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android / platform / hardware / ti / omap4-aah / android-cts-7.1_r14 / . / test / CameraHal / camera_test.h
blob: f23ad3d7d44b6249d95e89bf010c7cfd232958f1 [file] [log] [blame]
#ifndef CAMERA_TEST_H
#define CAMERA_TEST_H
#ifdef ANDROID_API_JB_OR_LATER
#include <gui/Surface.h>
#include <gui/SurfaceComposerClient.h>
#else
#include <surfaceflinger/Surface.h>
#include <surfaceflinger/ISurface.h>
#include <surfaceflinger/ISurfaceComposer.h>
#include <surfaceflinger/ISurfaceComposerClient.h>
#include <surfaceflinger/SurfaceComposerClient.h>
#endif
#ifdef ANDROID_API_JB_OR_LATER
# define CAMHAL_LOGV ALOGV
# define CAMHAL_LOGE ALOGE
# define PRINTOVER(arg...) ALOGD(#arg)
# define LOG_FUNCTION_NAME ALOGD("%d: %s() ENTER", __LINE__, __FUNCTION__);
# define LOG_FUNCTION_NAME_EXIT ALOGD("%d: %s() EXIT", __LINE__, __FUNCTION__);
#else
# define CAMHAL_LOGV LOGV
# define CAMHAL_LOGE LOGE
# define PRINTOVER(arg...) LOGD(#arg)
# define LOG_FUNCTION_NAME LOGD("%d: %s() ENTER", __LINE__, __FUNCTION__);
# define LOG_FUNCTION_NAME_EXIT LOGD("%d: %s() EXIT", __LINE__, __FUNCTION__);
#endif
#define KEY_GBCE "gbce"
#define KEY_GLBCE "glbce"
#define KEY_CAMERA "camera-index"
#define KEY_SATURATION "saturation"
#define KEY_BRIGHTNESS "brightness"
#define KEY_TI_BURST "burst-capture"
#define KEY_EXPOSURE "exposure"
#define KEY_CONTRAST "contrast"
#define KEY_SHARPNESS "sharpness"
#define KEY_ISO "iso"
#define KEY_CAF "caf"
#define KEY_MODE "mode"
#define KEY_VNF "vnf"
#define KEY_VSTAB "vstab"
#define KEY_COMPENSATION "exposure-compensation"
#define KEY_SENSOR_ORIENTATION "sensor-orientation"
#define KEY_IPP "ipp"
#define KEY_BUFF_STARV "buff-starvation"
#define KEY_METERING_MODE "meter-mode"
#define KEY_AUTOCONVERGENCE "auto-convergence-mode"
#define KEY_MANUAL_CONVERGENCE "manual-convergence"
#define KEY_EXP_BRACKETING_RANGE "exp-bracketing-range"
#define KEY_EXP_GAIN_BRACKETING_RANGE "exp-gain-bracketing-range"
#define KEY_TEMP_BRACKETING "temporal-bracketing"
#define KEY_TEMP_BRACKETING_POS "temporal-bracketing-range-positive"
#define KEY_TEMP_BRACKETING_NEG "temporal-bracketing-range-negative"
#define KEY_MEASUREMENT "measurement"
#define KEY_S3D2D_PREVIEW_MODE "s3d2d-preview"
#define KEY_S3D_PRV_FRAME_LAYOUT "s3d-prv-frame-layout"
#define KEY_S3D_CAP_FRAME_LAYOUT "s3d-cap-frame-layout"
#define KEY_EXIF_MODEL "exif-model"
#define KEY_EXIF_MAKE "exif-make"
#define KEY_AF_TIMEOUT "af-timeout"
#define KEY_AUTO_EXPOSURE_LOCK "auto-exposure-lock"
#define KEY_AUTO_WHITEBALANCE_LOCK "auto-whitebalance-lock"
#define KEY_MECHANICAL_MISALIGNMENT_CORRECTION "mechanical-misalignment-correction"
//TI extensions for enable/disable algos
#define KEY_ALGO_FIXED_GAMMA "ti-algo-fixed-gamma"
#define KEY_ALGO_NSF1 "ti-algo-nsf1"
#define KEY_ALGO_NSF2 "ti-algo-nsf2"
#define KEY_ALGO_SHARPENING "ti-algo-sharpening"
#define KEY_ALGO_THREELINCOLORMAP "ti-algo-threelinecolormap"
#define KEY_ALGO_GIC "ti-algo-gic"
#define KEY_TAP_OUT_SURFACES "tap-out"
#define KEY_TAP_IN_SURFACE "tap-in"
