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4.1.1_r1
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hardware
qcom
gps
loc_api
libloc_api
loc_eng.cpp
/****************************************************************************** @file: loc_eng.cpp @brief: DESCRIPTION This file defines the implemenation for GPS hardware abstraction layer. INITIALIZATION AND SEQUENCING REQUIREMENTS ----------------------------------------------------------------------------- Copyright (c) 2009, QUALCOMM USA, INC. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. Neither the name of the QUALCOMM USA, INC. nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. ----------------------------------------------------------------------------- ******************************************************************************/ /*===================================================================== $Header: $ $DateTime: $ $Author: $ ======================================================================*/ #define LOG_NDDEBUG 0 #include
#include
#include
#include
#include
#include
#include
#include
#include
#include "loc_api_rpc_glue.h" #include "loc_apicb_appinit.h" #include
#include
#include
#include
#include
#define LOG_TAG "lib_locapi" #include
// comment this out to enable logging // #undef ALOGD // #define ALOGD(...) {} #define DEBUG_MOCK_NI 0 // Function declarations for sLocEngInterface static int loc_eng_init(GpsCallbacks* callbacks); static int loc_eng_start(); static int loc_eng_stop(); static int loc_eng_set_position_mode(GpsPositionMode mode, GpsPositionRecurrence recurrence, uint32_t min_interval, uint32_t preferred_accuracy, uint32_t preferred_time); static void loc_eng_cleanup(); static int loc_eng_inject_time(GpsUtcTime time, int64_t timeReference, int uncertainty); static int loc_eng_inject_location(double latitude, double longitude, float accuracy); static void loc_eng_delete_aiding_data (GpsAidingData f); static const void* loc_eng_get_extension(const char* name); // Function declarations for sLocEngAGpsInterface static void loc_eng_agps_init(AGpsCallbacks* callbacks); static int loc_eng_agps_data_conn_open(const char* apn); static int loc_eng_agps_data_conn_closed(); static int loc_eng_agps_data_conn_failed(); static int loc_eng_agps_set_server(AGpsType type, const char* hostname, int port); static int32 loc_event_cb (rpc_loc_client_handle_type client_handle, rpc_loc_event_mask_type loc_event, const rpc_loc_event_payload_u_type* loc_event_payload); static void loc_eng_report_position (const rpc_loc_parsed_position_s_type *location_report_ptr); static void loc_eng_report_sv (const rpc_loc_gnss_info_s_type *gnss_report_ptr); static void loc_eng_report_status (const rpc_loc_status_event_s_type *status_report_ptr); static void loc_eng_report_nmea (const rpc_loc_nmea_report_s_type *nmea_report_ptr); static void loc_eng_process_conn_request (const rpc_loc_server_request_s_type *server_request_ptr); static void loc_eng_process_deferred_action (void* arg); static void loc_eng_process_atl_deferred_action (int flags); static void loc_eng_delete_aiding_data_deferred_action (void); static int set_agps_server(); // Defines the GpsInterface in gps.h static const GpsInterface sLocEngInterface = { sizeof(GpsInterface), loc_eng_init, loc_eng_start, loc_eng_stop, loc_eng_cleanup, loc_eng_inject_time, loc_eng_inject_location, loc_eng_delete_aiding_data, loc_eng_set_position_mode, loc_eng_get_extension, }; static const AGpsInterface sLocEngAGpsInterface = { sizeof(AGpsInterface), loc_eng_agps_init, loc_eng_agps_data_conn_open, loc_eng_agps_data_conn_closed, loc_eng_agps_data_conn_failed, loc_eng_agps_set_server, }; // Global data structure for location engine loc_eng_data_s_type loc_eng_data; /*=========================================================================== FUNCTION gps_get_hardware_interface DESCRIPTION Returns the GPS hardware interaface based on LOC API if GPS is enabled. DEPENDENCIES None RETURN VALUE 0: success SIDE EFFECTS N/A ===========================================================================*/ const GpsInterface* gps_get_hardware_interface () { char propBuf[PROPERTY_VALUE_MAX]; // check to see if GPS should be disabled property_get("gps.disable", propBuf, ""); if (propBuf[0] == '1') { ALOGD("gps_get_interface returning NULL because gps.disable=1\n"); return NULL; } return &sLocEngInterface; } /*=========================================================================== FUNCTION loc_eng_init DESCRIPTION Initialize the location engine, this include setting up global datas and registers location engien with loc api service. DEPENDENCIES None RETURN VALUE 0: success SIDE EFFECTS N/A ===========================================================================*/ // fully shutting down the GPS is temporarily disabled to avoid intermittent BP crash #define DISABLE_CLEANUP 1 static int loc_eng_init(GpsCallbacks* callbacks) { #if DISABLE_CLEANUP if (loc_eng_data.deferred_action_thread) { // already initialized return 0; } #endif // Start the LOC api RPC service loc_api_glue_init (); callbacks->set_capabilities_cb(GPS_CAPABILITY_SCHEDULING | GPS_CAPABILITY_MSA | GPS_CAPABILITY_MSB); memset (&loc_eng_data, 0, sizeof (loc_eng_data_s_type)); // LOC ENG module data initialization loc_eng_data.location_cb = callbacks->location_cb; loc_eng_data.sv_status_cb = callbacks->sv_status_cb; loc_eng_data.status_cb = callbacks->status_cb; loc_eng_data.nmea_cb = callbacks->nmea_cb; loc_eng_data.acquire_wakelock_cb = callbacks->acquire_wakelock_cb; loc_eng_data.release_wakelock_cb = callbacks->release_wakelock_cb; rpc_loc_event_mask_type event = RPC_LOC_EVENT_PARSED_POSITION_REPORT | RPC_LOC_EVENT_SATELLITE_REPORT | RPC_LOC_EVENT_LOCATION_SERVER_REQUEST | RPC_LOC_EVENT_ASSISTANCE_DATA_REQUEST | RPC_LOC_EVENT_IOCTL_REPORT | RPC_LOC_EVENT_STATUS_REPORT | RPC_LOC_EVENT_NMEA_POSITION_REPORT | RPC_LOC_EVENT_NI_NOTIFY_VERIFY_REQUEST; loc_eng_data.client_handle = loc_open (event, loc_event_cb); pthread_mutex_init (&(loc_eng_data.deferred_action_mutex), NULL); pthread_cond_init (&(loc_eng_data.deferred_action_cond) , NULL); pthread_mutex_init (&(loc_eng_data.deferred_stop_mutex), NULL); loc_eng_data.loc_event = 0; loc_eng_data.deferred_action_flags = 0; memset (loc_eng_data.apn_name, 0, sizeof (loc_eng_data.apn_name)); loc_eng_data.aiding_data_for_deletion = 0; loc_eng_data.engine_status = GPS_STATUS_NONE; // XTRA module data initialization loc_eng_data.xtra_module_data.download_request_cb = NULL; // IOCTL module data initialization loc_eng_data.ioctl_data.cb_is_selected = FALSE; loc_eng_data.ioctl_data.cb_is_waiting = FALSE; loc_eng_data.ioctl_data.client_handle = RPC_LOC_CLIENT_HANDLE_INVALID; memset (&(loc_eng_data.ioctl_data.cb_payload), 0, sizeof (rpc_loc_ioctl_callback_s_type)); pthread_mutex_init (&(loc_eng_data.ioctl_data.cb_data_mutex), NULL); pthread_cond_init(&loc_eng_data.ioctl_data.cb_arrived_cond, NULL); loc_eng_data.deferred_action_thread = callbacks->create_thread_cb("loc_api", loc_eng_process_deferred_action, NULL); ALOGD ("loc_eng_init called, client id = %d\n", (int32) loc_eng_data.client_handle); return 0; } /*=========================================================================== FUNCTION loc_eng_cleanup DESCRIPTION Cleans location engine. The location client handle will be released. DEPENDENCIES None RETURN VALUE None SIDE EFFECTS N/A ===========================================================================*/ static void loc_eng_cleanup() { #if DISABLE_CLEANUP return; #else if (loc_eng_data.deferred_action_thread) { /* Terminate deferred action working thread */ pthread_mutex_lock(&loc_eng_data.deferred_action_mutex); /* hold a wake lock while events are pending for deferred_action_thread */ loc_eng_data.acquire_wakelock_cb(); loc_eng_data.deferred_action_flags |= DEFERRED_ACTION_QUIT; pthread_cond_signal(&loc_eng_data.deferred_action_cond); pthread_mutex_unlock(&loc_eng_data.deferred_action_mutex); void* ignoredValue; pthread_join(loc_eng_data.deferred_action_thread, &ignoredValue); loc_eng_data.deferred_action_thread = NULL; } // clean up (void) loc_close (loc_eng_data.client_handle); pthread_mutex_destroy (&loc_eng_data.deferred_action_mutex); pthread_cond_destroy (&loc_eng_data.deferred_action_cond); pthread_mutex_destroy (&loc_eng_data.ioctl_data.cb_data_mutex); pthread_cond_destroy (&loc_eng_data.ioctl_data.cb_arrived_cond); // Do not call this as it can result in the ARM9 crashing if it sends events while we are disabled // loc_apicb_app_deinit(); #endif } /*=========================================================================== FUNCTION loc_eng_start DESCRIPTION Starts the tracking session DEPENDENCIES None RETURN VALUE 0: success SIDE EFFECTS N/A ===========================================================================*/ static int loc_eng_start() { int ret_val; ALOGD ("loc_eng_start\n"); if (loc_eng_data.position_mode != GPS_POSITION_MODE_STANDALONE && loc_eng_data.agps_server_host[0] != 0 && loc_eng_data.agps_server_port != 0) { int result = set_agps_server(); ALOGD ("set_agps_server returned = %d\n", result); } ret_val = loc_start_fix (loc_eng_data.client_handle); if (ret_val != RPC_LOC_API_SUCCESS) { ALOGD ("loc_eng_start returned error = %d\n", ret_val); } return 0; } /*=========================================================================== FUNCTION loc_eng_stop DESCRIPTION Stops the tracking session DEPENDENCIES None RETURN VALUE 0: success SIDE EFFECTS N/A ===========================================================================*/ static int loc_eng_stop() { int ret_val; ALOGD ("loc_eng_stop\n"); pthread_mutex_lock(&(loc_eng_data.deferred_stop_mutex)); // work around problem with loc_eng_stop when AGPS requests are pending // we defer stopping the engine until the AGPS request is done if (loc_eng_data.agps_request_pending) { loc_eng_data.stop_request_pending = true; ALOGD ("deferring stop until AGPS data call is finished\n"); pthread_mutex_unlock(&(loc_eng_data.deferred_stop_mutex)); return 0; } pthread_mutex_unlock(&(loc_eng_data.deferred_stop_mutex)); ret_val = loc_stop_fix (loc_eng_data.client_handle); if (ret_val != RPC_LOC_API_SUCCESS) { ALOGD ("loc_eng_stop returned error = %d\n", ret_val); } return 0; } static int loc_eng_set_gps_lock(rpc_loc_lock_e_type lock_type) { rpc_loc_ioctl_data_u_type ioctl_data; boolean ret_val; ALOGD ("loc_eng_set_gps_lock mode, client = %d, lock_type = %d\n", (int32) loc_eng_data.client_handle, lock_type); ioctl_data.rpc_loc_ioctl_data_u_type_u.engine_lock = lock_type; ioctl_data.disc = RPC_LOC_IOCTL_SET_ENGINE_LOCK; ret_val = loc_eng_ioctl (loc_eng_data.client_handle, RPC_LOC_IOCTL_SET_ENGINE_LOCK, &ioctl_data, LOC_IOCTL_DEFAULT_TIMEOUT, NULL /* No output information is expected*/); if (ret_val != TRUE) { ALOGD ("loc_eng_set_gps_lock mode failed\n"); } return 0; } /*=========================================================================== FUNCTION loc_eng_set_position_mode