/* * Copyright (C) Texas Instruments - http://www.ti.com/ * * 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 OMX_CAMERA_ADAPTER_H #define OMX_CAMERA_ADAPTER_H #include "CameraHal.h" #include "OMX_Types.h" #include "OMX_Core.h" #include "OMX_CoreExt.h" #include "OMX_IVCommon.h" #include "OMX_Component.h" #include "OMX_Index.h" #include "OMX_IndexExt.h" #include "OMX_TI_Index.h" #include "OMX_TI_IVCommon.h" #include "OMX_TI_Common.h" #include "OMX_TI_Image.h" #include "General3A_Settings.h" #include "OMXSceneModeTables.h" #include "BaseCameraAdapter.h" #include "Encoder_libjpeg.h" #include "DebugUtils.h" extern "C" { #include "timm_osal_error.h" #include "timm_osal_events.h" #include "timm_osal_trace.h" #include "timm_osal_semaphores.h" } namespace android { #define Q16_OFFSET 16 #define OMX_CMD_TIMEOUT 3000000 //3 sec. #define OMX_CAPTURE_TIMEOUT 5000000 //5 sec. #define FOCUS_THRESHOLD 5 //[s.] #define MIN_JPEG_QUALITY 1 #define MAX_JPEG_QUALITY 100 #define EXP_BRACKET_RANGE 10 #define FOCUS_DIST_SIZE 100 #define FOCUS_DIST_BUFFER_SIZE 500 #define TOUCH_DATA_SIZE 200 #define DEFAULT_THUMB_WIDTH 160 #define DEFAULT_THUMB_HEIGHT 120 #define FRAME_RATE_FULL_HD 27 #define ZOOM_STAGES 61 #define FACE_DETECTION_BUFFER_SIZE 0x1000 #define MAX_NUM_FACES_SUPPORTED 35 #define EXIF_MODEL_SIZE 100 #define EXIF_MAKE_SIZE 100 #define EXIF_DATE_TIME_SIZE 20 #define GPS_MIN_DIV 60 #define GPS_SEC_DIV 60 #define GPS_SEC_ACCURACY 1000 #define GPS_TIMESTAMP_SIZE 6 #define GPS_DATESTAMP_SIZE 11 #define GPS_REF_SIZE 2 #define GPS_MAPDATUM_SIZE 100 #define GPS_PROCESSING_SIZE 100 #define GPS_VERSION_SIZE 4 #define GPS_NORTH_REF "N" #define GPS_SOUTH_REF "S" #define GPS_EAST_REF "E" #define GPS_WEST_REF "W" /* Default portstartnumber of Camera component */ #define OMX_CAMERA_DEFAULT_START_PORT_NUM 0 /* Define number of ports for differt domains */ #define OMX_CAMERA_PORT_OTHER_NUM 1 #define OMX_CAMERA_PORT_VIDEO_NUM 4 #define OMX_CAMERA_PORT_IMAGE_NUM 1 #define OMX_CAMERA_PORT_AUDIO_NUM 0 #define OMX_CAMERA_NUM_PORTS (OMX_CAMERA_PORT_OTHER_NUM + OMX_CAMERA_PORT_VIDEO_NUM + OMX_CAMERA_PORT_IMAGE_NUM + OMX_CAMERA_PORT_AUDIO_NUM) /* Define start port number for differt domains */ #define OMX_CAMERA_PORT_OTHER_START OMX_CAMERA_DEFAULT_START_PORT_NUM #define OMX_CAMERA_PORT_VIDEO_START (OMX_CAMERA_PORT_OTHER_START + OMX_CAMERA_PORT_OTHER_NUM) #define OMX_CAMERA_PORT_IMAGE_START (OMX_CAMERA_PORT_VIDEO_START + OMX_CAMERA_PORT_VIDEO_NUM) #define OMX_CAMERA_PORT_AUDIO_START (OMX_CAMERA_PORT_IMAGE_START + OMX_CAMERA_PORT_IMAGE_NUM) /* Port index for camera component */ #define OMX_CAMERA_PORT_OTHER_IN (OMX_CAMERA_PORT_OTHER_START + 0) #define OMX_CAMERA_PORT_VIDEO_IN_VIDEO (OMX_CAMERA_PORT_VIDEO_START + 0) #define OMX_CAMERA_PORT_VIDEO_OUT_PREVIEW (OMX_CAMERA_PORT_VIDEO_START + 1) #define OMX_CAMERA_PORT_VIDEO_OUT_VIDEO (OMX_CAMERA_PORT_VIDEO_START + 2) #define OMX_CAMERA_PORT_VIDEO_OUT_MEASUREMENT (OMX_CAMERA_PORT_VIDEO_START + 3) #define OMX_CAMERA_PORT_IMAGE_OUT_IMAGE (OMX_CAMERA_PORT_IMAGE_START + 0) #define OMX_INIT_STRUCT(_s_, _name_) \ memset(&(_s_), 0x0, sizeof(_name_)); \ (_s_).nSize = sizeof(_name_); \ (_s_).nVersion.s.nVersionMajor = 0x1; \ (_s_).nVersion.s.nVersionMinor = 0x1; \ (_s_).nVersion.s.nRevision = 0x0; \ (_s_).nVersion.s.nStep = 0x0 #define OMX_INIT_STRUCT_PTR(_s_, _name_) \ memset((_s_), 0x0, sizeof(_name_)); \ (_s_)->nSize = sizeof(_name_); \ (_s_)->nVersion.s.nVersionMajor = 0x1; \ (_s_)->nVersion.s.nVersionMinor = 0x1; \ (_s_)->nVersion.s.nRevision = 0x0; \ (_s_)->nVersion.s.nStep = 0x0 #define GOTO_EXIT_IF(_CONDITION,_ERROR) { \ if ((_CONDITION)) { \ eError = (_ERROR); \ goto EXIT; \ } \ } const int64_t kCameraBufferLatencyNs = 250000000LL; // 250 ms ///OMX Specific Functions static OMX_ERRORTYPE OMXCameraAdapterEventHandler(OMX_IN OMX_HANDLETYPE hComponent, OMX_IN OMX_PTR pAppData, OMX_IN OMX_EVENTTYPE eEvent, OMX_IN OMX_U32 nData1, OMX_IN OMX_U32 nData2, OMX_IN OMX_PTR pEventData); static OMX_ERRORTYPE OMXCameraAdapterEmptyBufferDone(OMX_IN OMX_HANDLETYPE hComponent, OMX_IN OMX_PTR pAppData, OMX_IN OMX_BUFFERHEADERTYPE* pBuffer); static OMX_ERRORTYPE OMXCameraAdapterFillBufferDone(OMX_IN OMX_HANDLETYPE hComponent, OMX_IN OMX_PTR pAppData, OMX_IN OMX_BUFFERHEADERTYPE* pBuffHeader); struct CapResolution { size_t width, height; const char *param; }; struct CapPixelformat { OMX_COLOR_FORMATTYPE pixelformat; const char *param; }; struct CapU32 { OMX_U32 num; const char *param; }; struct CapU32Pair { OMX_U32 num1, num2; const char *param; }; struct CapS32 { OMX_S32 num; const char *param; }; typedef CapU32 CapFramerate; typedef CapU32 CapISO; typedef CapU32 CapSensorName; typedef CapS32 CapZoom; typedef CapS32 CapEVComp; /** * Class which completely abstracts the camera hardware interaction from camera hal * TODO: Need to list down here, all the message types that will be supported by this class Need to implement BufferProvider interface to use AllocateBuffer of OMX if needed */ class OMXCameraAdapter : public BaseCameraAdapter { public: /*--------------------Constant declarations----------------------------------------*/ static const int32_t MAX_NO_BUFFERS = 20; ///@remarks OMX Camera has six ports - buffer input, time input, preview, image, video, and meta data static const int MAX_NO_PORTS = 6; ///Five second timeout static const int CAMERA_ADAPTER_TIMEOUT = 5000*1000; enum OMXCameraEvents { CAMERA_PORT_ENABLE = 0x1, CAMERA_PORT_FLUSH = 0x2, CAMERA_PORT_DISABLE = 0x4, }; enum CaptureMode { HIGH_SPEED = 1, HIGH_QUALITY = 2, VIDEO_MODE = 3, HIGH_QUALITY_ZSL = 4, }; enum IPPMode { IPP_NULL = -1, IPP_NONE = 0, IPP_NSF, IPP_LDC, IPP_LDCNSF, }; enum CodingMode { CodingNone = 0, CodingJPS, CodingMPO, CodingRAWJPEG, CodingRAWMPO, }; enum Algorithm3A { WHITE_BALANCE_ALGO = 0x1, EXPOSURE_ALGO = 0x2, FOCUS_ALGO = 0x4, }; enum AlgoPriority { FACE_PRIORITY = 0, REGION_PRIORITY, }; enum BrightnessMode { BRIGHTNESS_OFF = 0, BRIGHTNESS_ON, BRIGHTNESS_AUTO, }; enum CaptureSettingsFlags { SetFormat = 1 << 0, SetThumb = 1 << 1, SetExpBracket = 1 << 2, SetQuality = 1 << 3, SetRotation = 1 << 4, ECaptureSettingMax, ECapturesettingsAll = ( ((ECaptureSettingMax -1 ) << 1) -1 ) /// all possible flags raised }; class GPSData { public: int mLongDeg, mLongMin, mLongSec, mLongSecDiv; char mLongRef[GPS_REF_SIZE]; bool mLongValid; int mLatDeg, mLatMin, mLatSec, mLatSecDiv; char mLatRef[GPS_REF_SIZE]; bool mLatValid; int mAltitude; unsigned char mAltitudeRef; bool mAltitudeValid; char mMapDatum[GPS_MAPDATUM_SIZE]; bool mMapDatumValid; char mVersionId[GPS_VERSION_SIZE]; bool mVersionIdValid; char mProcMethod[GPS_PROCESSING_SIZE]; bool mProcMethodValid; char mDatestamp[GPS_DATESTAMP_SIZE]; bool mDatestampValid; uint32_t mTimeStampHour; uint32_t mTimeStampMin; uint32_t mTimeStampSec; bool mTimeStampValid; }; class EXIFData { public: GPSData mGPSData; char