mock-ril/src/cpp/responses.cpp - platform/hardware/ril - Git at Google

 /**
  * Copyright (C) 2010 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #include <map>

 #include <v8.h>
 #include "ril.h"

 #include "hardware/ril/mock-ril/src/proto/ril.pb.h"

 #include "logging.h"
 #include "mock_ril.h"
 #include "node_buffer.h"
 #include "node_object_wrap.h"
 #include "protobuf_v8.h"
 #include "status.h"
 #include "util.h"
 #include "worker.h"

 #include "responses.h"

 //#define RESPONSES_DEBUG
 #ifdef  RESPONSES_DEBUG

 #define DBG(...) ALOGD(__VA_ARGS__)

 #else

 #define DBG(...)

 #endif


 /**
  * The Buffer is assumed to be empty so nothing to convert
  * @return STATUS_OK and *data = NULL *datalen = 0;
  */
 RIL_Errno RspWithNoData(
         int cmd, RIL_Token token, RIL_Errno rilErrno, Buffer *buffer) {
     DBG("RspWithNoData E");

     // Complete the request
     s_rilenv->OnRequestComplete(token, rilErrno, NULL, 0);

     DBG("RspWithNoData X");
     return rilErrno;
 }

 /**
  * Handle response for an array of strings
  *
  * If a string value is "*magic-null*" then that value
  * will be returned as null.
  */
 RIL_Errno RspStrings(
         int cmd, RIL_Token token, RIL_Errno rilErrno, Buffer *buffer) {
     DBG("RspStrings E");

     ril_proto::RspStrings *rsp = new ril_proto::RspStrings();
     rsp->ParseFromArray(buffer->data(), buffer->length());
     int result_len = rsp->strings_size() * sizeof(const char *);
     const char **result = (const char **)alloca(result_len);
     for (int i = 0; i < rsp->strings_size();  i++) {
         result[i] = rsp->strings(i).c_str();
         DBG("result[%d]='%s'", i, result[i]);
         if (strcmp("*magic-null*", result[i]) == 0) {
             result[i] = NULL;
         }
     }

     // Complete the request
     s_rilenv->OnRequestComplete(token, rilErrno, result, result_len);

     DBG("RspStrings X rilErrno=%d", rilErrno);
     return rilErrno;
 }

 /**
  * Handle response for a string
  */
 RIL_Errno RspString(
         int cmd, RIL_Token token, RIL_Errno rilErrno, Buffer *buffer) {
     DBG("RspString E");

     ril_proto::RspStrings *rsp = new ril_proto::RspStrings();
     rsp->ParseFromArray(buffer->data(), buffer->length());
     const char *result = rsp->strings(0).c_str();

     // Complete the request
     s_rilenv->OnRequestComplete(token, rilErrno, (void *)result, strlen(result));

     DBG("RspString X rilErrno=%d", rilErrno);
     return rilErrno;
 }

 /**
  * Handle response for an array of integers
  */
 RIL_Errno RspIntegers(
         int cmd, RIL_Token token, RIL_Errno rilErrno, Buffer *buffer) {
     DBG("RspIntegers E");

     ril_proto::RspIntegers *rsp = new ril_proto::RspIntegers();
     rsp->ParseFromArray(buffer->data(), buffer->length());
     int result_len = rsp->integers_size() * sizeof(const int32_t);
     int32_t *result = (int32_t *)alloca(result_len);
     for (int i = 0; i < rsp->integers_size();  i++) {
         result[i] = rsp->integers(i);
         DBG("result[%d]=%d", i, result[i]);
     }

     // Complete the request
     s_rilenv->OnRequestComplete(token, rilErrno, result, result_len);

     DBG("RspIntegers X rilErrno=%d", rilErrno);
     return rilErrno;
 }

 /**
  * Handle RIL_REQUEST_GET_SIM_STATUS response
  */
 RIL_Errno RspGetSimStatus(
         int cmd, RIL_Token token, RIL_Errno rilErrno, Buffer *buffer) { // 1
     DBG("RspGetSimStatus E");

     ril_proto::RspGetSimStatus *rsp = new ril_proto::RspGetSimStatus();
     rsp->ParseFromArray(buffer->data(), buffer->length());
     const ril_proto::RilCardStatus& r = rsp->card_status();
     RIL_CardStatus_v6 cardStatus;
     cardStatus.card_state = RIL_CardState(r.card_state());
     cardStatus.universal_pin_state = RIL_PinState(r.universal_pin_state());
     cardStatus.gsm_umts_subscription_app_index = r.gsm_umts_subscription_app_index();
     cardStatus.ims_subscription_app_index = r.ims_subscription_app_index();
     cardStatus.num_applications = r.num_applications();
     for (int i = 0; i < cardStatus.num_applications; i++) {
        cardStatus.applications[i].app_type = RIL_AppType(r.applications(i).app_type());
        cardStatus.applications[i].app_state = RIL_AppState(r.applications(i).app_state());
        cardStatus.applications[i].perso_substate =
             RIL_PersoSubstate(r.applications(i).perso_substate());
        cardStatus.applications[i].aid_ptr = const_cast<char *>(r.applications(i).aid().c_str());
        cardStatus.applications[i].app_label_ptr =
             const_cast<char *>(r.applications(i).app_label().c_str());
        cardStatus.applications[i].pin1_replaced = r.applications(i).pin1_replaced();
        cardStatus.applications[i].pin1 = RIL_PinState(r.applications(i).pin1());
        cardStatus.applications[i].pin2 = RIL_PinState(r.applications(i).pin2());
     }

     // Complete the request
     s_rilenv->OnRequestComplete(token, rilErrno,
             &cardStatus, sizeof(cardStatus));

     DBG("RspGetSimStatus X rilErrno=%d", rilErrno);
     return rilErrno;
 }

 /**
  * Handle RIL_REQUEST_ENTER_SIM_PIN_DATA response
  */
 RIL_Errno RspEnterSimPinData(
         int cmd, RIL_Token token, RIL_Errno rilErrno, Buffer *buffer) { // 2
     DBG("RspEnterSimPinData E");

     ril_proto::RspEnterSimPin *rsp = new ril_proto::RspEnterSimPin();
     rsp->ParseFromArray(buffer->data(), buffer->length());
     DBG("retries_remaining=%d", rsp->retries_remaining());
     int retries_remaining = rsp->retries_remaining();