DESCRIPTION Sets the mode and fix frequency for the tracking session. DEPENDENCIES None RETURN VALUE 0: success SIDE EFFECTS N/A ===========================================================================*/ static int loc_eng_set_position_mode(GpsPositionMode mode, GpsPositionRecurrence recurrence, uint32_t min_interval, uint32_t preferred_accuracy, uint32_t preferred_time) { rpc_loc_ioctl_data_u_type ioctl_data; rpc_loc_fix_criteria_s_type *fix_criteria_ptr; boolean ret_val; ALOGD ("loc_eng_set_position mode, client = %d, interval = %d, mode = %d\n", (int32) loc_eng_data.client_handle, min_interval, mode); loc_eng_data.position_mode = mode; ioctl_data.disc = RPC_LOC_IOCTL_SET_FIX_CRITERIA; fix_criteria_ptr = &(ioctl_data.rpc_loc_ioctl_data_u_type_u.fix_criteria); fix_criteria_ptr->valid_mask = RPC_LOC_FIX_CRIT_VALID_PREFERRED_OPERATION_MODE | RPC_LOC_FIX_CRIT_VALID_RECURRENCE_TYPE; switch (mode) { case GPS_POSITION_MODE_MS_BASED: fix_criteria_ptr->preferred_operation_mode = RPC_LOC_OPER_MODE_MSB; break; case GPS_POSITION_MODE_MS_ASSISTED: fix_criteria_ptr->preferred_operation_mode = RPC_LOC_OPER_MODE_MSA; break; case GPS_POSITION_MODE_STANDALONE: default: fix_criteria_ptr->preferred_operation_mode = RPC_LOC_OPER_MODE_STANDALONE; break; } if (min_interval > 0) { fix_criteria_ptr->min_interval = min_interval; fix_criteria_ptr->valid_mask |= RPC_LOC_FIX_CRIT_VALID_MIN_INTERVAL; } if (preferred_accuracy > 0) { fix_criteria_ptr->preferred_accuracy = preferred_accuracy; fix_criteria_ptr->valid_mask |= RPC_LOC_FIX_CRIT_VALID_PREFERRED_ACCURACY; } if (preferred_time > 0) { fix_criteria_ptr->preferred_response_time = preferred_time; fix_criteria_ptr->valid_mask |= RPC_LOC_FIX_CRIT_VALID_PREFERRED_RESPONSE_TIME; } switch (recurrence) { case GPS_POSITION_RECURRENCE_SINGLE: fix_criteria_ptr->recurrence_type = RPC_LOC_SINGLE_FIX; break; case GPS_POSITION_RECURRENCE_PERIODIC: default: fix_criteria_ptr->recurrence_type = RPC_LOC_PERIODIC_FIX; break; } ret_val = loc_eng_ioctl(loc_eng_data.client_handle, RPC_LOC_IOCTL_SET_FIX_CRITERIA, &ioctl_data, LOC_IOCTL_DEFAULT_TIMEOUT, NULL /* No output information is expected*/); if (ret_val != TRUE) { ALOGD ("loc_eng_set_position mode failed\n"); } return 0; } /*=========================================================================== FUNCTION loc_eng_inject_time DESCRIPTION This is used by Java native function to do time injection. DEPENDENCIES None RETURN VALUE RPC_LOC_API_SUCCESS SIDE EFFECTS N/A ===========================================================================*/ static int loc_eng_inject_time (GpsUtcTime time, int64_t timeReference, int uncertainty) { rpc_loc_ioctl_data_u_type ioctl_data; rpc_loc_assist_data_time_s_type *time_info_ptr; boolean ret_val; ALOGD ("loc_eng_inject_time, uncertainty = %d\n", uncertainty); ioctl_data.disc = RPC_LOC_IOCTL_INJECT_UTC_TIME; time_info_ptr = &(ioctl_data.rpc_loc_ioctl_data_u_type_u.assistance_data_time); time_info_ptr->time_utc = time; time_info_ptr->time_utc += (int64_t)(android::elapsedRealtime() - timeReference); time_info_ptr->uncertainty = uncertainty; // Uncertainty in ms ret_val = loc_eng_ioctl (loc_eng_data.client_handle, RPC_LOC_IOCTL_INJECT_UTC_TIME, &ioctl_data, LOC_IOCTL_DEFAULT_TIMEOUT, NULL /* No output information is expected*/); if (ret_val != TRUE) { ALOGD ("loc_eng_inject_time failed\n"); } return 0; } static int loc_eng_inject_location (double latitude, double longitude, float accuracy) { /* not yet implemented */ return 0; } /*=========================================================================== FUNCTION loc_eng_delete_aiding_data DESCRIPTION This is used by Java native function to delete the aiding data. The function updates the global variable for the aiding data to be deleted. If the GPS engine is off, the aiding data will be deleted. Otherwise, the actual action will happen when gps engine is turned off. DEPENDENCIES Assumes the aiding data type specified in GpsAidingData matches with LOC API specification. RETURN VALUE RPC_LOC_API_SUCCESS SIDE EFFECTS N/A ===========================================================================*/ static void loc_eng_delete_aiding_data (GpsAidingData f) { pthread_mutex_lock(&(loc_eng_data.deferred_action_mutex)); // Currently, LOC API only support deletion of all aiding data, if (f) loc_eng_data.aiding_data_for_deletion = GPS_DELETE_ALL; if ((loc_eng_data.engine_status != GPS_STATUS_SESSION_BEGIN) && (loc_eng_data.aiding_data_for_deletion != 0)) { /* hold a wake lock while events are pending for deferred_action_thread */ loc_eng_data.acquire_wakelock_cb(); loc_eng_data.deferred_action_flags |= DEFERRED_ACTION_DELETE_AIDING; pthread_cond_signal(&(loc_eng_data.deferred_action_cond)); // In case gps engine is ON, the assistance data will be deleted when the engine is OFF } pthread_mutex_unlock(&(loc_eng_data.deferred_action_mutex)); } /*=========================================================================== FUNCTION loc_eng_get_extension DESCRIPTION Get the gps extension to support XTRA. DEPENDENCIES N/A RETURN VALUE The GPS extension interface. SIDE EFFECTS N/A ===========================================================================*/ static const void* loc_eng_get_extension(const char* name) { if (strcmp(name, GPS_XTRA_INTERFACE) == 0) { return &sLocEngXTRAInterface; } else if (strcmp(name, AGPS_INTERFACE) == 0) { return &sLocEngAGpsInterface; } else if (strcmp(name, GPS_NI_INTERFACE) == 0) { return &sLocEngNiInterface; } return NULL; } #if DEBUG_MOCK_NI == 1 /*=========================================================================== FUNCTION mock_ni DESCRIPTION DEBUG tool: simulate an NI request DEPENDENCIES N/A RETURN VALUE None SIDE EFFECTS N/A ===========================================================================*/ static void* mock_ni(void* arg) { static int busy = 0; if (busy) return NULL; busy = 1; sleep(5); rpc_loc_client_handle_type client_handle; rpc_loc_event_mask_type loc_event; rpc_loc_event_payload_u_type payload; rpc_loc_ni_event_s_type *ni_req; rpc_loc_ni_supl_notify_verify_req_s_type *supl_req; client_handle = (rpc_loc_client_handle_type) arg; loc_event = RPC_LOC_EVENT_NI_NOTIFY_VERIFY_REQUEST; payload.disc = loc_event; ni_req = &payload.rpc_loc_event_payload_u_type_u.ni_request; ni_req->event = RPC_LOC_NI_EVENT_SUPL_NOTIFY_VERIFY_REQ; supl_req = &ni_req->payload.rpc_loc_ni_event_payload_u_type_u.supl_req; // Encodings for Spirent Communications char client_name[80] = {0x53,0x78,0x5A,0x5E,0x76,0xD3,0x41,0xC3,0x77, 0xBB,0x5D,0x77,0xA7,0xC7,0x61,0x7A,0xFA,0xED,0x9E,0x03}; char requestor_id[80] = {0x53,0x78,0x5A,0x5E,0x76,0xD3,0x41,0xC3,0x77, 0xBB,0x5D,0x77,0xA7,0xC7,0x61,0x7A,0xFA,0xED,0x9E,0x03}; supl_req->flags = RPC_LOC_NI_CLIENT_NAME_PRESENT | RPC_LOC_NI_REQUESTOR_ID_PRESENT | RPC_LOC_NI_ENCODING_TYPE_PRESENT; supl_req->datacoding_scheme = RPC_LOC_NI_SUPL_GSM_DEFAULT; supl_req->client_name.data_coding_scheme = RPC_LOC_NI_SUPL_GSM_DEFAULT; // no coding supl_req->client_name.client_name_string.client_name_string_len = strlen(client_name); supl_req->client_name.client_name_string.client_name_string_val = client_name; supl_req->client_name.string_len = strlen(client_name); supl_req->requestor_id.data_coding_scheme = RPC_LOC_NI_SUPL_GSM_DEFAULT; supl_req->requestor_id.requestor_id_string.requestor_id_string_len = strlen(requestor_id); supl_req->requestor_id.requestor_id_string.requestor_id_string_val = requestor_id; supl_req->requestor_id.string_len = strlen(requestor_id); supl_req->notification_priv_type = RPC_LOC_NI_USER_NOTIFY_VERIFY_ALLOW_NO_RESP; supl_req->user_response_timer = 10; loc_event_cb(client_handle, loc_event, &payload); busy = 0; return NULL; } #endif // DEBUG_MOCK_NI /*=========================================================================== FUNCTION loc_event_cb DESCRIPTION This is the callback function registered by loc_open. DEPENDENCIES N/A RETURN VALUE RPC_LOC_API_SUCCESS SIDE EFFECTS N/A ===========================================================================*/ static int32 loc_event_cb( rpc_loc_client_handle_type client_handle, rpc_loc_event_mask_type loc_event, const rpc_loc_event_payload_u_type* loc_event_payload ) { ALOGV ("loc_event_cb, client = %d, loc_event = 0x%x", (int32) client_handle, (uint32) loc_event); if (client_handle == loc_eng_data.client_handle) { pthread_mutex_lock(&loc_eng_data.deferred_action_mutex); loc_eng_data.loc_event = loc_event; memcpy(&loc_eng_data.loc_event_payload, loc_event_payload, sizeof(*loc_event_payload)); /* hold a wake lock while events are pending for deferred_action_thread */ loc_eng_data.acquire_wakelock_cb(); loc_eng_data.deferred_action_flags |= DEFERRED_ACTION_EVENT; pthread_cond_signal(&loc_eng_data.deferred_action_cond); pthread_mutex_unlock(&loc_eng_data.deferred_action_mutex); } else { ALOGD ("loc client mismatch: received = %d, expected = %d \n", (int32) client_handle, (int32) loc_eng_data.client_handle); } return RPC_LOC_API_SUCCESS; } /*=========================================================================== FUNCTION loc_eng_report_position DESCRIPTION Reports position information to the Java layer. DEPENDENCIES N/A RETURN VALUE N/A SIDE EFFECTS N/A ===========================================================================*/ static void loc_eng_report_position (const rpc_loc_parsed_position_s_type *location_report_ptr) { GpsLocation location; ALOGV ("loc_eng_report_position: location report, valid mask = 0x%x, sess status = %d\n", (uint32) location_report_ptr->valid_mask, location_report_ptr->session_status); memset (&location, 0, sizeof(location)); location.size = sizeof(location); if (location_report_ptr->valid_mask & RPC_LOC_POS_VALID_SESSION_STATUS) { // Not a position report, return if (location_report_ptr->session_status == RPC_LOC_SESS_STATUS_SUCCESS) { if (location_report_ptr->valid_mask & RPC_LOC_POS_VALID_TIMESTAMP_UTC) { location.timestamp = location_report_ptr->timestamp_utc; } if ((location_report_ptr->valid_mask & RPC_LOC_POS_VALID_LATITUDE) && (location_report_ptr->valid_mask & RPC_LOC_POS_VALID_LONGITUDE)) { location.flags |= GPS_LOCATION_HAS_LAT_LONG; location.latitude = location_report_ptr->latitude; location.longitude = location_report_ptr->longitude; } if (location_report_ptr->valid_mask & RPC_LOC_POS_VALID_ALTITUDE_WRT_ELLIPSOID ) { location.flags |= GPS_LOCATION_HAS_ALTITUDE; location.altitude = location_report_ptr->altitude_wrt_ellipsoid; } if ((location_report_ptr->valid_mask & RPC_LOC_POS_VALID_SPEED_HORIZONTAL) && (location_report_ptr->valid_mask & RPC_LOC_POS_VALID_SPEED_VERTICAL)) { location.flags |= GPS_LOCATION_HAS_SPEED; location.speed = sqrt(location_report_ptr->speed_horizontal * location_report_ptr->speed_horizontal + location_report_ptr->speed_vertical * location_report_ptr->speed_vertical); } if (location_report_ptr->valid_mask & RPC_LOC_POS_VALID_HEADING) { location.flags |= GPS_LOCATION_HAS_BEARING; location.bearing = location_report_ptr->heading; } if (location_report_ptr->valid_mask & RPC_LOC_POS_VALID_HOR_UNC_CIRCULAR) { location.flags |= GPS_LOCATION_HAS_ACCURACY; location.accuracy = location_report_ptr->hor_unc_circular; } if (loc_eng_data.location_cb != NULL) { ALOGV ("loc_eng_report_position: fire callback\n"); loc_eng_data.location_cb (&location); } } else { ALOGV ("loc_eng_report_position: ignore position report when session status = %d\n", location_report_ptr->session_status); } } else { ALOGV ("loc_eng_report_position: ignore position report when session status is not set\n"); } } /*=========================================================================== FUNCTION loc_eng_report_sv DESCRIPTION Reports GPS satellite information to the Java layer. DEPENDENCIES N/A RETURN VALUE N/A SIDE EFFECTS N/A ===========================================================================*/ static void loc_eng_report_sv (const rpc_loc_gnss_info_s_type *gnss_report_ptr) { GpsSvStatus SvStatus; int num_svs_max, i; const rpc_loc_sv_info_s_type *sv_info_ptr; ALOGV ("loc_eng_report_sv: valid_mask = 0x%x, num of sv = %d\n", (uint32) gnss_report_ptr->valid_mask, gnss_report_ptr->sv_count); num_svs_max = 0; memset (&SvStatus, 0, sizeof (GpsSvStatus)); if (gnss_report_ptr->valid_mask & RPC_LOC_GNSS_INFO_VALID_SV_COUNT) { num_svs_max = gnss_report_ptr->sv_count; if (num_svs_max > GPS_MAX_SVS) { num_svs_max = GPS_MAX_SVS; } } if (gnss_report_ptr->valid_mask & RPC_LOC_GNSS_INFO_VALID_SV_LIST) { SvStatus.num_svs = 0; for (i = 0; i < num_svs_max; i++) { sv_info_ptr = &(gnss_report_ptr->sv_list.sv_list_val[i]); if (sv_info_ptr->valid_mask & RPC_LOC_SV_INFO_VALID_SYSTEM) { if (sv_info_ptr->system == RPC_LOC_SV_SYSTEM_GPS) { SvStatus.sv_list[SvStatus.num_svs].size = sizeof(GpsSvStatus); SvStatus.sv_list[SvStatus.num_svs].prn = sv_info_ptr->prn; // We only have the data field to report gps eph and alm mask if ((sv_info_ptr->valid_mask & RPC_LOC_SV_INFO_VALID_HAS_EPH) && (sv_info_ptr->has_eph == 1)) { SvStatus.ephemeris_mask |= (1 << (sv_info_ptr->prn-1)); } if ((sv_info_ptr->valid_mask & RPC_LOC_SV_INFO_VALID_HAS_ALM) && (sv_info_ptr->has_alm == 1)) { SvStatus.almanac_mask |= (1 << (sv_info_ptr->prn-1)); } if ((sv_info_ptr->valid_mask & RPC_LOC_SV_INFO_VALID_PROCESS_STATUS) && (sv_info_ptr->process_status == RPC_LOC_SV_STATUS_TRACK)) { SvStatus.used_in_fix_mask |= (1 << (sv_info_ptr->prn-1)); } } // SBAS: GPS RPN: 120-151, // In exteneded measurement report, we follow nmea standard, which is from 33-64. else if (sv_info_ptr->system == RPC_LOC_SV_SYSTEM_SBAS) { SvStatus.sv_list[SvStatus.num_svs].prn = sv_info_ptr->prn + 33 - 120; } // Gloness: Slot id: 1-32 // In extended measurement report, we follow nmea standard, which is 65-96 else if (sv_info_ptr->system == RPC_LOC_SV_SYSTEM_GLONASS) { SvStatus.sv_list[SvStatus.num_svs].prn = sv_info_ptr->prn + (65-1); } // Unsupported SV system else { continue; } } if (sv_info_ptr->valid_mask & RPC_LOC_SV_INFO_VALID_SNR) { SvStatus.sv_list[SvStatus.num_svs].snr = sv_info_ptr->snr; } if (sv_info_ptr->valid_mask & RPC_LOC_SV_INFO_VALID_ELEVATION) { SvStatus.sv_list[SvStatus.num_svs].elevation = sv_info_ptr->elevation; } if (sv_info_ptr->valid_mask & RPC_LOC_SV_INFO_VALID_AZIMUTH) { SvStatus.sv_list[SvStatus.num_svs].azimuth = sv_info_ptr->azimuth; } SvStatus.num_svs++; } } ALOGV ("num_svs = %d, eph mask = %d, alm mask = %d\n", SvStatus.num_svs, SvStatus.ephemeris_mask, SvStatus.almanac_mask ); if ((SvStatus.num_svs != 0) && (loc_eng_data.sv_status_cb != NULL)) { loc_eng_data.sv_status_cb(&SvStatus); } } /*=========================================================================== FUNCTION loc_eng_report_status DESCRIPTION Reports GPS engine state to Java layer. DEPENDENCIES N/A RETURN VALUE N/A SIDE EFFECTS N/A ===========================================================================*/ static void loc_eng_report_status (const rpc_loc_status_event_s_type *status_report_ptr) { GpsStatus status; ALOGV ("loc_eng_report_status: event = %d\n", status_report_ptr->event); memset (&status, 0, sizeof(status)); status.size = sizeof(status); status.status = GPS_STATUS_NONE; if (status_report_ptr->event == RPC_LOC_STATUS_EVENT_ENGINE_STATE) { if (status_report_ptr->payload.rpc_loc_status_event_payload_u_type_u.engine_state == RPC_LOC_ENGINE_STATE_ON) { // GPS_STATUS_SESSION_BEGIN implies GPS_STATUS_ENGINE_ON status.status = GPS_STATUS_SESSION_BEGIN; loc_eng_data.status_cb(&status); } else if (status_report_ptr->payload.rpc_loc_status_event_payload_u_type_u.engine_state == RPC_LOC_ENGINE_STATE_OFF) { // GPS_STATUS_SESSION_END implies GPS_STATUS_ENGINE_OFF status.status = GPS_STATUS_ENGINE_OFF; loc_eng_data.status_cb(&status); } } pthread_mutex_lock(&loc_eng_data.deferred_action_mutex); loc_eng_data.engine_status = status.status; // Wake up the thread for aiding data deletion. if ((loc_eng_data.engine_status != GPS_STATUS_SESSION_BEGIN) && (loc_eng_data.aiding_data_for_deletion != 0)) { /* hold a wake lock while events are pending for deferred_action_thread */ loc_eng_data.acquire_wakelock_cb(); loc_eng_data.deferred_action_flags |= DEFERRED_ACTION_DELETE_AIDING; pthread_cond_signal(&(loc_eng_data.deferred_action_cond)); // In case gps engine is ON, the assistance data will be deleted when the engine is OFF } pthread_mutex_unlock(&loc_eng_data.deferred_action_mutex); } static void loc_eng_report_nmea (const rpc_loc_nmea_report_s_type *nmea_report_ptr) { if (loc_eng_data.nmea_cb != NULL) { struct timeval