camera/device/default/ExternalCameraDeviceSession.h - LeafOS-Project/android_hardware_interfaces - Gitiles

 /*
  * Copyright (C) 2022 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.
  */

 #ifndef HARDWARE_INTERFACES_CAMERA_DEVICE_DEFAULT_EXTERNALCAMERADEVICESESSION_H_
 #define HARDWARE_INTERFACES_CAMERA_DEVICE_DEFAULT_EXTERNALCAMERADEVICESESSION_H_

 #include <ExternalCameraUtils.h>
 #include <SimpleThread.h>
 #include <aidl/android/hardware/camera/common/Status.h>
 #include <aidl/android/hardware/camera/device/BnCameraDeviceSession.h>
 #include <aidl/android/hardware/camera/device/BufferRequest.h>
 #include <aidl/android/hardware/camera/device/Stream.h>
 #include <android-base/unique_fd.h>
 #include <android/hardware/graphics/mapper/2.0/IMapper.h>
 #include <android/hardware/graphics/mapper/3.0/IMapper.h>
 #include <android/hardware/graphics/mapper/4.0/IMapper.h>
 #include <fmq/AidlMessageQueue.h>
 #include <utils/Thread.h>
 #include <deque>
 #include <list>

 namespace android {
 namespace hardware {
 namespace camera {
 namespace device {
 namespace implementation {

 using ::aidl::android::hardware::camera::common::Status;
 using ::aidl::android::hardware::camera::device::BnCameraDeviceSession;
 using ::aidl::android::hardware::camera::device::BufferCache;
 using ::aidl::android::hardware::camera::device::BufferRequest;
 using ::aidl::android::hardware::camera::device::CameraMetadata;
 using ::aidl::android::hardware::camera::device::CameraOfflineSessionInfo;
 using ::aidl::android::hardware::camera::device::CaptureRequest;
 using ::aidl::android::hardware::camera::device::HalStream;
 using ::aidl::android::hardware::camera::device::ICameraDeviceCallback;
 using ::aidl::android::hardware::camera::device::ICameraOfflineSession;
 using ::aidl::android::hardware::camera::device::RequestTemplate;
 using ::aidl::android::hardware::camera::device::Stream;
 using ::aidl::android::hardware::camera::device::StreamConfiguration;
 using ::aidl::android::hardware::common::fmq::MQDescriptor;
 using ::aidl::android::hardware::common::fmq::SynchronizedReadWrite;
 using ::android::AidlMessageQueue;
 using ::android::base::unique_fd;
 using ::android::hardware::camera::common::helper::SimpleThread;
 using ::android::hardware::camera::external::common::ExternalCameraConfig;
 using ::android::hardware::camera::external::common::SizeHasher;
 using ::android::hardware::graphics::mapper::V2_0::YCbCrLayout;
 using ::ndk::ScopedAStatus;

 class ExternalCameraDeviceSession : public BnCameraDeviceSession, public OutputThreadInterface {
   public:
     ExternalCameraDeviceSession(const std::shared_ptr<ICameraDeviceCallback>&,
                                 const ExternalCameraConfig& cfg,
                                 const std::vector<SupportedV4L2Format>& sortedFormats,
                                 const CroppingType& croppingType,
                                 const common::V1_0::helper::CameraMetadata& chars,
                                 const std::string& cameraId, unique_fd v4l2Fd);
     ~ExternalCameraDeviceSession() override;

     // Caller must use this method to check if CameraDeviceSession ctor failed
     bool isInitFailed();
     bool isClosed();

     ScopedAStatus close() override;

     ScopedAStatus configureStreams(const StreamConfiguration& in_requestedConfiguration,
                                    std::vector<HalStream>* _aidl_return) override;
     ScopedAStatus constructDefaultRequestSettings(RequestTemplate in_type,
                                                   CameraMetadata* _aidl_return) override;
     ScopedAStatus flush() override;
     ScopedAStatus getCaptureRequestMetadataQueue(
             MQDescriptor<int8_t, SynchronizedReadWrite>* _aidl_return) override;
     ScopedAStatus getCaptureResultMetadataQueue(
             MQDescriptor<int8_t, SynchronizedReadWrite>* _aidl_return) override;
     ScopedAStatus isReconfigurationRequired(const CameraMetadata& in_oldSessionParams,
                                             const CameraMetadata& in_newSessionParams,
                                             bool* _aidl_return) override;
     ScopedAStatus processCaptureRequest(const std::vector<CaptureRequest>& in_requests,
                                         const std::vector<BufferCache>& in_cachesToRemove,
                                         int32_t* _aidl_return) override;
     ScopedAStatus signalStreamFlush(const std::vector<int32_t>& in_streamIds,
                                     int32_t in_streamConfigCounter) override;
     ScopedAStatus switchToOffline(const std::vector<int32_t>& in_streamsToKeep,
                                   CameraOfflineSessionInfo* out_offlineSessionInfo,
                                   std::shared_ptr<ICameraOfflineSession>* _aidl_return) override;
     ScopedAStatus repeatingRequestEnd(int32_t in_frameNumber,
                                       const std::vector<int32_t>& in_streamIds) override;