     // Complete the request
     s_rilenv->OnRequestComplete(token, rilErrno,
             &retries_remaining, sizeof(retries_remaining));

     DBG("RspEnterSimPinData X rilErrno=%d", rilErrno);
     return rilErrno;
 }

 /**
  * Handle RIL_REQUEST_GET_CURRENT_CALLS response  // 9
  */
 RIL_Errno RspGetCurrentCalls (
         int cmd, RIL_Token token, RIL_Errno rilErrno, Buffer *buffer) { // 9
     DBG("RspGetCurrentCalls E");

     ril_proto::RspGetCurrentCalls *rsp = new ril_proto::RspGetCurrentCalls();
     rsp->ParseFromArray(buffer->data(), buffer->length());
     int result_len = rsp->calls_size() * sizeof(const RIL_Call *);
     DBG("RspGetCurrentCalls rilErrno=%d result_len=%d", rilErrno, result_len);
     RIL_Call **result = (RIL_Call **)alloca(result_len);
     for (int i = 0; i < rsp->calls_size();  i++) {
         const ril_proto::RilCall& srcCall = rsp->calls(i);
         RIL_Call *dstCall = (RIL_Call *)alloca(sizeof(RIL_Call));

         result[i] = dstCall;
         dstCall->state = (RIL_CallState)srcCall.state();
         dstCall->index = srcCall.index();
         dstCall->toa = srcCall.toa();
         dstCall->isMpty = (char)srcCall.is_mpty();
         dstCall->isMT = (char)srcCall.is_mt();
         dstCall->als = srcCall.als();
         dstCall->isVoice = (char)srcCall.is_voice();
         dstCall->isVoicePrivacy = (char)srcCall.is_voice_privacy();
         dstCall->number = (char *)srcCall.number().c_str();
         dstCall->numberPresentation = srcCall.number_presentation();
         dstCall->name = (char *)srcCall.name().c_str();
         dstCall->namePresentation = srcCall.name_presentation();
         if (srcCall.has_uus_info()) {
             dstCall->uusInfo =
                 (RIL_UUS_Info *)alloca(sizeof(RIL_UUS_Info));
             dstCall->uusInfo->uusType =
                 (RIL_UUS_Type)srcCall.uus_info().uus_type();
             dstCall->uusInfo->uusDcs =
                 (RIL_UUS_DCS)srcCall.uus_info().uus_dcs();
             dstCall->uusInfo->uusLength =
                 srcCall.uus_info().uus_length();
             dstCall->uusInfo->uusData =
                 (char *)srcCall.uus_info().uus_data().c_str();
         } else {
             dstCall->uusInfo = NULL;
         }
     }

     // Complete the request
     s_rilenv->OnRequestComplete(token, rilErrno, result, result_len);

     DBG("RspGetCurrentCalls X rilErrno=%d", rilErrno);
     return rilErrno;
 }


 void unmarshallRilSignalStrength(Buffer *buffer, RIL_SignalStrength_v6 *pSignalStrength) {
     // Retrieve response from response message
     ril_proto::RspSignalStrength *rsp = new ril_proto::RspSignalStrength();
     rsp->ParseFromArray(buffer->data(), buffer->length());
     const ril_proto::RILGWSignalStrength& gwST = rsp->gw_signalstrength();
     const ril_proto::RILCDMASignalStrength& cdmaST = rsp->cdma_signalstrength();
     const ril_proto::RILEVDOSignalStrength& evdoST = rsp->evdo_signalstrength();
     const ril_proto::RILLTESignalStrength& lteST = rsp->lte_signalstrength();

     // Copy the response message from response to format defined in ril.h
     RIL_SignalStrength_v6 curSignalStrength;

     curSignalStrength.GW_SignalStrength.signalStrength = gwST.signal_strength();
     curSignalStrength.GW_SignalStrength.bitErrorRate = gwST.bit_error_rate();
     curSignalStrength.CDMA_SignalStrength.dbm = cdmaST.dbm();
     curSignalStrength.CDMA_SignalStrength.ecio = cdmaST.ecio();
     curSignalStrength.EVDO_SignalStrength.dbm = evdoST.dbm();
     curSignalStrength.EVDO_SignalStrength.ecio = evdoST.ecio();
     curSignalStrength.EVDO_SignalStrength.signalNoiseRatio = evdoST.signal_noise_ratio();
     curSignalStrength.LTE_SignalStrength.signalStrength = lteST.signal_strength();
     curSignalStrength.LTE_SignalStrength.rsrp = lteST.rsrp();
     curSignalStrength.LTE_SignalStrength.rsrq = lteST.rsrq();
     curSignalStrength.LTE_SignalStrength.rssnr = lteST.rssnr();
     curSignalStrength.LTE_SignalStrength.cqi = lteST.cqi();

     DBG("print response signal strength: ");
     DBG("gw signalstrength = %d", curSignalStrength.GW_SignalStrength.signalStrength);
     DBG("gw_bitErrorRate = %d", curSignalStrength.GW_SignalStrength.bitErrorRate);
     DBG("cdma_dbm = %d", curSignalStrength.CDMA_SignalStrength.dbm);
     DBG("cdma_ecio = %d", curSignalStrength.CDMA_SignalStrength.ecio);
     DBG("evdo_dbm = %d", curSignalStrength.EVDO_SignalStrength.dbm);
     DBG("evdo_ecio = %d", curSignalStrength.EVDO_SignalStrength.ecio);
     DBG("evdo_signalNoiseRatio = %d", curSignalStrength.EVDO_SignalStrength.signalNoiseRatio);
     DBG("lte_signalStrength = %d", curSignalStrength.LTE_SignalStrength.signalStrength);
     DBG("lte_rsrp = %d", curSignalStrength.LTE_SignalStrength.rsrp);
     DBG("lte_rsrq = %d", curSignalStrength.LTE_SignalStrength.rsrq);
     DBG("lte_rssnr = %d", curSignalStrength.LTE_SignalStrength.rssnr);
     DBG("lte_cqi = %d", curSignalStrength.LTE_SignalStrength.cqi);
 }

