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ara-mdk / platform / hardware / ti / omap4xxx / 6e034e72e637fc8b1c0958f3cc0329e32b131d25 / . / test / CameraHal / camera_test_menu.cpp
blob: 8f3ae508f97c9e2e0f8ea8e5e2b3b6c74a54fb19 [file] [log] [blame]
#include <stdlib.h>
#include <unistd.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <time.h>
#include <semaphore.h>
#include <pthread.h>
#include <gui/Surface.h>
#include <gui/SurfaceComposerClient.h>
#include <camera/Camera.h>
#include <camera/ICamera.h>
#include <media/mediarecorder.h>
#include <binder/IPCThreadState.h>
#include <binder/ProcessState.h>
#include <binder/IServiceManager.h>
#include <cutils/properties.h>
#include <camera/CameraParameters.h>
#include <system/audio.h>
#include <system/camera.h>
#include <cutils/memory.h>
#include <utils/Log.h>
#include <sys/wait.h>
#include "camera_test.h"
using namespace android;
int camera_index = 0;
int print_menu;
sp<Camera> camera;
sp<MediaRecorder> recorder;
sp<SurfaceComposerClient> client;
sp<SurfaceControl> surfaceControl;
sp<Surface> previewSurface;
CameraParameters params;
float compensation = 0.0;
double latitude = 0.0;
double longitude = 0.0;
double degree_by_step = 17.5609756;//..0975609756097;
double altitude = 0.0;
int awb_mode = 0;
int effects_mode = 0;
int scene_mode = 0;
int caf_mode = 0;
int vnf_mode = 0;
int vstab_mode = 0;
int tempBracketRange = 1;
int tempBracketIdx = 0;
int measurementIdx = 0;
int expBracketIdx = 0;
int AutoConvergenceModeIDX = 0;
int ManualConvergenceValuesIDX = 0;
int ManualConvergenceDefaultValueIDX = 2;
int gbceIDX = 0;
int glbceIDX = 0;
int rotation = 0;
bool reSizePreview = true;
bool hardwareActive = false;
bool recordingMode = false;
bool previewRunning = false;
int saturation = 0;
int zoomIDX = 0;
int videoCodecIDX = 0;
int audioCodecIDX = 0;
int outputFormatIDX = 0;
int contrast = 0;
int brightness = 0;
unsigned int burst = 0;
int sharpness = 0;
int iso_mode = 0;
int capture_mode = 0;
int exposure_mode = 0;
int ippIDX = 0;
int ippIDX_old = 0;
int previewFormat = 0;
int jpegQuality = 85;
int thumbQuality = 85;
int flashIdx = 0;
int fpsRangeIdx = 0;
timeval autofocus_start, picture_start;
char script_name[80];
int prevcnt = 0;
int videoFd = -1;
int elockidx = 0;
int wblockidx = 0;
char dir_path[80] = SDCARD_PATH;
const char *cameras[] = {"Primary Camera", "Secondary Camera 1", "Stereo Camera", "USB Camera", "Fake Camera"};
const char *measurement[] = {"disable", "enable"};
const char *expBracketing[] = {"disable", "enable"};
const char *expBracketingRange[] = {"", "-30,0,30,0,-30"};
const char *tempBracketing[] = {"disable", "enable"};
const char *faceDetection[] = {"disable", "enable"};
const char *lock[] = {"false", "true"};
#if defined(OMAP_ENHANCEMENT) && defined(TARGET_OMAP3)
const char *ipp_mode[] = { "off", "Chroma Suppression", "Edge Enhancement" };
#else
const char *ipp_mode[] = { "off", "ldc", "nsf", "ldc-nsf" };
#endif
const char *iso [] = { "auto", "100", "200", "400", "800", "1200", "1600"};
const char *effects [] = {
#if defined(OMAP_ENHANCEMENT) && defined(TARGET_OMAP3)
"none",
"mono",
"negative",
"solarize",
"sepia",
"whiteboard",
"blackboard",
"cool",
"emboss"
#else
"none",
"mono",
"negative",
"solarize",
"sepia",
"vivid",
"whiteboard",
"blackboard",
"cool",
"emboss",
"blackwhite",
"aqua",
"posterize"
#endif
};
const char CameraParameters::FLASH_MODE_OFF[] = "off";
const char CameraParameters::FLASH_MODE_AUTO[] = "auto";
const char CameraParameters::FLASH_MODE_ON[] = "on";
const char CameraParameters::FLASH_MODE_RED_EYE[] = "red-eye";
const char CameraParameters::FLASH_MODE_TORCH[] = "torch";
const char *flashModes[] = {
"off",
"auto",
"on",
"red-eye",
"torch",
"fill-in",
};
const char *caf [] = { "Off", "On" };
const char *vnf [] = { "Off", "On" };
const char *vstab [] = { "Off", "On" };
const char *scene [] = {
#if defined(OMAP_ENHANCEMENT) && defined(TARGET_OMAP3)
"auto",
"portrait",
"landscape",
"night",
"night-portrait",
"fireworks",
"snow",
"action",
#else
"auto",
"portrait",
"landscape",
"night",
"night-portrait",
"night-indoor",
"fireworks",
"sport",
"cine",
"beach",
"snow",
"mood",
"closeup",
"underwater",
"document",
"barcode",
"oldfilm",
"candlelight",
"party",
"steadyphoto",
"sunset",
"action",
"theatre"
#endif
};
const char *strawb_mode[] = {
"auto",
"incandescent",
"fluorescent",
"daylight",
"horizon",
"shadow",
"tungsten",
"shade",
"twilight",
"warm-fluorescent",
"facepriority",
"sunset"
};
size_t length_cam = ARRAY_SIZE(cameras);
preview_size previewSize [] = {
{ 0, 0, "NULL"},
{ 128, 96, "SQCIF" },
{ 176, 144, "QCIF" },
{ 352, 288, "CIF" },
{ 320, 240, "QVGA" },
{ 352, 288, "CIF" },
{ 640, 480, "VGA" },
{ 720, 480, "NTSC" },
{ 720, 576, "PAL" },
{ 800, 480, "WVGA" },
{ 848, 480, "WVGA2"},
{ 864, 480, "WVGA3"},
{ 992, 560, "WVGA4"},
{ 1280, 720, "HD" },
{ 1920, 1080, "FULLHD"},
};
size_t length_previewSize = ARRAY_SIZE(previewSize);
Vcapture_size VcaptureSize [] = {
{ 128, 96, "SQCIF" },
{ 176, 144, "QCIF" },
{ 352, 288, "CIF" },
{ 320, 240, "QVGA" },
{ 640, 480, "VGA" },
{ 704, 480, "TVNTSC" },
{ 704, 576, "TVPAL" },
{ 720, 480, "D1NTSC" },
{ 720, 576, "D1PAL" },
{ 800, 480, "WVGA" },
#if defined(OMAP_ENHANCEMENT) && defined(TARGET_OMAP3)
{ 848, 480, "WVGA2"},
{ 864, 480, "WVGA3"},
{ 992, 560, "WVGA4"},
#endif
{ 1280, 720, "HD" },
{ 1920, 1080, "FULLHD"},
};
size_t lenght_Vcapture_size = ARRAY_SIZE(VcaptureSize);
capture_Size captureSize[] = {
{ 320, 240, "QVGA" },
{ 640, 480, "VGA" },
{ 800, 600, "SVGA" },
{ 1152, 864, "1MP" },
{ 1280, 1024, "1.3MP" },
{ 1600, 1200, "2MP" },
{ 2048, 1536, "3MP" },
{ 2592, 1944, "5MP" },
{ 2608, 1960, "5MP" },
{ 3264, 2448, "8MP" },
{ 3648, 2736, "10MP"},
{ 4032, 3024, "12MP"},
};
size_t length_capture_Size = ARRAY_SIZE(captureSize);
outformat outputFormat[] = {
{ OUTPUT_FORMAT_THREE_GPP, "3gp" },
{ OUTPUT_FORMAT_MPEG_4, "mp4" },
};
size_t length_outformat = ARRAY_SIZE(outputFormat);
video_Codecs videoCodecs[] = {
{ VIDEO_ENCODER_H263, "H263" },
{ VIDEO_ENCODER_H264, "H264" },
{ VIDEO_ENCODER_MPEG_4_SP, "MPEG4"}
};
size_t length_video_Codecs = ARRAY_SIZE(videoCodecs);
audio_Codecs audioCodecs[] = {
{ AUDIO_ENCODER_AMR_NB, "AMR_NB" },
{ AUDIO_ENCODER_AMR_WB, "AMR_WB" },
{ AUDIO_ENCODER_AAC, "AAC" },
{ AUDIO_ENCODER_HE_AAC, "AAC+" },