     Status importBuffer(int32_t streamId, uint64_t bufId, buffer_handle_t buf,
                         buffer_handle_t** outBufPtr) override;

     void notifyError(int32_t frameNumber, int32_t streamId, ErrorCode ec) override;

     Status processCaptureRequestError(const std::shared_ptr<HalRequest>& ptr,
                                       std::vector<NotifyMsg>* msgs,
                                       std::vector<CaptureResult>* results) override;

     Status processCaptureResult(std::shared_ptr<HalRequest>& ptr) override;
     ssize_t getJpegBufferSize(int32_t width, int32_t height) const override;

     // Called by CameraDevice to dump active device states
     binder_status_t dump(int fd, const char** args, uint32_t numArgs) override;

     static Status isStreamCombinationSupported(
             const StreamConfiguration& config,
             const std::vector<SupportedV4L2Format>& supportedFormats,
             const ExternalCameraConfig& devCfg);

     static const int kMaxProcessedStream = 2;
     static const int kMaxStallStream = 1;
     static const uint32_t kMaxBytesPerPixel = 2;

     class BufferRequestThread : public SimpleThread {
       public:
         BufferRequestThread(std::weak_ptr<OutputThreadInterface> parent,
                             std::shared_ptr<ICameraDeviceCallback> callbacks);

         int requestBufferStart(const std::vector<HalStreamBuffer>&);
         int waitForBufferRequestDone(
                 /*out*/ std::vector<HalStreamBuffer>*);

         bool threadLoop() override;

       private:
         void waitForNextRequest();

         const std::weak_ptr<OutputThreadInterface> mParent;
         const std::shared_ptr<ICameraDeviceCallback> mCallbacks;

         std::mutex mLock;
         bool mRequestingBuffer = false;

         std::vector<HalStreamBuffer> mBufferReqs;
         std::vector<HalStreamBuffer> mPendingReturnBufferReqs;
         // mHalBufferReqs is not under mLock protection during the HIDL transaction
         std::vector<BufferRequest> mHalBufferReqs;

         // request buffers takes much less time in steady state, but can take much longer
         // when requesting 1st buffer from a stream.
         // TODO: consider a separate timeout for new vs. steady state?
         // TODO: or make sure framework is warming up the pipeline during configure new stream?
         static const int kReqProcTimeoutMs = 66;

         static const int kReqWaitTimeoutMs = 33;
         static const int kReqWaitTimesWarn = 90;   // 33ms * 90 ~= 3 sec
         std::condition_variable mRequestCond;      // signaled when a new buffer request incoming
         std::condition_variable mRequestDoneCond;  // signaled when a request is done
     };

     class OutputThread : public SimpleThread {
       public:
         OutputThread(std::weak_ptr<OutputThreadInterface> parent, CroppingType,
                      const common::V1_0::helper::CameraMetadata&,
                      std::shared_ptr<BufferRequestThread> bufReqThread);
         ~OutputThread();

         Status allocateIntermediateBuffers(const Size& v4lSize, const Size& thumbSize,
                                            const std::vector<Stream>& streams,
                                            uint32_t blobBufferSize);
         Status submitRequest(const std::shared_ptr<HalRequest>&);
         void flush();
         void dump(int fd);
         bool threadLoop() override;

         void setExifMakeModel(const std::string& make, const std::string& model);

         // The remaining request list is returned for offline processing
         std::list<std::shared_ptr<HalRequest>> switchToOffline();

       protected:
         static const int kFlushWaitTimeoutSec = 3;  // 3 sec
         static const int kReqWaitTimeoutMs = 33;    // 33ms
         static const int kReqWaitTimesMax = 90;     // 33ms * 90 ~= 3 sec