tv; gettimeofday(&tv, (struct timezone *) NULL); long long now = tv.tv_sec * 1000LL + tv.tv_usec / 1000; #if (AMSS_VERSION==3200) loc_eng_data.nmea_cb(now, nmea_report_ptr->nmea_sentences.nmea_sentences_val, nmea_report_ptr->nmea_sentences.nmea_sentences_len); #else loc_eng_data.nmea_cb(now, nmea_report_ptr->nmea_sentences, nmea_report_ptr->length); #endif } } /*=========================================================================== FUNCTION loc_eng_process_conn_request DESCRIPTION Requests data connection to be brought up/tore down with the location server. DEPENDENCIES N/A RETURN VALUE N/A SIDE EFFECTS N/A ===========================================================================*/ static void loc_eng_process_conn_request (const rpc_loc_server_request_s_type *server_request_ptr) { ALOGD ("loc_event_cb: get loc event location server request, event = %d\n", server_request_ptr->event); // Signal DeferredActionThread to send the APN name pthread_mutex_lock(&loc_eng_data.deferred_action_mutex); // This implemenation is based on the fact that modem now at any time has only one data connection for AGPS at any given time if (server_request_ptr->event == RPC_LOC_SERVER_REQUEST_OPEN) { loc_eng_data.conn_handle = server_request_ptr->payload.rpc_loc_server_request_u_type_u.open_req.conn_handle; loc_eng_data.agps_status = GPS_REQUEST_AGPS_DATA_CONN; loc_eng_data.agps_request_pending = true; } else { loc_eng_data.conn_handle = server_request_ptr->payload.rpc_loc_server_request_u_type_u.close_req.conn_handle; loc_eng_data.agps_status = GPS_RELEASE_AGPS_DATA_CONN; loc_eng_data.agps_request_pending = false; } /* hold a wake lock while events are pending for deferred_action_thread */ loc_eng_data.acquire_wakelock_cb(); loc_eng_data.deferred_action_flags |= DEFERRED_ACTION_AGPS_STATUS; pthread_cond_signal(&loc_eng_data.deferred_action_cond); pthread_mutex_unlock(&loc_eng_data.deferred_action_mutex); } /*=========================================================================== FUNCTION loc_eng_agps_init DESCRIPTION DEPENDENCIES NONE RETURN VALUE 0 SIDE EFFECTS N/A ===========================================================================*/ static void loc_eng_agps_init(AGpsCallbacks* callbacks) { ALOGV("loc_eng_agps_init\n"); loc_eng_data.agps_status_cb = callbacks->status_cb; } static int loc_eng_agps_data_conn_open(const char* apn) { int apn_len; ALOGD("loc_eng_agps_data_conn_open: %s\n", apn); pthread_mutex_lock(&(loc_eng_data.deferred_action_mutex)); if (apn != NULL) { apn_len = strlen (apn); if (apn_len >= sizeof(loc_eng_data.apn_name)) { ALOGD ("loc_eng_set_apn: error, apn name exceeds maximum lenght of 100 chars\n"); apn_len = sizeof(loc_eng_data.apn_name) - 1; } memcpy (loc_eng_data.apn_name, apn, apn_len); loc_eng_data.apn_name[apn_len] = '\0'; } /* hold a wake lock while events are pending for deferred_action_thread */ loc_eng_data.acquire_wakelock_cb(); loc_eng_data.deferred_action_flags |= DEFERRED_ACTION_AGPS_DATA_SUCCESS; pthread_cond_signal(&(loc_eng_data.deferred_action_cond)); pthread_mutex_unlock(&(loc_eng_data.deferred_action_mutex)); return 0; } static int loc_eng_agps_data_conn_closed() { ALOGD("loc_eng_agps_data_conn_closed\n"); pthread_mutex_lock(&(loc_eng_data.deferred_action_mutex)); /* hold a wake lock while events are pending for deferred_action_thread */ loc_eng_data.acquire_wakelock_cb(); loc_eng_data.deferred_action_flags |= DEFERRED_ACTION_AGPS_DATA_CLOSED; pthread_cond_signal(&(loc_eng_data.deferred_action_cond)); pthread_mutex_unlock(&(loc_eng_data.deferred_action_mutex)); return 0; } static int loc_eng_agps_data_conn_failed() { ALOGD("loc_eng_agps_data_conn_failed\n"); pthread_mutex_lock(&(loc_eng_data.deferred_action_mutex)); /* hold a wake lock while events are pending for deferred_action_thread */ loc_eng_data.acquire_wakelock_cb(); loc_eng_data.deferred_action_flags |= DEFERRED_ACTION_AGPS_DATA_FAILED; pthread_cond_signal(&(loc_eng_data.deferred_action_cond)); pthread_mutex_unlock(&(loc_eng_data.deferred_action_mutex)); return 0; } static int set_agps_server() { rpc_loc_ioctl_data_u_type ioctl_data; rpc_loc_server_info_s_type *server_info_ptr; boolean ret_val; uint16 port_temp; unsigned char *b_ptr; if (loc_eng_data.agps_server_host[0] == 0 || loc_eng_data.agps_server_port == 0) return -1; if (loc_eng_data.agps_server_address == 0) { struct hostent* he = gethostbyname(loc_eng_data.agps_server_host); if (he) loc_eng_data.agps_server_address = *(uint32_t *)he->h_addr_list[0]; } if (loc_eng_data.agps_server_address == 0) return -1; b_ptr = (unsigned char*) (&loc_eng_data.agps_server_address); server_info_ptr = &(ioctl_data.rpc_loc_ioctl_data_u_type_u.server_addr); ioctl_data.disc = RPC_LOC_IOCTL_SET_UMTS_SLP_SERVER_ADDR; server_info_ptr->addr_type = RPC_LOC_SERVER_ADDR_URL; server_info_ptr->addr_info.disc = RPC_LOC_SERVER_ADDR_URL; #if (AMSS_VERSION==3200) char url[24]; memset(url, 0, sizeof(url)); snprintf(url, sizeof(url) - 1, "%d.%d.%d.%d:%d", (*(b_ptr + 0) & 0x000000ff), (*(b_ptr+1) & 0x000000ff), (*(b_ptr + 2) & 0x000000ff), (*(b_ptr+3) & 0x000000ff), (loc_eng_data.agps_server_port & (0x0000ffff))); server_info_ptr->addr_info.rpc_loc_server_addr_u_type_u.url.addr.addr_val = url; server_info_ptr->addr_info.rpc_loc_server_addr_u_type_u.url.addr.addr_len = strlen(url); ALOGD ("set_agps_server, addr = %s\n", server_info_ptr->addr_info.rpc_loc_server_addr_u_type_u.url.addr.addr_val); #else char* buf = server_info_ptr->addr_info.rpc_loc_server_addr_u_type_u.url.addr; int buf_len = sizeof(server_info_ptr->addr_info.rpc_loc_server_addr_u_type_u.url.addr); memset(buf, 0, buf_len); snprintf(buf, buf_len - 1, "%d.