/* * Copyright (C) 2013 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/license/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. */ #define LOG_TAG "FlpHardwareProvider" #define LOG_NDEBUG 0 #define WAKE_LOCK_NAME "FLP" #define LOCATION_CLASS_NAME "android/location/Location" #include "jni.h" #include "JNIHelp.h" #include "android_runtime/AndroidRuntime.h" #include "android_runtime/Log.h" #include "hardware/fused_location.h" #include "hardware_legacy/power.h" static jobject sCallbacksObj = NULL; static JNIEnv *sCallbackEnv = NULL; static hw_device_t* sHardwareDevice = NULL; static jmethodID sOnLocationReport = NULL; static jmethodID sOnDataReport = NULL; static jmethodID sOnGeofenceTransition = NULL; static jmethodID sOnGeofenceMonitorStatus = NULL; static jmethodID sOnGeofenceAdd = NULL; static jmethodID sOnGeofenceRemove = NULL; static jmethodID sOnGeofencePause = NULL; static jmethodID sOnGeofenceResume = NULL; static const FlpLocationInterface* sFlpInterface = NULL; static const FlpDiagnosticInterface* sFlpDiagnosticInterface = NULL; static const FlpGeofencingInterface* sFlpGeofencingInterface = NULL; static const FlpDeviceContextInterface* sFlpDeviceContextInterface = NULL; namespace android { static inline void CheckExceptions(JNIEnv* env, const char* methodName) { if(!env->ExceptionCheck()) { return; } ALOGE("An exception was thrown by '%s'.", methodName); LOGE_EX(env); env->ExceptionClear(); } static inline void ThrowOnError( JNIEnv* env, int resultCode, const char* methodName) { if(resultCode == FLP_RESULT_SUCCESS) { return; } ALOGE("Error %d in '%s'", resultCode, methodName); env->FatalError(methodName); } static bool IsValidCallbackThread() { JNIEnv* env = AndroidRuntime::getJNIEnv(); if(sCallbackEnv == NULL || sCallbackEnv != env) { ALOGE("CallbackThread check fail: env=%p, expected=%p", env, sCallbackEnv); return false; } return true; } static int SetThreadEvent(ThreadEvent event) { JavaVM* javaVm = AndroidRuntime::getJavaVM(); switch(event) { case ASSOCIATE_JVM: { if(sCallbackEnv != NULL) { ALOGE( "Attempted to associate callback in '%s'. Callback already associated.", __FUNCTION__ ); return FLP_RESULT_ERROR; } JavaVMAttachArgs args = { JNI_VERSION_1_6, "FLP Service Callback Thread", /* group */ NULL }; jint attachResult = javaVm->AttachCurrentThread(&sCallbackEnv, &args); if (attachResult != 0) { ALOGE("Callback thread attachment error: %d", attachResult); return FLP_RESULT_ERROR; } ALOGV("Callback thread attached: %p", sCallbackEnv); break; } case DISASSOCIATE_JVM: { if (!IsValidCallbackThread()) { ALOGE( "Attempted to dissasociate an unnownk callback thread : '%s'.", __FUNCTION__ ); return FLP_RESULT_ERROR; } if (javaVm->DetachCurrentThread() != 0) { return FLP_RESULT_ERROR; } sCallbackEnv = NULL; break; } default: ALOGE("Invalid ThreadEvent request %d", event); return FLP_RESULT_ERROR; } return FLP_RESULT_SUCCESS; } /* * Initializes the FlpHardwareProvider class from the native side by opening * the HW module and obtaining the proper interfaces. */ static void ClassInit(JNIEnv* env, jclass clazz) { // get references to the Java provider methods sOnLocationReport = env->GetMethodID( clazz, "onLocationReport", "([Landroid/location/Location;)V"); sOnDataReport = env->GetMethodID( clazz, "onDataReport", "(Ljava/lang/String;)V" ); sOnGeofenceTransition = env->GetMethodID( clazz, "onGeofenceTransition", "(ILandroid/location/Location;IJI)V" ); sOnGeofenceMonitorStatus = env->GetMethodID( clazz, "onGeofenceMonitorStatus", "(IILandroid/location/Location;)V" ); sOnGeofenceAdd = env->GetMethodID(clazz, "onGeofenceAdd", "(II)V"); sOnGeofenceRemove = env->GetMethodID(clazz, "onGeofenceRemove", "(II)V"); sOnGeofencePause = env->GetMethodID(clazz, "onGeofencePause", "(II)V"); sOnGeofenceResume = env->GetMethodID(clazz, "onGeofenceResume", "(II)V"); } /* * Helper function to unwrap a java object back into a FlpLocation structure. */ static void TranslateFromObject( JNIEnv* env, jobject locationObject, FlpLocation& location) { location.size = sizeof(FlpLocation); location.flags = 0; jclass locationClass = env->GetObjectClass(locationObject); jmethodID getLatitude = env->GetMethodID(locationClass, "getLatitude", "()D"); location.latitude = env->CallDoubleMethod(locationObject, getLatitude); jmethodID getLongitude = env->GetMethodID(locationClass, "getLongitude", "()D"); location.longitude = env->CallDoubleMethod(locationObject, getLongitude); jmethodID getTime = env->GetMethodID(locationClass, "getTime", "()J"); location.timestamp = env->CallLongMethod(locationObject, getTime); location.flags |= FLP_LOCATION_HAS_LAT_LONG; jmethodID hasAltitude = env->GetMethodID(locationClass, "hasAltitude", "()Z"); if (env->CallBooleanMethod(locationObject, hasAltitude)) { jmethodID getAltitude = env->GetMethodID(locationClass, "getAltitude", "()D"); location.altitude = env->CallDoubleMethod(locationObject, getAltitude); location.flags |= FLP_LOCATION_HAS_ALTITUDE; } jmethodID hasSpeed = env->GetMethodID(locationClass, "hasSpeed", "()Z"); if (env->CallBooleanMethod(locationObject, hasSpeed)) { jmethodID getSpeed = env->GetMethodID(locationClass, "getSpeed", "()F"); location.speed = env->CallFloatMethod(locationObject, getSpeed); location.flags |= FLP_LOCATION_HAS_SPEED; } jmethodID hasBearing = env->GetMethodID(locationClass, "hasBearing", "()Z"); if (env->CallBooleanMethod(locationObject, hasBearing)) { jmethodID getBearing = env->GetMethodID(locationClass, "getBearing", "()F"); location.bearing = env->CallFloatMethod(locationObject, getBearing); location.flags |= FLP_LOCATION_HAS_BEARING; } jmethodID hasAccuracy = env->GetMethodID(locationClass, "hasAccuracy", "()Z"); if (env->CallBooleanMethod(locationObject, hasAccuracy)) { jmethodID getAccuracy = env->GetMethodID( locationClass, "getAccuracy", "()F" ); location.accuracy = env->CallFloatMethod(locationObject, getAccuracy); location.flags |= FLP_LOCATION_HAS_ACCURACY; } // TODO: wire sources_used if Location class exposes them env->DeleteLocalRef(locationClass); } /* * Helper function to unwrap FlpBatchOptions from the Java Runtime calls. */ static void TranslateFromObject( JNIEnv* env, jobject batchOptionsObject, FlpBatchOptions& batchOptions) { jclass batchOptionsClass = env->GetObjectClass(batchOptionsObject); jmethodID getMaxPower = env->GetMethodID( batchOptionsClass, "getMaxPowerAllocationInMW", "()D" ); batchOptions.max_power_allocation_mW = env->CallDoubleMethod( batchOptionsObject, getMaxPower ); jmethodID getPeriod = env->GetMethodID( batchOptionsClass, "getPeriodInNS", "()J" ); batchOptions.period_ns = env->CallLongMethod(batchOptionsObject, getPeriod); jmethodID getSourcesToUse = env->GetMethodID( batchOptionsClass, "getSourcesToUse", "()I" ); batchOptions.sources_to_use = env->CallIntMethod( batchOptionsObject, getSourcesToUse ); jmethodID getFlags = env->GetMethodID(batchOptionsClass, "getFlags", "()I"); batchOptions.flags = env->CallIntMethod(batchOptionsObject, getFlags); env->DeleteLocalRef(batchOptionsClass); } /* * Helper function to unwrap Geofence structures from the Java Runtime calls. */ static void TranslateGeofenceFromGeofenceHardwareRequestParcelable( JNIEnv* env, jobject geofenceRequestObject, Geofence& geofence) { jclass geofenceRequestClass = env->GetObjectClass(geofenceRequestObject); jmethodID getId = env->GetMethodID(geofenceRequestClass, "getId", "()I"); geofence.geofence_id = env->CallIntMethod(geofenceRequestObject, getId); jmethodID getType = env->GetMethodID(geofenceRequestClass, "getType", "()I"); // this works because GeofenceHardwareRequest.java and fused_location.h have // the same notion of geofence types GeofenceType type = (GeofenceType)env->CallIntMethod(geofenceRequestObject, getType); if(type != TYPE_CIRCLE) { ThrowOnError(env, FLP_RESULT_ERROR, __FUNCTION__); } geofence.data->type = type; GeofenceCircle& circle = geofence.data->geofence.circle; jmethodID getLatitude = env->GetMethodID( geofenceRequestClass, "getLatitude", "()D"); circle.latitude = env->CallDoubleMethod(geofenceRequestObject, getLatitude); jmethodID getLongitude = env->GetMethodID( geofenceRequestClass, "getLongitude", "()D"); circle.longitude = env->CallDoubleMethod(geofenceRequestObject, getLongitude); jmethodID getRadius = env->GetMethodID(geofenceRequestClass, "getRadius", "()D"); circle.radius_m = env->CallDoubleMethod(geofenceRequestObject, getRadius); GeofenceOptions* options = geofence.options; jmethodID getMonitorTransitions = env->GetMethodID( geofenceRequestClass, "getMonitorTransitions", "()I"); options->monitor_transitions = env->CallIntMethod( geofenceRequestObject, getMonitorTransitions); jmethodID getUnknownTimer = env->GetMethodID( geofenceRequestClass, "getUnknownTimer", "()I"); options->unknown_timer_ms = env->CallIntMethod(geofenceRequestObject, getUnknownTimer); jmethodID getNotificationResponsiveness = env->GetMethodID( geofenceRequestClass, "getNotificationResponsiveness", "()I"); options->notification_responsivenes_ms = env->CallIntMethod( geofenceRequestObject, getNotificationResponsiveness); jmethodID getLastTransition = env->GetMethodID( geofenceRequestClass, "getLastTransition", "()I"); options->last_transition = env->CallIntMethod(geofenceRequestObject, getLastTransition); // TODO: set data.sources_to_use when available env->DeleteLocalRef(geofenceRequestClass); } /* * Helper function to transform FlpLocation into a java object. */ static void TranslateToObject(const FlpLocation* location, jobject& locationObject) { jclass locationClass = sCallbackEnv->FindClass(LOCATION_CLASS_NAME); jmethodID locationCtor = sCallbackEnv->GetMethodID( locationClass, "", "(Ljava/lang/String;)V" ); // the provider is set in the upper JVM layer locationObject = sCallbackEnv->NewObject(locationClass, locationCtor, NULL); jint flags = location->flags; // set the valid information in the object if (flags & FLP_LOCATION_HAS_LAT_LONG) { jmethodID setLatitude = sCallbackEnv->GetMethodID( locationClass, "setLatitude", "(D)V" ); sCallbackEnv->CallVoidMethod(locationObject, setLatitude, location->latitude); jmethodID setLongitude = sCallbackEnv->GetMethodID( locationClass, "setLongitude", "(D)V" ); sCallbackEnv->CallVoidMethod( locationObject, setLongitude, location->longitude ); jmethodID setTime = sCallbackEnv->GetMethodID( locationClass, "setTime", "(J)V" ); sCallbackEnv->CallVoidMethod(locationObject, setTime, location->timestamp); } if (flags & FLP_LOCATION_HAS_ALTITUDE) { jmethodID setAltitude = sCallbackEnv->GetMethodID( locationClass, "setAltitude", "(D)V" ); sCallbackEnv->CallVoidMethod(locationObject, setAltitude, location->altitude); } if (flags & FLP_LOCATION_HAS_SPEED) { jmethodID setSpeed = sCallbackEnv->GetMethodID( locationClass, "setSpeed", "(F)V" ); sCallbackEnv->CallVoidMethod(locationObject, setSpeed, location->speed); } if (flags & FLP_LOCATION_HAS_BEARING) { jmethodID setBearing = sCallbackEnv->GetMethodID( locationClass, "setBearing", "(F)V" ); sCallbackEnv->CallVoidMethod(locationObject, setBearing, location->bearing); } if (flags & FLP_LOCATION_HAS_ACCURACY) { jmethodID setAccuracy = sCallbackEnv->GetMethodID( locationClass, "setAccuracy", "(F)V" ); sCallbackEnv->CallVoidMethod(locationObject, setAccuracy, location->accuracy); } // TODO: wire FlpLocation::sources_used when needed sCallbackEnv->DeleteLocalRef(locationClass); } /* * Helper function to serialize FlpLocation structures. */ static void TranslateToObjectArray( int32_t locationsCount, FlpLocation** locations, jobjectArray& locationsArray) { jclass locationClass = sCallbackEnv->FindClass(LOCATION_CLASS_NAME); locationsArray = sCallbackEnv->NewObjectArray( locationsCount, locationClass, /* initialElement */ NULL ); for (int i = 0; i < locationsCount; ++i) { jobject locationObject = NULL; TranslateToObject(locations[i], locationObject); sCallbackEnv->SetObjectArrayElement(locationsArray, i, locationObject); sCallbackEnv->DeleteLocalRef(locationObject); } sCallbackEnv->DeleteLocalRef(locationClass); } static void LocationCallback(int32_t locationsCount, FlpLocation** locations) { if(!IsValidCallbackThread()) { return; } if(locationsCount == 0 || locations == NULL) { ALOGE( "Invalid LocationCallback. Count: %d, Locations: %p", locationsCount, locations ); return; } jobjectArray locationsArray = NULL; TranslateToObjectArray(locationsCount, locations, locationsArray); sCallbackEnv->CallVoidMethod( sCallbacksObj, sOnLocationReport, locationsArray ); CheckExceptions(sCallbackEnv, __FUNCTION__); if(locationsArray != NULL) { sCallbackEnv->DeleteLocalRef(locationsArray); } } static void AcquireWakelock() { acquire_wake_lock(PARTIAL_WAKE_LOCK, WAKE_LOCK_NAME); } static void ReleaseWakelock() { release_wake_lock(WAKE_LOCK_NAME); } FlpCallbacks sFlpCallbacks = { sizeof(FlpCallbacks), LocationCallback, AcquireWakelock, ReleaseWakelock, SetThreadEvent }; static void ReportData(char* data, int length) { jstring stringData = NULL; if(length != 0 && data != NULL) { stringData = sCallbackEnv->NewString(reinterpret_cast(data), length); } else { ALOGE("Invalid ReportData callback. Length: %d, Data: %p", length, data); return; } sCallbackEnv->CallVoidMethod(sCallbacksObj, sOnDataReport, stringData); CheckExceptions(sCallbackEnv, __FUNCTION__); } FlpDiagnosticCallbacks sFlpDiagnosticCallbacks = { sizeof(FlpDiagnosticCallbacks), SetThreadEvent, ReportData }; static void GeofenceTransitionCallback( int32_t geofenceId, FlpLocation* location, int32_t transition, FlpUtcTime timestamp, uint32_t sourcesUsed ) { if(!IsValidCallbackThread()) { return; } if(location == NULL) { ALOGE("GeofenceTransition received with invalid location: %p", location); return; } jobject locationObject = NULL; TranslateToObject(location, locationObject); sCallbackEnv->CallVoidMethod( sCallbacksObj, sOnGeofenceTransition, geofenceId, locationObject, transition, timestamp, sourcesUsed ); CheckExceptions(sCallbackEnv, __FUNCTION__); if(locationObject != NULL) { sCallbackEnv->DeleteLocalRef(locationObject); } } static void GeofenceMonitorStatusCallback( int32_t status, uint32_t source, FlpLocation* lastLocation) { if(!IsValidCallbackThread()) { return; } jobject locationObject = NULL; if(lastLocation != NULL) { TranslateToObject(lastLocation, locationObject); } sCallbackEnv->CallVoidMethod( sCallbacksObj, sOnGeofenceMonitorStatus, status, source, locationObject ); CheckExceptions(sCallbackEnv, __FUNCTION__); if(locationObject != NULL) { sCallbackEnv->DeleteLocalRef(locationObject); } } static void GeofenceAddCallback(int32_t geofenceId, int32_t result) { if(!IsValidCallbackThread()) { return; } sCallbackEnv->CallVoidMethod(sCallbacksObj, sOnGeofenceAdd, geofenceId, result); CheckExceptions(sCallbackEnv, __FUNCTION__); } static void GeofenceRemoveCallback(int32_t geofenceId, int32_t result) { if(!IsValidCallbackThread()) { return; } sCallbackEnv->CallVoidMethod( sCallbacksObj, sOnGeofenceRemove, geofenceId, result ); CheckExceptions(sCallbackEnv, __FUNCTION__); } static void GeofencePauseCallback(int32_t geofenceId, int32_t result) { if(!IsValidCallbackThread()) { return; } sCallbackEnv->CallVoidMethod( sCallbacksObj, sOnGeofencePause, geofenceId, result ); CheckExceptions(sCallbackEnv, __FUNCTION__); } static void GeofenceResumeCallback(int32_t geofenceId, int32_t result) { if(!IsValidCallbackThread()) { return; } sCallbackEnv->CallVoidMethod( sCallbacksObj, sOnGeofenceResume, geofenceId, result ); CheckExceptions(sCallbackEnv, __FUNCTION__); } FlpGeofenceCallbacks sFlpGeofenceCallbacks = { sizeof(FlpGeofenceCallbacks), GeofenceTransitionCallback, GeofenceMonitorStatusCallback, GeofenceAddCallback, GeofenceRemoveCallback, GeofencePauseCallback, GeofenceResumeCallback, SetThreadEvent }; /* * Initializes the Fused Location Provider in the native side. It ensures that * the Flp interfaces are initialized properly. */ static void Init(JNIEnv* env, jobject obj) { if(sHardwareDevice != NULL) { ALOGD("Hardware Device already opened."); return; } const hw_module_t* module = NULL; int err = hw_get_module(FUSED_LOCATION_HARDWARE_MODULE_ID, &module); if(err != 0) { ALOGE("Error hw_get_module '%s': %d", FUSED_LOCATION_HARDWARE_MODULE_ID, err); return; } err = module->methods->open( module, FUSED_LOCATION_HARDWARE_MODULE_ID, &sHardwareDevice); if(err != 0) { ALOGE("Error opening device '%s': %d", FUSED_LOCATION_HARDWARE_MODULE_ID, err); return; } sFlpInterface = NULL; flp_device_t* flp_device = reinterpret_cast(sHardwareDevice); sFlpInterface = flp_device->get_flp_interface(flp_device); if(sFlpInterface != NULL) { sFlpDiagnosticInterface = reinterpret_cast( sFlpInterface->get_extension(FLP_DIAGNOSTIC_INTERFACE) ); sFlpGeofencingInterface = reinterpret_cast( sFlpInterface->get_extension(FLP_GEOFENCING_INTERFACE) ); sFlpDeviceContextInterface = reinterpret_cast( sFlpInterface->get_extension(FLP_DEVICE_CONTEXT_INTERFACE) ); } if(sCallbacksObj == NULL) { sCallbacksObj = env->NewGlobalRef(obj); } // initialize the Flp interfaces if(sFlpInterface == NULL || sFlpInterface->init(&sFlpCallbacks) != 0) { ThrowOnError(env, FLP_RESULT_ERROR, __FUNCTION__); } if(sFlpDiagnosticInterface != NULL) { sFlpDiagnosticInterface->init(&sFlpDiagnosticCallbacks); } if(sFlpGeofencingInterface != NULL) { sFlpGeofencingInterface->init(&sFlpGeofenceCallbacks); } // TODO: inject any device context if when needed } static jboolean IsSupported(JNIEnv* env, jclass clazz) { return sFlpInterface != NULL; } static jint GetBatchSize(JNIEnv* env, jobject object) { if(sFlpInterface == NULL) { ThrowOnError(env, FLP_RESULT_ERROR, __FUNCTION__); } return sFlpInterface->get_batch_size(); } static void StartBatching( JNIEnv* env, jobject object, jint id, jobject optionsObject) { if(sFlpInterface == NULL || optionsObject == NULL) { ThrowOnError(env, FLP_RESULT_ERROR, __FUNCTION__); } FlpBatchOptions options; TranslateFromObject(env, optionsObject, options); int result = sFlpInterface->start_batching(id, &options); ThrowOnError(env, result, __FUNCTION__); } static void UpdateBatchingOptions( JNIEnv* env, jobject object, jint id, jobject optionsObject) { if(sFlpInterface == NULL || optionsObject == NULL) { ThrowOnError(env, FLP_RESULT_ERROR, __FUNCTION__); } FlpBatchOptions options; TranslateFromObject(env, optionsObject, options); int result = sFlpInterface->update_batching_options(id, &options); ThrowOnError(env, result, __FUNCTION__); } static void StopBatching(JNIEnv* env, jobject object, jint id) { if(sFlpInterface == NULL) { ThrowOnError(env, FLP_RESULT_ERROR, __FUNCTION__); } sFlpInterface->stop_batching(id); } static void Cleanup(JNIEnv* env, jobject object) { if(sFlpInterface == NULL) { ThrowOnError(env, FLP_RESULT_ERROR, __FUNCTION__); } sFlpInterface->cleanup(); if(sCallbacksObj != NULL) { env->DeleteGlobalRef(sCallbacksObj); sCallbacksObj = NULL; } sFlpInterface = NULL; sFlpDiagnosticInterface = NULL; sFlpDeviceContextInterface = NULL; sFlpGeofencingInterface = NULL; if(sHardwareDevice != NULL) { sHardwareDevice->close(sHardwareDevice); sHardwareDevice = NULL; } } static void GetBatchedLocation(JNIEnv* env, jobject object, jint lastNLocations) { if(sFlpInterface == NULL) { ThrowOnError(env, FLP_RESULT_ERROR, __FUNCTION__); } sFlpInterface->get_batched_location(lastNLocations); } static