/* * Copyright (C) Texas Instruments - http://www.ti.com/ * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * @file OMX3A.cpp * * This file contains functionality for handling 3A configurations. * */ #include "CameraHal.h" #include "OMXCameraAdapter.h" #include "ErrorUtils.h" #include #define METERING_AREAS_RANGE 0xFF static const char PARAM_SEP[] = ","; namespace Ti { namespace Camera { const SceneModesEntry* OMXCameraAdapter::getSceneModeEntry(const char* name, OMX_SCENEMODETYPE scene) { const SceneModesEntry* cameraLUT = NULL; const SceneModesEntry* entry = NULL; unsigned int numEntries = 0; // 1. Find camera's scene mode LUT for (unsigned int i = 0; i < ARRAY_SIZE(CameraToSensorModesLUT); i++) { if (strcmp(CameraToSensorModesLUT[i].name, name) == 0) { cameraLUT = CameraToSensorModesLUT[i].Table; numEntries = CameraToSensorModesLUT[i].size; break; } } // 2. Find scene mode entry in table if (!cameraLUT) { goto EXIT; } for (unsigned int i = 0; i < numEntries; i++) { if(cameraLUT[i].scene == scene) { entry = cameraLUT + i; break; } } EXIT: return entry; } status_t OMXCameraAdapter::setParameters3A(const android::CameraParameters ¶ms, BaseCameraAdapter::AdapterState state) { status_t ret = NO_ERROR; int mode = 0; const char *str = NULL; int varint = 0; BaseCameraAdapter::AdapterState nextState; BaseCameraAdapter::getNextState(nextState); LOG_FUNCTION_NAME; android::AutoMutex lock(m3ASettingsUpdateLock); str = params.get(android::CameraParameters::KEY_SCENE_MODE); mode = getLUTvalue_HALtoOMX( str, SceneLUT); if ( mFirstTimeInit || ((str != NULL) && ( mParameters3A.SceneMode != mode )) ) { if ( 0 <= mode ) { mParameters3A.SceneMode = mode; if ((mode == OMX_Manual) && (mFirstTimeInit == false)){//Auto mode mFirstTimeInit = true; } if ((mode != OMX_Manual) && (state & PREVIEW_ACTIVE) && !(nextState & CAPTURE_ACTIVE)) { // if setting preset scene mode, previewing, and not in the middle of capture // set preset scene mode immediately instead of in next FBD // for feedback params to work properly since they need to be read // by application in subsequent getParameters() ret |= setScene(mParameters3A); // re-apply EV compensation after setting scene mode since it probably reset it if(mParameters3A.EVCompensation) { setEVCompensation(mParameters3A); } return ret; } else { mPending3Asettings |= SetSceneMode; } } else { mParameters3A.SceneMode = OMX_Manual; } CAMHAL_LOGVB("SceneMode %d", mParameters3A.SceneMode); } #ifdef OMAP_ENHANCEMENT if ( (str = params.get(TICameraParameters::KEY_EXPOSURE_MODE)) != NULL ) { mode = getLUTvalue_HALtoOMX(str, ExpLUT); if ( mParameters3A.Exposure != mode ) { // If either the new or the old exposure mode is manual set also // the SetManualExposure flag to call setManualExposureVal where // the auto gain and exposure flags are configured if ( mParameters3A.Exposure == OMX_ExposureControlOff || mode == OMX_ExposureControlOff ) { mPending3Asettings |= SetManualExposure; } mParameters3A.Exposure = mode; CAMHAL_LOGDB("Exposure mode %d", mode); if ( 0 <= mParameters3A.Exposure ) { mPending3Asettings |= SetExpMode; } } if ( mode == OMX_ExposureControlOff ) { mode = params.getInt(TICameraParameters::KEY_MANUAL_EXPOSURE); if ( mParameters3A.ManualExposure != mode ) { mParameters3A.ManualExposure = mode; CAMHAL_LOGDB("Manual Exposure = %d", mode); mPending3Asettings |= SetManualExposure; } mode = params.getInt(TICameraParameters::KEY_MANUAL_EXPOSURE_RIGHT); if ( mParameters3A.ManualExposureRight != mode ) { mParameters3A.ManualExposureRight = mode; CAMHAL_LOGDB("Manual Exposure right = %d", mode); mPending3Asettings |= SetManualExposure; } mode = params.getInt(TICameraParameters::KEY_MANUAL_GAIN_ISO); if ( mParameters3A.ManualGain != mode ) { mParameters3A.ManualGain = mode; CAMHAL_LOGDB("Manual Gain = %d", mode); mPending3Asettings |= SetManualExposure; } mode = params.getInt(TICameraParameters::KEY_MANUAL_GAIN_ISO_RIGHT); if ( mParameters3A.ManualGainRight != mode ) { mParameters3A.ManualGainRight = mode; CAMHAL_LOGDB("Manual Gain right = %d", mode); mPending3Asettings |= SetManualExposure; } } } #endif str = params.get(android::CameraParameters::KEY_WHITE_BALANCE); mode = getLUTvalue_HALtoOMX( str, WBalLUT); if (mFirstTimeInit || ((str != NULL) && (mode != mParameters3A.WhiteBallance))) { mParameters3A.WhiteBallance = mode; CAMHAL_LOGDB("Whitebalance mode %d", mode); if ( 0 <= mParameters3A.WhiteBallance ) { mPending3Asettings |= SetWhiteBallance; } } #ifdef OMAP_ENHANCEMENT varint = params.getInt(TICameraParameters::KEY_CONTRAST); if ( 0 <= varint ) { if ( mFirstTimeInit || ( (mParameters3A.Contrast + CONTRAST_OFFSET) != varint ) ) { mParameters3A.Contrast = varint - CONTRAST_OFFSET; CAMHAL_LOGDB("Contrast %d", mParameters3A.Contrast); mPending3Asettings |= SetContrast; } } varint = params.getInt(TICameraParameters::KEY_SHARPNESS); if ( 0 <= varint ) { if ( mFirstTimeInit || ((mParameters3A.Sharpness + SHARPNESS_OFFSET) != varint )) { mParameters3A.Sharpness = varint - SHARPNESS_OFFSET; CAMHAL_LOGDB("Sharpness %d", mParameters3A.Sharpness); mPending3Asettings |= SetSharpness; } } varint = params.getInt(TICameraParameters::KEY_SATURATION); if ( 0 <= varint ) { if ( mFirstTimeInit || ((mParameters3A.Saturation + SATURATION_OFFSET) != varint ) ) { mParameters3A.Saturation = varint - SATURATION_OFFSET; CAMHAL_LOGDB("Saturation %d", mParameters3A.Saturation); mPending3Asettings |= SetSaturation; } } varint = params.getInt(TICameraParameters::KEY_BRIGHTNESS); if ( 0 <= varint ) { if ( mFirstTimeInit || (( mParameters3A.Brightness != varint )) ) { mParameters3A.Brightness = (unsigned) varint; CAMHAL_LOGDB("Brightness %d", mParameters3A.Brightness); mPending3Asettings |= SetBrightness; } } #endif str = params.get(android::CameraParameters::KEY_ANTIBANDING); mode = getLUTvalue_HALtoOMX(str,FlickerLUT); if ( mFirstTimeInit || ( ( str != NULL ) && ( mParameters3A.Flicker != mode ) )) { mParameters3A.Flicker = mode; CAMHAL_LOGDB("Flicker %d", mParameters3A.Flicker); if ( 0 <= mParameters3A.Flicker ) { mPending3Asettings |= SetFlicker; } } #ifdef OMAP_ENHANCEMENT str = params.get(TICameraParameters::KEY_ISO); mode = getLUTvalue_HALtoOMX(str, IsoLUT); CAMHAL_LOGVB("ISO mode arrived in HAL : %s", str); if ( mFirstTimeInit || ( ( str != NULL ) && ( mParameters3A.ISO != mode )) ) { mParameters3A.ISO = mode; CAMHAL_LOGDB("ISO %d", mParameters3A.ISO); if ( 0 <= mParameters3A.ISO ) { mPending3Asettings |= SetISO; } } #endif str = params.get(android::CameraParameters::KEY_FOCUS_MODE); mode = getLUTvalue_HALtoOMX(str, FocusLUT); if ( (mFirstTimeInit || ((str != NULL) && (mParameters3A.Focus != mode)))) { mPending3Asettings |= SetFocus; mParameters3A.Focus = mode; // if focus mode is set to infinity...update focus distance immediately if (mode == OMX_IMAGE_FocusControlAutoInfinity) { updateFocusDistances(mParameters); } CAMHAL_LOGDB("Focus %x", mParameters3A.Focus); } str = params.get(android::CameraParameters::KEY_EXPOSURE_COMPENSATION); varint = params.getInt(android::CameraParameters::KEY_EXPOSURE_COMPENSATION); if ( mFirstTimeInit || (str && (mParameters3A.EVCompensation != varint))) { CAMHAL_LOGDB("Setting EV Compensation to %d", varint); mParameters3A.EVCompensation = varint; mPending3Asettings |= SetEVCompensation; } str = params.get(android::CameraParameters::KEY_FLASH_MODE); mode = getLUTvalue_HALtoOMX( str, FlashLUT); if ( mFirstTimeInit || (( str != NULL ) && ( mParameters3A.FlashMode != mode )) ) { if ( 0 <= mode ) { mParameters3A.FlashMode = mode; mPending3Asettings |= SetFlash; } else { mParameters3A.FlashMode = OMX_IMAGE_FlashControlAuto; } } CAMHAL_LOGVB("Flash Setting %s", str); CAMHAL_LOGVB("FlashMode %d", mParameters3A.FlashMode); str = params.get(android::CameraParameters::KEY_EFFECT); mode = getLUTvalue_HALtoOMX( str, EffLUT); if ( mFirstTimeInit || (( str != NULL ) && ( mParameters3A.Effect != mode )) ) { mParameters3A.Effect = mode; CAMHAL_LOGDB("Effect %d", mParameters3A.Effect); if ( 0 <= mParameters3A.Effect ) { mPending3Asettings |= SetEffect; } } str = params.get(android::CameraParameters::KEY_AUTO_EXPOSURE_LOCK_SUPPORTED); if ( (str != NULL) && (!strcmp(str, android::CameraParameters::TRUE)) ) { OMX_BOOL lock = OMX_FALSE; mUserSetExpLock = OMX_FALSE; str = params.get(android::CameraParameters::KEY_AUTO_EXPOSURE_LOCK); if (str && ((strcmp(str, android::CameraParameters::TRUE)) == 0)) { CAMHAL_LOGVA("Locking Exposure"); lock = OMX_TRUE; mUserSetExpLock = OMX_TRUE; } else { CAMHAL_LOGVA("UnLocking Exposure"); } if (mParameters3A.ExposureLock != lock) { mParameters3A.ExposureLock = lock; CAMHAL_LOGDB("ExposureLock %d", lock); mPending3Asettings |= SetExpLock; } } str = params.get(android::CameraParameters::KEY_AUTO_WHITEBALANCE_LOCK_SUPPORTED); if ( (str != NULL) && (!strcmp(str, android::CameraParameters::TRUE)) ) { OMX_BOOL lock = OMX_FALSE; mUserSetWbLock = OMX_FALSE; str = params.get(android::CameraParameters::KEY_AUTO_WHITEBALANCE_LOCK); if (str && ((strcmp(str, android::CameraParameters::TRUE)) == 0)) { CAMHAL_LOGVA("Locking WhiteBalance"); lock = OMX_TRUE; mUserSetWbLock = OMX_TRUE; } else { CAMHAL_LOGVA("UnLocking WhiteBalance"); } if (mParameters3A.WhiteBalanceLock != lock) { mParameters3A.WhiteBalanceLock = lock; CAMHAL_LOGDB("WhiteBalanceLock %d", lock); mPending3Asettings |= SetWBLock; } } str = params.get(TICameraParameters::KEY_AUTO_FOCUS_LOCK); if (str && (strcmp(str, android::CameraParameters::TRUE) == 0) && (mParameters3A.FocusLock != OMX_TRUE)) { CAMHAL_LOGVA("Locking Focus"); mParameters3A.FocusLock = OMX_TRUE; setFocusLock(mParameters3A); } else if (str && (strcmp(str, android::CameraParameters::FALSE) == 0) && (mParameters3A.FocusLock != OMX_FALSE)) { CAMHAL_LOGVA("UnLocking Focus"); mParameters3A.FocusLock = OMX_FALSE; setFocusLock(mParameters3A); } str = params.get(android::CameraParameters::KEY_METERING_AREAS); if ( (str != NULL) ) { size_t MAX_METERING_AREAS; android::Vector > tempAreas; MAX_METERING_AREAS = atoi(params.get(android::CameraParameters::KEY_MAX_NUM_METERING_AREAS)); android::AutoMutex lock(mMeteringAreasLock); ret = CameraArea::parseAreas(str, ( strlen(str) + 1 ), tempAreas); CAMHAL_LOGVB("areAreasDifferent? = %d", CameraArea::areAreasDifferent(mMeteringAreas, tempAreas)); if ( (NO_ERROR == ret) && CameraArea::areAreasDifferent(mMeteringAreas, tempAreas) ) { mMeteringAreas.clear(); mMeteringAreas = tempAreas; if ( MAX_METERING_AREAS >= mMeteringAreas.size() ) { CAMHAL_LOGDB("Setting Metering Areas %s", params.get(android::CameraParameters::KEY_METERING_AREAS)); mPending3Asettings |= SetMeteringAreas; } else { CAMHAL_LOGEB("Metering areas supported %d, metering areas set %d", MAX_METERING_AREAS, mMeteringAreas.size()); ret = -EINVAL; } } } // TI extensions for enable/disable algos declareParameter3ABool(params, TICameraParameters::KEY_ALGO_EXTERNAL_GAMMA, mParameters3A.AlgoExternalGamma, SetAlgoExternalGamma, "External Gamma"); declareParameter3ABool(params, TICameraParameters::KEY_ALGO_NSF1, mParameters3A.AlgoNSF1, SetAlgoNSF1, "NSF1"); declareParameter3ABool(params, TICameraParameters::KEY_ALGO_NSF2, mParameters3A.AlgoNSF2, SetAlgoNSF2, "NSF2"); declareParameter3ABool(params, TICameraParameters::KEY_ALGO_SHARPENING, mParameters3A.AlgoSharpening, SetAlgoSharpening, "Sharpening"); declareParameter3ABool(params, TICameraParameters::KEY_ALGO_THREELINCOLORMAP, mParameters3A.AlgoThreeLinColorMap, SetAlgoThreeLinColorMap, "ThreeLinColorMap"); declareParameter3ABool(params, TICameraParameters::KEY_ALGO_GIC, mParameters3A.AlgoGIC, SetAlgoGIC, "GIC"); // Gamma table str = params.get(TICameraParameters::KEY_GAMMA_TABLE); updateGammaTable(str); LOG_FUNCTION_NAME_EXIT; return ret; } void OMXCameraAdapter::updateGammaTable(const char* gamma) { unsigned int plane = 0; unsigned int i = 0; bool gamma_changed = false; const char *a = gamma; OMX_TI_GAMMATABLE_ELEM_TYPE *elem[3] = { mParameters3A.mGammaTable.pR, mParameters3A.mGammaTable.pG, mParameters3A.mGammaTable.pB}; if (!gamma) return; mPending3Asettings &= ~SetGammaTable; memset(&mParameters3A.mGammaTable, 0, sizeof(mParameters3A.mGammaTable)); for (plane = 0; plane < 3; plane++) { a = strchr(a, '('); if (NULL != a) { a++; for (i = 0; i < OMX_TI_GAMMATABLE_SIZE; i++) { char *b; int newVal; newVal = strtod(a, &b); if (newVal != elem[plane][i].nOffset) { elem[plane][i].nOffset = newVal; gamma_changed = true; } a = strpbrk(b, ",:)"); if ((NULL != a) && (':' == *a)) { a++; } else if ((NULL != a) && (',' == *a)){ a++; break; } else if ((NULL != a) && (')' == *a)){ a++; break; } else { CAMHAL_LOGE("Error while parsing values"); gamma_changed = false; break; } newVal = strtod(a, &b); if (newVal != elem[plane][i].nSlope) { elem[plane][i].nSlope = newVal; gamma_changed = true; } a = strpbrk(b, ",:)"); if ((NULL != a) && (',' == *a)) { a++; } else if ((NULL != a) && (':' == *a)){ a++; break; } else if ((NULL != a) && (')' == *a)){ a++; break; } else { CAMHAL_LOGE("Error while parsing values"); gamma_changed = false; break; } } if ((OMX_TI_GAMMATABLE_SIZE - 1) != i) { CAMHAL_LOGE("Error while parsing values (incorrect count %u)", i); gamma_changed = false; break; } } else { CAMHAL_LOGE("Error while parsing planes (%u)", plane); gamma_changed = false; break; } } if (gamma_changed) { mPending3Asettings |= SetGammaTable; } } void OMXCameraAdapter::declareParameter3ABool(const android::CameraParameters ¶ms, const char *key, OMX_BOOL ¤t_setting, E3ASettingsFlags pending, const char *msg) { OMX_BOOL val = OMX_TRUE; const char *str = params.get(key); if (str && ((strcmp(str, android::CameraParameters::FALSE)) == 0)) { CAMHAL_LOGVB("Disabling %s", msg); val = OMX_FALSE; } else { CAMHAL_LOGVB("Enabling %s", msg); } if (current_setting != val) { current_setting = val; CAMHAL_LOGDB("%s %s", msg, current_setting ? "enabled" : "disabled"); mPending3Asettings |= pending; } } int OMXCameraAdapter::getLUTvalue_HALtoOMX(const char * HalValue, LUTtype LUT) { int LUTsize = LUT.size; if( HalValue ) for(int i = 0; i < LUTsize; i++) if( 0 == strcmp(LUT.Table[i].userDefinition, HalValue) ) return LUT.Table[i].omxDefinition; return -ENOENT; } const char* OMXCameraAdapter::getLUTvalue_OMXtoHAL(int OMXValue, LUTtype LUT) { int LUTsize = LUT.size; for(int i = 0; i < LUTsize; i++) if( LUT.Table[i].omxDefinition == OMXValue ) return LUT.Table[i].userDefinition; return NULL; } int OMXCameraAdapter::getMultipleLUTvalue_OMXtoHAL(int OMXValue, LUTtype LUT, char * supported) { int num = 0; int remaining_size; int LUTsize = LUT.size; for(int i = 0; i < LUTsize; i++) if( LUT.Table[i].omxDefinition == OMXValue ) { num++; if (supported[0] != '\0') { strncat(supported, PARAM_SEP, 1); } remaining_size = ((((int)MAX_PROP_VALUE_LENGTH - 1 - (int)strlen(supported)) < 0) ? 0 : (MAX_PROP_VALUE_LENGTH - 1 - strlen(supported))); strncat(supported, LUT.Table[i].userDefinition, remaining_size); } return num; } status_t OMXCameraAdapter::setExposureMode(Gen3A_settings& Gen3A) { OMX_ERRORTYPE eError = OMX_ErrorNone; OMX_CONFIG_EXPOSURECONTROLTYPE exp; LOG_FUNCTION_NAME; if ( OMX_StateInvalid == mComponentState ) { CAMHAL_LOGEA("OMX component is in invalid state"); return NO_INIT; } OMX_INIT_STRUCT_PTR (&exp, OMX_CONFIG_EXPOSURECONTROLTYPE); exp.nPortIndex = OMX_ALL; exp.eExposureControl = (OMX_EXPOSURECONTROLTYPE)Gen3A.Exposure; eError = OMX_SetConfig(mCameraAdapterParameters.mHandleComp, OMX_IndexConfigCommonExposure, &exp); if ( OMX_ErrorNone != eError ) { CAMHAL_LOGEB("Error while configuring exposure mode 0x%x", eError); } else { CAMHAL_LOGDA("Camera exposure mode configured successfully"); } LOG_FUNCTION_NAME_EXIT; return Utils::ErrorUtils::omxToAndroidError(eError); } static bool isFlashDisabled() { #if (PROPERTY_VALUE_MAX < 5) #error "PROPERTY_VALUE_MAX must be at least 5" #endif // Ignore flash_off system property for user build. char buildType[PROPERTY_VALUE_MAX]; if (property_get("ro.build.type", buildType, NULL) && !strcasecmp(buildType, "user")) { return false; } char value[PROPERTY_VALUE_MAX]; if (property_get("camera.flash_off", value, NULL) && (!strcasecmp(value, android::CameraParameters::TRUE) || !strcasecmp(value, "1"))) { CAMHAL_LOGW("flash is disabled for testing purpose"); return true; } return false; } status_t OMXCameraAdapter::setManualExposureVal(Gen3A_settings& Gen3A) { OMX_ERRORTYPE eError = OMX_ErrorNone; OMX_CONFIG_EXPOSUREVALUETYPE expVal; OMX_TI_CONFIG_EXPOSUREVALUERIGHTTYPE expValRight; LOG_FUNCTION_NAME; if ( OMX_StateInvalid == mComponentState ) { CAMHAL_LOGEA("OMX component is in invalid state"); return NO_INIT; } OMX_INIT_STRUCT_PTR (&expVal, OMX_CONFIG_EXPOSUREVALUETYPE); OMX_INIT_STRUCT_PTR (&expValRight, OMX_TI_CONFIG_EXPOSUREVALUERIGHTTYPE); expVal.nPortIndex = OMX_ALL; expValRight.nPortIndex = OMX_ALL; eError = OMX_GetConfig(mCameraAdapterParameters.mHandleComp, OMX_IndexConfigCommonExposureValue, &expVal); if ( OMX_ErrorNone == eError ) { eError = OMX_GetConfig(mCameraAdapterParameters.mHandleComp, (OMX_INDEXTYPE) OMX_TI_IndexConfigRightExposureValue, &expValRight); } if ( OMX_ErrorNone != eError ) { CAMHAL_LOGEB("OMX_GetConfig error 0x%x (manual exposure values)", eError); return Utils::ErrorUtils::omxToAndroidError(eError); } if ( Gen3A.Exposure != OMX_ExposureControlOff ) { expVal.bAutoShutterSpeed = OMX_TRUE; expVal.bAutoSensitivity = OMX_TRUE; } else { expVal.bAutoShutterSpeed = OMX_FALSE; expVal.nShutterSpeedMsec = Gen3A.ManualExposure; expValRight.nShutterSpeedMsec = Gen3A.ManualExposureRight; if ( Gen3A.ManualGain <= 0 || Gen3A.ManualGainRight <= 0 ) { expVal.bAutoSensitivity = OMX_TRUE; } else { expVal.bAutoSensitivity = OMX_FALSE; expVal.nSensitivity = Gen3A.ManualGain; expValRight.nSensitivity = Gen3A.ManualGainRight; } } eError = OMX_SetConfig(mCameraAdapterParameters.mHandleComp, OMX_IndexConfigCommonExposureValue, &expVal); if ( OMX_ErrorNone == eError ) { eError = OMX_SetConfig(mCameraAdapterParameters.mHandleComp, (OMX_INDEXTYPE) OMX_TI_IndexConfigRightExposureValue, &expValRight); } if ( OMX_ErrorNone != eError ) { CAMHAL_LOGEB("Error 0x%x while configuring manual exposure values", eError); } else { CAMHAL_LOGDA("Camera manual exposure values configured successfully"); } LOG_FUNCTION_NAME_EXIT; return Utils::ErrorUtils::omxToAndroidError(eError); } status_t OMXCameraAdapter::setFlashMode(Gen3A_settings& Gen3A) { status_t ret = NO_ERROR; OMX_ERRORTYPE eError = OMX_ErrorNone; OMX_IMAGE_PARAM_FLASHCONTROLTYPE flash; OMX_CONFIG_FOCUSASSISTTYPE focusAssist; LOG_FUNCTION_NAME; if ( OMX_StateInvalid == mComponentState ) { CAMHAL_LOGEA("OMX component is in invalid state"); return NO_INIT; } OMX_INIT_STRUCT_PTR (&flash, OMX_IMAGE_PARAM_FLASHCONTROLTYPE); flash.nPortIndex = OMX_ALL; if (isFlashDisabled()) { flash.eFlashControl = ( OMX_IMAGE_FLASHCONTROLTYPE ) OMX_IMAGE_FlashControlOff; } else { flash.eFlashControl = ( OMX_IMAGE_FLASHCONTROLTYPE ) Gen3A.FlashMode; } CAMHAL_LOGDB("Configuring flash mode 0x%x", flash.eFlashControl); eError = OMX_SetConfig(mCameraAdapterParameters.mHandleComp, (OMX_INDEXTYPE) OMX_IndexConfigFlashControl, &flash); if ( OMX_ErrorNone != eError ) { CAMHAL_LOGEB("Error while configuring flash mode 0x%x", eError); } else { CAMHAL_LOGDA("Camera flash mode configured successfully"); } if ( OMX_ErrorNone == eError ) { OMX_INIT_STRUCT_PTR (&focusAssist, OMX_CONFIG_FOCUSASSISTTYPE); focusAssist.nPortIndex = OMX_ALL; if ( flash.eFlashControl == OMX_IMAGE_FlashControlOff ) { focusAssist.bFocusAssist = OMX_FALSE; } else { focusAssist.bFocusAssist = OMX_TRUE; } CAMHAL_LOGDB("Configuring AF Assist mode 0x%x", focusAssist.bFocusAssist); eError = OMX_SetConfig(mCameraAdapterParameters.mHandleComp, (OMX_INDEXTYPE) OMX_IndexConfigFocusAssist, &focusAssist); if ( OMX_ErrorNone != eError ) { CAMHAL_LOGEB("Error while configuring AF Assist mode 0x%x", eError); } else { CAMHAL_LOGDA("Camera AF Assist mode configured successfully"); } } LOG_FUNCTION_NAME_EXIT; return Utils::ErrorUtils::omxToAndroidError(eError); } status_t OMXCameraAdapter::getFlashMode(Gen3A_settings& Gen3A) { status_t ret = NO_ERROR; OMX_ERRORTYPE eError = OMX_ErrorNone; OMX_IMAGE_PARAM_FLASHCONTROLTYPE flash; LOG_FUNCTION_NAME; if ( OMX_StateInvalid == mComponentState ) { CAMHAL_LOGEA("OMX component is in invalid state"); return NO_INIT; } OMX_INIT_STRUCT_PTR (&flash, OMX_IMAGE_PARAM_FLASHCONTROLTYPE); flash.nPortIndex = OMX_ALL; eError = OMX_GetConfig(mCameraAdapterParameters.mHandleComp, (OMX_INDEXTYPE) OMX_IndexConfigFlashControl, &flash); if ( OMX_ErrorNone != eError ) { CAMHAL_LOGEB("Error while getting flash mode 0x%x", eError); } else { Gen3A.FlashMode = flash.eFlashControl; CAMHAL_LOGDB("Gen3A.FlashMode 0x%x", Gen3A.FlashMode); } LOG_FUNCTION_NAME_EXIT; return Utils::ErrorUtils::omxToAndroidError(eError); } status_t OMXCameraAdapter::setFocusMode(Gen3A_settings& Gen3A) { status_t ret = NO_ERROR; OMX_ERRORTYPE eError = OMX_ErrorNone; OMX_IMAGE_CONFIG_FOCUSCONTROLTYPE focus; size_t top, left, width, height, weight; OMX_CONFIG_BOOLEANTYPE bOMX; LOG_FUNCTION_NAME; BaseCameraAdapter::AdapterState state; BaseCameraAdapter::getState(state); if ( OMX_StateInvalid == mComponentState ) { CAMHAL_LOGEA("OMX component is in invalid state"); return NO_INIT; } ///Face detection takes precedence over touch AF if ( mFaceDetectionRunning ) { //Disable region priority first setAlgoPriority(REGION_PRIORITY, FOCUS_ALGO, false); //Enable face algorithm priority for focus setAlgoPriority(FACE_PRIORITY, FOCUS_ALGO , true); //Do normal focus afterwards ////FIXME: Check if the extended focus control is needed? this overrides caf //focusControl.eFocusControl = ( OMX_IMAGE_FOCUSCONTROLTYPE ) OMX_IMAGE_FocusControlExtended; } else if ( (!mFocusAreas.isEmpty()) && (!mFocusAreas.itemAt(0)->isZeroArea()) ) { //Disable face priority first setAlgoPriority(FACE_PRIORITY, FOCUS_ALGO, false); //Enable region algorithm priority setAlgoPriority(REGION_PRIORITY, FOCUS_ALGO, true); //Do normal focus afterwards //FIXME: Check if the extended focus control is needed? this overrides caf //focus.eFocusControl = ( OMX_IMAGE_FOCUSCONTROLTYPE ) OMX_IMAGE_FocusControlExtended; } else { //Disable both region and face priority setAlgoPriority(REGION_PRIORITY, FOCUS_ALGO, false); setAlgoPriority(FACE_PRIORITY, FOCUS_ALGO, false); } if ( NO_ERROR == ret && ((state & AF_ACTIVE) == 0) ) { OMX_INIT_STRUCT_PTR (&bOMX, OMX_CONFIG_BOOLEANTYPE); if ( Gen3A.Focus == OMX_IMAGE_FocusControlAutoInfinity) { // Don't lock at infinity, otherwise the AF cannot drive // the lens at infinity position if( set3ALock(mUserSetExpLock, mUserSetWbLock, OMX_FALSE) != NO_ERROR) { CAMHAL_LOGEA("Error Applying 3A locks"); } else { CAMHAL_LOGDA("Focus locked. Applied focus locks successfully"); } } if ( Gen3A.Focus == OMX_IMAGE_FocusControlAuto || Gen3A.Focus == OMX_IMAGE_FocusControlAutoInfinity) { // Run focus scanning if switching to continuous infinity focus mode bOMX.bEnabled = OMX_TRUE; } else { bOMX.bEnabled = OMX_FALSE; } eError = OMX_SetConfig(mCameraAdapterParameters.mHandleComp, (OMX_INDEXTYPE)OMX_TI_IndexConfigAutofocusEnable, &bOMX); OMX_INIT_STRUCT_PTR (&focus, OMX_IMAGE_CONFIG_FOCUSCONTROLTYPE); focus.nPortIndex = mCameraAdapterParameters.mPrevPortIndex; focus.eFocusControl = (OMX_IMAGE_FOCUSCONTROLTYPE)Gen3A.Focus; CAMHAL_LOGDB("Configuring focus mode 0x%x", focus.eFocusControl); eError = OMX_SetConfig( mCameraAdapterParameters.mHandleComp, OMX_IndexConfigFocusControl, &focus); if ( OMX_ErrorNone != eError ) { CAMHAL_LOGEB("Error while configuring focus mode 0x%x", eError); } else { CAMHAL_LOGDA("Camera focus mode configured successfully"); } } LOG_FUNCTION_NAME_EXIT; return Utils::ErrorUtils::omxToAndroidError(eError); } status_t OMXCameraAdapter::getFocusMode(Gen3A_settings& Gen3A) { status_t ret = NO_ERROR; OMX_ERRORTYPE eError = OMX_ErrorNone; OMX_IMAGE_CONFIG_FOCUSCONTROLTYPE focus; size_t top, left, width, height, weight; LOG_FUNCTION_NAME; if (OMX_StateInvalid == mComponentState) { CAMHAL_LOGEA("OMX component is in invalid state"); return NO_INIT; } OMX_INIT_STRUCT_PTR (&focus, OMX_IMAGE_CONFIG_FOCUSCONTROLTYPE); focus.nPortIndex = mCameraAdapterParameters.mPrevPortIndex; eError = OMX_GetConfig(mCameraAdapterParameters.mHandleComp, OMX_IndexConfigFocusControl, &focus); if (OMX_ErrorNone != eError) { CAMHAL_LOGEB("Error while configuring focus mode 0x%x", eError); } else { Gen3A.Focus = focus.eFocusControl; CAMHAL_LOGDB("Gen3A.Focus 0x%x", Gen3A.Focus); } LOG_FUNCTION_NAME_EXIT; return Utils::ErrorUtils::omxToAndroidError(eError); } status_t OMXCameraAdapter::setScene(Gen3A_settings& Gen3A) { OMX_ERRORTYPE eError = OMX_ErrorNone; OMX_CONFIG_SCENEMODETYPE scene; LOG_FUNCTION_NAME; if ( OMX_StateInvalid == mComponentState ) { CAMHAL_LOGEA("OMX component is in invalid state"); return NO_INIT; } OMX_INIT_STRUCT_PTR (&scene, OMX_CONFIG_SCENEMODETYPE); scene.nPortIndex = OMX_ALL; scene.eSceneMode = ( OMX_SCENEMODETYPE ) Gen3A.SceneMode; CAMHAL_LOGDB("Configuring scene mode 0x%x", scene.eSceneMode); eError = OMX_SetConfig(mCameraAdapterParameters.mHandleComp, ( OMX_INDEXTYPE ) OMX_TI_IndexConfigSceneMode, &scene); if (OMX_ErrorNone != eError) { CAMHAL_LOGEB("Error while configuring scene mode 0x%x", eError); } else { CAMHAL_LOGDA("Camera scene configured successfully"); if (Gen3A.SceneMode != OMX_Manual) { // Get preset scene mode feedback getFocusMode(Gen3A); getFlashMode(Gen3A); getWBMode(Gen3A); // TODO(XXX): Re-enable these for mainline // getSharpness(Gen3A); // getSaturation(Gen3A); // getISO(Gen3A); } } LOG_FUNCTION_NAME_EXIT; return Utils::ErrorUtils::omxToAndroidError(eError); } status_t OMXCameraAdapter::setEVCompensation(Gen3A_settings& Gen3A) { OMX_ERRORTYPE eError = OMX_ErrorNone; OMX_CONFIG_EXPOSUREVALUETYPE expValues; LOG_FUNCTION_NAME; if ( OMX_StateInvalid == mComponentState ) { CAMHAL_LOGEA("OMX component is in invalid state"); return NO_INIT; } OMX_INIT_STRUCT_PTR (&expValues, OMX_CONFIG_EXPOSUREVALUETYPE); expValues.nPortIndex = mCameraAdapterParameters.mPrevPortIndex; OMX_GetConfig( mCameraAdapterParameters.mHandleComp, OMX_IndexConfigCommonExposureValue, &expValues); CAMHAL_LOGDB("old EV Compensation for OMX = 0x%x", (int)expValues.xEVCompensation); CAMHAL_LOGDB("EV Compensation for HAL = %d", Gen3A.EVCompensation); expValues.xEVCompensation = ( Gen3A.EVCompensation * ( 1 << Q16_OFFSET ) ) / 10; eError = OMX_SetConfig( mCameraAdapterParameters.mHandleComp, OMX_IndexConfigCommonExposureValue, &expValues); CAMHAL_LOGDB("new EV Compensation for OMX = 0x%x", (int)expValues.xEVCompensation); if ( OMX_ErrorNone != eError ) { CAMHAL_LOGEB("Error while configuring EV Compensation 0x%x error = 0x%x", ( unsigned int ) expValues.xEVCompensation, eError); } else { CAMHAL_LOGDB("EV Compensation 0x%x configured successfully", ( unsigned int ) expValues.xEVCompensation); } LOG_FUNCTION_NAME_EXIT; return Utils::ErrorUtils::omxToAndroidError(eError); } status_t OMXCameraAdapter::getEVCompensation(Gen3A_settings& Gen3A) { OMX_ERRORTYPE eError = OMX_ErrorNone; OMX_CONFIG_EXPOSUREVALUETYPE expValues; LOG_FUNCTION_NAME; if ( OMX_StateInvalid == mComponentState ) { CAMHAL_LOGEA("OMX component is in invalid state"); return NO_INIT; } OMX_INIT_STRUCT_PTR (&expValues, OMX_CONFIG_EXPOSUREVALUETYPE); expValues.nPortIndex = mCameraAdapterParameters.mPrevPortIndex; OMX_GetConfig(mCameraAdapterParameters.mHandleComp, OMX_IndexConfigCommonExposureValue, &expValues); if ( OMX_ErrorNone != eError ) { CAMHAL_LOGEB("Error while getting EV Compensation error = 0x%x", eError); } else { Gen3A.EVCompensation = (10 * expValues.xEVCompensation) / (1 << Q16_OFFSET); CAMHAL_LOGDB("Gen3A.EVCompensation 0x%x", Gen3A.EVCompensation); } LOG_FUNCTION_NAME_EXIT; return Utils::ErrorUtils::omxToAndroidError(eError); } status_t OMXCameraAdapter::setWBMode(Gen3A_settings& Gen3A) { OMX_ERRORTYPE eError = OMX_ErrorNone; OMX_CONFIG_WHITEBALCONTROLTYPE wb; LOG_FUNCTION_NAME; if ( OMX_StateInvalid == mComponentState ) { CAMHAL_LOGEA("OMX component is in invalid state"); return NO_INIT; } OMX_INIT_STRUCT_PTR (&wb, OMX_CONFIG_WHITEBALCONTROLTYPE); wb.nPortIndex = mCameraAdapterParameters.mPrevPortIndex; wb.eWhiteBalControl = ( OMX_WHITEBALCONTROLTYPE ) Gen3A.WhiteBallance; // disable face and region priorities setAlgoPriority(FACE_PRIORITY, WHITE_BALANCE_ALGO, false); setAlgoPriority(REGION_PRIORITY, WHITE_BALANCE_ALGO, false); eError = OMX_SetConfig( mCameraAdapterParameters.mHandleComp, OMX_IndexConfigCommonWhiteBalance, &wb); if ( OMX_ErrorNone != eError ) { CAMHAL_LOGEB("Error while configuring Whitebalance mode 0x%x error = 0x%x", ( unsigned int ) wb.eWhiteBalControl, eError); } else { CAMHAL_LOGDB("Whitebalance mode 0x%x configured successfully", ( unsigned int ) wb.eWhiteBalControl); } LOG_FUNCTION_NAME_EXIT; return eError; } status_t OMXCameraAdapter::getWBMode(Gen3A_settings& Gen3A) { OMX_ERRORTYPE eError = OMX_ErrorNone; OMX_CONFIG_WHITEBALCONTROLTYPE wb; LOG_FUNCTION_NAME; if ( OMX_StateInvalid == mComponentState ) { CAMHAL_LOGEA("OMX component is in invalid state"); return NO_INIT; } OMX_INIT_STRUCT_PTR (&wb, OMX_CONFIG_WHITEBALCONTROLTYPE); wb.nPortIndex = mCameraAdapterParameters.mPrevPortIndex; eError = OMX_GetConfig(mCameraAdapterParameters.mHandleComp, OMX_IndexConfigCommonWhiteBalance, &wb); if (OMX_ErrorNone != eError) { CAMHAL_LOGEB("Error while getting Whitebalance mode error = 0x%x", eError); } else { Gen3A.WhiteBallance = wb.eWhiteBalControl; CAMHAL_LOGDB("Gen3A.WhiteBallance 0x%x", Gen3A.WhiteBallance); } LOG_FUNCTION_NAME_EXIT; return eError; } status_t OMXCameraAdapter::setFlicker(Gen3A_settings& Gen3A) { OMX_ERRORTYPE eError = OMX_ErrorNone; OMX_CONFIG_FLICKERCANCELTYPE flicker; LOG_FUNCTION_NAME; if ( OMX_StateInvalid == mComponentState ) { CAMHAL_LOGEA("OMX component is in invalid state"); return NO_INIT; } OMX_INIT_STRUCT_PTR (&flicker, OMX_CONFIG_FLICKERCANCELTYPE); flicker.nPortIndex = mCameraAdapterParameters.mPrevPortIndex; flicker.eFlickerCancel = (OMX_COMMONFLICKERCANCELTYPE)Gen3A.Flicker; eError = OMX_SetConfig( mCameraAdapterParameters.mHandleComp, (OMX_INDEXTYPE)OMX_IndexConfigFlickerCancel, &flicker ); if ( OMX_ErrorNone != eError ) { CAMHAL_LOGEB("Error while configuring Flicker mode 0x%x error = 0x%x", ( unsigned int ) flicker.eFlickerCancel, eError); } else { CAMHAL_LOGDB("Flicker mode 0x%x configured successfully", ( unsigned int ) flicker.eFlickerCancel); } LOG_FUNCTION_NAME_EXIT; return Utils::ErrorUtils::omxToAndroidError(eError); } status_t OMXCameraAdapter::setBrightness(Gen3A_settings& Gen3A) { OMX_ERRORTYPE eError = OMX_ErrorNone; OMX_CONFIG_BRIGHTNESSTYPE brightness; LOG_FUNCTION_NAME; if ( OMX_StateInvalid == mComponentState ) { CAMHAL_LOGEA("OMX component is in invalid state"); return NO_INIT; } OMX_INIT_STRUCT_PTR (&brightness, OMX_CONFIG_BRIGHTNESSTYPE); brightness.nPortIndex = mCameraAdapterParameters.mPrevPortIndex; brightness.nBrightness = Gen3A.Brightness; eError = OMX_SetConfig( mCameraAdapterParameters.mHandleComp, OMX_IndexConfigCommonBrightness, &brightness); if ( OMX_ErrorNone != eError ) { CAMHAL_LOGEB("Error while configuring Brightness 0x%x error = 0x%x", ( unsigned int ) brightness.nBrightness, eError); } else { CAMHAL_LOGDB("Brightness 0x%x configured successfully", ( unsigned int ) brightness.nBrightness); } LOG_FUNCTION_NAME_EXIT; return Utils::ErrorUtils::omxToAndroidError(eError); } status_t OMXCameraAdapter::setContrast(Gen3A_settings& Gen3A) { OMX_ERRORTYPE eError = OMX_ErrorNone; OMX_CONFIG_CONTRASTTYPE contrast; LOG_FUNCTION_NAME; if ( OMX_StateInvalid == mComponentState ) { CAMHAL_LOGEA("OMX component is in invalid state"); return NO_INIT; } OMX_INIT_STRUCT_PTR (&contrast, OMX_CONFIG_CONTRASTTYPE); contrast.nPortIndex = mCameraAdapterParameters.mPrevPortIndex; contrast.nContrast = Gen3A.Contrast; eError = OMX_SetConfig( mCameraAdapterParameters.mHandleComp, OMX_IndexConfigCommonContrast, &contrast); if ( OMX_ErrorNone != eError ) { CAMHAL_LOGEB("Error while configuring Contrast 0x%x error = 0x%x", ( unsigned int ) contrast.nContrast, eError); } else { CAMHAL_LOGDB("Contrast 0x%x configured successfully", ( unsigned int ) contrast.nContrast); } LOG_FUNCTION_NAME_EXIT; return eError; } status_t OMXCameraAdapter::setSharpness(Gen3A_settings& Gen3A) { OMX_ERRORTYPE eError = OMX_ErrorNone; OMX_IMAGE_CONFIG_PROCESSINGLEVELTYPE procSharpness; LOG_FUNCTION_NAME; if ( OMX_StateInvalid == mComponentState ) { CAMHAL_LOGEA("OMX component is in invalid state"); return NO_INIT; } OMX_INIT_STRUCT_PTR (&procSharpness, OMX_IMAGE_CONFIG_PROCESSINGLEVELTYPE); procSharpness.nPortIndex = mCameraAdapterParameters.mPrevPortIndex; procSharpness.nLevel = Gen3A.Sharpness; if( procSharpness.nLevel == 0 ) { procSharpness.bAuto = OMX_TRUE; } else { procSharpness.bAuto = OMX_FALSE; } eError = OMX_SetConfig( mCameraAdapterParameters.mHandleComp, (OMX_INDEXTYPE)OMX_IndexConfigSharpeningLevel, &procSharpness); if ( OMX_ErrorNone != eError ) { CAMHAL_LOGEB("Error while configuring Sharpness 0x%x error = 0x%x", ( unsigned int ) procSharpness.nLevel, eError); } else { CAMHAL_LOGDB("Sharpness 0x%x configured successfully", ( unsigned int ) procSharpness.nLevel); } LOG_FUNCTION_NAME_EXIT; return Utils::ErrorUtils::omxToAndroidError(eError); } status_t OMXCameraAdapter::getSharpness(Gen3A_settings& Gen3A) { OMX_ERRORTYPE eError = OMX_ErrorNone; OMX_IMAGE_CONFIG_PROCESSINGLEVELTYPE procSharpness; LOG_FUNCTION_NAME; if (OMX_StateInvalid == mComponentState) { CAMHAL_LOGEA("OMX component is in invalid state"); return NO_INIT; } OMX_INIT_STRUCT_PTR (&procSharpness, OMX_IMAGE_CONFIG_PROCESSINGLEVELTYPE); procSharpness.nPortIndex = mCameraAdapterParameters.mPrevPortIndex; eError = OMX_GetConfig(mCameraAdapterParameters.mHandleComp, (OMX_INDEXTYPE)OMX_IndexConfigSharpeningLevel, &procSharpness); if (OMX_ErrorNone != eError) { CAMHAL_LOGEB("Error while configuring Sharpness error = 0x%x", eError); } else { Gen3A.Sharpness = procSharpness.nLevel; CAMHAL_LOGDB("Gen3A.Sharpness 0x%x", Gen3A.Sharpness); } LOG_FUNCTION_NAME_EXIT; return Utils::ErrorUtils::omxToAndroidError(eError); } status_t OMXCameraAdapter::setSaturation(Gen3A_settings& Gen3A) { OMX_ERRORTYPE