{ AUDIO_ENCODER_LIST_END, "disabled"},
};
size_t length_audio_Codecs = ARRAY_SIZE(audioCodecs);
V_bitRate VbitRate[] = {
{ 64000, "64K" },
{ 128000, "128K" },
{ 192000, "192K" },
{ 240000, "240K" },
{ 320000, "320K" },
{ 360000, "360K" },
{ 384000, "384K" },
{ 420000, "420K" },
{ 768000, "768K" },
{ 1000000, "1M" },
{ 1500000, "1.5M" },
{ 2000000, "2M" },
{ 4000000, "4M" },
{ 6000000, "6M" },
{ 8000000, "8M" },
{ 10000000, "10M" },
};
size_t length_V_bitRate = ARRAY_SIZE(VbitRate);
Zoom zoom[] = {
{ 0, "1x" },
{ 12, "1.5x"},
{ 20, "2x" },
{ 27, "2.5x"},
{ 32, "3x" },
{ 36, "3.5x"},
{ 40, "4x" },
{ 60, "8x" },
};
size_t length_Zoom = ARRAY_SIZE(zoom);
fps_ranges fpsRanges[] = {
{ "5000,30000", "[5:30]" },
{ "5000,10000", "[5:10]" },
{ "5000,15000", "[5:15]" },
{ "5000,20000", "[5:20]" },
};
size_t length_fps_ranges = ARRAY_SIZE(fpsRanges);
fpsConst_Ranges fpsConstRanges[] = {
{ "5000,5000", "[5:5]", 5 },
{ "10000,10000", "[10:10]", 10 },
{ "15000,15000", "[15:15]", 15 },
{ "20000,20000", "[20:20]", 20 },
{ "25000,25000", "[25:25]", 25 },
{ "30000,30000", "[30:30]", 30 },
};
size_t length_fpsConst_Ranges = ARRAY_SIZE(fpsConstRanges);
fpsConst_RangesSec fpsConstRangesSec[] = {
{ "5000,5000", "[5:5]", 5 },
{ "10000,10000", "[10:10]", 10 },
{ "15000,15000", "[15:15]", 15 },
{ "20000,20000", "[20:20]", 20 },
{ "25000,25000", "[25:25]", 25 },
{ "27000,27000", "[27:27]", 27 },
};
size_t length_fpsConst_RangesSec = ARRAY_SIZE(fpsConstRangesSec);
const char *antibanding[] = {
"off",
"auto",
"50hz",
"60hz",
};
int antibanding_mode = 0;
const char *focus[] = {
"auto",
"infinity",
"macro",
"continuous-video",
"extended",
"portrait",
};
int focus_mode = 0;
pixel_format pixelformat[] = {
{ HAL_PIXEL_FORMAT_YCbCr_422_I, CameraParameters::PIXEL_FORMAT_YUV422I },
{ HAL_PIXEL_FORMAT_YCrCb_420_SP, CameraParameters::PIXEL_FORMAT_YUV420SP },
{ HAL_PIXEL_FORMAT_RGB_565, CameraParameters::PIXEL_FORMAT_RGB565 },
{ -1, CameraParameters::PIXEL_FORMAT_JPEG },
{ -1, "raw" },
};
const char *codingformat[] = {"yuv422i-yuyv", "yuv420sp", "rgb565", "jpeg", "raw", "jps", "mpo", "raw+jpeg", "raw+mpo"};
const char *gbce[] = {"disable", "enable"};
int pictureFormat = 3; // jpeg
const char *exposure[] = {"auto", "macro", "portrait", "landscape", "sports", "night", "night-portrait", "backlighting", "manual"};
const char *capture[] = { "high-performance", "high-quality", "video-mode" };
const char *autoconvergencemode[] = { "mode-disable", "mode-frame", "mode-center", "mode-fft", "mode-manual" };
const char *manualconvergencevalues[] = { "-100", "-50", "-30", "-25", "0", "25", "50", "100" };
const struct {
int fps;
} frameRate[] = {
{0},
{5},
{10},
{15},
{20},
{25},
{30}
};
int thumbSizeIDX = 3;
int previewSizeIDX = ARRAY_SIZE(previewSize) - 1;
int captureSizeIDX = ARRAY_SIZE(captureSize) - 1;
int frameRateIDX = ARRAY_SIZE(fpsConstRanges) - 1;
int frameRateIDXSec = ARRAY_SIZE(fpsConstRangesSec) - 1;
int VcaptureSizeIDX = ARRAY_SIZE(VcaptureSize) - 1;
int VbitRateIDX = ARRAY_SIZE(VbitRate) - 1;
static unsigned int recording_counter = 1;
int dump_preview = 0;
int bufferStarvationTest = 0;
bool showfps = false;
const char *metering[] = {
"center",
"average",
};
int meter_mode = 0;
bool bLogSysLinkTrace = true;
bool stressTest = false;
bool stopScript = false;
int restartCount = 0;
/** Calculate delay from a reference time */
unsigned long long timeval_delay(const timeval *ref) {
unsigned long long st, end, delay;
timeval current_time;
gettimeofday(&current_time, 0);
st = ref->tv_sec * 1000000 + ref->tv_usec;
end = current_time.tv_sec * 1000000 + current_time.tv_usec;
delay = end - st;
return delay;
}
/** Callback for takePicture() */
void my_raw_callback(const sp<IMemory>& mem) {
static int counter = 1;
unsigned char *buff = NULL;
int size;
int fd = -1;
char fn[256];
LOG_FUNCTION_NAME;
if (mem == NULL)
goto out;
//Start preview after capture.
camera->startPreview();
fn[0] = 0;
sprintf(fn, "/sdcard/img%03d.raw", counter);
fd = open(fn, O_CREAT | O_WRONLY | O_TRUNC, 0777);
if (fd < 0)
goto out;
size = mem->size();
if (size <= 0)
goto out;
buff = (unsigned char *)mem->pointer();
if (!buff)
goto out;
if (size != write(fd, buff, size))
printf("Bad Write int a %s error (%d)%s\n", fn, errno, strerror(errno));
counter++;
printf("%s: buffer=%08X, size=%d stored at %s\n",
__FUNCTION__, (int)buff, size, fn);
out:
if (fd >= 0)
close(fd);
LOG_FUNCTION_NAME_EXIT;
}
void saveFile(const sp<IMemory>& mem) {
static int counter = 1;
unsigned char *buff = NULL;
int size;
int fd = -1;
char fn[256];
LOG_FUNCTION_NAME;
if (mem == NULL)
goto out;
fn[0] = 0;
sprintf(fn, "/sdcard/preview%03d.yuv", counter);
fd = open(fn, O_CREAT | O_WRONLY | O_TRUNC, 0777);
if(fd < 0) {
ALOGE("Unable to open file %s: %s", fn, strerror(fd));
goto out;
}
size = mem->size();
if (size <= 0) {
ALOGE("IMemory object is of zero size");
goto out;
}
buff = (unsigned char *)mem->pointer();
if (!buff) {
ALOGE("Buffer pointer is invalid");
goto out;
}
if (size != write(fd, buff, size))
printf("Bad Write int a %s error (%d)%s\n", fn, errno, strerror(errno));
counter++;
printf("%s: buffer=%08X, size=%d\n",
__FUNCTION__, (int)buff, size);
out:
if (fd >= 0)
close(fd);
LOG_FUNCTION_NAME_EXIT;
}
void debugShowFPS()
{
static int mFrameCount = 0;
static int mLastFrameCount = 0;
static nsecs_t mLastFpsTime = 0;
static float mFps = 0;
mFrameCount++;
if ( ( mFrameCount % 30 ) == 0 ) {
nsecs_t now = systemTime();
nsecs_t diff = now - mLastFpsTime;
mFps = ((mFrameCount - mLastFrameCount) * float(s2ns(1))) / diff;
mLastFpsTime = now;
mLastFrameCount = mFrameCount;
printf("####### [%d] Frames, %f FPS", mFrameCount, mFps);
}
}
/** Callback for startPreview() */
void my_preview_callback(const sp<IMemory>& mem) {
printf("PREVIEW Callback 0x%x", ( unsigned int ) mem->pointer());
if (dump_preview) {
if(prevcnt==50)
saveFile(mem);
prevcnt++;
uint8_t *ptr = (uint8_t*) mem->pointer();
printf("PRV_CB: 0x%x 0x%x 0x%x 0x%x 0x%x 0x%x 0x%x 0x%x 0x%x 0x%x", ptr[0], ptr[1], ptr[2], ptr[3], ptr[4], ptr[5], ptr[6], ptr[7], ptr[8], ptr[9]);
}
debugShowFPS();
}
/** Callback for takePicture() */
void my_jpeg_callback(const sp<IMemory>& mem) {
static int counter = 1;
unsigned char *buff = NULL;
int size;
int fd = -1;
char fn[256];
LOG_FUNCTION_NAME;
//Start preview after capture.