%d.%d.%d:%d", (*(b_ptr + 0) & 0x000000ff), (*(b_ptr+1) & 0x000000ff), (*(b_ptr + 2) & 0x000000ff), (*(b_ptr+3) & 0x000000ff), (loc_eng_data.agps_server_port & (0x0000ffff))); server_info_ptr->addr_info.rpc_loc_server_addr_u_type_u.url.length = buf_len; ALOGD ("set_agps_server, addr = %s\n", buf); #endif ret_val = loc_eng_ioctl (loc_eng_data.client_handle, RPC_LOC_IOCTL_SET_UMTS_SLP_SERVER_ADDR, &ioctl_data, LOC_IOCTL_DEFAULT_TIMEOUT, NULL /* No output information is expected*/); if (ret_val != TRUE) { ALOGD ("set_agps_server failed\n"); return -1; } else { ALOGV ("set_agps_server successful\n"); return 0; } } static int loc_eng_agps_set_server(AGpsType type, const char* hostname, int port) { ALOGD ("loc_eng_set_default_agps_server, type = %d, hostname = %s, port = %d\n", type, hostname, port); if (type != AGPS_TYPE_SUPL) return -1; strncpy(loc_eng_data.agps_server_host, hostname, sizeof(loc_eng_data.agps_server_host) - 1); loc_eng_data.agps_server_port = port; return 0; } /*=========================================================================== FUNCTION loc_eng_delete_aiding_data_deferred_action DESCRIPTION This is used to remove the aiding data when GPS engine is off. DEPENDENCIES Assumes the aiding data type specified in GpsAidingData matches with LOC API specification. RETURN VALUE RPC_LOC_API_SUCCESS SIDE EFFECTS N/A ===========================================================================*/ static void loc_eng_delete_aiding_data_deferred_action (void) { // Currently, we only support deletion of all aiding data, // since the Android defined aiding data mask matches with modem, // so just pass them down without any translation rpc_loc_ioctl_data_u_type ioctl_data; rpc_loc_assist_data_delete_s_type *assist_data_ptr; boolean ret_val; ioctl_data.disc = RPC_LOC_IOCTL_DELETE_ASSIST_DATA; assist_data_ptr = &(ioctl_data.rpc_loc_ioctl_data_u_type_u.assist_data_delete); assist_data_ptr->type = loc_eng_data.aiding_data_for_deletion; loc_eng_data.aiding_data_for_deletion = 0; memset (&(assist_data_ptr->reserved), 0, sizeof (assist_data_ptr->reserved)); ret_val = loc_eng_ioctl (loc_eng_data.client_handle, RPC_LOC_IOCTL_DELETE_ASSIST_DATA , &ioctl_data, LOC_IOCTL_DEFAULT_TIMEOUT, NULL); ALOGD("loc_eng_ioctl for aiding data deletion returned %d, 1 for success\n", ret_val); } /*=========================================================================== FUNCTION loc_eng_process_atl_deferred_action DESCRIPTION This is used to inform the location engine of the processing status for data connection open/close request. DEPENDENCIES None RETURN VALUE RPC_LOC_API_SUCCESS SIDE EFFECTS N/A ===========================================================================*/ static void loc_eng_process_atl_deferred_action (int flags) { rpc_loc_server_open_status_s_type *conn_open_status_ptr; rpc_loc_server_close_status_s_type *conn_close_status_ptr; rpc_loc_ioctl_data_u_type ioctl_data; boolean ret_val; int agps_status = -1; ALOGV("loc_eng_process_atl_deferred_action, agps_status = %d\n", loc_eng_data.agps_status); memset (&ioctl_data, 0, sizeof (rpc_loc_ioctl_data_u_type)); if (flags & DEFERRED_ACTION_AGPS_DATA_CLOSED) { ioctl_data.disc = RPC_LOC_IOCTL_INFORM_SERVER_CLOSE_STATUS; conn_close_status_ptr = &(ioctl_data.rpc_loc_ioctl_data_u_type_u.conn_close_status); conn_close_status_ptr->conn_handle = loc_eng_data.conn_handle; conn_close_status_ptr->close_status = RPC_LOC_SERVER_CLOSE_SUCCESS; } else { ioctl_data.disc = RPC_LOC_IOCTL_INFORM_SERVER_OPEN_STATUS; conn_open_status_ptr = &ioctl_data.rpc_loc_ioctl_data_u_type_u.conn_open_status; conn_open_status_ptr->conn_handle = loc_eng_data.conn_handle; if (flags & DEFERRED_ACTION_AGPS_DATA_SUCCESS) { conn_open_status_ptr->open_status = RPC_LOC_SERVER_OPEN_SUCCESS; // Both buffer are of the same maximum size, and the source is null terminated // strcpy (&(ioctl_data.rpc_loc_ioctl_data_u_type_u.conn_open_status.apn_name), &(loc_eng_data.apn_name)); #if (AMSS_VERSION==3200) conn_open_status_ptr->apn_name = loc_eng_data.apn_name; #else memset(conn_open_status_ptr->apn_name, 0, sizeof(conn_open_status_ptr->apn_name)); strncpy(conn_open_status_ptr->apn_name, loc_eng_data.apn_name, sizeof(conn_open_status_ptr->apn_name) - 1); #endif // Delay this so that PDSM ATL module will behave properly sleep (1); ALOGD("loc_eng_ioctl for ATL with apn_name = %s\n", conn_open_status_ptr->apn_name); } else // data_connection_failed { conn_open_status_ptr->open_status = RPC_LOC_SERVER_OPEN_FAIL; } // Delay this so that PDSM ATL module will behave properly sleep (1); } ret_val = loc_eng_ioctl (loc_eng_data.client_handle, ioctl_data.disc, &ioctl_data, LOC_IOCTL_DEFAULT_TIMEOUT, NULL); ALOGD("loc_eng_ioctl for ATL returned %d (1 for success)\n", ret_val); } /*=========================================================================== FUNCTION loc_eng_process_loc_event DESCRIPTION This is used to process events received from the location engine. DEPENDENCIES None RETURN VALUE N/A SIDE EFFECTS N/A ===========================================================================*/ static void loc_eng_process_loc_event (rpc_loc_event_mask_type loc_event, rpc_loc_event_payload_u_type* loc_event_payload) { if (loc_event & RPC_LOC_EVENT_PARSED_POSITION_REPORT) { loc_eng_report_position (&(loc_event_payload->rpc_loc_event_payload_u_type_u.parsed_location_report)); } if (loc_event & RPC_LOC_EVENT_SATELLITE_REPORT) { loc_eng_report_sv (&(loc_event_payload->rpc_loc_event_payload_u_type_u.gnss_report)); } if (loc_event & RPC_LOC_EVENT_STATUS_REPORT) { loc_eng_report_status (&(loc_event_payload->rpc_loc_event_payload_u_type_u.status_report)); } if (loc_event & RPC_LOC_EVENT_NMEA_POSITION_REPORT) { loc_eng_report_nmea (&(loc_event_payload->rpc_loc_event_payload_u_type_u.nmea_report)); } // Android XTRA interface supports only XTRA download if (loc_event & RPC_LOC_EVENT_ASSISTANCE_DATA_REQUEST) { if (loc_event_payload->rpc_loc_event_payload_u_type_u.assist_data_request.event == RPC_LOC_ASSIST_DATA_PREDICTED_ORBITS_REQ) { ALOGD ("loc_event_cb: xtra download requst"); // Call Registered callback if (loc_eng_data.xtra_module_data.download_request_cb != NULL) { loc_eng_data.xtra_module_data.download_request_cb (); } } } if (loc_event & RPC_LOC_EVENT_IOCTL_REPORT) { // Process the received RPC_LOC_EVENT_IOCTL_REPORT (void) loc_eng_ioctl_process_cb (loc_eng_data.client_handle, &(loc_event_payload->rpc_loc_event_payload_u_type_u.ioctl_report)); } if (loc_event & RPC_LOC_EVENT_LOCATION_SERVER_REQUEST) { loc_eng_process_conn_request (&(loc_event_payload->rpc_loc_event_payload_u_type_u.loc_server_request)); } loc_eng_ni_callback(loc_event, loc_event_payload); #if DEBUG_MOCK_NI == 1 // DEBUG only if ((loc_event & RPC_LOC_EVENT_STATUS_REPORT) && loc_event_payload->rpc_loc_event_payload_u_type_u.status_report. payload.rpc_loc_status_event_payload_u_type_u.engine_state == RPC_LOC_ENGINE_STATE_OFF) { // Mock an NI request pthread_t th; pthread_create (&th, NULL, mock_ni, (void*) client_handle); } #endif /* DEBUG_MOCK_NI == 1 */ } /*=========================================================================== FUNCTION loc_eng_process_deferred_action DESCRIPTION Main routine for the thread to execute certain commands that are not safe to be done from within an RPC callback. DEPENDENCIES None RETURN VALUE None SIDE EFFECTS N/A ===========================================================================*/ static void loc_eng_process_deferred_action (void* arg) { AGpsStatus status; status.size = sizeof(status); status.type = AGPS_TYPE_SUPL; ALOGD("loc_eng_process_deferred_action started\n"); // make sure we do not run in background scheduling group set_sched_policy(gettid(), SP_FOREGROUND); // disable the GPS lock ALOGD("Setting GPS privacy lock to RPC_LOC_LOCK_NONE\n"); loc_eng_set_gps_lock(RPC_LOC_LOCK_NONE); while (1) { GpsAidingData aiding_data_for_deletion; GpsStatusValue engine_status; rpc_loc_event_mask_type loc_event; rpc_loc_event_payload_u_type loc_event_payload; // Wait until we are signalled to do a deferred action, or exit pthread_mutex_lock(&loc_eng_data.deferred_action_mutex); // If we have an event we should process it immediately, // otherwise wait until we are signalled if (loc_eng_data.deferred_action_flags == 0) { // do not hold a wake lock while waiting for an event... loc_eng_data.release_wakelock_cb(); pthread_cond_wait(&loc_eng_data.deferred_action_cond, &loc_eng_data.deferred_action_mutex); // but after we are signalled reacquire the wake lock // until we are done processing the event. loc_eng_data.acquire_wakelock_cb(); } if (loc_eng_data.deferred_action_flags & DEFERRED_ACTION_QUIT) { pthread_mutex_unlock(&loc_eng_data.deferred_action_mutex); break; } // copy anything we need before releasing the mutex loc_event = loc_eng_data.loc_event; if (loc_event != 0) { memcpy(&loc_event_payload, &loc_eng_data.loc_event_payload, sizeof(loc_event_payload)); loc_eng_data.loc_event = 0; } int flags = loc_eng_data.deferred_action_flags; loc_eng_data.deferred_action_flags = 0; engine_status = loc_eng_data.agps_status; aiding_data_for_deletion = loc_eng_data.aiding_data_for_deletion; status.status = loc_eng_data.agps_status; loc_eng_data.agps_status = 0; // perform all actions after releasing the mutex to avoid blocking RPCs from the ARM9 pthread_mutex_unlock(&(loc_eng_data.deferred_action_mutex)); if (loc_event != 0) { loc_eng_process_loc_event(loc_event, &loc_event_payload); } // send_delete_aiding_data must be done when GPS engine is off if ((engine_status != GPS_STATUS_SESSION_BEGIN) && (aiding_data_for_deletion != 0)) { loc_eng_delete_aiding_data_deferred_action (); } if (flags & (DEFERRED_ACTION_AGPS_DATA_SUCCESS | DEFERRED_ACTION_AGPS_DATA_CLOSED | DEFERRED_ACTION_AGPS_DATA_FAILED)) { loc_eng_process_atl_deferred_action(flags); pthread_mutex_lock(&(loc_eng_data.deferred_stop_mutex)); // work around problem with loc_eng_stop when AGPS requests are pending // we defer stopping the engine until the AGPS request is done loc_eng_data.agps_request_pending = false; if (loc_eng_data.stop_request_pending) { ALOGD ("handling deferred stop\n"); if (loc_stop_fix(loc_eng_data.client_handle) != RPC_LOC_API_SUCCESS) { ALOGD ("loc_stop_fix failed!\n"); } } pthread_mutex_unlock(&(loc_eng_data.deferred_stop_mutex)); } if (status.status != 0 && loc_eng_data.agps_status_cb) { loc_eng_data.agps_status_cb(&status); } } // reenable the GPS lock ALOGD("Setting GPS privacy lock to RPC_LOC_LOCK_ALL\n"); loc_eng_set_gps_lock(RPC_LOC_LOCK_ALL); ALOGD("loc_eng_process_deferred_action thread exiting\n"); loc_eng_data.release_wakelock_cb(); loc_eng_data.deferred_action_thread = 0; } // for gps.c extern "C" const GpsInterface* get_gps_interface() { return &sLocEngInterface; }
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