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* Copyright (C) 2013-2018 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
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* See the License for the specific language governing permissions and
* limitations under the License.
#include <android/hardware/camera2/BnCameraDeviceUser.h>
#include <android/hardware/camera2/ICameraDeviceCallbacks.h>
#include <camera/camera2/OutputConfiguration.h>
#include <camera/camera2/SessionConfiguration.h>
#include <camera/camera2/SubmitInfo.h>
#include <unordered_map>
#include "CameraOfflineSessionClient.h"
#include "CameraService.h"
#include "common/FrameProcessorBase.h"
#include "common/Camera2ClientBase.h"
#include "CompositeStream.h"
#include "utils/SessionConfigurationUtils.h"
using android::camera3::OutputStreamInfo;
using android::camera3::CompositeStream;
namespace android {
struct CameraDeviceClientBase :
public CameraService::BasicClient,
public hardware::camera2::BnCameraDeviceUser
typedef hardware::camera2::ICameraDeviceCallbacks TCamCallbacks;
const sp<hardware::camera2::ICameraDeviceCallbacks>& getRemoteCallback() {
return mRemoteCallback;
CameraDeviceClientBase(const sp<CameraService>& cameraService,
const sp<hardware::camera2::ICameraDeviceCallbacks>& remoteCallback,
const String16& clientPackageName,
bool systemNativeClient,
const std::optional<String16>& clientFeatureId,
const String8& cameraId,
int api1CameraId,
int cameraFacing,
int sensorOrientation,
int clientPid,
uid_t clientUid,
int servicePid);
sp<hardware::camera2::ICameraDeviceCallbacks> mRemoteCallback;
* Implements the binder ICameraDeviceUser API,
* meant for HAL3-public implementation of
class CameraDeviceClient :
public Camera2ClientBase<CameraDeviceClientBase>,
public camera2::FrameProcessorBase::FilteredListener
* ICameraDeviceUser interface (see ICameraDeviceUser for details)
// Note that the callee gets a copy of the metadata.
virtual binder::Status submitRequest(
const hardware::camera2::CaptureRequest& request,
bool streaming = false,
hardware::camera2::utils::SubmitInfo *submitInfo = nullptr) override;
// List of requests are copied.
virtual binder::Status submitRequestList(
const std::vector<hardware::camera2::CaptureRequest>& requests,
bool streaming = false,
hardware::camera2::utils::SubmitInfo *submitInfo = nullptr) override;
virtual binder::Status cancelRequest(int requestId,
int64_t* lastFrameNumber = NULL) override;
virtual binder::Status beginConfigure() override;
virtual binder::Status endConfigure(int operatingMode,
const hardware::camera2::impl::CameraMetadataNative& sessionParams,
int64_t startTimeMs,
std::vector<int>* offlineStreamIds) override;
// Verify specific session configuration.
virtual binder::Status isSessionConfigurationSupported(
const SessionConfiguration& sessionConfiguration,
bool* streamStatus) override;
// Returns -EBUSY if device is not idle or in error state
virtual binder::Status deleteStream(int streamId) override;
virtual binder::Status createStream(
const hardware::camera2::params::OutputConfiguration &outputConfiguration,
int32_t* newStreamId = NULL) override;
// Create an input stream of width, height, and format.
virtual binder::Status createInputStream(int width, int height, int format,
bool isMultiResolution,
int32_t* newStreamId = NULL) override;
// Get the buffer producer of the input stream
virtual binder::Status getInputSurface(
view::Surface *inputSurface) override;
// Create a request object from a template.
