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gerrit-public.fairphone.software / fp2-dev / platform / hardware / samsung_slsi / exynos5 / c06352a14bd13e017132f963354aaed3090828d7 / . / libcamera2 / ExynosCameraHWInterface2.h
blob: 927eace337d147248b6130d7f920132327ee4124 [file] [log] [blame]
/*
**
** Copyright 2008, The Android Open Source Project
** Copyright 2012, Samsung Electronics Co. LTD
**
** 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.
*/
/*!
* \file ExynosCameraHWInterface2.h
* \brief header file for Android Camera API 2.0 HAL
* \author Sungjoong Kang(sj3.kang@samsung.com)
* \date 2012/07/10
*
* <b>Revision History: </b>
* - 2012/05/31 : Sungjoong Kang(sj3.kang@samsung.com) \n
* Initial Release
*
* - 2012/07/10 : Sungjoong Kang(sj3.kang@samsung.com) \n
* 2nd Release
*
*/
#ifndef EXYNOS_CAMERA_HW_INTERFACE_2_H
#define EXYNOS_CAMERA_HW_INTERFACE_2_H
#include <hardware/camera2.h>
#include <camera/Camera.h>
#include <camera/CameraParameters.h>
#include <utils/List.h>
#include "SignalDrivenThread.h"
#include "MetadataConverter.h"
#include "exynos_v4l2.h"
#include "ExynosRect.h"
#include "ExynosBuffer.h"
#include "videodev2_exynos_camera.h"
#include "gralloc_priv.h"
#include "ExynosJpegEncoderForCamera.h"
#include <fcntl.h>
#include "fimc-is-metadata.h"
#include "ion.h"
#include "ExynosExif.h"
#include "csc.h"
#include "ExynosCamera2.h"
#include "cutils/properties.h"
namespace android {
//#define EXYNOS_CAMERA_LOG
#define ENABLE_FRAME_SYNC
#define NODE_PREFIX "/dev/video"
#define NUM_MAX_STREAM_THREAD (5)
#define NUM_MAX_REQUEST_MGR_ENTRY (5)
#define NUM_MAX_CAMERA_BUFFERS (16)
#define NUM_BAYER_BUFFERS (8)
#define NUM_SCC_BUFFERS (8)
#define NUM_SCP_BUFFERS (8)
#define NUM_MIN_SENSOR_QBUF (3)
#define NUM_MAX_SUBSTREAM (4)
#define PICTURE_GSC_NODE_NUM (2)
#define VIDEO_GSC_NODE_NUM (1)
#define STREAM_TYPE_DIRECT (0)
#define STREAM_TYPE_INDIRECT (1)
#define SIGNAL_MAIN_REQ_Q_NOT_EMPTY (SIGNAL_THREAD_COMMON_LAST<<1)
#define SIGNAL_MAIN_STREAM_OUTPUT_DONE (SIGNAL_THREAD_COMMON_LAST<<3)
#define SIGNAL_SENSOR_START_REQ_PROCESSING (SIGNAL_THREAD_COMMON_LAST<<4)
#define SIGNAL_THREAD_RELEASE (SIGNAL_THREAD_COMMON_LAST<<8)
#define SIGNAL_STREAM_REPROCESSING_START (SIGNAL_THREAD_COMMON_LAST<<14)
#define SIGNAL_STREAM_DATA_COMING (SIGNAL_THREAD_COMMON_LAST<<15)
#define NO_TRANSITION (0)
#define HAL_AFSTATE_INACTIVE (1)
#define HAL_AFSTATE_NEEDS_COMMAND (2)
#define HAL_AFSTATE_STARTED (3)
#define HAL_AFSTATE_SCANNING (4)
#define HAL_AFSTATE_LOCKED (5)
#define HAL_AFSTATE_FAILED (6)
#define HAL_AFSTATE_NEEDS_DETERMINATION (7)
#define HAL_AFSTATE_PASSIVE_FOCUSED (8)
#define STREAM_ID_PREVIEW (0)
#define STREAM_MASK_PREVIEW (1<<STREAM_ID_PREVIEW)
#define STREAM_ID_RECORD (1)
#define STREAM_MASK_RECORD (1<<STREAM_ID_RECORD)
#define STREAM_ID_PRVCB (2)
#define STREAM_MASK_PRVCB (1<<STREAM_ID_PRVCB)
#define STREAM_ID_JPEG (4)
#define STREAM_MASK_JPEG (1<<STREAM_ID_JPEG)
#define STREAM_ID_ZSL (5)
#define STREAM_MASK_ZSL (1<<STREAM_ID_ZSL)
#define STREAM_ID_JPEG_REPROCESS (8)
#define STREAM_ID_LAST STREAM_ID_JPEG_REPROCESS
#define MASK_OUTPUT_SCP (STREAM_MASK_PREVIEW|STREAM_MASK_RECORD|STREAM_MASK_PRVCB)
