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android / platform / hardware / ti / omap4xxx / refs/heads/marshmallow-release / . / test / CameraHal / camera_test_script.cpp
blob: e850abb26086d53af9febd58fe8077bb507b9d62 [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 <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 <sys/wait.h>
#include "camera_test.h"
using namespace android;
extern bool stopScript;
extern bool hardwareActive;
extern sp<Camera> camera;
extern CameraParameters params;
extern bool recordingMode;
extern int camera_index;
extern int rotation;
extern const preview_size previewSize [];
extern const Vcapture_size VcaptureSize [];
extern const capture_Size captureSize[];
extern const outformat outputFormat[];
extern const video_Codecs videoCodecs[];
extern const audio_Codecs audioCodecs[];
extern const V_bitRate VbitRate[];
extern const fps_ranges fpsRanges[];
extern const fpsConst_Ranges fpsConstRanges[];
extern const fpsConst_RangesSec fpsConstRangesSec[];
extern const Zoom zoom [];
extern int previewSizeIDX;
extern bool reSizePreview;
extern bool previewRunning;
extern int captureSizeIDX;
extern float compensation;
extern int videoCodecIDX;
extern int outputFormatIDX;
extern int audioCodecIDX;
extern int VcaptureSizeIDX;
extern int VbitRateIDX;
extern int thumbSizeIDX;
extern int thumbQuality;
extern int jpegQuality;
extern int dump_preview;
extern int ippIDX_old;
extern const char *capture[];
extern int capture_mode;
extern int ippIDX;
extern const char *ipp_mode[];
extern int tempBracketRange;
extern int iso_mode;
extern int sharpness;
extern int contrast;
extern int zoomIDX;
extern int brightness;
extern int saturation;
extern int fpsRangeIdx;
extern timeval autofocus_start, picture_start;
extern const char *cameras[];
extern double latitude;
extern double degree_by_step;
extern double longitude;
extern double altitude;
extern char dir_path[80];
extern int AutoConvergenceModeIDX;
extern const char *autoconvergencemode[];
extern const char *manualconvergencevalues[];
extern const int ManualConvergenceDefaultValueIDX;
extern size_t length_cam;
extern char script_name[];
extern int restartCount;
extern bool bLogSysLinkTrace;
extern int bufferStarvationTest;
extern size_t length_previewSize;
extern size_t lenght_Vcapture_size;
extern size_t length_outformat;
extern size_t length_capture_Size;
extern size_t length_video_Codecs;
extern size_t length_audio_Codecs;
extern size_t length_V_bitRate;
extern size_t length_Zoom;
extern size_t length_fps_ranges;
extern size_t length_fpsConst_Ranges;
extern size_t length_fpsConst_RangesSec;
static const String16 processName("camera_test");
int execute_functional_script(char *script) {
char *cmd, *ctx, *cycle_cmd, *temp_cmd;
char id;
unsigned int i;
int dly;
int cycleCounter = 1;
int tLen = 0;
unsigned int iteration = 0;
status_t ret = NO_ERROR;
int frameR = 20;
int frameRateIndex = 0;
LOG_FUNCTION_NAME;
dump_mem_status();
cmd = strtok_r((char *) script, DELIMITER, &ctx);
while ( NULL != cmd && (stopScript == false)) {
id = cmd[0];
printf("Full Command: %s \n", cmd);
printf("Command: %c \n", cmd[0]);
switch (id) {
// Case for Suspend-Resume Feature
case '!': {
// STEP 1: Mount Debugfs
system("mkdir /debug");
system("mount -t debugfs debugfs /debug");
// STEP 2: Set up wake up Timer - wake up happens after 5 seconds
system("echo 10 > /debug/pm_debug/wakeup_timer_seconds");
// STEP 3: Make system ready for Suspend
system("echo camerahal_test > /sys/power/wake_unlock");
