/* * Copyright (C) 2015 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_NDEBUG 0 #define LOG_TAG "ACameraDevice" #include #include #include #include #include "ACameraDevice.h" #include "ACameraMetadata.h" #include "ACaptureRequest.h" #include "ACameraCaptureSession.h" #include "ACameraCaptureSession.inc" ACameraDevice::~ACameraDevice() { mDevice->stopLooperAndDisconnect(); } namespace android { namespace acam { // Static member definitions const char* CameraDevice::kContextKey = "Context"; const char* CameraDevice::kDeviceKey = "Device"; const char* CameraDevice::kErrorCodeKey = "ErrorCode"; const char* CameraDevice::kCallbackFpKey = "Callback"; const char* CameraDevice::kSessionSpKey = "SessionSp"; const char* CameraDevice::kCaptureRequestKey = "CaptureRequest"; const char* CameraDevice::kTimeStampKey = "TimeStamp"; const char* CameraDevice::kCaptureResultKey = "CaptureResult"; const char* CameraDevice::kPhysicalCaptureResultKey = "PhysicalCaptureResult"; const char* CameraDevice::kCaptureFailureKey = "CaptureFailure"; const char* CameraDevice::kSequenceIdKey = "SequenceId"; const char* CameraDevice::kFrameNumberKey = "FrameNumber"; const char* CameraDevice::kAnwKey = "Anw"; const char* CameraDevice::kFailingPhysicalCameraId= "FailingPhysicalCameraId"; /** * CameraDevice Implementation */ CameraDevice::CameraDevice( const char* id, ACameraDevice_StateCallbacks* cb, sp chars, ACameraDevice* wrapper) : mCameraId(id), mAppCallbacks(*cb), mChars(chars), mServiceCallback(new ServiceCallback(this)), mWrapper(wrapper), mInError(false), mError(ACAMERA_OK), mIdle(true), mCurrentSession(nullptr) { mClosing = false; // Setup looper thread to perfrom device callbacks to app mCbLooper = new ALooper; mCbLooper->setName("C2N-dev-looper"); status_t err = mCbLooper->start( /*runOnCallingThread*/false, /*canCallJava*/ true, PRIORITY_DEFAULT); if (err != OK) { ALOGE("%s: Unable to start camera device callback looper: %s (%d)", __FUNCTION__, strerror(-err), err); setCameraDeviceErrorLocked(ACAMERA_ERROR_CAMERA_DEVICE); } mHandler = new CallbackHandler(id); mCbLooper->registerHandler(mHandler); const CameraMetadata& metadata = mChars->getInternalData(); camera_metadata_ro_entry entry = metadata.find(ANDROID_REQUEST_PARTIAL_RESULT_COUNT); if (entry.count != 1) { ALOGW("%s: bad count %zu for partial result count", __FUNCTION__, entry.count); mPartialResultCount = 1; } else { mPartialResultCount = entry.data.i32[0]; } entry = metadata.find(ANDROID_LENS_INFO_SHADING_MAP_SIZE); if (entry.count != 2) { ALOGW("%s: bad count %zu for shading map size", __FUNCTION__, entry.count); mShadingMapSize[0] = 0; mShadingMapSize[1] = 0; } else { mShadingMapSize[0] = entry.data.i32[0]; mShadingMapSize[1] = entry.data.i32[1]; } size_t physicalIdCnt = 0; const char*const* physicalCameraIds; if (mChars->isLogicalMultiCamera(&physicalIdCnt, &physicalCameraIds)) { for (size_t i = 0; i < physicalIdCnt; i++) { mPhysicalIds.push_back(physicalCameraIds[i]); } } } CameraDevice::~CameraDevice() { } void CameraDevice::postSessionMsgAndCleanup(sp& msg) { msg->post(); msg.clear(); sp cleanupMsg = new AMessage(kWhatCleanUpSessions, mHandler); cleanupMsg->post(); } // TODO: cached created request? camera_status_t CameraDevice::createCaptureRequest( ACameraDevice_request_template templateId, const ACameraIdList* physicalIdList, ACaptureRequest** request) const { Mutex::Autolock _l(mDeviceLock); if (physicalIdList != nullptr) { if (physicalIdList->numCameras > static_cast(mPhysicalIds.size())) { ALOGE("%s: physicalIdList size %d exceeds number of available physical cameras %zu", __FUNCTION__, physicalIdList->numCameras, mPhysicalIds.size()); return ACAMERA_ERROR_INVALID_PARAMETER; } for (auto i = 0; i < physicalIdList->numCameras; i++) { if (physicalIdList->cameraIds[i] == nullptr) { ALOGE("%s: physicalId is null!", __FUNCTION__); return ACAMERA_ERROR_INVALID_PARAMETER; } if (mPhysicalIds.end() == std::find( mPhysicalIds.begin(), mPhysicalIds.end(), physicalIdList->cameraIds[i])) { ALOGE("%s: Invalid physicalId %s!", __FUNCTION__, physicalIdList->cameraIds[i]); return ACAMERA_ERROR_INVALID_PARAMETER; } } } camera_status_t ret = checkCameraClosedOrErrorLocked(); if (ret != ACAMERA_OK) { return ret; } if (mRemote == nullptr) { return ACAMERA_ERROR_CAMERA_DISCONNECTED; } CameraMetadata rawRequest; binder::Status remoteRet = mRemote->createDefaultRequest(templateId, &rawRequest); if (remoteRet.serviceSpecificErrorCode() == hardware::ICameraService::ERROR_ILLEGAL_ARGUMENT) { ALOGW("Create capture request failed! template %d is not supported on this device", templateId); return ACAMERA_ERROR_INVALID_PARAMETER; } else if (!remoteRet.isOk()) { ALOGE("Create capture request failed: %s", remoteRet.toString8().string()); return ACAMERA_ERROR_UNKNOWN; } ACaptureRequest* outReq = new ACaptureRequest(); outReq->settings = new ACameraMetadata(rawRequest.release(), ACameraMetadata::ACM_REQUEST); if (physicalIdList != nullptr) { for (auto i = 0; i < physicalIdList->numCameras; i++) { outReq->physicalSettings.emplace(physicalIdList->cameraIds[i], new ACameraMetadata(*(outReq->settings))); } } outReq->targets = new ACameraOutputTargets(); *request = outReq; return ACAMERA_OK; } camera_status_t CameraDevice::createCaptureSession( const ACaptureSessionOutputContainer* outputs, const ACaptureRequest* sessionParameters, const ACameraCaptureSession_stateCallbacks* callbacks, /*out*/ACameraCaptureSession** session) { sp currentSession = mCurrentSession.promote(); Mutex::Autolock _l(mDeviceLock); camera_status_t ret = checkCameraClosedOrErrorLocked(); if (ret != ACAMERA_OK) { return ret; } if (currentSession != nullptr) { currentSession->closeByDevice(); stopRepeatingLocked(); } // Create new session ret = configureStreamsLocked(outputs, sessionParameters); if (ret != ACAMERA_OK) { ALOGE("Fail to create new session. cannot configure streams"); return ret; } ACameraCaptureSession* newSession = new ACameraCaptureSession( mNextSessionId++, outputs, callbacks, this); // set new session as current session