         // Methods to request output buffer in parallel
         int requestBufferStart(const std::vector<HalStreamBuffer>&);
         int waitForBufferRequestDone(
                 /*out*/ std::vector<HalStreamBuffer>*);

         void waitForNextRequest(std::shared_ptr<HalRequest>* out);
         void signalRequestDone();

         int cropAndScaleLocked(std::shared_ptr<AllocatedFrame>& in, const Size& outSize,
                                YCbCrLayout* out);

         int cropAndScaleThumbLocked(std::shared_ptr<AllocatedFrame>& in, const Size& outSize,
                                     YCbCrLayout* out);

         int createJpegLocked(HalStreamBuffer& halBuf,
                              const common::V1_0::helper::CameraMetadata& settings);

         void clearIntermediateBuffers();

         const std::weak_ptr<OutputThreadInterface> mParent;
         const CroppingType mCroppingType;
         const common::V1_0::helper::CameraMetadata mCameraCharacteristics;

         mutable std::mutex mRequestListLock;       // Protect access to mRequestList,
                                                    // mProcessingRequest and mProcessingFrameNumber
         std::condition_variable mRequestCond;      // signaled when a new request is submitted
         std::condition_variable mRequestDoneCond;  // signaled when a request is done processing
         std::list<std::shared_ptr<HalRequest>> mRequestList;
         bool mProcessingRequest = false;
         uint32_t mProcessingFrameNumber = 0;

         // V4L2 frameIn
         // (MJPG decode)-> mYu12Frame
         // (Scale)-> mScaledYu12Frames
         // (Format convert) -> output gralloc frames
         mutable std::mutex mBufferLock;  // Protect access to intermediate buffers
         std::shared_ptr<AllocatedFrame> mYu12Frame;
         std::shared_ptr<AllocatedFrame> mYu12ThumbFrame;
         std::unordered_map<Size, std::shared_ptr<AllocatedFrame>, SizeHasher> mIntermediateBuffers;
         std::unordered_map<Size, std::shared_ptr<AllocatedFrame>, SizeHasher> mScaledYu12Frames;
         YCbCrLayout mYu12FrameLayout;
         YCbCrLayout mYu12ThumbFrameLayout;
         std::vector<uint8_t> mMuteTestPatternFrame;
         uint32_t mTestPatternData[4] = {0, 0, 0, 0};
         bool mCameraMuted = false;
         uint32_t mBlobBufferSize = 0;  // 0 -> HAL derive buffer size, else: use given size

         std::string mExifMake;
         std::string mExifModel;

         const std::shared_ptr<BufferRequestThread> mBufferRequestThread;
     };

   private:
     bool initialize();
     // To init/close different version of output thread
     void initOutputThread();
     void closeOutputThread();
     void closeBufferRequestThread();

     void closeImpl();
     Status initStatus() const;
     status_t initDefaultRequests();

     status_t fillCaptureResult(common::V1_0::helper::CameraMetadata& md, nsecs_t timestamp);
     int configureV4l2StreamLocked(const SupportedV4L2Format& fmt, double fps = 0.0);
     int v4l2StreamOffLocked();

     int setV4l2FpsLocked(double fps);

     std::unique_ptr<V4L2Frame> dequeueV4l2FrameLocked(
             /*out*/ nsecs_t* shutterTs);  // Called with mLock held

     void enqueueV4l2Frame(const std::shared_ptr<V4L2Frame>&);

     // Check if input Stream is one of supported stream setting on this device
     static bool isSupported(const Stream& stream,
                             const std::vector<SupportedV4L2Format>& supportedFormats,
                             const ExternalCameraConfig& cfg);

     // Validate and import request's output buffers and acquire fence
     Status importRequestLocked(const CaptureRequest& request,
                                std::vector<buffer_handle_t*>& allBufPtrs,
                                std::vector<int>& allFences);

     Status importRequestLockedImpl(const CaptureRequest& request,
                                    std::vector<buffer_handle_t*>& allBufPtrs,
                                    std::vector<int>& allFences);

     Status importBufferLocked(int32_t streamId, uint64_t bufId, buffer_handle_t buf,
                               /*out*/ buffer_handle_t** outBufPtr);
     static void cleanupInflightFences(std::vector<int>& allFences, size_t numFences);
     void cleanupBuffersLocked(int id);

     void updateBufferCaches(const std::vector<BufferCache>& cachesToRemove);

     Status processOneCaptureRequest(const CaptureRequest& request);
     void notifyShutter(int32_t frameNumber, nsecs_t shutterTs);

     void invokeProcessCaptureResultCallback(std::vector<CaptureResult>& results, bool tryWriteFmq);
     Size getMaxJpegResolution() const;