camera->startPreview();
if (mem == NULL)
goto out;
fn[0] = 0;
sprintf(fn, "%s/img%03d.jpg", dir_path,counter);
fd = open(fn, O_CREAT | O_WRONLY | O_TRUNC, 0777);
if(fd < 0) {
ALOGE("Unable to open file %s: %s", fn, strerror(fd));
goto out;
}
size = mem->size();
if (size <= 0) {
ALOGE("IMemory object is of zero size");
goto out;
}
buff = (unsigned char *)mem->pointer();
if (!buff) {
ALOGE("Buffer pointer is invalid");
goto out;
}
if (size != write(fd, buff, size))
printf("Bad Write int a %s error (%d)%s\n", fn, errno, strerror(errno));
counter++;
printf("%s: buffer=%08X, size=%d stored at %s\n",
__FUNCTION__, (int)buff, size, fn);
out:
if (fd >= 0)
close(fd);
LOG_FUNCTION_NAME_EXIT;
}
void my_face_callback(camera_frame_metadata_t *metadata) {
int idx;
if ( NULL == metadata ) {
return;
}
for ( idx = 0 ; idx < metadata->number_of_faces ; idx++ ) {
printf("Face %d at %d,%d %d,%d \n",
idx,
metadata->faces[idx].rect[0],
metadata->faces[idx].rect[1],
metadata->faces[idx].rect[2],
metadata->faces[idx].rect[3]);
}
}
void CameraHandler::notify(int32_t msgType, int32_t ext1, int32_t ext2) {
printf("Notify cb: %d %d %d\n", msgType, ext1, ext2);
if ( msgType & CAMERA_MSG_FOCUS )
printf("AutoFocus %s in %llu us\n", (ext1) ? "OK" : "FAIL", timeval_delay(&autofocus_start));
if ( msgType & CAMERA_MSG_SHUTTER )
printf("Shutter done in %llu us\n", timeval_delay(&picture_start));
if ( msgType & CAMERA_MSG_ERROR && (ext1 == 1))
{
printf("Camera Test CAMERA_MSG_ERROR.....\n");
if (stressTest)
{
printf("Camera Test Notified of Error Restarting.....\n");
stopScript = true;
}
else
{
printf("Camera Test Notified of Error Stopping.....\n");
stopScript =false;
stopPreview();
if (recordingMode)
{
stopRecording();
closeRecorder();
recordingMode = false;
}
}
}
}
void CameraHandler::postData(int32_t msgType,
const sp<IMemory>& dataPtr,
camera_frame_metadata_t *metadata) {
printf("Data cb: %d\n", msgType);
if ( msgType & CAMERA_MSG_PREVIEW_FRAME )
my_preview_callback(dataPtr);
if ( msgType & CAMERA_MSG_RAW_IMAGE ) {
printf("RAW done in %llu us\n", timeval_delay(&picture_start));
my_raw_callback(dataPtr);
}
if (msgType & CAMERA_MSG_POSTVIEW_FRAME) {
printf("Postview frame %llu us\n", timeval_delay(&picture_start));
}
if (msgType & CAMERA_MSG_COMPRESSED_IMAGE ) {
printf("JPEG done in %llu us\n", timeval_delay(&picture_start));
my_jpeg_callback(dataPtr);
}
if ( ( msgType & CAMERA_MSG_PREVIEW_METADATA ) &&
( NULL != metadata ) ) {
printf("Face detected %d \n", metadata->number_of_faces);
my_face_callback(metadata);
}
}
void CameraHandler::postDataTimestamp(nsecs_t timestamp, int32_t msgType, const sp<IMemory>& dataPtr)
{
printf("Recording cb: %d %lld %p\n", msgType, timestamp, dataPtr.get());
static uint32_t count = 0;
//if(count==100)
//saveFile(dataPtr);
count++;
uint8_t *ptr = (uint8_t*) dataPtr->pointer();
printf("VID_CB: 0x%x 0x%x 0x%x 0x%x 0x%x 0x%x 0x%x 0x%x 0x%x 0x%x", ptr[0], ptr[1], ptr[2], ptr[3], ptr[4], ptr[5], ptr[6], ptr[7], ptr[8], ptr[9]);
camera->releaseRecordingFrame(dataPtr);
}
int createPreviewSurface(unsigned int width, unsigned int height, int32_t pixFormat) {
unsigned int previewWidth, previewHeight;
if ( MAX_PREVIEW_SURFACE_WIDTH < width ) {
previewWidth = MAX_PREVIEW_SURFACE_WIDTH;
} else {
previewWidth = width;
}
if ( MAX_PREVIEW_SURFACE_HEIGHT < height ) {
previewHeight = MAX_PREVIEW_SURFACE_HEIGHT;
} else {
previewHeight = height;
}
client = new SurfaceComposerClient();
if ( NULL == client.get() ) {
printf("Unable to establish connection to Surface Composer \n");
return -1;
}
surfaceControl = client->createSurface(0,
previewWidth,
previewHeight,
pixFormat);
previewSurface = surfaceControl->getSurface();
client->openGlobalTransaction();
surfaceControl->setLayer(0x7fffffff);
surfaceControl->setPosition(0, 0);
surfaceControl->setSize(previewWidth, previewHeight);
surfaceControl->show();
client->closeGlobalTransaction();
return 0;
}
void printSupportedParams()
{
printf("\n\r\tSupported Cameras: %s", params.get("camera-indexes"));
printf("\n\r\tSupported Picture Sizes: %s", params.get(CameraParameters::KEY_SUPPORTED_PICTURE_SIZES));
printf("\n\r\tSupported Picture Formats: %s", params.get(CameraParameters::KEY_SUPPORTED_PICTURE_FORMATS));
printf("\n\r\tSupported Preview Sizes: %s", params.get(CameraParameters::KEY_SUPPORTED_PREVIEW_SIZES));
printf("\n\r\tSupported Preview Formats: %s", params.get(CameraParameters::KEY_SUPPORTED_PREVIEW_FORMATS));
printf("\n\r\tSupported Preview Frame Rates: %s", params.get(CameraParameters::KEY_SUPPORTED_PREVIEW_FRAME_RATES));
printf("\n\r\tSupported Thumbnail Sizes: %s", params.get(CameraParameters::KEY_SUPPORTED_JPEG_THUMBNAIL_SIZES));
printf("\n\r\tSupported Whitebalance Modes: %s", params.get(CameraParameters::KEY_SUPPORTED_WHITE_BALANCE));
printf("\n\r\tSupported Effects: %s", params.get(CameraParameters::KEY_SUPPORTED_EFFECTS));
printf("\n\r\tSupported Scene Modes: %s", params.get(CameraParameters::KEY_SUPPORTED_SCENE_MODES));
printf("\n\r\tSupported Focus Modes: %s", params.get(CameraParameters::KEY_SUPPORTED_FOCUS_MODES));
printf("\n\r\tSupported Antibanding Options: %s", params.get(CameraParameters::KEY_SUPPORTED_ANTIBANDING));
printf("\n\r\tSupported Flash Modes: %s", params.get(CameraParameters::KEY_SUPPORTED_FLASH_MODES));
printf("\n\r\tSupported Focus Areas: %d", params.getInt(CameraParameters::KEY_MAX_NUM_FOCUS_AREAS));
if ( NULL != params.get(CameraParameters::KEY_FOCUS_DISTANCES) ) {
printf("\n\r\tFocus Distances: %s \n", params.get(CameraParameters::KEY_FOCUS_DISTANCES));
}
return;
}
int destroyPreviewSurface() {
if ( NULL != previewSurface.get() ) {
previewSurface.clear();
}
if ( NULL != surfaceControl.get() ) {
surfaceControl->clear();
surfaceControl.clear();
}
if ( NULL != client.get() ) {
client->dispose();
client.clear();
}
return 0;
}
int openRecorder() {
recorder = new MediaRecorder();
if ( NULL == recorder.get() ) {
printf("Error while creating MediaRecorder\n");
return -1;
}
return 0;
}
int closeRecorder() {
if ( NULL == recorder.get() ) {
printf("invalid recorder reference\n");
return -1;
}
if ( recorder->init() < 0 ) {
printf("recorder failed to initialize\n");
return -1;
}
if ( recorder->close() < 0 ) {
printf("recorder failed to close\n");
return -1;
}
if ( recorder->release() < 0 ) {
printf("error while releasing recorder\n");
return -1;
}
recorder.clear();
return 0;
}
int configureRecorder() {
char videoFile[256],vbit_string[50];
videoFd = -1;
if ( ( NULL == recorder.get() ) || ( NULL == camera.get() ) ) {
printf("invalid recorder and/or camera references\n");
return -1;
}