// Release wake lock held by test app
printf(" Wake lock released ");
system("cat /sys/power/wake_lock");
system("sendevent /dev/input/event0 1 60 1");
system("sendevent /dev/input/event0 1 60 0");
// Simulate F2 key press to make display OFF
printf(" F2 event simulation complete ");
//STEP 4: Wait for system Resume and then simuate F1 key
sleep(50);//50s // This delay is not related to suspend resume timer
printf(" After 30 seconds of sleep");
system("sendevent /dev/input/event0 1 59 0");
system("sendevent /dev/input/event0 1 59 1");
// Simulate F1 key press to make display ON
system("echo camerahal_test > /sys/power/wake_lock");
// Acquire wake lock for test app
break;
}
case '[':
if ( hardwareActive )
{
camera->setParameters(params.flatten());
printf("starting camera preview..");
status_t ret = camera->startPreview();
if(ret !=NO_ERROR)
{
printf("startPreview failed %d..", ret);
}
}
break;
case '+': {
cycleCounter = atoi(cmd + 1);
cycle_cmd = get_cycle_cmd(ctx);
tLen = strlen(cycle_cmd);
temp_cmd = new char[tLen+1];
for (int ind = 0; ind < cycleCounter; ind++) {
strcpy(temp_cmd, cycle_cmd);
if ( execute_functional_script(temp_cmd) != 0 )
return -1;
temp_cmd[0] = '\0';
//patch for image capture
//[
if (ind < cycleCounter - 1) {
if (hardwareActive == false) {
if ( openCamera() < 0 ) {
printf("Camera initialization failed\n");
return -1;
}
initDefaults();
}
}
//]
}
ctx += tLen + 1;
if (temp_cmd) {
delete temp_cmd;
temp_cmd = NULL;
}
if (cycle_cmd) {
delete cycle_cmd;
cycle_cmd = NULL;
}
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,
processName,
Camera::USE_CALLING_UID);
if ( NULL == camera.get() ) {
sleep(1);
camera = Camera::connect(camera_index,
processName,
Camera::USE_CALLING_UID);
if ( NULL == camera.get() ) {
return -1;
}
}
camera->setListener(new CameraHandler());
camera->setParameters(params.flatten());
recordingMode = false;
}
break;
case '3':
rotation = atoi(cmd + 1);
params.set(CameraParameters::KEY_ROTATION, rotation);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case '4':
{
printf("Setting resolution...");
int width, height;
for(i = 0; i < length_previewSize ; i++)
{
if( strcmp((cmd + 1), previewSize[i].desc) == 0)
{
width = previewSize[i].width;
height = previewSize[i].height;
previewSizeIDX = i;
break;
}
}
if (i == length_previewSize ) //if the resolution is not in the supported ones
{
char *res = NULL;
res = strtok(cmd + 1, "x");
width = atoi(res);
res = strtok(NULL, "x");
height = atoi(res);
}
if ( NULL != params.get(KEY_STEREO_CAMERA) ) {
if ( strcmp(params.get(KEY_STEREO_CAMERA), "true") == 0 ) {
height *=2;
}
}
printf("Resolution: %d x %d\n", width, height);
params.setPreviewSize(width, height);
reSizePreview = true;
if ( hardwareActive && previewRunning ) {
camera->stopPreview();
camera->setParameters(params.flatten());
camera->startPreview();
} else if ( hardwareActive ) {
camera->setParameters(params.flatten());
}
break;
}
case '5':
for (i = 0; i < length_capture_Size; i++) {
if ( strcmp((cmd + 1), captureSize[i].name) == 0)
break;
}
if ( i < length_capture_Size ) {
params.setPictureSize(captureSize[i].width, captureSize[i].height);
captureSizeIDX = i;
}
if ( hardwareActive )
camera->setParameters(params.flatten());
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':
compensation = atof(cmd + 1);
params.set(KEY_COMPENSATION, (int) (compensation * 10));
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case '8':
params.set(params.KEY_WHITE_BALANCE, (cmd + 1));
