/* * Copyright (C) 2009 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 #undef NDEBUG #include #include #include #include #include #include #include #include namespace android { class MPEG4Writer::Track { public: Track(MPEG4Writer *owner, const sp &meta, const sp &source); ~Track(); void start(); void stop(); int64_t getDuration() const; void writeTrackHeader(int32_t trackID); private: MPEG4Writer *mOwner; sp mMeta; sp mSource; volatile bool mDone; pthread_t mThread; struct SampleInfo { size_t size; off_t offset; int64_t timestamp; }; List mSampleInfos; void *mCodecSpecificData; size_t mCodecSpecificDataSize; static void *ThreadWrapper(void *me); void threadEntry(); Track(const Track &); Track &operator=(const Track &); }; MPEG4Writer::MPEG4Writer(const char *filename) : mFile(fopen(filename, "wb")), mOffset(0), mMdatOffset(0) { assert(mFile != NULL); } MPEG4Writer::~MPEG4Writer() { stop(); for (List::iterator it = mTracks.begin(); it != mTracks.end(); ++it) { delete *it; } mTracks.clear(); } void MPEG4Writer::addSource( const sp &meta, const sp &source) { Track *track = new Track(this, meta, source); mTracks.push_back(track); } void MPEG4Writer::start() { if (mFile == NULL) { return; } beginBox("ftyp"); writeFourcc("isom"); writeInt32(0); writeFourcc("isom"); endBox(); mMdatOffset = mOffset; write("\x00\x00\x00\x01mdat????????", 16); for (List::iterator it = mTracks.begin(); it != mTracks.end(); ++it) { (*it)->start(); } } void MPEG4Writer::stop() { if (mFile == NULL) { return; } int64_t max_duration = 0; for (List::iterator it = mTracks.begin(); it != mTracks.end(); ++it) { (*it)->stop(); int64_t duration = (*it)->getDuration(); if (duration > max_duration) { max_duration = duration; } } // Fix up the size of the 'mdat' chunk. fseek(mFile, mMdatOffset + 8, SEEK_SET); int64_t size = mOffset - mMdatOffset; size = hton64(size); fwrite(&size, 1, 8, mFile); fseek(mFile, mOffset, SEEK_SET); time_t now = time(NULL); beginBox("moov"); beginBox("mvhd"); writeInt32(0); // version=0, flags=0 writeInt32(now); // creation time writeInt32(now); // modification time writeInt32(1000); // timescale writeInt32(max_duration); writeInt32(0x10000); // rate writeInt16(0x100); // volume writeInt16(0); // reserved writeInt32(0); // reserved writeInt32(0); // reserved writeInt32(0x10000); // matrix writeInt32(0); writeInt32(0); writeInt32(0); writeInt32(0x10000); writeInt32(0); writeInt32(0); writeInt32(0); writeInt32(0x40000000); writeInt32(0); // predefined writeInt32(0); // predefined writeInt32(0); // predefined writeInt32(0); // predefined writeInt32(0); // predefined writeInt32(0); // predefined writeInt32(mTracks.size() + 1); // nextTrackID endBox(); // mvhd int32_t id = 1; for (List::iterator it = mTracks.begin(); it != mTracks.end(); ++it, ++id) { (*it)->writeTrackHeader(id); } endBox(); // moov assert(mBoxes.empty()); fclose(mFile); mFile = NULL; } off_t MPEG4Writer::addSample(MediaBuffer *buffer) { Mutex::Autolock autoLock(mLock); off_t old_offset = mOffset; fwrite((const uint8_t *)buffer->data() + buffer->range_offset(), 1, buffer->range_length(), mFile); mOffset += buffer->range_length(); return old_offset; } void MPEG4Writer::beginBox(const char *fourcc) { assert(strlen(fourcc) == 