession session_entry = NULL;
tSap_Event sap_event;
tpWLAN_SAPEventCB sap_event_cb = NULL;
uint8_t session_id = CSR_SESSION_ID_INVALID;
tSap_GetWPSPBCSessionEvent *sap_get_wpspbc_event;
if (msg_buf == NULL) {
pe_err("Buffer is Pointing to NULL");
return;
}
sap_get_wpspbc_event = &sap_event.sapevt.sapGetWPSPBCSessionEvent;
sap_get_wpspbc_event->status = QDF_STATUS_E_FAULT;
qdf_mem_copy(&get_wps_pbc_sessions_req, msg_buf,
sizeof(struct sSirSmeGetWPSPBCSessionsReq));
/*
* Get Associated stations from PE
* Find PE session Entry
*/
session_entry = pe_find_session_by_bssid(mac_ctx,
get_wps_pbc_sessions_req.bssid.bytes, &session_id);
if (session_entry == NULL) {
pe_err("session does not exist for given bssId");
goto lim_get_wpspbc_sessions_end;
}
if (!LIM_IS_AP_ROLE(session_entry)) {
pe_err("Received unexpected message in role %X",
GET_LIM_SYSTEM_ROLE(session_entry));
goto lim_get_wpspbc_sessions_end;
}
/*
* Call hdd callback with sap event to send the
* WPS PBC overlap information
*/
sap_event.sapHddEventCode = eSAP_GET_WPSPBC_SESSION_EVENT;
sap_get_wpspbc_event->module = QDF_MODULE_ID_PE;
if (qdf_is_macaddr_zero(&get_wps_pbc_sessions_req.remove_mac)) {
lim_get_wpspbc_sessions(mac_ctx,
sap_get_wpspbc_event->addr,
sap_get_wpspbc_event->UUID_E,
&sap_get_wpspbc_event->wpsPBCOverlap,
session_entry);
} else {
lim_remove_pbc_sessions(mac_ctx,
get_wps_pbc_sessions_req.remove_mac,
session_entry);
/* don't have to inform the HDD/Host */
return;
}
pe_debug("wpsPBCOverlap %d", sap_get_wpspbc_event->wpsPBCOverlap);
lim_print_mac_addr(mac_ctx,
sap_get_wpspbc_event->addr.bytes, LOGD);
sap_get_wpspbc_event->status = QDF_STATUS_SUCCESS;
lim_get_wpspbc_sessions_end:
sap_event_cb =
(tpWLAN_SAPEventCB)get_wps_pbc_sessions_req.pSapEventCallback;
if (NULL != sap_event_cb)
sap_event_cb(&sap_event, get_wps_pbc_sessions_req.pUsrContext);
}
/**
* __lim_counter_measures()
*
* FUNCTION:
* This function is called to "implement" MIC counter measure
* and is *temporary* only
*
* LOGIC: on AP, disassoc all STA associated thru TKIP,
* we don't do the proper STA disassoc sequence since the
* BSS will be stoped anyway
*
***ASSUMPTIONS:
*
***NOTE:
*
* @param pMac Pointer to Global MAC structure
* @return None
*/
static void __lim_counter_measures(tpAniSirGlobal pMac, tpPESession psessionEntry)
{
tSirMacAddr mac = { 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF };
if (LIM_IS_AP_ROLE(psessionEntry))
lim_send_disassoc_mgmt_frame(pMac, eSIR_MAC_MIC_FAILURE_REASON,
mac, psessionEntry, false);
};
static void lim_process_tkip_counter_measures(tpAniSirGlobal pMac,
uint32_t *pMsgBuf)
{
tSirSmeTkipCntrMeasReq tkipCntrMeasReq;
tpPESession psessionEntry;
uint8_t sessionId; /* PE sessionId */
qdf_mem_copy(&tkipCntrMeasReq, pMsgBuf,
sizeof(struct sSirSmeTkipCntrMeasReq));
psessionEntry = pe_find_session_by_bssid(pMac,
tkipCntrMeasReq.bssId.bytes, &sessionId);
if (NULL == psessionEntry) {
pe_err("session does not exist for given BSSID");
return;
}
if (tkipCntrMeasReq.bEnable)
__lim_counter_measures(pMac, psessionEntry);
psessionEntry->bTkipCntrMeasActive = tkipCntrMeasReq.bEnable;
}
static void
__lim_handle_sme_stop_bss_request(tpAniSirGlobal pMac, uint32_t *pMsgBuf)
{
tSirSmeStopBssReq stopBssReq;
tSirRetStatus status;
tLimSmeStates prevState;
tpPESession psessionEntry;
uint8_t smesessionId;
uint8_t sessionId;
uint16_t smetransactionId;
uint8_t i = 0;
tpDphHashNode pStaDs = NULL;
qdf_mem_copy(&stopBssReq, pMsgBuf, sizeof(tSirSmeStopBssReq));
smesessionId = stopBssReq.sessionId;
smetransactionId = stopBssReq.transactionId;
if (!lim_is_sme_stop_bss_req_valid(pMsgBuf)) {
pe_warn("received invalid SME_STOP_BSS_REQ message");
/* Send Stop BSS response to host */
lim_send_sme_rsp(pMac, eWNI_SME_STOP_BSS_RSP,
eSIR_SME_INVALID_PARAMETERS, smesessionId,
smetransactionId);
return;
}
psessionEntry = pe_find_session_by_bssid(pMac,
stopBssReq.bssid.bytes,
&sessionId);
if (psessionEntry == NULL) {
pe_err("session does not exist for given BSSID");
lim_send_sme_rsp(pMac, eWNI_SME_STOP_BSS_RSP,
eSIR_SME_INVALID_PARAMETERS, smesessionId,
smetransactionId);
return;
}
#ifdef FEATURE_WLAN_DIAG_SUPPORT_LIM /* FEATURE_WLAN_DIAG_SUPPORT */
lim_diag_event_report(pMac, WLAN_PE_DIAG_STOP_BSS_REQ_EVENT, psessionEntry,
0, 0);
#endif /* FEATURE_WLAN_DIAG_SUPPORT */
if (psessionEntry->limSmeState != eLIM_SME_NORMAL_STATE || /* Added For BT -AMP Support */
LIM_IS_STA_ROLE(psessionEntry)) {
/**
* Should not have received STOP_BSS_REQ in states
* other than 'normal' state or on STA in Infrastructure
* mode. Log error and return response to host.
*/
pe_err("received unexpected SME_STOP_BSS_REQ in state %X, for role %d",
psessionEntry->limSmeState,
GET_LIM_SYSTEM_ROLE(psessionEntry));
lim_print_sme_state(pMac, LOGE, psessionEntry->limSmeState);
/* / Send Stop BSS response to host */
lim_send_sme_rsp(pMac, eWNI_SME_STOP_BSS_RSP,
eSIR_SME_UNEXPECTED_REQ_RESULT_CODE, smesessionId,
smetransactionId);
return;
}
if (LIM_IS_AP_ROLE(psessionEntry))
lim_wpspbc_close(pMac, psessionEntry);
pe_debug("RECEIVED STOP_BSS_REQ with reason code=%d",
stopBssReq.reasonCode);
prevState = psessionEntry->limSmeState;
psessionEntry->limSmeState = eLIM_SME_IDLE_STATE;
MTRACE(mac_trace
(pMac, TRACE_CODE_SME_STATE, psessionEntry->peSessionId,
psessionEntry->limSmeState));
/* Update SME session Id and Transaction Id */
psessionEntry->smeSessionId = smesessionId;
psessionEntry->transactionId = smetransactionId;
/* STA_IN_IBSS and NDI should NOT send Disassoc frame */
if (!LIM_IS_IBSS_ROLE(psessionEntry) &&
!LIM_IS_NDI_ROLE(psessionEntry)) {
tSirMacAddr bcAddr = { 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF };
if (stopBssReq.reasonCode == eSIR_SME_MIC_COUNTER_MEASURES)
/* Send disassoc all stations associated thru TKIP */
__lim_counter_measures(pMac, psessionEntry);
else
lim_send_disassoc_mgmt_frame(pMac,
eSIR_MAC_DEAUTH_LEAVING_BSS_REASON,
bcAddr, psessionEntry, false);
}
if (!LIM_IS_NDI_ROLE(psessionEntry)) {
/* Free the buffer allocated in START_BSS_REQ */
qdf_mem_free(psessionEntry->addIeParams.probeRespData_buff);
psessionEntry->addIeParams.probeRespDataLen = 0;
psessionEntry->addIeParams.probeRespData_buff = NULL;
qdf_mem_free(psessionEntry->addIeParams.assocRespData_buff);
psessionEntry->addIeParams.assocRespDataLen = 0;
psessionEntry->addIeParams.assocRespData_buff = NULL;
qdf_mem_free(psessionEntry->addIeParams.probeRespBCNData_buff);
psessionEntry->addIeParams.probeRespBCNDataLen = 0;
psessionEntry->addIeParams.probeRespBCNData_buff = NULL;
/*
* lim_del_bss is also called as part of coalescing,
* when we send DEL BSS followed by Add Bss msg.
*/
pMac->lim.gLimIbssCoalescingHappened = false;
}
for (i = 1; i < pMac->lim.gLimAssocStaLimit; i++) {
pStaDs =
dph_get_hash_entry(pMac, i, &psessionEntry->dph.dphHashTable);
if (NULL == pStaDs)
continue;
status = lim_del_sta(pMac, pStaDs, false, psessionEntry);
if (eSIR_SUCCESS == status) {
lim_delete_dph_hash_entry(pMac, pStaDs->staAddr,
pStaDs->assocId, psessionEntry);
lim_release_peer_idx(pMac, pStaDs->assocId, psessionEntry);
} else {
pe_err("lim_del_sta failed with Status: %d", status);
QDF_ASSERT(0);
}
}
/* send a delBss to HAL and wait for a response */
status = lim_del_bss(pMac, NULL, psessionEntry->bssIdx, psessionEntry);
if (status != eSIR_SUCCESS) {
pe_err("delBss failed for bss %d", psessionEntry->bssIdx);
psessionEntry->limSmeState = prevState;
MTRACE(mac_trace
(pMac, TRACE_CODE_SME_STATE, psessionEntry->peSessionId,
psessionEntry->limSmeState));
lim_send_sme_rsp(pMac, eWNI_SME_STOP_BSS_RSP,
eSIR_SME_STOP_BSS_FAILURE, smesessionId,
smetransactionId);
}
}
/**
* __lim_process_sme_stop_bss_req() - Process STOP_BSS from SME
* @pMac: Global MAC context
* @pMsg: Message from SME
*
* Wrapper for the function __lim_handle_sme_stop_bss_request
* This message will be defered until softmac come out of
* scan mode. Message should be handled even if we have
* detected radar in the current operating channel.
*
* Return: true - If we consumed the buffer
* false - If have defered the message.
*/
static bool __lim_process_sme_stop_bss_req(tpAniSirGlobal pMac, tpSirMsgQ pMsg)
{
if (__lim_is_defered_msg_for_learn(pMac, pMsg)) {
/**
* If message defered, buffer is not consumed yet.
* So return false
*/
return false;
}
__lim_handle_sme_stop_bss_request(pMac, (uint32_t *) pMsg->bodyptr);
return true;
} /*** end __lim_process_sme_stop_bss_req() ***/
void lim_process_sme_del_bss_rsp(tpAniSirGlobal pMac,
uint32_t body, tpPESession psessionEntry)
{
(void)body;
SET_LIM_PROCESS_DEFD_MESGS(pMac, true);
lim_ibss_delete(pMac, psessionEntry);
dph_hash_table_class_init(pMac, &psessionEntry->dph.dphHashTable);
lim_delete_pre_auth_list(pMac);
lim_send_sme_rsp(pMac, eWNI_SME_STOP_BSS_RSP, eSIR_SME_SUCCESS,
psessionEntry->smeSessionId,
psessionEntry->transactionId);
return;
}
/**
* __lim_process_sme_assoc_cnf_new() - process sme assoc/reassoc cnf
*
* @mac_ctx: pointer to mac context
* @msg_type: message type
* @msg_buf: pointer to the SME message buffer
*
* This function handles SME_ASSOC_CNF/SME_REASSOC_CNF
* in BTAMP AP.
*
* Return: None
*/
void __lim_process_sme_assoc_cnf_new(tpAniSirGlobal mac_ctx, uint32_t msg_type,
uint32_t *msg_buf)
{
tSirSmeAssocCnf assoc_cnf;
tpDphHashNode sta_ds = NULL;
tpPESession session_entry = NULL;
uint8_t session_id;
tpSirAssocReq assoc_req;
if (msg_buf == NULL) {
pe_err("msg_buf is NULL");
goto end;
}
qdf_mem_copy(&assoc_cnf, msg_buf, sizeof(struct sSirSmeAssocCnf));
if (!__lim_is_sme_assoc_cnf_valid(&assoc_cnf)) {
pe_err("Received invalid SME_RE(ASSOC)_CNF message");
goto end;
}
session_entry = pe_find_session_by_bssid(mac_ctx, assoc_cnf.bssid.bytes,
&session_id);
if (session_entry == NULL) {
pe_err("session does not exist for given bssId");
goto end;
}
if ((!LIM_IS_AP_ROLE(session_entry)) ||
((session_entry->limSmeState != eLIM_SME_NORMAL_STATE) &&
(session_entry->limSmeState !=
eLIM_SME_NORMAL_CHANNEL_SCAN_STATE))) {
pe_err("Rcvd unexpected msg %X in state %X, in role %X",
msg_type, session_entry->limSmeState,
GET_LIM_SYSTEM_ROLE(session_entry));
goto end;
}
sta_ds = dph_get_hash_entry(mac_ctx, assoc_cnf.aid,
&session_entry->dph.dphHashTable);
if (sta_ds == NULL) {
pe_err("Rcvd invalid msg %X due to no STA ctx, aid %d, peer",
msg_type, assoc_cnf.aid);
lim_print_mac_addr(mac_ctx, assoc_cnf.peer_macaddr.bytes, LOGE);
/*
* send a DISASSOC_IND message to WSM to make sure
* the state in WSM and LIM is the same
*/
lim_send_sme_disassoc_ntf(mac_ctx, assoc_cnf.peer_macaddr.bytes,
eSIR_SME_STA_NOT_ASSOCIATED,
eLIM_PEER_ENTITY_DISASSOC, assoc_cnf.aid,
session_entry->smeSessionId,
session_entry->transactionId,
session_entry);
goto end;
}
if (qdf_mem_cmp((uint8_t *)sta_ds->staAddr,
(uint8_t *) assoc_cnf.peer_macaddr.bytes,
QDF_MAC_ADDR_SIZE)) {
pe_debug("peerMacAddr mismatched for aid %d, peer ",
assoc_cnf.aid);
lim_print_mac_addr(mac_ctx, assoc_cnf.peer_macaddr.bytes, LOGD);
goto end;
}
if ((sta_ds->mlmStaContext.mlmState != eLIM_MLM_WT_ASSOC_CNF_STATE) ||
((sta_ds->mlmStaContext.subType == LIM_ASSOC) &&
(msg_type != eWNI_SME_ASSOC_CNF)) ||
((sta_ds->mlmStaContext.subType == LIM_REASSOC) &&
(msg_type != eWNI_SME_ASSOC_CNF))) {
pe_debug("not in MLM_WT_ASSOC_CNF_STATE, for aid %d, peer"
"StaD mlmState: %d",
assoc_cnf.aid, sta_ds->mlmStaContext.mlmState);
lim_print_mac_addr(mac_ctx, assoc_cnf.peer_macaddr.bytes, LOGD);
goto end;
}
/*
* Deactivate/delet CNF_WAIT timer since ASSOC_CNF
* has been received
*/
pe_debug("Received SME_ASSOC_CNF. Delete Timer");
lim_deactivate_and_change_per_sta_id_timer(mac_ctx,
eLIM_CNF_WAIT_TIMER, sta_ds->assocId);
if (assoc_cnf.statusCode == eSIR_SME_SUCCESS) {
/*
* In BTAMP-AP, PE already finished the WMA_ADD_STA sequence
* when it had received Assoc Request frame. Now, PE just needs
* to send association rsp frame to the requesting BTAMP-STA.