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case '9':
for(i = 0; i < length_video_Codecs; i++)
{
if( strcmp((cmd + 1), videoCodecs[i].desc) == 0)
{
videoCodecIDX = i;
printf("Video Codec Selected: %s\n",
videoCodecs[i].desc);
break;
}
}
break;
case 'v':
for(i = 0; i < length_outformat; i++)
{
if( strcmp((cmd + 1), outputFormat[i].desc) == 0)
{
outputFormatIDX = i;
printf("Video Codec Selected: %s\n",
videoCodecs[i].desc);
break;
}
}
break;
case '~':
params.setPreviewFormat(cmd + 1);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case '$':
params.setPictureFormat(cmd + 1);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case '-':
for(i = 0; i < length_audio_Codecs; i++)
{
if( strcmp((cmd + 1), audioCodecs[i].desc) == 0)
{
audioCodecIDX = i;
printf("Selected Audio: %s\n", audioCodecs[i].desc);
break;
}
}
break;
case 'A':
camera_index=atoi(cmd+1);
// camera_index %= ARRAY_SIZE(cameras);
camera_index %= length_cam;
if ( camera_index == 2)
params.set(KEY_STEREO_CAMERA, "true");
else
params.set(KEY_STEREO_CAMERA, "false");
printf("%s selected.\n", cameras[camera_index]);
if ( hardwareActive ) {
stopPreview();
closeCamera();
openCamera();
} else {
closeCamera();
openCamera();
}
if (camera_index == 0) params.setPreviewFrameRate(30);
else params.setPreviewFrameRate(27);
break;
case 'a':
char * temp_str;
temp_str = strtok(cmd+1,"!");
printf("Latitude %s \n",temp_str);
params.set(params.KEY_GPS_LATITUDE, temp_str);
temp_str=strtok(NULL,"!");
printf("Longitude %s \n",temp_str);
params.set(params.KEY_GPS_LONGITUDE, temp_str);
temp_str=strtok(NULL,"!");
printf("Altitude %s \n",temp_str);
params.set(params.KEY_GPS_ALTITUDE, temp_str);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'l':
case 'L':
for(i = 0; i < lenght_Vcapture_size; i++)
{
if( strcmp((cmd + 1), VcaptureSize[i].desc) == 0)
{
VcaptureSizeIDX = i;
printf("Video Capture Size: %s\n", VcaptureSize[i].desc);
break;
}
}
break;
case ']':
for(i = 0; i < length_V_bitRate; i++)
{
if( strcmp((cmd + 1), VbitRate[i].desc) == 0)
{
VbitRateIDX = i;
printf("Video Bit Rate: %s\n", VbitRate[i].desc);
break;
}
}
break;
case ':':
int width, height;
for(i = 0; i < length_previewSize ; i++)
{
if( strcmp((cmd + 1), previewSize[i].desc) == 0)
{
width = previewSize[i].width;
height = previewSize[i].height;
thumbSizeIDX = i;
break;
}
}
if (i == length_previewSize ) //if the resolution is not in the supported ones
{
char *res = NULL;
res = strtok(cmd + 1, "x");
width = atoi(res);
res = strtok(NULL, "x");
height = atoi(res);
}
params.set(CameraParameters::KEY_JPEG_THUMBNAIL_WIDTH, width);
params.set(CameraParameters::KEY_JPEG_THUMBNAIL_HEIGHT, height);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case '\'':
thumbQuality = atoi(cmd + 1);
params.set(CameraParameters::KEY_JPEG_THUMBNAIL_QUALITY, thumbQuality);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case '*':
if ( hardwareActive )
camera->startRecording();
break;
case 't':
params.setPreviewFormat((cmd + 1));
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'o':
jpegQuality = atoi(cmd + 1);
params.set(CameraParameters::KEY_JPEG_QUALITY, jpegQuality);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case '&':
printf("Enabling Preview Callback");
dump_preview = 1;
camera->setPreviewCallbackFlags(CAMERA_FRAME_CALLBACK_FLAG_ENABLE_MASK);
break;
case 'k':
ippIDX_old = atoi(cmd + 1);
params.set(KEY_IPP, atoi(cmd + 1));
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'K':