mMake[EXIF_MODEL_SIZE]; char mModel[EXIF_MAKE_SIZE]; unsigned int mFocalNum, mFocalDen; bool mMakeValid; bool mModelValid; }; ///Parameters specific to any port of the OMX Camera component class OMXCameraPortParameters { public: OMX_U32 mHostBufaddr[MAX_NO_BUFFERS]; OMX_BUFFERHEADERTYPE *mBufferHeader[MAX_NO_BUFFERS]; OMX_U32 mWidth; OMX_U32 mHeight; OMX_U32 mStride; OMX_U8 mNumBufs; // defines maximum number of buffers our of mNumBufs // queueable at given moment OMX_U8 mMaxQueueable; OMX_U32 mBufSize; OMX_COLOR_FORMATTYPE mColorFormat; OMX_PARAM_VIDEONOISEFILTERTYPE mVNFMode; OMX_PARAM_VIDEOYUVRANGETYPE mYUVRange; OMX_CONFIG_BOOLEANTYPE mVidStabParam; OMX_CONFIG_FRAMESTABTYPE mVidStabConfig; OMX_U32 mCapFrame; OMX_U32 mFrameRate; OMX_S32 mMinFrameRate; OMX_S32 mMaxFrameRate; CameraFrame::FrameType mImageType; }; ///Context of the OMX Camera component class OMXCameraAdapterComponentContext { public: OMX_HANDLETYPE mHandleComp; OMX_U32 mNumPorts; OMX_STATETYPE mState ; OMX_U32 mVideoPortIndex; OMX_U32 mPrevPortIndex; OMX_U32 mImagePortIndex; OMX_U32 mMeasurementPortIndex; OMXCameraPortParameters mCameraPortParams[MAX_NO_PORTS]; }; public: OMXCameraAdapter(size_t sensor_index); ~OMXCameraAdapter(); ///Initialzes the camera adapter creates any resources required virtual status_t initialize(CameraProperties::Properties*); //APIs to configure Camera adapter and get the current parameter set virtual status_t setParameters(const CameraParameters& params); virtual void getParameters(CameraParameters& params); // API virtual status_t UseBuffersPreview(void* bufArr, int num); //API to flush the buffers for preview status_t flushBuffers(); // API virtual status_t setFormat(OMX_U32 port, OMXCameraPortParameters &cap); // Function to get and populate caps from handle static status_t getCaps(CameraProperties::Properties* props, OMX_HANDLETYPE handle); static const char* getLUTvalue_OMXtoHAL(int OMXValue, LUTtype LUT); static int getLUTvalue_HALtoOMX(const char * HalValue, LUTtype LUT); OMX_ERRORTYPE OMXCameraAdapterEventHandler(OMX_IN OMX_HANDLETYPE hComponent, OMX_IN OMX_EVENTTYPE eEvent, OMX_IN OMX_U32 nData1, OMX_IN OMX_U32 nData2, OMX_IN OMX_PTR pEventData); OMX_ERRORTYPE OMXCameraAdapterEmptyBufferDone(OMX_IN OMX_HANDLETYPE hComponent, OMX_IN OMX_BUFFERHEADERTYPE* pBuffer); OMX_ERRORTYPE OMXCameraAdapterFillBufferDone(OMX_IN OMX_HANDLETYPE hComponent, OMX_IN OMX_BUFFERHEADERTYPE* pBuffHeader); static OMX_ERRORTYPE OMXCameraGetHandle(OMX_HANDLETYPE *handle, OMX_PTR pAppData=NULL); protected: //Parent class method implementation virtual status_t takePicture(); virtual status_t stopImageCapture(); virtual status_t startBracketing(int range); virtual status_t stopBracketing(); virtual status_t autoFocus(); virtual status_t cancelAutoFocus(); virtual status_t startSmoothZoom(int targetIdx); virtual status_t stopSmoothZoom(); virtual status_t startVideoCapture(); virtual status_t stopVideoCapture(); virtual status_t startPreview(); virtual status_t stopPreview(); virtual status_t useBuffers(CameraMode mode, void* bufArr, int num, size_t length, unsigned int queueable); virtual status_t fillThisBuffer(void* frameBuf, CameraFrame::FrameType frameType); virtual status_t getFrameSize(size_t &width, size_t &height); virtual status_t getPictureBufferSize(size_t &length, size_t bufferCount); virtual status_t getFrameDataSize(size_t &dataFrameSize, size_t bufferCount); virtual status_t startFaceDetection(); virtual