 /**
  * Handle RIL_REQUEST_SIGNAL_STRENGTH response
  */
 RIL_Errno RspSignalStrength(
         int cmd, RIL_Token token, RIL_Errno rilErrno, Buffer *buffer) { // 19
     DBG("RspSignalStrength E");

     DBG("cmd = %d, token=%p, rilErrno=%d", cmd, token, rilErrno);

     // Retrieve response from response message
     ril_proto::RspSignalStrength *rsp = new ril_proto::RspSignalStrength();
     rsp->ParseFromArray(buffer->data(), buffer->length());
     const ril_proto::RILGWSignalStrength& gwST = rsp->gw_signalstrength();
     const ril_proto::RILCDMASignalStrength& cdmaST = rsp->cdma_signalstrength();
     const ril_proto::RILEVDOSignalStrength& evdoST = rsp->evdo_signalstrength();
     const ril_proto::RILLTESignalStrength& lteST = rsp->lte_signalstrength();

     // Copy the response message from response to format defined in ril.h
     RIL_SignalStrength_v6 curSignalStrength;
     unmarshallRilSignalStrength(buffer, &curSignalStrength);

     // Complete the request
     s_rilenv->OnRequestComplete(token, rilErrno, &curSignalStrength, sizeof(curSignalStrength));

     DBG("RspSignalStrength X rilErrno=%d", rilErrno);
     return rilErrno;
 }

 /**
  * Handle RIL_REQUEST_OPERATOR response
  */
 RIL_Errno RspOperator(
         int cmd, RIL_Token token, RIL_Errno rilErrno, Buffer *buffer) { // 22
     int status;

     DBG("RspOperator E");

     ril_proto::RspOperator *rsp = new ril_proto::RspOperator();
     rsp->ParseFromArray(buffer->data(), buffer->length());
     const char *result[3] = { NULL, NULL, NULL };
     if (rsp->has_long_alpha_ons()) {
         DBG("long_alpha_ons=%s", rsp->long_alpha_ons().c_str());
         result[0] = rsp->long_alpha_ons().c_str();
     }
     if (rsp->has_short_alpha_ons()) {
         DBG("short_alpha_ons=%s", rsp->short_alpha_ons().c_str());
         result[1] = rsp->short_alpha_ons().c_str();
     }
     if (rsp->has_mcc_mnc()) {
         DBG("mcc_mnc=%s", rsp->mcc_mnc().c_str());
         result[2] = rsp->mcc_mnc().c_str();
     }

     // Complete the request
     s_rilenv->OnRequestComplete(token, rilErrno, result, sizeof(result));

     DBG("RspOperator X rilErrno=%d", rilErrno);
     return rilErrno;
 }

 // ----------------- Handle unsolicited response ----------------------------------------
  /**
  * Handle RIL_UNSOL_SIGNAL_STRENGTH response
  */
 void UnsolRspSignalStrength(int cmd, Buffer* buffer) {

     DBG("UnsolRspSignalStrength E");
     ALOGE("unsolicited response command: %d", cmd);
     // Retrieve response from response message
     ril_proto::RspSignalStrength *rsp = new ril_proto::RspSignalStrength();
     rsp->ParseFromArray(buffer->data(), buffer->length());
     const ril_proto::RILGWSignalStrength& gwST = rsp->gw_signalstrength();
     const ril_proto::RILCDMASignalStrength& cdmaST = rsp->cdma_signalstrength();
     const ril_proto::RILEVDOSignalStrength& evdoST = rsp->evdo_signalstrength();

     // Copy the response message from response to format defined in ril.h
     RIL_SignalStrength_v6 curSignalStrength;
     unmarshallRilSignalStrength(buffer, &curSignalStrength);

     s_rilenv->OnUnsolicitedResponse(cmd, &curSignalStrength, sizeof(curSignalStrength));
     DBG("UnsolRspSignalStrength X");
 }

 /**
  * Maps for converting request complete and unsoliciated response
  * protobufs to ril data arrays.
  */
 typedef RIL_Errno (*RspConversion)(
                 int cmd, RIL_Token token, RIL_Errno rilErrno, Buffer* buffer);
 typedef std::map<int, RspConversion> RspConversionMap;
 RspConversionMap rilRspConversionMap;

 typedef void (*UnsolRspConversion)(int cmd, Buffer* buffer);
 typedef std::map<int, UnsolRspConversion> UnsolRspConversionMap;
 UnsolRspConversionMap unsolRilRspConversionMap;

 /**
  * Send a ril request complete response.
  */
 v8::Handle<v8::Value> SendRilRequestComplete(const v8::Arguments& args) {
     DBG("SendRilRequestComplete E");
     v8::HandleScope handle_scope;
     v8::Handle<v8::Value> retValue;

     int cmd;
     RIL_Errno rilErrno;
     RIL_Token token;
     Buffer* buffer;

     /**
      * Get the arguments. There should be at least 3, cmd,
      * ril error code and token. Optionally a Buffer containing
      * the protobuf representation of the data to return.
      */
     if (args.Length() < REQUEST_COMPLETE_REQUIRED_CMDS) {
         // Expecting a cmd, ERROR and token
         ALOGE("SendRilRequestComplete X %d parameters"
              " expecting at least %d: rilErrno, cmd, and token",
                 args.Length(), REQUEST_COMPLETE_REQUIRED_CMDS);
         return v8::Undefined();
     }
     v8::Handle<v8::Value> v8RilErrCode(
                     args[REQUEST_COMPLETE_RIL_ERR_CODE_INDEX]->ToObject());
     rilErrno = RIL_Errno(v8RilErrCode->NumberValue());

     v8::Handle<v8::Value> v8Cmd(
                     args[REQUEST_COMPLETE_CMD_INDEX]->ToObject());
     cmd = int(v8Cmd->NumberValue());

     v8::Handle<v8::Value> v8Token(
                     args[REQUEST_COMPLETE_TOKEN_INDEX]->ToObject());
     token = RIL_Token(int64_t(v8Token->NumberValue()));

     if (args.Length() >= (REQUEST_COMPLETE_DATA_INDEX+1)) {
         buffer = ObjectWrap::Unwrap<Buffer>(
                     args[REQUEST_COMPLETE_DATA_INDEX]->ToObject());
     } else {
         buffer = NULL;
     }

