/* * Copyright (C) 2011 The Android Open Source Project * * 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. */ #include "sles_allinclusive.h" #include #include #include #include namespace android { // listed in same order as VideoCodecIds[] in file "../devices.c" with ANDROID defined static const char *kVideoMimeTypes[] = { MEDIA_MIMETYPE_VIDEO_MPEG2, MEDIA_MIMETYPE_VIDEO_H263, MEDIA_MIMETYPE_VIDEO_MPEG4, MEDIA_MIMETYPE_VIDEO_AVC, MEDIA_MIMETYPE_VIDEO_VP8, MEDIA_MIMETYPE_VIDEO_VP9 }; // must == kMaxVideoDecoders static const size_t kNbVideoMimeTypes = sizeof(kVideoMimeTypes) / sizeof(kVideoMimeTypes[0]); // codec capabilities in the following arrays maps to the mime types defined in kVideoMimeTypes struct CodecCapabilities { Vector mProfileLevels; }; static CodecCapabilities VideoDecoderCapabilities[kNbVideoMimeTypes]; static XAuint32 VideoDecoderNbProfLevel[kNbVideoMimeTypes]; static XAuint32 NbSupportedDecoderTypes = 0; XAuint32 convertOpenMaxIlToAl(OMX_U32 ilVideoProfileOrLevel) { // For video codec profiles and levels, the number of trailing zeroes in OpenMAX IL // are equal to the matching OpenMAX AL constant value plus 1, for example: // XA_VIDEOPROFILE_H263_BACKWARDCOMPATIBLE ((XAuint32) 0x00000003) // matches // OMX_VIDEO_H263ProfileBackwardCompatible = 0x04 return (XAuint32) (__builtin_ctz(ilVideoProfileOrLevel) + 1); } bool android_videoCodec_expose() { SL_LOGV("android_videoCodec_expose()"); sp list = MediaCodecList::getInstance(); if (list == NULL) { SL_LOGE("could not get MediaCodecList"); return false; } // used to check whether no codecs were found, which is a sign of failure NbSupportedDecoderTypes = 0; for (size_t m = 0 ; m < kNbVideoMimeTypes ; m++) { VideoDecoderNbProfLevel[m] = 0; for (ssize_t index = 0;; ++index) { index = list->findCodecByType( kVideoMimeTypes[m], false /* encoder */, index); if (index < 0) { break; } sp info = list->getCodecInfo(index); if (info == NULL || MediaCodecList::isSoftwareCodec(info->getCodecName())) { continue; // HW codec only } sp caps = info->getCapabilitiesFor(kVideoMimeTypes[m]); if (caps == NULL) { continue; // this should not happen } // get the number of profiles and levels Vector &profileLevels = VideoDecoderCapabilities[m].mProfileLevels; caps->getSupportedProfileLevels(&profileLevels); #if 0 // Intentionally disabled example of making modifications to profile / level combinations if (VideoDecoderIds[m] == XA_VIDEOCODEC_AVC) { // remove non-core profile / level combinations for (size_t i = 0, size = profileLevels.size(); i < size; ) { MediaCodecInfo::ProfileLevel profileLevel = profileLevels.itemAt(i); if (profileLevel.mProfile == XA_VIDEOPROFILE_AVC_BASELINE) { // either skip past this item and don't change vector size ++i; } else { // or remove this item, decrement the vector size, // and next time through the loop check a different item at same index profileLevels.removeAt(i); --size; } } } #endif if ((VideoDecoderNbProfLevel[m] = profileLevels.size()) > 0) { NbSupportedDecoderTypes++; } // only consider first codec implementation for given decoder ID / MIME type break; } } return (NbSupportedDecoderTypes > 0); } void android_videoCodec_deinit() { SL_LOGV("android_videoCodec_deinit()"); // not needed // memset(VideoDecoderNbProfLevel, 0, sizeof(VideoDecoderNbProfLevel)); // NbSupportedDecoderTypes = 0; } XAuint32 android_videoCodec_getNbDecoders() { return NbSupportedDecoderTypes; } void android_videoCodec_getDecoderIds(XAuint32 nbDecoders, XAuint32 *pDecoderIds) { XAuint32 *pIds = pDecoderIds; XAuint32 nbFound = 0; for (size_t m = 0 ; m < kNbVideoMimeTypes ; m++) { if (VideoDecoderNbProfLevel[m] > 0) { *pIds = VideoDecoderIds[m]; pIds++; nbFound++; } // range check: function can be called for fewer codecs than there are if (nbFound == nbDecoders) { break; } } } SLresult android_videoCodec_getProfileLevelCombinationNb(XAuint32 decoderId, XAuint32 *pNb) { // translate a decoder ID to an index in the codec table size_t decoderIndex = 0; while (decoderIndex < kNbVideoMimeTypes) { if (decoderId == VideoDecoderIds[decoderIndex]) { *pNb = VideoDecoderNbProfLevel[decoderIndex]; return XA_RESULT_SUCCESS; } decoderIndex++; } // spec doesn't allow a decoder to report zero profile/level combinations *pNb = 0; return XA_RESULT_PARAMETER_INVALID; } SLresult android_videoCodec_getProfileLevelCombination(XAuint32 decoderId, XAuint32 plIndex, XAVideoCodecDescriptor *pDescr) { // translate a decoder ID to an index in the codec table size_t decoderIndex = 0; while (decoderIndex < kNbVideoMimeTypes) { if (decoderId == VideoDecoderIds[decoderIndex]) { // We only look at the first codec implementation for a given decoder ID / MIME type. // OpenMAX AL doesn't let you expose the capabilities of multiple codec implementations. if (!(plIndex < VideoDecoderCapabilities[decoderIndex].mProfileLevels.size())) { // asking for invalid profile/level return XA_RESULT_PARAMETER_INVALID; } // set the fields we know about pDescr->codecId = decoderId; pDescr->profileSetting = convertOpenMaxIlToAl(VideoDecoderCapabilities[decoderIndex]. mProfileLevels.itemAt(plIndex).mProfile); pDescr->levelSetting = convertOpenMaxIlToAl(VideoDecoderCapabilities[decoderIndex]. mProfileLevels.itemAt(plIndex).mLevel); // initialize the fields we don't know about pDescr->maxWidth = 0; pDescr->maxHeight = 0; pDescr->maxFrameRate = 0; pDescr->maxBitRate = 0; pDescr->rateControlSupported = 0; break; } decoderIndex++; } return (decoderIndex < kNbVideoMimeTypes) ? XA_RESULT_SUCCESS : XA_RESULT_PARAMETER_INVALID; } } // namespace android