/* * Copyright 2008, 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. */ #define LOG_TAG "SensorManager" #include #include #include #include #include #include "jni.h" #include "JNIHelp.h" #include "android_os_MessageQueue.h" #include #include "core_jni_helpers.h" static struct { jclass clazz; jmethodID dispatchSensorEvent; jmethodID dispatchFlushCompleteEvent; } gBaseEventQueueClassInfo; namespace android { struct SensorOffsets { jfieldID name; jfieldID vendor; jfieldID version; jfieldID handle; jfieldID type; jfieldID range; jfieldID resolution; jfieldID power; jfieldID minDelay; jfieldID fifoReservedEventCount; jfieldID fifoMaxEventCount; jfieldID stringType; jfieldID requiredPermission; jfieldID maxDelay; jfieldID flags; } gSensorOffsets; /* * The method below are not thread-safe and not intended to be */ static void nativeClassInit (JNIEnv *_env, jclass _this) { jclass sensorClass = _env->FindClass("android/hardware/Sensor"); SensorOffsets& sensorOffsets = gSensorOffsets; sensorOffsets.name = _env->GetFieldID(sensorClass, "mName", "Ljava/lang/String;"); sensorOffsets.vendor = _env->GetFieldID(sensorClass, "mVendor", "Ljava/lang/String;"); sensorOffsets.version = _env->GetFieldID(sensorClass, "mVersion", "I"); sensorOffsets.handle = _env->GetFieldID(sensorClass, "mHandle", "I"); sensorOffsets.type = _env->GetFieldID(sensorClass, "mType", "I"); sensorOffsets.range = _env->GetFieldID(sensorClass, "mMaxRange", "F"); sensorOffsets.resolution = _env->GetFieldID(sensorClass, "mResolution","F"); sensorOffsets.power = _env->GetFieldID(sensorClass, "mPower", "F"); sensorOffsets.minDelay = _env->GetFieldID(sensorClass, "mMinDelay", "I"); sensorOffsets.fifoReservedEventCount = _env->GetFieldID(sensorClass, "mFifoReservedEventCount", "I"); sensorOffsets.fifoMaxEventCount = _env->GetFieldID(sensorClass, "mFifoMaxEventCount", "I"); sensorOffsets.stringType = _env->GetFieldID(sensorClass, "mStringType", "Ljava/lang/String;"); sensorOffsets.requiredPermission = _env->GetFieldID(sensorClass, "mRequiredPermission", "Ljava/lang/String;"); sensorOffsets.maxDelay = _env->GetFieldID(sensorClass, "mMaxDelay", "I"); sensorOffsets.flags = _env->GetFieldID(sensorClass, "mFlags", "I"); } static jint nativeGetNextSensor(JNIEnv *env, jclass clazz, jobject sensor, jint next) { SensorManager& mgr(SensorManager::getInstance()); Sensor const* const* sensorList; size_t count = mgr.getSensorList(&sensorList); if (size_t(next) >= count) return -1; Sensor const* const list = sensorList[next]; const SensorOffsets& sensorOffsets(gSensorOffsets); jstring name = env->NewStringUTF(list->getName().string()); jstring vendor = env->NewStringUTF(list->getVendor().string()); jstring stringType = env->NewStringUTF(list->getStringType().string()); jstring requiredPermission = env->NewStringUTF(list->getRequiredPermission().string()); env->SetObjectField(sensor, sensorOffsets.name, name); env->SetObjectField(sensor, sensorOffsets.vendor, vendor); env->SetIntField(sensor, sensorOffsets.version, list->getVersion()); env->SetIntField(sensor, sensorOffsets.handle, list->getHandle()); env->SetIntField(sensor, sensorOffsets.type, list->getType()); env->SetFloatField(sensor, sensorOffsets.range, list->getMaxValue()); env->SetFloatField(sensor, sensorOffsets.resolution, list->getResolution()); env->SetFloatField(sensor, sensorOffsets.power, list->getPowerUsage()); env->SetIntField(sensor, sensorOffsets.minDelay, list->getMinDelay()); env->SetIntField(sensor, sensorOffsets.fifoReservedEventCount, list->getFifoReservedEventCount()); env->SetIntField(sensor, sensorOffsets.fifoMaxEventCount, list->getFifoMaxEventCount()); env->SetObjectField(sensor, sensorOffsets.stringType, stringType); env->SetObjectField(sensor, sensorOffsets.requiredPermission, requiredPermission); env->SetIntField(sensor, sensorOffsets.maxDelay, list->getMaxDelay()); env->SetIntField(sensor, sensorOffsets.flags, list->getFlags()); next++; return size_t(next) < count ? next : 0; } //---------------------------------------------------------------------------- class Receiver : public LooperCallback { sp mSensorQueue; sp mMessageQueue; jobject mReceiverObject; jfloatArray mScratch; public: Receiver(const sp& sensorQueue, const sp& messageQueue, jobject receiverObject, jfloatArray scratch) { JNIEnv* env = AndroidRuntime::getJNIEnv(); mSensorQueue = sensorQueue; mMessageQueue = messageQueue; mReceiverObject = env->NewGlobalRef(receiverObject); mScratch = (jfloatArray)env->NewGlobalRef(scratch); } ~Receiver() { JNIEnv* env = AndroidRuntime::getJNIEnv(); env->DeleteGlobalRef(mReceiverObject); env->DeleteGlobalRef(mScratch); } sp