/* qsv_common.c * * Copyright (c) 2003-2015 HandBrake Team * This file is part of the HandBrake source code. * Homepage: . * It may be used under the terms of the GNU General Public License v2. * For full terms see the file COPYING file or visit http://www.gnu.org/licenses/gpl-2.0.html */ #ifdef USE_QSV #include #include "hb.h" #include "ports.h" #include "common.h" #include "hb_dict.h" #include "qsv_common.h" #include "h264_common.h" // QSV info for each codec static hb_qsv_info_t *hb_qsv_info_avc = NULL; static hb_qsv_info_t *hb_qsv_info_hevc = NULL; // API versions static mfxVersion qsv_software_version = { .Version = 0, }; static mfxVersion qsv_hardware_version = { .Version = 0, }; // AVC implementations static hb_qsv_info_t qsv_software_info_avc = { .available = 0, .codec_id = MFX_CODEC_AVC, .implementation = MFX_IMPL_SOFTWARE, }; static hb_qsv_info_t qsv_hardware_info_avc = { .available = 0, .codec_id = MFX_CODEC_AVC, .implementation = MFX_IMPL_HARDWARE_ANY|MFX_IMPL_VIA_ANY, }; // HEVC implementations static mfxPluginUID qsv_encode_plugin_hevc = { .Data = { 0x2F, 0xCA, 0x99, 0x74, 0x9F, 0xDB, 0x49, 0xAE, 0xB1, 0x21, 0xA5, 0xB6, 0x3E, 0xF5, 0x68, 0xF7 } }; static hb_qsv_info_t qsv_software_info_hevc = { .available = 0, .codec_id = MFX_CODEC_HEVC, .implementation = MFX_IMPL_SOFTWARE, }; static hb_qsv_info_t qsv_hardware_info_hevc = { .available = 0, .codec_id = MFX_CODEC_HEVC, .implementation = MFX_IMPL_HARDWARE_ANY|MFX_IMPL_VIA_ANY, }; // check available Intel Media SDK version against a minimum #define HB_CHECK_MFX_VERSION(MFX_VERSION, MAJOR, MINOR) \ (MFX_VERSION.Major == MAJOR && MFX_VERSION.Minor >= MINOR) /* * Determine the "generation" of QSV hardware based on the CPU microarchitecture. * Anything unknown is assumed to be more recent than the latest known generation. * This avoids having to order the hb_cpu_platform enum depending on QSV hardware. */ enum { QSV_G0, // third party hardware QSV_G1, // Sandy Bridge or equivalent QSV_G2, // Ivy Bridge or equivalent QSV_G3, // Haswell or equivalent }; static int qsv_hardware_generation(int cpu_platform) { switch (cpu_platform) { case HB_CPU_PLATFORM_INTEL_BNL: return QSV_G0; case HB_CPU_PLATFORM_INTEL_SNB: return QSV_G1; case HB_CPU_PLATFORM_INTEL_IVB: case HB_CPU_PLATFORM_INTEL_SLM: return QSV_G2; case HB_CPU_PLATFORM_INTEL_HSW: default: return QSV_G3; } } /* * Determine whether a given mfxIMPL is hardware-accelerated. */ static int qsv_implementation_is_hardware(mfxIMPL implementation) { return MFX_IMPL_BASETYPE(implementation) != MFX_IMPL_SOFTWARE; } int hb_qsv_available() { return hb_qsv_video_encoder_is_enabled(HB_VCODEC_QSV_H264); } int hb_qsv_video_encoder_is_enabled(int encoder) { switch (encoder) { case HB_VCODEC_QSV_H264: return hb_qsv_info_avc != NULL && hb_qsv_info_avc->available; default: return 0; } } int hb_qsv_audio_encoder_is_enabled(int encoder) { switch (encoder) { default: return 0; } } static void init_video_param(mfxVideoParam *videoParam) { if (videoParam == NULL) { return; } memset(videoParam, 0, sizeof(mfxVideoParam)); videoParam->mfx.CodecId = MFX_CODEC_AVC; videoParam->mfx.CodecLevel = MFX_LEVEL_UNKNOWN; videoParam->mfx.CodecProfile = MFX_PROFILE_UNKNOWN; videoParam->mfx.RateControlMethod = MFX_RATECONTROL_VBR; videoParam->mfx.TargetUsage = MFX_TARGETUSAGE_BALANCED; videoParam->mfx.TargetKbps = 5000; videoParam->mfx.GopOptFlag = MFX_GOP_CLOSED; videoParam->mfx.FrameInfo.FourCC = MFX_FOURCC_NV12; videoParam->mfx.FrameInfo.ChromaFormat = MFX_CHROMAFORMAT_YUV420; videoParam->mfx.FrameInfo.PicStruct = MFX_PICSTRUCT_PROGRESSIVE; videoParam->mfx.FrameInfo.FrameRateExtN = 25; videoParam->mfx.FrameInfo.FrameRateExtD = 1; videoParam->mfx.FrameInfo.Width = 1920; videoParam->mfx.FrameInfo.CropW = 1920; videoParam->mfx.FrameInfo.AspectRatioW = 1; videoParam->mfx.FrameInfo.Height = 1088; videoParam->mfx.FrameInfo.CropH = 1080; videoParam->mfx.FrameInfo.AspectRatioH = 1; videoParam->AsyncDepth = AV_QSV_ASYNC_DEPTH_DEFAULT; videoParam->IOPattern = MFX_IOPATTERN_IN_SYSTEM_MEMORY; } static void init_ext_coding_option2(mfxExtCodingOption2 *extCodingOption2) { if (extCodingOption2 == NULL) { return; } memset(extCodingOption2, 0, sizeof(mfxExtCodingOption2)); extCodingOption2->Header.BufferId = MFX_EXTBUFF_CODING_OPTION2; extCodingOption2->Header.BufferSz = sizeof(mfxExtCodingOption2); extCodingOption2->MBBRC = MFX_CODINGOPTION_ON; extCodingOption2->ExtBRC = MFX_CODINGOPTION_ON; extCodingOption2->Trellis = MFX_TRELLIS_I|MFX_TRELLIS_P|MFX_TRELLIS_B; extCodingOption2->RepeatPPS = MFX_CODINGOPTION_ON; extCodingOption2->BRefType = MFX_B_REF_PYRAMID; extCodingOption2->AdaptiveI = MFX_CODINGOPTION_ON; extCodingOption2->AdaptiveB = MFX_CODINGOPTION_ON; extCodingOption2->LookAheadDS = MFX_LOOKAHEAD_DS_4x; extCodingOption2->NumMbPerSlice = 2040; // 1920x1088/4 } static int query_capabilities(mfxSession session, mfxVersion version, hb_qsv_info_t *info) { /* * MFXVideoENCODE_Query(mfxSession, mfxVideoParam *in, mfxVideoParam *out); * * Mode 1: * - in is NULL * - out has the parameters we want to query set to 1 * - out->mfx.CodecId field has to be set (mandatory) * - MFXVideoENCODE_Query should zero out all unsupported parameters * * Mode 2: * - the paramaters we want to query are set for in * - in ->mfx.CodecId field has to be set (mandatory) * - out->mfx.CodecId field has to be set (mandatory) * - MFXVideoENCODE_Query should sanitize all unsupported parameters */ mfxStatus status; mfxPluginUID *pluginUID; mfxExtBuffer *videoExtParam[1]; mfxVideoParam videoParam, inputParam; mfxExtCodingOption2 extCodingOption2; /* Reset capabilities before querying */ info->capabilities = 0; /* Load optional codec plug-ins */ switch (info->codec_id) { case MFX_CODEC_HEVC: pluginUID = &qsv_encode_plugin_hevc; break; default: pluginUID = NULL; break; } if (pluginUID != NULL && HB_CHECK_MFX_VERSION(version, 1, 8) && MFXVideoUSER_Load(session, pluginUID, 0) < MFX_ERR_NONE) { // couldn't load plugin successfully return 0; } /* * First of all, check availability of an encoder for * this combination of a codec ID and implementation. * * Note: can error out rather than sanitizing * unsupported codec IDs, so don't log errors. */ if (HB_CHECK_MFX_VERSION(version, HB_QSV_MINVERSION_MAJOR, HB_QSV_MINVERSION_MINOR)) { if (info->implementation & MFX_IMPL_AUDIO) { /* Not yet supported */ return 0; } else { init_video_param(&inputParam); inputParam.mfx.CodecId = info->codec_id; memset(&videoParam, 0, sizeof(mfxVideoParam)); videoParam.mfx.CodecId = inputParam.mfx.CodecId; if (MFXVideoENCODE_Query(session, &inputParam, &videoParam) >= MFX_ERR_NONE && videoParam.mfx.CodecId == info->codec_id) { info->available = 1; } } } if (!info->available) { /* Don't check capabilities for unavailable encoders */ return 0; } if (info->implementation & MFX_IMPL_AUDIO) { /* We don't have any audio capability checks yet */ return 0; } else { /* Implementation-specific features that can't be queried */ if (qsv_implementation_is_hardware(info->implementation)) { if (qsv_hardware_generation(hb_get_cpu_platform()) >= QSV_G3) { info->capabilities |= HB_QSV_CAP_B_REF_PYRAMID; } } else { if (HB_CHECK_MFX_VERSION(version, 1, 6)) { info->capabilities |= HB_QSV_CAP_B_REF_PYRAMID; } } /* API-specific features that can't be queried */ if (HB_CHECK_MFX_VERSION(version, 1, 6)) { // API >= 1.6 (mfxBitstream::DecodeTimeStamp, mfxExtCodingOption2) info->capabilities |= HB_QSV_CAP_MSDK_API_1_6; } /* * Check availability of optional rate control methods. * * Mode 2 tends to error out, but mode 1 gives false negatives, which * is worse. So use mode 2 and assume an error means it's unsupported. * * Also assume that LA and ICQ combined imply LA_ICQ is * supported, so we don't need to check the latter too. */ if (HB_CHECK_MFX_VERSION(version, 1, 7)) { init_video_param(&inputParam); inputParam.mfx.CodecId = info->codec_id; inputParam.mfx.RateControlMethod = MFX_RATECONTROL_LA; memset(&videoParam, 0, sizeof(mfxVideoParam)); videoParam.mfx.CodecId = inputParam.mfx.CodecId; if (MFXVideoENCODE_Query(session, &inputParam, &videoParam) >= MFX_ERR_NONE && videoParam.mfx.RateControlMethod == MFX_RATECONTROL_LA) { info->capabilities |= HB_QSV_CAP_RATECONTROL_LA; // also check for LA + interlaced support init_video_param(&inputParam); inputParam.mfx.CodecId = info->codec_id; inputParam.mfx.RateControlMethod = MFX_RATECONTROL_LA; inputParam.mfx.FrameInfo.PicStruct = MFX_PICSTRUCT_FIELD_TFF; memset(&videoParam, 0, sizeof(mfxVideoParam)); videoParam.mfx.CodecId = inputParam.mfx.CodecId; if (MFXVideoENCODE_Query(session, &inputParam, &videoParam) >= MFX_ERR_NONE && videoParam.mfx.FrameInfo.PicStruct == MFX_PICSTRUCT_FIELD_TFF && videoParam.mfx.RateControlMethod == MFX_RATECONTROL_LA) { info->capabilities |= HB_QSV_CAP_RATECONTROL_LAi; } } } if (HB_CHECK_MFX_VERSION(version, 1, 8)) { init_video_param(&inputParam); inputParam.mfx.CodecId = info->codec_id; inputParam.mfx.RateControlMethod = MFX_RATECONTROL_ICQ; memset(&videoParam, 0, sizeof(mfxVideoParam)); videoParam.mfx.CodecId = inputParam.mfx.CodecId; if (MFXVideoENCODE_Query(session, &inputParam, &videoParam) >= MFX_ERR_NONE && videoParam.mfx.RateControlMethod == MFX_RATECONTROL_ICQ) { info->capabilities |= HB_QSV_CAP_RATECONTROL_ICQ; } } /* * Check mfxExtCodingOption2 fields. * * Mode 2 suffers from false negatives with some drivers, whereas mode 1 * suffers from false positives instead. The latter is probably easier * and/or safer to sanitize for us, so use mode 1. */ if (HB_CHECK_MFX_VERSION(version, 1, 6) && info->codec_id == MFX_CODEC_AVC) { init_video_param(&videoParam); videoParam.mfx.CodecId = info->codec_id; init_ext_coding_option2(&extCodingOption2); videoParam.ExtParam = videoExtParam; videoParam.ExtParam[0] = (mfxExtBuffer*)&extCodingOption2; videoParam.NumExtParam = 1; status = MFXVideoENCODE_Query(session, NULL, &videoParam); if (status >= MFX_ERR_NONE) { #if 0 // testing code that could come in handy fprintf(stderr, "-------------------\n"); fprintf(stderr, "MBBRC: 