#define BRACKETING_IDX_DEFAULT 0
#define BRACKETING_IDX_STREAM 1
#define BRACKETING_STREAM_BUFFERS 9
#define SDCARD_PATH "/sdcard/"
#define SECONDARY_SENSOR "_SEC"
#define S3D_SENSOR "_S3D"
#define MAX_BURST 15
#define BURST_INC 5
#define TEMP_BRACKETING_MAX_RANGE 4
#define MEDIASERVER_DUMP "procmem -w $(ps | grep mediaserver | grep -Eo '[0-9]+' | head -n 1) | grep \"\\(Name\\|libcamera.so\\|libOMX\\|libomxcameraadapter.so\\|librcm.so\\|libnotify.so\\|libipcutils.so\\|libipc.so\\|libsysmgr.so\\|TOTAL\\)\""
#define MEMORY_DUMP "procrank -u"
#define KEY_METERING_MODE "meter-mode"
#define TEST_FOCUS_AREA "(-1000,500,-500,1000,1000),(500,500,1000,1000,1)"
#define TEST_METERING_AREA "(-1000,500,-500,1000,1000),(500,500,1000,1000,1)"
#define TEST_METERING_AREA_CENTER "(-250,-250,250,250,1000)"
#define TEST_METERING_AREA_AVERAGE "(-1000,-1000,1000,1000,1000)"
#define COMPENSATION_OFFSET 20
#define DELIMITER "|"
#define MODEL "camera_test"
#define MAKE "camera_test"
#define BLAZE 0
#define BLAZE_TABLET1 1
#define BLAZE_TABLET2 2
#define MAX_LINES 80
#define MAX_SYMBOLS 65
#define ARRAY_SIZE(x) (sizeof(x) / sizeof((x)[0]))
typedef enum test_type {
TEST_TYPE_REGRESSION,
TEST_TYPE_FUNCTIONAL,
TEST_TYPE_API,
TEST_TYPE_ERROR,
} test_type_t;
typedef enum param_ExpBracketParamType_t {
PARAM_EXP_BRACKET_PARAM_NONE,
PARAM_EXP_BRACKET_PARAM_COMP,
PARAM_EXP_BRACKET_PARAM_PAIR,
} param_ExpBracketParamType;
typedef enum param_ExpBracketValueType_t {
PARAM_EXP_BRACKET_VALUE_NONE,
PARAM_EXP_BRACKET_VALUE_ABS,
PARAM_EXP_BRACKET_VALUE_REL,
} param_ExpBracketValueType;
typedef enum param_ExpBracketApplyType_t {
PARAM_EXP_BRACKET_APPLY_NONE,
PARAM_EXP_BRACKET_APPLY_ADJUST,
PARAM_EXP_BRACKET_APPLY_FORCED,
} param_ExpBracketApplyType;
enum logging {
LOGGING_LOGCAT = 0x01,
LOGGING_SYSLINK = 0x02
};
typedef struct cmd_args {
test_type_t test_type;
const char *script_file_name;
const char *output_path;
int platform_id;
int logging;
} cmd_args_t;
namespace android {
class CameraHandler: public CameraListener {
public:
virtual void notify(int32_t msgType, int32_t ext1, int32_t ext2);
virtual void postData(int32_t msgType,
const sp<IMemory>& dataPtr,
camera_frame_metadata_t *metadata);
virtual void postDataTimestamp(nsecs_t timestamp, int32_t msgType, const sp<IMemory>& dataPtr);
};
};
using namespace android;
typedef struct pixel_format_t {
int32_t pixelFormatDesc;
const char *pixformat;
}pixel_format;
typedef struct output_format_t {
output_format type;
const char *desc;
} outformat;
typedef struct Vcapture_size_t {
int width, height;
const char *desc;
} Vcapture_size;
typedef struct param_Array_t {
int width, height;
char name[60];
} param_Array;
typedef struct video_Codecs_t {
video_encoder type;
const char *desc;
} video_Codecs;
typedef struct audio_Codecs_t {
audio_encoder type;
const char *desc;
} audio_Codecs;
typedef struct V_bitRate_t {
uint32_t bit_rate;
const char *desc;
} V_bitRate;
typedef struct zoom_t {
int idx;
const char *zoom_description;
} Zoom;
typedef struct fps_ranges_t {
int rangeMin;
int rangeMax;
} fps_Array;