#define MASK_OUTPUT_SCC (STREAM_MASK_JPEG|STREAM_MASK_ZSL)
#define SUBSTREAM_TYPE_NONE (0)
#define SUBSTREAM_TYPE_JPEG (1)
#define SUBSTREAM_TYPE_RECORD (2)
#define SUBSTREAM_TYPE_PRVCB (3)
#define FLASH_STABLE_WAIT_TIMEOUT (10)
#define SIG_WAITING_TICK (5000)
#ifdef EXYNOS_CAMERA_LOG
#define CAM_LOGV(...) ((void)ALOG(LOG_VERBOSE, LOG_TAG, __VA_ARGS__))
#define CAM_LOGD(...) ((void)ALOG(LOG_DEBUG, LOG_TAG, __VA_ARGS__))
#define CAM_LOGW(...) ((void)ALOG(LOG_WARN, LOG_TAG, __VA_ARGS__))
#define CAM_LOGE(...) ((void)ALOG(LOG_ERROR, LOG_TAG, __VA_ARGS__))
#else
#define CAM_LOGV(...) ((void)0)
#define CAM_LOGD(...) ((void)0)
#define CAM_LOGW(...) ((void)0)
#define CAM_LOGE(...) ((void)0)
#endif
enum sensor_name {
SENSOR_NAME_S5K3H2 = 1,
SENSOR_NAME_S5K6A3 = 2,
SENSOR_NAME_S5K4E5 = 3,
SENSOR_NAME_S5K3H7 = 4,
SENSOR_NAME_CUSTOM = 5,
SENSOR_NAME_END
};
enum is_subscenario_id {
ISS_SUB_SCENARIO_STILL,
ISS_SUB_SCENARIO_VIDEO,
ISS_SUB_SCENARIO_SCENE1,
ISS_SUB_SCENARIO_SCENE2,
ISS_SUB_SCENARIO_SCENE3,
ISS_SUB_END
};
enum is_set_flash_command_state {
IS_FLASH_STATE_NONE = 0,
IS_FLASH_STATE_ON = 1,
IS_FLASH_STATE_ON_WAIT,
IS_FLASH_STATE_ON_DONE,
IS_FLASH_STATE_AUTO_AE_AWB_LOCK,
IS_FLASH_STATE_AE_AWB_LOCK_WAIT,
IS_FLASH_STATE_AUTO_WAIT,
IS_FLASH_STATE_AUTO_DONE,
IS_FLASH_STATE_AUTO_OFF,
IS_FLASH_STATE_CAPTURE,
IS_FLASH_STATE_CAPTURE_WAIT,
IS_FLASH_STATE_CAPTURE_JPEG,
IS_FLASH_STATE_CAPTURE_END,
IS_FALSH_STATE_MAX
};
enum is_set_command_state {
IS_COMMAND_NONE = 0,
IS_COMMAND_EXECUTION,
IS_COMMAND_CLEAR,
IS_COMMAND_MAX
};
typedef struct node_info {
int fd;
int width;
int height;
int format;
int planes;
int buffers;
enum v4l2_memory memory;
enum v4l2_buf_type type;
ExynosBuffer buffer[NUM_MAX_CAMERA_BUFFERS];
int status;
} node_info_t;
typedef struct camera_hw_info {
int sensor_id;
node_info_t sensor;
node_info_t isp;
node_info_t capture;
node_info_t scp;
/*shot*/ // temp
struct camera2_shot_ext dummy_shot;
} camera_hw_info_t;
typedef enum request_entry_status {
EMPTY,
REGISTERED,
REQUESTED,
CAPTURED,
METADONE,
COMPLETED
} request_entry_status_t;
typedef struct request_manager_entry {
request_entry_status_t status;
camera_metadata_t *original_request;
struct camera2_shot_ext internal_shot;
int output_stream_count;
} request_manager_entry_t;
// structure related to a specific function of camera
typedef struct af_control_info {
int m_afTriggerTimeOut;
} ctl_af_info_t;
typedef struct flash_control_info {
// UI flash mode indicator
enum aa_aemode i_flashMode;
// AF flash
bool m_afFlashDoneFlg;
// Capture flash
bool m_flashEnableFlg;
int m_flashFrameCount;
int m_flashCnt;
int m_flashTimeOut;
// Flash decision
// At flash auto mode only : 1 -> flash is needed, 0 -> normal case
bool m_flashDecisionResult;
// torch indicator. this will be replaced by flashMode meta
bool m_flashTorchMode;
// for precapture metering
int m_precaptureState;
int m_precaptureTriggerId;
} ctl_flash_info_t;
typedef struct ae_control_info {
// pre-capture notification state
enum ae_state aeStateNoti;
} ctl_ae_info_t;
typedef struct scene_control_info {
// pre-capture notification state
