libcamera/ExynosCameraHWInterface.h - fp2-dev/platform/hardware/samsung_slsi/exynos5 - Gitiles

 /*
 **
 ** Copyright 2008, The Android Open Source Project
 ** Copyright 2010, 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      ExynosCameraHWInterface.h
  * \brief     hearder file for Android Camera HAL
  * \author    thun.hwang(thun.hwang@samsung.com)
  * \date      2010/06/03
  *
  * <b>Revision History: </b>
  * - 2011/12/31 : thun.hwang(thun.hwang@samsung.com) \n
  *   Initial version
  *
  * - 2012/03/14 : sangwoo.park(sw5771.park@samsung.com) \n
  *   Change file, class name to ExynosXXX.
  *
  */

 #ifndef EXYNOS_CAMERA_HW_INTERFACE_H

 #include <utils/threads.h>
 #include <utils/RefBase.h>
 #include <binder/MemoryBase.h>
 #include <binder/MemoryHeapBase.h>
 #include <hardware/camera.h>
 #include <hardware/gralloc.h>
 #include <camera/Camera.h>
 #include <camera/CameraParameters.h>
 #include <media/hardware/MetadataBufferType.h>

 #include "gralloc_priv.h"

 #include "exynos_format.h"
 #include "csc.h"
 #include "ExynosCamera.h"

 #include <fcntl.h>
 #include <sys/mman.h>

 #define USE_EGL                         (1)

 #define  NUM_OF_PREVIEW_BUF             (8)
 #define  NUM_OF_VIDEO_BUF               (8)
 #define  NUM_OF_PICTURE_BUF             (6)
 #define  NUM_OF_WAITING_PUT_PICTURE_BUF (1)

 #define  NUM_OF_DETECTED_FACES          (32)

 namespace android {

 class ExynosCameraHWInterface : public virtual RefBase {
 public:
     ExynosCameraHWInterface(int cameraId, camera_device_t *dev);
     virtual             ~ExynosCameraHWInterface();

     virtual status_t    setPreviewWindow(preview_stream_ops *w);
     virtual void        setCallbacks(camera_notify_callback notify_cb,
                                      camera_data_callback data_cb,
                                      camera_data_timestamp_callback data_cb_timestamp,
                                      camera_request_memory get_memory,
                                      void *user);

     virtual void        enableMsgType(int32_t msgType);
     virtual void        disableMsgType(int32_t msgType);
     virtual bool        msgTypeEnabled(int32_t msgType);

     virtual status_t    startPreview();
     virtual void        stopPreview();
     virtual bool        previewEnabled();

     virtual status_t    storeMetaDataInBuffers(bool enable);

     virtual status_t    startRecording();
     virtual void        stopRecording();
     virtual bool        recordingEnabled();
     virtual void        releaseRecordingFrame(const void *opaque);

     virtual status_t    autoFocus();
     virtual status_t    cancelAutoFocus();

     virtual status_t    takePicture();
     virtual status_t    cancelPicture();

     virtual status_t    setParameters(const CameraParameters& params);
     virtual CameraParameters  getParameters() const;
     virtual status_t    sendCommand(int32_t command, int32_t arg1, int32_t arg2);

     virtual void        release();

     virtual status_t    dump(int fd) const;

     inline  int         getCameraId() const;

 private:
     class PreviewThread : public Thread {
         ExynosCameraHWInterface *mHardware;
     public:
         PreviewThread(ExynosCameraHWInterface *hw):
         Thread(false),
         mHardware(hw) { }
         virtual void onFirstRef() {
             //run("CameraPreviewThread", PRIORITY_URGENT_DISPLAY);
             run("CameraPreviewThread", PRIORITY_DEFAULT);
         }
         virtual bool threadLoop() {
             mHardware->m_previewThreadFuncWrapper();
             return false;
         }
     };

     class VideoThread : public Thread {
         ExynosCameraHWInterface *mHardware;
     public:
         VideoThread(ExynosCameraHWInterface *hw):
         Thread(false),
         mHardware(hw) { }
         virtual void onFirstRef() {
             run("CameraVideoThread", PRIORITY_DEFAULT);
         }
         virtual bool threadLoop() {
             mHardware->m_videoThreadFuncWrapper();
             return false;
         }
     };

     class PictureThread : public Thread {
         ExynosCameraHWInterface *mHardware;
     public:
         PictureThread(ExynosCameraHWInterface *hw):
         Thread(false),
         mHardware(hw) { }
         virtual bool threadLoop() {
             mHardware->m_pictureThreadFunc();
             return false;
         }
     };