camera->unlock();
sprintf(vbit_string,"video-param-encoding-bitrate=%u", VbitRate[VbitRateIDX].bit_rate);
String8 bit_rate(vbit_string);
if ( recorder->setParameters(bit_rate) < 0 ) {
printf("error while configuring bit rate\n");
return -1;
}
if ( recorder->setCamera(camera->remote(), camera->getRecordingProxy()) < 0 ) {
printf("error while setting the camera\n");
return -1;
}
if ( recorder->setVideoSource(VIDEO_SOURCE_CAMERA) < 0 ) {
printf("error while configuring camera video source\n");
return -1;
}
if ( AUDIO_ENCODER_LIST_END != audioCodecs[audioCodecIDX].type ) {
if ( recorder->setAudioSource(AUDIO_SOURCE_DEFAULT) < 0 ) {
printf("error while configuring camera audio source\n");
return -1;
}
}
if ( recorder->setOutputFormat(outputFormat[outputFormatIDX].type) < 0 ) {
printf("error while configuring output format\n");
return -1;
}
if(mkdir("/mnt/sdcard/videos",0777) == -1)
printf("\n Directory --videos-- was not created \n");
sprintf(videoFile, "/mnt/sdcard/videos/video%d.%s", recording_counter,outputFormat[outputFormatIDX].desc);
videoFd = open(videoFile, O_CREAT | O_RDWR);
if(videoFd < 0){
printf("Error while creating video filename\n");
return -1;
}
if ( recorder->setOutputFile(videoFd, 0, 0) < 0 ) {
printf("error while configuring video filename\n");
return -1;
}
recording_counter++;
if (camera_index == 0) {
if ( recorder->setVideoFrameRate(fpsConstRanges[frameRateIDX].constFramerate) < 0 ) {
printf("error while configuring video framerate\n");
return -1;
}
}
else {
if ( recorder->setVideoFrameRate(fpsConstRangesSec[frameRateIDXSec].constFramerate) < 0 ) {
printf("error while configuring video framerate\n");
return -1;
}
}
if ( recorder->setVideoSize(VcaptureSize[VcaptureSizeIDX].width, VcaptureSize[VcaptureSizeIDX].height) < 0 ) {
printf("error while configuring video size\n");
return -1;
}
if ( recorder->setVideoEncoder(videoCodecs[videoCodecIDX].type) < 0 ) {
printf("error while configuring video codec\n");
return -1;
}
if ( AUDIO_ENCODER_LIST_END != audioCodecs[audioCodecIDX].type ) {
if ( recorder->setAudioEncoder(audioCodecs[audioCodecIDX].type) < 0 ) {
printf("error while configuring audio codec\n");
return -1;
}
}
if ( recorder->setPreviewSurface( surfaceControl->getSurface() ) < 0 ) {
printf("error while configuring preview surface\n");
return -1;
}
return 0;
}
int startRecording() {
if ( ( NULL == recorder.get() ) || ( NULL == camera.get() ) ) {
printf("invalid recorder and/or camera references\n");
return -1;
}
camera->unlock();
if ( recorder->prepare() < 0 ) {
printf("recorder prepare failed\n");
return -1;
}
if ( recorder->start() < 0 ) {
printf("recorder start failed\n");
return -1;
}
return 0;
}
int stopRecording() {
if ( NULL == recorder.get() ) {
printf("invalid recorder reference\n");
return -1;
}
if ( recorder->stop() < 0 ) {
printf("recorder failed to stop\n");
return -1;
}
if ( 0 < videoFd ) {
close(videoFd);
}
return 0;
}
int openCamera() {
printf("openCamera(camera_index=%d)\n", camera_index);
camera = Camera::connect(camera_index);
if ( NULL == camera.get() ) {
printf("Unable to connect to CameraService\n");
printf("Retrying... \n");
sleep(1);
camera = Camera::connect(camera_index);
if ( NULL == camera.get() ) {
printf("Giving up!! \n");
return -1;
}
}
params = camera->getParameters();
camera->setParameters(params.flatten());
camera->setListener(new CameraHandler());
hardwareActive = true;
return 0;
}
int closeCamera() {
if ( NULL == camera.get() ) {
printf("invalid camera reference\n");
return -1;
}
camera->disconnect();
camera.clear();
hardwareActive = false;
return 0;
}
int startPreview() {
int previewWidth, previewHeight;
if (reSizePreview) {
if(recordingMode)
{
previewWidth = VcaptureSize[VcaptureSizeIDX].width;
previewHeight = VcaptureSize[VcaptureSizeIDX].height;
}else
{
previewWidth = previewSize[previewSizeIDX].width;
previewHeight = previewSize[previewSizeIDX].height;
}
if ( createPreviewSurface(previewWidth,
previewHeight,
pixelformat[previewFormat].pixelFormatDesc) < 0 ) {
printf("Error while creating preview surface\n");
return -1;
}
if ( !hardwareActive ) {
openCamera();
}
params.setPreviewSize(previewWidth, previewHeight);
params.setPictureSize(captureSize[captureSizeIDX].width, captureSize[captureSizeIDX].height);
camera->setParameters(params.flatten());
camera->setPreviewDisplay(previewSurface);
if(!hardwareActive) prevcnt = 0;
camera->startPreview();
previewRunning = true;
reSizePreview = false;
}
return 0;
}
void stopPreview() {
if ( hardwareActive ) {
camera->stopPreview();
destroyPreviewSurface();
previewRunning = false;
reSizePreview = true;
closeCamera();
}
}
void initDefaults() {
camera_index = 0;
antibanding_mode = 0;
focus_mode = 0;
fpsRangeIdx = 0;
previewSizeIDX = 1; /* Default resolution set to WVGA */
captureSizeIDX = 3; /* Default capture resolution is 8MP */
frameRateIDX = ARRAY_SIZE(fpsConstRanges) - 1; /* Default frame rate is 30 FPS */
#if defined(OMAP_ENHANCEMENT) && defined(TARGET_OMAP3)
VcaptureSizeIDX = ARRAY_SIZE(VcaptureSize) - 6;/* Default video record is WVGA */
#else
VcaptureSizeIDX = ARRAY_SIZE(VcaptureSize) - 2;/* Default video record is WVGA */
#endif
VbitRateIDX = ARRAY_SIZE(VbitRate) - 4; /*Default video bit rate is 4M */
thumbSizeIDX = 0;
compensation = 0.0;
awb_mode = 0;
effects_mode = 0;
scene_mode = 0;
caf_mode = 0;
vnf_mode = 0;
vstab_mode = 0;
expBracketIdx = 0;
flashIdx = 0;
rotation = 0;
zoomIDX = 0;
videoCodecIDX = 0;
gbceIDX = 0;
glbceIDX = 0;
#ifdef TARGET_OMAP4
///Temporary fix until OMAP3 and OMAP4 3A values are synced
contrast = 90;
brightness = 50;
sharpness = 0;
saturation = 50;
#else
contrast = 100;
brightness = 100;
sharpness = 0;
saturation = 100;
#endif
iso_mode = 0;
capture_mode = 0;
exposure_mode = 0;
ippIDX = 0;//set the ipp to ldc-nsf as the capture mode is set to HQ by default
ippIDX_old = ippIDX;
jpegQuality = 85;
bufferStarvationTest = 0;
meter_mode = 0;
previewFormat = 1;
pictureFormat = 3; // jpeg
params.setPreviewSize(previewSize[previewSizeIDX].width, previewSize[previewSizeIDX].height);
params.setPictureSize(captureSize[captureSizeIDX].width, captureSize[captureSizeIDX].height);
params.set(CameraParameters::KEY_ROTATION, rotation);
params.set(KEY_COMPENSATION, (int) (compensation * 10));
params.set(params.KEY_WHITE_BALANCE, strawb_mode[awb_mode]);
params.set(KEY_MODE, (capture[capture_mode]));
params.set(params.KEY_SCENE_MODE, scene[scene_mode]);
params.set(KEY_CAF, caf_mode);
params.set(KEY_ISO, iso_mode);
params.set(KEY_GBCE, gbce[gbceIDX]);
params.set(KEY_GLBCE, gbce[glbceIDX]);
params.set(KEY_SHARPNESS, sharpness);
