/* * 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 OMXCap.cpp * * This file implements the OMX Capabilities feature. * */ #include "CameraHal.h" #include "OMXCameraAdapter.h" #include "ErrorUtils.h" #include "TICameraParameters.h" namespace Ti { namespace Camera { /************************************ * global constants and variables *************************************/ #define ARRAY_SIZE(array) (sizeof((array)) / sizeof((array)[0])) static const char PARAM_SEP[] = ","; static const uint32_t VFR_OFFSET = 8; static const char FPS_STR_MAX_LEN = 10; static const unsigned int MANUAL_EXPOSURE_STEP = 1; static const unsigned int MANUAL_GAIN_ISO_MIN = 100; static const unsigned int MANUAL_GAIN_ISO_STEP = 100; const int OMXCameraAdapter::SENSORID_IMX060 = 300; const int OMXCameraAdapter::SENSORID_OV5650 = 301; const int OMXCameraAdapter::SENSORID_OV5640 = 302; const int OMXCameraAdapter::SENSORID_OV14825 = 304; const int OMXCameraAdapter::SENSORID_S5K4E1GA = 305; const int OMXCameraAdapter::SENSORID_S5K6A1GX03 = 306; const int OMXCameraAdapter::SENSORID_OV8830 = 310; const int OMXCameraAdapter::SENSORID_OV2722 = 311; const int OMXCameraAdapter::SENSORID_OV9726 = 312; const int OMXCameraAdapter::FPS_MIN = 5; const int OMXCameraAdapter::FPS_MAX = 30; const int OMXCameraAdapter::FPS_MAX_EXTENDED = 60; inline static int androidFromDucatiFrameRate(OMX_U32 frameRate) { return (frameRate >> VFR_OFFSET) * CameraHal::VFR_SCALE; } /**** look up tables to translate OMX Caps to Parameter ****/ const CapResolution OMXCameraAdapter::mImageCapRes [] = { { 4416, 3312, "4416x3312" }, { 4032, 3024, "4032x3024" }, { 4000, 3000, "4000x3000" }, { 3648, 2736, "3648x2736" }, { 3264, 2448, "3264x2448" }, { 2608, 1960, "2608x1960" }, { 2592, 1944, "2592x1944" }, { 2592, 1728, "2592x1728" }, { 2592, 1458, "2592x1458" }, { 2400, 1350, "2400x1350" }, { 2304, 1296, "2304x1296" }, { 2240, 1344, "2240x1344" }, { 2160, 1440, "2160x1440" }, { 2112, 1728, "2112x1728" }, { 2112, 1188, "2112x1188" }, { 2048, 1536, "2048x1536" }, { 2016, 1512, "2016x1512" }, { 2016, 1134, "2016x1134" }, { 2000, 1600, "2000x1600" }, { 1920, 1080, "1920x1080" }, { 1600, 1200, "1600x1200" }, { 1600, 900, "1600x900" }, { 1536, 864, "1536x864" }, { 1408, 792, "1408x792" }, { 1344, 756, "1344x756" }, { 1280, 1024, "1280x1024" }, { 1280, 720, "1280x720" }, { 1152, 864, "1152x864" }, { 1280, 960, "1280x960" }, { 1024, 768, "1024x768" }, { 640, 480, "640x480" }, { 320, 240, "320x240" }, }; const CapResolution OMXCameraAdapter::mImageCapResSS [] = { { 4032*2, 3024, "8064x3024" }, { 3648*2, 2736, "7296x2736" }, { 3264*2, 2448, "6528x2448" }, { 2592*2, 1944, "5184x1944" }, { 2048*2, 1536, "4096x1536" }, { 1600*2, 1200, "3200x1200" }, { 1280*2, 960, "2560x960" }, { 1280*2, 720, "2560x720" }, { 1024*2, 768, "2048x768" }, { 640*2, 480, "1280x480" }, { 320*2, 240, "640x240" }, }; const CapResolution OMXCameraAdapter::mImageCapResTB [] = { { 4032, 3024*2, "4032x6048" }, { 3648, 2736*2, "3648x5472" }, { 3264, 2448*2, "3264x4896" }, { 2592, 1944*2, "2592x3888" }, { 2048, 1536*2, "2048x3072" }, { 1600, 1200*2, "1600x2400" }, { 1280, 960*2, "1280x1920" }, { 1280, 720*2, "1280x1440" }, { 1024, 768*2, "1024x1536" }, { 640, 480*2, "640x960" }, { 320, 240*2, "320x480" }, }; const CapResolution OMXCameraAdapter::mPreviewRes [] = { { 1920, 1080, "1920x1080" }, { 1280, 720, "1280x720" }, { 960, 720, "960x720" }, { 800, 480, "800x480" }, { 720, 576, "720x576" }, { 720, 480, "720x480" }, { 768, 576, "768x576" }, { 640, 480, "640x480" }, { 320, 240, "320x240" }, { 352, 288, "352x288" }, { 240, 160, "240x160" }, { 176, 144, "176x144" }, { 160, 120, "160x120" }, { 128, 96, "128x96" }, }; const CapResolution OMXCameraAdapter::mPreviewPortraitRes [] = { //Portrait resolutions { 1088, 1920, "1088x1920" }, { 720, 1280, "720x1280" }, { 480, 800, "480x800" }, { 576, 720, "576x720" }, { 576, 768, "576x768" }, { 480, 720, "480x720" }, { 480, 640, "480x640" }, { 288, 352, "288x352" }, { 240, 320, "240x320" }, { 160, 240, "160x240" }, { 144, 176, "144x176" }, { 120, 160, "120x160"}, { 96, 128, "96x128" } }; const CapResolution OMXCameraAdapter::mPreviewResSS [] = { { 1920*2, 1080, "3840x1080" }, { 1280*2, 720, "2560x720" }, { 800*2, 480, "1600x480" }, { 720*2, 576, "1440x576" }, { 720*2, 480, "1440x480" }, { 768*2, 576, "1536x576" }, { 640*2, 480, "1280x480" }, { 320*2, 240, "640x240" }, { 352*2, 288, "704x288" }, { 240*2, 160, "480x160" }, { 176*2, 144, "352x144" }, { 128*2, 96, "256x96" } }; const CapResolution OMXCameraAdapter::mPreviewResTB [] = { { 1920, 1080*2, "1920x2160" }, { 1280, 720*2, "1280x1440" }, { 800, 480*2, "800x960" }, { 720, 576*2, "720x1152" }, { 720, 480*2, "720x960" }, { 768, 576*2, "768x1152" }, { 640, 480*2, "640x960" }, { 320, 240*2, "320x480" }, { 352, 288*2, "352x576" }, { 240, 160*2, "240x320" }, { 176, 144*2, "176x288" }, { 128, 96*2, "128x192" }, }; const CapResolution OMXCameraAdapter::mThumbRes [] = { { 640, 480, "640x480" }, { 160, 120, "160x120" }, { 200, 120, "200x120" }, { 320, 240, "320x240" }, { 512, 384, "512x384" }, { 352, 144, "352x144" }, { 176, 144, "176x144" }, { 96, 96, "96x96" }, }; const CapPixelformat OMXCameraAdapter::mPixelformats [] = { { OMX_COLOR_FormatCbYCrY, android::CameraParameters::PIXEL_FORMAT_YUV422I }, { OMX_COLOR_FormatYUV420SemiPlanar, android::CameraParameters::PIXEL_FORMAT_YUV420SP }, { OMX_COLOR_Format16bitRGB565, android::CameraParameters::PIXEL_FORMAT_RGB565 }, { OMX_COLOR_FormatYUV420SemiPlanar, android::CameraParameters::PIXEL_FORMAT_YUV420P }, { OMX_COLOR_FormatUnused, TICameraParameters::PIXEL_FORMAT_UNUSED }, { OMX_COLOR_FormatRawBayer10bit, android::CameraParameters::PIXEL_FORMAT_BAYER_RGGB }, }; const userToOMX_LUT OMXCameraAdapter::mFrameLayout [] = { { TICameraParameters::S3D_NONE, OMX_TI_StereoFrameLayout2D }, { TICameraParameters::S3D_TB_FULL, OMX_TI_StereoFrameLayoutTopBottom }, { TICameraParameters::S3D_SS_FULL, OMX_TI_StereoFrameLayoutLeftRight }, { TICameraParameters::S3D_TB_SUBSAMPLED, OMX_TI_StereoFrameLayoutTopBottomSubsample }, { TICameraParameters::S3D_SS_SUBSAMPLED, OMX_TI_StereoFrameLayoutLeftRightSubsample }, }; const LUTtype OMXCameraAdapter::mLayoutLUT = { ARRAY_SIZE(mFrameLayout), mFrameLayout }; const CapCodingFormat OMXCameraAdapter::mImageCodingFormat [] = { { OMX_IMAGE_CodingJPEG, android::CameraParameters::PIXEL_FORMAT_JPEG }, { (OMX_IMAGE_CODINGTYPE)OMX_TI_IMAGE_CodingJPS, TICameraParameters::PIXEL_FORMAT_JPS }, { (OMX_IMAGE_CODINGTYPE)OMX_TI_IMAGE_CodingMPO, TICameraParameters::PIXEL_FORMAT_MPO }, }; const CapFramerate OMXCameraAdapter::mFramerates [] = { { 60, "60" }, { 30, "30" }, { 24, "24" }, { 20, "20" }, { 15, "15" }, { 10, "10" }, }; const CapZoom OMXCameraAdapter::mZoomStages [] = { { 65536, "100" }, { 68157, "104" }, { 70124, "107" }, { 72745, "111" }, { 75366, "115" }, { 77988, "119" }, { 80609, "123" }, { 83231, "127" }, { 86508, "132" }, { 89784, "137" }, { 92406, "141" }, { 95683, "146" }, { 99615, "152" }, { 102892, "157" }, { 106168, "162" }, { 110100, "168" }, { 114033, "174" }, { 117965, "180" }, { 122552, "187" }, { 126484, "193" }, { 131072, "200" }, { 135660, "207" }, { 140247, "214" }, { 145490, "222" }, { 150733, "230" }, { 155976, "238" }, { 161219, "246" }, { 167117, "255" }, { 173015, "264" }, { 178913, "273" }, { 185467, "283" }, { 192020, "293" }, { 198574, "303" }, { 205783, "314" }, { 212992, "325" }, { 220201, "336" }, { 228065, "348" }, { 236585, "361" }, { 244449, "373" }, { 252969, "386" }, { 262144, "400" }, { 271319, "414" }, { 281149, "429" }, { 290980, "444" }, { 300810, "459" }, { 311951, "476" }, { 322437, "492" }, { 334234, "510" }, { 346030, "528" }, { 357827, "546" }, { 370934, "566" }, { 384041, "586" }, { 397148, "606" }, { 411566, "628" }, { 425984, "650" }, { 441057, "673" }, { 456131, "696" }, { 472515, "721" }, { 488899, "746" }, { 506593, "773" }, { 524288, "800" }, }; const CapISO OMXCameraAdapter::mISOStages [] = { { 0, "auto" }, { 100, "100" }, { 200, "200"}, { 400, "400" }, { 800, "800" }, { 1000, "1000" }, { 1200, "1200" }, { 1600, "1600" }, }; // mapped values have to match with new_sensor_MSP.h const CapU32 OMXCameraAdapter::mSensorNames [] = { { SENSORID_IMX060, "IMX060" }, { SENSORID_OV5650, "OV5650" }, { SENSORID_OV5640, "OV5640" }, { SENSORID_OV14825, "OV14825"}, { SENSORID_S5K4E1GA, "S5K4E1GA"}, { SENSORID_S5K6A1GX03, "S5K6A1GX03" }, { SENSORID_OV8830, "OV8830" }, { SENSORID_OV2722, "OV2722" }, { SENSORID_OV9726, "OV9726" } // TODO(XXX): need to account for S3D camera later }; const userToOMX_LUT OMXCameraAdapter::mAutoConvergence [] = { { TICameraParameters::AUTOCONVERGENCE_MODE_DISABLE, OMX_TI_AutoConvergenceModeDisable }, { TICameraParameters::AUTOCONVERGENCE_MODE_FRAME, OMX_TI_AutoConvergenceModeFrame }, { TICameraParameters::AUTOCONVERGENCE_MODE_CENTER, OMX_TI_AutoConvergenceModeCenter }, { TICameraParameters::AUTOCONVERGENCE_MODE_TOUCH, OMX_TI_AutoConvergenceModeFocusFaceTouch }, { TICameraParameters::AUTOCONVERGENCE_MODE_MANUAL, OMX_TI_AutoConvergenceModeManual } }; const LUTtype OMXCameraAdapter::mAutoConvergenceLUT = { ARRAY_SIZE(mAutoConvergence), mAutoConvergence }; const userToOMX_LUT OMXCameraAdapter::mBracketingModes [] = { { TICameraParameters::TEMP_BRACKETING , OMX_BracketTemporal }, { TICameraParameters::EXPOSURE_BRACKETING , OMX_BracketExposureRelativeInEV } }; const LUTtype OMXCameraAdapter::mBracketingModesLUT = { ARRAY_SIZE(mBracketingModes), mBracketingModes }; // values for supported camera facing direction const CapU32 OMXCameraAdapter::mFacing [] = { { OMX_TI_SENFACING_BACK , TICameraParameters::FACING_BACK }, { OMX_TI_SENFACING_FRONT, TICameraParameters::FACING_FRONT}, }; /***************************************** * internal static function declarations *****************************************/ /**** Utility functions to help translate OMX Caps to Parameter ****/ status_t OMXCameraAdapter::encodeImageCodingFormatCap(OMX_IMAGE_CODINGTYPE format, const CapCodingFormat *cap, size_t capCount, char * buffer) { status_t ret = NO_ERROR; LOG_FUNCTION_NAME; if ( ( NULL == buffer ) || ( NULL == cap ) ) { CAMHAL_LOGEA("Invalid input arguments"); ret = -EINVAL; } if ( NO_ERROR == ret ) { for ( unsigned int i = 0 ; i < capCount ; i++ ) { if ( format == cap[i].imageCodingFormat ) { if (buffer[0] != '\0') { strncat(buffer, PARAM_SEP, ((((int)MAX_PROP_VALUE_LENGTH - 1 - (int)strlen(buffer)) < 0) ? 