params.set(KEY_GBCE, (cmd+1));
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);
case 'O':
params.set(KEY_GLBCE, (cmd+1));
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'u':
// 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, (cmd + 1));
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'U':
params.set(KEY_TEMP_BRACKETING, (cmd + 1));
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'W':
tempBracketRange = atoi(cmd + 1);
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 '#':
params.set(KEY_BURST, atoi(cmd + 1));
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'J':
params.set(CameraParameters::KEY_FLASH_MODE, (cmd+1));
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'w':
params.set(params.KEY_SCENE_MODE, (cmd + 1));
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'B' :
params.set(KEY_VNF, (cmd + 1));
if ( hardwareActive )
camera->setParameters(params.flatten());
case 'C' :
params.set(KEY_VSTAB, (cmd + 1));
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'D':
if ( hardwareActive )
camera->stopRecording();
break;
case 'E':
if(hardwareActive)
params.unflatten(camera->getParameters());
printSupportedParams();
break;
case 'i':
iso_mode = atoi(cmd + 1);
params.set(KEY_ISO, iso_mode);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'h':
sharpness = atoi(cmd + 1);
params.set(KEY_SHARPNESS, sharpness);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case '@':
if ( hardwareActive ) {
closeCamera();
if ( 0 >= openCamera() ) {
printf( "Reconnected to CameraService \n");
}
}
break;
case 'c':
contrast = atoi(cmd + 1);
params.set(KEY_CONTRAST, contrast);
if ( hardwareActive ) {
camera->setParameters(params.flatten());
}
break;
case 'z':
case 'Z':
#if defined(OMAP_ENHANCEMENT) && defined(TARGET_OMAP3)
params.set(CameraParameters::KEY_ZOOM, atoi(cmd + 1));
#else
for(i = 0; i < length_Zoom; i++)
{
if( strcmp((cmd + 1), zoom[i].zoom_description) == 0)
{
zoomIDX = i;
break;
}
}
params.set(CameraParameters::KEY_ZOOM, zoom[zoomIDX].idx);
#endif
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'j':
params.set(KEY_EXPOSURE, (cmd + 1));
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'b':
brightness = atoi(cmd + 1);
params.set(KEY_BRIGHTNESS, brightness);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 's':
saturation = atoi(cmd + 1);
params.set(KEY_SATURATION, saturation);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'e':
params.set(params.KEY_EFFECT, (cmd + 1));
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'r':
frameR = atoi(cmd + 1);
if (camera_index == 0) {
for (i = 0; i < length_fpsConst_Ranges; i++) {
if (frameR == fpsConstRanges[i].constFramerate)
frameRateIndex = i;
}
} else {
for (i = 0; i < length_fpsConst_RangesSec; i++) {
if (frameR == fpsConstRangesSec[i].constFramerate)
frameRateIndex = i;
}
}
if (camera_index == 0)
params.set(CameraParameters::KEY_PREVIEW_FPS_RANGE, fpsConstRanges[frameRateIndex].range);
else
params.set(CameraParameters::KEY_PREVIEW_FPS_RANGE, fpsConstRangesSec[frameRateIndex].range);
if ( hardwareActive && previewRunning ) {
camera->stopPreview();
camera->setParameters(params.flatten());
camera->startPreview();
} else if ( hardwareActive ) {
camera->setParameters(params.flatten());
}
break;
case 'R':
for(i = 0; i < length_fps_ranges; i++)
{
if( strcmp((cmd + 1), fpsRanges[i].rangeDescription) == 0)
{
fpsRangeIdx = i;
printf("Selected Framerate range: %s\n", fpsRanges[i].rangeDescription);
if ( hardwareActive ) {