enum aa_scene_mode prevSceneMode;
} ctl_scene_info_t;
typedef struct request_control_info {
ctl_flash_info_t flash;
ctl_ae_info_t ae;
ctl_af_info_t af;
ctl_scene_info_t scene;
} ctl_request_info_t;
class RequestManager {
public:
RequestManager(SignalDrivenThread* main_thread);
~RequestManager();
void ResetEntry();
int GetNumEntries();
bool IsRequestQueueFull();
void RegisterRequest(camera_metadata_t *new_request, int * afMode, uint32_t * afRegion);
void DeregisterRequest(camera_metadata_t **deregistered_request);
bool PrepareFrame(size_t *num_entries, size_t *frame_size,
camera_metadata_t **prepared_frame, int afState);
int MarkProcessingRequest(ExynosBuffer * buf);
void NotifyStreamOutput(int frameCnt);
void ApplyDynamicMetadata(struct camera2_shot_ext *shot_ext);
void CheckCompleted(int index);
void UpdateIspParameters(struct camera2_shot_ext *shot_ext, int frameCnt, ctl_request_info_t *ctl_info);
void RegisterTimestamp(int frameCnt, nsecs_t *frameTime);
nsecs_t GetTimestampByFrameCnt(int frameCnt);
nsecs_t GetTimestamp(int index);
uint8_t GetOutputStreamByFrameCnt(int frameCnt);
uint8_t GetOutputStream(int index);
camera2_shot_ext * GetInternalShotExtByFrameCnt(int frameCnt);
camera2_shot_ext * GetInternalShotExt(int index);
int FindFrameCnt(struct camera2_shot_ext * shot_ext, bool drain);
bool IsVdisEnable(void);
int FindEntryIndexByFrameCnt(int frameCnt);
void Dump(void);
int GetNextIndex(int index);
int GetPrevIndex(int index);
void SetDefaultParameters(int cropX);
void SetInitialSkip(int count);
int GetSkipCnt();
int GetCompletedIndex();
void pushSensorQ(int index);
int popSensorQ();
void releaseSensorQ();
bool m_vdisEnable;
private:
MetadataConverter *m_metadataConverter;
SignalDrivenThread *m_mainThread;
Mutex m_numOfEntriesLock;
int m_numOfEntries;
int m_entryInsertionIndex;
int m_entryProcessingIndex;
int m_entryFrameOutputIndex;
request_manager_entry_t entries[NUM_MAX_REQUEST_MGR_ENTRY];
int m_completedIndex;
Mutex m_requestMutex;
//TODO : alloc dynamically
char m_tempFrameMetadataBuf[2000];
camera_metadata_t *m_tempFrameMetadata;
int m_sensorPipelineSkipCnt;
int m_cropX;
int m_lastCompletedFrameCnt;
int m_lastAeMode;
int m_lastAaMode;
int m_lastAwbMode;
int m_lastAeComp;
bool m_vdisBubbleEn;
nsecs_t m_lastTimeStamp;
List<int> m_sensorQ;
};
typedef struct bayer_buf_entry {
int status;
int reqFrameCnt;
nsecs_t timeStamp;
} bayer_buf_entry_t;
class BayerBufManager {
public:
BayerBufManager();
~BayerBufManager();
int GetIndexForSensorEnqueue();
int MarkSensorEnqueue(int index);
int MarkSensorDequeue(int index, int reqFrameCnt, nsecs_t *timeStamp);
int GetIndexForIspEnqueue(int *reqFrameCnt);
int GetIndexForIspDequeue(int *reqFrameCnt);
int MarkIspEnqueue(int index);
int MarkIspDequeue(int index);
int GetNumOnSensor();
int GetNumOnHalFilled();
int GetNumOnIsp();
private:
int GetNextIndex(int index);
int sensorEnqueueHead;
int sensorDequeueHead;
int ispEnqueueHead;
int ispDequeueHead;
int numOnSensor;
int numOnIsp;
int numOnHalFilled;
int numOnHalEmpty;
bayer_buf_entry_t entries[NUM_BAYER_BUFFERS];
};
#define NOT_AVAILABLE (0)
#define REQUIRES_DQ_FROM_SVC (1)
#define ON_DRIVER (2)