eError = OMX_ErrorNone; OMX_CONFIG_SATURATIONTYPE saturation; LOG_FUNCTION_NAME; if ( OMX_StateInvalid == mComponentState ) { CAMHAL_LOGEA("OMX component is in invalid state"); return NO_INIT; } OMX_INIT_STRUCT_PTR (&saturation, OMX_CONFIG_SATURATIONTYPE); saturation.nPortIndex = mCameraAdapterParameters.mPrevPortIndex; saturation.nSaturation = Gen3A.Saturation; eError = OMX_SetConfig( mCameraAdapterParameters.mHandleComp, OMX_IndexConfigCommonSaturation, &saturation); if ( OMX_ErrorNone != eError ) { CAMHAL_LOGEB("Error while configuring Saturation 0x%x error = 0x%x", ( unsigned int ) saturation.nSaturation, eError); } else { CAMHAL_LOGDB("Saturation 0x%x configured successfully", ( unsigned int ) saturation.nSaturation); } LOG_FUNCTION_NAME_EXIT; return Utils::ErrorUtils::omxToAndroidError(eError); } status_t OMXCameraAdapter::getSaturation(Gen3A_settings& Gen3A) { OMX_ERRORTYPE eError = OMX_ErrorNone; OMX_CONFIG_SATURATIONTYPE saturation; LOG_FUNCTION_NAME; if (OMX_StateInvalid == mComponentState) { CAMHAL_LOGEA("OMX component is in invalid state"); return NO_INIT; } OMX_INIT_STRUCT_PTR (&saturation, OMX_CONFIG_SATURATIONTYPE); saturation.nPortIndex = mCameraAdapterParameters.mPrevPortIndex; eError = OMX_GetConfig( mCameraAdapterParameters.mHandleComp, OMX_IndexConfigCommonSaturation, &saturation); if (OMX_ErrorNone != eError) { CAMHAL_LOGEB("Error while getting Saturation error = 0x%x", eError); } else { Gen3A.Saturation = saturation.nSaturation; CAMHAL_LOGDB("Gen3A.Saturation 0x%x", Gen3A.Saturation); } LOG_FUNCTION_NAME_EXIT; return Utils::ErrorUtils::omxToAndroidError(eError); } status_t OMXCameraAdapter::setISO(Gen3A_settings& Gen3A) { OMX_ERRORTYPE eError = OMX_ErrorNone; OMX_CONFIG_EXPOSUREVALUETYPE expValues; OMX_TI_CONFIG_EXPOSUREVALUERIGHTTYPE expValRight; LOG_FUNCTION_NAME; if ( OMX_StateInvalid == mComponentState ) { CAMHAL_LOGEA("OMX component is in invalid state"); return NO_INIT; } // In case of manual exposure Gain is applied from setManualExposureVal if ( Gen3A.Exposure == OMX_ExposureControlOff ) { return NO_ERROR; } OMX_INIT_STRUCT_PTR (&expValues, OMX_CONFIG_EXPOSUREVALUETYPE); OMX_INIT_STRUCT_PTR (&expValRight, OMX_TI_CONFIG_EXPOSUREVALUERIGHTTYPE); expValues.nPortIndex = mCameraAdapterParameters.mPrevPortIndex; expValRight.nPortIndex = mCameraAdapterParameters.mPrevPortIndex; eError = OMX_GetConfig( mCameraAdapterParameters.mHandleComp, OMX_IndexConfigCommonExposureValue, &expValues); if ( OMX_ErrorNone == eError ) { eError = OMX_GetConfig(mCameraAdapterParameters.mHandleComp, (OMX_INDEXTYPE) OMX_TI_IndexConfigRightExposureValue, &expValRight); } if ( OMX_ErrorNone != eError ) { CAMHAL_LOGEB("OMX_GetConfig error 0x%x (manual exposure values)", eError); return Utils::ErrorUtils::omxToAndroidError(eError); } if( 0 == Gen3A.ISO ) { expValues.bAutoSensitivity = OMX_TRUE; } else { expValues.bAutoSensitivity = OMX_FALSE; expValues.nSensitivity = Gen3A.ISO; expValRight.nSensitivity = expValues.nSensitivity; } eError = OMX_SetConfig( mCameraAdapterParameters.mHandleComp, OMX_IndexConfigCommonExposureValue, &expValues); if ( OMX_ErrorNone == eError ) { eError = OMX_SetConfig(mCameraAdapterParameters.mHandleComp, (OMX_INDEXTYPE) OMX_TI_IndexConfigRightExposureValue, &expValRight); } if ( OMX_ErrorNone != eError ) { CAMHAL_LOGEB("Error while configuring ISO 0x%x error = 0x%x", ( unsigned int ) expValues.nSensitivity, eError); } else { CAMHAL_LOGDB("ISO 0x%x configured successfully", ( unsigned int ) expValues.nSensitivity); } LOG_FUNCTION_NAME_EXIT; return Utils::ErrorUtils::omxToAndroidError(eError); } status_t OMXCameraAdapter::getISO(Gen3A_settings& Gen3A) { OMX_ERRORTYPE eError = OMX_ErrorNone; OMX_CONFIG_EXPOSUREVALUETYPE expValues; LOG_FUNCTION_NAME; if (OMX_StateInvalid == mComponentState) { CAMHAL_LOGEA("OMX component is in invalid state"); return NO_INIT; } OMX_INIT_STRUCT_PTR (&expValues, OMX_CONFIG_EXPOSUREVALUETYPE); expValues.nPortIndex = mCameraAdapterParameters.mPrevPortIndex; OMX_GetConfig( mCameraAdapterParameters.mHandleComp, OMX_IndexConfigCommonExposureValue, &expValues); if (OMX_ErrorNone != eError) { CAMHAL_LOGEB("Error while getting ISO error = 0x%x", eError); } else { Gen3A.ISO = expValues.nSensitivity; CAMHAL_LOGDB("Gen3A.ISO %d", Gen3A.ISO); } LOG_FUNCTION_NAME_EXIT; return Utils::ErrorUtils::omxToAndroidError(eError); } status_t OMXCameraAdapter::setEffect(Gen3A_settings& Gen3A) { OMX_ERRORTYPE eError = OMX_ErrorNone; OMX_CONFIG_IMAGEFILTERTYPE effect; LOG_FUNCTION_NAME; if ( OMX_StateInvalid == mComponentState ) { CAMHAL_LOGEA("OMX component is in invalid state"); return NO_INIT; } OMX_INIT_STRUCT_PTR (&effect, OMX_CONFIG_IMAGEFILTERTYPE); effect.nPortIndex = mCameraAdapterParameters.mPrevPortIndex; effect.eImageFilter = (OMX_IMAGEFILTERTYPE ) Gen3A.Effect; eError = OMX_SetConfig( mCameraAdapterParameters.mHandleComp, OMX_IndexConfigCommonImageFilter, &effect); if ( OMX_ErrorNone != eError ) { CAMHAL_LOGEB("Error while configuring Effect 0x%x error = 0x%x", ( unsigned int ) effect.eImageFilter, eError); } else { CAMHAL_LOGDB("Effect 0x%x configured successfully", ( unsigned int ) effect.eImageFilter); } LOG_FUNCTION_NAME_EXIT; return Utils::ErrorUtils::omxToAndroidError(eError); } status_t OMXCameraAdapter::setWhiteBalanceLock(Gen3A_settings& Gen3A) { OMX_ERRORTYPE eError = OMX_ErrorNone; OMX_IMAGE_CONFIG_LOCKTYPE lock; LOG_FUNCTION_NAME if ( OMX_StateInvalid == mComponentState ) { CAMHAL_LOGEA("OMX component is in invalid state"); return NO_INIT; } OMX_INIT_STRUCT_PTR (&lock, OMX_IMAGE_CONFIG_LOCKTYPE); lock.nPortIndex = mCameraAdapterParameters.mPrevPortIndex; lock.bLock = Gen3A.WhiteBalanceLock; eError = OMX_SetConfig( mCameraAdapterParameters.mHandleComp, (OMX_INDEXTYPE)OMX_IndexConfigImageWhiteBalanceLock, &lock); if ( OMX_ErrorNone != eError ) { CAMHAL_LOGEB("Error while configuring WhiteBalance Lock error = 0x%x", eError); } else { CAMHAL_LOGDB("WhiteBalance Lock configured successfully %d ", lock.bLock); } LOG_FUNCTION_NAME_EXIT return Utils::ErrorUtils::omxToAndroidError(eError); } status_t OMXCameraAdapter::setExposureLock(Gen3A_settings& Gen3A) { OMX_ERRORTYPE eError = OMX_ErrorNone; OMX_IMAGE_CONFIG_LOCKTYPE lock; LOG_FUNCTION_NAME if ( OMX_StateInvalid == mComponentState ) { CAMHAL_LOGEA("OMX component is in invalid state"); return NO_INIT; } OMX_INIT_STRUCT_PTR (&lock, OMX_IMAGE_CONFIG_LOCKTYPE); lock.nPortIndex = mCameraAdapterParameters.mPrevPortIndex; lock.bLock = Gen3A.ExposureLock; eError = OMX_SetConfig( mCameraAdapterParameters.mHandleComp, (OMX_INDEXTYPE)OMX_IndexConfigImageExposureLock, &lock); if ( OMX_ErrorNone != eError ) { CAMHAL_LOGEB("Error while configuring Exposure Lock error = 0x%x", eError); } else { CAMHAL_LOGDB("Exposure Lock configured successfully %d ", lock.bLock); } LOG_FUNCTION_NAME_EXIT