     class AutoFocusThread : public Thread {
         ExynosCameraHWInterface *mHardware;
     public:
         AutoFocusThread(ExynosCameraHWInterface *hw): Thread(false), mHardware(hw) { }
         virtual void onFirstRef() {
             run("CameraAutoFocusThread", PRIORITY_DEFAULT);
         }
         virtual bool threadLoop() {
             mHardware->m_autoFocusThreadFunc();
             return true;
         }
     };

 private:
     void        m_initDefaultParameters(int cameraId);

     bool        m_startPreviewInternal(void);
     void        m_stopPreviewInternal(void);

     bool        m_previewThreadFuncWrapper(void);
     bool        m_previewThreadFunc(void);
     bool        m_videoThreadFuncWrapper(void);
     bool        m_videoThreadFunc(void);
     bool        m_autoFocusThreadFunc(void);

     bool        m_startPictureInternal(void);
     bool        m_stopPictureInternal(void);
     bool        m_pictureThreadFunc(void);

     int         m_saveJpeg(unsigned char *real_jpeg, int jpeg_size);
     void        m_savePostView(const char *fname, uint8_t *buf,
                                uint32_t size);
     int         m_decodeInterleaveData(unsigned char *pInterleaveData,
                                        int interleaveDataSize,
                                        int yuvWidth,
                                        int yuvHeight,
                                        int *pJpegSize,
                                        void *pJpegData,
                                        void *pYuvData);
     bool        m_YUY2toNV21(void *srcBuf, void *dstBuf, uint32_t srcWidth, uint32_t srcHeight);
     bool        m_scaleDownYuv422(char *srcBuf, uint32_t srcWidth,
                                   uint32_t srcHight, char *dstBuf,
                                   uint32_t dstWidth, uint32_t dstHight);

     bool        m_checkVideoStartMarker(unsigned char *pBuf);
     bool        m_checkEOIMarker(unsigned char *pBuf);
     bool        m_findEOIMarkerInJPEG(unsigned char *pBuf,
                                       int dwBufSize, int *pnJPEGsize);
     bool        m_splitFrame(unsigned char *pFrame, int dwSize,
                              int dwJPEGLineLength, int dwVideoLineLength,
                              int dwVideoHeight, void *pJPEG,
                              int *pdwJPEGSize, void *pVideo,
                              int *pdwVideoSize);
     void        m_setSkipFrame(int frame);
     bool        m_isSupportedPreviewSize(const int width, const int height) const;

     void        m_getAlignedYUVSize(int colorFormat, int w, int h, ExynosBuffer *buf);

     bool        m_getResolutionList(String8 & string8Buf, char * strBuf, int w, int h);

     bool        m_getZoomRatioList(String8 & string8Buf, char * strBuf, int maxZoom, int start, int end);

     int         m_bracketsStr2Ints(char *str, int num, ExynosRect2 *rect2s, int *weights);
     bool        m_subBracketsStr2Ints(int num, char *str, int *arr);
     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         m_calibratePosition(int w, int new_w, int x);
 #ifdef LOG_NDEBUG
     bool        m_fileDump(char *filename, void *srcBuf, uint32_t size);
 #endif

 private:
     sp<PreviewThread>   m_previewThread;
     sp<VideoThread>     m_videoThread;
     sp<AutoFocusThread> m_autoFocusThread;
     sp<PictureThread>   m_pictureThread;

     /* used by auto focus thread to block until it's told to run */
     mutable Mutex       m_focusLock;
     mutable Condition   m_focusCondition;
             bool        m_exitAutoFocusThread;

     /* used by preview thread to block until it's told to run */
     mutable Mutex       m_previewLock;
     mutable Condition   m_previewCondition;
     mutable Condition   m_previewStoppedCondition;
             bool        m_previewRunning;
             bool        m_exitPreviewThread;
             bool        m_previewStartDeferred;

     mutable Mutex       m_videoLock;
     mutable Condition   m_videoCondition;
     mutable Condition   m_videoStoppedCondition;
             bool        m_videoRunning;
             bool        m_videoStart;
             bool        m_exitVideoThread;
             bool        m_recordingHint;

     void               *m_grallocVirtAddr[NUM_OF_PREVIEW_BUF];
     int                 m_matchedGrallocIndex[NUM_OF_PREVIEW_BUF];
     ExynosBuffer        m_pictureBuf;
     ExynosBuffer        copy_previewBuf;

     struct ExynosBufferQueue {
         ExynosBuffer       buf;
         ExynosBufferQueue *next;
     };