*/
sta_ds->mlmStaContext.mlmState =
eLIM_MLM_LINK_ESTABLISHED_STATE;
pe_debug("sending Assoc Rsp frame to STA (assoc id=%d)",
sta_ds->assocId);
lim_send_assoc_rsp_mgmt_frame(mac_ctx, eSIR_SUCCESS,
sta_ds->assocId, sta_ds->staAddr,
sta_ds->mlmStaContext.subType, sta_ds,
session_entry);
goto end;
} else {
/*
* SME_ASSOC_CNF status is non-success, so STA is not allowed
* to be associated since the HAL sta entry is created for
* denied STA we need to remove this HAL entry.
* So to do that set updateContext to 1
*/
if (!sta_ds->mlmStaContext.updateContext)
sta_ds->mlmStaContext.updateContext = 1;
pe_debug("Recv Assoc Cnf, status Code : %d(assoc id=%d)",
assoc_cnf.statusCode, sta_ds->assocId);
lim_reject_association(mac_ctx, sta_ds->staAddr,
sta_ds->mlmStaContext.subType,
true, sta_ds->mlmStaContext.authType,
sta_ds->assocId, true,
eSIR_MAC_UNSPEC_FAILURE_STATUS,
session_entry);
}
end:
if (((session_entry != NULL) && (sta_ds != NULL)) &&
(session_entry->parsedAssocReq[sta_ds->assocId] != NULL)) {
assoc_req = (tpSirAssocReq)
session_entry->parsedAssocReq[sta_ds->assocId];
if (assoc_req->assocReqFrame) {
qdf_mem_free(assoc_req->assocReqFrame);
assoc_req->assocReqFrame = NULL;
}
qdf_mem_free(session_entry->parsedAssocReq[sta_ds->assocId]);
session_entry->parsedAssocReq[sta_ds->assocId] = NULL;
}
}
static void __lim_process_sme_addts_req(tpAniSirGlobal pMac, uint32_t *pMsgBuf)
{
tpDphHashNode pStaDs;
tSirMacAddr peerMac;
tpSirAddtsReq pSirAddts;
uint32_t timeout;
tpPESession psessionEntry;
uint8_t sessionId; /* PE sessionId */
uint8_t smesessionId;
uint16_t smetransactionId;
if (pMsgBuf == NULL) {
pe_err("Buffer is Pointing to NULL");
return;
}
lim_get_session_info(pMac, (uint8_t *) pMsgBuf, &smesessionId,
&smetransactionId);
pSirAddts = (tpSirAddtsReq) pMsgBuf;
psessionEntry = pe_find_session_by_bssid(pMac, pSirAddts->bssid.bytes,
&sessionId);
if (psessionEntry == NULL) {
pe_err("Session Does not exist for given bssId");
lim_send_sme_addts_rsp(pMac, pSirAddts->rspReqd, eSIR_FAILURE,
NULL, pSirAddts->req.tspec,
smesessionId, smetransactionId);
return;
}
#ifdef FEATURE_WLAN_DIAG_SUPPORT_LIM /* FEATURE_WLAN_DIAG_SUPPORT */
lim_diag_event_report(pMac, WLAN_PE_DIAG_ADDTS_REQ_EVENT, psessionEntry, 0,
0);
#endif /* FEATURE_WLAN_DIAG_SUPPORT */
/* if sta
* - verify assoc state
* - send addts request to ap
* - wait for addts response from ap
* if ap, just ignore with error log
*/
pe_debug("Received SME_ADDTS_REQ (TSid %d, UP %d)",
pSirAddts->req.tspec.tsinfo.traffic.tsid,
pSirAddts->req.tspec.tsinfo.traffic.userPrio);
if (!LIM_IS_STA_ROLE(psessionEntry)) {
pe_err("AddTs received on AP - ignoring");
goto send_failure_addts_rsp;
}
pStaDs =
dph_get_hash_entry(pMac, DPH_STA_HASH_INDEX_PEER,
&psessionEntry->dph.dphHashTable);
if (pStaDs == NULL) {
pe_err("Cannot find AP context for addts req");
goto send_failure_addts_rsp;
}
if ((!pStaDs->valid) || (pStaDs->mlmStaContext.mlmState !=
eLIM_MLM_LINK_ESTABLISHED_STATE)) {
pe_err("AddTs received in invalid MLM state");
goto send_failure_addts_rsp;
}
pSirAddts->req.wsmTspecPresent = 0;
pSirAddts->req.wmeTspecPresent = 0;
pSirAddts->req.lleTspecPresent = 0;
if ((pStaDs->wsmEnabled) &&
(pSirAddts->req.tspec.tsinfo.traffic.accessPolicy !=
SIR_MAC_ACCESSPOLICY_EDCA))
pSirAddts->req.wsmTspecPresent = 1;
else if (pStaDs->wmeEnabled)
pSirAddts->req.wmeTspecPresent = 1;
else if (pStaDs->lleEnabled)
pSirAddts->req.lleTspecPresent = 1;
else {
pe_warn("ADDTS_REQ ignore - qos is disabled");
goto send_failure_addts_rsp;
}
if ((psessionEntry->limSmeState != eLIM_SME_ASSOCIATED_STATE) &&
(psessionEntry->limSmeState != eLIM_SME_LINK_EST_STATE)) {
pe_err("AddTs received in invalid LIMsme state (%d)",
psessionEntry->limSmeState);
goto send_failure_addts_rsp;
}
if (pMac->lim.gLimAddtsSent) {
pe_err("Addts (token %d, tsid %d, up %d) is still pending",
pMac->lim.gLimAddtsReq.req.dialogToken,
pMac->lim.gLimAddtsReq.req.tspec.tsinfo.traffic.tsid,
pMac->lim.gLimAddtsReq.req.tspec.tsinfo.traffic.
userPrio);
goto send_failure_addts_rsp;
}
sir_copy_mac_addr(peerMac, psessionEntry->bssId);
/* save the addts request */
pMac->lim.gLimAddtsSent = true;
qdf_mem_copy((uint8_t *) &pMac->lim.gLimAddtsReq,
(uint8_t *) pSirAddts, sizeof(tSirAddtsReq));
/* ship out the message now */
lim_send_addts_req_action_frame(pMac, peerMac, &pSirAddts->req,
psessionEntry);
pe_debug("Sent ADDTS request");
/* start a timer to wait for the response */
if (pSirAddts->timeout)
timeout = pSirAddts->timeout;
else if (wlan_cfg_get_int(pMac, WNI_CFG_ADDTS_RSP_TIMEOUT, &timeout) !=
eSIR_SUCCESS) {
pe_err("Unable to get Cfg param %d (Addts Rsp Timeout)",
WNI_CFG_ADDTS_RSP_TIMEOUT);
goto send_failure_addts_rsp;
}
timeout = SYS_MS_TO_TICKS(timeout);
if (tx_timer_change(&pMac->lim.limTimers.gLimAddtsRspTimer, timeout, 0)
!= TX_SUCCESS) {
pe_err("AddtsRsp timer change failed!");
goto send_failure_addts_rsp;
}
pMac->lim.gLimAddtsRspTimerCount++;
if (tx_timer_change_context(&pMac->lim.limTimers.gLimAddtsRspTimer,
pMac->lim.gLimAddtsRspTimerCount) !=
TX_SUCCESS) {
pe_err("AddtsRsp timer change failed!");
goto send_failure_addts_rsp;
}
MTRACE(mac_trace
(pMac, TRACE_CODE_TIMER_ACTIVATE, psessionEntry->peSessionId,
eLIM_ADDTS_RSP_TIMER));
/* add the sessionId to the timer object */
pMac->lim.limTimers.gLimAddtsRspTimer.sessionId = sessionId;
if (tx_timer_activate(&pMac->lim.limTimers.gLimAddtsRspTimer) !=
TX_SUCCESS) {
pe_err("AddtsRsp timer activation failed!");
goto send_failure_addts_rsp;
}
return;
send_failure_addts_rsp:
lim_send_sme_addts_rsp(pMac, pSirAddts->rspReqd, eSIR_FAILURE,
psessionEntry, pSirAddts->req.tspec,
smesessionId, smetransactionId);
}
static void __lim_process_sme_delts_req(tpAniSirGlobal pMac, uint32_t *pMsgBuf)
{
tSirMacAddr peerMacAddr;
uint8_t ac;
tSirMacTSInfo *pTsinfo;
tpSirDeltsReq pDeltsReq = (tpSirDeltsReq) pMsgBuf;
tpDphHashNode pStaDs = NULL;
tpPESession psessionEntry;
uint8_t sessionId;
uint32_t status = eSIR_SUCCESS;
uint8_t smesessionId;
uint16_t smetransactionId;
lim_get_session_info(pMac, (uint8_t *) pMsgBuf, &smesessionId,
&smetransactionId);
psessionEntry = pe_find_session_by_bssid(pMac,
pDeltsReq->bssid.bytes,
&sessionId);
if (psessionEntry == NULL) {
pe_err("Session Does not exist for given bssId");
status = eSIR_FAILURE;
goto end;
}
#ifdef FEATURE_WLAN_DIAG_SUPPORT_LIM /* FEATURE_WLAN_DIAG_SUPPORT */
lim_diag_event_report(pMac, WLAN_PE_DIAG_DELTS_REQ_EVENT, psessionEntry, 0,
0);
#endif /* FEATURE_WLAN_DIAG_SUPPORT */
if (eSIR_SUCCESS !=
lim_validate_delts_req(pMac, pDeltsReq, peerMacAddr, psessionEntry)) {
pe_err("lim_validate_delts_req failed");
status = eSIR_FAILURE;
lim_send_sme_delts_rsp(pMac, pDeltsReq, eSIR_FAILURE, psessionEntry,
smesessionId, smetransactionId);
return;
}
pe_debug("Sent DELTS request to station with assocId = %d MacAddr = "
MAC_ADDRESS_STR,
pDeltsReq->aid, MAC_ADDR_ARRAY(peerMacAddr));
lim_send_delts_req_action_frame(pMac, peerMacAddr,
pDeltsReq->req.wmeTspecPresent,
&pDeltsReq->req.tsinfo,
&pDeltsReq->req.tspec, psessionEntry);
pTsinfo =
pDeltsReq->req.wmeTspecPresent ? &pDeltsReq->req.tspec.
tsinfo : &pDeltsReq->req.tsinfo;
/* We've successfully send DELTS frame to AP. Update the
* dynamic UAPSD mask. The AC for this TSPEC to be deleted
* is no longer trigger enabled or delivery enabled
*/
lim_set_tspec_uapsd_mask_per_session(pMac, psessionEntry,
pTsinfo, CLEAR_UAPSD_MASK);
/* We're deleting the TSPEC, so this particular AC is no longer
* admitted. PE needs to downgrade the EDCA
* parameters(for the AC for which TS is being deleted) to the
* next best AC for which ACM is not enabled, and send the
* updated values to HAL.