newSession->incStrong((void *) ACameraDevice_createCaptureSession); mCurrentSession = newSession; mFlushing = false; *session = newSession; return ACAMERA_OK; } camera_status_t CameraDevice::isSessionConfigurationSupported( const ACaptureSessionOutputContainer* sessionOutputContainer) const { Mutex::Autolock _l(mDeviceLock); camera_status_t ret = checkCameraClosedOrErrorLocked(); if (ret != ACAMERA_OK) { return ret; } SessionConfiguration sessionConfiguration(0 /*inputWidth*/, 0 /*inputHeight*/, -1 /*inputFormat*/, CAMERA3_STREAM_CONFIGURATION_NORMAL_MODE); for (const auto& output : sessionOutputContainer->mOutputs) { sp iGBP(nullptr); ret = getIGBPfromAnw(output.mWindow, iGBP); if (ret != ACAMERA_OK) { ALOGE("Camera device %s failed to extract graphic producer from native window", getId()); return ret; } String16 physicalId16(output.mPhysicalCameraId.c_str()); OutputConfiguration outConfig(iGBP, output.mRotation, physicalId16, OutputConfiguration::INVALID_SET_ID, true); for (auto& anw : output.mSharedWindows) { ret = getIGBPfromAnw(anw, iGBP); if (ret != ACAMERA_OK) { ALOGE("Camera device %s failed to extract graphic producer from native window", getId()); return ret; } outConfig.addGraphicProducer(iGBP); } sessionConfiguration.addOutputConfiguration(outConfig); } bool supported = false; binder::Status remoteRet = mRemote->isSessionConfigurationSupported( sessionConfiguration, &supported); if (remoteRet.serviceSpecificErrorCode() == hardware::ICameraService::ERROR_INVALID_OPERATION) { return ACAMERA_ERROR_UNSUPPORTED_OPERATION; } else if (!remoteRet.isOk()) { return ACAMERA_ERROR_UNKNOWN; } else { return supported ? ACAMERA_OK : ACAMERA_ERROR_STREAM_CONFIGURE_FAIL; } } camera_status_t CameraDevice::updateOutputConfigurationLocked(ACaptureSessionOutput *output) { camera_status_t ret = checkCameraClosedOrErrorLocked(); if (ret != ACAMERA_OK) { return ret; } if (output == nullptr) { return ACAMERA_ERROR_INVALID_PARAMETER; } if (!output->mIsShared) { ALOGE("Error output configuration is not shared"); return ACAMERA_ERROR_INVALID_OPERATION; } int32_t streamId = -1; for (auto& kvPair : mConfiguredOutputs) { if (kvPair.second.first == output->mWindow) { streamId = kvPair.first; break; } } if (streamId < 0) { ALOGE("Error: Invalid output configuration"); return ACAMERA_ERROR_INVALID_PARAMETER; } sp iGBP(nullptr); ret = getIGBPfromAnw(output->mWindow, iGBP); if (ret != ACAMERA_OK) { ALOGE("Camera device %s failed to extract graphic producer from native window", getId()); return ret; } String16 physicalId16(output->mPhysicalCameraId.c_str()); OutputConfiguration outConfig(iGBP, output->mRotation, physicalId16, OutputConfiguration::INVALID_SET_ID, true); for (auto& anw : output->mSharedWindows) { ret = getIGBPfromAnw(anw, iGBP); if (ret != ACAMERA_OK) { ALOGE("Camera device %s failed to extract graphic producer from native window", getId()); return ret; } outConfig.addGraphicProducer(iGBP); } auto remoteRet = mRemote->updateOutputConfiguration(streamId, outConfig); if (!remoteRet.isOk()) { switch (remoteRet.serviceSpecificErrorCode()) { case hardware::ICameraService::ERROR_INVALID_OPERATION: ALOGE("Camera device %s invalid operation: %s", getId(), remoteRet.toString8().string()); return ACAMERA_ERROR_INVALID_OPERATION; break; case hardware::ICameraService::ERROR_ALREADY_EXISTS: ALOGE("Camera device %s output surface already exists: %s", getId(), remoteRet.toString8().string()); return ACAMERA_ERROR_INVALID_PARAMETER; break; case hardware::ICameraService::ERROR_ILLEGAL_ARGUMENT: ALOGE("Camera device %s invalid input argument: %s", getId(), remoteRet.toString8().string()); return ACAMERA_ERROR_INVALID_PARAMETER; break; default: ALOGE("Camera device %s failed to add shared output: %s", getId(), remoteRet.toString8().string()); return ACAMERA_ERROR_UNKNOWN; } } mConfiguredOutputs[streamId] = std::make_pair(output->mWindow, outConfig); return ACAMERA_OK; } camera_status_t CameraDevice::allocateCaptureRequest( const ACaptureRequest* request, /*out*/sp& outReq) { camera_status_t ret; sp req(new CaptureRequest()); req->mPhysicalCameraSettings.push_back({getId(), request->settings->getInternalData()}); for (auto& entry : request->physicalSettings) { req->mPhysicalCameraSettings.push_back({entry.first, entry.second->getInternalData()}); } req->mIsReprocess = false; // NDK does not support reprocessing yet req->mContext = request->context; req->mSurfaceConverted = true; // set to true, and fill in stream/surface idx to speed up IPC for (auto outputTarget : request->targets->mOutputs) { ANativeWindow* anw = outputTarget.mWindow; sp surface; ret = getSurfaceFromANativeWindow(anw, surface); if (ret != ACAMERA_OK) { ALOGE("Bad output target in capture request! ret %d", ret); return ret; } req->mSurfaceList.push_back(surface); bool found = false; // lookup stream/surface ID for (const auto& kvPair : mConfiguredOutputs) { int streamId = kvPair.first; const OutputConfiguration& outConfig = kvPair.second.second; const auto& gbps = outConfig.getGraphicBufferProducers(); for (int surfaceId = 0; surfaceId < (int) gbps.size(); surfaceId++) { if (gbps[surfaceId] == surface->getIGraphicBufferProducer()) { found = true; req->mStreamIdxList.push_back(streamId); req->mSurfaceIdxList.push_back(surfaceId); break; } } if (found) { break; } } if (!found) { ALOGE("Unconfigured output target %p in capture request!", anw); return ret; } } outReq = req; return ACAMERA_OK; } ACaptureRequest* CameraDevice::allocateACaptureRequest(sp& req, const std::string& deviceId) { ACaptureRequest* pRequest = new ACaptureRequest(); for (auto& entry : req->mPhysicalCameraSettings) { CameraMetadata clone = entry.settings; if (entry.id == deviceId) { pRequest->settings = new ACameraMetadata(clone.release(), ACameraMetadata::ACM_REQUEST); } else { pRequest->physicalSettings.emplace(entry.id, new ACameraMetadata(clone.release(), ACameraMetadata::ACM_REQUEST)); } } pRequest->targets = new ACameraOutputTargets(); for (size_t i = 0; i < req->mSurfaceList.size(); i++) { ANativeWindow* anw = static_cast(req->mSurfaceList[i].get()); ACameraOutputTarget outputTarget(anw); pRequest->targets->mOutputs.insert(outputTarget); } pRequest->context = req->mContext; return pRequest; } void CameraDevice::freeACaptureRequest(ACaptureRequest* req) { if (req == nullptr) { return; } req->settings.clear(); req->physicalSettings.clear(); delete req->targets; delete req; } void CameraDevice::notifySessionEndOfLifeLocked(ACameraCaptureSession* session) { if (isClosed()) { // Device is closing already. do nothing return; } if (mCurrentSession != session) { // Session has been replaced by other seesion or device is closed return; } mCurrentSession = nullptr; // Should not happen if (!session->mIsClosed) { ALOGE("Error: unclosed session %p reaches end of life!", session); setCameraDeviceErrorLocked(ACAMERA_ERROR_CAMERA_DEVICE); return; } // No new session, unconfigure now camera_status_t ret = configureStreamsLocked(nullptr, nullptr); if (ret != ACAMERA_OK) { ALOGE("Unconfigure stream failed. Device might still be configured! ret %d", ret); } } void CameraDevice::disconnectLocked(sp& session) { if (mClosing.exchange(true)) { // Already closing, just return ALOGW("Camera device %s is already closing.", getId()); return; } if (mRemote != nullptr) { mRemote->disconnect(); } mRemote = nullptr; if (session != nullptr) { session->closeByDevice(); } } camera_status_t CameraDevice::stopRepeatingLocked() { camera_status_t ret = checkCameraClosedOrErrorLocked(); if (ret != ACAMERA_OK) { ALOGE("Camera %s stop repeating failed! ret %d", getId(), ret); return ret; } if (mRepeatingSequenceId != REQUEST_ID_NONE) { int repeatingSequenceId = mRepeatingSequenceId; mRepeatingSequenceId = REQUEST_ID_NONE; int64_t lastFrameNumber; binder::Status remoteRet = mRemote->cancelRequest(repeatingSequenceId, &lastFrameNumber); if (remoteRet.serviceSpecificErrorCode() == hardware::ICameraService::ERROR_ILLEGAL_ARGUMENT) { ALOGV("Repeating request is already stopped."); return ACAMERA_OK; } else if (!remoteRet.isOk()) { ALOGE("Stop repeating request fails in remote: %s", remoteRet.toString8().string()); return ACAMERA_ERROR_UNKNOWN; } checkRepeatingSequenceCompleteLocked(repeatingSequenceId, lastFrameNumber); } return ACAMERA_OK; } camera_status_t CameraDevice::flushLocked(ACameraCaptureSession* session) { camera_status_t ret = checkCameraClosedOrErrorLocked(); if (ret != ACAMERA_OK) { ALOGE("Camera %s abort captures failed! ret %d", getId(), ret); return ret; } // This should never happen because creating a new session will close // previous one and thus reject any API call from previous session. // But still good to check here in case something unexpected happen. if (mCurrentSession != session) { ALOGE("Camera %s session %p is not current active session!", getId(), session); return ACAMERA_ERROR_INVALID_OPERATION; } if (mFlushing) { ALOGW("Camera %s is already aborting captures", getId()); return ACAMERA_OK; } mFlushing = true; // Send onActive callback to guarantee there is always active->ready transition sp msg = new AMessage(kWhatSessionStateCb, mHandler); msg->setPointer(kContextKey, session->mUserSessionCallback.context); msg->setObject(kSessionSpKey, session); msg->setPointer(kCallbackFpKey, (void*) session->mUserSessionCallback.onActive); postSessionMsgAndCleanup(msg); // If device is already idling, send callback and exit early if (mIdle) { sp msg = new AMessage(kWhatSessionStateCb, mHandler); msg->setPointer(kContextKey, session->mUserSessionCallback.context); msg->setObject(kSessionSpKey, session); msg->setPointer(kCallbackFpKey, (void*) session->mUserSessionCallback.onReady); postSessionMsgAndCleanup(msg); mFlushing = false; return ACAMERA_OK; } int64_t lastFrameNumber; binder::Status remoteRet = mRemote->flush(&lastFrameNumber); if (!remoteRet.isOk()) { ALOGE("Abort captures fails in remote: %s", remoteRet.toString8().string()); return ACAMERA_ERROR_UNKNOWN; } if (mRepeatingSequenceId != REQUEST_ID_NONE) { checkRepeatingSequenceCompleteLocked(mRepeatingSequenceId, lastFrameNumber); } return ACAMERA_OK; } camera_status_t CameraDevice::waitUntilIdleLocked() { camera_status_t ret = checkCameraClosedOrErrorLocked(); if (ret != ACAMERA_OK) { ALOGE("Wait until camera %s idle failed! ret %d", getId(), ret); return ret; } if (mRepeatingSequenceId != REQUEST_ID_NONE) { ALOGE("Camera device %s won't go to idle when there is repeating request!", getId()); return ACAMERA_ERROR_INVALID_OPERATION; } binder::Status remoteRet = mRemote->waitUntilIdle(); if (!remoteRet.isOk()) { ALOGE("Camera device %s waitUntilIdle failed: %s", getId(), remoteRet.toString8().string()); // TODO: define a function to convert status_t -> camera_status_t return ACAMERA_ERROR_UNKNOWN; } return ACAMERA_OK; } camera_status_t CameraDevice::getIGBPfromAnw( ANativeWindow* anw, sp& out) { sp surface; camera_status_t ret = getSurfaceFromANativeWindow(anw, surface); if (ret != ACAMERA_OK) { return ret; } out = surface->getIGraphicBufferProducer(); return ACAMERA_OK; } camera_status_t CameraDevice::getSurfaceFromANativeWindow( ANativeWindow* anw, sp& out) { if (anw == nullptr) { ALOGE("Error: output ANativeWindow is null"); return ACAMERA_ERROR_INVALID_PARAMETER; } int value; int err = (*anw->query)(anw, NATIVE_WINDOW_CONCRETE_TYPE, &value); if (err != OK || value != NATIVE_WINDOW_SURFACE) { ALOGE("Error: ANativeWindow is not backed by Surface!"); return ACAMERA_ERROR_INVALID_PARAMETER; } sp surface(static_cast(anw)); out = surface; return ACAMERA_OK; } camera_status_t CameraDevice::configureStreamsLocked(const ACaptureSessionOutputContainer* outputs, const ACaptureRequest* sessionParameters) { ACaptureSessionOutputContainer emptyOutput; if (outputs == nullptr) { outputs = &emptyOutput; } camera_status_t ret = checkCameraClosedOrErrorLocked(); if (ret != ACAMERA_OK) { return ret; } std::set> outputSet; for (const auto& outConfig : outputs->mOutputs) { ANativeWindow* anw = outConfig.mWindow; sp iGBP(nullptr); ret = getIGBPfromAnw(anw, iGBP); if (ret != ACAMERA_OK) { return ret; } String16 