#include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "camera_test.h" #include "camera_test_surfacetexture.h" #ifdef ANDROID_API_JB_OR_LATER #include "camera_test_bufferqueue.h" #endif using namespace android; extern bool stopScript; extern bool hardwareActive; extern sp camera; extern sp bufferSourceOutputThread; extern sp bufferSourceInput; extern CameraParameters params; extern ShotParameters shotParams; extern bool shotConfigFlush; extern bool streamCapture; extern bool recordingMode; extern int camera_index; extern int rotation; extern int previewRotation; extern const param_Array captureSize[]; extern const param_Array VcaptureSize[]; extern const outformat outputFormat[]; extern const video_Codecs videoCodecs[]; extern const audio_Codecs audioCodecs[]; extern const V_bitRate VbitRate[]; 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 int numAntibanding; extern int numEffects; extern int numawb; extern int numExposureMode; extern int numscene; extern int numisoMode; extern int numflash; extern int numcaptureSize; extern int numVcaptureSize; extern int numpreviewSize; extern int numthumbnailSize; extern int numfocus; extern int numpreviewFormat; extern int numpictureFormat; extern int nummodevalues; extern int numLay; extern int numCLay; extern int constCnt; extern int rangeCnt; extern int * constFramerate; extern int frameRateIDX; extern int fpsRangeIdx; extern int stereoLayoutIDX; extern int stereoCapLayoutIDX; extern int expBracketIdx; int resol_index = 0; int a = 0; extern char * vstabstr; extern char * vnfstr; extern char * zoomstr; extern char * smoothzoomstr; extern char * videosnapshotstr; extern char ** antiband; extern char **effectss; extern bool firstTime; extern char **exposureMode; extern char **awb; extern char **scene; extern char ** isoMode; extern char ** modevalues; extern char **focus; extern char **flash; extern char **previewFormatArray; extern char **pictureFormatArray; extern char ** fps_const_str; extern char ** fps_range_str; extern char ** rangeDescription; extern param_Array ** capture_Array; extern param_Array ** Vcapture_Array; extern param_Array ** preview_Array; extern param_Array ** thumbnail_Array; 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 output_dir_path[]; extern char images_dir_path[]; extern int AutoConvergenceModeIDX; extern const char *autoconvergencemode[]; extern int numCamera; extern bool stereoMode; extern char script_name[]; extern int bufferStarvationTest; extern size_t length_previewSize; extern size_t length_thumbnailSize; 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; extern int platformID; extern char **stereoLayout; extern char **stereoCapLayout; extern void getSizeParametersFromCapabilities(); extern int exposure_mode; int manE = 0; extern int manualExp ; extern int manualExpMin ; extern int manualExpMax ; int manG = 0; extern int manualGain ; extern int manualGainMin ; extern int manualGainMax ; int manC = 0; extern int manualConv ; extern int manualConvMin ; extern int manualConvMax ; extern bool faceDetectToggle; extern unsigned int burstCount; /** Buffer source reset */ extern bool bufferSourceInputReset; extern bool bufferSourceOutputReset; void trim_script_cmd(char *cmd) { char *nl, *cr; // first remove all carriage return symbols while ( NULL != (cr = strchr(cmd, '\r'))) { for (char *c = cr; '\0' != *c; c++) { *c = *(c+1); } } // then remove all single line feed symbols while ( NULL != (nl = strchr(cmd, '\n'))) { if (*nl == *(nl+1)) { // two or more concatenated newlines: // end of script found break; } // clip the newline for (char *c = nl; '\0' != *c; c++) { *c = *(c+1); } } } 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; bool zoomtoggle = false; bool smoothzoomtoggle = false; status_t ret = NO_ERROR; //int frameR = 20; int frameRConst = 0; int frameRRange = 0; struct CameraInfo cameraInfo; bool queueEmpty = true; LOG_FUNCTION_NAME; dump_mem_status(); cmd = strtok_r((char *) script, DELIMITER, &ctx); while ( NULL != cmd && (stopScript == false)) { trim_script_cmd(cmd); 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': if ( recordingMode ) { stopRecording(); stopPreview(); closeRecorder(); camera->disconnect(); camera.clear(); 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; } else { stopPreview(); } break; case '3': rotation = atoi(cmd + 1); params.set(CameraParameters::KEY_ROTATION, rotation); if ( hardwareActive ) camera->setParameters(params.flatten()); break; case 'V': previewRotation = atoi(cmd + 1); params.set(KEY_SENSOR_ORIENTATION, previewRotation); if ( hardwareActive ) camera->setParameters(params.flatten()); break; case '4': printf("Setting resolution..."); a = checkSupportedParamScriptResol(preview_Array, numpreviewSize, cmd, &resol_index); if (a > -1) { params.setPreviewSize(preview_Array[resol_index]->width, preview_Array[resol_index]->height); previewSizeIDX = resol_index; } else { printf("\nNot supported parameter %s from sensor %d\n\n", cmd + 1, camera_index); } if ( hardwareActive && previewRunning ) { camera->stopPreview(); camera->setParameters(params.flatten()); camera->startPreview(); } else if ( hardwareActive ) { camera->setParameters(params.flatten()); } break; case '5': if( strcmp((cmd + 1), "MAX_CAPTURE_SIZE") == 0) { resol_index = 0; for (int i=0; iwidth * capture_Array[resol_index]->height) < (capture_Array[i]->width * capture_Array[i]->height)) { resol_index = i; } } if ((0 < capture_Array[resol_index]->width) && (0 < capture_Array[resol_index]->height)) { params.setPictureSize(capture_Array[resol_index]->width, capture_Array[resol_index]->height); captureSizeIDX = resol_index; printf("Capture Size set: %dx%d\n", capture_Array[resol_index]->width, capture_Array[resol_index]->height); } else { printf("\nCapture size is 0!\n"); } } else { a = checkSupportedParamScriptResol(capture_Array, numcaptureSize, cmd, &resol_index); if (camera_index != 2) { if (a > -1) { params.setPictureSize(capture_Array[resol_index]->width, capture_Array[resol_index]->height); captureSizeIDX = resol_index; } else { printf("\nNot supported parameter %s from sensor %d\n\n", cmd + 1, camera_index); } } else { int widthC, heightC; char *resC = NULL; resC = strtok(cmd + 1, "x"); widthC = atoi(resC); resC = strtok(NULL, "x"); heightC = atoi(resC); params.setPictureSize(widthC,heightC); a = checkSupportedParamScriptResol(capture_Array, numcaptureSize, widthC, heightC, &resol_index); if (a > -1) captureSizeIDX = resol_index; } if ( hardwareActive ) { camera->setParameters(params.flatten()); } } requestBufferSourceReset(); 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': a = checkSupportedParamScript(awb, numawb, cmd); if (a > -1) { params.set(params.KEY_WHITE_BALANCE, (cmd + 1)); } else { printf("\nNot supported parameter %s from sensor %d\n\n", cmd + 1, camera_index); } 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 '~': a = checkSupportedParamScript(previewFormatArray, numpreviewFormat, cmd); if (a > -1) { params.setPreviewFormat(cmd + 1); } else { printf("\nNot supported parameter %s from sensor %d\n\n", cmd + 1, camera_index); } if ( hardwareActive ) camera->setParameters(params.flatten()); break; case '$': a = checkSupportedParamScript(pictureFormatArray, numpictureFormat, cmd); if (a > -1) { params.setPictureFormat(cmd + 1); } else { printf("\nNot supported parameter %s from sensor %d\n\n", cmd + 1, camera_index); } queueEmpty = true; if ( bufferSourceOutputThread.get() ) { if ( 0 < bufferSourceOutputThread->hasBuffer() ) { queueEmpty = false; } } if ( hardwareActive && queueEmpty ) { 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 %= numCamera; printf("%s selected.