*/
ac = upToAc(pTsinfo->traffic.userPrio);
if (pTsinfo->traffic.direction == SIR_MAC_DIRECTION_UPLINK) {
psessionEntry->gAcAdmitMask[SIR_MAC_DIRECTION_UPLINK] &=
~(1 << ac);
} else if (pTsinfo->traffic.direction ==
SIR_MAC_DIRECTION_DNLINK) {
psessionEntry->gAcAdmitMask[SIR_MAC_DIRECTION_DNLINK] &=
~(1 << ac);
} else if (pTsinfo->traffic.direction ==
SIR_MAC_DIRECTION_BIDIR) {
psessionEntry->gAcAdmitMask[SIR_MAC_DIRECTION_UPLINK] &=
~(1 << ac);
psessionEntry->gAcAdmitMask[SIR_MAC_DIRECTION_DNLINK] &=
~(1 << ac);
}
lim_set_active_edca_params(pMac, psessionEntry->gLimEdcaParams,
psessionEntry);
pStaDs =
dph_get_hash_entry(pMac, DPH_STA_HASH_INDEX_PEER,
&psessionEntry->dph.dphHashTable);
if (pStaDs != NULL) {
lim_send_edca_params(pMac, psessionEntry->gLimEdcaParamsActive,
pStaDs->bssId);
status = eSIR_SUCCESS;
} else {
pe_err("Self entry missing in Hash Table");
status = eSIR_FAILURE;
}
#ifdef FEATURE_WLAN_ESE
lim_send_sme_tsm_ie_ind(pMac, psessionEntry, 0, 0, 0);
#endif
/* send an sme response back */
end:
lim_send_sme_delts_rsp(pMac, pDeltsReq, eSIR_SUCCESS, psessionEntry,
smesessionId, smetransactionId);
}
void lim_process_sme_addts_rsp_timeout(tpAniSirGlobal pMac, uint32_t param)
{
/* fetch the sessionEntry based on the sessionId */
tpPESession psessionEntry;
psessionEntry = pe_find_session_by_session_id(pMac,
pMac->lim.limTimers.gLimAddtsRspTimer.
sessionId);
if (psessionEntry == NULL) {
pe_err("Session Does not exist for given sessionID");
return;
}
if (!LIM_IS_STA_ROLE(psessionEntry)) {
pe_warn("AddtsRspTimeout in non-Sta role (%d)",
GET_LIM_SYSTEM_ROLE(psessionEntry));
pMac->lim.gLimAddtsSent = false;
return;
}
if (!pMac->lim.gLimAddtsSent) {
pe_warn("AddtsRspTimeout but no AddtsSent");
return;
}
if (param != pMac->lim.gLimAddtsRspTimerCount) {
pe_err("Invalid AddtsRsp Timer count %d (exp %d)", param,
pMac->lim.gLimAddtsRspTimerCount);
return;
}
/* this a real response timeout */
pMac->lim.gLimAddtsSent = false;
pMac->lim.gLimAddtsRspTimerCount++;
lim_send_sme_addts_rsp(pMac, true, eSIR_SME_ADDTS_RSP_TIMEOUT,
psessionEntry, pMac->lim.gLimAddtsReq.req.tspec,
psessionEntry->smeSessionId,
psessionEntry->transactionId);
}
/**
* __lim_process_sme_get_statistics_request()
*
***FUNCTION:
*
*
***NOTE:
*
* @param pMac Pointer to Global MAC structure
* @param *pMsgBuf A pointer to the SME message buffer
* @return None
*/
static void
__lim_process_sme_get_statistics_request(tpAniSirGlobal pMac, uint32_t *pMsgBuf)
{
tpAniGetPEStatsReq pPEStatsReq;
tSirMsgQ msgQ;
pPEStatsReq = (tpAniGetPEStatsReq) pMsgBuf;
msgQ.type = WMA_GET_STATISTICS_REQ;
msgQ.reserved = 0;
msgQ.bodyptr = pMsgBuf;
msgQ.bodyval = 0;
MTRACE(mac_trace_msg_tx(pMac, NO_SESSION, msgQ.type));
if (eSIR_SUCCESS != (wma_post_ctrl_msg(pMac, &msgQ))) {
qdf_mem_free(pMsgBuf);
pMsgBuf = NULL;
pe_err("Unable to forward request");
return;
}
return;
}
#ifdef FEATURE_WLAN_ESE
/**
* __lim_process_sme_get_tsm_stats_request() - get tsm stats request
*
* @pMac: Pointer to Global MAC structure
* @pMsgBuf: A pointer to the SME message buffer
*
* Return: None
*/
static void
__lim_process_sme_get_tsm_stats_request(tpAniSirGlobal pMac, uint32_t *pMsgBuf)
{
tSirMsgQ msgQ;
msgQ.type = WMA_TSM_STATS_REQ;
msgQ.reserved = 0;
msgQ.bodyptr = pMsgBuf;
msgQ.bodyval = 0;
MTRACE(mac_trace_msg_tx(pMac, NO_SESSION, msgQ.type));
if (eSIR_SUCCESS != (wma_post_ctrl_msg(pMac, &msgQ))) {
qdf_mem_free(pMsgBuf);
pMsgBuf = NULL;
pe_err("Unable to forward request");
return;
}
}
#endif /* FEATURE_WLAN_ESE */
static void
__lim_process_sme_update_apwpsi_es(tpAniSirGlobal pMac, uint32_t *pMsgBuf)
{
tpSirUpdateAPWPSIEsReq pUpdateAPWPSIEsReq;
tpPESession psessionEntry;
uint8_t sessionId; /* PE sessionID */
pe_debug("received UPDATE_APWPSIEs_REQ message");
if (pMsgBuf == NULL) {
pe_err("Buffer is Pointing to NULL");
return;
}
pUpdateAPWPSIEsReq = qdf_mem_malloc(sizeof(tSirUpdateAPWPSIEsReq));
if (NULL == pUpdateAPWPSIEsReq) {
pe_err("call to AllocateMemory failed for pUpdateAPWPSIEsReq");
return;
}
qdf_mem_copy(pUpdateAPWPSIEsReq, pMsgBuf,
sizeof(struct sSirUpdateAPWPSIEsReq));
psessionEntry = pe_find_session_by_bssid(pMac,
pUpdateAPWPSIEsReq->bssid.bytes,
&sessionId);
if (psessionEntry == NULL) {
pe_warn("Session does not exist for given BSSID");
goto end;
}
qdf_mem_copy(&psessionEntry->APWPSIEs, &pUpdateAPWPSIEsReq->APWPSIEs,
sizeof(tSirAPWPSIEs));
sch_set_fixed_beacon_fields(pMac, psessionEntry);
lim_send_beacon_ind(pMac, psessionEntry);
end:
qdf_mem_free(pUpdateAPWPSIEsReq);
return;
}
static void lim_process_sme_update_config(tpAniSirGlobal mac_ctx,
struct update_config *msg)
{
tpPESession pe_session;
pe_debug("received eWNI_SME_UPDATE_HT_CONFIG message");
if (msg == NULL) {
pe_err("Buffer is Pointing to NULL");
return;
}
pe_session = pe_find_session_by_sme_session_id(mac_ctx,
msg->sme_session_id);
if (pe_session == NULL) {
pe_warn("Session does not exist for given BSSID");
return;
}
switch (msg->capab) {
case WNI_CFG_HT_CAP_INFO_ADVANCE_CODING:
pe_session->htConfig.ht_rx_ldpc = msg->value;
break;
case WNI_CFG_HT_CAP_INFO_TX_STBC:
pe_session->htConfig.ht_tx_stbc = msg->value;
break;
case WNI_CFG_HT_CAP_INFO_RX_STBC:
pe_session->htConfig.ht_rx_stbc = msg->value;
break;
case WNI_CFG_HT_CAP_INFO_SHORT_GI_20MHZ:
pe_session->htConfig.ht_sgi20 = msg->value;
break;
case WNI_CFG_HT_CAP_INFO_SHORT_GI_40MHZ:
pe_session->htConfig.ht_sgi40 = msg->value;
break;
}
if (LIM_IS_AP_ROLE(pe_session)) {
sch_set_fixed_beacon_fields(mac_ctx, pe_session);
lim_send_beacon_ind(mac_ctx, pe_session);
}
}
void
lim_send_vdev_restart(tpAniSirGlobal pMac,
tpPESession psessionEntry, uint8_t sessionId)
{
tpHalHiddenSsidVdevRestart pHalHiddenSsidVdevRestart = NULL;
tSirMsgQ msgQ;
tSirRetStatus retCode = eSIR_SUCCESS;
if (psessionEntry == NULL) {
pe_err("Invalid parameters");
return;
}
pHalHiddenSsidVdevRestart =
qdf_mem_malloc(sizeof(tHalHiddenSsidVdevRestart));
if (NULL == pHalHiddenSsidVdevRestart) {
pe_err("Unable to allocate memory");
return;
}
pHalHiddenSsidVdevRestart->ssidHidden = psessionEntry->ssidHidden;
pHalHiddenSsidVdevRestart->sessionId = sessionId;
pHalHiddenSsidVdevRestart->pe_session_id = psessionEntry->peSessionId;
msgQ.type = WMA_HIDDEN_SSID_VDEV_RESTART;
msgQ.bodyptr = pHalHiddenSsidVdevRestart;
msgQ.bodyval = 0;
retCode = wma_post_ctrl_msg(pMac, &msgQ);
if (eSIR_SUCCESS != retCode) {
pe_err("wma_post_ctrl_msg() failed");
qdf_mem_free(pHalHiddenSsidVdevRestart);
}
}
/**
* __lim_process_roam_scan_offload_req() - Process Roam scan offload from csr
* @mac_ctx: Pointer to Global MAC structure
* @msg_buf: Pointer to SME message buffer
*
* Return: None
*/
static void __lim_process_roam_scan_offload_req(tpAniSirGlobal mac_ctx,
uint32_t *msg_buf)
{
tpPESession pe_session;
tSirMsgQ wma_msg;
tSirRetStatus status;
tSirRoamOffloadScanReq *req_buffer;
uint16_t local_ie_len;
uint8_t *local_ie_buf;
req_buffer = (tSirRoamOffloadScanReq *)msg_buf;
pe_session = pe_find_session_by_sme_session_id(mac_ctx,
req_buffer->sessionId);
local_ie_buf = qdf_mem_malloc(MAX_DEFAULT_SCAN_IE_LEN);
if (!local_ie_buf) {
pe_err("Mem Alloc failed for local_ie_buf");
qdf_mem_free(req_buffer);
return;
}
local_ie_len = req_buffer->assoc_ie.length;
/* Update ext cap IE if present */
if (local_ie_len &&
!lim_update_ext_cap_ie(mac_ctx, req_buffer->assoc_ie.addIEdata,
local_ie_buf, &local_ie_len)) {
if (local_ie_len <
QDF_ARRAY_SIZE(req_buffer->assoc_ie.addIEdata)) {
req_buffer->assoc_ie.length = local_ie_len;
qdf_mem_copy(req_buffer->assoc_ie.addIEdata,
local_ie_buf, local_ie_len);
}
}
qdf_mem_free(local_ie_buf);
if (pe_session)
lim_update_fils_rik(pe_session, req_buffer);
wma_msg.type = WMA_ROAM_SCAN_OFFLOAD_REQ;
wma_msg.bodyptr = req_buffer;
status = wma_post_ctrl_msg(mac_ctx, &wma_msg);
if (eSIR_SUCCESS != status) {
pe_err("Posting WMA_ROAM_SCAN_OFFLOAD_REQ failed");
qdf_mem_free(req_buffer);
}
}
/*
* lim_handle_update_ssid_hidden() - Processes SSID hidden update
* @mac_ctx: Pointer to global mac context
* @session: Pointer to PE session
* @ssid_hidden: SSID hidden value to set; 0 - Broadcast SSID,
* 1 - Disable broadcast SSID
*
* Return: None
*/
static void lim_handle_update_ssid_hidden(tpAniSirGlobal mac_ctx,
tpPESession session, uint8_t ssid_hidden)
{
pe_debug("received HIDE_SSID message old HIDE_SSID: %d new HIDE_SSID: %d",
session->ssidHidden, ssid_hidden);
if (ssid_hidden != session->ssidHidden) {
session->ssidHidden = ssid_hidden;
} else {
pe_debug("Dont process HIDE_SSID msg with existing setting");
return;
}
/* Send vdev restart */
lim_send_vdev_restart(mac_ctx, session, session->smeSessionId);
return;
}
/**
* __lim_process_sme_session_update - process SME session update msg
*
* @mac_ctx: Pointer to global mac context
* @msg_buf: Pointer to the received message buffer
*
* Return: None
*/
static void __lim_process_sme_session_update(tpAniSirGlobal mac_ctx,
uint32_t *msg_buf)
{
struct sir_update_session_param *msg;
tpPESession session;
if (!msg_buf) {
pe_err("Buffer is Pointing to NULL");
return;
}
msg = (struct sir_update_session_param *) msg_buf;
session = pe_find_session_by_sme_session_id(mac_ctx, msg->session_id);
if (!session) {
pe_warn("Session does not exist for given sessionId %d",
msg->session_id);
return;
}
pe_debug("received SME Session update for %d val %d",
msg->param_type, msg->param_val);
switch (msg->param_type) {
case SIR_PARAM_SSID_HIDDEN:
lim_handle_update_ssid_hidden(mac_ctx, session, msg->param_val);
break;
case SIR_PARAM_IGNORE_ASSOC_DISALLOWED:
session->ignore_assoc_disallowed = msg->param_val;
break;
default:
pe_err("Unknown session param");
break;
}
}
static void __lim_process_sme_set_wparsni_es(tpAniSirGlobal pMac, uint32_t *pMsgBuf)
{
tpSirUpdateAPWPARSNIEsReq pUpdateAPWPARSNIEsReq;
tpPESession psessionEntry;
uint8_t sessionId; /* PE sessionID */
if (pMsgBuf == NULL) {
pe_err("Buffer is Pointing to NULL");
return;
}
pUpdateAPWPARSNIEsReq = qdf_mem_malloc(sizeof(tSirUpdateAPWPSIEsReq));
if (NULL == pUpdateAPWPARSNIEsReq) {
pe_err("call to AllocateMemory failed for pUpdateAPWPARSNIEsReq");
return;
}
qdf_mem_copy(pUpdateAPWPARSNIEsReq, pMsgBuf,
sizeof(struct sSirUpdateAPWPARSNIEsReq));
psessionEntry = pe_find_session_by_bssid(pMac,
pUpdateAPWPARSNIEsReq->bssid.bytes,
&sessionId);
if (psessionEntry == NULL) {
pe_warn("Session does not exist for given BSSID");
goto end;
}
qdf_mem_copy(&psessionEntry->pLimStartBssReq->rsnIE,
&pUpdateAPWPARSNIEsReq->APWPARSNIEs, sizeof(tSirRSNie));
lim_set_rs_nie_wp_aiefrom_sme_start_bss_req_message(pMac,
&psessionEntry->
pLimStartBssReq->rsnIE,
psessionEntry);
psessionEntry->pLimStartBssReq->privacy = 1;
psessionEntry->privacy = 1;
sch_set_fixed_beacon_fields(pMac, psessionEntry);
lim_send_beacon_ind(pMac, psessionEntry);