0 : (MAX_PROP_VALUE_LENGTH - 1 - strlen(buffer)))); } strncat(buffer, cap[i].param, ((((int)MAX_PROP_VALUE_LENGTH - 1 - (int)strlen(buffer)) < 0) ? 0 : (MAX_PROP_VALUE_LENGTH - 1 - strlen(buffer)))); } } } LOG_FUNCTION_NAME_EXIT; return ret; } status_t OMXCameraAdapter::encodePixelformatCap(OMX_COLOR_FORMATTYPE format, const CapPixelformat *cap, size_t capCount, char * buffer, size_t bufferSize) { status_t ret = NO_ERROR; LOG_FUNCTION_NAME; if ( ( NULL == buffer ) || ( NULL == cap ) ) { CAMHAL_LOGEA("Invalid input arguments"); return -EINVAL; } for ( unsigned int i = 0 ; i < capCount ; i++ ) { if ( format == cap[i].pixelformat ) { if (buffer[0] != '\0') { strncat(buffer, PARAM_SEP, bufferSize - 1); } strncat(buffer, cap[i].param, bufferSize - 1); } } LOG_FUNCTION_NAME_EXIT; return ret; } void OMXCameraAdapter::encodeFrameRates(const int minFrameRate, const int maxFrameRate, const OMX_TI_CAPTYPE & caps, const CapFramerate * const fixedFrameRates, const int frameRateCount, android::Vector & fpsRanges) { LOG_FUNCTION_NAME; if ( minFrameRate == maxFrameRate ) { // single fixed frame rate supported fpsRanges.add(FpsRange(minFrameRate, maxFrameRate)); return; } // insert min and max frame rates fpsRanges.add(FpsRange(minFrameRate, minFrameRate)); fpsRanges.add(FpsRange(maxFrameRate, maxFrameRate)); // insert variable frame rates for ( int i = 0; i < static_cast(caps.ulPrvVarFPSModesCount); ++i ) { const FpsRange fpsRange = FpsRange( max(androidFromDucatiFrameRate(caps.tPrvVarFPSModes[i].nVarFPSMin), minFrameRate), min(androidFromDucatiFrameRate(caps.tPrvVarFPSModes[i].nVarFPSMax), maxFrameRate)); if ( fpsRange.isFixed() ) { // this range is either min or max fixed frame rate, already added above continue; } fpsRanges.add(fpsRange); } // insert fixed frame rates for ( int i = 0; i < frameRateCount; ++i ) { const int fixedFrameRate = fixedFrameRates[i].num * CameraHal::VFR_SCALE; if ( fixedFrameRate < minFrameRate || fixedFrameRate > maxFrameRate ) { // not supported by hardware continue; } const FpsRange fpsRange = FpsRange(fixedFrameRate, fixedFrameRate); fpsRanges.add(fpsRange); } // sort first by max, then by min, according to Android API requirements fpsRanges.sort(FpsRange::compare); // remove duplicated frame rates for ( int i = 0; i < static_cast(fpsRanges.size()) - 1; ) { const FpsRange & current = fpsRanges.itemAt(i); const FpsRange & next = fpsRanges.itemAt(i + 1); if ( current == next ) { fpsRanges.removeAt(i + 1); } else { i++; } } } size_t OMXCameraAdapter::encodeZoomCap(OMX_S32 maxZoom, const CapZoom *cap, size_t capCount, char * buffer, size_t bufferSize) { status_t res = NO_ERROR; size_t ret = 0; LOG_FUNCTION_NAME; if ( (NULL == buffer) || (NULL == cap) ) { CAMHAL_LOGEA("Invalid input arguments"); return -EINVAL; } for ( unsigned int i = 0; i < capCount; i++ ) { if ( cap[i].num <= maxZoom ) { if (buffer[0] != '\0') { strncat(buffer, PARAM_SEP, bufferSize - 1); } strncat(buffer, cap[i].param, bufferSize - 1); ret++; } } LOG_FUNCTION_NAME_EXIT; return ret; } status_t OMXCameraAdapter::encodeISOCap(OMX_U32 maxISO, const CapISO *cap, size_t capCount, char * buffer, size_t bufferSize) { status_t ret = NO_ERROR; LOG_FUNCTION_NAME; if ( (NULL == buffer) || (NULL == cap) ) { CAMHAL_LOGEA("Invalid input arguments"); return -EINVAL; } for ( unsigned int i = 0; i < capCount; i++ ) { if ( cap[i].num <= maxISO) { if (buffer[0] != '\0') { strncat(buffer, PARAM_SEP, bufferSize - 1); } strncat(buffer, cap[i].param, bufferSize - 1); } } LOG_FUNCTION_NAME_EXIT; return ret; } status_t OMXCameraAdapter::encodeSizeCap(OMX_TI_CAPRESTYPE &res, const CapResolution *cap, size_t capCount, char * buffer, size_t bufferSize) { status_t ret = NO_ERROR; LOG_FUNCTION_NAME; if ( (NULL == buffer) || (NULL == cap) ) { CAMHAL_LOGEA("Invalid input arguments"); return -EINVAL; } for ( unsigned int i = 0 ; i < capCount ; i++ ) { if ( (cap[i].width <= res.nWidthMax) && (cap[i].height <= res.nHeightMax) && (cap[i].width >= res.nWidthMin) && (cap[i].height >= res.nHeightMin) ) { if (buffer[0] != '\0') { strncat(buffer, PARAM_SEP, bufferSize - 1); } strncat(buffer, cap[i].param, bufferSize -1); } } LOG_FUNCTION_NAME_EXIT; return ret; } #ifdef OMAP_ENHANCEMENT_S3D status_t OMXCameraAdapter::encodeSizeCap3D(OMX_TI_CAPRESTYPE &res, const CapResolution *cap, size_t capCount, char * buffer, size_t bufferSize) { status_t ret = NO_ERROR; LOG_FUNCTION_NAME; if ( (NULL == buffer) || (NULL == cap) ) { CAMHAL_LOGEA("Invalid input arguments"); return -EINVAL; } for ( unsigned int i = 0 ; i < capCount ; i++ ) { if ( (cap[i].width <= res.nWidthMax) && (cap[i].height <= res.nHeightMax) && (cap[i].width >= res.nWidthMin) && (cap[i].height >= res.nHeightMin) && (cap[i].width * cap[i].height <= res.nMaxResInPixels)) { if (buffer[0] != '\0') { strncat(buffer, PARAM_SEP, bufferSize - 1); } strncat(buffer, cap[i].param, bufferSize -1); } } LOG_FUNCTION_NAME_EXIT; return ret; } #endif status_t OMXCameraAdapter::insertImageSizes(CameraProperties::Properties* params, OMX_TI_CAPTYPE &caps) { status_t ret = NO_ERROR; char supported[MAX_PROP_VALUE_LENGTH]; int s3d_detected = 0; int s3d_ss_detected = 0; int s3d_tb_detected = 0; LOG_FUNCTION_NAME; #ifdef OMAP_ENHANCEMENT_S3D for ( unsigned int i = 0 ; i < caps.ulCapFrameLayoutCount; i++ ) { if (caps.eCapFrameLayout[i] == OMX_TI_StereoFrameLayoutTopBottom) { s3d_tb_detected = 1; } else if (caps.eCapFrameLayout[i] == OMX_TI_StereoFrameLayoutLeftRight) { s3d_ss_detected = 1; } else if ( (caps.eCapFrameLayout[i] == OMX_TI_StereoFrameLayoutTopBottomSubsample) || (caps.eCapFrameLayout[i] == OMX_TI_StereoFrameLayoutLeftRightSubsample) ) { s3d_detected = 1; } } #endif memset(supported, '\0', MAX_PROP_VALUE_LENGTH); // Check if we are in 2d mode if (!s3d_ss_detected && !s3d_tb_detected && !s3d_detected) { ret = encodeSizeCap(caps.tImageResRange, mImageCapRes, ARRAY_SIZE(mImageCapRes), supported, MAX_PROP_VALUE_LENGTH); if ( NO_ERROR != ret ) { CAMHAL_LOGEB("Error inserting supported picture sizes 0x%x", ret); } else { params->set(CameraProperties::SUPPORTED_PICTURE_SIZES, supported); } params->set(CameraProperties::MAX_PICTURE_WIDTH, caps.tImageResRange.nWidthMax); params->set(CameraProperties::MAX_PICTURE_HEIGHT, caps.tImageResRange.nHeightMax); } #ifdef OMAP_ENHANCEMENT_S3D else // 3d mode { if (s3d_tb_detected) { ret = encodeSizeCap3D(caps.tImageResRange, mImageCapResTB, ARRAY_SIZE(mImageCapResTB), supported, MAX_PROP_VALUE_LENGTH); if ( NO_ERROR != ret ) { CAMHAL_LOGEB("Error inserting supported picture sizes 0x%x", ret); } else { params->set(CameraProperties::SUPPORTED_PICTURE_TOPBOTTOM_SIZES, supported); } } else { params->set(CameraProperties::SUPPORTED_PICTURE_TOPBOTTOM_SIZES, supported); } memset(supported, '\0', MAX_PROP_VALUE_LENGTH); if (s3d_ss_detected) { ret = encodeSizeCap3D(caps.tImageResRange, mImageCapResSS, ARRAY_SIZE(mImageCapResSS), supported, MAX_PROP_VALUE_LENGTH); if ( NO_ERROR != ret ) { CAMHAL_LOGEB("Error inserting supported picture sizes 0x%x", ret); } else { params->set(CameraProperties::SUPPORTED_PICTURE_SIDEBYSIDE_SIZES, supported); } } else { params->set(CameraProperties::SUPPORTED_PICTURE_SIDEBYSIDE_SIZES, supported); } memset(supported, '\0', MAX_PROP_VALUE_LENGTH); if (s3d_detected) { ret = encodeSizeCap3D(caps.tImageResRange, mImageCapRes, ARRAY_SIZE(mImageCapRes), supported, MAX_PROP_VALUE_LENGTH); if ( NO_ERROR != ret ) { CAMHAL_LOGEB("Error inserting supported picture sizes 0x%x", ret); } else { params->set(CameraProperties::SUPPORTED_PICTURE_SUBSAMPLED_SIZES, supported); } } else { params->set(CameraProperties::SUPPORTED_PICTURE_SUBSAMPLED_SIZES, supported); } } #endif LOG_FUNCTION_NAME_EXIT; return ret; } status_t OMXCameraAdapter::insertPreviewSizes(CameraProperties::Properties* params, OMX_TI_CAPTYPE &caps) { status_t ret = NO_ERROR; char supported[MAX_PROP_VALUE_LENGTH]; int s3d_detected = 0; int s3d_ss_detected = 0; int s3d_tb_detected = 0; LOG_FUNCTION_NAME; #ifdef OMAP_ENHANCEMENT_S3D for ( unsigned int i = 0 ; i < caps.ulPrvFrameLayoutCount; i++ ) { if (caps.ePrvFrameLayout[i] == OMX_TI_StereoFrameLayoutTopBottom) { s3d_tb_detected = 1; } else if (caps.ePrvFrameLayout[i] == OMX_TI_StereoFrameLayoutLeftRight) { s3d_ss_detected = 1; } else if ( (caps.ePrvFrameLayout[i] == OMX_TI_StereoFrameLayoutTopBottomSubsample) || (caps.ePrvFrameLayout[i] == OMX_TI_StereoFrameLayoutLeftRightSubsample) ) { s3d_detected = 1; } } #endif memset(supported, '\0', MAX_PROP_VALUE_LENGTH); // Check if we are in 2d mode if (!s3d_ss_detected && !s3d_tb_detected && !s3d_detected) { ret = encodeSizeCap(caps.tPreviewResRange, mPreviewRes, ARRAY_SIZE(mPreviewRes), supported, MAX_PROP_VALUE_LENGTH); if ( NO_ERROR != ret ) { CAMHAL_LOGEB("Error inserting supported Landscape preview sizes 0x%x", ret); return ret; } #ifndef CAMERAHAL_TUNA /* Insert Portait Resolutions by verifying Potrait Capability Support */ ret = encodeSizeCap(caps.tRotatedPreviewResRange, mPreviewPortraitRes, ARRAY_SIZE(mPreviewPortraitRes), supported, MAX_PROP_VALUE_LENGTH); #endif if ( NO_ERROR != ret ) { CAMHAL_LOGEB("Error inserting supported Potrait preview sizes 0x%x", ret); } else { params->set(CameraProperties::SUPPORTED_PREVIEW_SIZES, supported); } } #ifdef OMAP_ENHANCEMENT_S3D else // 3d mode { if (s3d_tb_detected) { ret = encodeSizeCap3D(caps.tPreviewResRange, mPreviewResTB, ARRAY_SIZE(mPreviewResTB), supported, MAX_PROP_VALUE_LENGTH); if ( NO_ERROR != ret ) { CAMHAL_LOGEB("Error inserting supported 3D TB preview sizes 0x%x", ret); return ret; } else { params->set(CameraProperties::SUPPORTED_PREVIEW_TOPBOTTOM_SIZES, supported); } } else { params->set(CameraProperties::SUPPORTED_PREVIEW_TOPBOTTOM_SIZES, supported); } memset(supported, '\0', MAX_PROP_VALUE_LENGTH); if (s3d_ss_detected) { ret = encodeSizeCap3D(caps.tPreviewResRange, mPreviewResSS, ARRAY_SIZE(mPreviewResSS), supported, MAX_PROP_VALUE_LENGTH); if ( NO_ERROR != ret ) { CAMHAL_LOGEB("Error inserting supported 3D SS preview sizes 0x%x", ret); return ret; } else { params->set(CameraProperties::SUPPORTED_PREVIEW_SIDEBYSIDE_SIZES, supported); } } else { params->set(CameraProperties::SUPPORTED_PREVIEW_SIDEBYSIDE_SIZES, supported); } memset(supported, '\0', MAX_PROP_VALUE_LENGTH); if (s3d_detected) { ret = encodeSizeCap3D(caps.tPreviewResRange, mPreviewRes, ARRAY_SIZE(mPreviewRes), supported, MAX_PROP_VALUE_LENGTH); if ( NO_ERROR != ret ) { CAMHAL_LOGEB("Error inserting supported preview sizes 0x%x", ret); return ret; } else { params->set(CameraProperties::SUPPORTED_PREVIEW_SUBSAMPLED_SIZES, supported); } } else { params->set(CameraProperties::SUPPORTED_PREVIEW_SUBSAMPLED_SIZES, supported); } } #endif LOG_FUNCTION_NAME_EXIT; return ret; } status_t OMXCameraAdapter::insertVideoSizes(CameraProperties::Properties* params, OMX_TI_CAPTYPE &caps) { status_t ret = NO_ERROR; char supported[MAX_PROP_VALUE_LENGTH]; LOG_FUNCTION_NAME; memset(supported, '\0', MAX_PROP_VALUE_LENGTH); ret = encodeSizeCap(caps.tPreviewResRange, mPreviewRes, ARRAY_SIZE(mPreviewRes), supported, MAX_PROP_VALUE_LENGTH); if ( NO_ERROR != ret ) { CAMHAL_LOGEB("Error inserting supported video sizes 0x%x", ret); } else { params->set(CameraProperties::SUPPORTED_VIDEO_SIZES, supported); } LOG_FUNCTION_NAME_EXIT; return ret; } status_t OMXCameraAdapter::insertThumbSizes(CameraProperties::Properties* params, OMX_TI_CAPTYPE &caps) { status_t ret = NO_ERROR; char supported[MAX_PROP_VALUE_LENGTH]; LOG_FUNCTION_NAME; memset(supported, '\0', MAX_PROP_VALUE_LENGTH); ret = encodeSizeCap(caps.tThumbResRange, mThumbRes, ARRAY_SIZE(mThumbRes), supported, MAX_PROP_VALUE_LENGTH); if ( NO_ERROR != ret ) { CAMHAL_LOGEB("Error inserting supported thumbnail sizes 0x%x", ret); } else { //CTS Requirement: 0x0 should always be supported if (supported[0] != '\0') { strncat(supported, PARAM_SEP, 1); } strncat(supported, "0x0", MAX_PROP_NAME_LENGTH); params->set(CameraProperties::SUPPORTED_THUMBNAIL_SIZES, supported); } LOG_FUNCTION_NAME_EXIT; return ret; } status_t OMXCameraAdapter::insertZoomStages(CameraProperties::Properties* params, OMX_TI_CAPTYPE &caps) { status_t ret = NO_ERROR; char supported[MAX_PROP_VALUE_LENGTH]; size_t zoomStageCount = 0; LOG_FUNCTION_NAME; memset(supported, '\0', MAX_PROP_VALUE_LENGTH); zoomStageCount = encodeZoomCap(caps.xMaxWidthZoom, mZoomStages, ARRAY_SIZE(mZoomStages), supported, MAX_PROP_VALUE_LENGTH); params->set(CameraProperties::SUPPORTED_ZOOM_RATIOS, supported); params->set(CameraProperties::SUPPORTED_ZOOM_STAGES, zoomStageCount - 1); //As per CTS requirement if ( 0 == zoomStageCount ) { params->set(CameraProperties::ZOOM_SUPPORTED, android::CameraParameters::FALSE); params->set(CameraProperties::SMOOTH_ZOOM_SUPPORTED, android::CameraParameters::FALSE); } else { params->set(CameraProperties::ZOOM_SUPPORTED, android::CameraParameters::TRUE); params->set(CameraProperties::SMOOTH_ZOOM_SUPPORTED, android::CameraParameters::TRUE); } LOG_FUNCTION_NAME_EXIT; return ret; } status_t OMXCameraAdapter::insertImageFormats(CameraProperties::Properties* params, OMX_TI_CAPTYPE &caps) { status_t ret = NO_ERROR; char supported[MAX_PROP_VALUE_LENGTH]; LOG_FUNCTION_NAME; memset(supported, '\0', sizeof(supported)); for ( int i = 0 ; i < caps.ulImageFormatCount ; i++ ) { ret = encodePixelformatCap(caps.eImageFormats[i], mPixelformats, ARRAY_SIZE(mPixelformats), supported, MAX_PROP_VALUE_LENGTH); if ( NO_ERROR != ret ) { CAMHAL_LOGEB("Error inserting supported picture formats 0x%x", ret); break; } } #ifndef CAMERAHAL_TUNA for (int i = 0; i < caps.ulImageCodingFormatCount ; i++) { ret = encodeImageCodingFormatCap(caps.eImageCodingFormat[i], mImageCodingFormat, ARRAY_SIZE(mImageCodingFormat), supported); if ( NO_ERROR != ret ) { CAMHAL_LOGEB("Error inserting supported picture formats 0x%x", ret); break; } } #endif if ( NO_ERROR == ret ) { #ifdef CAMERAHAL_TUNA // jpeg is supported but not advertised if (supported[0] != '\0') { strncat(supported, PARAM_SEP, 1); } strncat(supported, android::CameraParameters::PIXEL_FORMAT_JPEG, MAX_PROP_VALUE_LENGTH - 1); #endif params->set(CameraProperties::SUPPORTED_PICTURE_FORMATS, supported); } LOG_FUNCTION_NAME_EXIT; return ret; } status_t OMXCameraAdapter::insertPreviewFormats(CameraProperties::Properties* params, OMX_TI_CAPTYPE &caps) { status_t ret = NO_ERROR; char supported[MAX_PROP_VALUE_LENGTH]; LOG_FUNCTION_NAME; memset(supported, '\0', MAX_PROP_VALUE_LENGTH); for ( int i = 0 ; i < caps.ulPreviewFormatCount; i++ ) { ret = encodePixelformatCap(caps.ePreviewFormats[i], mPixelformats, ARRAY_SIZE(mPixelformats), supported, MAX_PROP_VALUE_LENGTH); if ( NO_ERROR != ret ) { CAMHAL_LOGEB("Error inserting supported preview formats 0x%x", ret); break; } } if ( NO_ERROR == ret ) { // need to advertise we support YV12 format // We will program preview port with NV21 when we see application set YV12 if (supported[0] != '\0') { strncat(supported, PARAM_SEP, 1); } strncat(supported, android::CameraParameters::PIXEL_FORMAT_YUV420P, MAX_PROP_VALUE_LENGTH - 1); params->set(CameraProperties::SUPPORTED_PREVIEW_FORMATS, supported); } LOG_FUNCTION_NAME_EXIT; return ret; } status_t OMXCameraAdapter::insertFramerates(CameraProperties::Properties* params, OMX_TI_CAPTYPE &caps) { // collect supported normal frame rates { android::Vector fpsRanges; // HASH: Fix JEM Amazon Ducati xFramerates which are [1 .. 30] vs [256 .. 7680] int minFrameRate = -1; if (caps.xFramerateMin >= 50) minFrameRate = max(FPS_MIN * CameraHal::VFR_SCALE, androidFromDucatiFrameRate(caps.xFramerateMin)); else minFrameRate = max(FPS_MIN * CameraHal::VFR_SCALE, androidFromDucatiFrameRate(caps.xFramerateMin << 8)); int maxFrameRate = -1; if (caps.xFramerateMax >= 50) maxFrameRate = min(FPS_MAX * CameraHal::VFR_SCALE, androidFromDucatiFrameRate(caps.xFramerateMax)); else maxFrameRate = min(FPS_MAX * CameraHal::VFR_SCALE, androidFromDucatiFrameRate(caps.xFramerateMax << 8)); if ( minFrameRate > maxFrameRate ) { CAMHAL_LOGE("Invalid frame rate range: [%d .. %d]", caps.xFramerateMin, caps.xFramerateMax); return BAD_VALUE; } encodeFrameRates(minFrameRate, maxFrameRate, caps, mFramerates, ARRAY_SIZE(mFramerates), fpsRanges); // populate variable frame rates char supported[MAX_PROP_VALUE_LENGTH]; char defaultRange[MAX_PROP_VALUE_LENGTH]; memset(supported, 0, sizeof(supported)); memset(defaultRange, 0, sizeof(defaultRange)); for ( int i = 0; i < static_cast(fpsRanges.size()); ++i ) { const FpsRange & fpsRange = fpsRanges.itemAt(i); if ( supported[0] ) strncat(supported, PARAM_SEP, 1); char tmp[MAX_PROP_VALUE_LENGTH]; snprintf(tmp, sizeof(tmp) - 1, "(%d,%d)", fpsRange.min(), fpsRange.max()); strcat(supported, tmp); } const FpsRange & defaultFpsRange = fpsRanges.itemAt(fpsRanges.size() - 1); snprintf(defaultRange, sizeof(defaultRange) - 1, "%d,%d", defaultFpsRange.min(), defaultFpsRange.max()); CAMHAL_LOGD("Supported framerate ranges: %s", supported); CAMHAL_LOGD("Default framerate range: [%s]", defaultRange); params->set(CameraProperties::FRAMERATE_RANGE_SUPPORTED, supported); params->set(CameraProperties::FRAMERATE_RANGE, defaultRange); // populate fixed frame rates memset(supported, 0, sizeof(supported)); memset(defaultRange, 0, sizeof(defaultRange)); for ( int i = 0; i < static_cast(fpsRanges.size()); ++i ) { const FpsRange & fpsRange = fpsRanges.itemAt(i); if ( fpsRange.isFixed() && (fpsRange.min()%CameraHal::VFR_SCALE) == 0 ) { if ( supported[0] ) strncat(supported, PARAM_SEP, 1); char tmp[MAX_PROP_VALUE_LENGTH]; snprintf(tmp, sizeof(tmp) - 1, "%d", fpsRange.min()/CameraHal::VFR_SCALE); strcat(supported, tmp); } } CAMHAL_LOGD("Supported preview framerates: %s", supported); params->set(CameraProperties::SUPPORTED_PREVIEW_FRAME_RATES, supported); // insert default frame rate only if it is fixed if ( defaultFpsRange.isFixed() && (defaultFpsRange.min()%CameraHal::VFR_SCALE) == 0 ) { snprintf(defaultRange, sizeof(defaultRange) - 1, "%d", defaultFpsRange.min()/CameraHal::VFR_SCALE); params->set(CameraProperties::PREVIEW_FRAME_RATE, defaultRange); } } // collect supported extended frame rates { android::Vector fpsRanges; // HASH: Fix JEM Amazon Ducati xFramerates which are [1 .. 