virtual binder::Status createDefaultRequest(int templateId,
hardware::camera2::impl::CameraMetadataNative* request) override;
// Get the static metadata for the camera
// -- Caller owns the newly allocated metadata
virtual binder::Status getCameraInfo(
hardware::camera2::impl::CameraMetadataNative* cameraCharacteristics) override;
// Wait until all the submitted requests have finished processing
virtual binder::Status waitUntilIdle() override;
// Flush all active and pending requests as fast as possible
virtual binder::Status flush(
int64_t* lastFrameNumber = NULL) override;
// Prepare stream by preallocating its buffers
virtual binder::Status prepare(int32_t streamId) override;
// Tear down stream resources by freeing its unused buffers
virtual binder::Status tearDown(int32_t streamId) override;
// Prepare stream by preallocating up to maxCount of its buffers
virtual binder::Status prepare2(int32_t maxCount, int32_t streamId) override;
// Update an output configuration
virtual binder::Status updateOutputConfiguration(int streamId,
const hardware::camera2::params::OutputConfiguration &outputConfiguration) override;
// Finalize the output configurations with surfaces not added before.
virtual binder::Status finalizeOutputConfigurations(int32_t streamId,
const hardware::camera2::params::OutputConfiguration &outputConfiguration) override;
virtual binder::Status setCameraAudioRestriction(int32_t mode) override;
virtual binder::Status getGlobalAudioRestriction(/*out*/int32_t* outMode) override;
virtual binder::Status switchToOffline(
const sp<hardware::camera2::ICameraDeviceCallbacks>& cameraCb,
const std::vector<int>& offlineOutputIds,
sp<hardware::camera2::ICameraOfflineSession>* session) override;
* Interface used by CameraService
CameraDeviceClient(const sp<CameraService>& cameraService,
const sp<hardware::camera2::ICameraDeviceCallbacks>& remoteCallback,
const String16& clientPackageName,
bool clientPackageOverride,
const std::optional<String16>& clientFeatureId,
const String8& cameraId,
int cameraFacing,
int sensorOrientation,
int clientPid,
uid_t clientUid,
int servicePid,
bool overrideForPerfClass);
virtual ~CameraDeviceClient();
virtual status_t initialize(sp<CameraProviderManager> manager,
const String8& monitorTags) override;
virtual status_t setRotateAndCropOverride(uint8_t rotateAndCrop) override;
virtual bool supportsCameraMute();
virtual status_t setCameraMute(bool enabled);
virtual status_t dump(int fd, const Vector<String16>& args);
virtual status_t dumpClient(int fd, const Vector<String16>& args);
virtual status_t startWatchingTags(const String8 &tags, int out);
virtual status_t stopWatchingTags(int out);
virtual status_t dumpWatchedEventsToVector(std::vector<std::string> &out);
* Device listener interface
virtual void notifyIdle(int64_t requestCount, int64_t resultErrorCount, bool deviceError,
const std::vector<hardware::CameraStreamStats>& streamStats);
virtual void notifyError(int32_t errorCode,
const CaptureResultExtras& resultExtras);
virtual void notifyShutter(const CaptureResultExtras& resultExtras, nsecs_t timestamp);
virtual void notifyPrepared(int streamId);
virtual void notifyRequestQueueEmpty();
virtual void notifyRepeatingRequestError(long lastFrameNumber);
void setImageDumpMask(int mask) { if (mDevice != nullptr) mDevice->setImageDumpMask(mask); }
* Interface used by independent components of CameraDeviceClient.
/** FilteredListener implementation **/
virtual void onResultAvailable(const CaptureResult& result);
virtual void detachDevice();
// Calculate the ANativeWindow transform from android.sensor.orientation
status_t getRotationTransformLocked(int mirrorMode, /*out*/int32_t* transform);
bool isUltraHighResolutionSensor(const String8 &cameraId);
bool isSensorPixelModeConsistent(const std::list<int> &streamIdList,
const CameraMetadata &settings);
const CameraMetadata &getStaticInfo(const String8 &cameraId);
// StreamSurfaceId encapsulates streamId + surfaceId for a particular surface.