end:
qdf_mem_free(pUpdateAPWPARSNIEsReq);
return;
} /*** end __lim_process_sme_set_wparsni_es(tpAniSirGlobal pMac, uint32_t *pMsgBuf) ***/
/*
Update the beacon Interval dynamically if beaconInterval is different in MCC
*/
static void __lim_process_sme_change_bi(tpAniSirGlobal pMac, uint32_t *pMsgBuf)
{
tpSirChangeBIParams pChangeBIParams;
tpPESession psessionEntry;
uint8_t sessionId = 0;
tUpdateBeaconParams beaconParams;
pe_debug("received Update Beacon Interval message");
if (pMsgBuf == NULL) {
pe_err("Buffer is Pointing to NULL");
return;
}
qdf_mem_zero(&beaconParams, sizeof(tUpdateBeaconParams));
pChangeBIParams = (tpSirChangeBIParams) pMsgBuf;
psessionEntry = pe_find_session_by_bssid(pMac,
pChangeBIParams->bssid.bytes,
&sessionId);
if (psessionEntry == NULL) {
pe_err("Session does not exist for given BSSID");
return;
}
/*Update sessionEntry Beacon Interval */
if (psessionEntry->beaconParams.beaconInterval !=
pChangeBIParams->beaconInterval) {
psessionEntry->beaconParams.beaconInterval =
pChangeBIParams->beaconInterval;
}
/*Update sch beaconInterval */
if (pMac->sch.schObject.gSchBeaconInterval !=
pChangeBIParams->beaconInterval) {
pMac->sch.schObject.gSchBeaconInterval =
pChangeBIParams->beaconInterval;
pe_debug("LIM send update BeaconInterval Indication: %d",
pChangeBIParams->beaconInterval);
if (false == pMac->sap.SapDfsInfo.is_dfs_cac_timer_running) {
/* Update beacon */
sch_set_fixed_beacon_fields(pMac, psessionEntry);
beaconParams.bssIdx = psessionEntry->bssIdx;
/* Set change in beacon Interval */
beaconParams.beaconInterval =
pChangeBIParams->beaconInterval;
beaconParams.paramChangeBitmap =
PARAM_BCN_INTERVAL_CHANGED;
lim_send_beacon_params(pMac, &beaconParams, psessionEntry);
}
}
return;
} /*** end __lim_process_sme_change_bi(tpAniSirGlobal pMac, uint32_t *pMsgBuf) ***/
#ifdef QCA_HT_2040_COEX
static void __lim_process_sme_set_ht2040_mode(tpAniSirGlobal pMac,
uint32_t *pMsgBuf)
{
tpSirSetHT2040Mode pSetHT2040Mode;
tpPESession psessionEntry;
uint8_t sessionId = 0;
cds_msg_t msg;
tUpdateVHTOpMode *pHtOpMode = NULL;
uint16_t staId = 0;
tpDphHashNode pStaDs = NULL;
pe_debug("received Set HT 20/40 mode message");
if (pMsgBuf == NULL) {
pe_err("Buffer is Pointing to NULL");
return;
}
pSetHT2040Mode = (tpSirSetHT2040Mode) pMsgBuf;
psessionEntry = pe_find_session_by_bssid(pMac,
pSetHT2040Mode->bssid.bytes,
&sessionId);
if (psessionEntry == NULL) {
pe_debug("Session does not exist for given BSSID");
lim_print_mac_addr(pMac, pSetHT2040Mode->bssid.bytes, LOGD);
return;
}
pe_debug("Update session entry for cbMod=%d",
pSetHT2040Mode->cbMode);
/*Update sessionEntry HT related fields */
switch (pSetHT2040Mode->cbMode) {
case PHY_SINGLE_CHANNEL_CENTERED:
psessionEntry->htSecondaryChannelOffset =
PHY_SINGLE_CHANNEL_CENTERED;
psessionEntry->htRecommendedTxWidthSet = 0;
if (pSetHT2040Mode->obssEnabled)
psessionEntry->htSupportedChannelWidthSet
= eHT_CHANNEL_WIDTH_40MHZ;
else
psessionEntry->htSupportedChannelWidthSet
= eHT_CHANNEL_WIDTH_20MHZ;
break;
case PHY_DOUBLE_CHANNEL_LOW_PRIMARY:
psessionEntry->htSecondaryChannelOffset =
PHY_DOUBLE_CHANNEL_LOW_PRIMARY;
psessionEntry->htRecommendedTxWidthSet = 1;
break;
case PHY_DOUBLE_CHANNEL_HIGH_PRIMARY:
psessionEntry->htSecondaryChannelOffset =
PHY_DOUBLE_CHANNEL_HIGH_PRIMARY;
psessionEntry->htRecommendedTxWidthSet = 1;
break;
default:
pe_err("Invalid cbMode");
return;
}
/* Update beacon */
sch_set_fixed_beacon_fields(pMac, psessionEntry);
lim_send_beacon_ind(pMac, psessionEntry);
/* update OP Mode for each associated peer */
for (staId = 0; staId < psessionEntry->dph.dphHashTable.size; staId++) {
pStaDs = dph_get_hash_entry(pMac, staId,
&psessionEntry->dph.dphHashTable);
if (NULL == pStaDs)
continue;
if (pStaDs->valid && pStaDs->htSupportedChannelWidthSet) {
pHtOpMode = qdf_mem_malloc(sizeof(tUpdateVHTOpMode));
if (NULL == pHtOpMode) {
pe_err("Not able to allocate memory for setting OP mode");
return;
}
pHtOpMode->opMode =
(psessionEntry->htSecondaryChannelOffset ==
PHY_SINGLE_CHANNEL_CENTERED) ?
eHT_CHANNEL_WIDTH_20MHZ : eHT_CHANNEL_WIDTH_40MHZ;
pHtOpMode->staId = staId;
qdf_mem_copy(pHtOpMode->peer_mac, &pStaDs->staAddr,
sizeof(tSirMacAddr));
pHtOpMode->smesessionId = sessionId;
pHtOpMode->dot11_mode = psessionEntry->dot11mode;
msg.type = WMA_UPDATE_OP_MODE;
msg.reserved = 0;
msg.bodyptr = pHtOpMode;
if (!QDF_IS_STATUS_SUCCESS
(cds_mq_post_message(QDF_MODULE_ID_WMA, &msg))) {
pe_err("Not able to post WMA_UPDATE_OP_MODE message to WMA");
qdf_mem_free(pHtOpMode);
return;
}
pe_debug("Notifed FW about OP mode: %d for staId=%d",
pHtOpMode->opMode, staId);
} else
pe_debug("station %d does not support HT40", staId);
}
return;
}
#endif
/* -------------------------------------------------------------------- */
/**
* __lim_process_report_message
*
* FUNCTION: Processes the next received Radio Resource Management message
*
* LOGIC:
*
* ASSUMPTIONS:
*
* NOTE:
*
* @param None
* @return None
*/
static void __lim_process_report_message(tpAniSirGlobal pMac, tpSirMsgQ pMsg)
{
switch (pMsg->type) {
case eWNI_SME_NEIGHBOR_REPORT_REQ_IND:
rrm_process_neighbor_report_req(pMac, pMsg->bodyptr);
break;
case eWNI_SME_BEACON_REPORT_RESP_XMIT_IND:
rrm_process_beacon_report_xmit(pMac, pMsg->bodyptr);
break;
default:
pe_err("Invalid msg type: %d", pMsg->type);
}
}
/* -------------------------------------------------------------------- */
/**
* lim_send_set_max_tx_power_req
*
* FUNCTION: Send SIR_HAL_SET_MAX_TX_POWER_REQ message to change the max tx power.
*
* LOGIC:
*
* ASSUMPTIONS:
*
* NOTE:
*
* @param txPower txPower to be set.
* @param pSessionEntry session entry.
* @return None
*/
tSirRetStatus
lim_send_set_max_tx_power_req(tpAniSirGlobal pMac, int8_t txPower,
tpPESession pSessionEntry)
{
tpMaxTxPowerParams pMaxTxParams = NULL;
tSirRetStatus retCode = eSIR_SUCCESS;
tSirMsgQ msgQ;
if (pSessionEntry == NULL) {
pe_err("Invalid parameters");
return eSIR_FAILURE;
}
pMaxTxParams = qdf_mem_malloc(sizeof(tMaxTxPowerParams));
if (NULL == pMaxTxParams) {
pe_err("Unable to allocate memory for pMaxTxParams");
return eSIR_MEM_ALLOC_FAILED;
}
pMaxTxParams->power = txPower;
qdf_mem_copy(pMaxTxParams->bssId.bytes, pSessionEntry->bssId,
QDF_MAC_ADDR_SIZE);
qdf_mem_copy(pMaxTxParams->selfStaMacAddr.bytes,
pSessionEntry->selfMacAddr,
QDF_MAC_ADDR_SIZE);
msgQ.type = WMA_SET_MAX_TX_POWER_REQ;
msgQ.bodyptr = pMaxTxParams;
msgQ.bodyval = 0;
pe_debug("Post WMA_SET_MAX_TX_POWER_REQ to WMA");
MTRACE(mac_trace_msg_tx(pMac, pSessionEntry->peSessionId, msgQ.type));
retCode = wma_post_ctrl_msg(pMac, &msgQ);
if (eSIR_SUCCESS != retCode) {
pe_err("wma_post_ctrl_msg() failed");
qdf_mem_free(pMaxTxParams);
}
return retCode;
}
/**
* __lim_process_sme_register_mgmt_frame_req() - process sme reg mgmt frame req
*
* @mac_ctx: Pointer to Global MAC structure
* @msg_buf: pointer to the SME message buffer
*
* This function is called to process eWNI_SME_REGISTER_MGMT_FRAME_REQ message
* from SME. It Register this information within PE.
*
* Return: None
*/
static void __lim_process_sme_register_mgmt_frame_req(tpAniSirGlobal mac_ctx,
uint32_t *msg_buf)
{
QDF_STATUS qdf_status;
tpSirRegisterMgmtFrame sme_req = (tpSirRegisterMgmtFrame)msg_buf;
struct mgmt_frm_reg_info *lim_mgmt_regn = NULL;
struct mgmt_frm_reg_info *next = NULL;
bool match = false;
pe_debug("registerFrame %d, frameType %d, matchLen %d",
sme_req->registerFrame, sme_req->frameType,
sme_req->matchLen);
/* First check whether entry exists already */
qdf_mutex_acquire(&mac_ctx->lim.lim_frame_register_lock);
qdf_list_peek_front(&mac_ctx->lim.gLimMgmtFrameRegistratinQueue,
(qdf_list_node_t **) &lim_mgmt_regn);
qdf_mutex_release(&mac_ctx->lim.lim_frame_register_lock);
while (lim_mgmt_regn != NULL) {
if (lim_mgmt_regn->frameType != sme_req->frameType)
goto skip_match;
if (sme_req->matchLen) {
if ((lim_mgmt_regn->matchLen == sme_req->matchLen) &&
(!qdf_mem_cmp(lim_mgmt_regn->matchData,
sme_req->matchData,
lim_mgmt_regn->matchLen))) {
/* found match! */
match = true;
break;
}
} else {
/* found match! */
match = true;
break;
}
skip_match:
qdf_mutex_acquire(&mac_ctx->lim.lim_frame_register_lock);
qdf_status = qdf_list_peek_next(
&mac_ctx->lim.gLimMgmtFrameRegistratinQueue,
(qdf_list_node_t *)lim_mgmt_regn,
(qdf_list_node_t **)&next);
qdf_mutex_release(&mac_ctx->lim.lim_frame_register_lock);
lim_mgmt_regn = next;
next = NULL;
}
if (match) {
qdf_mutex_acquire(&mac_ctx->lim.lim_frame_register_lock);
if (QDF_STATUS_SUCCESS ==
qdf_list_remove_node(
&mac_ctx->lim.gLimMgmtFrameRegistratinQueue,
(qdf_list_node_t *)lim_mgmt_regn))
qdf_mem_free(lim_mgmt_regn);
qdf_mutex_release(&mac_ctx->lim.lim_frame_register_lock);
}
if (sme_req->registerFrame) {
lim_mgmt_regn =
qdf_mem_malloc(sizeof(struct mgmt_frm_reg_info) +
sme_req->matchLen);
if (lim_mgmt_regn != NULL) {
lim_mgmt_regn->frameType = sme_req->frameType;
lim_mgmt_regn->matchLen = sme_req->matchLen;
lim_mgmt_regn->sessionId = sme_req->sessionId;
if (sme_req->matchLen) {
qdf_mem_copy(lim_mgmt_regn->matchData,
sme_req->matchData,
sme_req->matchLen);
}
qdf_mutex_acquire(
&mac_ctx->lim.lim_frame_register_lock);
qdf_list_insert_front(&mac_ctx->lim.
gLimMgmtFrameRegistratinQueue,
&lim_mgmt_regn->node);
qdf_mutex_release(
&mac_ctx->lim.lim_frame_register_lock);
}
}
return;
}
static void __lim_deregister_deferred_sme_req_after_noa_start(tpAniSirGlobal pMac)
{
pe_debug("Dereg msgType %d", pMac->lim.gDeferMsgTypeForNOA);
pMac->lim.gDeferMsgTypeForNOA = 0;
if (pMac->lim.gpDefdSmeMsgForNOA != NULL) {
/* __lim_process_sme_scan_req consumed the buffer. We can free it. */
qdf_mem_free(pMac->lim.gpDefdSmeMsgForNOA);
pMac->lim.gpDefdSmeMsgForNOA = NULL;
}
}
/**
* lim_process_regd_defd_sme_req_after_noa_start()
*
* mac_ctx: Pointer to Global MAC structure
*
* This function is called to process deferred sme req message
* after noa start.
*
* Return: None
*/
void lim_process_regd_defd_sme_req_after_noa_start(tpAniSirGlobal mac_ctx)
{
bool buf_consumed = true;
pe_debug("Process defd sme req %d",
mac_ctx->lim.gDeferMsgTypeForNOA);
if ((mac_ctx->lim.gDeferMsgTypeForNOA == 0) ||
(mac_ctx->lim.gpDefdSmeMsgForNOA == NULL)) {
pe_warn("start rcvd from FW when no sme deferred msg pending. Do nothing");
pe_warn("It may happen when NOA start ind and timeout happen at the same time");
return;
}
switch (mac_ctx->lim.gDeferMsgTypeForNOA) {
case eWNI_SME_SCAN_REQ:
__lim_process_sme_scan_req(mac_ctx,
mac_ctx->lim.gpDefdSmeMsgForNOA);
break;
case eWNI_SME_REMAIN_ON_CHANNEL_REQ:
buf_consumed = lim_process_remain_on_chnl_req(mac_ctx,
mac_ctx->lim.gpDefdSmeMsgForNOA);
/*
* lim_process_remain_on_chnl_req doesnt want us to free
* the buffer since it is freed in lim_remain_on_chn_rsp.