     ExynosBufferQueue  *m_oldPictureBufQueueHead;
     ExynosBufferQueue   m_oldPictureBufQueue[NUM_OF_PICTURE_BUF];
     mutable Mutex       m_pictureLock;
     mutable Condition   m_pictureCondition;
             bool        m_pictureRunning;
             bool        m_captureInProgress;
             int         m_numOfAvaliblePictureBuf;

     ExynosRect          m_orgPreviewRect;
     ExynosRect          m_orgPictureRect;
     ExynosRect          m_orgVideoRect;

     void               *m_exynosPreviewCSC;
     void               *m_exynosPictureCSC;
     void               *m_exynosVideoCSC;

             preview_stream_ops *m_previewWindow;

     /* used to guard threading state */
     mutable Mutex       m_stateLock;

     CameraParameters    m_params;
     CameraParameters    m_internalParams;

     camera_memory_t    *m_previewHeap[NUM_OF_PREVIEW_BUF];
     buffer_handle_t    *m_previewBufHandle[NUM_OF_PREVIEW_BUF];
     int                 m_previewStride[NUM_OF_PREVIEW_BUF];
     bool                m_avaliblePreviewBufHandle[NUM_OF_PREVIEW_BUF];
     bool                m_flagGrallocLocked[NUM_OF_PREVIEW_BUF];
     int                 m_minUndequeuedBufs;
     int                 m_numOfAvailableVideoBuf;
     int                 m_cntVideoBuf;

     camera_memory_t    *m_videoHeap[NUM_OF_VIDEO_BUF];
     camera_memory_t    *m_resizedVideoHeap[NUM_OF_VIDEO_BUF];
     camera_memory_t    *m_pictureHeap[NUM_OF_PICTURE_BUF];
     int			m_pictureFds[NUM_OF_PICTURE_BUF][3];
     camera_memory_t    *m_rawHeap;
     int			m_ion_client;

     camera_frame_metadata_t  m_frameMetadata;
     camera_face_t            m_faces[NUM_OF_DETECTED_FACES];
     bool                     m_faceDetected;

     ExynosCamera       *m_secCamera;

     mutable Mutex       m_skipFrameLock;
             int         m_skipFrame;

     camera_notify_callback     m_notifyCb;
     camera_data_callback       m_dataCb;
     camera_data_timestamp_callback m_dataCbTimestamp;
     camera_request_memory      m_getMemoryCb;
     void                      *m_callbackCookie;

             int32_t     m_msgEnabled;

            Vector<Size> m_supportedPreviewSizes;

     camera_device_t *m_halDevice;
     static gralloc_module_t const* m_grallocHal;
 };

 }; // namespace android

 #endif
	/*
	**
	** Copyright 2008, The Android Open Source Project
	** Copyright 2010, 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 ExynosCameraHWInterface.h
	* \brief hearder file for Android Camera HAL
	* \author thun.hwang(thun.hwang@samsung.com)
	* \date 2010/06/03
	*
	* <b>Revision History: </b>
	* - 2011/12/31 : thun.hwang(thun.hwang@samsung.com) \n
	* Initial version
	*
	* - 2012/03/14 : sangwoo.park(sw5771.park@samsung.com) \n
	* Change file, class name to ExynosXXX.
	*
	*/

	#ifndef EXYNOS_CAMERA_HW_INTERFACE_H

	#include <utils/threads.h>
	#include <utils/RefBase.h>
	#include <binder/MemoryBase.h>
	#include <binder/MemoryHeapBase.h>
	#include <hardware/camera.h>
	#include <hardware/gralloc.h>
	#include <camera/Camera.h>
	#include <camera/CameraParameters.h>
	#include <media/hardware/MetadataBufferType.h>

	#include "gralloc_priv.h"

	#include "exynos_format.h"
	#include "csc.h"
	#include "ExynosCamera.h"

	#include <fcntl.h>
	#include <sys/mman.h>

	#define USE_EGL (1)

	#define NUM_OF_PREVIEW_BUF (8)
	#define NUM_OF_VIDEO_BUF (8)
	#define NUM_OF_PICTURE_BUF (6)
	#define NUM_OF_WAITING_PUT_PICTURE_BUF (1)