physicalId16(outConfig.mPhysicalCameraId.c_str()); outputSet.insert(std::make_pair( anw, OutputConfiguration(iGBP, outConfig.mRotation, physicalId16, OutputConfiguration::INVALID_SET_ID, outConfig.mIsShared))); } auto addSet = outputSet; std::vector deleteList; // Determine which streams need to be created, which to be deleted for (auto& kvPair : mConfiguredOutputs) { int streamId = kvPair.first; auto& outputPair = kvPair.second; if (outputSet.count(outputPair) == 0) { deleteList.push_back(streamId); // Need to delete a no longer needed stream } else { addSet.erase(outputPair); // No need to add already existing stream } } ret = stopRepeatingLocked(); if (ret != ACAMERA_OK) { ALOGE("Camera device %s stop repeating failed, ret %d", getId(), ret); return ret; } ret = waitUntilIdleLocked(); if (ret != ACAMERA_OK) { ALOGE("Camera device %s wait until idle failed, ret %d", getId(), ret); return ret; } // Send onReady to previous session // CurrentSession will be updated after configureStreamLocked, so here // mCurrentSession is the session to be replaced by a new session if (!mIdle && mCurrentSession != nullptr) { if (mBusySession != mCurrentSession) { ALOGE("Current session != busy session"); setCameraDeviceErrorLocked(ACAMERA_ERROR_CAMERA_DEVICE); return ACAMERA_ERROR_CAMERA_DEVICE; } sp msg = new AMessage(kWhatSessionStateCb, mHandler); msg->setPointer(kContextKey, mBusySession->mUserSessionCallback.context); msg->setObject(kSessionSpKey, mBusySession); msg->setPointer(kCallbackFpKey, (void*) mBusySession->mUserSessionCallback.onReady); mBusySession.clear(); postSessionMsgAndCleanup(msg); } mIdle = true; binder::Status remoteRet = mRemote->beginConfigure(); if (!remoteRet.isOk()) { ALOGE("Camera device %s begin configure failed: %s", getId(), remoteRet.toString8().string()); return ACAMERA_ERROR_UNKNOWN; } // delete to-be-deleted streams for (auto streamId : deleteList) { remoteRet = mRemote->deleteStream(streamId); if (!remoteRet.isOk()) { ALOGE("Camera device %s failed to remove stream %d: %s", getId(), streamId, remoteRet.toString8().string()); return ACAMERA_ERROR_UNKNOWN; } mConfiguredOutputs.erase(streamId); } // add new streams for (const auto& outputPair : addSet) { int streamId; remoteRet = mRemote->createStream(outputPair.second, &streamId); if (!remoteRet.isOk()) { ALOGE("Camera device %s failed to create stream: %s", getId(), remoteRet.toString8().string()); return ACAMERA_ERROR_UNKNOWN; } mConfiguredOutputs.insert(std::make_pair(streamId, outputPair)); } CameraMetadata params; if ((sessionParameters != nullptr) && (sessionParameters->settings != nullptr)) { params.append(sessionParameters->settings->getInternalData()); } std::vector offlineStreamIds; remoteRet = mRemote->endConfigure(/*isConstrainedHighSpeed*/ false, params, &offlineStreamIds); if (remoteRet.serviceSpecificErrorCode() == hardware::ICameraService::ERROR_ILLEGAL_ARGUMENT) { ALOGE("Camera device %s cannnot support app output configuration: %s", getId(), remoteRet.toString8().string()); return ACAMERA_ERROR_STREAM_CONFIGURE_FAIL; } else if (!remoteRet.isOk()) { ALOGE("Camera device %s end configure failed: %s", getId(), remoteRet.toString8().string()); return ACAMERA_ERROR_UNKNOWN; } return ACAMERA_OK; } void CameraDevice::setRemoteDevice(sp remote) { Mutex::Autolock _l(mDeviceLock); mRemote = remote; } camera_status_t CameraDevice::checkCameraClosedOrErrorLocked() const { if (mRemote == nullptr) { ALOGE("%s: camera device already closed", __FUNCTION__); return ACAMERA_ERROR_CAMERA_DISCONNECTED; } if (mInError) {// triggered by onDeviceError ALOGE("%s: camera device has encountered a serious error", __FUNCTION__); return mError; } return ACAMERA_OK; } void CameraDevice::setCameraDeviceErrorLocked(camera_status_t error) { mInError = true; mError = error; return; } void CameraDevice::FrameNumberTracker::updateTracker(int64_t frameNumber, bool isError) { ALOGV("updateTracker frame %" PRId64 " isError %d", frameNumber, isError); if (isError) { mFutureErrorSet.insert(frameNumber); } else if (frameNumber <= mCompletedFrameNumber) { ALOGE("Frame number %" PRId64 " decreased! current fn %" PRId64, frameNumber, mCompletedFrameNumber); return; } else { if (frameNumber != mCompletedFrameNumber + 1) { ALOGE("Frame number out of order. Expect %" PRId64 " but get %" PRId64, mCompletedFrameNumber + 1, frameNumber); // Do not assert as in java implementation } mCompletedFrameNumber = frameNumber; } update(); } void CameraDevice::FrameNumberTracker::update() { for (auto it = mFutureErrorSet.begin(); it != mFutureErrorSet.end();) { int64_t errorFrameNumber = *it; if (errorFrameNumber == mCompletedFrameNumber + 1) { mCompletedFrameNumber++; it = mFutureErrorSet.erase(it); } else if (errorFrameNumber <= mCompletedFrameNumber) { // This should not happen, but deal with it anyway ALOGE("Completd frame number passed through current frame number!"); // erase the old error since it's no longer useful it = mFutureErrorSet.erase(it); } else { // Normal requests hasn't catched up error frames, just break break; } } ALOGV("Update complete frame %" PRId64, mCompletedFrameNumber); } void CameraDevice::onCaptureErrorLocked( int32_t errorCode, const CaptureResultExtras& resultExtras) { int sequenceId = resultExtras.requestId; int64_t frameNumber = resultExtras.frameNumber; int32_t burstId = resultExtras.burstId; auto it = mSequenceCallbackMap.find(sequenceId); if (it == mSequenceCallbackMap.end()) { ALOGE("%s: Error: capture sequence index %d not found!", __FUNCTION__, sequenceId); setCameraDeviceErrorLocked(ACAMERA_ERROR_CAMERA_SERVICE); return; } CallbackHolder cbh = (*it).second; sp session = cbh.mSession; if ((size_t) burstId >= cbh.mRequests.size()) { ALOGE("%s: Error: request index %d out of bound (size %zu)", __FUNCTION__, burstId, cbh.mRequests.size()); setCameraDeviceErrorLocked(ACAMERA_ERROR_CAMERA_SERVICE); return; } sp request = cbh.mRequests[burstId]; // Handle buffer error if (errorCode == hardware::camera2::ICameraDeviceCallbacks::ERROR_CAMERA_BUFFER) { int32_t streamId = resultExtras.errorStreamId; ACameraCaptureSession_captureCallback_bufferLost