* this change is to avoid "double free"
*/
if (false == buf_consumed)
mac_ctx->lim.gpDefdSmeMsgForNOA = NULL;
break;
case eWNI_SME_JOIN_REQ:
__lim_process_sme_join_req(mac_ctx,
mac_ctx->lim.gpDefdSmeMsgForNOA);
break;
default:
pe_err("Unknown deferred msg type %d",
mac_ctx->lim.gDeferMsgTypeForNOA);
break;
}
__lim_deregister_deferred_sme_req_after_noa_start(mac_ctx);
}
static void
__lim_process_sme_reset_ap_caps_change(tpAniSirGlobal pMac, uint32_t *pMsgBuf)
{
tpSirResetAPCapsChange pResetCapsChange;
tpPESession psessionEntry;
uint8_t sessionId = 0;
if (pMsgBuf == NULL) {
pe_err("Buffer is Pointing to NULL");
return;
}
pResetCapsChange = (tpSirResetAPCapsChange) pMsgBuf;
psessionEntry =
pe_find_session_by_bssid(pMac, pResetCapsChange->bssId.bytes,
&sessionId);
if (psessionEntry == NULL) {
pe_err("Session does not exist for given BSSID");
return;
}
psessionEntry->limSentCapsChangeNtf = false;
return;
}
/**
* lim_register_p2p_ack_ind_cb() - Save the p2p ack indication callback.
* @mac_ctx: Mac pointer
* @msg_buf: Msg pointer containing the callback
*
* This function is used to save the p2p ack indication callback in PE.
*
* Return: None
*/
static void lim_register_p2p_ack_ind_cb(tpAniSirGlobal mac_ctx,
uint32_t *msg_buf)
{
struct sir_sme_p2p_ack_ind_cb_req *sme_req =
(struct sir_sme_p2p_ack_ind_cb_req *)msg_buf;
if (NULL == msg_buf) {
pe_err("msg_buf is null");
return;
}
if (sme_req->callback)
mac_ctx->p2p_ack_ind_cb =
sme_req->callback;
else
pe_err("sme_req->callback is null");
}
/**
* lim_register_mgmt_frame_ind_cb() - Save the Management frame
* indication callback in PE.
* @mac_ptr: Mac pointer
* @msg_buf: Msg pointer containing the callback
*
* This function is used save the Management frame
* indication callback in PE.
*
* Return: None
*/
static void lim_register_mgmt_frame_ind_cb(tpAniSirGlobal mac_ctx,
uint32_t *msg_buf)
{
struct sir_sme_mgmt_frame_cb_req *sme_req =
(struct sir_sme_mgmt_frame_cb_req *)msg_buf;
if (NULL == msg_buf) {
pe_err("msg_buf is null");
return;
}
if (sme_req->callback)
mac_ctx->mgmt_frame_ind_cb =
(sir_mgmt_frame_ind_callback)sme_req->callback;
else
pe_err("sme_req->callback is null");
}
/**
*__lim_process_send_disassoc_frame: function processes disassoc frame
* @mac_ctx: pointer to mac context
* @msg_buf: message buffer
*
* function processes disassoc request received from SME
*
* return: none
*/
static void __lim_process_send_disassoc_frame(tpAniSirGlobal mac_ctx,
uint32_t *msg_buf)
{
struct sme_send_disassoc_frm_req sme_send_disassoc_frame_req;
tSirRetStatus status;
tpPESession session_entry = NULL;
uint8_t sme_session_id;
uint16_t sme_trans_id;
if (msg_buf == NULL) {
pe_err("Buffer is Pointing to NULL");
return;
}
lim_get_session_info(mac_ctx, (uint8_t *)msg_buf, &sme_session_id,
&sme_trans_id);
status = lim_send_disassoc_frm_req_ser_des(mac_ctx,
&sme_send_disassoc_frame_req,
(uint8_t *)msg_buf);
if ((eSIR_FAILURE == status) ||
(lim_is_group_addr(sme_send_disassoc_frame_req.peer_mac) &&
!lim_is_addr_bc(sme_send_disassoc_frame_req.peer_mac))) {
pe_err("received invalid SME_DISASSOC_REQ message");
return;
}
session_entry = pe_find_session_by_sme_session_id(
mac_ctx, sme_session_id);
if (session_entry == NULL) {
pe_err("session does not exist for given bssId "MAC_ADDRESS_STR,
MAC_ADDR_ARRAY(sme_send_disassoc_frame_req.peer_mac));
return;
}
pe_debug("msg_type->%d len->%d sess_id->%d trans_id->%d mac->"MAC_ADDRESS_STR" reason->%d wait_for_ack->%d",
sme_send_disassoc_frame_req.msg_type,
sme_send_disassoc_frame_req.length,
sme_send_disassoc_frame_req.session_id,
sme_send_disassoc_frame_req.trans_id,
MAC_ADDR_ARRAY(sme_send_disassoc_frame_req.peer_mac),
sme_send_disassoc_frame_req.reason,
sme_send_disassoc_frame_req.wait_for_ack);
lim_send_disassoc_mgmt_frame(mac_ctx,
sme_send_disassoc_frame_req.reason,
sme_send_disassoc_frame_req.peer_mac,
session_entry, sme_send_disassoc_frame_req.wait_for_ack);
}
/**
* lim_set_pdev_ht_ie() - sends the set HT IE req to FW
* @mac_ctx: Pointer to Global MAC structure
* @pdev_id: pdev id to set the IE.
* @nss: Nss values to prepare the HT IE.
*
* Prepares the HT IE with self capabilities for different
* Nss values and sends the set HT IE req to FW.
*
* Return: None
*/
static void lim_set_pdev_ht_ie(tpAniSirGlobal mac_ctx, uint8_t pdev_id,
uint8_t nss)
{
struct set_ie_param *ie_params;
tSirMsgQ msg;
tSirRetStatus rc = eSIR_SUCCESS;
uint8_t *p_ie = NULL;
tHtCaps *p_ht_cap;
int i;
for (i = 1; i <= nss; i++) {
ie_params = qdf_mem_malloc(sizeof(*ie_params));
if (NULL == ie_params) {
pe_err("mem alloc failed");
return;
}
ie_params->nss = i;
ie_params->pdev_id = pdev_id;
ie_params->ie_type = DOT11_HT_IE;
/* 2 for IE len and EID */
ie_params->ie_len = 2 + sizeof(tHtCaps);
ie_params->ie_ptr = qdf_mem_malloc(ie_params->ie_len);
if (NULL == ie_params->ie_ptr) {
qdf_mem_free(ie_params);
pe_err("mem alloc failed");
return;
}
*ie_params->ie_ptr = SIR_MAC_HT_CAPABILITIES_EID;
*(ie_params->ie_ptr + 1) = ie_params->ie_len - 2;
lim_set_ht_caps(mac_ctx, NULL, ie_params->ie_ptr,
ie_params->ie_len);
if (NSS_1x1_MODE == i) {
p_ie = lim_get_ie_ptr_new(mac_ctx, ie_params->ie_ptr,
ie_params->ie_len,
DOT11F_EID_HTCAPS, ONE_BYTE);
if (NULL == p_ie) {
qdf_mem_free(ie_params->ie_ptr);
qdf_mem_free(ie_params);
pe_err("failed to get IE ptr");
return;
}
p_ht_cap = (tHtCaps *)&p_ie[2];
p_ht_cap->supportedMCSSet[1] = 0;
p_ht_cap->txSTBC = 0;
}
msg.type = WMA_SET_PDEV_IE_REQ;
msg.bodyptr = ie_params;
msg.bodyval = 0;
rc = wma_post_ctrl_msg(mac_ctx, &msg);
if (rc != eSIR_SUCCESS) {
pe_err("wma_post_ctrl_msg() return failure");
qdf_mem_free(ie_params->ie_ptr);
qdf_mem_free(ie_params);
return;
}
}
}
/**
* lim_set_pdev_vht_ie() - sends the set VHT IE to req FW
* @mac_ctx: Pointer to Global MAC structure
* @pdev_id: pdev id to set the IE.
* @nss: Nss values to prepare the VHT IE.
*
* Prepares the VHT IE with self capabilities for different
* Nss values and sends the set VHT IE req to FW.
*
* Return: None
*/
static void lim_set_pdev_vht_ie(tpAniSirGlobal mac_ctx, uint8_t pdev_id,
uint8_t nss)
{
struct set_ie_param *ie_params;
tSirMsgQ msg;
tSirRetStatus rc = eSIR_SUCCESS;
uint8_t *p_ie = NULL;
tSirMacVHTCapabilityInfo *vht_cap;
int i;
tSirVhtMcsInfo *vht_mcs;
for (i = 1; i <= nss; i++) {
ie_params = qdf_mem_malloc(sizeof(*ie_params));
if (NULL == ie_params) {
pe_err("mem alloc failed");
return;
}
ie_params->nss = i;
ie_params->pdev_id = pdev_id;
ie_params->ie_type = DOT11_VHT_IE;
/* 2 for IE len and EID */
ie_params->ie_len = 2 + sizeof(tSirMacVHTCapabilityInfo) +
sizeof(tSirVhtMcsInfo);
ie_params->ie_ptr = qdf_mem_malloc(ie_params->ie_len);
if (NULL == ie_params->ie_ptr) {
qdf_mem_free(ie_params);
pe_err("mem alloc failed");
return;
}
*ie_params->ie_ptr = SIR_MAC_VHT_CAPABILITIES_EID;
*(ie_params->ie_ptr + 1) = ie_params->ie_len - 2;
lim_set_vht_caps(mac_ctx, NULL, ie_params->ie_ptr,
ie_params->ie_len);
if (NSS_1x1_MODE == i) {
p_ie = lim_get_ie_ptr_new(mac_ctx, ie_params->ie_ptr,
ie_params->ie_len,
DOT11F_EID_VHTCAPS, ONE_BYTE);
if (NULL == p_ie) {
qdf_mem_free(ie_params->ie_ptr);
qdf_mem_free(ie_params);
pe_err("failed to get IE ptr");
return;
}
vht_cap = (tSirMacVHTCapabilityInfo *)&p_ie[2];
vht_cap->txSTBC = 0;
vht_mcs =
(tSirVhtMcsInfo *)&p_ie[2 +
sizeof(tSirMacVHTCapabilityInfo)];
vht_mcs->rxMcsMap |= DISABLE_NSS2_MCS;
vht_mcs->rxHighest =
VHT_RX_HIGHEST_SUPPORTED_DATA_RATE_1_1;
vht_mcs->txMcsMap |= DISABLE_NSS2_MCS;
vht_mcs->txHighest =
VHT_TX_HIGHEST_SUPPORTED_DATA_RATE_1_1;
}
msg.type = WMA_SET_PDEV_IE_REQ;
msg.bodyptr = ie_params;
msg.bodyval = 0;
rc = wma_post_ctrl_msg(mac_ctx, &msg);
if (rc != eSIR_SUCCESS) {
pe_err("wma_post_ctrl_msg failure");
qdf_mem_free(ie_params->ie_ptr);
qdf_mem_free(ie_params);
return;
}
}
}
/**
* lim_process_set_vdev_ies_per_band() - process the set vdev IE req
* @mac_ctx: Pointer to Global MAC structure
* @msg_buf: Pointer to the SME message buffer
*
* This function is called by limProcessMessageQueue(). This function sets the
* VDEV IEs to the FW.
*
* Return: None
*/
static void lim_process_set_vdev_ies_per_band(tpAniSirGlobal mac_ctx,
uint32_t *msg_buf)
{
struct sir_set_vdev_ies_per_band *p_msg =
(struct sir_set_vdev_ies_per_band *)msg_buf;
if (NULL == p_msg) {
pe_err("NULL p_msg");
return;
}
pe_debug("rcvd set vdev ie per band req vdev_id = %d",
p_msg->vdev_id);
/* intentionally using NULL here so that self capabilty are sent */
if (lim_send_ies_per_band(mac_ctx, NULL, p_msg->vdev_id,
p_msg->is_hw_mode_dbs) != QDF_STATUS_SUCCESS)
pe_err("Unable to send HT/VHT Cap to FW");
}
#ifdef WLAN_FEATURE_ROAM_OFFLOAD
/**
* lim_process_roam_invoke() - process the Roam Invoke req
* @mac_ctx: Pointer to Global MAC structure
* @msg_buf: Pointer to the SME message buffer
*
* This function is called by limProcessMessageQueue(). This function sends the
* ROAM_INVOKE command to WMA.
*
* Return: None
*/
static void lim_process_roam_invoke(tpAniSirGlobal mac_ctx,
uint32_t *msg_buf)
{
cds_msg_t msg = {0};
QDF_STATUS status;
msg.type = SIR_HAL_ROAM_INVOKE;
msg.bodyptr = msg_buf;
msg.reserved = 0;
status = cds_mq_post_message(QDF_MODULE_ID_WMA, &msg);
if (QDF_STATUS_SUCCESS != status) {
pe_err("Not able to post SIR_HAL_ROAM_INVOKE to WMA");
return;
}
return;
}
#else
static void lim_process_roam_invoke(tpAniSirGlobal mac_ctx,
uint32_t *msg_buf)
{
}
#endif
/**
* lim_process_set_pdev_IEs() - process the set pdev IE req
* @mac_ctx: Pointer to Global MAC structure
* @msg_buf: Pointer to the SME message buffer
*
* This function is called by limProcessMessageQueue(). This
* function sets the PDEV IEs to the FW.