void InjectLocation(JNIEnv* env, jobject object, jobject locationObject) { if(locationObject == NULL) { ALOGE("Invalid location for injection: %p", locationObject); ThrowOnError(env, FLP_RESULT_ERROR, __FUNCTION__); } if(sFlpInterface == NULL) { // there is no listener, bail return; } FlpLocation location; TranslateFromObject(env, locationObject, location); int result = sFlpInterface->inject_location(&location); if (result != FLP_RESULT_SUCCESS) { // do not throw but log, this operation should be fire and forget ALOGE("Error %d in '%s'", result, __FUNCTION__); } } static jboolean IsDiagnosticSupported() { return sFlpDiagnosticInterface != NULL; } static void InjectDiagnosticData(JNIEnv* env, jobject object, jstring stringData) { if(stringData == NULL) { ALOGE("Invalid diagnostic data for injection: %p", stringData); ThrowOnError(env, FLP_RESULT_ERROR, __FUNCTION__); } if(sFlpDiagnosticInterface == NULL) { ThrowOnError(env, FLP_RESULT_ERROR, __FUNCTION__); } int length = env->GetStringLength(stringData); const jchar* data = env->GetStringChars(stringData, /* isCopy */ NULL); if(data == NULL) { ThrowOnError(env, FLP_RESULT_ERROR, __FUNCTION__); } int result = sFlpDiagnosticInterface->inject_data((char*) data, length); ThrowOnError(env, result, __FUNCTION__); } static jboolean IsDeviceContextSupported() { return sFlpDeviceContextInterface != NULL; } static void InjectDeviceContext(JNIEnv* env, jobject object, jint enabledMask) { if(sFlpDeviceContextInterface == NULL) { ThrowOnError(env, FLP_RESULT_ERROR, __FUNCTION__); } int result = sFlpDeviceContextInterface->inject_device_context(enabledMask); ThrowOnError(env, result, __FUNCTION__); } static jboolean IsGeofencingSupported() { return sFlpGeofencingInterface != NULL; } static void AddGeofences( JNIEnv* env, jobject object, jobjectArray geofenceRequestsArray) { if(geofenceRequestsArray == NULL) { ALOGE("Invalid Geofences to add: %p", geofenceRequestsArray); ThrowOnError(env, FLP_RESULT_ERROR, __FUNCTION__); } if (sFlpGeofencingInterface == NULL) { ThrowOnError(env, FLP_RESULT_ERROR, __FUNCTION__); } jint geofenceRequestsCount = env->GetArrayLength(geofenceRequestsArray); if(geofenceRequestsCount == 0) { return; } Geofence* geofences = new Geofence[geofenceRequestsCount]; if (geofences == NULL) { ThrowOnError(env, FLP_RESULT_INSUFFICIENT_MEMORY, __FUNCTION__); } for (int i = 0; i < geofenceRequestsCount; ++i) { geofences[i].data = new GeofenceData(); geofences[i].options = new GeofenceOptions(); jobject geofenceObject = env->GetObjectArrayElement(geofenceRequestsArray, i); TranslateGeofenceFromGeofenceHardwareRequestParcelable(env, geofenceObject, geofences[i]); env->DeleteLocalRef(geofenceObject); } sFlpGeofencingInterface->add_geofences(geofenceRequestsCount, &geofences); if (geofences != NULL) { for(int i = 0; i < geofenceRequestsCount; ++i) { delete geofences[i].data; delete geofences[i].options; } delete[] geofences; } } static void PauseGeofence(JNIEnv* env, jobject object, jint geofenceId) { if(sFlpGeofencingInterface == NULL) { ThrowOnError(env, FLP_RESULT_ERROR, __FUNCTION__); } sFlpGeofencingInterface->pause_geofence(geofenceId); } static void ResumeGeofence( JNIEnv* env, jobject