0x%02X\n", extCodingOption2.MBBRC); fprintf(stderr, "ExtBRC: 0x%02X\n", extCodingOption2.ExtBRC); fprintf(stderr, "Trellis: 0x%02X\n", extCodingOption2.Trellis); fprintf(stderr, "RepeatPPS: 0x%02X\n", extCodingOption2.RepeatPPS); fprintf(stderr, "BRefType: %4"PRIu16"\n", extCodingOption2.BRefType); fprintf(stderr, "AdaptiveI: 0x%02X\n", extCodingOption2.AdaptiveI); fprintf(stderr, "AdaptiveB: 0x%02X\n", extCodingOption2.AdaptiveB); fprintf(stderr, "LookAheadDS: %4"PRIu16"\n", extCodingOption2.LookAheadDS); fprintf(stderr, "-------------------\n"); #endif /* * Sanitize API 1.6 fields: * * - MBBRC requires G3 hardware (Haswell or equivalent) * - ExtBRC requires G2 hardware (Ivy Bridge or equivalent) */ if (qsv_implementation_is_hardware(info->implementation) && qsv_hardware_generation(hb_get_cpu_platform()) >= QSV_G3) { if (extCodingOption2.MBBRC) { info->capabilities |= HB_QSV_CAP_OPTION2_MBBRC; } } if (qsv_implementation_is_hardware(info->implementation) && qsv_hardware_generation(hb_get_cpu_platform()) >= QSV_G2) { if (extCodingOption2.ExtBRC) { info->capabilities |= HB_QSV_CAP_OPTION2_EXTBRC; } } /* * Sanitize API 1.7 fields: * * - Trellis requires G3 hardware (Haswell or equivalent) */ if (HB_CHECK_MFX_VERSION(version, 1, 7)) { if (qsv_implementation_is_hardware(info->implementation) && qsv_hardware_generation(hb_get_cpu_platform()) >= QSV_G3) { if (extCodingOption2.Trellis) { info->capabilities |= HB_QSV_CAP_OPTION2_TRELLIS; } } } /* * Sanitize API 1.8 fields: * * - BRefType requires B-pyramid support * - LookAheadDS requires lookahead support * - AdaptiveI, AdaptiveB, NumMbPerSlice unknown (trust Query) */ if (HB_CHECK_MFX_VERSION(version, 1, 8)) { if (info->capabilities & HB_QSV_CAP_B_REF_PYRAMID) { if (extCodingOption2.BRefType) { info->capabilities |= HB_QSV_CAP_OPTION2_BREFTYPE; } } if (info->capabilities & HB_QSV_CAP_RATECONTROL_LA) { if (extCodingOption2.LookAheadDS) { info->capabilities |= HB_QSV_CAP_OPTION2_LA_DOWNS; } } if (extCodingOption2.AdaptiveI && extCodingOption2.AdaptiveB) { info->capabilities |= HB_QSV_CAP_OPTION2_IB_ADAPT; } if (extCodingOption2.NumMbPerSlice) { info->capabilities |= HB_QSV_CAP_OPTION2_NMBSLICE; } } } else { fprintf(stderr, "hb_qsv_info_init: mfxExtCodingOption2 check failed (0x%"PRIX32", 0x%"PRIX32", %d)\n", info->codec_id, info->implementation, status); } } } /* Unload optional codec plug-ins */ if (pluginUID != NULL && HB_CHECK_MFX_VERSION(version, 1, 8)) { MFXVideoUSER_UnLoad(session, pluginUID); } return 0; } int hb_qsv_info_init() { static int init_done = 0; if (init_done) return 0; init_done = 1; /* * First, check for any MSDK version to determine whether one or * more implementations are present; then check if we can use them. * * I've had issues using a NULL version with some combinations of * hardware and driver, so use a low version number (1.0) instead. */ mfxSession session; mfxVersion version = { .Major = 1, .Minor = 0, }; // check for software fallback if (MFXInit(MFX_IMPL_SOFTWARE, &version, &session) == MFX_ERR_NONE) { // Media SDK software found, but check that our minimum is supported MFXQueryVersion(session, &qsv_software_version); if (HB_CHECK_MFX_VERSION(qsv_software_version, HB_QSV_MINVERSION_MAJOR, HB_QSV_MINVERSION_MINOR)) { query_capabilities(session, qsv_software_version, &qsv_software_info_avc); query_capabilities(session, qsv_software_version, &qsv_software_info_hevc); // now that we know which hardware encoders are // available, we can set the preferred implementation hb_qsv_impl_set_preferred("software"); } MFXClose(session); } // check for actual hardware support if (MFXInit(MFX_IMPL_HARDWARE_ANY, &version, &session) == MFX_ERR_NONE) { // Media SDK hardware found, but check that our minimum is supported // // Note: this-party hardware (QSV_G0) is unsupported for the time being MFXQueryVersion(session, &qsv_hardware_version); if (qsv_hardware_generation(hb_get_cpu_platform()) >= QSV_G1 && HB_CHECK_MFX_VERSION(qsv_hardware_version, HB_QSV_MINVERSION_MAJOR, HB_QSV_MINVERSION_MINOR)) { query_capabilities(session, qsv_hardware_version, &qsv_hardware_info_avc); query_capabilities(session, qsv_hardware_version, &qsv_hardware_info_hevc); // now that we know which hardware encoders are // available, we can set the preferred implementation hb_qsv_impl_set_preferred("hardware"); } MFXClose(session); } // success return 0; } static void log_capabilities(int log_level, uint64_t caps, const char *prefix) { if (!caps) { hb_deep_log(log_level, "%s none (standard feature set)", prefix); } else { hb_deep_log(log_level, "%s%s%s%s%s%s%s%s%s%s%s%s%s", prefix, !(caps & HB_QSV_CAP_MSDK_API_1_6) ? "" : " api1.6", !(caps & HB_QSV_CAP_B_REF_PYRAMID) ? "" : " bpyramid", !(caps & HB_QSV_CAP_OPTION2_BREFTYPE) ? "" : " breftype", !(caps & HB_QSV_CAP_RATECONTROL_LA) ? "" : " lookahead", !(caps & HB_QSV_CAP_RATECONTROL_LAi) ? "" : " lookaheadi", !(caps & HB_QSV_CAP_OPTION2_LA_DOWNS) ? "" : " lookaheadds", !(caps & HB_QSV_CAP_RATECONTROL_ICQ) ? "" : " icq", !(caps & HB_QSV_CAP_OPTION2_MBBRC) ? "" : " mbbrc", !