params.set(KEY_CONTRAST, contrast);
params.set(CameraParameters::KEY_ZOOM, zoom[zoomIDX].idx);
params.set(KEY_EXPOSURE, exposure[exposure_mode]);
params.set(KEY_BRIGHTNESS, brightness);
params.set(KEY_SATURATION, saturation);
params.set(params.KEY_EFFECT, effects[effects_mode]);
params.setPreviewFrameRate(frameRate[ARRAY_SIZE(frameRate) - 1].fps);
params.set(params.KEY_ANTIBANDING, antibanding[antibanding_mode]);
params.set(params.KEY_FOCUS_MODE, focus[focus_mode]);
params.set(KEY_IPP, ipp_mode[ippIDX]);
params.set(CameraParameters::KEY_JPEG_QUALITY, jpegQuality);
params.setPreviewFormat(pixelformat[previewFormat].pixformat);
params.setPictureFormat(codingformat[pictureFormat]);
params.set(KEY_BUFF_STARV, bufferStarvationTest); //enable buffer starvation
params.set(KEY_METERING_MODE, metering[meter_mode]);
params.set(CameraParameters::KEY_JPEG_THUMBNAIL_WIDTH, previewSize[thumbSizeIDX].width);
params.set(CameraParameters::KEY_JPEG_THUMBNAIL_HEIGHT, previewSize[thumbSizeIDX].height);
ManualConvergenceValuesIDX = ManualConvergenceDefaultValueIDX;
params.set(KEY_MANUALCONVERGENCE_VALUES, manualconvergencevalues[ManualConvergenceValuesIDX]);
params.set(KEY_S3D2D_PREVIEW_MODE, "off");
params.set(KEY_STEREO_CAMERA, "false");
params.set(KEY_EXIF_MODEL, MODEL);
params.set(KEY_EXIF_MAKE, MAKE);
}
int menu_gps() {
char ch;
char coord_str[100];
if (print_menu) {
printf("\n\n== GPS MENU ============================\n\n");
printf(" e. Latitude: %.7lf\n", latitude);
printf(" d. Longitude: %.7lf\n", longitude);
printf(" c. Altitude: %.7lf\n", altitude);
printf("\n");
printf(" q. Return to main menu\n");
printf("\n");
printf(" Choice: ");
}
ch = getchar();
printf("%c", ch);
print_menu = 1;
switch (ch) {
case 'e':
latitude += degree_by_step;
if (latitude > 90.0) {
latitude -= 180.0;
}
snprintf(coord_str, 7, "%.7lf", latitude);
params.set(params.KEY_GPS_LATITUDE, coord_str);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'd':
longitude += degree_by_step;
if (longitude > 180.0) {
longitude -= 360.0;
}
snprintf(coord_str, 7, "%.7lf", longitude);
params.set(params.KEY_GPS_LONGITUDE, coord_str);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'c':
altitude += 12345.67890123456789;
if (altitude > 100000.0) {
altitude -= 200000.0;
}
snprintf(coord_str, 100, "%.20lf", altitude);
params.set(params.KEY_GPS_ALTITUDE, coord_str);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'Q':
case 'q':
return -1;
default:
print_menu = 0;
break;
}
return 0;
}
int functional_menu() {
char ch;
if (print_menu) {
printf("\n\n=========== FUNCTIONAL TEST MENU ===================\n\n");
printf(" \n\nSTART / STOP / GENERAL SERVICES \n");
printf(" -----------------------------\n");
printf(" A Select Camera %s\n", cameras[camera_index]);
printf(" [. Resume Preview after capture\n");
printf(" 0. Reset to defaults\n");
printf(" q. Quit\n");
printf(" @. Disconnect and Reconnect to CameraService \n");
printf(" /. Enable/Disable showfps: %s\n", ((showfps)? "Enabled":"Disabled"));
printf(" a. GEO tagging settings menu\n");
printf(" E. Camera Capability Dump");
printf(" \n\n PREVIEW SUB MENU \n");
printf(" -----------------------------\n");
printf(" 1. Start Preview\n");
printf(" 2. Stop Preview\n");
printf(" ~. Preview format %s\n", pixelformat[previewFormat].pixformat);
#if defined(OMAP_ENHANCEMENT) && defined(TARGET_OMAP3)
printf(" 4. Preview size: %4d x %4d - %s\n",previewSize[previewSizeIDX].width, previewSize[previewSizeIDX].height, previewSize[previewSizeIDX].desc);
#else
printf(" 4. Preview size: %4d x %4d - %s\n",previewSize[previewSizeIDX].width, camera_index == 2 ? previewSize[previewSizeIDX].height*2 : previewSize[previewSizeIDX].height, previewSize[previewSizeIDX].desc);
#endif
printf(" R. Preview framerate range: %s\n", fpsRanges[fpsRangeIdx].rangeDescription);
printf(" &. Dump a preview frame\n");
printf(" _. Auto Convergence mode: %s\n", autoconvergencemode[AutoConvergenceModeIDX]);
printf(" ^. Manual Convergence Value: %s\n", manualconvergencevalues[ManualConvergenceValuesIDX]);
printf(" {. 2D Preview in 3D Stereo Mode: %s\n", params.get(KEY_S3D2D_PREVIEW_MODE));
printf(" \n\n IMAGE CAPTURE SUB MENU \n");
printf(" -----------------------------\n");
printf(" p. Take picture/Full Press\n");
printf(" H. Exposure Bracketing: %s\n", expBracketing[expBracketIdx]);
printf(" U. Temporal Bracketing: %s\n", tempBracketing[tempBracketIdx]);
printf(" W. Temporal Bracketing Range: [-%d;+%d]\n", tempBracketRange, tempBracketRange);
printf(" $. Picture Format: %s\n", codingformat[pictureFormat]);
printf(" 3. Picture Rotation: %3d degree\n", rotation );
printf(" 5. Picture size: %4d x %4d - %s\n",captureSize[captureSizeIDX].width, captureSize[captureSizeIDX].height, captureSize[captureSizeIDX].name);
printf(" i. ISO mode: %s\n", iso[iso_mode]);
printf(" u. Capture Mode: %s\n", capture[capture_mode]);
printf(" k. IPP Mode: %s\n", ipp_mode[ippIDX]);
printf(" K. GBCE: %s\n", gbce[gbceIDX]);
printf(" O. GLBCE %s\n", gbce[glbceIDX]);
printf(" o. Jpeg Quality: %d\n", jpegQuality);
printf(" #. Burst Images: %3d\n", burst);
printf(" :. Thumbnail Size: %4d x %4d - %s\n",previewSize[thumbSizeIDX].width, previewSize[thumbSizeIDX].height, previewSize[thumbSizeIDX].desc);
printf(" ': Thumbnail Quality %d\n", thumbQuality);
printf(" \n\n VIDEO CAPTURE SUB MENU \n");
printf(" -----------------------------\n");
printf(" 6. Start Video Recording\n");
printf(" 2. Stop Recording\n");
printf(" l. Video Capture resolution: %4d x %4d - %s\n",VcaptureSize[VcaptureSizeIDX].width,VcaptureSize[VcaptureSizeIDX].height, VcaptureSize[VcaptureSizeIDX].desc);
printf(" ]. Video Bit rate : %s\n", VbitRate[VbitRateIDX].desc);
printf(" 9. Video Codec: %s\n", videoCodecs[videoCodecIDX].desc);
printf(" D. Audio Codec: %s\n", audioCodecs[audioCodecIDX].desc);
printf(" v. Output Format: %s\n", outputFormat[outputFormatIDX].desc);
if (camera_index == 1) {
printf(" r. Framerate: %d\n", fpsConstRangesSec[frameRateIDXSec].constFramerate);
}
else {
printf(" r. Framerate: %d\n", fpsConstRanges[frameRateIDX].constFramerate);
}
printf(" *. Start Video Recording dump ( 1 raw frame ) \n");
printf(" B VNF %s \n", vnf[vnf_mode]);
printf(" C VSTAB %s", vstab[vstab_mode]);
printf(" \n\n 3A SETTING SUB MENU \n");
printf(" -----------------------------\n");
printf(" M. Measurement Data: %s\n", measurement[measurementIdx]);
printf(" F. Start face detection \n");
printf(" T. Stop face detection \n");
printf(" G. Touch/Focus area AF\n");
printf(" f. Auto Focus/Half Press\n");
printf(" J.Flash: %s\n", flashModes[flashIdx]);