     DBG("SendRilRequestComplete: rilErrno=%d, cmd=%d, token=%p", rilErrno, cmd, token);
     RspConversionMap::iterator itr;
     itr = rilRspConversionMap.find(cmd);
     if (itr != rilRspConversionMap.end()) {
         itr->second(cmd, token, rilErrno, buffer);
     } else {
         if ((buffer == NULL) || (buffer->length() <= 0)) {
             // Nothing to convert
             rilErrno = RIL_E_SUCCESS;
         } else {
             // There was a buffer but we don't support the resonse yet.
             ALOGE("SendRilRequestComplete: No conversion routine for cmd %d,"
                     " return RIL_E_REQUEST_NOT_SUPPORTED", cmd);
             rilErrno = RIL_E_REQUEST_NOT_SUPPORTED;
         }
         // Complete the request
         s_rilenv->OnRequestComplete(token, rilErrno, NULL, 0);
     }

     DBG("SendRilRequestComplete X rillErrno=%d", rilErrno);
     return v8::Undefined();
 }

 /**
  * Send an unsolicited response.
  */
 v8::Handle<v8::Value> SendRilUnsolicitedResponse(const v8::Arguments& args) {
     DBG("SendRilUnsolicitedResponse E");
     v8::HandleScope handle_scope;
     v8::Handle<v8::Value> retValue;

     int status;
     void *data;
     size_t datalen;

     int cmd;
     Buffer* buffer;

     /**
      * Get the cmd number and data arguments
      */
     if (args.Length() < UNSOL_RESPONSE_REQUIRED_CMDS) {
         // Expecting a cmd
         ALOGE("SendRilUnsolicitedResponse X %d parameters"
              " expecting at least a cmd",
                 args.Length());
         return v8::Undefined();
     }
     v8::Handle<v8::Value> v8RilErrCode(args[UNSOL_RESPONSE_CMD_INDEX]->ToObject());
     cmd = int(v8RilErrCode->NumberValue());

     // data is optional
     if (args.Length() >= (UNSOL_RESPONSE_DATA_INDEX+1)) {
         buffer = ObjectWrap::Unwrap<Buffer>(args[UNSOL_RESPONSE_DATA_INDEX]->ToObject());
     } else {
         buffer = NULL;
     }

     UnsolRspConversionMap::iterator itr;
     itr = unsolRilRspConversionMap.find(cmd);
     if (itr != unsolRilRspConversionMap.end()) {
         itr->second(cmd, buffer);
     } else {
         if ((buffer == NULL) || (buffer->length() <= 0)) {
             // Nothing to convert
             data = NULL;
             datalen = 0;
         } else {
             // There was a buffer but we don't support the response yet.
             ALOGE("SendRilUnsolicitedResponse: No conversion routine for cmd %d,"
                     " return RIL_E_REQUEST_NOT_SUPPORTED", cmd);
             data = NULL;
             datalen = 0;
         }
         s_rilenv->OnUnsolicitedResponse(cmd, NULL, 0);
     }

     DBG("SendRilUnsolicitedResponse X");
     return v8::Undefined();
 }

 int responsesInit(v8::Handle<v8::Context> context) {
     ALOGD("responsesInit E");
     int status = STATUS_OK;

     rilRspConversionMap[RIL_REQUEST_GET_SIM_STATUS] = RspGetSimStatus; // 1
     rilRspConversionMap[RIL_REQUEST_ENTER_SIM_PIN] = RspEnterSimPinData; // 2
     rilRspConversionMap[RIL_REQUEST_GET_CURRENT_CALLS] = RspGetCurrentCalls; // 9
     rilRspConversionMap[RIL_REQUEST_GET_IMSI] = RspString; // 11
     rilRspConversionMap[RIL_REQUEST_HANGUP] = RspWithNoData; // 12
     rilRspConversionMap[RIL_REQUEST_HANGUP_WAITING_OR_BACKGROUND] = RspWithNoData; // 13
     rilRspConversionMap[RIL_REQUEST_HANGUP_FOREGROUND_RESUME_BACKGROUND] = RspWithNoData; // 14
     rilRspConversionMap[RIL_REQUEST_SWITCH_WAITING_OR_HOLDING_AND_ACTIVE] = RspWithNoData; // 15
     rilRspConversionMap[RIL_REQUEST_CONFERENCE] = RspWithNoData;  // 16
     rilRspConversionMap[RIL_REQUEST_LAST_CALL_FAIL_CAUSE] = RspIntegers;  // 18
     rilRspConversionMap[RIL_REQUEST_SIGNAL_STRENGTH] = RspSignalStrength; // 19
     rilRspConversionMap[RIL_REQUEST_VOICE_REGISTRATION_STATE] = RspStrings; // 20
     rilRspConversionMap[RIL_REQUEST_DATA_REGISTRATION_STATE] = RspStrings; // 21
     rilRspConversionMap[RIL_REQUEST_OPERATOR] = RspOperator; // 22
     rilRspConversionMap[RIL_REQUEST_GET_IMEI] = RspString; // 38
     rilRspConversionMap[RIL_REQUEST_GET_IMEISV] = RspString; // 39
     rilRspConversionMap[RIL_REQUEST_ANSWER] = RspWithNoData; // 39
     rilRspConversionMap[RIL_REQUEST_QUERY_NETWORK_SELECTION_MODE] = RspIntegers; // 45
     rilRspConversionMap[RIL_REQUEST_SET_NETWORK_SELECTION_AUTOMATIC] = RspWithNoData; // 46
     rilRspConversionMap[RIL_REQUEST_BASEBAND_VERSION] = RspString; // 51
     rilRspConversionMap[RIL_REQUEST_SEPARATE_CONNECTION] = RspWithNoData;  // 52
     rilRspConversionMap[RIL_REQUEST_SET_MUTE] = RspWithNoData;  // 53
     rilRspConversionMap[RIL_REQUEST_SCREEN_STATE] = RspWithNoData; // 61

     unsolRilRspConversionMap[RIL_UNSOL_SIGNAL_STRENGTH] = UnsolRspSignalStrength;  // 1009


     ALOGD("responsesInit X: status=%d", status);
     return STATUS_OK;
 }
	/**
	* Copyright (C) 2010 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#include <map>

	#include <v8.h>
	#include "ril.h"

	#include "hardware/ril/mock-ril/src/proto/ril.pb.h"

	#include "logging.h"
	#include "mock_ril.h"
	#include "node_buffer.h"
	#include "node_object_wrap.h"
	#include "protobuf_v8.h"
	#include "status.h"
	#include "util.h"
	#include "worker.h"

	#include "responses.h"

	//#define RESPONSES_DEBUG
	#ifdef RESPONSES_DEBUG

	#define DBG(...) ALOGD(__VA_ARGS__)

	#else

	#define DBG(...)