status_t stopFaceDetection(); virtual status_t switchToExecuting(); virtual void onOrientationEvent(uint32_t orientation, uint32_t tilt); private: status_t doSwitchToExecuting(); void performCleanupAfterError(); status_t switchToLoaded(); OMXCameraPortParameters *getPortParams(CameraFrame::FrameType frameType); OMX_ERRORTYPE SignalEvent(OMX_IN OMX_HANDLETYPE hComponent, OMX_IN OMX_EVENTTYPE eEvent, OMX_IN OMX_U32 nData1, OMX_IN OMX_U32 nData2, OMX_IN OMX_PTR pEventData); OMX_ERRORTYPE RemoveEvent(OMX_IN OMX_HANDLETYPE hComponent, OMX_IN OMX_EVENTTYPE eEvent, OMX_IN OMX_U32 nData1, OMX_IN OMX_U32 nData2, OMX_IN OMX_PTR pEventData); status_t RegisterForEvent(OMX_IN OMX_HANDLETYPE hComponent, OMX_IN OMX_EVENTTYPE eEvent, OMX_IN OMX_U32 nData1, OMX_IN OMX_U32 nData2, OMX_IN Semaphore &semaphore); status_t setPictureRotation(unsigned int degree); status_t setSensorOrientation(unsigned int degree); status_t setImageQuality(unsigned int quality); status_t setThumbnailParams(unsigned int width, unsigned int height, unsigned int quality); //EXIF status_t setParametersEXIF(const CameraParameters ¶ms, BaseCameraAdapter::AdapterState state); status_t convertGPSCoord(double coord, int °, int &min, int &sec, int &secDivisor); status_t setupEXIF(); status_t setupEXIF_libjpeg(ExifElementsTable*, OMX_TI_ANCILLARYDATATYPE*, OMX_TI_WHITEBALANCERESULTTYPE*); //Focus functionality status_t doAutoFocus(); status_t stopAutoFocus(); status_t checkFocus(OMX_PARAM_FOCUSSTATUSTYPE *eFocusStatus); status_t returnFocusStatus(bool timeoutReached); status_t getFocusMode(OMX_IMAGE_CONFIG_FOCUSCONTROLTYPE &focusMode); void handleFocusCallback(); //Focus distances status_t setParametersFocus(const CameraParameters ¶ms, BaseCameraAdapter::AdapterState state); status_t addFocusDistances(OMX_U32 &near, OMX_U32 &optimal, OMX_U32 &far, CameraParameters& params); status_t encodeFocusDistance(OMX_U32 dist, char *buffer, size_t length); status_t getFocusDistances(OMX_U32 &near,OMX_U32 &optimal, OMX_U32 &far); //VSTAB and VNF Functionality status_t enableVideoNoiseFilter(bool enable); status_t enableVideoStabilization(bool enable); //Digital zoom status_t setParametersZoom(const CameraParameters ¶ms, BaseCameraAdapter::AdapterState state); status_t doZoom(int index); status_t advanceZoom(); //3A related parameters status_t setParameters3A(const CameraParameters ¶ms, BaseCameraAdapter::AdapterState state); // scene modes status_t setScene(Gen3A_settings& Gen3A); // returns pointer to SceneModesEntry from the LUT for camera given 'name' and 'scene' static const SceneModesEntry* getSceneModeEntry(const char* name, OMX_SCENEMODETYPE scene); //Flash modes status_t setFlashMode(Gen3A_settings& Gen3A); status_t getFlashMode(Gen3A_settings& Gen3A); // Focus modes status_t setFocusMode(Gen3A_settings& Gen3A); status_t getFocusMode(Gen3A_settings& Gen3A); //Exposure Modes status_t setExposureMode(Gen3A_settings& Gen3A); status_t setEVCompensation(Gen3A_settings& Gen3A); status_t setWBMode(Gen3A_settings& Gen3A); status_t setFlicker(Gen3A_settings& Gen3A); status_t setBrightness(Gen3A_settings& Gen3A); status_t setContrast(Gen3A_settings& Gen3A); status_t setSharpness(Gen3A_settings& Gen3A); status_t setSaturation(Gen3A_settings& Gen3A); status_t setISO(Gen3A_settings& Gen3A); status_t setEffect(Gen3A_settings& Gen3A); status_t setMeteringAreas(Gen3A_settings& Gen3A); status_t getEVCompensation(Gen3A_settings& Gen3A); status_t