/* * Copyright (C) 2010 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. */ //#define LOG_NDEBUG 0 #define LOG_TAG "ESQueue" #include #include "ESQueue.h" #include #include #include #include #include #include #include #include "include/avc_utils.h" namespace android { ElementaryStreamQueue::ElementaryStreamQueue(Mode mode) : mMode(mode) { } sp ElementaryStreamQueue::getFormat() { return mFormat; } void ElementaryStreamQueue::clear() { mBuffer->setRange(0, 0); mFormat.clear(); } status_t ElementaryStreamQueue::appendData( const void *data, size_t size, int64_t timeUs) { if (mBuffer == NULL || mBuffer->size() == 0) { switch (mMode) { case H264: { if (size < 4 || memcmp("\x00\x00\x00\x01", data, 4)) { return ERROR_MALFORMED; } break; } case AAC: { uint8_t *ptr = (uint8_t *)data; if (size < 2 || ptr[0] != 0xff || (ptr[1] >> 4) != 0x0f) { return ERROR_MALFORMED; } break; } default: TRESPASS(); break; } } size_t neededSize = (mBuffer == NULL ? 0 : mBuffer->size()) + size; if (mBuffer == NULL || neededSize > mBuffer->capacity()) { neededSize = (neededSize + 65535) & ~65535; LOGV("resizing buffer to size %d", neededSize); sp buffer = new ABuffer(neededSize); if (mBuffer != NULL) { memcpy(buffer->data(), mBuffer->data(), mBuffer->size()); buffer->setRange(0, mBuffer->size()); } else { buffer->setRange(0, 0); } mBuffer = buffer; } memcpy(mBuffer->data() + mBuffer->size(), data, size); mBuffer->setRange(0, mBuffer->size() + size); mTimestamps.push_back(timeUs); return OK; } sp ElementaryStreamQueue::dequeueAccessUnit() { if (mMode == H264) { return dequeueAccessUnitH264(); } else { CHECK_EQ((unsigned)mMode, (unsigned)AAC); return dequeueAccessUnitAAC(); } } sp ElementaryStreamQueue::dequeueAccessUnitAAC() { Vector frameOffsets; Vector frameSizes; size_t auSize = 0; size_t offset = 0; while (offset + 7 <= mBuffer->size()) { ABitReader bits(mBuffer->data() + offset, mBuffer->size() - offset); // adts_fixed_header CHECK_EQ(bits.getBits(12), 0xfffu); bits.skipBits(3); // ID, layer bool protection_absent = bits.getBits(1) != 0; if (mFormat == NULL) { unsigned profile = bits.getBits(2); CHECK_NE(profile, 3u); unsigned sampling_freq_index = bits.getBits(4); bits.getBits(1); // private_bit unsigned channel_configuration = bits.getBits(3); CHECK_NE(channel_configuration, 0u); bits.skipBits(2); // original_copy, home mFormat = MakeAACCodecSpecificData( profile, sampling_freq_index, channel_configuration); } else { // profile_ObjectType, sampling_frequency_index, private_bits, // channel_configuration, original_copy, home bits.skipBits(12); } // adts_variable_header // copyright_identification_bit, copyright_identification_start bits.skipBits(2); unsigned aac_frame_length = bits.getBits(13); bits.skipBits(11); // adts_buffer_fullness unsigned number_of_raw_data_blocks_in_frame = bits.getBits(2); if (number_of_raw_data_blocks_in_frame != 0) { // To be implemented. TRESPASS(); } if (offset + aac_frame_length > mBuffer->size()) { break; } size_t headerSize = protection_absent ? 7 : 9; frameOffsets.push(offset + headerSize); frameSizes.push(aac_frame_length - headerSize); auSize += aac_frame_length - headerSize; offset += aac_frame_length; } if (offset == 0) { return NULL; } sp accessUnit = new ABuffer(auSize); size_t dstOffset = 0; for (size_t i = 0; i < frameOffsets.size(); ++i) { memcpy(accessUnit->data() + dstOffset, mBuffer->data() + frameOffsets.itemAt(i), frameSizes.itemAt(i)); dstOffset += frameSizes.itemAt(i); } memmove(mBuffer->data(), mBuffer->data() + offset, mBuffer->size() - offset); mBuffer->setRange(0, mBuffer->size() - offset); CHECK_GT(mTimestamps.size(), 0u); int64_t timeUs = *mTimestamps.begin(); mTimestamps.erase(mTimestamps.begin()); accessUnit->meta()->setInt64("time", timeUs); return accessUnit; } // static sp ElementaryStreamQueue::MakeAACCodecSpecificData( unsigned profile, unsigned sampling_freq_index, unsigned channel_configuration) { sp meta = new MetaData; meta->setCString(kKeyMIMEType, MEDIA_MIMETYPE_AUDIO_AAC); CHECK_LE(sampling_freq_index, 11u); static const int32_t kSamplingFreq[] = { 96000, 88200, 64000, 48000, 44100, 32000, 24000, 22050, 16000, 12000, 11025, 8000 }; meta->setInt32(kKeySampleRate, kSamplingFreq[sampling_freq_index]); meta->setInt32(kKeyChannelCount, channel_configuration); static const uint8_t kStaticESDS[] = { 0x03, 22, 0x00, 0x00, // ES_ID 0x00, // streamDependenceFlag, URL_Flag, OCRstreamFlag 0x04, 17, 0x40, // Audio ISO/IEC 14496-3 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x05, 2, // AudioSpecificInfo follows // oooo offf fccc c000 // o - audioObjectType // f - samplingFreqIndex // c - channelConfig }; sp csd = new ABuffer(sizeof(kStaticESDS) + 2); memcpy(csd->data(), kStaticESDS, sizeof(kStaticESDS)); csd->data()[sizeof(kStaticESDS)] = ((profile + 1) << 3) | (sampling_freq_index >> 1); csd->data()[sizeof(kStaticESDS) + 1] = ((sampling_freq_index << 7) & 0x80) | (channel_configuration << 3); meta->setData(kKeyESDS, 0, csd->data(), csd->size()); return meta; } struct NALPosition { size_t nalOffset; size_t nalSize; }; sp ElementaryStreamQueue::dequeueAccessUnitH264() { const uint8_t *data = mBuffer->data(); size_t size = mBuffer->size(); Vector nals; size_t totalSize = 0; status_t err; const uint8_t *nalStart; size_t nalSize; bool foundSlice = false; while ((err = getNextNALUnit(&data, &size, &nalStart, &nalSize)) == OK) { CHECK_GT(nalSize, 0u); unsigned nalType = nalStart[0] & 0x1f; bool flush = false; if (nalType == 1 || nalType == 5) { if (foundSlice) { ABitReader br(nalStart + 1, nalSize); unsigned first_mb_in_slice = parseUE(&br); if (first_mb_in_slice == 0) { // This slice starts a new frame. flush = true; } } foundSlice = true; } else if ((nalType == 9 || nalType == 7) && foundSlice) { // Access unit delimiter and SPS will be associated with the // next frame. flush = true; } if (flush) { // The access unit will contain all nal units up to, but excluding // the current one, separated by 0x00 0x00 0x00 0x01 startcodes. size_t auSize = 4 * nals.size() + totalSize; sp accessUnit = new ABuffer(auSize); #if !LOG_NDEBUG AString out; #endif size_t dstOffset = 0; for (size_t i = 0; i < nals.size(); ++i) { const NALPosition &pos = nals.itemAt(i); unsigned nalType = mBuffer->data()[pos.nalOffset] & 0x1f; #if !LOG_NDEBUG char tmp[128]; sprintf(tmp, "0x%02x", nalType); if (i > 0) { out.append(", "); } out.append(tmp); #endif memcpy(accessUnit->data() + dstOffset, "\x00\x00\x00\x01", 4); memcpy(accessUnit->data() + dstOffset + 4, mBuffer->data() + pos.nalOffset, pos.nalSize); dstOffset += pos.nalSize + 4; } LOGV("accessUnit contains nal types %s", out.c_str()); const NALPosition &pos = nals.itemAt(nals.size() - 1); size_t nextScan = pos.nalOffset + pos.nalSize; memmove(mBuffer->data(), mBuffer->data() + nextScan, mBuffer->size() - nextScan); mBuffer->setRange(0, mBuffer->size() - nextScan); CHECK_GT(mTimestamps.size(), 0u); int64_t timeUs = *mTimestamps.begin(); mTimestamps.erase(mTimestamps.begin()); accessUnit->meta()->setInt64("time", timeUs); if (mFormat == NULL) { mFormat = MakeAVCCodecSpecificData(accessUnit); } return accessUnit; } NALPosition pos; pos.nalOffset = nalStart - mBuffer->data(); pos.nalSize = nalSize; nals.push(pos); totalSize += nalSize; } CHECK_EQ(err, (status_t)-EAGAIN); return NULL; } } // namespace android