\n", cameras[camera_index]); firstTime = true; if ( hardwareActive ) { stopPreview(); closeCamera(); openCamera(); } else { closeCamera(); openCamera(); } 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': a = checkSupportedParamScriptResol(Vcapture_Array, numVcaptureSize, cmd, &resol_index); if (a > -1) { VcaptureSizeIDX = resol_index; } else { printf("\nNot supported parameter %s from sensor %d\n\n", cmd + 1, camera_index); } break; case 'L': if(stereoMode) { a = checkSupportedParamScriptLayout(stereoLayout, numLay, cmd, &stereoLayoutIDX); if (a > -1) { params.set(KEY_S3D_PRV_FRAME_LAYOUT, cmd + 1); } else { printf("\nNot supported parameter %s from sensor %d\n\n", cmd + 1, camera_index); } getSizeParametersFromCapabilities(); if (hardwareActive && previewRunning) { stopPreview(); camera->setParameters(params.flatten()); startPreview(); } else if (hardwareActive) { camera->setParameters(params.flatten()); } } break; case '.': if(stereoMode) { a = checkSupportedParamScriptLayout(stereoCapLayout, numCLay, cmd, &stereoCapLayoutIDX); if (a > -1) { params.set(KEY_S3D_CAP_FRAME_LAYOUT_VALUES, cmd + 1); } else { printf("\nNot supported parameter %s from sensor %d\n\n", cmd + 1, camera_index); } getSizeParametersFromCapabilities(); if (hardwareActive && previewRunning) { stopPreview(); camera->setParameters(params.flatten()); startPreview(); } else if (hardwareActive) { camera->setParameters(params.flatten()); } } 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 ':': a = checkSupportedParamScriptResol(thumbnail_Array, numthumbnailSize, cmd, &resol_index); if (a > -1) { params.set(CameraParameters::KEY_JPEG_THUMBNAIL_WIDTH, thumbnail_Array[resol_index]->width); params.set(CameraParameters::KEY_JPEG_THUMBNAIL_HEIGHT,thumbnail_Array[resol_index]->height); thumbSizeIDX = resol_index; } else { printf("\nNot supported parameter %s from sensor %d\n\n", cmd + 1, camera_index); } 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()); requestBufferSourceReset(); 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); faceDetectToggle = true; } break; case 'I': params.set(KEY_AF_TIMEOUT, (cmd + 1)); if ( hardwareActive ) camera->setParameters(params.flatten()); break; case 'T': if ( hardwareActive ) { camera->sendCommand(CAMERA_CMD_STOP_FACE_DETECTION, 0, 0); faceDetectToggle = false; } break; 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((cmd + 1), "high-quality") ) { ippIDX_old = ippIDX; ippIDX = 3; params.set(KEY_IPP, ipp_mode[ippIDX]); params.set(CameraParameters::KEY_RECORDING_HINT, CameraParameters::FALSE); previewRotation = 0; params.set(KEY_SENSOR_ORIENTATION, previewRotation); } else if ( !strcmp((cmd + 1), "video-mode") ) { params.set(CameraParameters::KEY_RECORDING_HINT, CameraParameters::TRUE); camera->getCameraInfo(camera_index, &cameraInfo); previewRotation = ((360-cameraInfo.orientation)%360); if (previewRotation >= 0 || previewRotation <=360) { params.set(KEY_SENSOR_ORIENTATION, previewRotation); } printf("previewRotation: %d\n", previewRotation); } else { ippIDX = ippIDX_old; params.set(CameraParameters::KEY_RECORDING_HINT, CameraParameters::FALSE); previewRotation = 0; params.set(KEY_SENSOR_ORIENTATION, previewRotation); } a = checkSupportedParamScript(modevalues, nummodevalues, cmd); if (a > -1) { params.set(KEY_MODE, (cmd + 1)); } else { printf("\nNot supported parameter %s from sensor %d\n\n", cmd + 1, camera_index); } if ( hardwareActive ) { if (previewRunning) { stopPreview(); } camera->setParameters(params.flatten()); // Get parameters from capabilities for the new capture mode params = camera->getParameters(); getSizeParametersFromCapabilities(); getParametersFromCapabilities(); // Set framerate 30fps and 12MP capture resolution if available for the new capture mode. // If not available set framerate and capture mode under index 0 from fps_const_str and capture_Array. frameRateIDX = getDefaultParameter("30000,30000", constCnt, fps_const_str); captureSizeIDX = getDefaultParameterResol("12MP", numcaptureSize, capture_Array); params.set(CameraParameters::KEY_PREVIEW_FPS_RANGE, fps_const_str[frameRateIDX]); params.setPictureSize(capture_Array[captureSizeIDX]->width, capture_Array[captureSizeIDX]->height); camera->setParameters(params.flatten()); } requestBufferSourceReset(); break; case 