*
* Return: None
*/
static void lim_process_set_pdev_IEs(tpAniSirGlobal mac_ctx, uint32_t *msg_buf)
{
struct sir_set_ht_vht_cfg *ht_vht_cfg;
ht_vht_cfg = (struct sir_set_ht_vht_cfg *)msg_buf;
if (NULL == ht_vht_cfg) {
pe_err("NULL ht_vht_cfg");
return;
}
pe_debug("rcvd set pdev ht vht ie req with nss = %d",
ht_vht_cfg->nss);
lim_set_pdev_ht_ie(mac_ctx, ht_vht_cfg->pdev_id, ht_vht_cfg->nss);
if (IS_DOT11_MODE_VHT(ht_vht_cfg->dot11mode))
lim_set_pdev_vht_ie(mac_ctx, ht_vht_cfg->pdev_id,
ht_vht_cfg->nss);
}
/**
* lim_process_sme_update_access_policy_vendor_ie: function updates vendor IE
*
* access policy
* @mac_ctx: pointer to mac context
* @msg: message buffer
*
* function processes vendor IE and access policy from SME and updates PE
*
* session entry
*
* return: none
*/
static void lim_process_sme_update_access_policy_vendor_ie(
tpAniSirGlobal mac_ctx,
uint32_t *msg)
{
struct sme_update_access_policy_vendor_ie *update_vendor_ie;
struct sPESession *pe_session_entry;
uint8_t num_bytes;
if (!msg) {
pe_err("Buffer is Pointing to NULL");
return;
}
update_vendor_ie = (struct sme_update_access_policy_vendor_ie *) msg;
pe_session_entry = pe_find_session_by_sme_session_id(mac_ctx,
update_vendor_ie->sme_session_id);
if (!pe_session_entry) {
pe_err("Session does not exist for given sme session id(%hu)",
update_vendor_ie->sme_session_id);
return;
}
if (pe_session_entry->access_policy_vendor_ie)
qdf_mem_free(pe_session_entry->access_policy_vendor_ie);
num_bytes = update_vendor_ie->ie[1] + 2;
pe_session_entry->access_policy_vendor_ie = qdf_mem_malloc(num_bytes);
if (!pe_session_entry->access_policy_vendor_ie) {
pe_err("Failed to allocate memory for vendor ie");
return;
}
qdf_mem_copy(pe_session_entry->access_policy_vendor_ie,
&update_vendor_ie->ie[0], num_bytes);
pe_session_entry->access_policy = update_vendor_ie->access_policy;
}
/**
* lim_process_sme_req_messages()
*
***FUNCTION:
* This function is called by limProcessMessageQueue(). This
* function processes SME request messages from HDD or upper layer
* application.
*
***LOGIC:
*
***ASSUMPTIONS:
*
***NOTE:
*
* @param pMac Pointer to Global MAC structure
* @param msgType Indicates the SME message type
* @param *pMsgBuf A pointer to the SME message buffer
* @return Boolean - true - if pMsgBuf is consumed and can be freed.
* false - if pMsgBuf is not to be freed.
*/
bool lim_process_sme_req_messages(tpAniSirGlobal pMac, tpSirMsgQ pMsg)
{
bool bufConsumed = true; /* Set this flag to false within case block of any following message, that doesnt want pMsgBuf to be freed. */
uint32_t *pMsgBuf = pMsg->bodyptr;
tpSirSmeScanReq pScanReq;
pe_debug("LIM Received SME Message %s(%d) Global LimSmeState:%s(%d) Global LimMlmState: %s(%d)",
lim_msg_str(pMsg->type), pMsg->type,
lim_sme_state_str(pMac->lim.gLimSmeState), pMac->lim.gLimSmeState,
lim_mlm_state_str(pMac->lim.gLimMlmState), pMac->lim.gLimMlmState);
pScanReq = (tpSirSmeScanReq) pMsgBuf;
/* If no insert NOA required then execute the code below */
switch (pMsg->type) {
case eWNI_SME_SYS_READY_IND:
bufConsumed = __lim_process_sme_sys_ready_ind(pMac, pMsgBuf);
break;
case eWNI_SME_START_BSS_REQ:
bufConsumed = __lim_process_sme_start_bss_req(pMac, pMsg);
break;
case eWNI_SME_SCAN_REQ:
__lim_process_sme_scan_req(pMac, pMsgBuf);
break;
case eWNI_SME_REMAIN_ON_CHANNEL_REQ:
bufConsumed = lim_process_remain_on_chnl_req(pMac, pMsgBuf);
break;
case eWNI_SME_UPDATE_NOA:
__lim_process_sme_no_a_update(pMac, pMsgBuf);
break;
case eWNI_SME_CLEAR_DFS_CHANNEL_LIST:
__lim_process_clear_dfs_channel_list(pMac, pMsg);
break;
case eWNI_SME_JOIN_REQ:
__lim_process_sme_join_req(pMac, pMsgBuf);
break;
case eWNI_SME_REASSOC_REQ:
__lim_process_sme_reassoc_req(pMac, pMsgBuf);
break;
case eWNI_SME_DISASSOC_REQ:
__lim_process_sme_disassoc_req(pMac, pMsgBuf);
break;
case eWNI_SME_DISASSOC_CNF:
case eWNI_SME_DEAUTH_CNF:
__lim_process_sme_disassoc_cnf(pMac, pMsgBuf);
break;
case eWNI_SME_DEAUTH_REQ:
__lim_process_sme_deauth_req(pMac, pMsgBuf);
break;
case eWNI_SME_SEND_DISASSOC_FRAME:
__lim_process_send_disassoc_frame(pMac, pMsgBuf);
break;
case eWNI_SME_SETCONTEXT_REQ:
__lim_process_sme_set_context_req(pMac, pMsgBuf);
break;
case eWNI_SME_STOP_BSS_REQ:
bufConsumed = __lim_process_sme_stop_bss_req(pMac, pMsg);
break;
case eWNI_SME_ASSOC_CNF:
__lim_process_sme_assoc_cnf_new(pMac, pMsg->type, pMsgBuf);
break;
case eWNI_SME_ADDTS_REQ:
__lim_process_sme_addts_req(pMac, pMsgBuf);
break;
case eWNI_SME_DELTS_REQ:
__lim_process_sme_delts_req(pMac, pMsgBuf);
break;
case SIR_LIM_ADDTS_RSP_TIMEOUT:
lim_process_sme_addts_rsp_timeout(pMac, pMsg->bodyval);
break;
case eWNI_SME_GET_STATISTICS_REQ:
__lim_process_sme_get_statistics_request(pMac, pMsgBuf);
/* HAL consumes pMsgBuf. It will be freed there. Set bufConsumed to false. */
bufConsumed = false;
break;
#ifdef FEATURE_WLAN_ESE
case eWNI_SME_GET_TSM_STATS_REQ:
__lim_process_sme_get_tsm_stats_request(pMac, pMsgBuf);
bufConsumed = false;
break;
#endif /* FEATURE_WLAN_ESE */
case eWNI_SME_GET_ASSOC_STAS_REQ:
lim_process_sme_get_assoc_sta_info(pMac, pMsgBuf);
break;
case eWNI_SME_TKIP_CNTR_MEAS_REQ:
lim_process_tkip_counter_measures(pMac, pMsgBuf);
break;
case eWNI_SME_SESSION_UPDATE_PARAM:
__lim_process_sme_session_update(pMac, pMsgBuf);
break;
case eWNI_SME_ROAM_SCAN_OFFLOAD_REQ:
__lim_process_roam_scan_offload_req(pMac, pMsgBuf);
bufConsumed = false;
break;
case eWNI_SME_UPDATE_APWPSIE_REQ:
__lim_process_sme_update_apwpsi_es(pMac, pMsgBuf);
break;
case eWNI_SME_GET_WPSPBC_SESSION_REQ:
lim_process_sme_get_wpspbc_sessions(pMac, pMsgBuf);
break;
case eWNI_SME_SET_APWPARSNIEs_REQ:
__lim_process_sme_set_wparsni_es(pMac, pMsgBuf);
break;
case eWNI_SME_CHNG_MCC_BEACON_INTERVAL:
/* Update the beaconInterval */
__lim_process_sme_change_bi(pMac, pMsgBuf);
break;
#ifdef QCA_HT_2040_COEX
case eWNI_SME_SET_HT_2040_MODE:
__lim_process_sme_set_ht2040_mode(pMac, pMsgBuf);
break;
#endif
case eWNI_SME_NEIGHBOR_REPORT_REQ_IND:
case eWNI_SME_BEACON_REPORT_RESP_XMIT_IND:
__lim_process_report_message(pMac, pMsg);
break;
case eWNI_SME_FT_PRE_AUTH_REQ:
bufConsumed = (bool) lim_process_ft_pre_auth_req(pMac, pMsg);
break;
case eWNI_SME_FT_UPDATE_KEY:
lim_process_ft_update_key(pMac, pMsgBuf);
break;
case eWNI_SME_FT_AGGR_QOS_REQ:
lim_process_ft_aggr_qos_req(pMac, pMsgBuf);
break;
case eWNI_SME_REGISTER_MGMT_FRAME_REQ:
__lim_process_sme_register_mgmt_frame_req(pMac, pMsgBuf);
break;
#ifdef FEATURE_WLAN_TDLS
case eWNI_SME_TDLS_SEND_MGMT_REQ:
lim_process_sme_tdls_mgmt_send_req(pMac, pMsgBuf);
break;
case eWNI_SME_TDLS_ADD_STA_REQ:
lim_process_sme_tdls_add_sta_req(pMac, pMsgBuf);
break;
case eWNI_SME_TDLS_DEL_STA_REQ:
lim_process_sme_tdls_del_sta_req(pMac, pMsgBuf);
break;
case eWNI_SME_TDLS_LINK_ESTABLISH_REQ:
lim_process_sme_tdls_link_establish_req(pMac, pMsgBuf);
break;
#endif
case eWNI_SME_RESET_AP_CAPS_CHANGED:
__lim_process_sme_reset_ap_caps_change(pMac, pMsgBuf);
break;
case eWNI_SME_CHANNEL_CHANGE_REQ:
lim_process_sme_channel_change_request(pMac, pMsgBuf);
break;
case eWNI_SME_START_BEACON_REQ:
lim_process_sme_start_beacon_req(pMac, pMsgBuf);
break;
case eWNI_SME_DFS_BEACON_CHAN_SW_IE_REQ:
lim_process_sme_dfs_csa_ie_request(pMac, pMsgBuf);
break;
case eWNI_SME_UPDATE_ADDITIONAL_IES:
lim_process_update_add_ies(pMac, pMsgBuf);
break;
case eWNI_SME_MODIFY_ADDITIONAL_IES:
lim_process_modify_add_ies(pMac, pMsgBuf);
break;
case eWNI_SME_SET_HW_MODE_REQ:
lim_process_set_hw_mode(pMac, pMsgBuf);
break;
case eWNI_SME_NSS_UPDATE_REQ:
lim_process_nss_update_request(pMac, pMsgBuf);
break;
case eWNI_SME_SET_DUAL_MAC_CFG_REQ:
lim_process_set_dual_mac_cfg_req(pMac, pMsgBuf);
break;
case eWNI_SME_SET_IE_REQ:
lim_process_set_ie_req(pMac, pMsgBuf);
break;
case eWNI_SME_REGISTER_MGMT_FRAME_CB:
lim_register_mgmt_frame_ind_cb(pMac, pMsgBuf);
break;
case eWNI_SME_EXT_CHANGE_CHANNEL:
lim_process_ext_change_channel(pMac, pMsgBuf);
break;
case eWNI_SME_SET_ANTENNA_MODE_REQ:
lim_process_set_antenna_mode_req(pMac, pMsgBuf);
break;
case eWNI_SME_PDEV_SET_HT_VHT_IE:
lim_process_set_pdev_IEs(pMac, pMsgBuf);
break;
case eWNI_SME_SET_VDEV_IES_PER_BAND:
lim_process_set_vdev_ies_per_band(pMac, pMsgBuf);
break;
case eWNI_SME_ROAM_INVOKE:
lim_process_roam_invoke(pMac, pMsgBuf);
bufConsumed = false;
break;
case eWNI_SME_NDP_END_REQ:
case eWNI_SME_NDP_INITIATOR_REQ:
case eWNI_SME_NDP_RESPONDER_REQ:
lim_handle_ndp_request_message(pMac, pMsg);
break;
case eWNI_SME_REGISTER_P2P_ACK_CB:
lim_register_p2p_ack_ind_cb(pMac, pMsgBuf);
break;
case eWNI_SME_UPDATE_ACCESS_POLICY_VENDOR_IE:
lim_process_sme_update_access_policy_vendor_ie(pMac, pMsgBuf);
break;
case eWNI_SME_UPDATE_CONFIG:
lim_process_sme_update_config(pMac,
(struct update_config *)pMsgBuf);
break;
default:
qdf_mem_free((void *)pMsg->bodyptr);
pMsg->bodyptr = NULL;
break;
} /* switch (msgType) */
return bufConsumed;
} /*** end lim_process_sme_req_messages() ***/
/**
* lim_process_sme_start_beacon_req()
*
***FUNCTION:
* This function is called by limProcessMessageQueue(). This
* function processes SME request messages from HDD or upper layer
* application.
*
***LOGIC:
*
***ASSUMPTIONS:
*
***NOTE:
*
* @param pMac Pointer to Global MAC structure
* @param msgType Indicates the SME message type
* @param *pMsgBuf A pointer to the SME message buffer
* @return Boolean - true - if pMsgBuf is consumed and can be freed.
* false - if pMsgBuf is not to be freed.
*/
static void lim_process_sme_start_beacon_req(tpAniSirGlobal pMac, uint32_t *pMsg)
{
tpSirStartBeaconIndication pBeaconStartInd;
tpPESession psessionEntry;
uint8_t sessionId; /* PE sessionID */
if (pMsg == NULL) {
pe_err("Buffer is Pointing to NULL");
return;
}
pBeaconStartInd = (tpSirStartBeaconIndication) pMsg;
psessionEntry = pe_find_session_by_bssid(pMac,
pBeaconStartInd->bssid,
&sessionId);
if (psessionEntry == NULL) {
lim_print_mac_addr(pMac, pBeaconStartInd->bssid, LOGE);
pe_err("Session does not exist for given bssId");
return;
}
if (pBeaconStartInd->beaconStartStatus == true) {
/*
* Currently this Indication comes from SAP
* to start Beacon Tx on a DFS channel
* since beaconing has to be done on DFS
* channel only after CAC WAIT is completed.
* On a DFS Channel LIM does not start beacon
* Tx right after the WMA_ADD_BSS_RSP.