object, jint geofenceId, jint monitorTransitions) { if(sFlpGeofencingInterface == NULL) { ThrowOnError(env, FLP_RESULT_ERROR, __FUNCTION__); } sFlpGeofencingInterface->resume_geofence(geofenceId, monitorTransitions); } static void ModifyGeofenceOption( JNIEnv* env, jobject object, jint geofenceId, jint lastTransition, jint monitorTransitions, jint notificationResponsiveness, jint unknownTimer, jint sourcesToUse) { if(sFlpGeofencingInterface == NULL) { ThrowOnError(env, FLP_RESULT_ERROR, __FUNCTION__); } GeofenceOptions options = { lastTransition, monitorTransitions, notificationResponsiveness, unknownTimer, (uint32_t)sourcesToUse }; sFlpGeofencingInterface->modify_geofence_option(geofenceId, &options); } static void RemoveGeofences( JNIEnv* env, jobject object, jintArray geofenceIdsArray) { if(sFlpGeofencingInterface == NULL) { ThrowOnError(env, FLP_RESULT_ERROR, __FUNCTION__); } jsize geofenceIdsCount = env->GetArrayLength(geofenceIdsArray); jint* geofenceIds = env->GetIntArrayElements(geofenceIdsArray, /* isCopy */ NULL); if(geofenceIds == NULL) { ThrowOnError(env, FLP_RESULT_ERROR, __FUNCTION__); } sFlpGeofencingInterface->remove_geofences(geofenceIdsCount, geofenceIds); env->ReleaseIntArrayElements(geofenceIdsArray, geofenceIds, 0 /*mode*/); } static JNINativeMethod sMethods[] = { //{"name", "signature", functionPointer } {"nativeClassInit", "()V", reinterpret_cast(ClassInit)}, {"nativeInit", "()V", reinterpret_cast(Init)}, {"nativeCleanup", "()V", reinterpret_cast(Cleanup)}, {"nativeIsSupported", "()Z", reinterpret_cast(IsSupported)}, {"nativeGetBatchSize", "()I", reinterpret_cast(GetBatchSize)}, {"nativeStartBatching", "(ILandroid/location/FusedBatchOptions;)V", reinterpret_cast(StartBatching)}, {"nativeUpdateBatchingOptions", "(ILandroid/location/FusedBatchOptions;)V", reinterpret_cast(UpdateBatchingOptions)}, {"nativeStopBatching", "(I)V", reinterpret_cast(StopBatching)}, {"nativeRequestBatchedLocation", "(I)V", reinterpret_cast(GetBatchedLocation)}, {"nativeInjectLocation", "(Landroid/location/Location;)V", reinterpret_cast(InjectLocation)}, {"nativeIsDiagnosticSupported", "()Z", reinterpret_cast(IsDiagnosticSupported)}, {"nativeInjectDiagnosticData", "(Ljava/lang/String;)V", reinterpret_cast(InjectDiagnosticData)}, {"nativeIsDeviceContextSupported", "()Z", reinterpret_cast(IsDeviceContextSupported)}, {"nativeInjectDeviceContext", "(I)V", reinterpret_cast(InjectDeviceContext)}, {"nativeIsGeofencingSupported", "()Z", reinterpret_cast(IsGeofencingSupported)}, {"nativeAddGeofences", "([Landroid/hardware/location/GeofenceHardwareRequestParcelable;)V", reinterpret_cast(AddGeofences)}, {"nativePauseGeofence", "(I)V", reinterpret_cast(PauseGeofence)}, {"nativeResumeGeofence", "(II)V", reinterpret_cast(ResumeGeofence)}, {"nativeModifyGeofenceOption", "(IIIIII)V", reinterpret_cast(ModifyGeofenceOption)}, {"nativeRemoveGeofences", "([I)V", reinterpret_cast(RemoveGeofences)} }; /* * Registration method invoked on JNI Load. */ int register_android_server_location_FlpHardwareProvider(JNIEnv* env) { return jniRegisterNativeMethods( env, "com/android/server/location/FlpHardwareProvider", sMethods, NELEM(sMethods) ); } } /* name-space Android */