	#endif


	/**
	* The Buffer is assumed to be empty so nothing to convert
	* @return STATUS_OK and data = NULL datalen = 0;
	*/
	RIL_Errno RspWithNoData(
	int cmd, RIL_Token token, RIL_Errno rilErrno, Buffer *buffer) {
	DBG("RspWithNoData E");

	// Complete the request
	s_rilenv->OnRequestComplete(token, rilErrno, NULL, 0);

	DBG("RspWithNoData X");
	return rilErrno;
	}

	/**
	* Handle response for an array of strings
	*
	* If a string value is "magic-null" then that value
	* will be returned as null.
	*/
	RIL_Errno RspStrings(
	int cmd, RIL_Token token, RIL_Errno rilErrno, Buffer *buffer) {
	DBG("RspStrings E");

	ril_proto::RspStrings *rsp = new ril_proto::RspStrings();
	rsp->ParseFromArray(buffer->data(), buffer->length());
	int result_len = rsp->strings_size() * sizeof(const char *);
	const char result = (const char )alloca(result_len);
	for (int i = 0; i < rsp->strings_size(); i++) {
	result[i] = rsp->strings(i).c_str();
	DBG("result[%d]='%s'", i, result[i]);
	if (strcmp("magic-null", result[i]) == 0) {
	result[i] = NULL;
	}
	}

	// Complete the request
	s_rilenv->OnRequestComplete(token, rilErrno, result, result_len);

	DBG("RspStrings X rilErrno=%d", rilErrno);
	return rilErrno;
	}

	/**
	* Handle response for a string
	*/
	RIL_Errno RspString(
	int cmd, RIL_Token token, RIL_Errno rilErrno, Buffer *buffer) {
	DBG("RspString E");

	ril_proto::RspStrings *rsp = new ril_proto::RspStrings();
	rsp->ParseFromArray(buffer->data(), buffer->length());
	const char *result = rsp->strings(0).c_str();

	// Complete the request
	s_rilenv->OnRequestComplete(token, rilErrno, (void *)result, strlen(result));

	DBG("RspString X rilErrno=%d", rilErrno);
	return rilErrno;
	}

	/**
	* Handle response for an array of integers
	*/
	RIL_Errno RspIntegers(
	int cmd, RIL_Token token, RIL_Errno rilErrno, Buffer *buffer) {
	DBG("RspIntegers E");

	ril_proto::RspIntegers *rsp = new ril_proto::RspIntegers();
	rsp->ParseFromArray(buffer->data(), buffer->length());
	int result_len = rsp->integers_size() * sizeof(const int32_t);
	int32_t result = (int32_t )alloca(result_len);
	for (int i = 0; i < rsp->integers_size(); i++) {
	result[i] = rsp->integers(i);
	DBG("result[%d]=%d", i, result[i]);
	}

	// Complete the request
	s_rilenv->OnRequestComplete(token, rilErrno, result, result_len);

	DBG("RspIntegers X rilErrno=%d", rilErrno);
	return rilErrno;
	}

	/**
	* Handle RIL_REQUEST_GET_SIM_STATUS response
	*/
	RIL_Errno RspGetSimStatus(
	int cmd, RIL_Token token, RIL_Errno rilErrno, Buffer *buffer) { // 1
	DBG("RspGetSimStatus E");

	ril_proto::RspGetSimStatus *rsp = new ril_proto::RspGetSimStatus();
	rsp->ParseFromArray(buffer->data(), buffer->length());
	const ril_proto::RilCardStatus& r = rsp->card_status();
	RIL_CardStatus_v6 cardStatus;
	cardStatus.card_state = RIL_CardState(r.card_state());
	cardStatus.universal_pin_state = RIL_PinState(r.universal_pin_state());
	cardStatus.gsm_umts_subscription_app_index = r.gsm_umts_subscription_app_index();
	cardStatus.ims_subscription_app_index = r.ims_subscription_app_index();
	cardStatus.num_applications = r.num_applications();
	for (int i = 0; i < cardStatus.num_applications; i++) {
	cardStatus.applications[i].app_type = RIL_AppType(r.applications(i).app_type());
	cardStatus.applications[i].app_state = RIL_AppState(r.applications(i).app_state());
	cardStatus.applications[i].perso_substate =
	RIL_PersoSubstate(r.applications(i).perso_substate());
	cardStatus.applications[i].aid_ptr = const_cast<char *>(r.applications(i).aid().c_str());
	cardStatus.applications[i].app_label_ptr =
	const_cast<char *>(r.applications(i).app_label().c_str());
	cardStatus.applications[i].pin1_replaced = r.applications(i).pin1_replaced();
	cardStatus.applications[i].pin1 = RIL_PinState(r.applications(i).pin1());
	cardStatus.applications[i].pin2 = RIL_PinState(r.applications(i).pin2());
	}

	// Complete the request
	s_rilenv->OnRequestComplete(token, rilErrno,
	&cardStatus, sizeof(cardStatus));

	DBG("RspGetSimStatus X rilErrno=%d", rilErrno);
	return rilErrno;
	}

	/**
	* Handle RIL_REQUEST_ENTER_SIM_PIN_DATA response
	*/
	RIL_Errno RspEnterSimPinData(
	int cmd, RIL_Token token, RIL_Errno rilErrno, Buffer *buffer) { // 2
	DBG("RspEnterSimPinData E");

	ril_proto::RspEnterSimPin *rsp = new ril_proto::RspEnterSimPin();
	rsp->ParseFromArray(buffer->data(), buffer->length());
	DBG("retries_remaining=%d", rsp->retries_remaining());
	int retries_remaining = rsp->retries_remaining();