return Utils::ErrorUtils::omxToAndroidError(eError); } status_t OMXCameraAdapter::setFocusLock(Gen3A_settings& Gen3A) { OMX_ERRORTYPE eError = OMX_ErrorNone; OMX_IMAGE_CONFIG_LOCKTYPE lock; LOG_FUNCTION_NAME if ( OMX_StateInvalid == mComponentState ) { CAMHAL_LOGEA("OMX component is in invalid state"); return NO_INIT; } OMX_INIT_STRUCT_PTR (&lock, OMX_IMAGE_CONFIG_LOCKTYPE); lock.nPortIndex = mCameraAdapterParameters.mPrevPortIndex; lock.bLock = Gen3A.FocusLock; eError = OMX_SetConfig(mCameraAdapterParameters.mHandleComp, (OMX_INDEXTYPE)OMX_IndexConfigImageFocusLock, &lock); if ( OMX_ErrorNone != eError ) { CAMHAL_LOGEB("Error while configuring Focus Lock error = 0x%x", eError); } else { CAMHAL_LOGDB("Focus Lock configured successfully %d ", lock.bLock); } LOG_FUNCTION_NAME_EXIT return Utils::ErrorUtils::omxToAndroidError(eError); } status_t OMXCameraAdapter::set3ALock(OMX_BOOL toggleExp, OMX_BOOL toggleWb, OMX_BOOL toggleFocus) { OMX_ERRORTYPE eError = OMX_ErrorNone; OMX_IMAGE_CONFIG_LOCKTYPE lock; LOG_FUNCTION_NAME if ( OMX_StateInvalid == mComponentState ) { CAMHAL_LOGEA("OMX component is in invalid state"); return NO_INIT; } OMX_INIT_STRUCT_PTR (&lock, OMX_IMAGE_CONFIG_LOCKTYPE); lock.nPortIndex = mCameraAdapterParameters.mPrevPortIndex; mParameters3A.ExposureLock = toggleExp; mParameters3A.FocusLock = toggleFocus; mParameters3A.WhiteBalanceLock = toggleWb; eError = OMX_GetConfig( mCameraAdapterParameters.mHandleComp, (OMX_INDEXTYPE)OMX_IndexConfigImageExposureLock, &lock); if ( OMX_ErrorNone != eError ) { CAMHAL_LOGEB("Error GetConfig Exposure Lock error = 0x%x", eError); goto EXIT; } else { CAMHAL_LOGDA("Exposure Lock GetConfig successfull"); /* Apply locks only when not applied already */ if ( lock.bLock != toggleExp ) { setExposureLock(mParameters3A); } } OMX_INIT_STRUCT_PTR (&lock, OMX_IMAGE_CONFIG_LOCKTYPE); lock.nPortIndex = mCameraAdapterParameters.mPrevPortIndex; eError = OMX_GetConfig( mCameraAdapterParameters.mHandleComp, (OMX_INDEXTYPE)OMX_IndexConfigImageFocusLock, &lock); if ( OMX_ErrorNone != eError ) { CAMHAL_LOGEB("Error GetConfig Focus Lock error = 0x%x", eError); goto EXIT; } else { CAMHAL_LOGDB("Focus Lock GetConfig successfull bLock(%d)", lock.bLock); /* Apply locks only when not applied already */ if ( lock.bLock != toggleFocus ) { setFocusLock(mParameters3A); } } OMX_INIT_STRUCT_PTR (&lock, OMX_IMAGE_CONFIG_LOCKTYPE); lock.nPortIndex = mCameraAdapterParameters.mPrevPortIndex; eError = OMX_GetConfig( mCameraAdapterParameters.mHandleComp, (OMX_INDEXTYPE)OMX_IndexConfigImageWhiteBalanceLock, &lock); if ( OMX_ErrorNone != eError ) { CAMHAL_LOGEB("Error GetConfig WhiteBalance Lock error = 0x%x", eError); goto EXIT; } else { CAMHAL_LOGDA("WhiteBalance Lock GetConfig successfull"); /* Apply locks only when not applied already */ if ( lock.bLock != toggleWb ) { setWhiteBalanceLock(mParameters3A); } } EXIT: return Utils::ErrorUtils::omxToAndroidError(eError); } status_t OMXCameraAdapter::setMeteringAreas(Gen3A_settings& Gen3A) { status_t ret = NO_ERROR; OMX_ERRORTYPE eError = OMX_ErrorNone; CameraBuffer *bufferlist; OMX_ALGOAREASTYPE *meteringAreas; OMX_TI_CONFIG_SHAREDBUFFER sharedBuffer; int areasSize = 0; LOG_FUNCTION_NAME android::AutoMutex lock(mMeteringAreasLock); if ( OMX_StateInvalid == mComponentState ) { CAMHAL_LOGEA("OMX component is in invalid state"); return NO_INIT; } areasSize = ((sizeof(OMX_ALGOAREASTYPE)+4095)/4096)*4096; bufferlist = mMemMgr.allocateBufferList(0, 0, NULL, areasSize, 1); meteringAreas = (OMX_ALGOAREASTYPE *)bufferlist[0].opaque; OMXCameraPortParameters * mPreviewData = NULL; mPreviewData = &mCameraAdapterParameters.mCameraPortParams[mCameraAdapterParameters.mPrevPortIndex]; if (!meteringAreas) { CAMHAL_LOGEB("Error allocating buffer for metering areas %d", eError); return -ENOMEM; } OMX_INIT_STRUCT_PTR (meteringAreas, OMX_ALGOAREASTYPE); meteringAreas->nPortIndex = OMX_ALL; meteringAreas->nNumAreas = mMeteringAreas.size(); meteringAreas->nAlgoAreaPurpose = OMX_AlgoAreaExposure; for ( unsigned int n = 0; n < mMeteringAreas.size(); n++) { int widthDivisor = 1; int heightDivisor = 1; if (mPreviewData->mFrameLayoutType == OMX_TI_StereoFrameLayoutTopBottom) { heightDivisor = 2; } if (mPreviewData->mFrameLayoutType == OMX_TI_StereoFrameLayoutLeftRight) { widthDivisor = 2; } // transform the coordinates to 3A-type coordinates mMeteringAreas.itemAt(n)->transfrom((size_t)mPreviewData->mWidth/widthDivisor, (size_t)mPreviewData->mHeight/heightDivisor, (size_t&)meteringAreas->tAlgoAreas[n].nTop, (size_t&)meteringAreas->tAlgoAreas[n].nLeft, (size_t&)meteringAreas->tAlgoAreas[n].nWidth, (size_t&)meteringAreas->tAlgoAreas[n].nHeight); meteringAreas->tAlgoAreas[n].nLeft = ( meteringAreas->tAlgoAreas[n].nLeft * METERING_AREAS_RANGE ) / mPreviewData->mWidth; meteringAreas->tAlgoAreas[n].nTop = ( meteringAreas->tAlgoAreas[n].nTop* METERING_AREAS_RANGE ) / mPreviewData->mHeight; meteringAreas->tAlgoAreas[n].nWidth = ( meteringAreas->tAlgoAreas[n].nWidth * METERING_AREAS_RANGE ) / mPreviewData->mWidth; meteringAreas->tAlgoAreas[n].nHeight = ( meteringAreas->tAlgoAreas[n].nHeight * METERING_AREAS_RANGE ) / mPreviewData->mHeight; meteringAreas->tAlgoAreas[n].nPriority = mMeteringAreas.itemAt(n)->getWeight(); CAMHAL_LOGDB("Metering area %d : top = %d left = %d width = %d height = %d prio = %d", n, (int)meteringAreas->tAlgoAreas[n].nTop, (int)meteringAreas->tAlgoAreas[n].nLeft, (int)meteringAreas->tAlgoAreas[n].nWidth, (int)meteringAreas->tAlgoAreas[n].nHeight, (int)meteringAreas->tAlgoAreas[n].nPriority); } OMX_INIT_STRUCT_PTR (&sharedBuffer, OMX_TI_CONFIG_SHAREDBUFFER); sharedBuffer.nPortIndex = OMX_ALL; sharedBuffer.nSharedBuffSize = areasSize; sharedBuffer.pSharedBuff = (OMX_U8 *)camera_buffer_get_omx_ptr (&bufferlist[0]); if ( NULL == sharedBuffer.pSharedBuff ) { CAMHAL_LOGEA("No resources to allocate OMX shared buffer"); ret = -ENOMEM; goto EXIT; } eError = OMX_SetConfig(mCameraAdapterParameters.mHandleComp, (OMX_INDEXTYPE) OMX_TI_IndexConfigAlgoAreas, &sharedBuffer); if ( OMX_ErrorNone != eError ) { CAMHAL_LOGEB("Error while setting Focus Areas configuration 0x%x", eError); ret = -EINVAL; } else { CAMHAL_LOGDA("Metering Areas SetConfig successfull."); } EXIT: if (NULL != bufferlist) { mMemMgr.freeBufferList(bufferlist); } return ret; } //TI extensions for enable/disable algos status_t OMXCameraAdapter::setParameter3ABoolInvert(const OMX_INDEXTYPE omx_idx, const OMX_BOOL data, const char *msg) { OMX_BOOL inv_data; if (OMX_TRUE == data) { inv_data = OMX_FALSE; } else if (OMX_FALSE == data) { inv_data = OMX_TRUE; } else { return BAD_VALUE; } return setParameter3ABool(omx_idx, inv_data, msg); } status_t OMXCameraAdapter::setParameter3ABool(const OMX_INDEXTYPE omx_idx, const OMX_BOOL data, const char *msg) { OMX_ERRORTYPE eError = OMX_ErrorNone; OMX_CONFIG_BOOLEANTYPE cfgdata; LOG_FUNCTION_NAME if ( OMX_StateInvalid == mComponentState ) { CAMHAL_LOGEA("OMX component is in invalid state"); return NO_INIT; } OMX_INIT_STRUCT_PTR (&cfgdata, OMX_CONFIG_BOOLEANTYPE); cfgdata.bEnabled = data; eError = OMX_SetConfig( mCameraAdapterParameters.mHandleComp, omx_idx, &cfgdata); if ( OMX_ErrorNone != eError ) { CAMHAL_LOGEB("Error while configuring %s error = 0x%x", msg, eError); } else { CAMHAL_LOGDB("%s configured successfully %d ", msg, cfgdata.bEnabled); } LOG_FUNCTION_NAME_EXIT return Utils::ErrorUtils::omxToAndroidError(eError); } status_t OMXCameraAdapter::setAlgoExternalGamma(Gen3A_settings& Gen3A) { return setParameter3ABool((OMX_INDEXTYPE) OMX_TI_IndexConfigExternalGamma, Gen3A.AlgoExternalGamma, "External Gamma"); } status_t OMXCameraAdapter::setAlgoNSF1(Gen3A_settings& Gen3A) { return setParameter3ABoolInvert((OMX_INDEXTYPE) OMX_TI_IndexConfigDisableNSF1, Gen3A.AlgoNSF1, "NSF1"); } status_t OMXCameraAdapter::setAlgoNSF2(Gen3A_settings& Gen3A) { return setParameter3ABoolInvert((OMX_INDEXTYPE) OMX_TI_IndexConfigDisableNSF2, Gen3A.AlgoNSF2, "NSF2"); } status_t OMXCameraAdapter::setAlgoSharpening(Gen3A_settings& Gen3A) { return setParameter3ABoolInvert((OMX_INDEXTYPE) OMX_TI_IndexConfigDisableSharpening, Gen3A.AlgoSharpening, "Sharpening"); } status_t OMXCameraAdapter::setAlgoThreeLinColorMap(Gen3A_settings& Gen3A) { return setParameter3ABoolInvert((OMX_INDEXTYPE) OMX_TI_IndexConfigDisableThreeLinColorMap, Gen3A.AlgoThreeLinColorMap, "Color Conversion"); } status_t OMXCameraAdapter::setAlgoGIC(Gen3A_settings& Gen3A) { return setParameter3ABoolInvert((OMX_INDEXTYPE) OMX_TI_IndexConfigDisableGIC, Gen3A.AlgoGIC, "Green Inballance Correction"); } status_t OMXCameraAdapter::setGammaTable(Gen3A_settings& Gen3A) { status_t ret = NO_ERROR; OMX_ERRORTYPE eError = OMX_ErrorNone; CameraBuffer *bufferlist = NULL; OMX_TI_CONFIG_GAMMATABLE_TYPE *gammaTable = NULL; OMX_TI_CONFIG_SHAREDBUFFER sharedBuffer; int tblSize = 0; LOG_FUNCTION_NAME; if ( OMX_StateInvalid == mComponentState ) { CAMHAL_LOGEA("OMX component is in invalid state"); ret = NO_INIT; goto EXIT; } tblSize = ((sizeof(OMX_TI_CONFIG_GAMMATABLE_TYPE)+4095)/4096)*4096; bufferlist = mMemMgr.allocateBufferList(0, 0, NULL, tblSize, 1); if (NULL == bufferlist) { CAMHAL_LOGEB("Error allocating buffer for gamma table"); ret = NO_MEMORY; goto EXIT; } gammaTable = (OMX_TI_CONFIG_GAMMATABLE_TYPE *)bufferlist[0].mapped; if (NULL == gammaTable) { CAMHAL_LOGEB("Error allocating buffer for gamma table (wrong data pointer)"); ret = NO_MEMORY; goto EXIT; } memcpy(gammaTable, &mParameters3A.mGammaTable, sizeof(OMX_TI_CONFIG_GAMMATABLE_TYPE)); #ifdef CAMERAHAL_DEBUG { android::String8 DmpR; android::String8 DmpG; android::String8 DmpB; for (unsigned int i=0; ipR[i].nOffset, (int)(int)gammaTable->pR[i].nSlope); DmpG.appendFormat(" %d:%d;", (int)gammaTable->pG[i].nOffset, (int)(int)gammaTable->pG[i].nSlope); DmpB.appendFormat(" %d:%d;", (int)gammaTable->pB[i].nOffset, (int)(int)gammaTable->pB[i].nSlope); } CAMHAL_LOGE("Gamma table R:%s", DmpR.string()); CAMHAL_LOGE("Gamma table G:%s", DmpG.string()); CAMHAL_LOGE("Gamma table B:%s", DmpB.string()); } #endif OMX_INIT_STRUCT_PTR (&sharedBuffer, OMX_TI_CONFIG_SHAREDBUFFER); sharedBuffer.nPortIndex = OMX_ALL; sharedBuffer.nSharedBuffSize = sizeof(OMX_TI_CONFIG_GAMMATABLE_TYPE); sharedBuffer.pSharedBuff = (OMX_U8 *)camera_buffer_get_omx_ptr (&bufferlist[0]); if ( NULL == sharedBuffer.pSharedBuff ) { CAMHAL_LOGEA("No resources to allocate OMX shared buffer"); ret = NO_MEMORY; goto EXIT; } eError = OMX_SetConfig(mCameraAdapterParameters.mHandleComp, (OMX_INDEXTYPE) OMX_TI_IndexConfigGammaTable, &sharedBuffer); if ( OMX_ErrorNone != eError ) { CAMHAL_LOGEB("Error while setting Gamma Table configuration 0x%x", eError); ret = BAD_VALUE; goto EXIT; } else { CAMHAL_LOGDA("Gamma Table SetConfig successfull."); } EXIT: if (NULL != bufferlist) { mMemMgr.freeBufferList(bufferlist); } LOG_FUNCTION_NAME_EXIT; return ret; } status_t OMXCameraAdapter::apply3Asettings( Gen3A_settings& Gen3A ) { status_t ret = NO_ERROR; unsigned int currSett; // 32 bit int portIndex; LOG_FUNCTION_NAME; android::AutoMutex lock(m3ASettingsUpdateLock); /* * Scenes have a priority during the process * of applying 3A related parameters. * They can override pretty much all other 3A * settings and similarly get overridden when * for instance the focus mode gets switched. * There is only one exception to this rule, * the manual a.k.a. auto scene. */ if (SetSceneMode & mPending3Asettings) { mPending3Asettings &= ~SetSceneMode; ret |= setScene(Gen3A); // re-apply EV compensation after setting scene mode since it probably reset it if(Gen3A.EVCompensation) { setEVCompensation(Gen3A); } return ret; } else if (OMX_Manual != Gen3A.SceneMode) { // only certain settings are allowed when scene mode is set mPending3Asettings &= (SetEVCompensation | SetFocus | SetWBLock | SetExpLock | SetWhiteBallance | SetFlash); if ( mPending3Asettings == 0 ) return NO_ERROR; } for( currSett = 1; currSett < E3aSettingMax; currSett <<= 1) { if( currSett & mPending3Asettings ) { switch( currSett ) { case SetEVCompensation: { ret |= setEVCompensation(Gen3A); break; } case SetWhiteBallance: { ret |= setWBMode(Gen3A); break; } case SetFlicker: { ret |= setFlicker(Gen3A); break; } case SetBrightness: { ret |= setBrightness(Gen3A); break; } case SetContrast: { ret |= setContrast(Gen3A); break; } case SetSharpness: { ret |= setSharpness(Gen3A); break; } case SetSaturation: { ret |= setSaturation(Gen3A); break; } case SetISO: { ret |= setISO(Gen3A); break; } case SetEffect: { ret |= setEffect(Gen3A); break; } case SetFocus: { ret |= setFocusMode(Gen3A); break; } case SetExpMode: { ret |= setExposureMode(Gen3A); break; } case SetManualExposure: { ret |= setManualExposureVal(Gen3A); break; } case SetFlash: { ret |= setFlashMode(Gen3A); break; } case SetExpLock: { ret |= setExposureLock(Gen3A); break; } case SetWBLock: { ret |= setWhiteBalanceLock(Gen3A); break; } case SetMeteringAreas: { ret |= setMeteringAreas(Gen3A); } break; //TI extensions for enable/disable algos case SetAlgoExternalGamma: { ret |= setAlgoExternalGamma(Gen3A); } break; case SetAlgoNSF1: { ret |= setAlgoNSF1(Gen3A); } break; case SetAlgoNSF2: { ret |= setAlgoNSF2(Gen3A); } break; case SetAlgoSharpening: { ret |= setAlgoSharpening(Gen3A); } break; case SetAlgoThreeLinColorMap: { ret |= setAlgoThreeLinColorMap(Gen3A); } break; case SetAlgoGIC: { ret |= setAlgoGIC(Gen3A); } break; case SetGammaTable: { ret |= setGammaTable(Gen3A); } break; default: CAMHAL_LOGEB("this setting (0x%x) is still not supported in CameraAdapter ", currSett); break; } mPending3Asettings &= ~currSett; } } LOG_FUNCTION_NAME_EXIT; return ret; } } // namespace Camera } // namespace Ti