getWBMode(Gen3A_settings& Gen3A); status_t getSharpness(Gen3A_settings& Gen3A); status_t getSaturation(Gen3A_settings& Gen3A); status_t getISO(Gen3A_settings& Gen3A); // 3A locks status_t setExposureLock(Gen3A_settings& Gen3A); status_t setFocusLock(Gen3A_settings& Gen3A); status_t setWhiteBalanceLock(Gen3A_settings& Gen3A); status_t set3ALock(OMX_BOOL toggleExp, OMX_BOOL toggleWb, OMX_BOOL toggleFocus); //API to set FrameRate using VFR interface status_t setVFramerate(OMX_U32 minFrameRate,OMX_U32 maxFrameRate); status_t setParametersAlgo(const CameraParameters ¶ms, BaseCameraAdapter::AdapterState state); //Noise filtering status_t setNSF(OMXCameraAdapter::IPPMode mode); //LDC status_t setLDC(OMXCameraAdapter::IPPMode mode); //GLBCE status_t setGLBCE(OMXCameraAdapter::BrightnessMode mode); //GBCE status_t setGBCE(OMXCameraAdapter::BrightnessMode mode); status_t printComponentVersion(OMX_HANDLETYPE handle); //Touch AF status_t setTouchFocus(); //Face detection status_t setParametersFD(const CameraParameters ¶ms, BaseCameraAdapter::AdapterState state); status_t updateFocusDistances(CameraParameters ¶ms); status_t setFaceDetection(bool enable, OMX_U32 orientation); status_t detectFaces(OMX_BUFFERHEADERTYPE* pBuffHeader, sp<CameraFDResult> &result, size_t previewWidth, size_t previewHeight); status_t encodeFaceCoordinates(const OMX_FACEDETECTIONTYPE *faceData, camera_frame_metadata_t **pFaces, size_t previewWidth, size_t previewHeight); void pauseFaceDetection(bool pause); //3A Algorithms priority configuration status_t setAlgoPriority(AlgoPriority priority, Algorithm3A algo, bool enable); //Sensor overclocking status_t setSensorOverclock(bool enable); // Utility methods for OMX Capabilities static status_t insertCapabilities(CameraProperties::Properties*, OMX_TI_CAPTYPE&); static status_t encodeSizeCap(OMX_TI_CAPRESTYPE&, const CapResolution *, size_t, char *, size_t); static status_t encodeISOCap(OMX_U32, const CapISO*, size_t, char*, size_t); static size_t encodeZoomCap(OMX_S32, const CapZoom*, size_t, char*, size_t); static status_t encodeFramerateCap(OMX_U32, OMX_U32, const CapFramerate*, size_t, char*, size_t); static status_t encodeVFramerateCap(OMX_TI_CAPTYPE&, const CapU32Pair*, size_t, char*, char*, size_t); static status_t encodePixelformatCap(OMX_COLOR_FORMATTYPE, const CapPixelformat*, size_t, char*, size_t); static status_t insertImageSizes(CameraProperties::Properties*, OMX_TI_CAPTYPE&); static status_t insertPreviewSizes(CameraProperties::Properties*, OMX_TI_CAPTYPE&); static status_t insertThumbSizes(CameraProperties::Properties*, OMX_TI_CAPTYPE&); static status_t insertZoomStages(CameraProperties::Properties*, OMX_TI_CAPTYPE&); static status_t insertImageFormats(CameraProperties::Properties*, OMX_TI_CAPTYPE&); static status_t insertPreviewFormats(CameraProperties::Properties*, OMX_TI_CAPTYPE&); static status_t insertFramerates(CameraProperties::Properties*, OMX_TI_CAPTYPE&); static status_t insertVFramerates(CameraProperties::Properties*, OMX_TI_CAPTYPE&); static status_t insertEVs(CameraProperties::Properties*, OMX_TI_CAPTYPE&); static status_t insertISOModes(CameraProperties::Properties*, OMX_TI_CAPTYPE&); static status_t insertIPPModes(CameraProperties::Properties*, OMX_TI_CAPTYPE &); static status_t insertWBModes(CameraProperties::Properties*, OMX_TI_CAPTYPE&); static status_t insertEffects(CameraProperties::Properties*, OMX_TI_CAPTYPE&); static