(caps & HB_QSV_CAP_OPTION2_EXTBRC) ? "" : " extbrc", !(caps & HB_QSV_CAP_OPTION2_TRELLIS) ? "" : " trellis", !(caps & HB_QSV_CAP_OPTION2_IB_ADAPT) ? "" : " adaptivei adaptiveb", !(caps & HB_QSV_CAP_OPTION2_NMBSLICE) ? "" : " nummbperslice"); } } void hb_qsv_info_print() { // is QSV available and usable? hb_log("Intel Quick Sync Video support: %s", hb_qsv_available() ? "yes": "no"); // also print the details if (qsv_hardware_version.Version) { hb_log(" - Intel Media SDK hardware: API %"PRIu16".%"PRIu16" (minimum: %"PRIu16".%"PRIu16")", qsv_hardware_version.Major, qsv_hardware_version.Minor, HB_QSV_MINVERSION_MAJOR, HB_QSV_MINVERSION_MINOR); } if (qsv_software_version.Version) { hb_log(" - Intel Media SDK software: API %"PRIu16".%"PRIu16" (minimum: %"PRIu16".%"PRIu16")", qsv_software_version.Major, qsv_software_version.Minor, HB_QSV_MINVERSION_MAJOR, HB_QSV_MINVERSION_MINOR); } if (hb_qsv_available()) { if (hb_qsv_info_avc != NULL && hb_qsv_info_avc->available) { hb_log(" - H.264 encoder: yes"); hb_log(" - preferred implementation: %s", hb_qsv_impl_get_name(hb_qsv_info_avc->implementation)); if (qsv_hardware_info_avc.available) { log_capabilities(2, qsv_hardware_info_avc.capabilities, " - capabilities (hardware): "); } if (qsv_software_info_avc.available) { log_capabilities(2, qsv_software_info_avc.capabilities, " - capabilities (software): "); } } else { hb_log(" - H.264 encoder: no"); } if (hb_qsv_info_hevc != NULL && hb_qsv_info_hevc->available) { hb_log(" - H.265 encoder: yes (unsupported)"); hb_log(" - preferred implementation: %s", hb_qsv_impl_get_name(hb_qsv_info_hevc->implementation)); if (qsv_hardware_info_hevc.available) { log_capabilities(2, qsv_hardware_info_hevc.capabilities, " - capabilities (hardware): "); } if (qsv_software_info_hevc.available) { log_capabilities(2, qsv_software_info_hevc.capabilities, " - capabilities (software): "); } } else { hb_log(" - H.265 encoder: no"); } } } hb_qsv_info_t* hb_qsv_info_get(int encoder) { switch (encoder) { case HB_VCODEC_QSV_H264: return hb_qsv_info_avc; default: return NULL; } } const char* hb_qsv_decode_get_codec_name(enum AVCodecID codec_id) { switch (codec_id) { case AV_CODEC_ID_H264: return "h264_qsv"; default: return NULL; } } int hb_qsv_decode_is_enabled(hb_job_t *job) { return ((job != NULL && job->qsv.decode) && (job->vcodec & HB_VCODEC_QSV_MASK) && (job->title->video_decode_support & HB_DECODE_SUPPORT_QSV)); } int hb_qsv_copyframe_is_slow(int encoder) { hb_qsv_info_t *info = hb_qsv_info_get(encoder); if (info != NULL && qsv_implementation_is_hardware(info->implementation)) { // we should really check the driver version, but since it's not // available, checking the API version is the best we can do :-( return !HB_CHECK_MFX_VERSION(qsv_hardware_version, 1, 7); } return 0; } int hb_qsv_codingoption_xlat(int val) { switch (HB_QSV_CLIP3(-1, 2, val)) { case 0: return MFX_CODINGOPTION_OFF; case 1: case 2: // MFX_CODINGOPTION_ADAPTIVE, reserved return MFX_CODINGOPTION_ON; case -1: default: return MFX_CODINGOPTION_UNKNOWN; } } int hb_qsv_trellisvalue_xlat(int val) { switch (HB_QSV_CLIP3(0, 3, val)) { case 0: return MFX_TRELLIS_OFF; case 1: // I-frames only return MFX_TRELLIS_I; case 2: // I- and P-frames return MFX_TRELLIS_I|MFX_TRELLIS_P; case 3: // all frames return MFX_TRELLIS_I|MFX_TRELLIS_P|MFX_TRELLIS_B; default: return MFX_TRELLIS_UNKNOWN; } } const char* hb_qsv_codingoption_get_name(int val) { switch (val) { case MFX_CODINGOPTION_ON: return "on"; case MFX_CODINGOPTION_OFF: return "off"; case MFX_CODINGOPTION_ADAPTIVE: return "adaptive"; case MFX_CODINGOPTION_UNKNOWN: return "unknown (auto)"; default: return NULL; } } int hb_qsv_atoindex(const char* const *arr, const char *str, int *err) { int i; for (i = 0; arr[i] != NULL; i++) { if (!strcasecmp(arr[i], str)) { break; } } *err = (arr[i] == NULL); return i; } // adapted from libx264 int hb_qsv_atobool(const char *str, int *err) { if (!strcasecmp(str, "1") || !strcasecmp(str, "yes") || !strcasecmp(str, "true")) { return 1; } if (!strcasecmp(str, "0") || !strcasecmp(str, "no") || !strcasecmp(str, "false")) { return 0; } *err = 1; return 0; } // adapted from libx264 int hb_qsv_atoi(const char *str, int *err) { char *end; int v = strtol(str, &end, 0); if (end == str || end[0] != '\0') { *err = 1; } return v; } // adapted from libx264 float hb_qsv_atof(const char *str, int *err) { char *end; float v = strtod(str, &end); if (end == str || end[0] != '\0') { *err = 1; } return v; } int hb_qsv_param_parse(hb_qsv_param_t *param, hb_qsv_info_t *info, const char *key, const char *value) { float fvalue; int ivalue, error = 0; if (param == NULL || info == NULL) { return HB_QSV_PARAM_ERROR; } if (value == NULL || value[0] == '\0') { value = "true"; } else if (value[0] == '=') { value++; } if (key == NULL || key[0] == '\0') { return HB_QSV_PARAM_BAD_NAME; } else if (!strncasecmp(key, "no-", 3)) { key += 3; value = hb_qsv_atobool(value, &error) ? "false" : "true"; if (error) { return