     Size getMaxThumbResolution() const;

     int waitForV4L2BufferReturnLocked(std::unique_lock<std::mutex>& lk);

     // Main body of switchToOffline. This method does not invoke any callbacks
     // but instead returns the necessary callbacks in output arguments so callers
     // can callback later without holding any locks
     Status switchToOffline(const std::vector<int32_t>& offlineStreams,
                            /*out*/ std::vector<NotifyMsg>* msgs,
                            /*out*/ std::vector<CaptureResult>* results,
                            /*out*/ CameraOfflineSessionInfo* info,
                            /*out*/ std::shared_ptr<ICameraOfflineSession>* session);

     bool supportOfflineLocked(int32_t streamId);

     // Whether a request can be completely dropped when switching to offline
     bool canDropRequest(const std::vector<int32_t>& offlineStreams,
                         std::shared_ptr<HalRequest> halReq);

     void fillOfflineSessionInfo(const std::vector<int32_t>& offlineStreams,
                                 std::deque<std::shared_ptr<HalRequest>>& offlineReqs,
                                 const std::map<int, CirculatingBuffers>& circulatingBuffers,
                                 /*out*/ CameraOfflineSessionInfo* info);

     // Protect (most of) HIDL interface methods from synchronized-entering
     mutable Mutex mInterfaceLock;

     mutable Mutex mLock;  // Protect all private members except otherwise noted
     const std::shared_ptr<ICameraDeviceCallback> mCallback;
     const ExternalCameraConfig& mCfg;
     const common::V1_0::helper::CameraMetadata mCameraCharacteristics;
     const std::vector<SupportedV4L2Format> mSupportedFormats;
     const CroppingType mCroppingType;
     const std::string mCameraId;

     // Not protected by mLock, this is almost a const.
     // Setup in constructor, reset in close() after OutputThread is joined
     unique_fd mV4l2Fd;

     // device is closed either
     //    - closed by user
     //    - init failed
     //    - camera disconnected
     bool mClosed = false;
     bool mInitialized = false;
     bool mInitFail = false;
     bool mFirstRequest = false;
     common::V1_0::helper::CameraMetadata mLatestReqSetting;

     bool mV4l2Streaming = false;
     SupportedV4L2Format mV4l2StreamingFmt;
     double mV4l2StreamingFps = 0.0;
     size_t mV4L2BufferCount = 0;

     static const int kBufferWaitTimeoutSec = 3;  // TODO: handle long exposure (or not allowing)
     std::mutex mV4l2BufferLock;                  // protect the buffer count and condition below
     std::condition_variable mV4L2BufferReturned;
     size_t mNumDequeuedV4l2Buffers = 0;
     uint32_t mMaxV4L2BufferSize = 0;

     // Not protected by mLock (but might be used when mLock is locked)
     std::shared_ptr<OutputThread> mOutputThread;

     // Stream ID -> Stream cache
     std::unordered_map<int, Stream> mStreamMap;

     std::mutex mInflightFramesLock;  // protect mInflightFrames
     std::unordered_set<uint32_t> mInflightFrames;

     // Stream ID -> circulating buffers map
     std::map<int, CirculatingBuffers> mCirculatingBuffers;
     // Protect mCirculatingBuffers, must not lock mLock after acquiring this lock
     mutable Mutex mCbsLock;

     std::mutex mAfTriggerLock;  // protect mAfTrigger
     bool mAfTrigger = false;

     uint32_t mBlobBufferSize = 0;

     static HandleImporter sHandleImporter;

     std::shared_ptr<BufferRequestThread> mBufferRequestThread;

     /* Beginning of members not changed after initialize() */
     using RequestMetadataQueue = AidlMessageQueue<int8_t, SynchronizedReadWrite>;
     std::unique_ptr<RequestMetadataQueue> mRequestMetadataQueue;
     using ResultMetadataQueue = AidlMessageQueue<int8_t, SynchronizedReadWrite>;
     std::shared_ptr<ResultMetadataQueue> mResultMetadataQueue;

     // Protect against invokeProcessCaptureResultCallback()
     Mutex mProcessCaptureResultLock;

     // tracks last seen stream config counter
     int32_t mLastStreamConfigCounter = -1;

     std::unordered_map<RequestTemplate, CameraMetadata> mDefaultRequests;

     const Size mMaxThumbResolution;
     const Size mMaxJpegResolution;

     std::string mExifMake;
     std::string mExifModel;
     /* End of members not changed after initialize() */
 };

 }  // namespace implementation
 }  // namespace device
 }  // namespace camera
 }  // namespace hardware
 }  // namespace android