printf(" 7. EV offset: %4.1f\n", compensation);
printf(" 8. AWB mode: %s\n", strawb_mode[awb_mode]);
printf(" z. Zoom %s\n", zoom[zoomIDX].zoom_description);
printf(" j. Exposure %s\n", exposure[exposure_mode]);
printf(" e. Effect: %s\n", effects[effects_mode]);
printf(" w. Scene: %s\n", scene[scene_mode]);
printf(" s. Saturation: %d\n", saturation);
printf(" c. Contrast: %d\n", contrast);
printf(" h. Sharpness: %d\n", sharpness);
printf(" b. Brightness: %d\n", brightness);
printf(" x. Antibanding: %s\n", antibanding[antibanding_mode]);
printf(" g. Focus mode: %s\n", focus[focus_mode]);
printf(" m. Metering mode: %s\n" , metering[meter_mode]);
printf(" <. Exposure Lock: %s\n", lock[elockidx]);
printf(" >. WhiteBalance Lock: %s\n",lock[wblockidx]);
printf("\n");
printf(" Choice: ");
}
ch = getchar();
printf("%c", ch);
print_menu = 1;
switch (ch) {
case '_':
AutoConvergenceModeIDX++;
AutoConvergenceModeIDX %= ARRAY_SIZE(autoconvergencemode);
params.set(KEY_AUTOCONVERGENCE, autoconvergencemode[AutoConvergenceModeIDX]);
if ( strcmp (autoconvergencemode[AutoConvergenceModeIDX], AUTOCONVERGENCE_MODE_MANUAL) == 0) {
params.set(KEY_MANUALCONVERGENCE_VALUES, manualconvergencevalues[ManualConvergenceValuesIDX]);
}
else {
params.set(KEY_MANUALCONVERGENCE_VALUES, manualconvergencevalues[ManualConvergenceDefaultValueIDX]);
ManualConvergenceValuesIDX = ManualConvergenceDefaultValueIDX;
}
camera->setParameters(params.flatten());
break;
case '^':
if ( strcmp (autoconvergencemode[AutoConvergenceModeIDX], AUTOCONVERGENCE_MODE_MANUAL) == 0) {
ManualConvergenceValuesIDX++;
ManualConvergenceValuesIDX %= ARRAY_SIZE(manualconvergencevalues);
params.set(KEY_MANUALCONVERGENCE_VALUES, manualconvergencevalues[ManualConvergenceValuesIDX]);
camera->setParameters(params.flatten());
}
break;
case 'A':
camera_index++;
camera_index %= ARRAY_SIZE(cameras);
if ( camera_index == 2) {
params.set(KEY_STEREO_CAMERA, "true");
} else {
params.set(KEY_STEREO_CAMERA, "false");
}
closeCamera();
openCamera();
if (camera_index == 0) {
params.setPreviewFrameRate(30);
} else {
params.setPreviewFrameRate(27);
}
break;
case '[':
if ( hardwareActive ) {
camera->setParameters(params.flatten());
camera->startPreview();
}
break;
case '0':
initDefaults();
break;
case '1':
if ( startPreview() < 0 ) {
printf("Error while starting preview\n");
return -1;
}
break;
case '2':
stopPreview();
if ( recordingMode ) {
camera->disconnect();
camera.clear();
stopRecording();
closeRecorder();
camera = Camera::connect(camera_index);
if ( NULL == camera.get() ) {
sleep(1);
camera = Camera::connect(camera_index);
if ( NULL == camera.get() ) {
return -1;
}
}
camera->setListener(new CameraHandler());
camera->setParameters(params.flatten());
recordingMode = false;
}
break;
case '3':
rotation += 90;
rotation %= 360;
params.set(CameraParameters::KEY_ROTATION, rotation);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case '4':
previewSizeIDX += 1;
previewSizeIDX %= ARRAY_SIZE(previewSize);
if ( NULL != params.get(KEY_STEREO_CAMERA) ) {
if ( strcmp(params.get(KEY_STEREO_CAMERA), "false") == 0 ) {
params.setPreviewSize(previewSize[previewSizeIDX].width, previewSize[previewSizeIDX].height);
} else {
params.setPreviewSize(previewSize[previewSizeIDX].width, previewSize[previewSizeIDX].height*2);
}
}
reSizePreview = true;
if ( hardwareActive && previewRunning ) {
camera->stopPreview();
camera->setParameters(params.flatten());
camera->startPreview();
} else if ( hardwareActive ) {
camera->setParameters(params.flatten());
}
break;
case '5':
captureSizeIDX += 1;
captureSizeIDX %= ARRAY_SIZE(captureSize);
params.setPictureSize(captureSize[captureSizeIDX].width, captureSize[captureSizeIDX].height);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'l':
case 'L':
VcaptureSizeIDX++;
VcaptureSizeIDX %= ARRAY_SIZE(VcaptureSize);
break;
case ']':
VbitRateIDX++;
VbitRateIDX %= ARRAY_SIZE(VbitRate);
break;
case '6':
if ( !recordingMode ) {
recordingMode = true;
if ( startPreview() < 0 ) {
printf("Error while starting preview\n");
return -1;
}
if ( openRecorder() < 0 ) {
printf("Error while openning video recorder\n");
return -1;
}
if ( configureRecorder() < 0 ) {
printf("Error while configuring video recorder\n");
return -1;
}
if ( startRecording() < 0 ) {
printf("Error while starting video recording\n");
return -1;
}
}
break;
case '7':
if ( compensation > 2.0) {
compensation = -2.0;
} else {
compensation += 0.1;
}
params.set(KEY_COMPENSATION, (int) (compensation * 10));
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case '8':
awb_mode++;
awb_mode %= ARRAY_SIZE(strawb_mode);
params.set(params.KEY_WHITE_BALANCE, strawb_mode[awb_mode]);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case '9':
videoCodecIDX++;
videoCodecIDX %= ARRAY_SIZE(videoCodecs);
break;
case '~':
previewFormat += 1;
previewFormat %= ARRAY_SIZE(pixelformat) - 1;
params.setPreviewFormat(pixelformat[previewFormat].pixformat);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case '$':
pictureFormat += 1;
if ( NULL != params.get(KEY_STEREO_CAMERA) ) {
if ( strcmp(params.get(KEY_STEREO_CAMERA), "false") == 0 && pictureFormat > 4 )
pictureFormat = 0;
}
pictureFormat %= ARRAY_SIZE(codingformat);
params.setPictureFormat(codingformat[pictureFormat]);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case '?' :
///Set mode=3 to select video mode
params.set(KEY_MODE, 3);
params.set(KEY_VNF, 1);
params.set(KEY_VSTAB, 1);
break;
case ':':
thumbSizeIDX += 1;
thumbSizeIDX %= ARRAY_SIZE(previewSize);
params.set(CameraParameters::KEY_JPEG_THUMBNAIL_WIDTH, previewSize[thumbSizeIDX].width);
params.set(CameraParameters::KEY_JPEG_THUMBNAIL_HEIGHT, previewSize[thumbSizeIDX].height);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case '\'':
if ( thumbQuality >= 100) {
thumbQuality = 0;
} else {
thumbQuality += 5;
}
params.set(CameraParameters::KEY_JPEG_THUMBNAIL_QUALITY, thumbQuality);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'B' :
vnf_mode++;
vnf_mode %= ARRAY_SIZE(vnf);
params.set(KEY_VNF, vnf_mode);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'C' :
vstab_mode++;
vstab_mode %= ARRAY_SIZE(vstab);
params.set(KEY_VSTAB, vstab_mode);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'E':
if(hardwareActive)
params.unflatten(camera->getParameters());
printSupportedParams();
break;
case '*':
if ( hardwareActive )
camera->startRecording();
break;
case 'o':
if ( jpegQuality >= 100) {
jpegQuality = 0;
} else {
jpegQuality += 5;
}
params.set(CameraParameters::KEY_JPEG_QUALITY, jpegQuality);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'M':