30] vs [256 .. 7680] int minFrameRate = -1; if (caps.xFramerateMin >= 50) minFrameRate = max(FPS_MIN * CameraHal::VFR_SCALE, androidFromDucatiFrameRate(caps.xFramerateMin)); else minFrameRate = max(FPS_MIN * CameraHal::VFR_SCALE, androidFromDucatiFrameRate(caps.xFramerateMin << 8)); int maxFrameRate = -1; if (caps.xFramerateMax >= 50) maxFrameRate = min(FPS_MAX_EXTENDED * CameraHal::VFR_SCALE, androidFromDucatiFrameRate(caps.xFramerateMax)); else maxFrameRate = min(FPS_MAX_EXTENDED * CameraHal::VFR_SCALE, androidFromDucatiFrameRate(caps.xFramerateMax << 8)); encodeFrameRates(minFrameRate, maxFrameRate, caps, mFramerates, ARRAY_SIZE(mFramerates), fpsRanges); // populate variable frame rates char supported[MAX_PROP_VALUE_LENGTH]; memset(supported, 0, sizeof(supported) - 1); for ( int i = 0; i < static_cast(fpsRanges.size()); ++i ) { const FpsRange & fpsRange = fpsRanges.itemAt(i); if ( supported[0] ) strncat(supported, PARAM_SEP, 1); char tmp[MAX_PROP_VALUE_LENGTH]; snprintf(tmp, sizeof(tmp) - 1, "(%d,%d)", fpsRange.min(), fpsRange.max()); strcat(supported, tmp); } CAMHAL_LOGD("Supported framerate ranges extended: %s", supported); params->set(CameraProperties::FRAMERATE_RANGE_EXT_SUPPORTED, supported); // populate fixed frame rates memset(supported, 0, sizeof(supported) - 1); for ( int i = 0; i < static_cast(fpsRanges.size()); ++i ) { const FpsRange & fpsRange = fpsRanges.itemAt(i); if ( fpsRange.isFixed() && (fpsRange.min()%CameraHal::VFR_SCALE) == 0 ) { if ( supported[0] ) strncat(supported, PARAM_SEP, 1); char tmp[MAX_PROP_VALUE_LENGTH]; snprintf(tmp, sizeof(tmp) - 1, "%d", fpsRange.min()/CameraHal::VFR_SCALE); strcat(supported, tmp); } } CAMHAL_LOGD("Supported extended preview framerates: %s", supported); params->set(CameraProperties::SUPPORTED_PREVIEW_FRAME_RATES_EXT, supported); } return OK; } status_t OMXCameraAdapter::insertEVs(CameraProperties::Properties* params, OMX_TI_CAPTYPE &caps) { status_t ret = NO_ERROR; char supported[MAX_PROP_VALUE_LENGTH]; LOG_FUNCTION_NAME; memset(supported, '\0', MAX_PROP_VALUE_LENGTH); snprintf(supported, MAX_PROP_VALUE_LENGTH, "%d", ( int ) ( caps.xEVCompensationMin * 10 )); params->set(CameraProperties::SUPPORTED_EV_MIN, supported); snprintf(supported, MAX_PROP_VALUE_LENGTH, "%d", ( int ) ( caps.xEVCompensationMax * 10 )); params->set(CameraProperties::SUPPORTED_EV_MAX, supported); LOG_FUNCTION_NAME_EXIT; return ret; } status_t OMXCameraAdapter::insertISOModes(CameraProperties::Properties* params, OMX_TI_CAPTYPE &caps) { status_t ret = NO_ERROR; char supported[MAX_PROP_VALUE_LENGTH]; LOG_FUNCTION_NAME; memset(supported, '\0', MAX_PROP_VALUE_LENGTH); ret = encodeISOCap(caps.nSensitivityMax, mISOStages, ARRAY_SIZE(mISOStages), supported, MAX_PROP_VALUE_LENGTH); if ( NO_ERROR != ret ) { CAMHAL_LOGEB("Error inserting supported ISO modes 0x%x", ret); } else { params->set(CameraProperties::SUPPORTED_ISO_VALUES, supported); } LOG_FUNCTION_NAME_EXIT; return ret; } status_t OMXCameraAdapter::insertIPPModes(CameraProperties::Properties* params, OMX_TI_CAPTYPE &caps) { status_t ret = NO_ERROR; char supported[MAX_PROP_VALUE_LENGTH]; LOG_FUNCTION_NAME; memset(supported, '\0', MAX_PROP_VALUE_LENGTH); //Off is always supported strncat(supported, TICameraParameters::IPP_NONE, MAX_PROP_NAME_LENGTH); if ( caps.bLensDistortionCorrectionSupported ) { strncat(supported, PARAM_SEP, 1); strncat(supported, TICameraParameters::IPP_LDC, MAX_PROP_NAME_LENGTH); } if ( caps.bISONoiseFilterSupported ) { strncat(supported, PARAM_SEP, 1); strncat(supported, TICameraParameters::IPP_NSF, MAX_PROP_NAME_LENGTH); } if ( caps.bISONoiseFilterSupported && caps.bLensDistortionCorrectionSupported ) { strncat(supported, PARAM_SEP, 1); strncat(supported, TICameraParameters::IPP_LDCNSF, MAX_PROP_NAME_LENGTH); } params->set(CameraProperties::SUPPORTED_IPP_MODES, supported); LOG_FUNCTION_NAME_EXIT; return ret; } status_t OMXCameraAdapter::insertWBModes(CameraProperties::Properties* params, OMX_TI_CAPTYPE &caps) { status_t ret = NO_ERROR; char supported[MAX_PROP_VALUE_LENGTH]; const char *p; LOG_FUNCTION_NAME; memset(supported, '\0', MAX_PROP_VALUE_LENGTH); for ( unsigned int i = 0 ; i < caps.ulWhiteBalanceCount ; i++ ) { p = getLUTvalue_OMXtoHAL(caps.eWhiteBalanceModes[i], WBalLUT); if ( NULL != p ) { if (supported[0] != '\0') { strncat(supported, PARAM_SEP, 1); } strncat(supported, p, MAX_PROP_NAME_LENGTH); } } params->set(CameraProperties::SUPPORTED_WHITE_BALANCE, supported); LOG_FUNCTION_NAME_EXIT; return ret; } status_t OMXCameraAdapter::insertEffects(CameraProperties::Properties* params, OMX_TI_CAPTYPE &caps) { status_t ret = NO_ERROR; char supported[MAX_PROP_VALUE_LENGTH]; const char *p; LOG_FUNCTION_NAME; memset(supported, '\0', MAX_PROP_VALUE_LENGTH); for ( unsigned int i = 0 ; i < caps.ulColorEffectCount; i++ ) { p = getLUTvalue_OMXtoHAL(caps.eColorEffects[i], EffLUT); if ( NULL != p ) { if (supported[0] != '\0') { strncat(supported, PARAM_SEP, 1); } strncat(supported, p, MAX_PROP_NAME_LENGTH); } } params->set(CameraProperties::SUPPORTED_EFFECTS, supported); LOG_FUNCTION_NAME_EXIT; return ret; } status_t OMXCameraAdapter::insertExpModes(CameraProperties::Properties* params, OMX_TI_CAPTYPE &caps) { status_t ret = NO_ERROR; char supported[MAX_PROP_VALUE_LENGTH]; const char *p; LOG_FUNCTION_NAME; memset(supported, '\0', MAX_PROP_VALUE_LENGTH); for ( unsigned int i = 0 ; i < caps.ulExposureModeCount; i++ ) { p = getLUTvalue_OMXtoHAL(caps.eExposureModes[i], ExpLUT); if ( NULL != p ) { if (supported[0] != '\0') { strncat(supported, PARAM_SEP, 1); } strncat(supported, p, MAX_PROP_NAME_LENGTH); } } params->set(CameraProperties::SUPPORTED_EXPOSURE_MODES, supported); LOG_FUNCTION_NAME_EXIT; return ret; } status_t OMXCameraAdapter::insertManualExpRanges(CameraProperties::Properties* params, OMX_TI_CAPTYPE &caps) { status_t ret = NO_ERROR; char supported[MAX_PROP_VALUE_LENGTH]; LOG_FUNCTION_NAME; if (caps.nManualExpMin > caps.nManualExpMax) { snprintf(supported, MAX_PROP_VALUE_LENGTH, "%d", (int) 0); params->set(CameraProperties::SUPPORTED_MANUAL_EXPOSURE_MIN, supported); snprintf(supported, MAX_PROP_VALUE_LENGTH, "%d", (int) 0); params->set(CameraProperties::SUPPORTED_MANUAL_EXPOSURE_MAX, supported); snprintf(supported, MAX_PROP_VALUE_LENGTH, "%d", (int) 0); params->set(CameraProperties::SUPPORTED_MANUAL_EXPOSURE_STEP, supported); } else { snprintf(supported, MAX_PROP_VALUE_LENGTH, "%d", (int) caps.nManualExpMin); params->set(CameraProperties::SUPPORTED_MANUAL_EXPOSURE_MIN, supported); snprintf(supported, MAX_PROP_VALUE_LENGTH, "%d", (int) caps.nManualExpMax); params->set(CameraProperties::SUPPORTED_MANUAL_EXPOSURE_MAX, supported); snprintf(supported, MAX_PROP_VALUE_LENGTH, "%d", (int) MANUAL_EXPOSURE_STEP); params->set(CameraProperties::SUPPORTED_MANUAL_EXPOSURE_STEP, supported); } if (MANUAL_GAIN_ISO_MIN > caps.nSensitivityMax) { snprintf(supported, MAX_PROP_VALUE_LENGTH, "%d", (int) 0); params->set(CameraProperties::SUPPORTED_MANUAL_GAIN_ISO_MIN, supported); snprintf(supported, MAX_PROP_VALUE_LENGTH, "%d", (int) 0); params->set(CameraProperties::SUPPORTED_MANUAL_GAIN_ISO_MAX, supported); snprintf(supported, MAX_PROP_VALUE_LENGTH, "%d", (int) 0); params->set(CameraProperties::SUPPORTED_MANUAL_GAIN_ISO_STEP, supported); } else { snprintf(supported, MAX_PROP_VALUE_LENGTH, "%d", (int) MANUAL_GAIN_ISO_MIN); params->set(CameraProperties::SUPPORTED_MANUAL_GAIN_ISO_MIN, supported); snprintf(supported, MAX_PROP_VALUE_LENGTH, "%d", (int) caps.nSensitivityMax); params->set(CameraProperties::SUPPORTED_MANUAL_GAIN_ISO_MAX, supported); snprintf(supported, MAX_PROP_VALUE_LENGTH, "%d", (int) MANUAL_GAIN_ISO_STEP); params->set(CameraProperties::SUPPORTED_MANUAL_GAIN_ISO_STEP, supported); } LOG_FUNCTION_NAME_EXIT; return ret; } status_t OMXCameraAdapter::insertFlashModes(CameraProperties::Properties* params, OMX_TI_CAPTYPE &caps) { status_t ret = NO_ERROR; char supported[MAX_PROP_VALUE_LENGTH]; const char *p; LOG_FUNCTION_NAME; memset(supported, '\0', MAX_PROP_VALUE_LENGTH); for ( unsigned int i = 0 ; i < caps.ulFlashCount; i++ ) { p = getLUTvalue_OMXtoHAL(caps.eFlashModes[i], FlashLUT); if ( NULL != p ) { if (supported[0] != '\0') { strncat(supported, PARAM_SEP, 1); } strncat(supported, p, MAX_PROP_NAME_LENGTH); } } if ( strlen(supported) == 0 ) { strncpy(supported, DEFAULT_FLASH_MODE, MAX_PROP_NAME_LENGTH); } params->set(CameraProperties::SUPPORTED_FLASH_MODES, supported); LOG_FUNCTION_NAME_EXIT; return ret; } status_t OMXCameraAdapter::insertSceneModes(CameraProperties::Properties* params, OMX_TI_CAPTYPE &caps) { status_t ret = NO_ERROR; char supported[MAX_PROP_VALUE_LENGTH]; const char *p; LOG_FUNCTION_NAME; memset(supported, '\0', MAX_PROP_VALUE_LENGTH); for ( unsigned int i = 0 ; i < caps.ulSceneCount; i++ ) { p = getLUTvalue_OMXtoHAL(caps.eSceneModes[i], SceneLUT); if ( NULL != p ) { if (supported[0] != '\0') { strncat(supported, PARAM_SEP, 1); } strncat(supported, p, MAX_PROP_NAME_LENGTH); } } params->set(CameraProperties::SUPPORTED_SCENE_MODES, supported); LOG_FUNCTION_NAME_EXIT; return ret; } status_t OMXCameraAdapter::insertFocusModes(CameraProperties::Properties* params, OMX_TI_CAPTYPE &caps) { status_t ret = NO_ERROR; char supported[MAX_PROP_VALUE_LENGTH]; LOG_FUNCTION_NAME; memset(supported, '\0', MAX_PROP_VALUE_LENGTH); for ( unsigned int i = 0 ; i < caps.ulFocusModeCount; i++ ) { getMultipleLUTvalue_OMXtoHAL(caps.eFocusModes[i], FocusLUT, supported); } // Check if focus is supported by camera if (caps.ulFocusModeCount == 1 && caps.eFocusModes[0] == OMX_IMAGE_FocusControlOff) { // Focus is not supported by camera // Advertise this to app as infinitiy focus mode if (supported[0] != '\0') { strncat(supported, PARAM_SEP, 1); } strncat(supported, android::CameraParameters::FOCUS_MODE_INFINITY, MAX_PROP_NAME_LENGTH); } params->set(CameraProperties::SUPPORTED_FOCUS_MODES, supported); LOG_FUNCTION_NAME_EXIT; return ret; } status_t OMXCameraAdapter::insertFlickerModes(CameraProperties::Properties* params, OMX_TI_CAPTYPE &caps) { status_t ret = NO_ERROR; char supported[MAX_PROP_VALUE_LENGTH]; const char *p; LOG_FUNCTION_NAME; memset(supported, '\0', MAX_PROP_VALUE_LENGTH); for ( unsigned int i = 0 ; i < caps.ulFlickerCount; i++ ) { p = getLUTvalue_OMXtoHAL(caps.eFlicker[i], FlickerLUT); if ( NULL != p ) { if (supported[0] != '\0') { strncat(supported, PARAM_SEP, 1); } strncat(supported, p, MAX_PROP_NAME_LENGTH); } } params->set(CameraProperties::SUPPORTED_ANTIBANDING, supported); LOG_FUNCTION_NAME_EXIT; return ret; } status_t OMXCameraAdapter::insertAreas(CameraProperties::Properties* params, OMX_TI_CAPTYPE &caps) { status_t ret = NO_ERROR; char supported[MAX_PROP_VALUE_LENGTH]; const char *p; LOG_FUNCTION_NAME; memset(supported, '\0', MAX_PROP_VALUE_LENGTH); sprintf(supported, "%d", caps.ulAlgoAreasFocusCount); params->set(CameraProperties::MAX_FOCUS_AREAS, supported); CAMHAL_LOGDB("Maximum supported focus areas %s", supported); memset(supported, '\0', MAX_PROP_VALUE_LENGTH); sprintf(supported, "%d", caps.ulAlgoAreasExposureCount); params->set(CameraProperties::MAX_NUM_METERING_AREAS, supported); CAMHAL_LOGDB("Maximum supported exposure areas %s", supported); LOG_FUNCTION_NAME_EXIT; return ret; } status_t OMXCameraAdapter::insertVNFSupported(CameraProperties::Properties* params, OMX_TI_CAPTYPE &caps) { status_t ret = NO_ERROR; LOG_FUNCTION_NAME; if ( OMX_TRUE == caps.bVideoNoiseFilterSupported ) { params->set(CameraProperties::VNF_SUPPORTED, android::CameraParameters::TRUE); } else { params->set(CameraProperties::VNF_SUPPORTED, android::CameraParameters::FALSE); } LOG_FUNCTION_NAME_EXIT; return ret; } status_t OMXCameraAdapter::insertVSTABSupported(CameraProperties::Properties* params, OMX_TI_CAPTYPE &caps) { status_t ret = NO_ERROR; LOG_FUNCTION_NAME; if ( OMX_TRUE == caps.bVideoStabilizationSupported ) { params->set(CameraProperties::VSTAB_SUPPORTED, android::CameraParameters::TRUE); } else { params->set(CameraProperties::VSTAB_SUPPORTED, android::CameraParameters::FALSE); } LOG_FUNCTION_NAME_EXIT; return ret; } status_t OMXCameraAdapter::insertLocks(CameraProperties::Properties* params, OMX_TI_CAPTYPE &caps) { status_t ret = NO_ERROR; LOG_FUNCTION_NAME if ( caps.bAELockSupported ) { params->set(CameraProperties::AUTO_EXPOSURE_LOCK_SUPPORTED, android::CameraParameters::TRUE); } else { params->set(CameraProperties::AUTO_EXPOSURE_LOCK_SUPPORTED, android::CameraParameters::FALSE); } if ( caps.bAWBLockSupported ) { params->set(CameraProperties::AUTO_WHITEBALANCE_LOCK_SUPPORTED, android::CameraParameters::TRUE); } else { params->set(CameraProperties::AUTO_WHITEBALANCE_LOCK_SUPPORTED, android::CameraParameters::FALSE); } LOG_FUNCTION_NAME_EXIT return ret; } status_t OMXCameraAdapter::insertSenMount(CameraProperties::Properties* params, OMX_TI_CAPTYPE &caps) { status_t ret = NO_ERROR; char supported[MAX_PROP_VALUE_LENGTH]; const char *p; unsigned int i = 0; LOG_FUNCTION_NAME; memset(supported, '\0', sizeof(supported)); // 1) Look up and assign sensor name for (i = 0; i < ARRAY_SIZE(mSensorNames); i++) { if(mSensorNames[i].num == caps.tSenMounting.nSenId) { // sensor found break; } } if ( i == ARRAY_SIZE(mSensorNames) ) { p = "UNKNOWN_SENSOR"; } else { p = mSensorNames[i].param; } strncat(supported, p, REMAINING_BYTES(supported)); params->set(CameraProperties::CAMERA_NAME, supported); params->set(CameraProperties::CAMERA_SENSOR_ID, caps.tSenMounting.nSenId); // 2) Assign mounting rotation params->set(CameraProperties::ORIENTATION_INDEX, caps.tSenMounting.nRotation); LOG_FUNCTION_NAME_EXIT; return ret; } status_t OMXCameraAdapter::insertRaw(CameraProperties::Properties* params, OMX_TI_CAPTYPE &caps) { status_t ret = NO_ERROR; char supported[MAX_PROP_VALUE_LENGTH]; unsigned int i = 0; LOG_FUNCTION_NAME; memset(supported, '\0', sizeof(supported)); #ifdef CAMERAHAL_TUNA sprintf(supported,"%d",int(caps.tImageResRange.nWidthMax)); #else sprintf(supported,"%d",int(caps.uSenNativeResWidth)); #endif params->set(CameraProperties::RAW_WIDTH, supported); memset(supported, '\0', sizeof(supported)); #ifdef CAMERAHAL_TUNA sprintf(supported,"%d",int(caps.tImageResRange.nHeightMax)); #else if (caps.bMechanicalMisalignmentSupported) { sprintf(supported,"%d",int(caps.uSenNativeResHeight) * 2); } else { sprintf(supported,"%d",int(caps.uSenNativeResHeight)); } #endif params->set(CameraProperties::RAW_HEIGHT, supported); LOG_FUNCTION_NAME_EXIT; return ret; } status_t OMXCameraAdapter::insertFacing(CameraProperties::Properties* params, OMX_TI_CAPTYPE &caps) { status_t ret = NO_ERROR; char supported[MAX_PROP_VALUE_LENGTH]; const char *p; unsigned int i = 0; LOG_FUNCTION_NAME; memset(supported, '\0', sizeof(supported)); #ifdef CAMERAHAL_TUNA if (caps.tSenMounting.nSenId == SENSORID_S5K4E1GA) { i = 0; // FACING_BACK } else { i = 1; // FACING_FRONT } #else for (i = 0; i < ARRAY_SIZE(mFacing); i++) { if((OMX_TI_SENFACING_TYPE)mFacing[i].num == caps.tSenMounting.eFacing) { break; } } #endif if ( i == ARRAY_SIZE(mFacing) ) { p = "UNKNOWN_FACING"; } else { p = mFacing[i].param; } strncat(supported, p, REMAINING_BYTES(supported)); params->set(CameraProperties::FACING_INDEX, supported); LOG_FUNCTION_NAME_EXIT; return ret; } status_t OMXCameraAdapter::insertFocalLength(CameraProperties::Properties* params, OMX_TI_CAPTYPE &caps) { status_t ret = NO_ERROR; char supported[MAX_PROP_VALUE_LENGTH]; LOG_FUNCTION_NAME; memset(supported, '\0', sizeof(supported)); sprintf(supported, "%d", caps.nFocalLength / 100); strncat(supported, ".", REMAINING_BYTES(supported)); sprintf(supported+(strlen(supported)*sizeof(char)), "%d", caps.nFocalLength % 100); params->set(CameraProperties::FOCAL_LENGTH, supported); LOG_FUNCTION_NAME_EXIT return ret; } status_t OMXCameraAdapter::insertAutoConvergenceModes(CameraProperties::Properties* params, OMX_TI_CAPTYPE &caps) { status_t ret = NO_ERROR; char supported[MAX_PROP_VALUE_LENGTH]; const char *p; unsigned int i = 0; LOG_FUNCTION_NAME; memset(supported, '\0', sizeof(supported)); #ifndef CAMERAHAL_TUNA for ( unsigned int i = 0 ; i < caps.ulAutoConvModesCount; i++ ) { p = getLUTvalue_OMXtoHAL(caps.eAutoConvModes[i], mAutoConvergenceLUT); if ( NULL != p ) { if (supported[0] != '\0') { strncat(supported, PARAM_SEP, REMAINING_BYTES(supported)); } strncat(supported, p, REMAINING_BYTES(supported)); } } #endif params->set(CameraProperties::AUTOCONVERGENCE_MODE_VALUES, supported); LOG_FUNCTION_NAME_EXIT; return ret; } status_t OMXCameraAdapter::insertManualConvergenceRange(CameraProperties::Properties* params, OMX_TI_CAPTYPE &caps) { status_t ret = NO_ERROR; char supported[MAX_PROP_VALUE_LENGTH]; LOG_FUNCTION_NAME; snprintf(supported, MAX_PROP_VALUE_LENGTH, "%d", ( int ) ( caps.nManualConvMin )); params->set(CameraProperties::SUPPORTED_MANUAL_CONVERGENCE_MIN, supported); snprintf(supported, MAX_PROP_VALUE_LENGTH, "%d", ( int ) ( caps.nManualConvMax )); params->set(CameraProperties::SUPPORTED_MANUAL_CONVERGENCE_MAX, supported); snprintf(supported, MAX_PROP_VALUE_LENGTH, "%d", ( int ) ( caps.nManualConvMax != caps.nManualConvMin )); params->set(CameraProperties::SUPPORTED_MANUAL_CONVERGENCE_STEP, supported); LOG_FUNCTION_NAME_EXIT; return ret; } status_t OMXCameraAdapter::insertMechanicalMisalignmentCorrection(CameraProperties::Properties* params, OMX_TI_CAPTYPE &caps) { LOG_FUNCTION_NAME; params->set(CameraProperties::MECHANICAL_MISALIGNMENT_CORRECTION_SUPPORTED, caps.bMechanicalMisalignmentSupported == OMX_TRUE ? android::CameraParameters::TRUE : android::CameraParameters::FALSE); return OK; } status_t OMXCameraAdapter::insertCaptureModes(CameraProperties::Properties* params, OMX_TI_CAPTYPE &caps) { status_t ret = NO_ERROR; char supported[MAX_PROP_VALUE_LENGTH]; const char *p; LOG_FUNCTION_NAME; memset(supported, '\0', sizeof(supported)); // 3D mode detect: Misalignment is present only in 3d mode if (caps.bMechanicalMisalignmentSupported) { strncat(supported, TICameraParameters::HIGH_QUALITY_MODE, REMAINING_BYTES(supported)); strncat(supported, PARAM_SEP, REMAINING_BYTES(supported)); strncat(supported, TICameraParameters::VIDEO_MODE, REMAINING_BYTES(supported)); } else // 2D