#define ON_HAL (3)
#define ON_SERVICE (4)
#define BAYER_NOT_AVAILABLE (0)
#define BAYER_ON_SENSOR (1)
#define BAYER_ON_HAL_FILLED (2)
#define BAYER_ON_ISP (3)
#define BAYER_ON_SERVICE (4)
#define BAYER_ON_HAL_EMPTY (5)
typedef struct stream_parameters {
uint32_t width;
uint32_t height;
int format;
const camera2_stream_ops_t* streamOps;
uint32_t usage;
int numHwBuffers;
int numSvcBuffers;
int numOwnSvcBuffers;
int planes;
int metaPlanes;
int numSvcBufsInHal;
buffer_handle_t svcBufHandle[NUM_MAX_CAMERA_BUFFERS];
ExynosBuffer svcBuffers[NUM_MAX_CAMERA_BUFFERS];
ExynosBuffer metaBuffers[NUM_MAX_CAMERA_BUFFERS];
int svcBufStatus[NUM_MAX_CAMERA_BUFFERS];
int bufIndex;
node_info_t *node;
int minUndequedBuffer;
bool needsIonMap;
} stream_parameters_t;
typedef struct substream_parameters {
int type;
uint32_t width;
uint32_t height;
int format;
const camera2_stream_ops_t* streamOps;
uint32_t usage;
int numSvcBuffers;
int numOwnSvcBuffers;
int internalFormat;
int internalPlanes;
int svcPlanes;
buffer_handle_t svcBufHandle[NUM_MAX_CAMERA_BUFFERS];
ExynosBuffer svcBuffers[NUM_MAX_CAMERA_BUFFERS];
int svcBufStatus[NUM_MAX_CAMERA_BUFFERS];
int svcBufIndex;
int numSvcBufsInHal;
bool needBufferInit;
int minUndequedBuffer;
} substream_parameters_t;
typedef struct substream_entry {
int priority;
int streamId;
} substream_entry_t;
class ExynosCameraHWInterface2 : public virtual RefBase {
public:
ExynosCameraHWInterface2(int cameraId, camera2_device_t *dev, ExynosCamera2 * camera, int *openInvalid);
virtual ~ExynosCameraHWInterface2();
virtual void release();
inline int getCameraId() const;
virtual int setRequestQueueSrcOps(const camera2_request_queue_src_ops_t *request_src_ops);
virtual int notifyRequestQueueNotEmpty();
virtual int setFrameQueueDstOps(const camera2_frame_queue_dst_ops_t *frame_dst_ops);
virtual int getInProgressCount();
virtual int flushCapturesInProgress();
virtual int constructDefaultRequest(int request_template, camera_metadata_t **request);
virtual int allocateStream(uint32_t width, uint32_t height,
int format, const camera2_stream_ops_t *stream_ops,
uint32_t *stream_id, uint32_t *format_actual, uint32_t *usage, uint32_t *max_buffers);
virtual int registerStreamBuffers(uint32_t stream_id, int num_buffers, buffer_handle_t *buffers);
virtual int releaseStream(uint32_t stream_id);
virtual int allocateReprocessStream(uint32_t width, uint32_t height,
uint32_t format, const camera2_stream_in_ops_t *reprocess_stream_ops,
uint32_t *stream_id, uint32_t *consumer_usage, uint32_t *max_buffers);
virtual int allocateReprocessStreamFromStream(uint32_t output_stream_id,
const camera2_stream_in_ops_t *reprocess_stream_ops, uint32_t *stream_id);
virtual int releaseReprocessStream(uint32_t stream_id);
virtual int triggerAction(uint32_t trigger_id, int ext1, int ext2);
virtual int setNotifyCallback(camera2_notify_callback notify_cb, void *user);
virtual int getMetadataVendorTagOps(vendor_tag_query_ops_t **ops);
virtual int dump(int fd);
private:
class MainThread : public SignalDrivenThread {
ExynosCameraHWInterface2 *mHardware;
public:
MainThread(ExynosCameraHWInterface2 *hw):
SignalDrivenThread(),