 #endif  // HARDWARE_INTERFACES_CAMERA_DEVICE_DEFAULT_EXTERNALCAMERADEVICESESSION_H_
	/*
	* Copyright (C) 2022 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.
	*/

	#ifndef HARDWARE_INTERFACES_CAMERA_DEVICE_DEFAULT_EXTERNALCAMERADEVICESESSION_H_
	#define HARDWARE_INTERFACES_CAMERA_DEVICE_DEFAULT_EXTERNALCAMERADEVICESESSION_H_

	#include <ExternalCameraUtils.h>
	#include <SimpleThread.h>
	#include <aidl/android/hardware/camera/common/Status.h>
	#include <aidl/android/hardware/camera/device/BnCameraDeviceSession.h>
	#include <aidl/android/hardware/camera/device/BufferRequest.h>
	#include <aidl/android/hardware/camera/device/Stream.h>
	#include <android-base/unique_fd.h>
	#include <android/hardware/graphics/mapper/2.0/IMapper.h>
	#include <android/hardware/graphics/mapper/3.0/IMapper.h>
	#include <android/hardware/graphics/mapper/4.0/IMapper.h>
	#include <fmq/AidlMessageQueue.h>
	#include <utils/Thread.h>
	#include <deque>
	#include <list>

	namespace android {
	namespace hardware {
	namespace camera {
	namespace device {
	namespace implementation {

	using ::aidl::android::hardware::camera::common::Status;
	using ::aidl::android::hardware::camera::device::BnCameraDeviceSession;
	using ::aidl::android::hardware::camera::device::BufferCache;
	using ::aidl::android::hardware::camera::device::BufferRequest;
	using ::aidl::android::hardware::camera::device::CameraMetadata;
	using ::aidl::android::hardware::camera::device::CameraOfflineSessionInfo;
	using ::aidl::android::hardware::camera::device::CaptureRequest;
	using ::aidl::android::hardware::camera::device::HalStream;
	using ::aidl::android::hardware::camera::device::ICameraDeviceCallback;
	using ::aidl::android::hardware::camera::device::ICameraOfflineSession;
	using ::aidl::android::hardware::camera::device::RequestTemplate;
	using ::aidl::android::hardware::camera::device::Stream;
	using ::aidl::android::hardware::camera::device::StreamConfiguration;
	using ::aidl::android::hardware::common::fmq::MQDescriptor;
	using ::aidl::android::hardware::common::fmq::SynchronizedReadWrite;
	using ::android::AidlMessageQueue;
	using ::android::base::unique_fd;
	using ::android::hardware::camera::common::helper::SimpleThread;
	using ::android::hardware::camera::external::common::ExternalCameraConfig;
	using ::android::hardware::camera::external::common::SizeHasher;
	using ::android::hardware::graphics::mapper::V2_0::YCbCrLayout;
	using ::ndk::ScopedAStatus;

	class ExternalCameraDeviceSession : public BnCameraDeviceSession, public OutputThreadInterface {
	public:
	ExternalCameraDeviceSession(const std::shared_ptr<ICameraDeviceCallback>&,
	const ExternalCameraConfig& cfg,
	const std::vector<SupportedV4L2Format>& sortedFormats,
	const CroppingType& croppingType,
	const common::V1_0::helper::CameraMetadata& chars,
	const std::string& cameraId, unique_fd v4l2Fd);
	~ExternalCameraDeviceSession() override;

	// Caller must use this method to check if CameraDeviceSession ctor failed
	bool isInitFailed();
	bool isClosed();

	ScopedAStatus close() override;

	ScopedAStatus configureStreams(const StreamConfiguration& in_requestedConfiguration,
	std::vector<HalStream>* _aidl_return) override;
	ScopedAStatus constructDefaultRequestSettings(RequestTemplate in_type,
	CameraMetadata* _aidl_return) override;
	ScopedAStatus flush() override;
	ScopedAStatus getCaptureRequestMetadataQueue(
	MQDescriptor<int8_t, SynchronizedReadWrite>* _aidl_return) override;
	ScopedAStatus getCaptureResultMetadataQueue(
	MQDescriptor<int8_t, SynchronizedReadWrite>* _aidl_return) override;
	ScopedAStatus isReconfigurationRequired(const CameraMetadata& in_oldSessionParams,
	const CameraMetadata& in_newSessionParams,
	bool* _aidl_return) override;
	ScopedAStatus processCaptureRequest(const std::vector<CaptureRequest>& in_requests,
	const std::vector<BufferCache>& in_cachesToRemove,
	int32_t* _aidl_return) override;
	ScopedAStatus signalStreamFlush(const std::vector<int32_t>& in_streamIds,
	int32_t in_streamConfigCounter) override;
	ScopedAStatus switchToOffline(const std::vector<int32_t>& in_streamsToKeep,
	CameraOfflineSessionInfo* out_offlineSessionInfo,
	std::shared_ptr<ICameraOfflineSession>* _aidl_return) override;
	ScopedAStatus repeatingRequestEnd(int32_t in_frameNumber,
	const std::vector<int32_t>& in_streamIds) override;