measurementIdx = (measurementIdx + 1)%ARRAY_SIZE(measurement);
params.set(KEY_MEASUREMENT, measurement[measurementIdx]);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'm':
{
meter_mode = (meter_mode + 1)%ARRAY_SIZE(metering);
params.set(KEY_METERING_MODE, metering[meter_mode]);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
}
case 'k':
ippIDX += 1;
ippIDX %= ARRAY_SIZE(ipp_mode);
ippIDX_old = ippIDX;
params.set(KEY_IPP, ipp_mode[ippIDX]);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'K':
gbceIDX+= 1;
gbceIDX %= ARRAY_SIZE(gbce);
params.set(KEY_GBCE, gbce[gbceIDX]);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'O':
glbceIDX+= 1;
glbceIDX %= ARRAY_SIZE(gbce);
params.set(KEY_GLBCE, gbce[glbceIDX]);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'F':
if ( hardwareActive )
camera->sendCommand(CAMERA_CMD_START_FACE_DETECTION, 0, 0);
break;
case 'T':
if ( hardwareActive )
camera->sendCommand(CAMERA_CMD_STOP_FACE_DETECTION, 0, 0);
break;
case '@':
if ( hardwareActive ) {
closeCamera();
if ( 0 >= openCamera() ) {
printf( "Reconnected to CameraService \n");
}
}
break;
case '#':
if ( burst >= MAX_BURST ) {
burst = 0;
} else {
burst += BURST_INC;
}
params.set(KEY_BURST, burst);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'J':
flashIdx++;
flashIdx %= ARRAY_SIZE(flashModes);
params.set(CameraParameters::KEY_FLASH_MODE, (flashModes[flashIdx]));
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'u':
capture_mode++;
capture_mode %= ARRAY_SIZE(capture);
// HQ should always be in ldc-nsf
// if not HQ, then return the ipp to its previous state
if( !strcmp(capture[capture_mode], "high-quality") ) {
ippIDX_old = ippIDX;
ippIDX = 3;
params.set(KEY_IPP, ipp_mode[ippIDX]);
} else {
ippIDX = ippIDX_old;
}
params.set(KEY_MODE, (capture[capture_mode]));
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'U':
tempBracketIdx++;
tempBracketIdx %= ARRAY_SIZE(tempBracketing);
params.set(KEY_TEMP_BRACKETING, tempBracketing[tempBracketIdx]);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'H':
expBracketIdx++;
expBracketIdx %= ARRAY_SIZE(expBracketing);
params.set(KEY_EXP_BRACKETING_RANGE, expBracketingRange[expBracketIdx]);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'W':
tempBracketRange++;
tempBracketRange %= TEMP_BRACKETING_MAX_RANGE;
if ( 0 == tempBracketRange ) {
tempBracketRange = 1;
}
params.set(KEY_TEMP_BRACKETING_NEG, tempBracketRange);
params.set(KEY_TEMP_BRACKETING_POS, tempBracketRange);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'w':
scene_mode++;
scene_mode %= ARRAY_SIZE(scene);
params.set(params.KEY_SCENE_MODE, scene[scene_mode]);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'i':
iso_mode++;
iso_mode %= ARRAY_SIZE(iso);
params.set(KEY_ISO, iso[iso_mode]);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'h':
if ( sharpness >= 100) {
sharpness = 0;
} else {
sharpness += 10;
}
params.set(KEY_SHARPNESS, sharpness);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'D':
{
audioCodecIDX++;
audioCodecIDX %= ARRAY_SIZE(audioCodecs);
break;
}
case 'v':
{
outputFormatIDX++;
outputFormatIDX %= ARRAY_SIZE(outputFormat);
break;
}
case 'z':
zoomIDX++;
zoomIDX %= ARRAY_SIZE(zoom);
params.set(CameraParameters::KEY_ZOOM, zoom[zoomIDX].idx);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'j':
exposure_mode++;
exposure_mode %= ARRAY_SIZE(exposure);
params.set(KEY_EXPOSURE, exposure[exposure_mode]);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'c':
if( contrast >= 200){
contrast = 0;
} else {
contrast += 10;
}
params.set(KEY_CONTRAST, contrast);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'b':
if ( brightness >= 200) {
brightness = 0;
} else {
brightness += 10;
}
params.set(KEY_BRIGHTNESS, brightness);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 's':
case 'S':
if ( saturation >= 100) {
saturation = 0;
} else {
saturation += 10;
}
params.set(KEY_SATURATION, saturation);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'e':
effects_mode++;
effects_mode %= ARRAY_SIZE(effects);
params.set(params.KEY_EFFECT, effects[effects_mode]);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'r':
if (camera_index == 0) {
frameRateIDX += 1;
frameRateIDX %= ARRAY_SIZE(fpsConstRanges);
params.set(CameraParameters::KEY_PREVIEW_FPS_RANGE, fpsConstRanges[frameRateIDX].range);
} else
{
frameRateIDXSec += 1;
frameRateIDXSec %= ARRAY_SIZE(fpsConstRangesSec);
params.set(CameraParameters::KEY_PREVIEW_FPS_RANGE, fpsConstRangesSec[frameRateIDXSec].range);
}
if ( hardwareActive ) {
camera->setParameters(params.flatten());
}
break;
case 'R':
fpsRangeIdx += 1;
fpsRangeIdx %= ARRAY_SIZE(fpsRanges);
params.set(CameraParameters::KEY_PREVIEW_FPS_RANGE, fpsRanges[fpsRangeIdx].range);
if ( hardwareActive ) {
camera->setParameters(params.flatten());
}
break;
case 'x':
antibanding_mode++;
antibanding_mode %= ARRAY_SIZE(antibanding);
params.set(params.KEY_ANTIBANDING, antibanding[antibanding_mode]);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'g':
focus_mode++;
focus_mode %= ARRAY_SIZE(focus);
params.set(params.KEY_FOCUS_MODE, focus[focus_mode]);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'G':
params.set(CameraParameters::KEY_FOCUS_AREAS, TEST_FOCUS_AREA);
if ( hardwareActive )
camera->setParameters(params.flatten());
params.remove(CameraParameters::KEY_FOCUS_AREAS);
case 'f':
gettimeofday(&autofocus_start, 0);
if ( hardwareActive )
camera->autoFocus();
break;
case 'p':
gettimeofday(&picture_start, 0);
if ( hardwareActive )
camera->takePicture(CAMERA_MSG_COMPRESSED_IMAGE|CAMERA_MSG_RAW_IMAGE);
break;
case '&':
printf("Enabling Preview Callback");
dump_preview = 1;
if ( hardwareActive )
camera->setPreviewCallbackFlags(CAMERA_FRAME_CALLBACK_FLAG_ENABLE_MASK);
break;
case '{':
if ( strcmp(params.get(KEY_S3D2D_PREVIEW_MODE), "off") == 0 )
{
params.set(KEY_S3D2D_PREVIEW_MODE, "on");
}
else
{
params.set(KEY_S3D2D_PREVIEW_MODE, "off");
}
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'a':
while (1) {
if ( menu_gps() < 0)
break;
};
break;
case 'q':
stopPreview();
return -1;
case '/':
{
if (showfps)
{
property_set("debug.image.showfps", "0");
showfps = false;
}
else
{
property_set("debug.image.showfps", "1");
showfps = true;
}
break;
}
case '<':
elockidx += 1;
elockidx %= ARRAY_SIZE(lock);
params.set(KEY_AUTO_EXPOSURE_LOCK, lock[elockidx]);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case '>':
wblockidx += 1;
wblockidx %= ARRAY_SIZE(lock);
params.set(KEY_AUTO_WHITEBALANCE_LOCK, lock[wblockidx]);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
default:
print_menu = 0;