params.set(CameraParameters::KEY_PREVIEW_FPS_RANGE, fpsRanges[i].range);
params.remove(CameraParameters::KEY_PREVIEW_FRAME_RATE);
camera->setParameters(params.flatten());
}
break;
}
}
break;
case 'x':
params.set(params.KEY_ANTIBANDING, (cmd + 1));
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'g':
params.set(params.KEY_FOCUS_MODE, (cmd + 1));
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'G':
params.set(CameraParameters::KEY_FOCUS_AREAS, (cmd + 1));
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 )
ret = camera->takePicture(CAMERA_MSG_COMPRESSED_IMAGE|CAMERA_MSG_RAW_IMAGE);
if ( ret != NO_ERROR )
printf("Error returned while taking a picture");
break;
case 'd':
dly = atoi(cmd + 1);
sleep(dly);
break;
case 'q':
dump_mem_status();
stopPreview();
if ( recordingMode ) {
stopRecording();
closeRecorder();
recordingMode = false;
}
goto exit;
case '\n':
printf("Iteration: %d \n", iteration);
iteration++;
break;
case '{':
if ( atoi(cmd + 1) > 0 )
params.set(KEY_S3D2D_PREVIEW_MODE, "on");
else
params.set(KEY_S3D2D_PREVIEW_MODE, "off");
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'M':
params.set(KEY_MEASUREMENT, (cmd + 1));
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
case 'm':
{
params.set(KEY_METERING_MODE, (cmd + 1));
if ( hardwareActive )
{
camera->setParameters(params.flatten());
}
break;
}
case '<':
{
char coord_str[8];
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 '=':
{
char coord_str[8];
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 '>':
{
char coord_str[8];
altitude += 12345.67890123456789;
if (altitude > 100000.0)
{
altitude -= 200000.0;
}
snprintf(coord_str, 7, "%.7lf", altitude);
params.set(params.KEY_GPS_ALTITUDE, coord_str);
if ( hardwareActive )
{
camera->setParameters(params.flatten());
}
break;
}
case 'X':
{
char rem_str[50];
printf("Deleting images from %s \n", dir_path);
if(!sprintf(rem_str,"rm %s/*.jpg",dir_path))
printf("Sprintf Error");
if(system(rem_str))
printf("Images were not deleted\n");
break;
}
case '_':
{
AutoConvergenceModeIDX = atoi(cmd + 1);
if ( AutoConvergenceModeIDX < 0 || AutoConvergenceModeIDX > 4 )
AutoConvergenceModeIDX = 0;
params.set(KEY_AUTOCONVERGENCE, autoconvergencemode[AutoConvergenceModeIDX]);
if ( AutoConvergenceModeIDX != 4 )
params.set(KEY_MANUALCONVERGENCE_VALUES, manualconvergencevalues[ManualConvergenceDefaultValueIDX]);
if ( hardwareActive )
camera->setParameters(params.flatten());
break;
}
case '^':
{
char strtmpval[7];
if ( strcmp (autoconvergencemode[AutoConvergenceModeIDX], AUTOCONVERGENCE_MODE_MANUAL) == 0) {
sprintf(strtmpval,"%d", atoi(cmd + 1));
params.set(KEY_MANUALCONVERGENCE_VALUES, strtmpval);
if ( hardwareActive )
camera->setParameters(params.flatten());
}
break;
}
default:
printf("Unrecognized command!\n");
break;
}
cmd = strtok_r(NULL, DELIMITER, &ctx);
}
exit:
if (stopScript == true)
{
return -1;
}
else
{
return 0;
}
}
char * get_cycle_cmd(const char *aSrc) {
unsigned ind = 0;
char *cycle_cmd = new char[256];
while ((*aSrc != '+') && (*aSrc != '\0')) {
cycle_cmd[ind++] = *aSrc++;
}
cycle_cmd[ind] = '\0';
return cycle_cmd;
}
status_t dump_mem_status() {
system(MEDIASERVER_DUMP);
return system(MEMORY_DUMP);
}
char *load_script(char *config) {
FILE *infile;
size_t fileSize;
char *script;
size_t nRead = 0;
char dir_name[40];
size_t count;
char rCount [5];
count = 0;
infile = fopen(config, "r");
strcpy(script_name,config);
// remove just the '.txt' part of the config
while((config[count] != '.') && (count < sizeof(dir_name)/sizeof(dir_name[0])))