*/
lim_apply_configuration(pMac, psessionEntry);
QDF_TRACE(QDF_MODULE_ID_PE, QDF_TRACE_LEVEL_DEBUG,
FL("Start Beacon with ssid %s Ch %d"),
psessionEntry->ssId.ssId,
psessionEntry->currentOperChannel);
lim_send_beacon_ind(pMac, psessionEntry);
} else {
pe_err("Invalid Beacon Start Indication");
return;
}
}
/**
* lim_process_sme_channel_change_request() - process sme ch change req
*
* @mac_ctx: Pointer to Global MAC structure
* @msg_buf: pointer to the SME message buffer
*
* This function is called to process SME_CHANNEL_CHANGE_REQ message
*
* Return: None
*/
static void lim_process_sme_channel_change_request(tpAniSirGlobal mac_ctx,
uint32_t *msg_buf)
{
tpSirChanChangeRequest ch_change_req;
tpPESession session_entry;
uint8_t session_id; /* PE session_id */
int8_t max_tx_pwr;
uint32_t val = 0;
if (msg_buf == NULL) {
pe_err("msg_buf is NULL");
return;
}
ch_change_req = (tpSirChanChangeRequest)msg_buf;
max_tx_pwr = cfg_get_regulatory_max_transmit_power(mac_ctx,
ch_change_req->targetChannel);
if ((ch_change_req->messageType != eWNI_SME_CHANNEL_CHANGE_REQ) ||
(max_tx_pwr == WMA_MAX_TXPOWER_INVALID)) {
pe_err("Invalid Request/max_tx_pwr");
return;
}
session_entry = pe_find_session_by_bssid(mac_ctx,
ch_change_req->bssid, &session_id);
if (session_entry == NULL) {
lim_print_mac_addr(mac_ctx, ch_change_req->bssid, LOGE);
pe_err("Session does not exist for given bssId");
return;
}
if (session_entry->currentOperChannel ==
ch_change_req->targetChannel) {
pe_err("target CH is same as current CH");
return;
}
if (LIM_IS_AP_ROLE(session_entry))
session_entry->channelChangeReasonCode =
LIM_SWITCH_CHANNEL_SAP_DFS;
else
session_entry->channelChangeReasonCode =
LIM_SWITCH_CHANNEL_OPERATION;
pe_debug("switch old chnl %d to new chnl %d, ch_bw %d, nw_type %d, dot11mode %d",
session_entry->currentOperChannel,
ch_change_req->targetChannel,
ch_change_req->ch_width,
ch_change_req->nw_type,
ch_change_req->dot11mode
);
/* Store the New Channel Params in session_entry */
session_entry->ch_width = ch_change_req->ch_width;
session_entry->ch_center_freq_seg0 =
ch_change_req->center_freq_seg_0;
session_entry->ch_center_freq_seg1 =
ch_change_req->center_freq_seg_1;
session_entry->htSecondaryChannelOffset = ch_change_req->sec_ch_offset;
session_entry->htSupportedChannelWidthSet =
(ch_change_req->ch_width ? 1 : 0);
session_entry->htRecommendedTxWidthSet =
session_entry->htSupportedChannelWidthSet;
session_entry->currentOperChannel =
ch_change_req->targetChannel;
session_entry->limRFBand =
lim_get_rf_band(session_entry->currentOperChannel);
/* Initialize 11h Enable Flag */
if (CHAN_HOP_ALL_BANDS_ENABLE ||
SIR_BAND_5_GHZ == session_entry->limRFBand) {
if (wlan_cfg_get_int(mac_ctx, WNI_CFG_11H_ENABLED, &val) !=
eSIR_SUCCESS)
pe_err("Fail to get WNI_CFG_11H_ENABLED");
}
session_entry->lim11hEnable = val;
session_entry->dot11mode = ch_change_req->dot11mode;
session_entry->nwType = ch_change_req->nw_type;
qdf_mem_copy(&session_entry->rateSet,
&ch_change_req->operational_rateset,
sizeof(session_entry->rateSet));
qdf_mem_copy(&session_entry->extRateSet,
&ch_change_req->extended_rateset,
sizeof(session_entry->extRateSet));
lim_set_channel(mac_ctx, ch_change_req->targetChannel,
session_entry->ch_center_freq_seg0,
session_entry->ch_center_freq_seg1,
session_entry->ch_width,
max_tx_pwr, session_entry->peSessionId);
}
/******************************************************************************
* lim_start_bss_update_add_ie_buffer()
*
***FUNCTION:
* This function checks the src buffer and its length and then malloc for
* dst buffer update the same
*
***LOGIC:
*
***ASSUMPTIONS:
*
***NOTE:
*
* @param pMac Pointer to Global MAC structure
* @param **pDstData_buff A pointer to pointer of uint8_t dst buffer
* @param *pDstDataLen A pointer to pointer of uint16_t dst buffer length
* @param *pSrcData_buff A pointer of uint8_t src buffer
* @param srcDataLen src buffer length
******************************************************************************/
static void
lim_start_bss_update_add_ie_buffer(tpAniSirGlobal pMac,
uint8_t **pDstData_buff,
uint16_t *pDstDataLen,
uint8_t *pSrcData_buff, uint16_t srcDataLen)
{
if (srcDataLen > 0 && pSrcData_buff != NULL) {
*pDstDataLen = srcDataLen;
*pDstData_buff = qdf_mem_malloc(*pDstDataLen);
if (NULL == *pDstData_buff) {
pe_err("AllocateMemory failed for pDstData_buff");
return;
}
qdf_mem_copy(*pDstData_buff, pSrcData_buff, *pDstDataLen);
} else {
*pDstData_buff = NULL;
*pDstDataLen = 0;
}
}
/******************************************************************************
* lim_update_add_ie_buffer()
*
***FUNCTION:
* This function checks the src buffer and length if src buffer length more
* than dst buffer length then free the dst buffer and malloc for the new src
* length, and update the dst buffer and length. But if dst buffer is bigger
* than src buffer length then it just update the dst buffer and length
*
***LOGIC:
*
***ASSUMPTIONS:
*
***NOTE:
*
* @param pMac Pointer to Global MAC structure
* @param **pDstData_buff A pointer to pointer of uint8_t dst buffer
* @param *pDstDataLen A pointer to pointer of uint16_t dst buffer length
* @param *pSrcData_buff A pointer of uint8_t src buffer
* @param srcDataLen src buffer length
******************************************************************************/
static void
lim_update_add_ie_buffer(tpAniSirGlobal pMac,
uint8_t **pDstData_buff,
uint16_t *pDstDataLen,
uint8_t *pSrcData_buff, uint16_t srcDataLen)
{
if (NULL == pSrcData_buff) {
pe_err("src buffer is null");
return;
}
if (srcDataLen > *pDstDataLen) {
*pDstDataLen = srcDataLen;
/* free old buffer */
qdf_mem_free(*pDstData_buff);
/* allocate a new */
*pDstData_buff = qdf_mem_malloc(*pDstDataLen);
if (NULL == *pDstData_buff) {
pe_err("Memory allocation failed");
*pDstDataLen = 0;
return;
}
}
/* copy the content of buffer into dst buffer
*/
*pDstDataLen = srcDataLen;
qdf_mem_copy(*pDstData_buff, pSrcData_buff, *pDstDataLen);
}
/**
* lim_update_ibss_prop_add_ies() - update IBSS prop IE
* @pMac : Pointer to Global MAC structure
* @pDstData_buff : A pointer to pointer of dst buffer
* @pDstDataLen : A pointer to pointer of dst buffer length
* @pModifyIE : A pointer to tSirModifyIE
*
* This function replaces previous ibss prop_ie with new ibss prop_ie.
*
* Return:
* True or false depending upon whether IE is updated or not
*/
static bool
lim_update_ibss_prop_add_ies(tpAniSirGlobal pMac, uint8_t **pDstData_buff,
uint16_t *pDstDataLen, tSirModifyIE *pModifyIE)
{
int32_t oui_length;
uint8_t *ibss_ie = NULL;
uint8_t *vendor_ie;
#define MAC_VENDOR_OUI "\x00\x16\x32"
#define MAC_VENDOR_SIZE 3
ibss_ie = pModifyIE->pIEBuffer;
oui_length = pModifyIE->oui_length;
if ((0 == oui_length) || (NULL == ibss_ie)) {
pe_err("Invalid set IBSS vendor IE command length %d",
oui_length);
return false;
}
/*
* Why replace only beacon OUI data here:
* 1. other ie (such as wpa) shall not be overwritten here.
* 2. per spec, beacon oui ie might be set twice and original one
* shall be updated.
*/
vendor_ie = cfg_get_vendor_ie_ptr_from_oui(pMac, MAC_VENDOR_OUI,
MAC_VENDOR_SIZE, *pDstData_buff, *pDstDataLen);
if (vendor_ie) {
QDF_ASSERT((vendor_ie[1] + 2) == pModifyIE->ieBufferlength);
qdf_mem_copy(vendor_ie, pModifyIE->pIEBuffer,
pModifyIE->ieBufferlength);
} else {
uint16_t new_length;
uint8_t *new_ptr;
/*
* check for uint16 overflow before using sum of two numbers as
* length of size to malloc
*/
if (USHRT_MAX - pModifyIE->ieBufferlength < *pDstDataLen) {
pe_err("U16 overflow due to %d + %d",
pModifyIE->ieBufferlength, *pDstDataLen);
return false;
}
new_length = pModifyIE->ieBufferlength + *pDstDataLen;
new_ptr = qdf_mem_malloc(new_length);
if (NULL == new_ptr) {
pe_err("Memory allocation failed");
return false;
}
qdf_mem_copy(new_ptr, *pDstData_buff, *pDstDataLen);
qdf_mem_copy(&new_ptr[*pDstDataLen], pModifyIE->pIEBuffer,
pModifyIE->ieBufferlength);
qdf_mem_free(*pDstData_buff);
*pDstDataLen = new_length;
*pDstData_buff = new_ptr;
}
return true;
}
/*
* lim_process_modify_add_ies() - process modify additional IE req.
*
* @mac_ctx: Pointer to Global MAC structure
* @msg_buf: pointer to the SME message buffer
*
* This function update the PE buffers for additional IEs.
*
* Return: None
*/
static void lim_process_modify_add_ies(tpAniSirGlobal mac_ctx,
uint32_t *msg_buf)
{
tpSirModifyIEsInd modify_add_ies;
tpPESession session_entry;
uint8_t session_id;
bool ret = false;
tSirAddIeParams *add_ie_params;
if (msg_buf == NULL) {
pe_err("msg_buf is NULL");
return;
}
modify_add_ies = (tpSirModifyIEsInd)msg_buf;
/* Incoming message has smeSession, use BSSID to find PE session */
session_entry = pe_find_session_by_bssid(mac_ctx,
modify_add_ies->modifyIE.bssid.bytes, &session_id);
if (NULL == session_entry) {
pe_err("Session not found for given bssid"
MAC_ADDRESS_STR,
MAC_ADDR_ARRAY(modify_add_ies->modifyIE.bssid.bytes));
goto end;
}
if ((0 == modify_add_ies->modifyIE.ieBufferlength) ||
(0 == modify_add_ies->modifyIE.ieIDLen) ||
(NULL == modify_add_ies->modifyIE.pIEBuffer)) {
pe_err("Invalid request pIEBuffer %pK ieBufferlength %d ieIDLen %d ieID %d. update Type %d",
modify_add_ies->modifyIE.pIEBuffer,
modify_add_ies->modifyIE.ieBufferlength,
modify_add_ies->modifyIE.ieID,
modify_add_ies->modifyIE.ieIDLen,
modify_add_ies->updateType);
goto end;
}
add_ie_params = &session_entry->addIeParams;
switch (modify_add_ies->updateType) {
case eUPDATE_IE_PROBE_RESP:
/* Probe resp */
if (LIM_IS_IBSS_ROLE(session_entry)) {
lim_update_ibss_prop_add_ies(mac_ctx,
&add_ie_params->probeRespData_buff,
&add_ie_params->probeRespDataLen,
&modify_add_ies->modifyIE);
}
break;
case eUPDATE_IE_ASSOC_RESP:
/* assoc resp IE */
if (add_ie_params->assocRespDataLen == 0) {
QDF_TRACE(QDF_MODULE_ID_PE,
QDF_TRACE_LEVEL_ERROR, FL(
"assoc resp add ie not present %d"),
add_ie_params->assocRespDataLen);
}
/* search through the buffer and modify the IE */
break;
case eUPDATE_IE_PROBE_BCN:
/*probe beacon IE */
if (LIM_IS_IBSS_ROLE(session_entry)) {
ret = lim_update_ibss_prop_add_ies(mac_ctx,
&add_ie_params->probeRespBCNData_buff,
&add_ie_params->probeRespBCNDataLen,
&modify_add_ies->modifyIE);
}
if (ret == true && modify_add_ies->modifyIE.notify) {
lim_handle_param_update(mac_ctx,
modify_add_ies->updateType);
}
break;
default:
pe_err("unhandled buffer type %d",
modify_add_ies->updateType);
break;
}
end:
qdf_mem_free(modify_add_ies->modifyIE.pIEBuffer);
modify_add_ies->modifyIE.pIEBuffer = NULL;
}
/*
* lim_process_update_add_ies() - process additional IE update req
*
* @mac_ctx: Pointer to Global MAC structure
* @msg_buf: pointer to the SME message buffer
*
* This function update the PE buffers for additional IEs.