	// Complete the request
	s_rilenv->OnRequestComplete(token, rilErrno,
	&retries_remaining, sizeof(retries_remaining));

	DBG("RspEnterSimPinData X rilErrno=%d", rilErrno);
	return rilErrno;
	}

	/**
	* Handle RIL_REQUEST_GET_CURRENT_CALLS response // 9
	*/
	RIL_Errno RspGetCurrentCalls (
	int cmd, RIL_Token token, RIL_Errno rilErrno, Buffer *buffer) { // 9
	DBG("RspGetCurrentCalls E");

	ril_proto::RspGetCurrentCalls *rsp = new ril_proto::RspGetCurrentCalls();
	rsp->ParseFromArray(buffer->data(), buffer->length());
	int result_len = rsp->calls_size() * sizeof(const RIL_Call *);
	DBG("RspGetCurrentCalls rilErrno=%d result_len=%d", rilErrno, result_len);
	RIL_Call result = (RIL_Call )alloca(result_len);
	for (int i = 0; i < rsp->calls_size(); i++) {
	const ril_proto::RilCall& srcCall = rsp->calls(i);
	RIL_Call dstCall = (RIL_Call )alloca(sizeof(RIL_Call));

	result[i] = dstCall;
	dstCall->state = (RIL_CallState)srcCall.state();
	dstCall->index = srcCall.index();
	dstCall->toa = srcCall.toa();
	dstCall->isMpty = (char)srcCall.is_mpty();
	dstCall->isMT = (char)srcCall.is_mt();
	dstCall->als = srcCall.als();
	dstCall->isVoice = (char)srcCall.is_voice();
	dstCall->isVoicePrivacy = (char)srcCall.is_voice_privacy();
	dstCall->number = (char *)srcCall.number().c_str();
	dstCall->numberPresentation = srcCall.number_presentation();
	dstCall->name = (char *)srcCall.name().c_str();
	dstCall->namePresentation = srcCall.name_presentation();
	if (srcCall.has_uus_info()) {
	dstCall->uusInfo =
	(RIL_UUS_Info *)alloca(sizeof(RIL_UUS_Info));
	dstCall->uusInfo->uusType =
	(RIL_UUS_Type)srcCall.uus_info().uus_type();
	dstCall->uusInfo->uusDcs =
	(RIL_UUS_DCS)srcCall.uus_info().uus_dcs();
	dstCall->uusInfo->uusLength =
	srcCall.uus_info().uus_length();
	dstCall->uusInfo->uusData =
	(char *)srcCall.uus_info().uus_data().c_str();
	} else {
	dstCall->uusInfo = NULL;
	}
	}

	// Complete the request
	s_rilenv->OnRequestComplete(token, rilErrno, result, result_len);

	DBG("RspGetCurrentCalls X rilErrno=%d", rilErrno);
	return rilErrno;
	}


	void unmarshallRilSignalStrength(Buffer buffer, RIL_SignalStrength_v6 pSignalStrength) {
	// Retrieve response from response message
	ril_proto::RspSignalStrength *rsp = new ril_proto::RspSignalStrength();
	rsp->ParseFromArray(buffer->data(), buffer->length());
	const ril_proto::RILGWSignalStrength& gwST = rsp->gw_signalstrength();
	const ril_proto::RILCDMASignalStrength& cdmaST = rsp->cdma_signalstrength();
	const ril_proto::RILEVDOSignalStrength& evdoST = rsp->evdo_signalstrength();
	const ril_proto::RILLTESignalStrength& lteST = rsp->lte_signalstrength();

	// Copy the response message from response to format defined in ril.h
	RIL_SignalStrength_v6 curSignalStrength;

	curSignalStrength.GW_SignalStrength.signalStrength = gwST.signal_strength();
	curSignalStrength.GW_SignalStrength.bitErrorRate = gwST.bit_error_rate();
	curSignalStrength.CDMA_SignalStrength.dbm = cdmaST.dbm();
	curSignalStrength.CDMA_SignalStrength.ecio = cdmaST.ecio();
	curSignalStrength.EVDO_SignalStrength.dbm = evdoST.dbm();
	curSignalStrength.EVDO_SignalStrength.ecio = evdoST.ecio();
	curSignalStrength.EVDO_SignalStrength.signalNoiseRatio = evdoST.signal_noise_ratio();
	curSignalStrength.LTE_SignalStrength.signalStrength = lteST.signal_strength();
	curSignalStrength.LTE_SignalStrength.rsrp = lteST.rsrp();
	curSignalStrength.LTE_SignalStrength.rsrq = lteST.rsrq();
	curSignalStrength.LTE_SignalStrength.rssnr = lteST.rssnr();
	curSignalStrength.LTE_SignalStrength.cqi = lteST.cqi();

	DBG("print response signal strength: ");
	DBG("gw signalstrength = %d", curSignalStrength.GW_SignalStrength.signalStrength);
	DBG("gw_bitErrorRate = %d", curSignalStrength.GW_SignalStrength.bitErrorRate);
	DBG("cdma_dbm = %d", curSignalStrength.CDMA_SignalStrength.dbm);
	DBG("cdma_ecio = %d", curSignalStrength.CDMA_SignalStrength.ecio);
	DBG("evdo_dbm = %d", curSignalStrength.EVDO_SignalStrength.dbm);
	DBG("evdo_ecio = %d", curSignalStrength.EVDO_SignalStrength.ecio);
	DBG("evdo_signalNoiseRatio = %d", curSignalStrength.EVDO_SignalStrength.signalNoiseRatio);
	DBG("lte_signalStrength = %d", curSignalStrength.LTE_SignalStrength.signalStrength);
	DBG("lte_rsrp = %d", curSignalStrength.LTE_SignalStrength.rsrp);
	DBG("lte_rsrq = %d", curSignalStrength.LTE_SignalStrength.rsrq);
	DBG("lte_rssnr = %d", curSignalStrength.LTE_SignalStrength.rssnr);
	DBG("lte_cqi = %d", curSignalStrength.LTE_SignalStrength.cqi);
	}