count++;
printf("\n SCRIPT : <%s> is currently being executed \n",script_name);
if(strncpy(dir_name,config,count) == NULL)
printf("Strcpy error");
dir_name[count]=NULL;
if(strcat(dir_path,dir_name) == NULL)
printf("Strcat error");
if(restartCount)
{
sprintf(rCount,"_%d",restartCount);
if(strcat(dir_path, rCount) == NULL)
printf("Strcat error RestartCount");
}
printf("\n COMPLETE FOLDER PATH : %s \n",dir_path);
if(mkdir(dir_path,0777) == -1) {
printf("\n Directory %s was not created \n",dir_path);
} else {
printf("\n Directory %s was created \n",dir_path);
}
printf("\n DIRECTORY CREATED FOR TEST RESULT IMAGES IN MMC CARD : %s \n",dir_name);
if( (NULL == infile)){
printf("Error while opening script file %s!\n", config);
return NULL;
}
fseek(infile, 0, SEEK_END);
fileSize = ftell(infile);
fseek(infile, 0, SEEK_SET);
script = (char *) malloc(fileSize);
if ( NULL == script ) {
printf("Unable to allocate buffer for the script\n");
return NULL;
}
if ((nRead = fread(script, 1, fileSize, infile)) != fileSize) {
printf("Error while reading script file!\n");
free(script);
fclose(infile);
return NULL;
}
fclose(infile);
return script;
}
int start_logging(char *config, int &pid) {
char dir_name[40];
size_t count = 0;
int status = 0;
// remove just the '.txt' part of the config
while((config[count] != '.') && (count < sizeof(dir_name)/sizeof(dir_name[0])))
count++;
if(strncpy(dir_name,config,count) == NULL)
printf("Strcpy error");
dir_name[count]=NULL;
pid = fork();
if (pid == 0)
{
char *command_list[] = {"sh", "-c", NULL, NULL};
char log_cmd[120];
// child process to run logging
// set group id of this process to itself
// we will use this group id to kill the
// application logging
setpgid(getpid(), getpid());
/* Start logcat */
if(!sprintf(log_cmd,"logcat > /sdcard/%s/log.txt &",dir_name))
printf(" Sprintf Error");
/* Start Syslink Trace */
if(bLogSysLinkTrace) {
if(!sprintf(log_cmd,"%s /system/bin/syslink_trace_daemon.out -l /sdcard/%s/syslink_trace.txt -f &",log_cmd, dir_name))
printf(" Sprintf Error");
}
command_list[2] = (char *)log_cmd;
execvp("/system/bin/sh", command_list);
} if(pid < 0)
{
printf("failed to fork logcat\n");
return -1;
}
//wait for logging to start
if(waitpid(pid, &status, 0) != pid)
{
printf("waitpid failed in log fork\n");
return -1;
}else
printf("logging started... status=%d\n", status);
return 0;
}
int stop_logging(int &pid)
{
if(pid > 0)
{
if(killpg(pid, SIGKILL))
{
printf("Exit command failed");
return -1;
} else {
printf("\nlogging for script %s is complete\n logcat saved @ location: %s\n",script_name,dir_path);
if (bLogSysLinkTrace)
printf(" syslink_trace is saved @ location: %s\n\n",dir_path);
}
}
return 0;
}
int execute_error_script(char *script) {
char *cmd, *ctx;
char id;
status_t stat = NO_ERROR;
LOG_FUNCTION_NAME;
cmd = strtok_r((char *) script, DELIMITER, &ctx);
while ( NULL != cmd ) {
id = cmd[0];
switch (id) {
case '0': {
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': {
int* tMemoryEater = new int[999999999];
if (!tMemoryEater) {
printf("Not enough memory\n");
return -1;
} else {
delete tMemoryEater;
}
break;
}
case '2': {
//camera = Camera::connect();
if ( NULL == camera.get() ) {
printf("Unable to connect to CameraService\n");
return -1;
}
break;
}
case '3': {
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': {
goto exit;
break;
}
default: {
printf("Unrecognized command!\n");
break;
}
}
cmd = strtok_r(NULL, DELIMITER, &ctx);
}
exit:
return 0;
}