HB_QSV_PARAM_BAD_VALUE; } } if (!strcasecmp(key, "target-usage") || !strcasecmp(key, "tu")) { ivalue = hb_qsv_atoi(value, &error); if (!error) { param->videoParam->mfx.TargetUsage = HB_QSV_CLIP3(MFX_TARGETUSAGE_1, MFX_TARGETUSAGE_7, ivalue); } } else if (!strcasecmp(key, "num-ref-frame") || !strcasecmp(key, "ref")) { ivalue = hb_qsv_atoi(value, &error); if (!error) { param->videoParam->mfx.NumRefFrame = HB_QSV_CLIP3(0, 16, ivalue); } } else if (!strcasecmp(key, "gop-ref-dist")) { ivalue = hb_qsv_atoi(value, &error); if (!error) { param->gop.gop_ref_dist = HB_QSV_CLIP3(-1, 32, ivalue); } } else if (!strcasecmp(key, "gop-pic-size") || !strcasecmp(key, "keyint")) { ivalue = hb_qsv_atoi(value, &error); if (!error) { param->gop.gop_pic_size = HB_QSV_CLIP3(-1, UINT16_MAX, ivalue); } } else if (!strcasecmp(key, "b-pyramid")) { if (info->capabilities & HB_QSV_CAP_B_REF_PYRAMID) { ivalue = hb_qsv_atoi(value, &error); if (!error) { param->gop.b_pyramid = HB_QSV_CLIP3(-1, 1, ivalue); } } else { return HB_QSV_PARAM_UNSUPPORTED; } } else if (!strcasecmp(key, "scenecut")) { ivalue = hb_qsv_atobool(value, &error); if (!error) { if (!ivalue) { param->videoParam->mfx.GopOptFlag |= MFX_GOP_STRICT; } else { param->videoParam->mfx.GopOptFlag &= ~MFX_GOP_STRICT; } } } else if (!strcasecmp(key, "adaptive-i") || !strcasecmp(key, "i-adapt")) { if (info->capabilities & HB_QSV_CAP_OPTION2_IB_ADAPT) { ivalue = hb_qsv_atobool(value, &error); if (!error) { param->codingOption2.AdaptiveI = hb_qsv_codingoption_xlat(ivalue); } } else { return HB_QSV_PARAM_UNSUPPORTED; } } else if (!strcasecmp(key, "adaptive-b") || !strcasecmp(key, "b-adapt")) { if (info->capabilities & HB_QSV_CAP_OPTION2_IB_ADAPT) { ivalue = hb_qsv_atobool(value, &error); if (!error) { param->codingOption2.AdaptiveB = hb_qsv_codingoption_xlat(ivalue); } } else { return HB_QSV_PARAM_UNSUPPORTED; } } else if (!strcasecmp(key, "force-cqp")) { ivalue = hb_qsv_atobool(value, &error); if (!error) { param->rc.icq = !ivalue; } } else if (!strcasecmp(key, "cqp-offset-i")) { ivalue = hb_qsv_atoi(value, &error); if (!error) { param->rc.cqp_offsets[0] = HB_QSV_CLIP3(INT16_MIN, INT16_MAX, ivalue); } } else if (!strcasecmp(key, "cqp-offset-p")) { ivalue = hb_qsv_atoi(value, &error); if (!error) { param->rc.cqp_offsets[1] = HB_QSV_CLIP3(INT16_MIN, INT16_MAX, ivalue); } } else if (!strcasecmp(key, "cqp-offset-b")) { ivalue = hb_qsv_atoi(value, &error); if (!error) { param->rc.cqp_offsets[2] = HB_QSV_CLIP3(INT16_MIN, INT16_MAX, ivalue); } } else if (!strcasecmp(key, "vbv-init")) { fvalue = hb_qsv_atof(value, &error); if (!error) { param->rc.vbv_buffer_init = HB_QSV_CLIP3(0, UINT16_MAX, fvalue); } } else if (!strcasecmp(key, "vbv-bufsize")) { ivalue = hb_qsv_atoi(value, &error); if (!error) { param->rc.vbv_buffer_size = HB_QSV_CLIP3(0, UINT16_MAX, ivalue); } } else if (!strcasecmp(key, "vbv-maxrate")) { ivalue = hb_qsv_atoi(value, &error); if (!error) { param->rc.vbv_max_bitrate = HB_QSV_CLIP3(0, UINT16_MAX, ivalue); } } else if (!strcasecmp(key, "cavlc") || !strcasecmp(key, "cabac")) { switch (info->codec_id) { case MFX_CODEC_AVC: ivalue = hb_qsv_atobool(value, &error); break; default: return HB_QSV_PARAM_UNSUPPORTED; } if (!error) { if (!strcasecmp(key, "cabac")) { ivalue = !ivalue; } param->codingOption.CAVLC = hb_qsv_codingoption_xlat(ivalue); } } else if (!strcasecmp(key, "videoformat")) { switch (info->codec_id) { case MFX_CODEC_AVC: ivalue = hb_qsv_atoindex(hb_h264_vidformat_names, value, &error); break; default: return HB_QSV_PARAM_UNSUPPORTED; } if (!error) { param->videoSignalInfo.VideoFormat = ivalue; } } else if (!strcasecmp(key, "fullrange")) { switch (info->codec_id) { case MFX_CODEC_AVC: ivalue = hb_qsv_atoindex(hb_h264_fullrange_names, value, &error); break; default: return HB_QSV_PARAM_UNSUPPORTED; } if (!error) { param->videoSignalInfo.VideoFullRange = ivalue; } } else if (!strcasecmp(key, "colorprim")) { switch (info->codec_id) { case MFX_CODEC_AVC: ivalue = hb_qsv_atoindex(hb_h264_colorprim_names, value, &error); break; default: return HB_QSV_PARAM_UNSUPPORTED; } if (!error) { param->videoSignalInfo.ColourDescriptionPresent = 1; param->videoSignalInfo.ColourPrimaries = ivalue; } } else if (!strcasecmp(key, "transfer")) { switch (info->codec_id) { case MFX_CODEC_AVC: ivalue = hb_qsv_atoindex(hb_h264_transfer_names, value, &error); break; default: return HB_QSV_PARAM_UNSUPPORTED; } if (!error) { param->videoSignalInfo.ColourDescriptionPresent = 1; param->videoSignalInfo.TransferCharacteristics = ivalue; } } else if (!strcasecmp(key, "colormatrix")) { switch (info->codec_id) { case MFX_CODEC_AVC: ivalue = hb_qsv_atoindex(hb_h264_colmatrix_names, value, &error); break; default: return HB_QSV_PARAM_UNSUPPORTED; } if (!error) { param->videoSignalInfo.ColourDescriptionPresent = 1; param->videoSignalInfo.MatrixCoefficients = ivalue; } } else if (!strcasecmp(key, "tff") || !strcasecmp(key, "interlaced")) { switch (info->codec_id) { case MFX_CODEC_AVC: ivalue = hb_qsv_atobool(value, &error); break; default: return HB_QSV_PARAM_UNSUPPORTED; } if (!error) { param->videoParam->mfx.FrameInfo.PicStruct = (ivalue ? MFX_PICSTRUCT_FIELD_TFF : MFX_PICSTRUCT_PROGRESSIVE); } } else if (!strcasecmp(key, "bff")) { switch (info->codec_id) { case MFX_CODEC_AVC: ivalue = hb_qsv_atobool(value, &error); break; default: return HB_QSV_PARAM_UNSUPPORTED; } if (!error) { param->videoParam->mfx.FrameInfo.PicStruct = (ivalue ? MFX_PICSTRUCT_FIELD_BFF : MFX_PICSTRUCT_PROGRESSIVE); } } else if (!strcasecmp(key, "mbbrc")) { if (info->capabilities & HB_QSV_CAP_OPTION2_MBBRC) { ivalue = hb_qsv_atobool(value, &error); if (!error) { param->codingOption2.MBBRC = hb_qsv_codingoption_xlat(ivalue); } } else { return HB_QSV_PARAM_UNSUPPORTED; } } else if (!strcasecmp(key, "extbrc")) { if (info->capabilities & HB_QSV_CAP_OPTION2_EXTBRC) { ivalue = hb_qsv_atobool(value, &error); if (!error) { param->codingOption2.ExtBRC = hb_qsv_codingoption_xlat(ivalue); } } else { return HB_QSV_PARAM_UNSUPPORTED; } } else if (!strcasecmp(key, "lookahead") || !strcasecmp(key, "la")) { if (info->capabilities & HB_QSV_CAP_RATECONTROL_LA) { ivalue = hb_qsv_atobool(value, &error); if (!error) { param->rc.lookahead = ivalue; } } else { return HB_QSV_PARAM_UNSUPPORTED; } } else if (!strcasecmp(key, "lookahead-depth") || !strcasecmp(key, "la-depth")) { if (info->capabilities & HB_QSV_CAP_RATECONTROL_LA) { ivalue = hb_qsv_atoi(value, &error); if (!error) { // LookAheadDepth 10 will cause a hang with some driver versions param->codingOption2.LookAheadDepth = HB_QSV_CLIP3(11, 100, ivalue); } } else { return HB_QSV_PARAM_UNSUPPORTED; } } else if (!strcasecmp(key, "lookahead-ds") || !strcasecmp(key, "la-ds")) { if (info->capabilities & HB_QSV_CAP_OPTION2_LA_DOWNS) { ivalue = hb_qsv_atoi(value, &error); if (!error) { param->codingOption2.LookAheadDS = HB_QSV_CLIP3(MFX_LOOKAHEAD_DS_UNKNOWN, MFX_LOOKAHEAD_DS_4x, ivalue); } } else { return HB_QSV_PARAM_UNSUPPORTED; } } else if (!strcasecmp(key, "trellis")) { if (info->capabilities & HB_QSV_CAP_OPTION2_TRELLIS) { ivalue = hb_qsv_atoi(value, &error); if (!error) { param->codingOption2.Trellis = hb_qsv_trellisvalue_xlat(ivalue); } } else { return HB_QSV_PARAM_UNSUPPORTED; } } else { /* * TODO: * - slice count (num-slice/slices, num-mb-per-slice/slice-max-mbs) * - open-gop * - fake-interlaced (mfxExtCodingOption.FramePicture???) * - intra-refresh */ return HB_QSV_PARAM_BAD_NAME; } return error ? HB_QSV_PARAM_BAD_VALUE : HB_QSV_PARAM_OK; } #ifdef HB_API_OLD_PRESET_GETTERS const char* const* hb_qsv_presets() { return hb_qsv_preset_get_names(); } #endif const char* const* hb_qsv_preset_get_names() { if (qsv_hardware_generation(hb_get_cpu_platform()) >= QSV_G3) { return hb_qsv_preset_names2; } else { return hb_qsv_preset_names1; } } const char* const* hb_qsv_profile_get_names(int encoder) { switch (encoder) { case HB_VCODEC_QSV_H264: return hb_h264_profile_names; default: return NULL; } } const char* const* hb_qsv_level_get_names(int encoder) { switch (encoder) { case HB_VCODEC_QSV_H264: return hb_h264_level_names; default: return NULL; } } const char* hb_qsv_video_quality_get_name(uint32_t codec) { uint64_t caps; switch (codec) { case HB_VCODEC_QSV_H264: caps = hb_qsv_info_avc != NULL ? hb_qsv_info_avc->capabilities : 0; return (caps & HB_QSV_CAP_RATECONTROL_ICQ) ? "ICQ" : "QP"; default: return "QP"; } } void hb_qsv_video_quality_get_limits(uint32_t codec, float *low, float *high, float *granularity, int *direction) { uint64_t caps; switch (codec) { case HB_VCODEC_QSV_H264: caps = hb_qsv_info_avc != NULL ? hb_qsv_info_avc->capabilities : 0; *direction = 1; *granularity = 1.; *low = (caps & HB_QSV_CAP_RATECONTROL_ICQ) ? 1. : 0.; *high = 51.; break; default: *direction = 1; *granularity = 1.; *low = 0.; *high = 51.; break; } } int hb_qsv_param_default_preset(hb_qsv_param_t *param, mfxVideoParam *videoParam, hb_qsv_info_t *info, const char *preset) { if (param != NULL && videoParam != NULL && info != NULL) { int ret = hb_qsv_param_default(param, videoParam, info); if (ret) { return ret; } } else { hb_error("hb_qsv_param_default_preset: invalid pointer(s)"); return -1; } if (preset != NULL && preset[0] != '\0') { if (!strcasecmp(preset, "quality")) { /* * HSW TargetUsage: 2 * NumRefFrame: 0 * GopRefDist: 4 (CQP), 3 (VBR) -> -1 (set by encoder) * GopPicSize: 32 (CQP), 1 second (VBR) -> -1 (set by encoder) * BPyramid: 1 (CQP), 0 (VBR) -> -1 (set by encoder) * LookAhead: 1 (on) * LookAheadDepth: 40 * * * SNB * IVB Preset Not Available * * Note: this preset is the libhb default (like x264's "medium"). */ } else if (!strcasecmp(preset, "balanced")) { /* * HSW TargetUsage: 4 * NumRefFrame: 1 * GopRefDist: 4 (CQP), 3 (VBR) -> -1 (set by encoder) * GopPicSize: 32 (CQP), 1 second (VBR) -> -1 (set by encoder) * BPyramid: 1 (CQP), 0 (VBR) -> -1 (set by encoder) * LookAhead: 0 (off) * LookAheadDepth: Not Applicable */ if (qsv_hardware_generation(hb_get_cpu_platform()) >= QSV_G3) { param->rc.lookahead = 0; param->videoParam->mfx.NumRefFrame = 