break;
}
return 0;
}
void print_usage() {
printf(" USAGE: camera_test <param> <script>\n");
printf(" <param>\n-----------\n\n");
printf(" F or f -> Functional tests \n");
printf(" A or a -> API tests \n");
printf(" E or e -> Error scenario tests \n");
printf(" S or s -> Stress tests; with syslink trace \n");
printf(" SN or sn -> Stress tests; No syslink trace \n\n");
printf(" <script>\n----------\n");
printf("Script name (Only for stress tests)\n\n");
return;
}
int error_scenario() {
char ch;
status_t stat = NO_ERROR;
if (print_menu) {
printf(" 0. Buffer need\n");
printf(" 1. Not enough memory\n");
printf(" 2. Media server crash\n");
printf(" 3. Overlay object request\n");
printf(" 4. Pass unsupported preview&picture format\n");
printf(" 5. Pass unsupported preview&picture resolution\n");
printf(" 6. Pass unsupported preview framerate\n");
printf(" q. Quit\n");
printf(" Choice: ");
}
print_menu = 1;
ch = getchar();
printf("%c\n", ch);
switch (ch) {
case '0': {
printf("Case0:Buffer need\n");
bufferStarvationTest = 1;
params.set(KEY_BUFF_STARV, bufferStarvationTest); //enable buffer starvation
if ( !recordingMode ) {
recordingMode = true;
if ( startPreview() < 0 ) {
printf("Error while starting preview\n");
return -1;
}
if ( openRecorder() < 0 ) {
printf("Error while openning video recorder\n");
return -1;
}
if ( configureRecorder() < 0 ) {
printf("Error while configuring video recorder\n");
return -1;
}
if ( startRecording() < 0 ) {
printf("Error while starting video recording\n");
return -1;
}
}
usleep(1000000);//1s
stopPreview();
if ( recordingMode ) {
stopRecording();
closeRecorder();
recordingMode = false;
}
break;
}
case '1': {
printf("Case1:Not enough memory\n");
int* tMemoryEater = new int[999999999];
if (!tMemoryEater) {
printf("Not enough memory\n");
return -1;
} else {
delete tMemoryEater;
}
break;
}
case '2': {
printf("Case2:Media server crash\n");
//camera = Camera::connect();
if ( NULL == camera.get() ) {
printf("Unable to connect to CameraService\n");
return -1;
}
break;
}
case '3': {
printf("Case3:Overlay object request\n");
int err = 0;
err = open("/dev/video5", O_RDWR);
if (err < 0) {
printf("Could not open the camera device5: %d\n", err );
return err;
}
if ( startPreview() < 0 ) {
printf("Error while starting preview\n");
return -1;
}
usleep(1000000);//1s
stopPreview();
close(err);
break;
}
case '4': {
if ( hardwareActive ) {
params.setPictureFormat("invalid-format");
params.setPreviewFormat("invalid-format");
stat = camera->setParameters(params.flatten());
if ( NO_ERROR != stat ) {
printf("Test passed!\n");
} else {
printf("Test failed!\n");
}
initDefaults();
}
break;
}
case '5': {
if ( hardwareActive ) {
params.setPictureSize(-1, -1);
params.setPreviewSize(-1, -1);
stat = camera->setParameters(params.flatten());
if ( NO_ERROR != stat ) {
printf("Test passed!\n");
} else {
printf("Test failed!\n");
}
initDefaults();
}
break;
}
case '6': {
if ( hardwareActive ) {
params.setPreviewFrameRate(-1);
stat = camera->setParameters(params.flatten());
if ( NO_ERROR != stat ) {
printf("Test passed!\n");
} else {
printf("Test failed!\n");
}
initDefaults();
}
break;
}
case 'q': {
return -1;
}
default: {
print_menu = 0;
break;
}
}
return 0;
}
int restartCamera() {
const char dir_path_name[80] = SDCARD_PATH;
printf("+++Restarting Camera After Error+++\n");
stopPreview();
if (recordingMode) {
stopRecording();
closeRecorder();
recordingMode = false;
}
sleep(3); //Wait a bit before restarting
restartCount++;
if (strcpy(dir_path, dir_path_name) == NULL)
{
printf("Error reseting dir name");
return -1;
}
if ( openCamera() < 0 )
{
printf("+++Camera Restarted Failed+++\n");
system("echo camerahal_test > /sys/power/wake_unlock");
return -1;
}
initDefaults();
stopScript = false;
printf("+++Camera Restarted Successfully+++\n");
return 0;
}
int main(int argc, char *argv[]) {
char *cmd;
int pid;
sp<ProcessState> proc(ProcessState::self());
unsigned long long st, end, delay;
timeval current_time;
gettimeofday(&current_time, 0);
st = current_time.tv_sec * 1000000 + current_time.tv_usec;
cmd = NULL;
if ( argc < 2 ) {
printf(" Please enter atleast 1 argument\n");
print_usage();
return 0;
}
system("echo camerahal_test > /sys/power/wake_lock");
if ( argc < 3 ) {
switch (*argv[1]) {
case 'S':
case 's':
printf("This is stress / regression tests \n");
printf("Provide script file as 2nd argument\n");
break;
case 'F':
case 'f':
ProcessState::self()->startThreadPool();
if ( openCamera() < 0 ) {
printf("Camera initialization failed\n");
system("echo camerahal_test > /sys/power/wake_unlock");
return -1;
}
initDefaults();
print_menu = 1;
while ( 1 ) {
if ( functional_menu() < 0 )
break;
};
break;
case 'A':
case 'a':
printf("API level test cases coming soon ... \n");
break;
case 'E':
case 'e': {
ProcessState::self()->startThreadPool();
if ( openCamera() < 0 ) {
printf("Camera initialization failed\n");
system("echo camerahal_test > /sys/power/wake_unlock");
return -1;
}
initDefaults();
print_menu = 1;
while (1) {
if (error_scenario() < 0) {
break;
}
}
break;
}
default:
printf("INVALID OPTION USED\n");
print_usage();
break;
}
} else if ( ( argc == 3) && ( ( *argv[1] == 'S' ) || ( *argv[1] == 's') ) ) {
if((argv[1][1] == 'N') || (argv[1][1] == 'n')) {
bLogSysLinkTrace = false;
}
ProcessState::self()->startThreadPool();
if ( openCamera() < 0 ) {
printf("Camera initialization failed\n");
system("echo camerahal_test > /sys/power/wake_unlock");
return -1;
}
initDefaults();
cmd = load_script(argv[2]);
if ( cmd != NULL) {
start_logging(argv[2], pid);
stressTest = true;
while (1)
{
if ( execute_functional_script(cmd) == 0 )
{
break;
}
else
{
printf("CameraTest Restarting Camera...\n");
free(cmd);
cmd = NULL;
if ( (restartCamera() != 0) || ((cmd = load_script(argv[2])) == NULL) )
{
printf("ERROR::CameraTest Restarting Camera...\n");
break;
}
}
}
free(cmd);
stop_logging(pid);
}
} else if ( ( argc == 3) && ( ( *argv[1] == 'E' ) || ( *argv[1] == 'e') ) ) {
ProcessState::self()->startThreadPool();
if ( openCamera() < 0 ) {
printf("Camera initialization failed\n");
system("echo camerahal_test > /sys/power/wake_unlock");
return -1;
}
initDefaults();
cmd = load_script(argv[2]);
if ( cmd != NULL) {
start_logging(argv[2], pid);
execute_error_script(cmd);
free(cmd);
stop_logging(pid);
}
} else {
printf("INVALID OPTION USED\n");
print_usage();
}
gettimeofday(&current_time, 0);
end = current_time.tv_sec * 1000000 + current_time.tv_usec;
delay = end - st;
printf("Application clossed after: %llu ms\n", delay);
system("echo camerahal_test > /sys/power/wake_unlock");
return 0;
}