mHardware(hw) { }
~MainThread();
void threadFunctionInternal()
{
mHardware->m_mainThreadFunc(this);
return;
}
void release(void);
bool m_releasing;
};
class SensorThread : public SignalDrivenThread {
ExynosCameraHWInterface2 *mHardware;
public:
SensorThread(ExynosCameraHWInterface2 *hw):
SignalDrivenThread(),
mHardware(hw) { }
~SensorThread();
void threadFunctionInternal() {
mHardware->m_sensorThreadFunc(this);
return;
}
void release(void);
//private:
bool m_releasing;
};
class StreamThread : public SignalDrivenThread {
ExynosCameraHWInterface2 *mHardware;
public:
StreamThread(ExynosCameraHWInterface2 *hw, uint8_t new_index):
SignalDrivenThread(),
mHardware(hw),
m_index(new_index) { }
~StreamThread();
void threadFunctionInternal() {
mHardware->m_streamThreadFunc(this);
return;
}
void setParameter(stream_parameters_t * new_parameters);
status_t attachSubStream(int stream_id, int priority);
status_t detachSubStream(int stream_id);
void release(void);
int findBufferIndex(void * bufAddr);
int findBufferIndex(buffer_handle_t * bufHandle);
uint8_t m_index;
bool m_activated;
//private:
stream_parameters_t m_parameters;
stream_parameters_t *m_tempParameters;
substream_entry_t m_attachedSubStreams[NUM_MAX_SUBSTREAM];
bool m_isBufferInit;
bool m_releasing;
int streamType;
int m_numRegisteredStream;
};
sp<MainThread> m_mainThread;
sp<SensorThread> m_sensorThread;
sp<StreamThread> m_streamThreads[NUM_MAX_STREAM_THREAD];
substream_parameters_t m_subStreams[STREAM_ID_LAST+1];
RequestManager *m_requestManager;
BayerBufManager *m_BayerManager;
ExynosCamera2 *m_camera2;
void m_mainThreadFunc(SignalDrivenThread * self);
void m_sensorThreadFunc(SignalDrivenThread * self);
void m_streamThreadFunc(SignalDrivenThread * self);
void m_streamThreadInitialize(SignalDrivenThread * self);
void m_streamFunc_direct(SignalDrivenThread *self);
void m_streamFunc_indirect(SignalDrivenThread *self);
void m_streamBufferInit(SignalDrivenThread *self);
int m_runSubStreamFunc(StreamThread *selfThread, ExynosBuffer *srcImageBuf,
int stream_id, nsecs_t frameTimeStamp);
int m_jpegCreator(StreamThread *selfThread, ExynosBuffer *srcImageBuf, nsecs_t frameTimeStamp);
int m_recordCreator(StreamThread *selfThread, ExynosBuffer *srcImageBuf, nsecs_t frameTimeStamp);
int m_prvcbCreator(StreamThread *selfThread, ExynosBuffer *srcImageBuf, nsecs_t frameTimeStamp);
void m_getAlignedYUVSize(int colorFormat, int w, int h,
ExynosBuffer *buf);
bool m_getRatioSize(int src_w, int src_h,
int dst_w, int dst_h,
int *crop_x, int *crop_y,
int *crop_w, int *crop_h,
int zoom);
int createIonClient(ion_client ionClient);
int deleteIonClient(ion_client ionClient);
int allocCameraMemory(ion_client ionClient, ExynosBuffer *buf, int iMemoryNum);
int allocCameraMemory(ion_client ionClient, ExynosBuffer *buf, int iMemoryNum, int cacheFlag);
void freeCameraMemory(ExynosBuffer *buf, int iMemoryNum);
void initCameraMemory(ExynosBuffer *buf, int iMemoryNum);
void DumpInfoWithShot(struct camera2_shot_ext * shot_ext);
bool m_checkThumbnailSize(int w, int h);
bool yuv2Jpeg(ExynosBuffer *yuvBuf,
ExynosBuffer *jpegBuf,
ExynosRect *rect);