	/**
	* Handle RIL_REQUEST_SIGNAL_STRENGTH response
	*/
	RIL_Errno RspSignalStrength(
	int cmd, RIL_Token token, RIL_Errno rilErrno, Buffer *buffer) { // 19
	DBG("RspSignalStrength E");

	DBG("cmd = %d, token=%p, rilErrno=%d", cmd, token, rilErrno);

	// Retrieve response from response message
	ril_proto::RspSignalStrength *rsp = new ril_proto::RspSignalStrength();
	rsp->ParseFromArray(buffer->data(), buffer->length());
	const ril_proto::RILGWSignalStrength& gwST = rsp->gw_signalstrength();
	const ril_proto::RILCDMASignalStrength& cdmaST = rsp->cdma_signalstrength();
	const ril_proto::RILEVDOSignalStrength& evdoST = rsp->evdo_signalstrength();
	const ril_proto::RILLTESignalStrength& lteST = rsp->lte_signalstrength();

	// Copy the response message from response to format defined in ril.h
	RIL_SignalStrength_v6 curSignalStrength;
	unmarshallRilSignalStrength(buffer, &curSignalStrength);

	// Complete the request
	s_rilenv->OnRequestComplete(token, rilErrno, &curSignalStrength, sizeof(curSignalStrength));

	DBG("RspSignalStrength X rilErrno=%d", rilErrno);
	return rilErrno;
	}

	/**
	* Handle RIL_REQUEST_OPERATOR response
	*/
	RIL_Errno RspOperator(
	int cmd, RIL_Token token, RIL_Errno rilErrno, Buffer *buffer) { // 22
	int status;

	DBG("RspOperator E");

	ril_proto::RspOperator *rsp = new ril_proto::RspOperator();
	rsp->ParseFromArray(buffer->data(), buffer->length());
	const char *result[3] = { NULL, NULL, NULL };
	if (rsp->has_long_alpha_ons()) {
	DBG("long_alpha_ons=%s", rsp->long_alpha_ons().c_str());
	result[0] = rsp->long_alpha_ons().c_str();
	}
	if (rsp->has_short_alpha_ons()) {
	DBG("short_alpha_ons=%s", rsp->short_alpha_ons().c_str());
	result[1] = rsp->short_alpha_ons().c_str();
	}
	if (rsp->has_mcc_mnc()) {
	DBG("mcc_mnc=%s", rsp->mcc_mnc().c_str());
	result[2] = rsp->mcc_mnc().c_str();
	}

	// Complete the request
	s_rilenv->OnRequestComplete(token, rilErrno, result, sizeof(result));

	DBG("RspOperator X rilErrno=%d", rilErrno);
	return rilErrno;
	}

	// ----------------- Handle unsolicited response ----------------------------------------
	/**
	* Handle RIL_UNSOL_SIGNAL_STRENGTH response
	*/
	void UnsolRspSignalStrength(int cmd, Buffer* buffer) {

	DBG("UnsolRspSignalStrength E");
	ALOGE("unsolicited response command: %d", cmd);
	// Retrieve response from response message
	ril_proto::RspSignalStrength *rsp = new ril_proto::RspSignalStrength();
	rsp->ParseFromArray(buffer->data(), buffer->length());
	const ril_proto::RILGWSignalStrength& gwST = rsp->gw_signalstrength();
	const ril_proto::RILCDMASignalStrength& cdmaST = rsp->cdma_signalstrength();
	const ril_proto::RILEVDOSignalStrength& evdoST = rsp->evdo_signalstrength();

	// Copy the response message from response to format defined in ril.h
	RIL_SignalStrength_v6 curSignalStrength;
	unmarshallRilSignalStrength(buffer, &curSignalStrength);

	s_rilenv->OnUnsolicitedResponse(cmd, &curSignalStrength, sizeof(curSignalStrength));
	DBG("UnsolRspSignalStrength X");
	}

	/**
	* Maps for converting request complete and unsoliciated response
	* protobufs to ril data arrays.
	*/
	typedef RIL_Errno (*RspConversion)(
	int cmd, RIL_Token token, RIL_Errno rilErrno, Buffer* buffer);
	typedef std::map<int, RspConversion> RspConversionMap;
	RspConversionMap rilRspConversionMap;

	typedef void (UnsolRspConversion)(int cmd, Buffer buffer);
	typedef std::map<int, UnsolRspConversion> UnsolRspConversionMap;
	UnsolRspConversionMap unsolRilRspConversionMap;

	/**
	* Send a ril request complete response.
	*/
	v8::Handle<v8::Value> SendRilRequestComplete(const v8::Arguments& args) {
	DBG("SendRilRequestComplete E");
	v8::HandleScope handle_scope;
	v8::Handle<v8::Value> retValue;

	int cmd;
	RIL_Errno rilErrno;
	RIL_Token token;
	Buffer* buffer;

	/**
	* Get the arguments. There should be at least 3, cmd,
	* ril error code and token. Optionally a Buffer containing
	* the protobuf representation of the data to return.
	*/
	if (args.Length() < REQUEST_COMPLETE_REQUIRED_CMDS) {
	// Expecting a cmd, ERROR and token
	ALOGE("SendRilRequestComplete X %d parameters"
	" expecting at least %d: rilErrno, cmd, and token",
	args.Length(), REQUEST_COMPLETE_REQUIRED_CMDS);
	return v8::Undefined();
	}
	v8::Handle<v8::Value> v8RilErrCode(
	args[REQUEST_COMPLETE_RIL_ERR_CODE_INDEX]->ToObject());
	rilErrno = RIL_Errno(v8RilErrCode->NumberValue());

	v8::Handle<v8::Value> v8Cmd(
	args[REQUEST_COMPLETE_CMD_INDEX]->ToObject());
	cmd = int(v8Cmd->NumberValue());

	v8::Handle<v8::Value> v8Token(
	args[REQUEST_COMPLETE_TOKEN_INDEX]->ToObject());
	token = RIL_Token(int64_t(v8Token->NumberValue()));

	if (args.Length() >= (REQUEST_COMPLETE_DATA_INDEX+1)) {
	buffer = ObjectWrap::Unwrap<Buffer>(
	args[REQUEST_COMPLETE_DATA_INDEX]->ToObject());
	} else {
	buffer = NULL;
	}