typedef struct buffer_info {
int size;
int width;
int height;
int format;
size_t offset;
Rect crop;
sp<GraphicBuffer> buf;
} buffer_info_t;
typedef struct param_NamedExpBracketList_t {
const char *desc;
param_ExpBracketParamType_t param_type;
param_ExpBracketValueType_t value_type;
param_ExpBracketApplyType_t apply_type;
const char *value;
} param_NamedExpBracketList;
char * get_cycle_cmd(const char *aSrc);
void trim_script_cmd(char *cmd);
int execute_functional_script(char *script);
status_t dump_mem_status();
int openCamera();
int closeCamera();
void createBufferOutputSource();
void createBufferInputSource();
void requestBufferSourceReset();
void initDefaults();
void setDefaultExpGainPreset(ShotParameters &params, int idx);
void setSingleExpGainPreset(ShotParameters &params, int idx, int exp, int gain);
void setExpGainPreset(ShotParameters &params, const char *input, bool force, param_ExpBracketParamType_t type, bool flush);
void calcNextSingleExpGainPreset(int idx, int &exp, int &gain);
void updateShotConfigFlushParam();
int startPreview();
void stopPreview();
int startRecording();
int stopRecording();
int closeRecorder();
int openRecorder();
int configureRecorder();
void printSupportedParams();
char *load_script(const char *config);
int start_logging(int flags, int &pid);
int stop_logging(int flags, int &pid);
int execute_error_script(char *script);
int getParametersFromCapabilities();
void getSizeParametersFromCapabilities();
int getDefaultParameter(const char* val, int numOptions, char **array);
int getDefaultParameterResol(const char* val, int numOptions, param_Array **array);
int getSupportedParameters(char* parameters, int* optionsCount, char ***elem);
int getSupportedParametersCaptureSize(char* parameters, int *optionsCount, param_Array array[], int arraySize);
int getSupportedParametersVideoCaptureSize(char* parameters, int *optionsCount, param_Array array[], int arraySize);
int getSupportedParametersPreviewSize(char* parameters, int *optionsCount, param_Array array[], int arraySize);
int getSupportedParametersThumbnailSize(char* parameters, int *optionsCount, param_Array array[], int arraySize);
int getSupportedParametersNames(int width, int height, param_Array array[], int arraySize);
int checkSupportedParamScript(char **array, int size, char *param);
int checkSupportedParamScriptLayout(char **array, int size, char *param,int *index);
int checkSupportedParamScriptResol(param_Array **array, int size, char *param, int *num);
int checkSupportedParamScriptResol(param_Array **array, int size, int w, int h, int *num);
int getSupportedParametersfps(char* parameters, int *optionsCount);
int checkSupportedParamScriptfpsConst(int *array, int size, char *param, int *num);
int checkSupportedParamScriptfpsRange(char **array, int size, char *param, int *num);
int trySetVideoStabilization(bool toggle);
int trySetVideoNoiseFilter(bool toggle);
int trySetAutoExposureLock(bool toggle);
int trySetAutoWhiteBalanceLock(bool toggle);
bool isRawPixelFormat (const char *format);
int deleteAllocatedMemory();