onBufferLost = cbh.mOnCaptureBufferLost; auto outputPairIt = mConfiguredOutputs.find(streamId); if (outputPairIt == mConfiguredOutputs.end()) { ALOGE("%s: Error: stream id %d does not exist", __FUNCTION__, streamId); setCameraDeviceErrorLocked(ACAMERA_ERROR_CAMERA_SERVICE); return; } const auto& gbps = outputPairIt->second.second.getGraphicBufferProducers(); for (const auto& outGbp : gbps) { for (const auto& surface : request->mSurfaceList) { if (surface->getIGraphicBufferProducer() == outGbp) { ANativeWindow* anw = static_cast(surface.get()); ALOGV("Camera %s Lost output buffer for ANW %p frame %" PRId64, getId(), anw, frameNumber); sp msg = new AMessage(kWhatCaptureBufferLost, mHandler); msg->setPointer(kContextKey, cbh.mContext); msg->setObject(kSessionSpKey, session); msg->setPointer(kCallbackFpKey, (void*) onBufferLost); msg->setObject(kCaptureRequestKey, request); msg->setPointer(kAnwKey, (void*) anw); msg->setInt64(kFrameNumberKey, frameNumber); postSessionMsgAndCleanup(msg); } } } } else { // Handle other capture failures // Fire capture failure callback if there is one registered ACameraCaptureSession_captureCallback_failed onError = cbh.mOnCaptureFailed; sp failure(new CameraCaptureFailure()); failure->frameNumber = frameNumber; // TODO: refine this when implementing flush failure->reason = CAPTURE_FAILURE_REASON_ERROR; failure->sequenceId = sequenceId; failure->wasImageCaptured = (errorCode == hardware::camera2::ICameraDeviceCallbacks::ERROR_CAMERA_RESULT); sp msg = new AMessage(cbh.mIsLogicalCameraCallback ? kWhatLogicalCaptureFail : kWhatCaptureFail, mHandler); msg->setPointer(kContextKey, cbh.mContext); msg->setObject(kSessionSpKey, session); if (cbh.mIsLogicalCameraCallback) { if (resultExtras.errorPhysicalCameraId.size() > 0) { String8 cameraId(resultExtras.errorPhysicalCameraId); msg->setString(kFailingPhysicalCameraId, cameraId.string(), cameraId.size()); } msg->setPointer(kCallbackFpKey, (void*) cbh.mOnLogicalCameraCaptureFailed); } else { msg->setPointer(kCallbackFpKey, (void*) onError); } msg->setObject(kCaptureRequestKey, request); msg->setObject(kCaptureFailureKey, failure); postSessionMsgAndCleanup(msg); // Update tracker mFrameNumberTracker.updateTracker(frameNumber, /*isError*/true); checkAndFireSequenceCompleteLocked(); } return; } void CameraDevice::stopLooperAndDisconnect() { Mutex::Autolock _l(mDeviceLock); sp session = mCurrentSession.promote(); if (!isClosed()) { disconnectLocked(session); } mCurrentSession = nullptr; if (mCbLooper != nullptr) { mCbLooper->unregisterHandler(mHandler->id()); mCbLooper->stop(); } mCbLooper.clear(); mHandler.clear(); } CameraDevice::CallbackHandler::CallbackHandler(const char* id) : mId(id) { } void CameraDevice::CallbackHandler::onMessageReceived( const sp &msg) { switch (msg->what()) { case kWhatOnDisconnected: case kWhatOnError: case kWhatSessionStateCb: case kWhatCaptureStart: case kWhatCaptureResult: case kWhatLogicalCaptureResult: case kWhatCaptureFail: case kWhatLogicalCaptureFail: case kWhatCaptureSeqEnd: case kWhatCaptureSeqAbort: case kWhatCaptureBufferLost: ALOGV("%s: Received msg %d", __FUNCTION__, msg->what()); break; case kWhatCleanUpSessions: mCachedSessions.clear(); return; default: ALOGE("%s:Error: unknown device callback %d", __FUNCTION__, msg->what()); return; } // Check the common part of all message void* context; bool found = msg->findPointer(kContextKey, &context); if (!found) { ALOGE("%s: Cannot find callback context!", __FUNCTION__); return; } switch (msg->what()) { case kWhatOnDisconnected: { ACameraDevice* dev; found = msg->findPointer(kDeviceKey, (void**) &dev); if (!found || dev == nullptr) { ALOGE("%s: Cannot find device pointer!", __FUNCTION__); return; } ACameraDevice_StateCallback onDisconnected; found = msg->findPointer(kCallbackFpKey, (void**) &onDisconnected); if (!found) { ALOGE("%s: Cannot find onDisconnected!", __FUNCTION__); return; } if (onDisconnected == nullptr) { return; } (*onDisconnected)(context, dev); break; } case kWhatOnError: { ACameraDevice* dev; found = msg->findPointer(kDeviceKey, (void**) &dev); if (!found || dev == nullptr) { ALOGE("%s: Cannot find device pointer!", __FUNCTION__); return; } ACameraDevice_ErrorStateCallback onError; found = msg->findPointer(kCallbackFpKey, (void**) &onError); if (!found) { ALOGE("%s: Cannot find onError!", __FUNCTION__); return; } int errorCode; found = msg->findInt32(kErrorCodeKey, &errorCode); if (!found) { ALOGE("%s: Cannot find error code!", __FUNCTION__); return; } if (onError == nullptr) { return; } (*onError)(context, dev, errorCode); break; } case kWhatSessionStateCb: case kWhatCaptureStart: case kWhatCaptureResult: case kWhatLogicalCaptureResult: case kWhatCaptureFail: case kWhatLogicalCaptureFail: case kWhatCaptureSeqEnd: case kWhatCaptureSeqAbort: case kWhatCaptureBufferLost: { sp obj; found = msg->findObject(kSessionSpKey, &obj); if (!found || obj == nullptr) { ALOGE("%s: Cannot find session pointer!", __FUNCTION__); return; } sp session(static_cast(obj.get())); mCachedSessions.push(session); sp requestSp = nullptr; switch (msg->what()) { case kWhatCaptureStart: case kWhatCaptureResult: case kWhatLogicalCaptureResult: case kWhatCaptureFail: case kWhatLogicalCaptureFail: case kWhatCaptureBufferLost: found = msg->findObject(kCaptureRequestKey, &obj); if (!found) { ALOGE("%s: Cannot find capture request!", __FUNCTION__); return; } requestSp = static_cast(obj.get()); break; } switch (msg->what()) { case kWhatSessionStateCb: { ACameraCaptureSession_stateCallback onState; found = msg->findPointer(kCallbackFpKey, (void**) &onState); if (!found) { ALOGE("%s: Cannot find state callback!", __FUNCTION__); return; } if (onState == nullptr) { return; } (*onState)(context, session.get()); break; } case kWhatCaptureStart: { ACameraCaptureSession_captureCallback_start onStart; found = msg->findPointer(kCallbackFpKey, (void**) &onStart); if (!found) { ALOGE("%s: Cannot find capture start callback!", __FUNCTION__); return; } if (onStart == nullptr) { return; } int64_t