1; param->videoParam->mfx.TargetUsage = MFX_TARGETUSAGE_4; } else { /* * SNB * IVB TargetUsage: 2 * NumRefFrame: 0 * GopRefDist: 4 (CQP), 3 (VBR) -> -1 (set by encoder) * GopPicSize: 32 (CQP), 1 second (VBR) -> -1 (set by encoder) * BPyramid: Not Applicable * LookAhead: Not Applicable * LookAheadDepth: Not Applicable * * Note: this preset is not the libhb default, * but the settings are the same so do nothing. */ } } else if (!strcasecmp(preset, "speed")) { if (qsv_hardware_generation(hb_get_cpu_platform()) >= QSV_G3) { /* * HSW TargetUsage: 6 * NumRefFrame: 0 (CQP), 1 (VBR) -> see note * GopRefDist: 4 (CQP), 3 (VBR) -> -1 (set by encoder) * GopPicSize: 32 (CQP), 1 second (VBR) -> -1 (set by encoder) * BPyramid: 1 (CQP), 0 (VBR) -> -1 (set by encoder) * LookAhead: 0 (off) * LookAheadDepth: Not Applicable * * Note: NumRefFrame depends on the RC method, which we don't * know here. Rather than have an additional variable and * having the encoder set it, we set it to 1 and let the * B-pyramid code sanitize it. Since BPyramid is 1 w/CQP, * the result (3) is the same as what MSDK would pick for * NumRefFrame 0 GopRefDist 4 GopPicSize 32. */ param->rc.lookahead = 0; param->videoParam->mfx.NumRefFrame = 1; param->videoParam->mfx.TargetUsage = MFX_TARGETUSAGE_6; } else { /* * SNB * IVB TargetUsage: 4 * NumRefFrame: 0 * GopRefDist: 4 (CQP), 3 (VBR) -> -1 (set by encoder) * GopPicSize: 32 (CQP), 1 second (VBR) -> -1 (set by encoder) * BPyramid: Not Applicable * LookAhead: Not Applicable * LookAheadDepth: Not Applicable */ param->videoParam->mfx.TargetUsage = MFX_TARGETUSAGE_4; } } else { hb_error("hb_qsv_param_default_preset: invalid preset '%s'", preset); return -1; } } return 0; } int hb_qsv_param_default(hb_qsv_param_t *param, mfxVideoParam *videoParam, hb_qsv_info_t *info) { if (param != NULL && videoParam != NULL && info != NULL) { // introduced in API 1.0 memset(¶m->codingOption, 0, sizeof(mfxExtCodingOption)); param->codingOption.Header.BufferId = MFX_EXTBUFF_CODING_OPTION; param->codingOption.Header.BufferSz = sizeof(mfxExtCodingOption); param->codingOption.MECostType = 0; // reserved, must be 0 param->codingOption.MESearchType = 0; // reserved, must be 0 param->codingOption.MVSearchWindow.x = 0; // reserved, must be 0 param->codingOption.MVSearchWindow.y = 0; // reserved, must be 0 param->codingOption.RefPicListReordering = 0; // reserved, must be 0 param->codingOption.IntraPredBlockSize = 0; // reserved, must be 0 param->codingOption.InterPredBlockSize = 0; // reserved, must be 0 param->codingOption.MVPrecision = 0; // reserved, must be 0 param->codingOption.EndOfSequence = MFX_CODINGOPTION_UNKNOWN; param->codingOption.RateDistortionOpt = MFX_CODINGOPTION_UNKNOWN; param->codingOption.ResetRefList = MFX_CODINGOPTION_UNKNOWN; param->codingOption.MaxDecFrameBuffering = 0; // unspecified param->codingOption.AUDelimiter = MFX_CODINGOPTION_OFF; param->codingOption.SingleSeiNalUnit = MFX_CODINGOPTION_UNKNOWN; param->codingOption.PicTimingSEI = MFX_CODINGOPTION_OFF; param->codingOption.VuiNalHrdParameters = MFX_CODINGOPTION_UNKNOWN; param->codingOption.FramePicture = MFX_CODINGOPTION_UNKNOWN; param->codingOption.CAVLC = MFX_CODINGOPTION_OFF; // introduced in API 1.3 param->codingOption.RefPicMarkRep = MFX_CODINGOPTION_UNKNOWN; param->codingOption.FieldOutput = MFX_CODINGOPTION_UNKNOWN; param->codingOption.NalHrdConformance = MFX_CODINGOPTION_UNKNOWN; param->codingOption.SingleSeiNalUnit = MFX_CODINGOPTION_UNKNOWN; param->codingOption.VuiVclHrdParameters = MFX_CODINGOPTION_UNKNOWN; // introduced in API 1.4 param->codingOption.ViewOutput = MFX_CODINGOPTION_UNKNOWN; // introduced in API 1.6 param->codingOption.RecoveryPointSEI = MFX_CODINGOPTION_UNKNOWN; // introduced in API 1.3 memset(¶m->videoSignalInfo, 0, sizeof(mfxExtVideoSignalInfo)); param->videoSignalInfo.Header.BufferId = MFX_EXTBUFF_VIDEO_SIGNAL_INFO; param->videoSignalInfo.Header.BufferSz = sizeof(mfxExtVideoSignalInfo); param->videoSignalInfo.VideoFormat = 5; // undefined param->videoSignalInfo.VideoFullRange = 0; // TV range param->videoSignalInfo.ColourDescriptionPresent = 0; // don't write to bitstream param->videoSignalInfo.ColourPrimaries = 2; // undefined param->videoSignalInfo.TransferCharacteristics = 2; // undefined param->videoSignalInfo.MatrixCoefficients = 2; // undefined // introduced in API 1.6 memset(¶m->codingOption2, 0, sizeof(mfxExtCodingOption2)); param->codingOption2.Header.BufferId = MFX_EXTBUFF_CODING_OPTION2; param->codingOption2.Header.BufferSz = sizeof(mfxExtCodingOption2); param->codingOption2.IntRefType = 0; param->codingOption2.IntRefCycleSize = 2; param->codingOption2.IntRefQPDelta = 0; param->codingOption2.MaxFrameSize = 0; param->codingOption2.BitrateLimit = MFX_CODINGOPTION_ON; param->codingOption2.MBBRC = MFX_CODINGOPTION_ON; param->codingOption2.ExtBRC = MFX_CODINGOPTION_OFF; // introduced in API 1.7 param->codingOption2.LookAheadDepth = 40; param->codingOption2.Trellis = MFX_TRELLIS_OFF; // introduced in API 1.8 