void initDefaultsSec();
const char KEY_S3D_PRV_FRAME_LAYOUT_VALUES[] = "s3d-prv-frame-layout-values";
const char KEY_S3D_CAP_FRAME_LAYOUT_VALUES[] = "s3d-cap-frame-layout-values";
const char KEY_SUPPORTED_PICTURE_TOPBOTTOM_SIZES[] = "supported-picture-topbottom-size-values";
const char KEY_SUPPORTED_PREVIEW_TOPBOTTOM_SIZES[] = "supported-preview-topbottom-size-values";
const char KEY_SUPPORTED_PICTURE_SIDEBYSIDE_SIZES[] = "supported-picture-sidebyside-size-values";
const char KEY_SUPPORTED_PREVIEW_SIDEBYSIDE_SIZES[] = "supported-preview-sidebyside-size-values";
const char KEY_SUPPORTED_PICTURE_SUBSAMPLED_SIZES[] = "supported-picture-subsampled-size-values";
const char KEY_SUPPORTED_PREVIEW_SUBSAMPLED_SIZES[] = "supported-preview-subsampled-size-values";
const char KEY_AUTOCONVERGENCE_MODE[] = "auto-convergence-mode";
const char KEY_AUTOCONVERGENCE_MODE_VALUES[] = "auto-convergence-mode-values";
const char KEY_MANUAL_EXPOSURE[] = "manual-exposure";
const char KEY_MANUAL_GAIN_ISO[] = "manual-gain-iso";
const char KEY_MANUAL_EXPOSURE_RIGHT[] = "manual-exposure-right";
const char KEY_MANUAL_GAIN_ISO_RIGHT[] = "manual-gain-iso-right";
const char KEY_SUPPORTED_MANUAL_CONVERGENCE_MIN[] = "supported-manual-convergence-min";
const char KEY_SUPPORTED_MANUAL_CONVERGENCE_MAX[] = "supported-manual-convergence-max";
const char KEY_SUPPORTED_MANUAL_CONVERGENCE_STEP[] = "supported-manual-convergence-step";
const char KEY_SUPPORTED_MANUAL_EXPOSURE_MIN[] = "supported-manual-exposure-min";
const char KEY_SUPPORTED_MANUAL_EXPOSURE_MAX[] = "supported-manual-exposure-max";
const char KEY_SUPPORTED_MANUAL_EXPOSURE_STEP[] = "supported-manual-exposure-step";
const char KEY_SUPPORTED_MANUAL_GAIN_ISO_MIN[] = "supported-manual-gain-iso-min";
const char KEY_SUPPORTED_MANUAL_GAIN_ISO_MAX[] = "supported-manual-gain-iso-max";
const char KEY_SUPPORTED_MANUAL_GAIN_ISO_STEP[] = "supported-manual-gain-iso-step";
class BufferSourceThread : public Thread {
public:
class Defer : public Thread {
private:
struct DeferContainer {
sp<GraphicBuffer> graphicBuffer;
uint8_t *mappedBuffer;
unsigned int count;
unsigned int slot;
Rect crop;
};
public:
Defer(BufferSourceThread* bst) :
Thread(false), mBST(bst), mExiting(false) { }
virtual ~Defer() {
Mutex::Autolock lock(mFrameQueueMutex);
mExiting = true;
while (!mDeferQueue.isEmpty()) {
DeferContainer defer = mDeferQueue.itemAt(0);
defer.graphicBuffer->unlock();
mDeferQueue.removeAt(0);
}
mFrameQueueCondition.signal();
}
virtual void requestExit() {
Thread::requestExit();
mExiting = true;
mFrameQueueCondition.signal();
}
virtual bool threadLoop() {
Mutex::Autolock lock(mFrameQueueMutex);
while (mDeferQueue.isEmpty() && !mExiting) {
mFrameQueueCondition.wait(mFrameQueueMutex);
}
if (!mExiting) {
DeferContainer defer = mDeferQueue.itemAt(0);
printf ("=== handling buffer %d\n", defer.count);
mBST->handleBuffer(defer.graphicBuffer, defer.mappedBuffer,
defer.count, defer.crop);
defer.graphicBuffer->unlock();
mDeferQueue.removeAt(0);
mBST->onHandled(defer.graphicBuffer, defer.slot);
return true;