	Status importBuffer(int32_t streamId, uint64_t bufId, buffer_handle_t buf,
	buffer_handle_t** outBufPtr) override;

	void notifyError(int32_t frameNumber, int32_t streamId, ErrorCode ec) override;

	Status processCaptureRequestError(const std::shared_ptr<HalRequest>& ptr,
	std::vector<NotifyMsg>* msgs,
	std::vector<CaptureResult>* results) override;

	Status processCaptureResult(std::shared_ptr<HalRequest>& ptr) override;
	ssize_t getJpegBufferSize(int32_t width, int32_t height) const override;

	// Called by CameraDevice to dump active device states
	binder_status_t dump(int fd, const char** args, uint32_t numArgs) override;

	static Status isStreamCombinationSupported(
	const StreamConfiguration& config,
	const std::vector<SupportedV4L2Format>& supportedFormats,
	const ExternalCameraConfig& devCfg);

	static const int kMaxProcessedStream = 2;
	static const int kMaxStallStream = 1;
	static const uint32_t kMaxBytesPerPixel = 2;

	class BufferRequestThread : public SimpleThread {
	public:
	BufferRequestThread(std::weak_ptr<OutputThreadInterface> parent,
	std::shared_ptr<ICameraDeviceCallback> callbacks);

	int requestBufferStart(const std::vector<HalStreamBuffer>&);
	int waitForBufferRequestDone(
	/out/ std::vector<HalStreamBuffer>*);

	bool threadLoop() override;

	private:
	void waitForNextRequest();

	const std::weak_ptr<OutputThreadInterface> mParent;
	const std::shared_ptr<ICameraDeviceCallback> mCallbacks;

	std::mutex mLock;
	bool mRequestingBuffer = false;

	std::vector<HalStreamBuffer> mBufferReqs;
	std::vector<HalStreamBuffer> mPendingReturnBufferReqs;
	// mHalBufferReqs is not under mLock protection during the HIDL transaction
	std::vector<BufferRequest> mHalBufferReqs;

	// request buffers takes much less time in steady state, but can take much longer
	// when requesting 1st buffer from a stream.
	// TODO: consider a separate timeout for new vs. steady state?
	// TODO: or make sure framework is warming up the pipeline during configure new stream?
	static const int kReqProcTimeoutMs = 66;

	static const int kReqWaitTimeoutMs = 33;
	static const int kReqWaitTimesWarn = 90; // 33ms * 90 ~= 3 sec
	std::condition_variable mRequestCond; // signaled when a new buffer request incoming
	std::condition_variable mRequestDoneCond; // signaled when a request is done
	};

	class OutputThread : public SimpleThread {
	public:
	OutputThread(std::weak_ptr<OutputThreadInterface> parent, CroppingType,
	const common::V1_0::helper::CameraMetadata&,
	std::shared_ptr<BufferRequestThread> bufReqThread);
	~OutputThread();

	Status allocateIntermediateBuffers(const Size& v4lSize, const Size& thumbSize,
	const std::vector<Stream>& streams,
	uint32_t blobBufferSize);
	Status submitRequest(const std::shared_ptr<HalRequest>&);
	void flush();
	void dump(int fd);
	bool threadLoop() override;

	void setExifMakeModel(const std::string& make, const std::string& model);

	// The remaining request list is returned for offline processing
	std::list<std::shared_ptr<HalRequest>> switchToOffline();

	protected:
	static const int kFlushWaitTimeoutSec = 3; // 3 sec
	static const int kReqWaitTimeoutMs = 33; // 33ms
	static const int kReqWaitTimesMax = 90; // 33ms * 90 ~= 3 sec