*
* Return: None
*/
static void lim_process_update_add_ies(tpAniSirGlobal mac_ctx,
uint32_t *msg_buf)
{
tpSirUpdateIEsInd update_add_ies = (tpSirUpdateIEsInd)msg_buf;
uint8_t session_id;
tpPESession session_entry;
tSirAddIeParams *addn_ie;
uint16_t new_length = 0;
uint8_t *new_ptr = NULL;
tSirUpdateIE *update_ie;
if (msg_buf == NULL) {
pe_err("msg_buf is NULL");
return;
}
update_ie = &update_add_ies->updateIE;
/* incoming message has smeSession, use BSSID to find PE session */
session_entry = pe_find_session_by_bssid(mac_ctx,
update_ie->bssid.bytes, &session_id);
if (NULL == session_entry) {
pe_err("Session not found for given bssid"
MAC_ADDRESS_STR,
MAC_ADDR_ARRAY(update_ie->bssid.bytes));
goto end;
}
addn_ie = &session_entry->addIeParams;
/* if len is 0, upper layer requested freeing of buffer */
if (0 == update_ie->ieBufferlength) {
switch (update_add_ies->updateType) {
case eUPDATE_IE_PROBE_RESP:
qdf_mem_free(addn_ie->probeRespData_buff);
addn_ie->probeRespData_buff = NULL;
addn_ie->probeRespDataLen = 0;
break;
case eUPDATE_IE_ASSOC_RESP:
qdf_mem_free(addn_ie->assocRespData_buff);
addn_ie->assocRespData_buff = NULL;
addn_ie->assocRespDataLen = 0;
break;
case eUPDATE_IE_PROBE_BCN:
qdf_mem_free(addn_ie->probeRespBCNData_buff);
addn_ie->probeRespBCNData_buff = NULL;
addn_ie->probeRespBCNDataLen = 0;
if (update_ie->notify)
lim_handle_param_update(mac_ctx,
update_add_ies->updateType);
break;
default:
break;
}
return;
}
switch (update_add_ies->updateType) {
case eUPDATE_IE_PROBE_RESP:
if (update_ie->append) {
/*
* In case of append, allocate new memory
* with combined length
*/
new_length = update_ie->ieBufferlength +
addn_ie->probeRespDataLen;
new_ptr = qdf_mem_malloc(new_length);
if (NULL == new_ptr) {
pe_err("Memory allocation failed");
goto end;
}
/* append buffer to end of local buffers */
qdf_mem_copy(new_ptr, addn_ie->probeRespData_buff,
addn_ie->probeRespDataLen);
qdf_mem_copy(&new_ptr[addn_ie->probeRespDataLen],
update_ie->pAdditionIEBuffer,
update_ie->ieBufferlength);
/* free old memory */
qdf_mem_free(addn_ie->probeRespData_buff);
/* adjust length accordingly */
addn_ie->probeRespDataLen = new_length;
/* save refernece of local buffer in PE session */
addn_ie->probeRespData_buff = new_ptr;
goto end;
}
lim_update_add_ie_buffer(mac_ctx, &addn_ie->probeRespData_buff,
&addn_ie->probeRespDataLen,
update_ie->pAdditionIEBuffer,
update_ie->ieBufferlength);
break;
case eUPDATE_IE_ASSOC_RESP:
/* assoc resp IE */
lim_update_add_ie_buffer(mac_ctx, &addn_ie->assocRespData_buff,
&addn_ie->assocRespDataLen,
update_ie->pAdditionIEBuffer,
update_ie->ieBufferlength);
break;
case eUPDATE_IE_PROBE_BCN:
/* probe resp Bcn IE */
lim_update_add_ie_buffer(mac_ctx,
&addn_ie->probeRespBCNData_buff,
&addn_ie->probeRespBCNDataLen,
update_ie->pAdditionIEBuffer,
update_ie->ieBufferlength);
if (update_ie->notify)
lim_handle_param_update(mac_ctx,
update_add_ies->updateType);
break;
default:
pe_err("unhandled buffer type %d", update_add_ies->updateType);
break;
}
end:
qdf_mem_free(update_ie->pAdditionIEBuffer);
update_ie->pAdditionIEBuffer = NULL;
}
void lim_send_chan_switch_action_frame(tpAniSirGlobal mac_ctx,
uint16_t new_channel, uint8_t ch_bandwidth,
tpPESession session_entry)
{
uint16_t op_class;
uint8_t switch_mode = 0, i;
tpDphHashNode psta;
uint8_t switch_count;
tpDphHashNode dph_node_array_ptr;
op_class = cds_reg_dmn_get_opclass_from_channel(
mac_ctx->scan.countryCodeCurrent,
new_channel,
ch_bandwidth);
if (LIM_IS_AP_ROLE(session_entry) &&
(mac_ctx->sap.SapDfsInfo.disable_dfs_ch_switch == false))
switch_mode = session_entry->gLimChannelSwitch.switchMode;
switch_count = session_entry->gLimChannelSwitch.switchCount;
dph_node_array_ptr = session_entry->dph.dphHashTable.pDphNodeArray;
switch_count = session_entry->gLimChannelSwitch.switchCount;
if (LIM_IS_AP_ROLE(session_entry)) {
for (i = 0; i < (mac_ctx->lim.maxStation + 1); i++) {
psta = dph_node_array_ptr + i;
if (!(psta && psta->added))
continue;
if (!CHAN_HOP_ALL_BANDS_ENABLE ||
session_entry->lim_non_ecsa_cap_num == 0)
lim_send_extended_chan_switch_action_frame(
mac_ctx,
psta->staAddr,
switch_mode, op_class, new_channel,
switch_count, session_entry);
else
lim_send_channel_switch_mgmt_frame(
mac_ctx,
psta->staAddr,
switch_mode, new_channel,
switch_count, session_entry);
}
} else if (LIM_IS_STA_ROLE(session_entry)) {
lim_send_extended_chan_switch_action_frame(mac_ctx,
session_entry->bssId,
switch_mode, op_class, new_channel,
switch_count, session_entry);
}
}
/**
* lim_process_sme_dfs_csa_ie_request() - process sme dfs csa ie req
*
* @mac_ctx: Pointer to Global MAC structure
* @msg_buf: pointer to the SME message buffer
*
* This function processes SME request messages from HDD or upper layer
* application.
*
* Return: None
*/
static void lim_process_sme_dfs_csa_ie_request(tpAniSirGlobal mac_ctx,
uint32_t *msg_buf)
{
tpSirDfsCsaIeRequest dfs_csa_ie_req;
tpPESession session_entry = NULL;
uint8_t session_id;
tLimWiderBWChannelSwitchInfo *wider_bw_ch_switch;
enum offset_t ch_offset;
if (msg_buf == NULL) {
pe_err("Buffer is Pointing to NULL");
return;
}
dfs_csa_ie_req = (tSirDfsCsaIeRequest *)msg_buf;
session_entry = pe_find_session_by_bssid(mac_ctx,
dfs_csa_ie_req->bssid, &session_id);
if (session_entry == NULL) {
pe_err("Session not found for given BSSID" MAC_ADDRESS_STR,
MAC_ADDR_ARRAY(dfs_csa_ie_req->bssid));
return;
}
if (session_entry->valid && !LIM_IS_AP_ROLE(session_entry)) {
pe_err("Invalid SystemRole %d",
GET_LIM_SYSTEM_ROLE(session_entry));
return;
}
/* target channel */
session_entry->gLimChannelSwitch.primaryChannel =
dfs_csa_ie_req->targetChannel;
/* Channel switch announcement needs to be included in beacon */
session_entry->dfsIncludeChanSwIe = true;
session_entry->gLimChannelSwitch.switchCount =
dfs_csa_ie_req->ch_switch_beacon_cnt;
session_entry->gLimChannelSwitch.ch_width =
dfs_csa_ie_req->ch_params.ch_width;
session_entry->gLimChannelSwitch.sec_ch_offset =
dfs_csa_ie_req->ch_params.sec_ch_offset;
if (mac_ctx->sap.SapDfsInfo.disable_dfs_ch_switch == false)
session_entry->gLimChannelSwitch.switchMode =
dfs_csa_ie_req->ch_switch_mode;
/*
* Validate if SAP is operating HT or VHT mode and set the Channel
* Switch Wrapper element with the Wide Band Switch subelement.
*/
if (true != session_entry->vhtCapability)
goto skip_vht;
/* Now encode the Wider Ch BW element depending on the ch width */
wider_bw_ch_switch = &session_entry->gLimWiderBWChannelSwitch;
switch (dfs_csa_ie_req->ch_params.ch_width) {
case CH_WIDTH_20MHZ:
/*
* Wide channel BW sublement in channel wrapper element is not
* required in case of 20 Mhz operation. Currently It is set
* only set in case of 40/80 Mhz Operation.
*/
session_entry->dfsIncludeChanWrapperIe = false;
wider_bw_ch_switch->newChanWidth =
WNI_CFG_VHT_CHANNEL_WIDTH_20_40MHZ;
break;
case CH_WIDTH_40MHZ:
session_entry->dfsIncludeChanWrapperIe = false;
wider_bw_ch_switch->newChanWidth =
WNI_CFG_VHT_CHANNEL_WIDTH_20_40MHZ;
break;
case CH_WIDTH_80MHZ:
session_entry->dfsIncludeChanWrapperIe = true;
wider_bw_ch_switch->newChanWidth =
WNI_CFG_VHT_CHANNEL_WIDTH_80MHZ;
break;
case CH_WIDTH_160MHZ:
session_entry->dfsIncludeChanWrapperIe = true;
wider_bw_ch_switch->newChanWidth =
WNI_CFG_VHT_CHANNEL_WIDTH_160MHZ;
break;
case CH_WIDTH_80P80MHZ:
session_entry->dfsIncludeChanWrapperIe = true;
wider_bw_ch_switch->newChanWidth =
WNI_CFG_VHT_CHANNEL_WIDTH_80_PLUS_80MHZ;
/*
* This is not applicable for 20/40/80 Mhz.
* Only used when we support 80+80 Mhz operation.
* In case of 80+80 Mhz, this parameter indicates
* center channel frequency index of 80 Mhz channel of
* frequency segment 1.
*/
wider_bw_ch_switch->newCenterChanFreq1 =
dfs_csa_ie_req->ch_params.center_freq_seg1;
break;
default:
session_entry->dfsIncludeChanWrapperIe = false;
/*
* Need to handle 80+80 Mhz Scenario. When 80+80 is supported
* set the gLimWiderBWChannelSwitch.newChanWidth to 3
*/
pe_err("Invalid Channel Width");
break;
}
/* Fetch the center channel based on the channel width */
wider_bw_ch_switch->newCenterChanFreq0 =
dfs_csa_ie_req->ch_params.center_freq_seg0;
skip_vht:
/* Send CSA IE request from here */
if (sch_set_fixed_beacon_fields(mac_ctx, session_entry) !=
eSIR_SUCCESS) {
pe_err("Unable to set CSA IE in beacon");
return;
}
/*
* First beacon update request is sent here, the remaining updates are
* done when the FW responds back after sending the first beacon after
* the template update
*/
lim_send_beacon_ind(mac_ctx, session_entry);
if (dfs_csa_ie_req->ch_params.ch_width == CH_WIDTH_80MHZ)
ch_offset = BW80;
else
ch_offset = dfs_csa_ie_req->ch_params.sec_ch_offset;
pe_debug("IE count:%d chan:%d width:%d wrapper:%d ch_offset:%d",
session_entry->gLimChannelSwitch.switchCount,
session_entry->gLimChannelSwitch.primaryChannel,
session_entry->gLimChannelSwitch.ch_width,
session_entry->dfsIncludeChanWrapperIe,
ch_offset);
/* Send ECSA/CSA Action frame after updating the beacon */
lim_send_chan_switch_action_frame(mac_ctx,
session_entry->gLimChannelSwitch.primaryChannel,
ch_offset, session_entry);
}
/**
* lim_process_ext_change_channel()- function to send ECSA
* action frame for STA/CLI .
* @mac_ctx: pointer to global mac structure
* @msg: params from sme for new channel.
*
* This function is called to send ECSA frame for STA/CLI.
*
* Return: void
*/
static void lim_process_ext_change_channel(tpAniSirGlobal mac_ctx,
uint32_t *msg)
{
struct sir_sme_ext_cng_chan_req *ext_chng_channel =
(struct sir_sme_ext_cng_chan_req *) msg;
tpPESession session_entry = NULL;
if (NULL == msg) {
pe_err("Buffer is Pointing to NULL");
return;
}
session_entry =
pe_find_session_by_sme_session_id(mac_ctx,
ext_chng_channel->session_id);
if (NULL == session_entry) {
pe_err("Session not found for given session %d",
ext_chng_channel->session_id);
return;
}
if (LIM_IS_AP_ROLE(session_entry)) {
pe_err("not an STA/CLI session");
return;
}
lim_send_chan_switch_action_frame(mac_ctx,
ext_chng_channel->new_channel,
0, session_entry);
}
/**
* lim_process_nss_update_request() - process sme nss update req
*
* @mac_ctx: Pointer to Global MAC structure
* @msg_buf: pointer to the SME message buffer
*
* This function processes SME request messages from HDD or upper layer
* application.
*
* Return: None
*/
static void lim_process_nss_update_request(tpAniSirGlobal mac_ctx,
uint32_t *msg_buf)
{
struct sir_nss_update_request *nss_update_req_ptr;
tpPESession session_entry = NULL;
if (msg_buf == NULL) {
pe_err("Buffer is Pointing to NULL");
return;
}
nss_update_req_ptr = (struct sir_nss_update_request *)msg_buf;
session_entry = pe_find_session_by_sme_session_id(mac_ctx,
nss_update_req_ptr->vdev_id);
if (session_entry == NULL) {
pe_err("Session not found for given session_id %d",
nss_update_req_ptr->vdev_id);
return;
}
if (session_entry->valid && !LIM_IS_AP_ROLE(session_entry)) {
pe_err("Invalid SystemRole %d",
GET_LIM_SYSTEM_ROLE(session_entry));
return;
}
/* populate nss field in the beacon */
session_entry->gLimOperatingMode.present = 1;
session_entry->gLimOperatingMode.rxNSS = nss_update_req_ptr->new_nss;
session_entry->gLimOperatingMode.chanWidth = session_entry->ch_width;
if ((nss_update_req_ptr->new_nss == NSS_1x1_MODE) &&
(session_entry->ch_width > CH_WIDTH_80MHZ))
session_entry->gLimOperatingMode.chanWidth = CH_WIDTH_80MHZ;
pe_debug("ch width %hu", session_entry->gLimOperatingMode.chanWidth);
/* Send nss update request from here */
if (sch_set_fixed_beacon_fields(mac_ctx, session_entry) !=
eSIR_SUCCESS) {
pe_err("Unable to set op mode IE in beacon");
return;
}
lim_send_beacon_ind(mac_ctx, session_entry);
}
/**
* lim_process_set_ie_req() - process sme set IE request
*
* @mac_ctx: Pointer to Global MAC structure
* @msg_buf: pointer to the SME message buffer
*
* This function processes SME request messages from HDD or upper layer
* application.
*
* Return: None
*/
static void lim_process_set_ie_req(tpAniSirGlobal mac_ctx, uint32_t *msg_buf)
{
struct send_extcap_ie *msg;
QDF_STATUS status;
if (msg_buf == NULL) {
pe_err("Buffer is Pointing to NULL");
return;
}
msg = (struct send_extcap_ie *)msg_buf;
status = lim_send_ext_cap_ie(mac_ctx, msg->session_id, NULL, false);
if (QDF_STATUS_SUCCESS != status)
pe_err("Unable to send ExtCap to FW");
}