// streamId specifies the index of the stream the surface belongs to, and the
// surfaceId specifies the index of the surface within the stream. (one stream
// could contain multiple surfaces.)
class StreamSurfaceId final {
StreamSurfaceId() {
mStreamId = -1;
mSurfaceId = -1;
StreamSurfaceId(int32_t streamId, int32_t surfaceId) {
mStreamId = streamId;
mSurfaceId = surfaceId;
int32_t streamId() const {
return mStreamId;
int32_t surfaceId() const {
return mSurfaceId;
int32_t mStreamId;
int32_t mSurfaceId;
}; // class StreamSurfaceId
/** ICameraDeviceUser interface-related private members */
/** Preview callback related members */
sp<camera2::FrameProcessorBase> mFrameProcessor;
std::vector<int32_t> mSupportedPhysicalRequestKeys;
template<typename TProviderPtr>
status_t initializeImpl(TProviderPtr providerPtr, const String8& monitorTags);
/** Utility members */
binder::Status checkPidStatus(const char* checkLocation);
bool enforceRequestPermissions(CameraMetadata& metadata);
// Create an output stream with surface deferred for future.
binder::Status createDeferredSurfaceStreamLocked(
const hardware::camera2::params::OutputConfiguration &outputConfiguration,
bool isShared,
int* newStreamId = NULL);
// Set the stream transform flags to automatically rotate the camera stream for preview use
// cases.
binder::Status setStreamTransformLocked(int streamId, int mirrorMode);
// Utility method to insert the surface into SurfaceMap
binder::Status insertGbpLocked(const sp<IGraphicBufferProducer>& gbp,
/*out*/SurfaceMap* surfaceMap, /*out*/Vector<int32_t>* streamIds,
/*out*/int32_t* currentStreamId);
// Utility method that maps AIDL request templates.
binder::Status mapRequestTemplate(int templateId,
camera_request_template_t* tempId /*out*/);
// IGraphicsBufferProducer binder -> Stream ID + Surface ID for output streams
KeyedVector<sp<IBinder>, StreamSurfaceId> mStreamMap;
// Stream ID -> OutputConfiguration. Used for looking up Surface by stream/surface index
KeyedVector<int32_t, hardware::camera2::params::OutputConfiguration> mConfiguredOutputs;
// Dynamic range profile id -> Supported dynamic profiles bitmap within an single capture
// request
std::unordered_map<int64_t, int64_t> mDynamicProfileMap;
struct InputStreamConfiguration {
bool configured;
int32_t width;
int32_t height;
int32_t format;
int32_t id;
} mInputStream;
// Streaming request ID
int32_t mStreamingRequestId;
Mutex mStreamingRequestIdLock;
static const int32_t REQUEST_ID_NONE = -1;
int32_t mRequestIdCounter;
std::vector<std::string> mPhysicalCameraIds;
// The list of output streams whose surfaces are deferred. We have to track them separately
// as there are no surfaces available and can not be put into mStreamMap. Once the deferred
// Surface is configured, the stream id will be moved to mStreamMap.
Vector<int32_t> mDeferredStreams;
// stream ID -> outputStreamInfo mapping
std::unordered_map<int32_t, OutputStreamInfo> mStreamInfoMap;
// map high resolution camera id (logical / physical) -> list of stream ids configured
std::unordered_map<std::string, std::unordered_set<int>> mHighResolutionCameraIdToStreamIdSet;
// set of high resolution camera id (logical / physical)
std::unordered_set<std::string> mHighResolutionSensors;
// Synchronize access to 'mCompositeStreamMap'
Mutex mCompositeLock;
KeyedVector<sp<IBinder>, sp<CompositeStream>> mCompositeStreamMap;
sp<CameraProviderManager> mProviderManager;
// Override the camera characteristics for performance class primary cameras.
bool mOverrideForPerfClass;
// The string representation of object passed into CaptureRequest.setTag.
std::string mUserTag;
// The last set video stabilization mode
int mVideoStabilizationMode = -1;
}; // namespace android