	// Methods to request output buffer in parallel
	int requestBufferStart(const std::vector<HalStreamBuffer>&);
	int waitForBufferRequestDone(
	/out/ std::vector<HalStreamBuffer>*);

	void waitForNextRequest(std::shared_ptr<HalRequest>* out);
	void signalRequestDone();

	int cropAndScaleLocked(std::shared_ptr<AllocatedFrame>& in, const Size& outSize,
	YCbCrLayout* out);

	int cropAndScaleThumbLocked(std::shared_ptr<AllocatedFrame>& in, const Size& outSize,
	YCbCrLayout* out);

	int createJpegLocked(HalStreamBuffer& halBuf,
	const common::V1_0::helper::CameraMetadata& settings);

	void clearIntermediateBuffers();

	const std::weak_ptr<OutputThreadInterface> mParent;
	const CroppingType mCroppingType;
	const common::V1_0::helper::CameraMetadata mCameraCharacteristics;

	mutable std::mutex mRequestListLock; // Protect access to mRequestList,
	// mProcessingRequest and mProcessingFrameNumber
	std::condition_variable mRequestCond; // signaled when a new request is submitted
	std::condition_variable mRequestDoneCond; // signaled when a request is done processing
	std::list<std::shared_ptr<HalRequest>> mRequestList;
	bool mProcessingRequest = false;
	uint32_t mProcessingFrameNumber = 0;

	// V4L2 frameIn
	// (MJPG decode)-> mYu12Frame
	// (Scale)-> mScaledYu12Frames
	// (Format convert) -> output gralloc frames
	mutable std::mutex mBufferLock; // Protect access to intermediate buffers
	std::shared_ptr<AllocatedFrame> mYu12Frame;
	std::shared_ptr<AllocatedFrame> mYu12ThumbFrame;
	std::unordered_map<Size, std::shared_ptr<AllocatedFrame>, SizeHasher> mIntermediateBuffers;
	std::unordered_map<Size, std::shared_ptr<AllocatedFrame>, SizeHasher> mScaledYu12Frames;
	YCbCrLayout mYu12FrameLayout;
	YCbCrLayout mYu12ThumbFrameLayout;
	std::vector<uint8_t> mMuteTestPatternFrame;
	uint32_t mTestPatternData[4] = {0, 0, 0, 0};
	bool mCameraMuted = false;
	uint32_t mBlobBufferSize = 0; // 0 -> HAL derive buffer size, else: use given size

	std::string mExifMake;
	std::string mExifModel;

	const std::shared_ptr<BufferRequestThread> mBufferRequestThread;
	};

	private:
	bool initialize();
	// To init/close different version of output thread
	void initOutputThread();
	void closeOutputThread();
	void closeBufferRequestThread();

	void closeImpl();
	Status initStatus() const;
	status_t initDefaultRequests();

	status_t fillCaptureResult(common::V1_0::helper::CameraMetadata& md, nsecs_t timestamp);
	int configureV4l2StreamLocked(const SupportedV4L2Format& fmt, double fps = 0.0);
	int v4l2StreamOffLocked();

	int setV4l2FpsLocked(double fps);

	std::unique_ptr<V4L2Frame> dequeueV4l2FrameLocked(
	/out/ nsecs_t* shutterTs); // Called with mLock held

	void enqueueV4l2Frame(const std::shared_ptr<V4L2Frame>&);

	// Check if input Stream is one of supported stream setting on this device
	static bool isSupported(const Stream& stream,
	const std::vector<SupportedV4L2Format>& supportedFormats,
	const ExternalCameraConfig& cfg);

	// Validate and import request's output buffers and acquire fence
	Status importRequestLocked(const CaptureRequest& request,
	std::vector<buffer_handle_t*>& allBufPtrs,
	std::vector<int>& allFences);

	Status importRequestLockedImpl(const CaptureRequest& request,
	std::vector<buffer_handle_t*>& allBufPtrs,
	std::vector<int>& allFences);

	Status importBufferLocked(int32_t streamId, uint64_t bufId, buffer_handle_t buf,
	/out/ buffer_handle_t** outBufPtr);
	static void cleanupInflightFences(std::vector<int>& allFences, size_t numFences);
	void cleanupBuffersLocked(int id);

	void updateBufferCaches(const std::vector<BufferCache>& cachesToRemove);

	Status processOneCaptureRequest(const CaptureRequest& request);
	void notifyShutter(int32_t frameNumber, nsecs_t shutterTs);

	void invokeProcessCaptureResultCallback(std::vector<CaptureResult>& results, bool tryWriteFmq);
	Size getMaxJpegResolution() const;

	Size getMaxThumbResolution() const;

	int waitForV4L2BufferReturnLocked(std::unique_lock<std::mutex>& lk);