param->codingOption2.RepeatPPS = MFX_CODINGOPTION_ON; param->codingOption2.BRefType = MFX_B_REF_UNKNOWN; // controlled via gop.b_pyramid param->codingOption2.AdaptiveI = MFX_CODINGOPTION_OFF; param->codingOption2.AdaptiveB = MFX_CODINGOPTION_OFF; param->codingOption2.LookAheadDS = MFX_LOOKAHEAD_DS_OFF; param->codingOption2.NumMbPerSlice = 0; // GOP & rate control param->gop.b_pyramid = -1; // set automatically param->gop.gop_pic_size = -1; // set automatically param->gop.gop_ref_dist = -1; // set automatically param->gop.int_ref_cycle_size = -1; // set automatically param->rc.icq = 1; // enabled by default (if supported) param->rc.lookahead = 1; // enabled by default (if supported) param->rc.cqp_offsets[0] = 0; param->rc.cqp_offsets[1] = 2; param->rc.cqp_offsets[2] = 4; param->rc.vbv_max_bitrate = 0; // set automatically param->rc.vbv_buffer_size = 0; // set automatically param->rc.vbv_buffer_init = .0; // set automatically // introduced in API 1.0 memset(videoParam, 0, sizeof(mfxVideoParam)); param->videoParam = videoParam; param->videoParam->Protected = 0; // reserved, must be 0 param->videoParam->NumExtParam = 0; param->videoParam->IOPattern = MFX_IOPATTERN_IN_SYSTEM_MEMORY; param->videoParam->mfx.TargetUsage = MFX_TARGETUSAGE_2; param->videoParam->mfx.GopOptFlag = MFX_GOP_CLOSED; param->videoParam->mfx.NumThread = 0; // deprecated, must be 0 param->videoParam->mfx.EncodedOrder = 0; // input is in display order param->videoParam->mfx.IdrInterval = 0; // all I-frames are IDR param->videoParam->mfx.NumSlice = 0; // use Media SDK default param->videoParam->mfx.NumRefFrame = 0; // use Media SDK default param->videoParam->mfx.GopPicSize = 0; // use Media SDK default param->videoParam->mfx.GopRefDist = 0; // use Media SDK default // introduced in API 1.1 param->videoParam->AsyncDepth = AV_QSV_ASYNC_DEPTH_DEFAULT; // introduced in API 1.3 param->videoParam->mfx.BRCParamMultiplier = 0; // no multiplier // FrameInfo: set by video encoder, except PicStruct param->videoParam->mfx.FrameInfo.PicStruct = MFX_PICSTRUCT_PROGRESSIVE; // attach supported mfxExtBuffer structures to the mfxVideoParam param->videoParam->NumExtParam = 0; param->videoParam->ExtParam = param->ExtParamArray; param->videoParam->ExtParam[param->videoParam->NumExtParam++] = (mfxExtBuffer*)¶m->codingOption; param->videoParam->ExtParam[param->videoParam->NumExtParam++] = (mfxExtBuffer*)¶m->videoSignalInfo; if (info->capabilities & HB_QSV_CAP_MSDK_API_1_6) { param->videoParam->ExtParam[param->videoParam->NumExtParam++] = (mfxExtBuffer*)¶m->codingOption2; } } else { hb_error("hb_qsv_param_default: invalid pointer(s)"); return -1; } return 0; } const char* hb_qsv_frametype_name(uint16_t qsv_frametype) { if (qsv_frametype & MFX_FRAMETYPE_IDR) { return qsv_frametype & MFX_FRAMETYPE_REF ? "IDR (ref)" : "IDR"; } else if (qsv_frametype & MFX_FRAMETYPE_I) { return qsv_frametype & MFX_FRAMETYPE_REF ? "I (ref)" : "I"; } else if (qsv_frametype & MFX_FRAMETYPE_P) { return qsv_frametype & MFX_FRAMETYPE_REF ? "P (ref)" : "P"; } else if (qsv_frametype & MFX_FRAMETYPE_B) { return qsv_frametype & MFX_FRAMETYPE_REF ? "B (ref)" : "B"; } else { return "unknown"; } } uint8_t hb_qsv_frametype_xlat(uint16_t qsv_frametype, uint16_t *out_flags) { uint16_t flags = 0; uint8_t frametype = 0; if (qsv_frametype & MFX_FRAMETYPE_IDR) { frametype = HB_FRAME_IDR; } else if (qsv_frametype & MFX_FRAMETYPE_I) { frametype = HB_FRAME_I; } else if (qsv_frametype & MFX_FRAMETYPE_P) { frametype = HB_FRAME_P; } else if (qsv_frametype & MFX_FRAMETYPE_B) { frametype = HB_FRAME_B; } if (qsv_frametype & MFX_FRAMETYPE_REF) { flags |= HB_FRAME_REF; } if (out_flags != NULL) { *out_flags = flags; } return frametype; } int hb_qsv_impl_set_preferred(const char *name) { if (name == NULL) { return -1; } if (!strcasecmp(name, "software")) { if (qsv_software_info_avc.available) { hb_qsv_info_avc = &qsv_software_info_avc; } if (qsv_software_info_hevc.available) { hb_qsv_info_hevc = &qsv_software_info_hevc; } return 0; } if (!strcasecmp(name, "hardware")) { if (qsv_hardware_info_avc.available) { hb_qsv_info_avc = &qsv_hardware_info_avc; } if (qsv_hardware_info_hevc.available) { hb_qsv_info_hevc = &qsv_hardware_info_hevc; } return 0; } return -1; } const char* hb_qsv_impl_get_name(int impl) { switch (MFX_IMPL_BASETYPE(impl)) { case MFX_IMPL_SOFTWARE: return "software"; case MFX_IMPL_HARDWARE: return "hardware (1)"; case MFX_IMPL_HARDWARE2: return "hardware (2)"; case MFX_IMPL_HARDWARE3: return "hardware (3)"; case MFX_IMPL_HARDWARE4: return "hardware (4)"; case MFX_IMPL_HARDWARE_ANY: return "hardware (any)"; case MFX_IMPL_AUTO: return "automatic"; case MFX_IMPL_AUTO_ANY: return "automatic (any)"; default: return NULL; } } void hb_qsv_force_workarounds() { qsv_software_info_avc.capabilities &= ~HB_QSV_CAP_MSDK_API_1_6; qsv_hardware_info_avc.capabilities &= ~HB_QSV_CAP_MSDK_API_1_6; qsv_software_info_hevc.capabilities &= ~HB_QSV_CAP_MSDK_API_1_6; qsv_hardware_info_hevc.capabilities &= ~HB_QSV_CAP_MSDK_API_1_6; } #endif // USE_QSV