status_t insertExpModes(CameraProperties::Properties*, OMX_TI_CAPTYPE&); static status_t insertSceneModes(CameraProperties::Properties*, OMX_TI_CAPTYPE &); static status_t insertFocusModes(CameraProperties::Properties*, OMX_TI_CAPTYPE&); static status_t insertFlickerModes(CameraProperties::Properties*, OMX_TI_CAPTYPE&); static status_t insertFlashModes(CameraProperties::Properties*, OMX_TI_CAPTYPE&); static status_t insertSenMount(CameraProperties::Properties*, OMX_TI_CAPTYPE&); static status_t insertDefaults(CameraProperties::Properties*, OMX_TI_CAPTYPE&); static status_t insertLocks(CameraProperties::Properties*, OMX_TI_CAPTYPE&); static status_t insertAreas(CameraProperties::Properties*, OMX_TI_CAPTYPE&); static status_t insertVideoSizes(CameraProperties::Properties*, OMX_TI_CAPTYPE&); status_t setParametersCapture(const CameraParameters ¶ms, BaseCameraAdapter::AdapterState state); //Exposure Bracketing status_t setExposureBracketing(int *evValues, size_t evCount, size_t frameCount); status_t parseExpRange(const char *rangeStr, int * expRange, size_t count, size_t &validEntries); //Temporal Bracketing status_t doBracketing(OMX_BUFFERHEADERTYPE *pBuffHeader, CameraFrame::FrameType typeOfFrame); status_t sendBracketFrames(); // Image Capture Service status_t startImageCapture(); status_t disableImagePort(); //Shutter callback notifications status_t setShutterCallback(bool enabled); //Sets eithter HQ or HS mode and the frame count status_t setCaptureMode(OMXCameraAdapter::CaptureMode mode); status_t UseBuffersCapture(void* bufArr, int num); status_t UseBuffersPreviewData(void* bufArr, int num); //Used for calculation of the average frame rate during preview status_t recalculateFPS(); //Helper method for initializing a CameFrame object status_t initCameraFrame(CameraFrame &frame, OMX_IN OMX_BUFFERHEADERTYPE *pBuffHeader, int typeOfFrame, OMXCameraPortParameters *port); //Sends the incoming OMX buffer header to subscribers status_t sendFrame(CameraFrame &frame); status_t sendCallBacks(CameraFrame frame, OMX_IN OMX_BUFFERHEADERTYPE *pBuffHeader, unsigned int mask, OMXCameraPortParameters *port); status_t apply3Asettings( Gen3A_settings& Gen3A ); status_t init3AParams(Gen3A_settings &Gen3A); // AutoConvergence status_t setAutoConvergence(OMX_TI_AUTOCONVERGENCEMODETYPE pACMode, OMX_S32 pManualConverence); status_t getAutoConvergence(OMX_TI_AUTOCONVERGENCEMODETYPE *pACMode, OMX_S32 *pManualConverence); status_t setExtraData(bool enable, OMX_U32, OMX_EXT_EXTRADATATYPE); OMX_OTHER_EXTRADATATYPE *getExtradata(OMX_OTHER_EXTRADATATYPE *extraData, OMX_EXTRADATATYPE type); class CommandHandler : public Thread { public: CommandHandler(OMXCameraAdapter* ca) : Thread(false), mCameraAdapter(ca) { } virtual bool threadLoop() { bool ret; ret = Handler(); return ret; } status_t put(TIUTILS::Message* msg){ Mutex::Autolock lock(mLock); return mCommandMsgQ.put(msg); } void clearCommandQ() { Mutex::Autolock lock(mLock); mCommandMsgQ.clear(); } enum { COMMAND_EXIT = -1, CAMERA_START_IMAGE_CAPTURE = 0, CAMERA_PERFORM_AUTOFOCUS = 1, CAMERA_SWITCH_TO_EXECUTING, }; private: bool Handler(); TIUTILS::MessageQueue mCommandMsgQ; OMXCameraAdapter* mCameraAdapter; Mutex mLock; }; sp<CommandHandler> mCommandHandler; public: class OMXCallbackHandler : public Thread { public: OMXCallbackHandler(OMXCameraAdapter* ca) : Thread(false), mCameraAdapter(ca) { } virtual bool threadLoop() { bool ret; ret = Handler(); return ret; } status_t put(TIUTILS::Message* msg){ Mutex::Autolock lock(mLock); return mCommandMsgQ.put(msg); } void clearCommandQ() { Mutex::Autolock lock(mLock); mCommandMsgQ.clear(); } enum { COMMAND_EXIT = -1, CAMERA_FILL_BUFFER_DONE, CAMERA_FOCUS_STATUS, }; private: bool Handler(); TIUTILS::MessageQueue mCommandMsgQ; OMXCameraAdapter* mCameraAdapter; Mutex mLock; }; sp<OMXCallbackHandler> mOMXCallbackHandler; private: //AF callback status_t setFocusCallback(bool enabled); //OMX Capabilities data static const CapResolution mImageCapRes []; static const CapResolution mPreviewRes []; static const CapResolution mThumbRes []; static const CapPixelformat mPixelformats []; static const CapFramerate mFramerates []; static const CapU32 mSensorNames[] ; static const CapZoom mZoomStages []; static const CapEVComp mEVCompRanges []; static const CapISO mISOStages []; static const CapU32Pair mVarFramerates []; // OMX Camera defaults static const char DEFAULT_ANTIBANDING[]; static const char DEFAULT_BRIGHTNESS[]; static const char DEFAULT_CONTRAST[]; static const char DEFAULT_EFFECT[]; static const char DEFAULT_EV_COMPENSATION[]; static const char DEFAULT_EV_STEP[]; static const char DEFAULT_EXPOSURE_MODE[]; static const char DEFAULT_FLASH_MODE[]; static const char DEFAULT_FOCUS_MODE_PREFERRED[]; static const char DEFAULT_FOCUS_MODE[]; static const char DEFAULT_FRAMERATE_RANGE_IMAGE[]; static const char DEFAULT_FRAMERATE_RANGE_VIDEO[]; static const char DEFAULT_IPP[]; static const char DEFAULT_GBCE[]; static const char DEFAULT_ISO_MODE[]; static const char DEFAULT_JPEG_QUALITY[]; static const char DEFAULT_THUMBNAIL_QUALITY[]; static const char DEFAULT_THUMBNAIL_SIZE[]; static const char DEFAULT_PICTURE_FORMAT[]; static const char DEFAULT_PICTURE_SIZE[]; static const char DEFAULT_PREVIEW_FORMAT[]; static const char DEFAULT_FRAMERATE[]; static const char DEFAULT_PREVIEW_SIZE[]; static const char DEFAULT_NUM_PREV_BUFS[]; static const char DEFAULT_NUM_PIC_BUFS[]; static const char DEFAULT_MAX_FOCUS_AREAS[]; static const char DEFAULT_SATURATION[]; static const char DEFAULT_SCENE_MODE[]; static const char DEFAULT_SHARPNESS[]; static const char DEFAULT_VSTAB[]; static const char DEFAULT_VSTAB_SUPPORTED[]; static const char DEFAULT_WB[]; static const char DEFAULT_ZOOM[]; static const char DEFAULT_MAX_FD_HW_FACES[]; static const char DEFAULT_MAX_FD_SW_FACES[]; static const char DEFAULT_AE_LOCK[]; static const char DEFAULT_AWB_LOCK[]; static const char DEFAULT_MAX_NUM_METERING_AREAS[]; static const char DEFAULT_LOCK_SUPPORTED[]; static const char DEFAULT_LOCK_UNSUPPORTED[]; static const char DEFAULT_FOCAL_LENGTH_PRIMARY[]; static const char DEFAULT_FOCAL_LENGTH_SECONDARY[]; static const char DEFAULT_HOR_ANGLE[]; static const char DEFAULT_VER_ANGLE[]; static const char DEFAULT_VIDEO_SNAPSHOT_SUPPORTED[]; static const char DEFAULT_VIDEO_SIZE[]; static const char DEFAULT_PREFERRED_PREVIEW_SIZE_FOR_VIDEO[]; static const size_t MAX_FOCUS_AREAS; OMX_VERSIONTYPE mCompRevision; //OMX Component UUID OMX_UUIDTYPE mCompUUID; //Current Focus distances char mFocusDistNear[FOCUS_DIST_SIZE]; char mFocusDistOptimal[FOCUS_DIST_SIZE]; char mFocusDistFar[FOCUS_DIST_SIZE]; char mFocusDistBuffer[FOCUS_DIST_BUFFER_SIZE]; // Current Focus areas Vector< sp<CameraArea> > mFocusAreas; mutable Mutex mFocusAreasLock; // Current Metering areas Vector< sp<CameraArea> > mMeteringAreas; mutable Mutex