'U': params.set(KEY_TEMP_BRACKETING, (cmd + 1)); if ( hardwareActive ) camera->setParameters(params.flatten()); break; case 'H': setDefaultExpGainPreset(shotParams, atoi(cmd + 1)); break; case 'n': switch (*(cmd + 1)) { case 0: shotConfigFlush = false; break; case 1: shotConfigFlush = true; break; default: printf ("Mangling flush shot config command: \"%s\"\n", (cmd + 1)); break; } updateShotConfigFlushParam(); break; case '?': setExpGainPreset(shotParams, cmd + 1, true, PARAM_EXP_BRACKET_PARAM_NONE, shotConfigFlush); 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_TI_BURST, atoi(cmd + 1)); burstCount = atoi(cmd + 1); if ( hardwareActive ) camera->setParameters(params.flatten()); break; case 'J': a = checkSupportedParamScript(flash, numflash, cmd); if (a > -1) { params.set(CameraParameters::KEY_FLASH_MODE, (cmd + 1)); } else { printf("\nNot supported parameter %s from sensor %d\n\n", cmd + 1, camera_index); } if ( hardwareActive ) camera->setParameters(params.flatten()); break; case 'w': a = checkSupportedParamScript(scene, numscene, cmd); if (a > -1) { params.set(params.KEY_SCENE_MODE, (cmd + 1)); } else { printf("\nNot supported parameter %s from sensor %d\n\n", cmd + 1, camera_index); } if ( hardwareActive ) camera->setParameters(params.flatten()); break; case 'B' : if(strcmp(vnfstr, "true") == 0) { if (strcmp(cmd + 1, "1") == 0) { trySetVideoNoiseFilter(true); } else if (strcmp(cmd + 1, "0") == 0){ trySetVideoNoiseFilter(false); } } else { trySetVideoNoiseFilter(false); printf("\n VNF is not supported \n\n"); } if ( hardwareActive ) { camera->setParameters(params.flatten()); } break; case 'C' : if (strcmp(vstabstr, "true") == 0) { if (strcmp(cmd + 1, "1") == 0) { trySetVideoStabilization(true); } else if (strcmp(cmd + 1, "0") == 0) { trySetVideoStabilization(false); } else { printf("\nNot supported parameter %s from sensor %d\n\n", cmd + 1, camera_index); } } else { printf("\nNot supported parameter vstab from sensor %d\n\n", camera_index); } 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); if (iso_mode < numisoMode) { params.set(KEY_ISO, isoMode[iso_mode]); } else { printf("\nNot supported parameter %s for iso mode from sensor %d\n\n", cmd + 1, camera_index); } 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': zoomtoggle = false; if(strcmp(zoomstr, "true") == 0) { for(i = 0; i < length_Zoom; i++) { if( strcmp((cmd + 1), zoom[i].zoom_description) == 0) { zoomIDX = i; zoomtoggle = true; break; } } if (!zoomtoggle) { printf("\nNot supported parameter %s from sensor %d\n\n", cmd + 1, camera_index); } params.set(CameraParameters::KEY_ZOOM, zoom[zoomIDX].idx); if ( hardwareActive ) { camera->setParameters(params.flatten()); } } case 'Z': smoothzoomtoggle = false; if(strcmp(smoothzoomstr, "true") == 0) { for(i = 0; i < length_Zoom; i++) { if( strcmp((cmd + 1), zoom[i].zoom_description) == 0) { zoomIDX = i; smoothzoomtoggle = true; break; } } if (!smoothzoomtoggle) { printf("\nNot supported parameter %s from sensor %d\n\n", cmd + 1, camera_index); } if ( hardwareActive ) { camera->sendCommand(CAMERA_CMD_START_SMOOTH_ZOOM, zoom[zoomIDX].idx, 0); } } break; case 'j': a = checkSupportedParamScript(exposureMode, numExposureMode, cmd); if (a > -1) { params.set(KEY_EXPOSURE, (cmd + 1)); } else { printf("\nNot supported parameter %s from sensor %d\n\n", cmd + 1, camera_index); } 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': a = checkSupportedParamScript(effectss, numEffects, cmd); if (a > -1) { params.set(params.KEY_EFFECT, (cmd + 1)); } else { printf("\nNot supported parameter %s from sensor %d\n\n", cmd + 1, camera_index); } if ( hardwareActive ) camera->setParameters(params.flatten()); break; case 'r': if (strcmp((cmd + 1), "MAX_FRAMERATE") == 0) { frameRConst = 0; for (int i=0; i -1) { params.set(CameraParameters::KEY_PREVIEW_FPS_RANGE, fps_const_str[frameRConst]); frameRateIDX = frameRConst; } else { printf("\nNot supported parameter %s from sensor %d\n\n", cmd + 1, camera_index); } } if ( hardwareActive && previewRunning ) { camera->stopPreview(); camera->setParameters(params.flatten()); camera->startPreview(); } else if ( hardwareActive ) { camera->setParameters(params.flatten()); } break; case 'R': a = checkSupportedParamScriptfpsRange(rangeDescription, rangeCnt, cmd, &frameRRange); if (a > -1) { params.set(CameraParameters::KEY_PREVIEW_FPS_RANGE, fps_range_str[frameRRange]); fpsRangeIdx = frameRRange; } else { printf("\nNot supported parameter %s from sensor %d\n\n", cmd + 1, camera_index); } break; case 'x': a = checkSupportedParamScript(antiband, numAntibanding, cmd); if (a > -1) { params.set(params.KEY_ANTIBANDING, (cmd + 1)); } else { printf("\nNot supported parameter %s from sensor %d\n\n", cmd + 1, camera_index); } if ( hardwareActive ) camera->setParameters(params.flatten()); break; case 'g': a = checkSupportedParamScript(focus, numfocus, cmd); if (a > -1) { params.set(params.KEY_FOCUS_MODE, (cmd + 1)); } else { printf("\nNot supported parameter %s from sensor %d\n\n", cmd + 1, camera_index); } if ( hardwareActive ) camera->setParameters(params.flatten()); break; case 'G': params.set(CameraParameters::KEY_FOCUS_AREAS, (cmd + 1)); if ( hardwareActive ) camera->setParameters(params.flatten()); break; case 'y': params.set(CameraParameters::KEY_METERING_AREAS, (cmd + 1)); if ( hardwareActive ) { camera->setParameters(params.flatten()); } break; case 'f': gettimeofday(&autofocus_start, 0); if ( hardwareActive ) camera->autoFocus(); break; case 'p': { int msgType = 0; const char *format = params.getPictureFormat(); if((0 == strcmp(modevalues[capture_mode], "video-mode")) && (0 != strcmp(videosnapshotstr, "true"))) { printf("Video Snapshot is not supported\n"); } else if ( hardwareActive ) { if((NULL != format) && isRawPixelFormat(format)) { createBufferOutputSource(); if (bufferSourceOutputThread.get()) { bufferSourceOutputThread->setBuffer(shotParams); bufferSourceOutputThread->setStreamCapture(streamCapture, expBracketIdx); } } else if(strcmp(modevalues[capture_mode], "video-mode") == 0) { msgType = CAMERA_MSG_COMPRESSED_IMAGE | CAMERA_MSG_RAW_IMAGE; #ifdef OMAP_ENHANCEMENT_BURST_CAPTURE msgType |= CAMERA_MSG_RAW_BURST; #endif } else { msgType = CAMERA_MSG_POSTVIEW_FRAME | CAMERA_MSG_RAW_IMAGE_NOTIFY | CAMERA_MSG_COMPRESSED_IMAGE | CAMERA_MSG_SHUTTER; #ifdef OMAP_ENHANCEMENT_BURST_CAPTURE msgType |= CAMERA_MSG_RAW_BURST; #endif } gettimeofday(&picture_start, 0); ret = camera->setParameters(params.flatten()); if ( ret != NO_ERROR ) { printf("Error returned while setting parameters"); break; } ret = camera->takePictureWithParameters(msgType, shotParams.flatten()); if ( ret != NO_ERROR ) { printf("Error returned while taking a picture"); break; } } break; } case 'S': { if (streamCapture) { streamCapture = false; expBracketIdx = BRACKETING_IDX_DEFAULT; setDefaultExpGainPreset(shotParams, expBracketIdx); // Stop streaming if (bufferSourceOutputThread.get()) { bufferSourceOutputThread->setStreamCapture(streamCapture, expBracketIdx); } } else { streamCapture = true; expBracketIdx = BRACKETING_IDX_STREAM; setSingleExpGainPreset(shotParams, expBracketIdx, 0, 0); // Queue more frames initially shotParams.set(ShotParameters::KEY_BURST, BRACKETING_STREAM_BUFFERS); } break; } case 'P': { int msgType = CAMERA_MSG_COMPRESSED_IMAGE; ShotParameters reprocParams; gettimeofday(&picture_start, 0); createBufferInputSource(); if (bufferSourceOutputThread.get() && bufferSourceOutputThread->hasBuffer()) { bufferSourceOutputThread->setStreamCapture(false, expBracketIdx); if (hardwareActive) camera->setParameters(params.flatten()); if (bufferSourceInput.get()) { buffer_info_t info = bufferSourceOutputThread->popBuffer(); bufferSourceInput->setInput(info, params.getPictureFormat(), reprocParams); if (hardwareActive) camera->reprocess(msgType, String8()); } } 