}
return false;
}
void add(sp<GraphicBuffer> &gbuf, const Rect &crop,
unsigned int count, unsigned int slot = 0) {
Mutex::Autolock lock(mFrameQueueMutex);
DeferContainer defer;
defer.graphicBuffer = gbuf;
defer.count = count;
defer.slot = slot;
defer.crop = crop;
gbuf->lock(GRALLOC_USAGE_SW_READ_RARELY, (void**) &defer.mappedBuffer);
mDeferQueue.add(defer);
mFrameQueueCondition.signal();
}
private:
Vector<DeferContainer> mDeferQueue;
Mutex mFrameQueueMutex;
Condition mFrameQueueCondition;
BufferSourceThread* mBST;
bool mExiting;
};
public:
BufferSourceThread(sp<Camera> camera) :
Thread(false), mCamera(camera),
mDestroying(false), mRestartCapture(false),
mExpBracketIdx(BRACKETING_IDX_DEFAULT), mExp(0), mGain(0), mCounter(0),
kReturnedBuffersMaxCapacity(6) {
mDeferThread = new Defer(this);
mDeferThread->run();
}
virtual ~BufferSourceThread() {
mDestroying = true;
for (unsigned int i = 0; i < mReturnedBuffers.size(); i++) {
buffer_info_t info = mReturnedBuffers.itemAt(i);
mReturnedBuffers.removeAt(i);
}
mDeferThread->requestExit();
mDeferThread.clear();
}
virtual bool threadLoop() { return false;}
virtual void requestExit() {};
virtual void setBuffer(android::ShotParameters &params) {};
virtual void onHandled(sp<GraphicBuffer> &g, unsigned int slot) {};
bool setStreamCapture(bool restart, int expBracketIdx) {
Mutex::Autolock lock(mToggleStateMutex);
mExpBracketIdx = expBracketIdx;
mRestartCapture = restart;
return mRestartCapture;
}
buffer_info_t popBuffer() {
buffer_info_t buffer;
Mutex::Autolock lock(mReturnedBuffersMutex);
if (!mReturnedBuffers.isEmpty()) {
buffer = mReturnedBuffers.itemAt(0);
mReturnedBuffers.removeAt(0);
}
return buffer;
}
bool hasBuffer() {
Mutex::Autolock lock(mReturnedBuffersMutex);
return !mReturnedBuffers.isEmpty();
}
void handleBuffer(sp<GraphicBuffer> &, uint8_t *, unsigned int, const Rect &);
Rect getCrop(sp<GraphicBuffer> &buffer, const float *mtx);
void showMetadata(sp<IMemory> data);
protected:
void restartCapture() {
Mutex::Autolock lock(mToggleStateMutex);
if (mRestartCapture) {
ShotParameters shotParams;
calcNextSingleExpGainPreset(mExpBracketIdx, mExp, mGain),
setSingleExpGainPreset(shotParams, mExpBracketIdx, mExp, mGain);
shotParams.set(ShotParameters::KEY_BURST, 1);
mCamera->takePictureWithParameters(0, shotParams.flatten());
}
}
protected:
sp<Camera> mCamera;
bool mDestroying;
bool mRestartCapture;
int mExpBracketIdx;
int mExp;
int mGain;
sp<Defer> mDeferThread;
unsigned int mCounter;
private:
Vector<buffer_info_t> mReturnedBuffers;
Mutex mReturnedBuffersMutex;
Mutex mToggleStateMutex;
const unsigned int kReturnedBuffersMaxCapacity;
};
class BufferSourceInput : public RefBase {
public:
BufferSourceInput(sp<Camera> camera) : mCamera(camera) {
mTapOut = new BufferSourceThread(camera);
mTapOut->run();
}
virtual ~BufferSourceInput() {
mTapOut->requestExit();
mTapOut.clear();
}
virtual void setInput(buffer_info_t, const char *format, ShotParameters &params);
protected:
sp<BufferSourceThread> mTapOut;
sp<ANativeWindow> mWindowTapIn;
sp<Camera> mCamera;
};
#endif