	DBG("SendRilRequestComplete: rilErrno=%d, cmd=%d, token=%p", rilErrno, cmd, token);
	RspConversionMap::iterator itr;
	itr = rilRspConversionMap.find(cmd);
	if (itr != rilRspConversionMap.end()) {
	itr->second(cmd, token, rilErrno, buffer);
	} else {
	if ((buffer == NULL) \|\| (buffer->length() <= 0)) {
	// Nothing to convert
	rilErrno = RIL_E_SUCCESS;
	} else {
	// There was a buffer but we don't support the resonse yet.
	ALOGE("SendRilRequestComplete: No conversion routine for cmd %d,"
	" return RIL_E_REQUEST_NOT_SUPPORTED", cmd);
	rilErrno = RIL_E_REQUEST_NOT_SUPPORTED;
	}
	// Complete the request
	s_rilenv->OnRequestComplete(token, rilErrno, NULL, 0);
	}

	DBG("SendRilRequestComplete X rillErrno=%d", rilErrno);
	return v8::Undefined();
	}

	/**
	* Send an unsolicited response.
	*/
	v8::Handle<v8::Value> SendRilUnsolicitedResponse(const v8::Arguments& args) {
	DBG("SendRilUnsolicitedResponse E");
	v8::HandleScope handle_scope;
	v8::Handle<v8::Value> retValue;

	int status;
	void *data;
	size_t datalen;

	int cmd;
	Buffer* buffer;

	/**
	* Get the cmd number and data arguments
	*/
	if (args.Length() < UNSOL_RESPONSE_REQUIRED_CMDS) {
	// Expecting a cmd
	ALOGE("SendRilUnsolicitedResponse X %d parameters"
	" expecting at least a cmd",
	args.Length());
	return v8::Undefined();
	}
	v8::Handle<v8::Value> v8RilErrCode(args[UNSOL_RESPONSE_CMD_INDEX]->ToObject());
	cmd = int(v8RilErrCode->NumberValue());

	// data is optional
	if (args.Length() >= (UNSOL_RESPONSE_DATA_INDEX+1)) {
	buffer = ObjectWrap::Unwrap<Buffer>(args[UNSOL_RESPONSE_DATA_INDEX]->ToObject());
	} else {
	buffer = NULL;
	}

	UnsolRspConversionMap::iterator itr;
	itr = unsolRilRspConversionMap.find(cmd);
	if (itr != unsolRilRspConversionMap.end()) {
	itr->second(cmd, buffer);
	} else {
	if ((buffer == NULL) \|\| (buffer->length() <= 0)) {
	// Nothing to convert
	data = NULL;
	datalen = 0;
	} else {
	// There was a buffer but we don't support the response yet.
	ALOGE("SendRilUnsolicitedResponse: No conversion routine for cmd %d,"
	" return RIL_E_REQUEST_NOT_SUPPORTED", cmd);
	data = NULL;
	datalen = 0;
	}
	s_rilenv->OnUnsolicitedResponse(cmd, NULL, 0);
	}

	DBG("SendRilUnsolicitedResponse X");
	return v8::Undefined();
	}

	int responsesInit(v8::Handle<v8::Context> context) {
	ALOGD("responsesInit E");
	int status = STATUS_OK;

	rilRspConversionMap[RIL_REQUEST_GET_SIM_STATUS] = RspGetSimStatus; // 1
	rilRspConversionMap[RIL_REQUEST_ENTER_SIM_PIN] = RspEnterSimPinData; // 2
	rilRspConversionMap[RIL_REQUEST_GET_CURRENT_CALLS] = RspGetCurrentCalls; // 9
	rilRspConversionMap[RIL_REQUEST_GET_IMSI] = RspString; // 11
	rilRspConversionMap[RIL_REQUEST_HANGUP] = RspWithNoData; // 12
	rilRspConversionMap[RIL_REQUEST_HANGUP_WAITING_OR_BACKGROUND] = RspWithNoData; // 13
	rilRspConversionMap[RIL_REQUEST_HANGUP_FOREGROUND_RESUME_BACKGROUND] = RspWithNoData; // 14
	rilRspConversionMap[RIL_REQUEST_SWITCH_WAITING_OR_HOLDING_AND_ACTIVE] = RspWithNoData; // 15
	rilRspConversionMap[RIL_REQUEST_CONFERENCE] = RspWithNoData; // 16
	rilRspConversionMap[RIL_REQUEST_LAST_CALL_FAIL_CAUSE] = RspIntegers; // 18
	rilRspConversionMap[RIL_REQUEST_SIGNAL_STRENGTH] = RspSignalStrength; // 19
	rilRspConversionMap[RIL_REQUEST_VOICE_REGISTRATION_STATE] = RspStrings; // 20
	rilRspConversionMap[RIL_REQUEST_DATA_REGISTRATION_STATE] = RspStrings; // 21
	rilRspConversionMap[RIL_REQUEST_OPERATOR] = RspOperator; // 22
	rilRspConversionMap[RIL_REQUEST_GET_IMEI] = RspString; // 38
	rilRspConversionMap[RIL_REQUEST_GET_IMEISV] = RspString; // 39
	rilRspConversionMap[RIL_REQUEST_ANSWER] = RspWithNoData; // 39
	rilRspConversionMap[RIL_REQUEST_QUERY_NETWORK_SELECTION_MODE] = RspIntegers; // 45
	rilRspConversionMap[RIL_REQUEST_SET_NETWORK_SELECTION_AUTOMATIC] = RspWithNoData; // 46
	rilRspConversionMap[RIL_REQUEST_BASEBAND_VERSION] = RspString; // 51
	rilRspConversionMap[RIL_REQUEST_SEPARATE_CONNECTION] = RspWithNoData; // 52
	rilRspConversionMap[RIL_REQUEST_SET_MUTE] = RspWithNoData; // 53
	rilRspConversionMap[RIL_REQUEST_SCREEN_STATE] = RspWithNoData; // 61

	unsolRilRspConversionMap[RIL_UNSOL_SIGNAL_STRENGTH] = UnsolRspSignalStrength; // 1009


	ALOGD("responsesInit X: status=%d", status);
	return STATUS_OK;
	}