mode detect: Misalignment is present only in 3d mode { strncat(supported, TICameraParameters::HIGH_QUALITY_MODE, REMAINING_BYTES(supported)); strncat(supported, PARAM_SEP, REMAINING_BYTES(supported)); strncat(supported, TICameraParameters::VIDEO_MODE, REMAINING_BYTES(supported)); strncat(supported, PARAM_SEP, REMAINING_BYTES(supported)); strncat(supported, TICameraParameters::HIGH_PERFORMANCE_MODE, REMAINING_BYTES(supported)); strncat(supported, PARAM_SEP, REMAINING_BYTES(supported)); strncat(supported, TICameraParameters::HIGH_QUALITY_ZSL_MODE, REMAINING_BYTES(supported)); #ifdef OMAP_ENHANCEMENT_CPCAM strncat(supported, PARAM_SEP, REMAINING_BYTES(supported)); strncat(supported, TICameraParameters::CP_CAM_MODE, REMAINING_BYTES(supported)); #endif #ifdef CAMERAHAL_OMAP5_CAPTURE_MODES strncat(supported, PARAM_SEP, REMAINING_BYTES(supported)); strncat(supported, TICameraParameters::VIDEO_MODE_HQ, REMAINING_BYTES(supported)); #endif strncat(supported, PARAM_SEP, REMAINING_BYTES(supported)); strncat(supported, TICameraParameters::ZOOM_BRACKETING, REMAINING_BYTES(supported)); } #ifndef CAMERAHAL_TUNA for ( unsigned int i = 0 ; i < caps.ulBracketingModesCount; i++ ) { p = getLUTvalue_OMXtoHAL(caps.eBracketingModes[i], mBracketingModesLUT); if ( NULL != p ) { if (supported[0] != '\0') { strncat(supported, PARAM_SEP, REMAINING_BYTES(supported)); } strncat(supported, p, REMAINING_BYTES(supported)); } } #endif params->set(CameraProperties::CAP_MODE_VALUES, supported); LOG_FUNCTION_NAME_EXIT; return ret; } status_t OMXCameraAdapter::insertLayout(CameraProperties::Properties* params, OMX_TI_CAPTYPE &caps) { status_t ret = NO_ERROR; char supported[MAX_PROP_VALUE_LENGTH]; const char *p; unsigned int i = 0; LOG_FUNCTION_NAME; memset(supported, '\0', MAX_PROP_VALUE_LENGTH); for ( unsigned int i = 0 ; i < caps.ulPrvFrameLayoutCount; i++ ) { p = getLUTvalue_OMXtoHAL(caps.ePrvFrameLayout[i], mLayoutLUT); if ( NULL != p ) { if (supported[0] != '\0') { strncat(supported, PARAM_SEP, 1); } strncat(supported, p, MAX_PROP_NAME_LENGTH); } } params->set(CameraProperties::S3D_PRV_FRAME_LAYOUT_VALUES, supported); memset(supported, '\0', MAX_PROP_VALUE_LENGTH); for ( unsigned int i = 0 ; i < caps.ulCapFrameLayoutCount; i++ ) { p = getLUTvalue_OMXtoHAL(caps.eCapFrameLayout[i], mLayoutLUT); if ( NULL != p ) { if (supported[0] != '\0') { strncat(supported, PARAM_SEP, 1); } strncat(supported, p, MAX_PROP_NAME_LENGTH); } } params->set(CameraProperties::S3D_CAP_FRAME_LAYOUT_VALUES, supported); LOG_FUNCTION_NAME_EXIT; return ret; } status_t OMXCameraAdapter::insertVideoSnapshotSupported(CameraProperties::Properties* params, OMX_TI_CAPTYPE &caps) { status_t ret = NO_ERROR; LOG_FUNCTION_NAME; if (caps.bStillCapDuringVideoSupported) { params->set(CameraProperties::VIDEO_SNAPSHOT_SUPPORTED, android::CameraParameters::TRUE); } else { params->set(CameraProperties::VIDEO_SNAPSHOT_SUPPORTED, android::CameraParameters::FALSE); } LOG_FUNCTION_NAME_EXIT; return ret; } status_t OMXCameraAdapter::insertGBCESupported(CameraProperties::Properties* params, const OMX_TI_CAPTYPE &caps) { status_t ret = NO_ERROR; LOG_FUNCTION_NAME; #ifndef CAMERAHAL_TUNA if (caps.bGbceSupported) { params->set(CameraProperties::SUPPORTED_GBCE, android::CameraParameters::TRUE); } else #endif { params->set(CameraProperties::SUPPORTED_GBCE, android::CameraParameters::FALSE); } LOG_FUNCTION_NAME_EXIT; return ret; } status_t OMXCameraAdapter::insertGLBCESupported(CameraProperties::Properties* params, const OMX_TI_CAPTYPE &caps) { status_t ret = NO_ERROR; LOG_FUNCTION_NAME; if (caps.bGlbceSupported) { params->set(CameraProperties::SUPPORTED_GLBCE, android::CameraParameters::TRUE); } else { params->set(CameraProperties::SUPPORTED_GLBCE, android::CameraParameters::FALSE); } LOG_FUNCTION_NAME_EXIT; return ret; } status_t OMXCameraAdapter::insertDefaults(CameraProperties::Properties* params, OMX_TI_CAPTYPE &caps) { status_t ret = NO_ERROR; char *pos, *str, *def; char temp[MAX_PROP_VALUE_LENGTH]; LOG_FUNCTION_NAME; /* If default is supported - set it, else - set first supported */ if (strstr(params->get(CameraProperties::S3D_PRV_FRAME_LAYOUT_VALUES), DEFAULT_S3D_PREVIEW_LAYOUT)) { strncpy(temp, DEFAULT_S3D_PREVIEW_LAYOUT, MAX_PROP_VALUE_LENGTH - 1); } else { strncpy(temp, params->get(CameraProperties::S3D_PRV_FRAME_LAYOUT_VALUES), MAX_PROP_VALUE_LENGTH - 1); if ((pos = strstr(temp, PARAM_SEP))) { *pos = '\0'; } } params->set(CameraProperties::S3D_PRV_FRAME_LAYOUT, temp); if (!strcmp(TICameraParameters::S3D_TB_FULL, temp)) { params->set(CameraProperties::SUPPORTED_PREVIEW_SIZES, params->get(CameraProperties::SUPPORTED_PREVIEW_TOPBOTTOM_SIZES)); } else if (!strcmp(TICameraParameters::S3D_SS_FULL, temp)) { params->set(CameraProperties::SUPPORTED_PREVIEW_SIZES, params->get(CameraProperties::SUPPORTED_PREVIEW_SIDEBYSIDE_SIZES)); } else if ((!strcmp(TICameraParameters::S3D_TB_SUBSAMPLED, temp)) || (!strcmp(TICameraParameters::S3D_SS_SUBSAMPLED, temp))) { params->set(CameraProperties::SUPPORTED_PREVIEW_SIZES, params->get(CameraProperties::SUPPORTED_PREVIEW_SUBSAMPLED_SIZES)); } /* If default is supported - set it, else - set first supported */ if (strstr(params->get(CameraProperties::S3D_CAP_FRAME_LAYOUT_VALUES), DEFAULT_S3D_PICTURE_LAYOUT)) { strncpy(temp, DEFAULT_S3D_PICTURE_LAYOUT, MAX_PROP_VALUE_LENGTH - 1); } else { strncpy(temp, params->get(CameraProperties::S3D_CAP_FRAME_LAYOUT_VALUES), MAX_PROP_VALUE_LENGTH - 1); if ((pos = strstr(temp, PARAM_SEP))) { *pos = '\0'; } } params->set(CameraProperties::S3D_CAP_FRAME_LAYOUT, temp); if (!strcmp(TICameraParameters::S3D_TB_FULL, temp)) { params->set(CameraProperties::SUPPORTED_PICTURE_SIZES, params->get(CameraProperties::SUPPORTED_PICTURE_TOPBOTTOM_SIZES)); } else if (!strcmp(TICameraParameters::S3D_SS_FULL, temp)) { params->set(CameraProperties::SUPPORTED_PICTURE_SIZES, params->get(CameraProperties::SUPPORTED_PICTURE_SIDEBYSIDE_SIZES)); } else if ((!strcmp(TICameraParameters::S3D_TB_SUBSAMPLED, temp)) || (!strcmp(TICameraParameters::S3D_SS_SUBSAMPLED, temp))) { params->set(CameraProperties::SUPPORTED_PICTURE_SIZES, params->get(CameraProperties::SUPPORTED_PICTURE_SUBSAMPLED_SIZES)); } params->set(CameraProperties::ANTIBANDING, DEFAULT_ANTIBANDING); params->set(CameraProperties::BRIGHTNESS, DEFAULT_BRIGHTNESS); params->set(CameraProperties::CONTRAST, DEFAULT_CONTRAST); params->set(CameraProperties::EFFECT, DEFAULT_EFFECT); params->set(CameraProperties::EV_COMPENSATION, DEFAULT_EV_COMPENSATION); params->set(CameraProperties::SUPPORTED_EV_STEP, DEFAULT_EV_STEP); params->set(CameraProperties::EXPOSURE_MODE, DEFAULT_EXPOSURE_MODE); params->set(CameraProperties::FLASH_MODE, DEFAULT_FLASH_MODE); pos = strstr(params->get(CameraProperties::SUPPORTED_FOCUS_MODES), DEFAULT_FOCUS_MODE_PREFERRED); if ( NULL != pos ) { params->set(CameraProperties::FOCUS_MODE, DEFAULT_FOCUS_MODE_PREFERRED); } else { params->set(CameraProperties::FOCUS_MODE, DEFAULT_FOCUS_MODE); } params->set(CameraProperties::IPP, DEFAULT_IPP); params->set(CameraProperties::GBCE, android::CameraParameters::FALSE); params->set(CameraProperties::GLBCE, android::CameraParameters::FALSE); params->set(CameraProperties::ISO_MODE, DEFAULT_ISO_MODE); params->set(CameraProperties::JPEG_QUALITY, DEFAULT_JPEG_QUALITY); params->set(CameraProperties::JPEG_THUMBNAIL_QUALITY, DEFAULT_THUMBNAIL_QUALITY); params->set(CameraProperties::JPEG_THUMBNAIL_SIZE, DEFAULT_THUMBNAIL_SIZE); params->set(CameraProperties::PICTURE_FORMAT, DEFAULT_PICTURE_FORMAT); if (!strcmp(params->get(CameraProperties::S3D_CAP_FRAME_LAYOUT), TICameraParameters::S3D_TB_FULL)) { params->set(CameraProperties::PICTURE_SIZE, DEFAULT_PICTURE_TB_SIZE); } else if (!strcmp(params->get(CameraProperties::S3D_CAP_FRAME_LAYOUT), TICameraParameters::S3D_SS_FULL)) { params->set(CameraProperties::PICTURE_SIZE, DEFAULT_PICTURE_SS_SIZE); } else { params->set(CameraProperties::PICTURE_SIZE, DEFAULT_PICTURE_SIZE); } if (!strcmp(params->get(CameraProperties::S3D_PRV_FRAME_LAYOUT), TICameraParameters::S3D_TB_FULL)) { params->set(CameraProperties::PREVIEW_SIZE, DEFAULT_PREVIEW_TB_SIZE); } else if (!strcmp(params->get(CameraProperties::S3D_PRV_FRAME_LAYOUT), TICameraParameters::S3D_SS_FULL)) { params->set(CameraProperties::PREVIEW_SIZE, DEFAULT_PREVIEW_SS_SIZE); } else { params->set(CameraProperties::PREVIEW_SIZE, DEFAULT_PREVIEW_SIZE); } params->set(CameraProperties::PREVIEW_FORMAT, DEFAULT_PREVIEW_FORMAT); /* Set default value if supported, otherwise set max supported value */ strncpy(temp, params->get(CameraProperties::SUPPORTED_PREVIEW_FRAME_RATES), MAX_PROP_VALUE_LENGTH - 1); def = str = temp; while (1) { if ((pos = strstr(str, PARAM_SEP))) { *pos = '\0'; } if (!strcmp(str, DEFAULT_FRAMERATE)) { def = str; break; } if (atoi(str) > atoi(def)) { def = str; } if (pos == NULL) { break; } str = pos + strlen(PARAM_SEP); } params->set(CameraProperties::PREVIEW_FRAME_RATE, def); params->set(CameraProperties::REQUIRED_PREVIEW_BUFS, DEFAULT_NUM_PREV_BUFS); params->set(CameraProperties::REQUIRED_IMAGE_BUFS, DEFAULT_NUM_PIC_BUFS); params->set(CameraProperties::SATURATION, DEFAULT_SATURATION); params->set(CameraProperties::SCENE_MODE, DEFAULT_SCENE_MODE); params->set(CameraProperties::SHARPNESS, DEFAULT_SHARPNESS); params->set(CameraProperties::VSTAB, DEFAULT_VSTAB); params->set(CameraProperties::VNF, DEFAULT_VNF); params->set(CameraProperties::WHITEBALANCE, DEFAULT_WB); params->set(CameraProperties::ZOOM, DEFAULT_ZOOM); params->set(CameraProperties::MAX_FD_HW_FACES, DEFAULT_MAX_FD_HW_FACES); params->set(CameraProperties::MAX_FD_SW_FACES, DEFAULT_MAX_FD_SW_FACES); params->set(CameraProperties::AUTO_EXPOSURE_LOCK, DEFAULT_AE_LOCK); params->set(CameraProperties::AUTO_WHITEBALANCE_LOCK, DEFAULT_AWB_LOCK); params->set(CameraProperties::HOR_ANGLE, DEFAULT_HOR_ANGLE); params->set(CameraProperties::VER_ANGLE, DEFAULT_VER_ANGLE); params->set(CameraProperties::VIDEO_SIZE, DEFAULT_VIDEO_SIZE); params->set(CameraProperties::SENSOR_ORIENTATION, DEFAULT_SENSOR_ORIENTATION); params->set(CameraProperties::AUTOCONVERGENCE_MODE, DEFAULT_AUTOCONVERGENCE_MODE); params->set(CameraProperties::MANUAL_CONVERGENCE, DEFAULT_MANUAL_CONVERGENCE); #ifndef CAMERAHAL_TUNA params->set(CameraProperties::MECHANICAL_MISALIGNMENT_CORRECTION, DEFAULT_MECHANICAL_MISALIGNMENT_CORRECTION_MODE); #endif char property[PROPERTY_VALUE_MAX]; property_get("ro.product.manufacturer", property, DEFAULT_EXIF_MAKE); property[0] = toupper(property[0]); params->set(CameraProperties::EXIF_MAKE, property); property_get("ro.product.model", property, DEFAULT_EXIF_MODEL); property[0] = toupper(property[0]); params->set(CameraProperties::EXIF_MODEL, property); LOG_FUNCTION_NAME_EXIT; return ret; } status_t OMXCameraAdapter::insertCapabilities(CameraProperties::Properties* params, OMX_TI_CAPTYPE &caps) { status_t ret = NO_ERROR; LOG_FUNCTION_NAME; if ( NO_ERROR == ret ) { ret = insertImageSizes(params, caps); } if ( NO_ERROR == ret ) { ret = insertPreviewSizes(params, caps); } if ( NO_ERROR == ret ) { ret = insertThumbSizes(params, caps); } if ( NO_ERROR == ret ) { ret = insertZoomStages(params, caps); } if ( NO_ERROR == ret ) { ret = insertImageFormats(params, caps); } if ( NO_ERROR == ret ) { ret = insertPreviewFormats(params, caps); } if ( NO_ERROR == ret ) { ret = insertFramerates(params, caps); } if ( NO_ERROR == ret ) { ret = insertEVs(params, caps); } if ( NO_ERROR == ret ) { ret = insertISOModes(params, caps); } if ( NO_ERROR == ret ) { ret = insertIPPModes(params, caps); } if ( NO_ERROR == ret ) { ret = insertWBModes(params, caps); } if ( NO_ERROR == ret ) { ret = insertEffects(params, caps); } if ( NO_ERROR == ret ) { ret = insertExpModes(params, caps); } if ( NO_ERROR == ret ) { ret = insertManualExpRanges(params, caps); } if ( NO_ERROR == ret ) { ret = insertFlashModes(params, caps); } if ( NO_ERROR == ret ) { ret = insertSceneModes(params, caps); } if ( NO_ERROR == ret ) { ret = insertFocusModes(params, caps); } if ( NO_ERROR == ret ) { ret = insertFlickerModes(params, caps); } if ( NO_ERROR == ret ) { ret = insertSenMount(params, caps); } if ( NO_ERROR == ret ) { ret = insertLocks(params, caps); } if ( NO_ERROR == ret) { ret = insertAreas(params, caps); } if ( NO_ERROR == ret) { ret = insertFacing(params, caps); } if ( NO_ERROR == ret) { ret = insertFocalLength(params, caps); } if ( NO_ERROR == ret) { ret = insertAutoConvergenceModes(params, caps); } if ( NO_ERROR == ret) { ret = insertManualConvergenceRange(params, caps); } if ( NO_ERROR == ret) { ret = insertMechanicalMisalignmentCorrection(params, caps); } if ( NO_ERROR == ret) { ret = insertRaw(params, caps); } if ( NO_ERROR == ret) { ret = insertCaptureModes(params, caps); } if ( NO_ERROR == ret) { ret = insertLayout(params, caps); } if ( NO_ERROR == ret) { ret = insertVideoSnapshotSupported(params, caps); } if ( NO_ERROR == ret ) { ret = insertVSTABSupported(params, caps); } if ( NO_ERROR == ret) { ret = insertVNFSupported(params, caps); } //NOTE: Ensure that we always call insertDefaults after inserting the supported capabilities //as there are checks inside insertDefaults to make sure a certain default is supported // or not if ( NO_ERROR == ret ) { ret = insertVideoSizes(params, caps); } if ( NO_ERROR == ret) { ret = insertGBCESupported(params, caps); } if ( NO_ERROR == ret) { ret = insertGLBCESupported(params, caps); } if ( NO_ERROR == ret ) { ret = insertDefaults(params, caps); } LOG_FUNCTION_NAME_EXIT; return ret; } bool OMXCameraAdapter::_checkOmxTiCap(const OMX_TI_CAPTYPE & caps) { #define CAMHAL_CHECK_OMX_TI_CAP(countVar, arrayVar) \ do { \ const int count = static_cast(caps.countVar); \ const int maxSize = CAMHAL_SIZE_OF_ARRAY(caps.arrayVar); \ if ( count < 0 || count > maxSize ) \ { \ CAMHAL_LOGE("OMX_TI_CAPTYPE verification failed"); \ CAMHAL_LOGE(" variable: OMX_TI_CAPTYPE::" #countVar \ ", value: %d, max allowed: %d", \ count, maxSize); \ return false; \ } \ } while (0) CAMHAL_CHECK_OMX_TI_CAP(ulPreviewFormatCount, ePreviewFormats); CAMHAL_CHECK_OMX_TI_CAP(ulImageFormatCount, eImageFormats); CAMHAL_CHECK_OMX_TI_CAP(ulWhiteBalanceCount, eWhiteBalanceModes); CAMHAL_CHECK_OMX_TI_CAP(ulColorEffectCount, eColorEffects); CAMHAL_CHECK_OMX_TI_CAP(ulFlickerCount, eFlicker); CAMHAL_CHECK_OMX_TI_CAP(ulExposureModeCount, eExposureModes); CAMHAL_CHECK_OMX_TI_CAP(ulFocusModeCount, eFocusModes); CAMHAL_CHECK_OMX_TI_CAP(ulSceneCount, eSceneModes); CAMHAL_CHECK_OMX_TI_CAP(ulFlashCount, eFlashModes); CAMHAL_CHECK_OMX_TI_CAP(ulPrvVarFPSModesCount, tPrvVarFPSModes); CAMHAL_CHECK_OMX_TI_CAP(ulCapVarFPSModesCount, tCapVarFPSModes); #ifndef CAMERAHAL_TUNA CAMHAL_CHECK_OMX_TI_CAP(ulAutoConvModesCount, eAutoConvModes); CAMHAL_CHECK_OMX_TI_CAP(ulBracketingModesCount, eBracketingModes); CAMHAL_CHECK_OMX_TI_CAP(ulImageCodingFormatCount, eImageCodingFormat); #endif CAMHAL_CHECK_OMX_TI_CAP(ulPrvFrameLayoutCount, ePrvFrameLayout); CAMHAL_CHECK_OMX_TI_CAP(ulCapFrameLayoutCount, eCapFrameLayout); #undef CAMHAL_CHECK_OMX_TI_CAP return true; } bool OMXCameraAdapter::_dumpOmxTiCap(const int sensorId, const OMX_TI_CAPTYPE & caps) { if ( !_checkOmxTiCap(caps) ) { CAMHAL_LOGE("OMX_TI_CAPTYPE structure is invalid"); return false; } CAMHAL_LOGD("==================================================="); CAMHAL_LOGD("---- Dumping OMX capabilities for sensor id: %d ----", sensorId); CAMHAL_LOGD(""); CAMHAL_LOGD("ulPreviewFormatCount = %d", int(caps.ulPreviewFormatCount)); for ( int i = 0; i < int(caps.ulPreviewFormatCount); ++i ) CAMHAL_LOGD(" ePreviewFormats[%2d] = %d", i, int(caps.ePreviewFormats[i])); CAMHAL_LOGD(""); CAMHAL_LOGD("ulImageFormatCount = %d", int(caps.ulImageFormatCount)); for ( int i = 0; i < int(caps.ulImageFormatCount); ++i ) CAMHAL_LOGD(" eImageFormats[%2d] = %d", i, int(caps.eImageFormats[i])); CAMHAL_LOGD(""); CAMHAL_LOGD("tPreviewResRange.nWidthMin = %d", int(caps.tPreviewResRange.nWidthMin)); CAMHAL_LOGD("tPreviewResRange.nHeightMin = %d", int(caps.tPreviewResRange.nHeightMin)); CAMHAL_LOGD("tPreviewResRange.nWidthMax = %d", int(caps.tPreviewResRange.nWidthMax)); CAMHAL_LOGD("tPreviewResRange.nHeightMax = %d", int(caps.tPreviewResRange.nHeightMax)); #ifndef CAMERAHAL_TUNA CAMHAL_LOGD("tPreviewResRange.nMaxResInPixels = %d", int(caps.tPreviewResRange.nMaxResInPixels)); #endif #ifndef CAMERAHAL_TUNA CAMHAL_LOGD(""); CAMHAL_LOGD("tRotatedPreviewResRange.nWidthMin = %d", int(caps.tRotatedPreviewResRange.nWidthMin)); CAMHAL_LOGD("tRotatedPreviewResRange.nHeightMin = %d", int(caps.tRotatedPreviewResRange.nHeightMin)); CAMHAL_LOGD("tRotatedPreviewResRange.nWidthMax = %d", int(caps.tRotatedPreviewResRange.nWidthMax)); CAMHAL_LOGD("tRotatedPreviewResRange.nHeightMax = %d", int(caps.tRotatedPreviewResRange.nHeightMax)); CAMHAL_LOGD("tRotatedPreviewResRange.nMaxResInPixels = %d", int(caps.tRotatedPreviewResRange.nMaxResInPixels)); #endif CAMHAL_LOGD(""); CAMHAL_LOGD("tImageResRange.nWidthMin = %d", int(caps.tImageResRange.nWidthMin)); CAMHAL_LOGD("tImageResRange.nHeightMin = %d", int(caps.tImageResRange.nHeightMin)); CAMHAL_LOGD("tImageResRange.nWidthMax = %d", int(caps.tImageResRange.nWidthMax)); CAMHAL_LOGD("tImageResRange.nHeightMax = %d", int(caps.tImageResRange.nHeightMax)); #ifndef CAMERAHAL_TUNA CAMHAL_LOGD("tImageResRange.nMaxResInPixels = %d", int(caps.tImageResRange.nMaxResInPixels)); #endif CAMHAL_LOGD(""); CAMHAL_LOGD("tThumbResRange.nWidthMin = %d", int(caps.tThumbResRange.nWidthMin)); CAMHAL_LOGD("tThumbResRange.nHeightMin = %d", int(caps.tThumbResRange.nHeightMin)); CAMHAL_LOGD("tThumbResRange.nWidthMax = %d", int(caps.tThumbResRange.nWidthMax)); CAMHAL_LOGD("tThumbResRange.nHeightMax = %d", int(caps.tThumbResRange.nHeightMax)); #ifndef CAMERAHAL_TUNA CAMHAL_LOGD("tThumbResRange.nMaxResInPixels = %d", int(caps.tThumbResRange.nMaxResInPixels)); #endif CAMHAL_LOGD(""); CAMHAL_LOGD("ulWhiteBalanceCount = %d", int(caps.ulWhiteBalanceCount)); for ( int i = 0; i < int(caps.ulWhiteBalanceCount); ++i ) CAMHAL_LOGD(" eWhiteBalanceModes[%2d] = 0x%08x", i, int(caps.eWhiteBalanceModes[i])); CAMHAL_LOGD(""); CAMHAL_LOGD("ulColorEffectCount = %d", int(caps.ulColorEffectCount)); for ( int i = 0; i < int(caps.ulColorEffectCount); ++i ) CAMHAL_LOGD(" eColorEffects[%2d] = 0x%08x", i, int(caps.eColorEffects[i])); CAMHAL_LOGD(""); CAMHAL_LOGD("xMaxWidthZoom = %d", int(caps.xMaxWidthZoom)); CAMHAL_LOGD("xMaxHeightZoom = %d", int(caps.xMaxHeightZoom)); CAMHAL_LOGD(""); CAMHAL_LOGD("ulFlickerCount = %d", int(caps.ulFlickerCount)); for ( int i = 0; i < int(caps.ulFlickerCount); ++i ) CAMHAL_LOGD(" eFlicker[%2d] = %d", i, int(caps.eFlicker[i])); CAMHAL_LOGD(""); CAMHAL_LOGD("ulExposureModeCount = %d", int(caps.ulExposureModeCount)); for ( int i = 0; i < int(caps.ulExposureModeCount); ++i ) CAMHAL_LOGD(" eExposureModes[%2d] = 0x%08x", i, int(caps.eExposureModes[i])); CAMHAL_LOGD(""); CAMHAL_LOGD("bLensDistortionCorrectionSupported = %d", int(caps.bLensDistortionCorrectionSupported)); CAMHAL_LOGD("bISONoiseFilterSupported = %d", int(caps.bISONoiseFilterSupported)); CAMHAL_LOGD("xEVCompensationMin = %d", int(caps.xEVCompensationMin)); CAMHAL_LOGD("xEVCompensationMax = %d", int(caps.xEVCompensationMax)); CAMHAL_LOGD("nSensitivityMax = %d", int(caps.nSensitivityMax)); CAMHAL_LOGD(""); CAMHAL_LOGD("ulFocusModeCount = %d", int(caps.ulFocusModeCount)); for ( int i = 0; i < int(caps.ulFocusModeCount); ++i ) CAMHAL_LOGD(" eFocusModes[%2d] = 0x%08x", i, int(caps.eFocusModes[i])); CAMHAL_LOGD(""); CAMHAL_LOGD("ulSceneCount = %d", int(caps.ulSceneCount)); for ( int i = 0; i < int(caps.ulSceneCount); ++i ) CAMHAL_LOGD(" eSceneModes[%2d] = %d", i, int(caps.eSceneModes[i])); CAMHAL_LOGD(""); CAMHAL_LOGD("ulFlashCount = %d", int(caps.ulFlashCount)); for ( int i = 0; i < int(caps.ulFlashCount); ++i ) CAMHAL_LOGD(" eFlashModes[%2d] = %d", i, int(caps.eFlashModes[i])); CAMHAL_LOGD("xFramerateMin = %d", int(caps.xFramerateMin)); CAMHAL_LOGD("xFramerateMax = %d", int(caps.xFramerateMax)); CAMHAL_LOGD("bContrastSupported = %d", int(caps.bContrastSupported)); CAMHAL_LOGD("bSaturationSupported = %d", int(caps.bSaturationSupported)); CAMHAL_LOGD("bBrightnessSupported = %d", int(caps.bBrightnessSupported)); CAMHAL_LOGD("bProcessingLevelSupported = %d", int(caps.bProcessingLevelSupported)); CAMHAL_LOGD("bQFactorSupported = %d", int(caps.bQFactorSupported)); CAMHAL_LOGD(""); CAMHAL_LOGD("ulPrvVarFPSModesCount = %d", int(caps.ulPrvVarFPSModesCount)); for ( int i = 0; i < int(caps.ulPrvVarFPSModesCount); ++i ) { CAMHAL_LOGD(" tPrvVarFPSModes[%d].nVarFPSMin = %d", i, int(caps.tPrvVarFPSModes[i].nVarFPSMin)); CAMHAL_LOGD(" tPrvVarFPSModes[%d].nVarFPSMax = %d", i, int(caps.tPrvVarFPSModes[i].nVarFPSMax)); } CAMHAL_LOGD(""); CAMHAL_LOGD("ulCapVarFPSModesCount = %d", int(caps.ulCapVarFPSModesCount)); for ( int i = 0; i < int(caps.ulCapVarFPSModesCount); ++i ) { CAMHAL_LOGD(" tCapVarFPSModes[%d].nVarFPSMin = %d", i, int(caps.tCapVarFPSModes[i].nVarFPSMin)); CAMHAL_LOGD(" tCapVarFPSModes[%d].nVarFPSMax = %d", i, int(caps.tCapVarFPSModes[i].nVarFPSMax)); } CAMHAL_LOGD(""); CAMHAL_LOGD("tSenMounting.nSenId = %d", int(caps.tSenMounting.nSenId)); CAMHAL_LOGD("tSenMounting.nRotation = %d", int(caps.tSenMounting.nRotation)); #ifndef CAMERAHAL_TUNA CAMHAL_LOGD("tSenMounting.bMirror = %d", int(caps.tSenMounting.bMirror)); CAMHAL_LOGD("tSenMounting.bFlip = %d", int(caps.tSenMounting.bFlip)); CAMHAL_LOGD("tSenMounting.eFacing = %d", int(caps.tSenMounting.eFacing)); #endif #ifndef CAMERAHAL_TUNA CAMHAL_LOGD(""); CAMHAL_LOGD("ulAutoConvModesCount = %d", int(caps.ulAutoConvModesCount)); for ( int i = 0; i < int(caps.ulAutoConvModesCount); ++i ) CAMHAL_LOGD(" eAutoConvModes[%2d] = %d", i, int(caps.eAutoConvModes[i])); CAMHAL_LOGD(""); CAMHAL_LOGD("ulBracketingModesCount = %d", int(caps.ulBracketingModesCount)); for ( int i = 0; i < int(caps.ulBracketingModesCount); ++i ) CAMHAL_LOGD(" eBracketingModes[%2d] = %d", i, int(caps.eBracketingModes[i])); #endif CAMHAL_LOGD(""); #ifndef CAMERAHAL_TUNA CAMHAL_LOGD("bGbceSupported = %d", int(caps.bGbceSupported)); CAMHAL_LOGD("bRawJpegSupported = %d", int(caps.bRawJpegSupported)); #endif #ifndef CAMERAHAL_TUNA CAMHAL_LOGD(""); CAMHAL_LOGD("ulImageCodingFormatCount = %d", int(caps.ulImageCodingFormatCount)); for ( int i = 0; i < int(caps.ulImageCodingFormatCount); ++i ) CAMHAL_LOGD(" eImageCodingFormat[%2d] = %d", i, int(caps.eImageCodingFormat[i])); #endif CAMHAL_LOGD(""); #ifndef CAMERAHAL_TUNA CAMHAL_LOGD("uSenNativeResWidth = %d", int(caps.uSenNativeResWidth)); CAMHAL_LOGD("uSenNativeResHeight = %d", int(caps.uSenNativeResHeight)); #endif CAMHAL_LOGD("ulAlgoAreasFocusCount = %d", int(caps.ulAlgoAreasFocusCount)); CAMHAL_LOGD("ulAlgoAreasExposureCount = %d", int(caps.ulAlgoAreasExposureCount)); CAMHAL_LOGD("bAELockSupported = %d", int(caps.bAELockSupported)); CAMHAL_LOGD("bAWBLockSupported = %d", int(caps.bAWBLockSupported)); CAMHAL_LOGD("bAFLockSupported = %d", int(caps.bAFLockSupported)); CAMHAL_LOGD("nFocalLength = %d", int(caps.nFocalLength)); CAMHAL_LOGD(""); CAMHAL_LOGD("ulPrvFrameLayoutCount = %d", int(caps.ulPrvFrameLayoutCount)); for ( int i = 0; i < int(caps.ulPrvFrameLayoutCount); ++i ) CAMHAL_LOGD(" ePrvFrameLayout[%2d] = %d", i, int(caps.ePrvFrameLayout[i])); CAMHAL_LOGD(""); CAMHAL_LOGD("ulCapFrameLayoutCount = %d", int(caps.ulCapFrameLayoutCount)); for ( int i = 0; i < int(caps.ulCapFrameLayoutCount); ++i ) CAMHAL_LOGD(" eCapFrameLayout[%2d] = %d", i, int(caps.eCapFrameLayout[i])); CAMHAL_LOGD(""); CAMHAL_LOGD("bVideoNoiseFilterSupported = %d", int(caps.bVideoNoiseFilterSupported )); CAMHAL_LOGD("bVideoStabilizationSupported = %d", int(caps.bVideoStabilizationSupported )); CAMHAL_LOGD("bStillCapDuringVideoSupported = %d", int(caps.bStillCapDuringVideoSupported )); CAMHAL_LOGD("bMechanicalMisalignmentSupported = %d", int(caps.bMechanicalMisalignmentSupported)); CAMHAL_LOGD("bFacePrioritySupported = %d", int(caps.bFacePrioritySupported )); CAMHAL_LOGD("bRegionPrioritySupported = %d", int(caps.bRegionPrioritySupported )); CAMHAL_LOGD("bGlbceSupported = %d", int(caps.bGlbceSupported)); CAMHAL_LOGD(""); CAMHAL_LOGD("nManualConvMin = %d", int(caps.nManualConvMin )); CAMHAL_LOGD("nManualConvMax = %d", int(caps.nManualConvMax )); CAMHAL_LOGD("nManualExpMin = %d", int(caps.nManualExpMin )); CAMHAL_LOGD("nManualExpMax = %d", int(caps.nManualExpMax )); CAMHAL_LOGD("nBrightnessMin = %d", int(caps.nBrightnessMin )); CAMHAL_LOGD("nBrightnessMax = %d", int(caps.nBrightnessMax )); CAMHAL_LOGD("nContrastMin = %d", int(caps.nContrastMin )); CAMHAL_LOGD("nContrastMax = %d", int(caps.nContrastMax )); CAMHAL_LOGD("nSharpnessMin = %d", int(caps.nSharpnessMin )); CAMHAL_LOGD("nSharpnessMax = %d", int(caps.nSharpnessMax )); CAMHAL_LOGD("nSaturationMin = %d", int(caps.nSaturationMin )); CAMHAL_LOGD("nSaturationMax = %d", int(caps.nSaturationMax )); CAMHAL_LOGD(""); CAMHAL_LOGD("------------------- end of dump -------------------"); CAMHAL_LOGD("==================================================="); return true; } /***************************************** * public exposed function declarations *****************************************/ status_t OMXCameraAdapter::getCaps(const int sensorId, CameraProperties::Properties* params, OMX_HANDLETYPE handle) { status_t ret = NO_ERROR; int caps_size = 0; OMX_ERRORTYPE eError = OMX_ErrorNone; CameraBuffer *bufferlist; OMX_TI_CAPTYPE* caps; OMX_TI_CONFIG_SHAREDBUFFER sharedBuffer; MemoryManager memMgr; LOG_FUNCTION_NAME; ret = memMgr.initialize(); if ( ret != OK ) { CAMHAL_LOGE("MemoryManager initialization failed, error: %d", ret); return ret; } // allocate tiler (or ion) buffer for caps (size is always a multiple of 4K) caps_size = ((sizeof(OMX_TI_CAPTYPE)+4095)/4096)*4096; bufferlist = memMgr.allocateBufferList(0, 0, NULL, caps_size, 1); caps = (OMX_TI_CAPTYPE*) bufferlist[0].opaque; if (!caps) { CAMHAL_LOGEB("Error allocating buffer for caps %d", eError); ret = -ENOMEM; goto EXIT; } // initialize structures to be passed to OMX Camera OMX_INIT_STRUCT_PTR (caps, OMX_TI_CAPTYPE); caps->nPortIndex = OMX_ALL; OMX_INIT_STRUCT_PTR (&sharedBuffer, OMX_TI_CONFIG_SHAREDBUFFER); sharedBuffer.nPortIndex = OMX_ALL; sharedBuffer.nSharedBuffSize = caps_size; sharedBuffer.pSharedBuff = (OMX_U8 *) camera_buffer_get_omx_ptr (&bufferlist[0]); // Get capabilities from OMX Camera eError = OMX_GetConfig(handle, (OMX_INDEXTYPE) OMX_TI_IndexConfigCamCapabilities, &sharedBuffer); if ( OMX_ErrorNone != eError ) { CAMHAL_LOGEB("Error during capabilities query 0x%x", eError); ret = UNKNOWN_ERROR; goto EXIT; } else { CAMHAL_LOGDA("OMX capability query success"); } #ifdef CAMERAHAL_PIRANHA char hwrotation[PROPERTY_VALUE_MAX]; if (property_get("ro.sf.hwrotation", hwrotation, 0) > 0) { if (caps->tSenMounting.nSenId == 306) { // front camera caps->tSenMounting.nRotation = atoi(hwrotation); } else { // back camera caps->tSenMounting.nRotation = 360 - atoi(hwrotation); } } // missing camera caps if (caps->tSenMounting.nSenId == 306) { caps->tPreviewResRange.nWidthMax = 640; caps->tPreviewResRange.nHeightMax = 480; caps->nFocalLength = 130; } else { caps->nFocalLength = 279; } #endif #ifdef CAMERAHAL_TUNA // missing camera caps caps->bAELockSupported = OMX_TRUE; caps->bAWBLockSupported = OMX_TRUE; caps->bStillCapDuringVideoSupported = OMX_TRUE; caps->bVideoStabilizationSupported = OMX_TRUE; if (caps->tSenMounting.nSenId == SENSORID_S5K4E1GA) { caps->nFocalLength = 343; // DEFAULT_FOCAL_LENGTH_PRIMARY } else { caps->nFocalLength = 195; // DEFAULT_FOCAL_LENGTH_SECONDARY } #endif #ifdef CAMERAHAL_DEBUG _dumpOmxTiCap(sensorId, *caps); #endif // Translate and insert Ducati capabilities to CameraProperties if ( NO_ERROR == ret ) { ret = insertCapabilities(params, *caps); } CAMHAL_LOGDB("sen mount id=%u", (unsigned int)caps->tSenMounting.nSenId); #ifndef CAMERAHAL_TUNA CAMHAL_LOGDB("facing id=%u", (unsigned int)caps->tSenMounting.eFacing); #endif EXIT: if (bufferlist) { memMgr.freeBufferList(bufferlist); } LOG_FUNCTION_NAME_EXIT; return ret; } } // namespace Camera } // namespace Ti