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[384]; printf("Deleting images from %s \n", images_dir_path); if (!sprintf(rem_str, "rm %s/*.jpg", images_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_MANUAL_CONVERGENCE, manualConv); } if (hardwareActive) { camera->setParameters(params.flatten()); } break; } case '^': if (strcmp(autoconvergencemode[AutoConvergenceModeIDX], "manual") == 0) { manC = atoi(cmd + 1); if(manC >= manualConvMin && manC <= manualConvMax) { params.set(KEY_MANUAL_CONVERGENCE, manC); } else if(manC < manualConvMin) { printf(" wrong parameter for manual convergence \n"); params.set(KEY_MANUAL_CONVERGENCE, manualConvMin); } else { printf(" wrong parameter for manual convergence \n"); params.set(KEY_MANUAL_CONVERGENCE, manualConvMax); } if ( hardwareActive ) camera->setParameters(params.flatten()); } break; case 'Q': if ( strcmp (exposureMode[exposure_mode], "manual") == 0) { manE = atoi(cmd + 1); if(manE >= manualExpMin && manE <= manualExpMax) { params.set(KEY_MANUAL_EXPOSURE, manE); params.set(KEY_MANUAL_EXPOSURE_RIGHT, manE); } else if(manE < manualExpMin) { printf(" wrong parameter for manual exposure \n"); params.set(KEY_MANUAL_EXPOSURE, manualExpMin); params.set(KEY_MANUAL_EXPOSURE_RIGHT, manualExpMin); } else { printf(" wrong parameter for manual exposure \n"); params.set(KEY_MANUAL_EXPOSURE, manualExpMax); params.set(KEY_MANUAL_EXPOSURE_RIGHT, manualExpMax); } if ( hardwareActive ) camera->setParameters(params.flatten()); } break; case ',': if ( strcmp (exposureMode[exposure_mode], "manual") == 0) { manG = atoi(cmd + 1); if(manG >= manualGainMin && manG <= manualGainMax) { params.set(KEY_MANUAL_GAIN_ISO, manG); params.set(KEY_MANUAL_GAIN_ISO_RIGHT, manG); } else if(manG < manualGainMin) { printf(" wrong parameter for manual gain \n"); params.set(KEY_MANUAL_GAIN_ISO, manualGainMin); params.set(KEY_MANUAL_GAIN_ISO_RIGHT, manualGainMin); } else { printf(" wrong parameter for manual gain \n"); params.set(KEY_MANUAL_GAIN_ISO, manualGainMax); params.set(KEY_MANUAL_GAIN_ISO_RIGHT, manualGainMax); } 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; } } int checkSupportedParamScript(char **array, int size, char *param) { for (int i=0; iname) == 0) { *num = i; return 0; } } return -1; } int checkSupportedParamScriptResol(param_Array **array, int size, int width, int height, int *num) { for (int i=0; iwidth) && (height == array[i]->height)) { *num = i; return 0; } } return -1; } int checkSupportedParamScriptfpsConst(int *array, int size, char *param, int *num) { for (int i=0; i is currently being executed \n", script_name); printf("\n DIRECTORY CREATED FOR TEST RESULT IMAGES IN MMC CARD : %s \n", output_dir_path); 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 + 1); if ( NULL == script ) { printf("Unable to allocate buffer for the script\n"); return NULL; } memset(script, 0, fileSize + 1); 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(int flags, int &pid) { int status = 0; if (flags == 0) { pid = -1; return 0; } pid = fork(); if (pid == 0) { char *command_list[] = {"sh", "-c", NULL, NULL}; char log_cmd[1024]; // 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 (flags & LOGGING_LOGCAT) { if (!sprintf(log_cmd,"logcat > %s/log.txt &", output_dir_path)) { printf(" Sprintf Error"); } } /* Start Syslink Trace */ if (flags & LOGGING_SYSLINK) { if (!sprintf(log_cmd,"%s /system/bin/syslink_trace_daemon.out -l %s/syslink_trace.txt -f &", log_cmd, output_dir_path)) { 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 flags, int &pid) { if (pid > 0) { if (killpg(pid, SIGKILL)) { printf("Exit command failed"); return -1; } else { printf("\nlogging for script %s is complete\n", script_name); if (flags & LOGGING_LOGCAT) { printf(" logcat saved @ location: %s\n", output_dir_path); } if (flags & LOGGING_SYSLINK) { printf(" syslink_trace is saved @ location: %s\n\n", output_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; }