	#define NUM_OF_DETECTED_FACES (32)

	namespace android {

	class ExynosCameraHWInterface : public virtual RefBase {
	public:
	ExynosCameraHWInterface(int cameraId, camera_device_t *dev);
	virtual ~ExynosCameraHWInterface();

	virtual status_t setPreviewWindow(preview_stream_ops *w);
	virtual void setCallbacks(camera_notify_callback notify_cb,
	camera_data_callback data_cb,
	camera_data_timestamp_callback data_cb_timestamp,
	camera_request_memory get_memory,
	void *user);

	virtual void enableMsgType(int32_t msgType);
	virtual void disableMsgType(int32_t msgType);
	virtual bool msgTypeEnabled(int32_t msgType);

	virtual status_t startPreview();
	virtual void stopPreview();
	virtual bool previewEnabled();

	virtual status_t storeMetaDataInBuffers(bool enable);

	virtual status_t startRecording();
	virtual void stopRecording();
	virtual bool recordingEnabled();
	virtual void releaseRecordingFrame(const void *opaque);

	virtual status_t autoFocus();
	virtual status_t cancelAutoFocus();

	virtual status_t takePicture();
	virtual status_t cancelPicture();

	virtual status_t setParameters(const CameraParameters& params);
	virtual CameraParameters getParameters() const;
	virtual status_t sendCommand(int32_t command, int32_t arg1, int32_t arg2);

	virtual void release();

	virtual status_t dump(int fd) const;

	inline int getCameraId() const;

	private:
	class PreviewThread : public Thread {
	ExynosCameraHWInterface *mHardware;
	public:
	PreviewThread(ExynosCameraHWInterface *hw):
	Thread(false),
	mHardware(hw) { }
	virtual void onFirstRef() {
	//run("CameraPreviewThread", PRIORITY_URGENT_DISPLAY);
	run("CameraPreviewThread", PRIORITY_DEFAULT);
	}
	virtual bool threadLoop() {
	mHardware->m_previewThreadFuncWrapper();
	return false;
	}
	};

	class VideoThread : public Thread {
	ExynosCameraHWInterface *mHardware;
	public:
	VideoThread(ExynosCameraHWInterface *hw):
	Thread(false),
	mHardware(hw) { }
	virtual void onFirstRef() {
	run("CameraVideoThread", PRIORITY_DEFAULT);
	}
	virtual bool threadLoop() {
	mHardware->m_videoThreadFuncWrapper();
	return false;
	}
	};

	class PictureThread : public Thread {
	ExynosCameraHWInterface *mHardware;
	public:
	PictureThread(ExynosCameraHWInterface *hw):
	Thread(false),
	mHardware(hw) { }
	virtual bool threadLoop() {
	mHardware->m_pictureThreadFunc();
	return false;
	}
	};

	class AutoFocusThread : public Thread {
	ExynosCameraHWInterface *mHardware;
	public:
	AutoFocusThread(ExynosCameraHWInterface *hw): Thread(false), mHardware(hw) { }
	virtual void onFirstRef() {
	run("CameraAutoFocusThread", PRIORITY_DEFAULT);
	}
	virtual bool threadLoop() {
	mHardware->m_autoFocusThreadFunc();
	return true;
	}
	};

	private:
	void m_initDefaultParameters(int cameraId);

	bool m_startPreviewInternal(void);
	void m_stopPreviewInternal(void);

	bool m_previewThreadFuncWrapper(void);
	bool m_previewThreadFunc(void);
	bool m_videoThreadFuncWrapper(void);
	bool m_videoThreadFunc(void);
	bool m_autoFocusThreadFunc(void);

	bool m_startPictureInternal(void);
	bool m_stopPictureInternal(void);
	bool m_pictureThreadFunc(void);

	int m_saveJpeg(unsigned char *real_jpeg, int jpeg_size);
	void m_savePostView(const char fname, uint8_t buf,
	uint32_t size);
	int m_decodeInterleaveData(unsigned char *pInterleaveData,
	int interleaveDataSize,
	int yuvWidth,
	int yuvHeight,
	int *pJpegSize,
	void *pJpegData,
	void *pYuvData);
	bool m_YUY2toNV21(void srcBuf, void dstBuf, uint32_t srcWidth, uint32_t srcHeight);
	bool m_scaleDownYuv422(char *srcBuf, uint32_t srcWidth,
	uint32_t srcHight, char *dstBuf,
	uint32_t dstWidth, uint32_t dstHight);

	bool m_checkVideoStartMarker(unsigned char *pBuf);
	bool m_checkEOIMarker(unsigned char *pBuf);
	bool m_findEOIMarkerInJPEG(unsigned char *pBuf,
	int dwBufSize, int *pnJPEGsize);
	bool m_splitFrame(unsigned char *pFrame, int dwSize,
	int dwJPEGLineLength, int dwVideoLineLength,
	int dwVideoHeight, void *pJPEG,
	int pdwJPEGSize, void pVideo,
	int *pdwVideoSize);
	void m_setSkipFrame(int frame);
	bool m_isSupportedPreviewSize(const int width, const int height) const;