mMeteringAreasLock; CaptureMode mCapMode; size_t mBurstFrames; size_t mCapturedFrames; bool mMeasurementEnabled; //Exposure Bracketing int mExposureBracketingValues[EXP_BRACKET_RANGE]; size_t mExposureBracketingValidEntries; mutable Mutex mFaceDetectionLock; //Face detection status bool mFaceDetectionRunning; bool mFaceDetectionPaused; bool mFDSwitchAlgoPriority; camera_face_t faceDetectionLastOutput [MAX_NUM_FACES_SUPPORTED]; int faceDetectionNumFacesLastOutput; //Geo-tagging EXIFData mEXIFData; //Image post-processing IPPMode mIPP; //jpeg Picture Quality unsigned int mPictureQuality; //thumbnail resolution unsigned int mThumbWidth, mThumbHeight; //thumbnail quality unsigned int mThumbQuality; //variables holding the estimated framerate float mFPS, mLastFPS; //automatically disable AF after a given amount of frames unsigned int mFocusThreshold; //This is needed for the CTS tests. They falsely assume, that during //smooth zoom the current zoom stage will not change within the //zoom callback scope, which in a real world situation is not always the //case. This variable will "simulate" the expected behavior unsigned int mZoomParameterIdx; //current zoom Mutex mZoomLock; unsigned int mCurrentZoomIdx, mTargetZoomIdx, mPreviousZoomIndx; bool mZoomUpdating, mZoomUpdate; int mZoomInc; bool mReturnZoomStatus; static const int32_t ZOOM_STEPS []; //local copy OMX_VERSIONTYPE mLocalVersionParam; unsigned int mPending3Asettings; Mutex m3ASettingsUpdateLock; Gen3A_settings mParameters3A; const char *mPictureFormatFromClient; OMX_TI_CONFIG_3A_FACE_PRIORITY mFacePriority; OMX_TI_CONFIG_3A_REGION_PRIORITY mRegionPriority; CameraParameters mParams; CameraProperties::Properties* mCapabilities; unsigned int mPictureRotation; bool mWaitingForSnapshot; int mSnapshotCount; bool mCaptureConfigured; unsigned int mPendingCaptureSettings; OMX_TI_ANCILLARYDATATYPE* mCaptureAncillaryData; OMX_TI_WHITEBALANCERESULTTYPE* mWhiteBalanceData; //Temporal bracketing management data mutable Mutex mBracketingLock; bool *mBracketingBuffersQueued; int mBracketingBuffersQueuedCount; int mLastBracetingBufferIdx; bool mBracketingEnabled; int mBracketingRange; bool mIternalRecordingHint; CameraParameters mParameters; bool mOmxInitialized; OMXCameraAdapterComponentContext mCameraAdapterParameters; bool mFirstTimeInit; ///Semaphores used internally Semaphore mInitSem; Semaphore mFlushSem; Semaphore mUsePreviewDataSem; Semaphore mUsePreviewSem; Semaphore mUseCaptureSem; Semaphore mStartPreviewSem; Semaphore mStopPreviewSem; Semaphore mStartCaptureSem; Semaphore mStopCaptureSem; Semaphore mSwitchToLoadedSem; Semaphore mSwitchToExecSem; mutable Mutex mStateSwitchLock; Vector<struct TIUTILS::Message *> mEventSignalQ; Mutex mEventLock; OMX_STATETYPE mComponentState; bool mVnfEnabled; bool mVstabEnabled; int mSensorOrientation; int mDeviceOrientation; bool mSensorOverclock; //Indicates if we should leave //OMX_Executing state during //stop-/startPreview bool mOMXStateSwitch; int mFrameCount; int mLastFrameCount; unsigned int mIter; nsecs_t mLastFPSTime; Mutex mFrameCountMutex; Condition mFirstFrameCondition; Mutex mDoAFMutex; Condition mDoAFCond; size_t mSensorIndex; CodingMode mCodingMode; // Time source delta of ducati & system time OMX_TICKS mTimeSourceDelta; bool onlyOnce; Semaphore mCaptureSem; bool mCaptureSignalled; OMX_BOOL mUserSetExpLock; OMX_BOOL mUserSetWbLock; }; }; //// namespace #endif //OMX_CAMERA_ADAPTER_H