int InitializeISPChain();
void StartISP();
void StartSCCThread(bool threadExists);
int GetAfState();
void SetAfMode(enum aa_afmode afMode);
void SetAfRegion(uint32_t * afRegion);
void OnAfTrigger(int id);
void OnAfTriggerAutoMacro(int id);
void OnAfTriggerCAFPicture(int id);
void OnAfTriggerCAFVideo(int id);
void OnPrecaptureMeteringTriggerStart(int id);
void OnAfCancel(int id);
void OnAfCancelAutoMacro(int id);
void OnAfCancelCAFPicture(int id);
void OnAfCancelCAFVideo(int id);
void OnPrecaptureMeteringNotificationISP();
void OnPrecaptureMeteringNotificationSensor();
void OnAfNotification(enum aa_afstate noti);
void OnAfNotificationAutoMacro(enum aa_afstate noti);
void OnAfNotificationCAFPicture(enum aa_afstate noti);
void OnAfNotificationCAFVideo(enum aa_afstate noti);
void SetAfStateForService(int newState);
int GetAfStateForService();
exif_attribute_t mExifInfo;
void m_setExifFixedAttribute(void);
void m_setExifChangedAttribute(exif_attribute_t *exifInfo, ExynosRect *rect,
camera2_shot_ext *currentEntry);
void m_preCaptureSetter(struct camera2_shot_ext * shot_ext);
void m_preCaptureListenerSensor(struct camera2_shot_ext * shot_ext);
void m_preCaptureListenerISP(struct camera2_shot_ext * shot_ext);
void m_preCaptureAeState(struct camera2_shot_ext * shot_ext);
void m_updateAfRegion(struct camera2_shot_ext * shot_ext);
void m_afTrigger(struct camera2_shot_ext * shot_ext, int mode);
void *m_exynosPictureCSC;
void *m_exynosVideoCSC;
camera2_request_queue_src_ops_t *m_requestQueueOps;
camera2_frame_queue_dst_ops_t *m_frameQueueOps;
camera2_notify_callback m_notifyCb;
void *m_callbackCookie;
int m_numOfRemainingReqInSvc;
bool m_isRequestQueuePending;
bool m_isRequestQueueNull;
camera2_device_t *m_halDevice;
static gralloc_module_t const* m_grallocHal;
camera_hw_info_t m_camera_info;
ion_client m_ionCameraClient;
bool m_isIspStarted;
int m_need_streamoff;
ExynosBuffer m_sccLocalBuffer[NUM_MAX_CAMERA_BUFFERS];
bool m_sccLocalBufferValid;
int indexToQueue[3+1];
bool m_scp_flushing;
bool m_closing;
ExynosBuffer m_resizeBuf;
#ifndef ENABLE_FRAME_SYNC
int m_currentOutputStreams;
#endif
int m_currentReprocessOutStreams;
ExynosBuffer m_previewCbBuf;
int m_cameraId;
bool m_scp_closing;
bool m_scp_closed;
bool m_wideAspect;
uint32_t currentAfRegion[4];
float m_zoomRatio;
int m_vdisBubbleCnt;
int m_vdisDupFrame;
mutable Mutex m_qbufLock;
mutable Mutex m_jpegEncoderLock;
int m_jpegEncodingCount;
mutable Mutex m_afModeTriggerLock;
bool m_scpForceSuspended;
int m_afState;
int m_afTriggerId;
enum aa_afmode m_afMode;
enum aa_afmode m_afMode2;
bool m_IsAfModeUpdateRequired;
bool m_IsAfTriggerRequired;
bool m_IsAfLockRequired;
int m_serviceAfState;
bool m_AfHwStateFailed;
int m_afPendingTriggerId;
int m_afModeWaitingCnt;
struct camera2_shot_ext m_jpegMetadata;
int m_scpOutputSignalCnt;
int m_scpOutputImageCnt;
int m_nightCaptureCnt;
int m_nightCaptureFrameCnt;
int m_lastSceneMode;
int m_thumbNailW;
int m_thumbNailH;
int m_reprocessStreamId;
const camera2_stream_in_ops_t * m_reprocessOps;
int m_reprocessOutputStreamId;
int m_reprocessingFrameCnt;
ctl_request_info_t m_ctlInfo;
};
}; // namespace android
#endif