timestamp; found = msg->findInt64(kTimeStampKey, ×tamp); if (!found) { ALOGE("%s: Cannot find timestamp!", __FUNCTION__); return; } ACaptureRequest* request = allocateACaptureRequest(requestSp, mId); (*onStart)(context, session.get(), request, timestamp); freeACaptureRequest(request); break; } case kWhatCaptureResult: { ACameraCaptureSession_captureCallback_result onResult; found = msg->findPointer(kCallbackFpKey, (void**) &onResult); if (!found) { ALOGE("%s: Cannot find capture result callback!", __FUNCTION__); return; } if (onResult == nullptr) { return; } found = msg->findObject(kCaptureResultKey, &obj); if (!found) { ALOGE("%s: Cannot find capture result!", __FUNCTION__); return; } sp result(static_cast(obj.get())); ACaptureRequest* request = allocateACaptureRequest(requestSp, mId); (*onResult)(context, session.get(), request, result.get()); freeACaptureRequest(request); break; } case kWhatLogicalCaptureResult: { ACameraCaptureSession_logicalCamera_captureCallback_result onResult; found = msg->findPointer(kCallbackFpKey, (void**) &onResult); if (!found) { ALOGE("%s: Cannot find logicalCamera capture result callback!", __FUNCTION__); return; } if (onResult == nullptr) { return; } found = msg->findObject(kCaptureResultKey, &obj); if (!found) { ALOGE("%s: Cannot find capture result!", __FUNCTION__); return; } sp result(static_cast(obj.get())); found = msg->findObject(kPhysicalCaptureResultKey, &obj); if (!found) { ALOGE("%s: Cannot find physical capture result!", __FUNCTION__); return; } sp physicalResult( static_cast(obj.get())); std::vector& physicalResultInfo = physicalResult->mPhysicalResultInfo; std::vector physicalCameraIds; std::vector> physicalMetadataCopy; for (size_t i = 0; i < physicalResultInfo.size(); i++) { String8 physicalId8(physicalResultInfo[i].mPhysicalCameraId); physicalCameraIds.push_back(physicalId8.c_str()); CameraMetadata clone = physicalResultInfo[i].mPhysicalCameraMetadata; clone.update(ANDROID_SYNC_FRAME_NUMBER, &physicalResult->mFrameNumber, /*data_count*/1); sp metadata = new ACameraMetadata(clone.release(), ACameraMetadata::ACM_RESULT); physicalMetadataCopy.push_back(metadata); } std::vector physicalCameraIdPtrs; std::vector physicalMetadataCopyPtrs; for (size_t i = 0; i < physicalResultInfo.size(); i++) { physicalCameraIdPtrs.push_back(physicalCameraIds[i].c_str()); physicalMetadataCopyPtrs.push_back(physicalMetadataCopy[i].get()); } ACaptureRequest* request = allocateACaptureRequest(requestSp, mId); (*onResult)(context, session.get(), request, result.get(), physicalResultInfo.size(), physicalCameraIdPtrs.data(), physicalMetadataCopyPtrs.data()); freeACaptureRequest(request); break; } case kWhatCaptureFail: { ACameraCaptureSession_captureCallback_failed onFail; found = msg->findPointer(kCallbackFpKey, (void**) &onFail); if (!found) { ALOGE("%s: Cannot find capture fail callback!", __FUNCTION__); return; } if (onFail == nullptr) { return; } found = msg->findObject(kCaptureFailureKey, &obj); if (!found) { ALOGE("%s: Cannot find capture failure!", __FUNCTION__); return; } sp failureSp( static_cast(obj.get())); ACameraCaptureFailure* failure = static_cast(failureSp.get()); ACaptureRequest* request = allocateACaptureRequest(requestSp, mId); (*onFail)(context, session.get(), request, failure); freeACaptureRequest(request); break; } case kWhatLogicalCaptureFail: { ACameraCaptureSession_logicalCamera_captureCallback_failed onFail; found = msg->findPointer(kCallbackFpKey, (void**) &onFail); if (!found) { ALOGE("%s: Cannot find capture fail callback!", __FUNCTION__); return; } if (onFail == nullptr) { return; } found = msg->findObject(kCaptureFailureKey, &obj); if (!found) { ALOGE("%s: Cannot find capture failure!", __FUNCTION__); return; } sp failureSp( static_cast(obj.get())); ALogicalCameraCaptureFailure failure; AString physicalCameraId; found = msg->findString(kFailingPhysicalCameraId, &physicalCameraId); if (found && !physicalCameraId.empty()) { failure.physicalCameraId = physicalCameraId.c_str(); } else { failure.physicalCameraId = nullptr; } failure.captureFailure = *failureSp; ACaptureRequest* request = allocateACaptureRequest(requestSp, mId); (*onFail)(context, session.get(), request, &failure); freeACaptureRequest(request); break; } case kWhatCaptureSeqEnd: { ACameraCaptureSession_captureCallback_sequenceEnd onSeqEnd; found = msg->findPointer(kCallbackFpKey, (void**) &onSeqEnd); if (!found) { ALOGE("%s: Cannot find sequence end callback!", __FUNCTION__); return; } if (onSeqEnd == nullptr) { return; } int seqId; found = msg->findInt32(kSequenceIdKey, &seqId); if (!found) { ALOGE("%s: Cannot find frame number!", __FUNCTION__); return; } int64_t frameNumber; found = msg->findInt64(kFrameNumberKey, &frameNumber); if (!found) { ALOGE("%s: Cannot find frame number!", __FUNCTION__); return; } (*onSeqEnd)(context, session.get(), seqId, frameNumber); break; } case kWhatCaptureSeqAbort: { ACameraCaptureSession_captureCallback_sequenceAbort onSeqAbort; found = msg->findPointer(kCallbackFpKey, (void**) &onSeqAbort); if (!found) { ALOGE("%s: Cannot find sequence end callback!", __FUNCTION__); return; } if (onSeqAbort == nullptr) { return; } int seqId; found = msg->findInt32(kSequenceIdKey, &seqId); if (!found) { ALOGE("%s: Cannot find frame number!", __FUNCTION__); return; } (*onSeqAbort)(context, session.get(), seqId); break; } case kWhatCaptureBufferLost: { ACameraCaptureSession_captureCallback_bufferLost onBufferLost; found = msg->findPointer(kCallbackFpKey, (void**) &onBufferLost); if (!found) { ALOGE("%s: Cannot find buffer lost callback!", __FUNCTION__); return; } if (onBufferLost == nullptr) { return; } ANativeWindow* anw; found = msg->findPointer(kAnwKey, (void**) &anw); if (!found) { ALOGE("%s: Cannot find ANativeWindow!", __FUNCTION__); return; } int64_t frameNumber; found = msg->findInt64(kFrameNumberKey, &frameNumber); if (!found) { ALOGE("%s: Cannot find frame number!", __FUNCTION__); return; } ACaptureRequest* request = allocateACaptureRequest(requestSp, mId); (*onBufferLost)(context, session.get(), request, anw, frameNumber); freeACaptureRequest(request); break; } } break; } } } CameraDevice::CallbackHolder::CallbackHolder( sp session, const Vector >& requests, bool isRepeating, ACameraCaptureSession_captureCallbacks* cbs) : mSession(session), mRequests(requests), mIsRepeating(isRepeating), mIsLogicalCameraCallback(false) { initCaptureCallbacks(cbs); if (cbs != nullptr) { mOnCaptureCompleted = cbs->onCaptureCompleted; mOnCaptureFailed = cbs->onCaptureFailed; } } CameraDevice::CallbackHolder::CallbackHolder( sp session, const Vector >& requests, bool isRepeating, ACameraCaptureSession_logicalCamera_captureCallbacks* lcbs) : mSession(session), mRequests(requests), mIsRepeating(isRepeating), mIsLogicalCameraCallback(true) { initCaptureCallbacks(lcbs); if (lcbs != nullptr) { mOnLogicalCameraCaptureCompleted = lcbs->onLogicalCameraCaptureCompleted; mOnLogicalCameraCaptureFailed = lcbs->onLogicalCameraCaptureFailed; } } void CameraDevice::checkRepeatingSequenceCompleteLocked( const int sequenceId, const int64_t lastFrameNumber) { ALOGV("Repeating seqId %d lastFrameNumer %" PRId64, sequenceId, lastFrameNumber); if (lastFrameNumber == NO_FRAMES_CAPTURED) { if (mSequenceCallbackMap.count(sequenceId) == 0) { ALOGW("No callback found for sequenceId %d", sequenceId); return; } // remove callback holder from callback map auto cbIt = mSequenceCallbackMap.find(sequenceId); CallbackHolder cbh = cbIt->second; mSequenceCallbackMap.erase(cbIt); // send seq aborted callback sp msg = new AMessage(kWhatCaptureSeqAbort, mHandler); msg->setPointer(kContextKey, cbh.mContext); msg->setObject(kSessionSpKey, cbh.mSession); msg->setPointer(kCallbackFpKey, (void*) cbh.mOnCaptureSequenceAborted); msg->setInt32(kSequenceIdKey, sequenceId); postSessionMsgAndCleanup(msg); } else { // Use mSequenceLastFrameNumberMap to track mSequenceLastFrameNumberMap.insert(std::make_pair(sequenceId, lastFrameNumber)); // Last frame might have arrived. Check now checkAndFireSequenceCompleteLocked(); } } void CameraDevice::checkAndFireSequenceCompleteLocked() { int64_t completedFrameNumber = mFrameNumberTracker.getCompletedFrameNumber(); //std::map mSequenceLastFrameNumberMap; auto it = mSequenceLastFrameNumberMap.begin(); while (it != mSequenceLastFrameNumberMap.end()) { int sequenceId = it->first; int64_t lastFrameNumber = it->second; bool seqCompleted = false; bool hasCallback = true; if (mRemote == nullptr) { ALOGW("Camera %s closed while checking sequence complete", getId()); return; } // Check if there is callback for this sequence // This should not happen because we always register callback (with nullptr inside) if (mSequenceCallbackMap.count(sequenceId) == 0) { ALOGW("No callback found for sequenceId %d", sequenceId); hasCallback = false; } if (lastFrameNumber <= completedFrameNumber) { ALOGV("seq %d reached last frame %" PRId64 ", completed %" PRId64, sequenceId, lastFrameNumber, completedFrameNumber); seqCompleted = true; } if (seqCompleted && hasCallback) { // remove callback holder from callback map auto cbIt = mSequenceCallbackMap.find(sequenceId); CallbackHolder cbh = cbIt->second; mSequenceCallbackMap.erase(cbIt); // send seq complete callback sp msg = new AMessage(kWhatCaptureSeqEnd, mHandler); msg->setPointer(kContextKey, cbh.mContext); msg->setObject(kSessionSpKey, cbh.mSession); msg->setPointer(kCallbackFpKey, (void*) cbh.mOnCaptureSequenceCompleted); msg->setInt32(kSequenceIdKey, sequenceId); msg->setInt64(kFrameNumberKey, lastFrameNumber); // Clear the session sp before we send out the message // This will guarantee the rare case where the message is processed // before cbh goes out of scope and causing we call the session // destructor while holding device lock cbh.mSession.clear(); postSessionMsgAndCleanup(msg); } // No need to track sequence complete if there is no callback registered if (seqCompleted || !hasCallback) { it = mSequenceLastFrameNumberMap.erase(it); } else { ++it; } } } /** * Camera service callback implementation */ binder::Status CameraDevice::ServiceCallback::onDeviceError( int32_t errorCode, const CaptureResultExtras& resultExtras) { ALOGD("Device error received, code %d, frame number %" PRId64 ", request ID %d, subseq ID %d", errorCode, resultExtras.frameNumber, resultExtras.requestId, resultExtras.burstId); binder::Status ret = binder::Status::ok(); sp dev = mDevice.promote(); if (dev == nullptr) { return ret; // device has been closed } sp session = dev->mCurrentSession.promote(); Mutex::Autolock _l(dev->mDeviceLock); if (dev->mRemote == nullptr) { return ret; // device has been closed } switch (errorCode) { case ERROR_CAMERA_DISCONNECTED: { // Camera is disconnected, close the session and expect no more callbacks if (session != nullptr) { session->closeByDevice(); } dev->mCurrentSession = nullptr; sp msg = new AMessage(kWhatOnDisconnected, dev->mHandler); msg->setPointer(kContextKey, dev->mAppCallbacks.context); msg->setPointer(kDeviceKey, (void*) dev->getWrapper()); msg->setPointer(kCallbackFpKey, (void*) dev->mAppCallbacks.onDisconnected); msg->post(); break; } default: ALOGE("Unknown error from camera device: %d", errorCode); [[fallthrough]]; case ERROR_CAMERA_DEVICE: case ERROR_CAMERA_SERVICE: { int32_t errorVal = ::ERROR_CAMERA_DEVICE; // We keep this switch since this block might be encountered with // more than just 2 states. The default fallthrough could have us // handling more unmatched error cases. switch (errorCode) { case ERROR_CAMERA_DEVICE: dev->setCameraDeviceErrorLocked(ACAMERA_ERROR_CAMERA_DEVICE); break; case ERROR_CAMERA_SERVICE: dev->setCameraDeviceErrorLocked(ACAMERA_ERROR_CAMERA_SERVICE); errorVal = ::ERROR_CAMERA_SERVICE; break; default: dev->setCameraDeviceErrorLocked(ACAMERA_ERROR_UNKNOWN); break; } sp msg = new AMessage(kWhatOnError, dev->mHandler); msg->setPointer(kContextKey, dev->mAppCallbacks.context); msg->setPointer(kDeviceKey, (void*) dev->getWrapper()); msg->setPointer(kCallbackFpKey, (void*) dev->mAppCallbacks.onError); msg->setInt32(kErrorCodeKey, errorVal); msg->post(); break; } case ERROR_CAMERA_REQUEST: case ERROR_CAMERA_RESULT: case ERROR_CAMERA_BUFFER: dev->onCaptureErrorLocked(errorCode, resultExtras); break; } return ret; } binder::Status CameraDevice::ServiceCallback::onDeviceIdle() { ALOGV("Camera is now idle"); binder::Status ret = binder::Status::ok(); sp dev = mDevice.promote(); if (dev == nullptr) { return ret; // device has been closed } Mutex::Autolock _l(dev->mDeviceLock); if (dev->isClosed() || dev->mRemote == nullptr) { return ret; } if (dev->mIdle) { // Already in idle state. Possibly other thread did waitUntilIdle return ret; } if (dev->mCurrentSession != nullptr) { ALOGE("onDeviceIdle sending state cb"); if (dev->mBusySession != dev->mCurrentSession) { ALOGE("Current session != busy session"); dev->setCameraDeviceErrorLocked(ACAMERA_ERROR_CAMERA_DEVICE); return ret; } sp msg = new AMessage(kWhatSessionStateCb, dev->mHandler); msg->setPointer(kContextKey, dev->mBusySession->mUserSessionCallback.context); msg->setObject(kSessionSpKey, dev->mBusySession); msg->setPointer(kCallbackFpKey, (void*) dev->mBusySession->mUserSessionCallback.onReady); // Make sure we clear the sp first so the session destructor can // only happen on handler thread (where we don't hold device/session lock) dev->mBusySession.clear(); dev->postSessionMsgAndCleanup(msg); } dev->mIdle = true; dev->mFlushing = false; return ret; } binder::Status CameraDevice::ServiceCallback::onCaptureStarted( const CaptureResultExtras& resultExtras, int64_t timestamp) { binder::Status ret = binder::Status::ok(); sp dev = mDevice.promote(); if (dev == nullptr) { return ret; // device has been closed } Mutex::Autolock _l(dev->mDeviceLock); if (dev->isClosed() || dev->mRemote == nullptr) { return ret; } int sequenceId = resultExtras.requestId; int32_t burstId = resultExtras.burstId; auto it = dev->mSequenceCallbackMap.find(sequenceId); if (it != dev->mSequenceCallbackMap.end()) { CallbackHolder cbh = (*it).second; ACameraCaptureSession_captureCallback_start onStart = cbh.mOnCaptureStarted; sp session = cbh.mSession; if ((size_t) burstId >= cbh.mRequests.size()) { ALOGE("%s: Error: request index %d out of bound (size %zu)", __FUNCTION__, burstId, cbh.mRequests.size()); dev->setCameraDeviceErrorLocked(ACAMERA_ERROR_CAMERA_SERVICE); } sp request = cbh.mRequests[burstId]; sp msg = new AMessage(kWhatCaptureStart, dev->mHandler); msg->setPointer(kContextKey, cbh.mContext); msg->setObject(kSessionSpKey, session); msg->setPointer(kCallbackFpKey, (void*) onStart); msg->setObject(kCaptureRequestKey, request); msg->setInt64(kTimeStampKey, timestamp); dev->postSessionMsgAndCleanup(msg); } return ret; } binder::Status CameraDevice::ServiceCallback::onResultReceived( const CameraMetadata& metadata, const CaptureResultExtras& resultExtras, const std::vector& physicalResultInfos) { binder::Status ret = binder::Status::ok(); sp dev = mDevice.promote(); if (dev == nullptr) { return ret; // device has been closed } int sequenceId = resultExtras.requestId; int64_t frameNumber = resultExtras.frameNumber; int32_t burstId = resultExtras.burstId; bool isPartialResult = (resultExtras.partialResultCount < dev->mPartialResultCount); if (!isPartialResult) { ALOGV("SeqId %d frame %" PRId64 " result arrive.", sequenceId, frameNumber); } Mutex::Autolock _l(dev->mDeviceLock); if (dev->mRemote == nullptr) { return ret; // device has been disconnected } if (dev->isClosed()) { if (!isPartialResult) { dev->mFrameNumberTracker.updateTracker(frameNumber, /*isError*/false); } // early return to avoid callback sent to closed devices return ret; } CameraMetadata metadataCopy = metadata; metadataCopy.update(ANDROID_LENS_INFO_SHADING_MAP_SIZE, dev->mShadingMapSize, /*data_count*/2); metadataCopy.update(ANDROID_SYNC_FRAME_NUMBER, &frameNumber, /*data_count*/1); auto it = dev->mSequenceCallbackMap.find(sequenceId); if (it != dev->mSequenceCallbackMap.end()) { CallbackHolder cbh = (*it).second; sp session = cbh.mSession; if ((size_t) burstId >= cbh.mRequests.size()) { ALOGE("%s: Error: request index %d out of bound (size %zu)", __FUNCTION__, burstId, cbh.mRequests.size()); dev->setCameraDeviceErrorLocked(ACAMERA_ERROR_CAMERA_SERVICE); } sp request = cbh.mRequests[burstId]; sp result(new ACameraMetadata( metadataCopy.release(), ACameraMetadata::ACM_RESULT)); sp physicalResult( new ACameraPhysicalCaptureResultInfo(physicalResultInfos, frameNumber)); sp msg = new AMessage( cbh.mIsLogicalCameraCallback ? kWhatLogicalCaptureResult : kWhatCaptureResult, dev->mHandler); msg->setPointer(kContextKey, cbh.mContext); msg->setObject(kSessionSpKey, session); msg->setObject(kCaptureRequestKey, request); msg->setObject(kCaptureResultKey, result); if (isPartialResult) { msg->setPointer(kCallbackFpKey, (void *)cbh.mOnCaptureProgressed); } else if (cbh.mIsLogicalCameraCallback) { msg->setPointer(kCallbackFpKey, (void *)cbh.mOnLogicalCameraCaptureCompleted); msg->setObject(kPhysicalCaptureResultKey, physicalResult); } else { msg->setPointer(kCallbackFpKey, (void *)cbh.mOnCaptureCompleted); } dev->postSessionMsgAndCleanup(msg); } if (!isPartialResult) { dev->mFrameNumberTracker.updateTracker(frameNumber, /*isError*/false); dev->checkAndFireSequenceCompleteLocked(); } return ret; } binder::Status CameraDevice::ServiceCallback::onPrepared(int) { // Prepare not yet implemented in NDK return binder::Status::ok(); } binder::Status CameraDevice::ServiceCallback::onRequestQueueEmpty() { // onRequestQueueEmpty not yet implemented in NDK return binder::Status::ok(); } binder::Status CameraDevice::ServiceCallback::onRepeatingRequestError( int64_t lastFrameNumber, int32_t stoppedSequenceId) { binder::Status ret = binder::Status::ok(); sp dev = mDevice.promote(); if (dev == nullptr) { return ret; // device has been closed } Mutex::Autolock _l(dev->mDeviceLock); int repeatingSequenceId = dev->mRepeatingSequenceId; if (stoppedSequenceId == repeatingSequenceId) { dev->mRepeatingSequenceId = REQUEST_ID_NONE; } dev->checkRepeatingSequenceCompleteLocked(repeatingSequenceId, lastFrameNumber); return ret; } } // namespace acam } // namespace android