	// Main body of switchToOffline. This method does not invoke any callbacks
	// but instead returns the necessary callbacks in output arguments so callers
	// can callback later without holding any locks
	Status switchToOffline(const std::vector<int32_t>& offlineStreams,
	/out/ std::vector<NotifyMsg>* msgs,
	/out/ std::vector<CaptureResult>* results,
	/out/ CameraOfflineSessionInfo* info,
	/out/ std::shared_ptr<ICameraOfflineSession>* session);

	bool supportOfflineLocked(int32_t streamId);

	// Whether a request can be completely dropped when switching to offline
	bool canDropRequest(const std::vector<int32_t>& offlineStreams,
	std::shared_ptr<HalRequest> halReq);

	void fillOfflineSessionInfo(const std::vector<int32_t>& offlineStreams,
	std::deque<std::shared_ptr<HalRequest>>& offlineReqs,
	const std::map<int, CirculatingBuffers>& circulatingBuffers,
	/out/ CameraOfflineSessionInfo* info);

	// Protect (most of) HIDL interface methods from synchronized-entering
	mutable Mutex mInterfaceLock;

	mutable Mutex mLock; // Protect all private members except otherwise noted
	const std::shared_ptr<ICameraDeviceCallback> mCallback;
	const ExternalCameraConfig& mCfg;
	const common::V1_0::helper::CameraMetadata mCameraCharacteristics;
	const std::vector<SupportedV4L2Format> mSupportedFormats;
	const CroppingType mCroppingType;
	const std::string mCameraId;

	// Not protected by mLock, this is almost a const.
	// Setup in constructor, reset in close() after OutputThread is joined
	unique_fd mV4l2Fd;

	// device is closed either
	// - closed by user
	// - init failed
	// - camera disconnected
	bool mClosed = false;
	bool mInitialized = false;
	bool mInitFail = false;
	bool mFirstRequest = false;
	common::V1_0::helper::CameraMetadata mLatestReqSetting;

	bool mV4l2Streaming = false;
	SupportedV4L2Format mV4l2StreamingFmt;
	double mV4l2StreamingFps = 0.0;
	size_t mV4L2BufferCount = 0;

	static const int kBufferWaitTimeoutSec = 3; // TODO: handle long exposure (or not allowing)
	std::mutex mV4l2BufferLock; // protect the buffer count and condition below
	std::condition_variable mV4L2BufferReturned;
	size_t mNumDequeuedV4l2Buffers = 0;
	uint32_t mMaxV4L2BufferSize = 0;

	// Not protected by mLock (but might be used when mLock is locked)
	std::shared_ptr<OutputThread> mOutputThread;

	// Stream ID -> Stream cache
	std::unordered_map<int, Stream> mStreamMap;

	std::mutex mInflightFramesLock; // protect mInflightFrames
	std::unordered_set<uint32_t> mInflightFrames;

	// Stream ID -> circulating buffers map
	std::map<int, CirculatingBuffers> mCirculatingBuffers;
	// Protect mCirculatingBuffers, must not lock mLock after acquiring this lock
	mutable Mutex mCbsLock;

	std::mutex mAfTriggerLock; // protect mAfTrigger
	bool mAfTrigger = false;

	uint32_t mBlobBufferSize = 0;

	static HandleImporter sHandleImporter;

	std::shared_ptr<BufferRequestThread> mBufferRequestThread;

	/* Beginning of members not changed after initialize() */
	using RequestMetadataQueue = AidlMessageQueue<int8_t, SynchronizedReadWrite>;
	std::unique_ptr<RequestMetadataQueue> mRequestMetadataQueue;
	using ResultMetadataQueue = AidlMessageQueue<int8_t, SynchronizedReadWrite>;
	std::shared_ptr<ResultMetadataQueue> mResultMetadataQueue;

	// Protect against invokeProcessCaptureResultCallback()
	Mutex mProcessCaptureResultLock;

	// tracks last seen stream config counter
	int32_t mLastStreamConfigCounter = -1;

	std::unordered_map<RequestTemplate, CameraMetadata> mDefaultRequests;

	const Size mMaxThumbResolution;
	const Size mMaxJpegResolution;

	std::string mExifMake;
	std::string mExifModel;
	/* End of members not changed after initialize() */
	};

	} // namespace implementation
	} // namespace device
	} // namespace camera
	} // namespace hardware
	} // namespace android

	#endif // HARDWARE_INTERFACES_CAMERA_DEVICE_DEFAULT_EXTERNALCAMERADEVICESESSION_H_