	void m_getAlignedYUVSize(int colorFormat, int w, int h, ExynosBuffer *buf);

	bool m_getResolutionList(String8 & string8Buf, char * strBuf, int w, int h);

	bool m_getZoomRatioList(String8 & string8Buf, char * strBuf, int maxZoom, int start, int end);

	int m_bracketsStr2Ints(char str, int num, ExynosRect2 rect2s, int *weights);
	bool m_subBracketsStr2Ints(int num, char str, int arr);
	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 m_calibratePosition(int w, int new_w, int x);
	#ifdef LOG_NDEBUG
	bool m_fileDump(char filename, void srcBuf, uint32_t size);
	#endif

	private:
	sp<PreviewThread> m_previewThread;
	sp<VideoThread> m_videoThread;
	sp<AutoFocusThread> m_autoFocusThread;
	sp<PictureThread> m_pictureThread;

	/* used by auto focus thread to block until it's told to run */
	mutable Mutex m_focusLock;
	mutable Condition m_focusCondition;
	bool m_exitAutoFocusThread;

	/* used by preview thread to block until it's told to run */
	mutable Mutex m_previewLock;
	mutable Condition m_previewCondition;
	mutable Condition m_previewStoppedCondition;
	bool m_previewRunning;
	bool m_exitPreviewThread;
	bool m_previewStartDeferred;

	mutable Mutex m_videoLock;
	mutable Condition m_videoCondition;
	mutable Condition m_videoStoppedCondition;
	bool m_videoRunning;
	bool m_videoStart;
	bool m_exitVideoThread;
	bool m_recordingHint;

	void *m_grallocVirtAddr[NUM_OF_PREVIEW_BUF];
	int m_matchedGrallocIndex[NUM_OF_PREVIEW_BUF];
	ExynosBuffer m_pictureBuf;
	ExynosBuffer copy_previewBuf;

	struct ExynosBufferQueue {
	ExynosBuffer buf;
	ExynosBufferQueue *next;
	};

	ExynosBufferQueue *m_oldPictureBufQueueHead;
	ExynosBufferQueue m_oldPictureBufQueue[NUM_OF_PICTURE_BUF];
	mutable Mutex m_pictureLock;
	mutable Condition m_pictureCondition;
	bool m_pictureRunning;
	bool m_captureInProgress;
	int m_numOfAvaliblePictureBuf;

	ExynosRect m_orgPreviewRect;
	ExynosRect m_orgPictureRect;
	ExynosRect m_orgVideoRect;

	void *m_exynosPreviewCSC;
	void *m_exynosPictureCSC;
	void *m_exynosVideoCSC;

	preview_stream_ops *m_previewWindow;

	/* used to guard threading state */
	mutable Mutex m_stateLock;

	CameraParameters m_params;
	CameraParameters m_internalParams;

	camera_memory_t *m_previewHeap[NUM_OF_PREVIEW_BUF];
	buffer_handle_t *m_previewBufHandle[NUM_OF_PREVIEW_BUF];
	int m_previewStride[NUM_OF_PREVIEW_BUF];
	bool m_avaliblePreviewBufHandle[NUM_OF_PREVIEW_BUF];
	bool m_flagGrallocLocked[NUM_OF_PREVIEW_BUF];
	int m_minUndequeuedBufs;
	int m_numOfAvailableVideoBuf;
	int m_cntVideoBuf;

	camera_memory_t *m_videoHeap[NUM_OF_VIDEO_BUF];
	camera_memory_t *m_resizedVideoHeap[NUM_OF_VIDEO_BUF];
	camera_memory_t *m_pictureHeap[NUM_OF_PICTURE_BUF];
	int m_pictureFds[NUM_OF_PICTURE_BUF][3];
	camera_memory_t *m_rawHeap;
	int m_ion_client;

	camera_frame_metadata_t m_frameMetadata;
	camera_face_t m_faces[NUM_OF_DETECTED_FACES];
	bool m_faceDetected;

	ExynosCamera *m_secCamera;

	mutable Mutex m_skipFrameLock;
	int m_skipFrame;

	camera_notify_callback m_notifyCb;
	camera_data_callback m_dataCb;
	camera_data_timestamp_callback m_dataCbTimestamp;
	camera_request_memory m_getMemoryCb;
	void *m_callbackCookie;

	int32_t m_msgEnabled;

	Vector<Size> m_supportedPreviewSizes;

	camera_device_t *m_halDevice;
	static gralloc_module_t const* m_grallocHal;
	};

	}; // namespace android

	#endif