getSensorEventQueue() const { return mSensorQueue; } void destroy() { mMessageQueue->getLooper()->removeFd( mSensorQueue->getFd() ); } private: virtual void onFirstRef() { LooperCallback::onFirstRef(); mMessageQueue->getLooper()->addFd(mSensorQueue->getFd(), 0, ALOOPER_EVENT_INPUT, this, mSensorQueue.get()); } virtual int handleEvent(int fd, int events, void* data) { JNIEnv* env = AndroidRuntime::getJNIEnv(); sp q = reinterpret_cast(data); ssize_t n; ASensorEvent buffer[16]; while ((n = q->read(buffer, 16)) > 0) { for (int i=0 ; iSetFloatArrayRegion(mScratch, 0, 1, &value); } else { env->SetFloatArrayRegion(mScratch, 0, 16, buffer[i].data); } if (buffer[i].type == SENSOR_TYPE_META_DATA) { // This is a flush complete sensor event. Call dispatchFlushCompleteEvent // method. env->CallVoidMethod(mReceiverObject, gBaseEventQueueClassInfo.dispatchFlushCompleteEvent, buffer[i].meta_data.sensor); } else { int8_t status; switch (buffer[i].type) { case SENSOR_TYPE_ORIENTATION: case SENSOR_TYPE_MAGNETIC_FIELD: case SENSOR_TYPE_ACCELEROMETER: case SENSOR_TYPE_GYROSCOPE: status = buffer[i].vector.status; break; case SENSOR_TYPE_HEART_RATE: status = buffer[i].heart_rate.status; break; default: status = SENSOR_STATUS_ACCURACY_HIGH; break; } env->CallVoidMethod(mReceiverObject, gBaseEventQueueClassInfo.dispatchSensorEvent, buffer[i].sensor, mScratch, status, buffer[i].timestamp); } if (env->ExceptionCheck()) { mSensorQueue->sendAck(buffer, n); ALOGE("Exception dispatching input event."); return 1; } } mSensorQueue->sendAck(buffer, n); } if (n<0 && n != -EAGAIN) { // FIXME: error receiving events, what to do in this case? } return 1; } }; static jlong nativeInitSensorEventQueue(JNIEnv *env, jclass clazz, jobject eventQ, jobject msgQ, jfloatArray scratch) { SensorManager& mgr(SensorManager::getInstance()); sp queue(mgr.createEventQueue()); sp messageQueue = android_os_MessageQueue_getMessageQueue(env, msgQ); if (messageQueue == NULL) { jniThrowRuntimeException(env, "MessageQueue is not initialized."); return 0; } sp receiver = new Receiver(queue, messageQueue, eventQ, scratch); receiver->incStrong((void*)nativeInitSensorEventQueue); return jlong(receiver.get()); } static jint nativeEnableSensor(JNIEnv *env, jclass clazz, jlong eventQ, jint handle, jint rate_us, jint maxBatchReportLatency, jint reservedFlags) { sp receiver(reinterpret_cast(eventQ)); return receiver->getSensorEventQueue()->enableSensor(handle, rate_us, maxBatchReportLatency, reservedFlags); } static jint nativeDisableSensor(JNIEnv *env, jclass clazz, jlong eventQ, jint handle) { sp receiver(reinterpret_cast(eventQ)); return receiver->getSensorEventQueue()->disableSensor(handle); } static void nativeDestroySensorEventQueue(JNIEnv *env, jclass clazz, jlong eventQ, jint handle) { sp receiver(reinterpret_cast(eventQ)); receiver->destroy(); receiver->decStrong((void*)nativeInitSensorEventQueue); } static jint nativeFlushSensor(JNIEnv *env, jclass clazz, jlong eventQ) { sp receiver(reinterpret_cast(eventQ)); return receiver->getSensorEventQueue()->flush(); } //---------------------------------------------------------------------------- static JNINativeMethod gSystemSensorManagerMethods[] = { {"nativeClassInit", "()V", (void*)nativeClassInit }, {"nativeGetNextSensor", "(Landroid/hardware/Sensor;I)I", (void*)nativeGetNextSensor }, }; static JNINativeMethod gBaseEventQueueMethods[] = { {"nativeInitBaseEventQueue", "(Landroid/hardware/SystemSensorManager$BaseEventQueue;Landroid/os/MessageQueue;[F)J", (void*)nativeInitSensorEventQueue }, {"nativeEnableSensor", "(JIIII)I", (void*)nativeEnableSensor }, {"nativeDisableSensor", "(JI)I", (void*)nativeDisableSensor }, {"nativeDestroySensorEventQueue", "(J)V", (void*)nativeDestroySensorEventQueue }, {"nativeFlushSensor", "(J)I", (void*)nativeFlushSensor }, }; }; // namespace android using namespace android; int register_android_hardware_SensorManager(JNIEnv *env) { RegisterMethodsOrDie(env, "android/hardware/SystemSensorManager", gSystemSensorManagerMethods, NELEM(gSystemSensorManagerMethods)); RegisterMethodsOrDie(env, "android/hardware/SystemSensorManager$BaseEventQueue", gBaseEventQueueMethods, NELEM(gBaseEventQueueMethods)); gBaseEventQueueClassInfo.clazz = FindClassOrDie(env, "android/hardware/SystemSensorManager$BaseEventQueue"); gBaseEventQueueClassInfo.dispatchSensorEvent = GetMethodIDOrDie(env, gBaseEventQueueClassInfo.clazz, "dispatchSensorEvent", "(I[FIJ)V"); gBaseEventQueueClassInfo.dispatchFlushCompleteEvent = GetMethodIDOrDie(env, gBaseEventQueueClassInfo.clazz, "dispatchFlushCompleteEvent", "(I)V"); return 0; }