4); mBoxes.push_back(mOffset); writeInt32(0); writeFourcc(fourcc); } void MPEG4Writer::endBox() { assert(!mBoxes.empty()); off_t offset = *--mBoxes.end(); mBoxes.erase(--mBoxes.end()); fseek(mFile, offset, SEEK_SET); writeInt32(mOffset - offset); mOffset -= 4; fseek(mFile, mOffset, SEEK_SET); } void MPEG4Writer::writeInt8(int8_t x) { fwrite(&x, 1, 1, mFile); ++mOffset; } void MPEG4Writer::writeInt16(int16_t x) { x = htons(x); fwrite(&x, 1, 2, mFile); mOffset += 2; } void MPEG4Writer::writeInt32(int32_t x) { x = htonl(x); fwrite(&x, 1, 4, mFile); mOffset += 4; } void MPEG4Writer::writeInt64(int64_t x) { x = hton64(x); fwrite(&x, 1, 8, mFile); mOffset += 8; } void MPEG4Writer::writeCString(const char *s) { size_t n = strlen(s); fwrite(s, 1, n + 1, mFile); mOffset += n + 1; } void MPEG4Writer::writeFourcc(const char *s) { assert(strlen(s) == 4); fwrite(s, 1, 4, mFile); mOffset += 4; } void MPEG4Writer::write(const void *data, size_t size) { fwrite(data, 1, size, mFile); mOffset += size; } //////////////////////////////////////////////////////////////////////////////// MPEG4Writer::Track::Track( MPEG4Writer *owner, const sp &meta, const sp &source) : mOwner(owner), mMeta(meta), mSource(source), mDone(false), mCodecSpecificData(NULL), mCodecSpecificDataSize(0) { } MPEG4Writer::Track::~Track() { stop(); if (mCodecSpecificData != NULL) { free(mCodecSpecificData); mCodecSpecificData = NULL; } } void MPEG4Writer::Track::start() { mSource->start(); pthread_attr_t attr; pthread_attr_init(&attr); pthread_attr_setdetachstate(&attr, PTHREAD_CREATE_JOINABLE); mDone = false; int err = pthread_create(&mThread, &attr, ThreadWrapper, this); assert(err == 0); pthread_attr_destroy(&attr); } void MPEG4Writer::Track::stop() { if (mDone) { return; } mDone = true; void *dummy; pthread_join(mThread, &dummy); mSource->stop(); } // static void *MPEG4Writer::Track::ThreadWrapper(void *me) { Track *track = static_cast(me); track->threadEntry(); return NULL; } void MPEG4Writer::Track::threadEntry() { bool is_mpeg4 = false; sp meta = mSource->getFormat(); const char *mime; meta->findCString(kKeyMIMEType, &mime); is_mpeg4 = !strcasecmp(mime, "video/mp4v-es"); MediaBuffer *buffer; while (!mDone && mSource->read(&buffer) == OK) { if (buffer->range_length() == 0) { buffer->release(); buffer = NULL; continue; } if (mCodecSpecificData == NULL && is_mpeg4) { const uint8_t *data = (const uint8_t *)buffer->data() + buffer->range_offset(); const size_t size = buffer->range_length(); size_t offset = 0; while (offset + 3 < size) { if (data[offset] == 0x00 && data[offset + 1] == 0x00 && data[offset + 2] == 0x01 && data[offset + 3] == 0xb6) { break; } ++offset; } // assert(offset + 3 < size); if (offset + 3 >= size) { // XXX assume the entire first chunk of data is the codec specific // data. offset = size; } mCodecSpecificDataSize = offset; mCodecSpecificData = malloc(offset); memcpy(mCodecSpecificData, data, offset); buffer->set_range(buffer->range_offset() + offset, size - offset); } off_t offset = mOwner->addSample(buffer); SampleInfo info; info.size = buffer->range_length(); info.offset = offset; int32_t units, scale; bool success = buffer->meta_data()->findInt32(kKeyTimeUnits, &units); assert(success); success = buffer->meta_data()->findInt32(kKeyTimeScale, &scale); assert(success); info.timestamp = (int64_t)units * 1000 / scale; mSampleInfos.push_back(info); buffer->release(); buffer = NULL; } } int64_t MPEG4Writer::Track::getDuration() const { return 10000; // XXX } void MPEG4Writer::Track::writeTrackHeader(int32_t trackID) { const char *mime; bool success = mMeta->findCString(kKeyMIMEType, &mime); assert(success); bool is_audio = !strncasecmp(mime, "audio/", 6); time_t now = time(NULL); mOwner->beginBox("trak"); mOwner->beginBox("tkhd"); mOwner->writeInt32(0); // version=0, flags=0 mOwner->writeInt32(now); // creation time mOwner->writeInt32(now); // modification time mOwner->writeInt32(trackID); mOwner->writeInt32(0); // reserved mOwner->writeInt32(getDuration()); mOwner->writeInt32(0); // reserved mOwner->writeInt32(0); // reserved mOwner->writeInt16(0); // layer mOwner->writeInt16(0); // alternate group mOwner->writeInt16(is_audio ? 0x100 : 0); // volume mOwner->writeInt16(0); // reserved mOwner->writeInt32(0x10000); // matrix mOwner->writeInt32(0); mOwner->writeInt32(0); mOwner->writeInt32(0); mOwner->writeInt32(0x10000); mOwner->writeInt32(0); mOwner->writeInt32(0); mOwner->writeInt32(0); mOwner->writeInt32(0x40000000); if (is_audio) { mOwner->writeInt32(0); mOwner->writeInt32(0); } else { int32_t width, height; bool success = mMeta->findInt32(kKeyWidth, &width); success = success && mMeta->findInt32(kKeyHeight, &height); assert(success); mOwner->writeInt32(width); mOwner->writeInt32(height); } mOwner->endBox(); // tkhd mOwner->beginBox("mdia"); mOwner->beginBox("mdhd"); mOwner->writeInt32(0); // version=0, flags=0 mOwner->writeInt32(now); // creation time mOwner->writeInt32(now); // modification time mOwner->writeInt32(1000); // timescale mOwner->writeInt32(getDuration()); mOwner->writeInt16(0); // language code XXX mOwner->writeInt16(0); // predefined mOwner->endBox(); mOwner->beginBox("hdlr"); mOwner->writeInt32(0); // version=0, flags=0 mOwner->writeInt32(0); // predefined mOwner->writeFourcc(is_audio ? "soun" : "vide"); mOwner->writeInt32(0); // reserved mOwner->writeInt32(0); // reserved mOwner->writeInt32(0); // reserved mOwner->writeCString(""); // name mOwner->endBox(); mOwner->beginBox("minf"); mOwner->beginBox("dinf"); mOwner->beginBox("dref"); mOwner->writeInt32(0); // version=0, flags=0 mOwner->writeInt32(1); mOwner->beginBox("url "); mOwner->writeInt32(1); // version=0, flags=1 mOwner->endBox(); // url mOwner->endBox(); // dref mOwner->endBox(); // dinf if (is_audio) { mOwner->beginBox("smhd"); mOwner->writeInt32(0); // version=0, flags=0 mOwner->writeInt16(0); // balance mOwner->writeInt16(0); // reserved mOwner->endBox(); } else { mOwner->beginBox("vmhd"); mOwner->writeInt32(0x00000001); // version=0, flags=1 mOwner->writeInt16(0); // graphics mode mOwner->writeInt16(0); // opcolor mOwner->writeInt16(0); mOwner->writeInt16(0); mOwner->endBox(); } mOwner->endBox(); // minf mOwner->beginBox("stbl"); mOwner->beginBox("stsd"); mOwner->writeInt32(0); // version=0, flags=0 mOwner->writeInt32(1); // entry count if (is_audio) { mOwner->beginBox("xxxx"); // audio format XXX mOwner->writeInt32(0); // reserved mOwner->writeInt16(0); // reserved mOwner->writeInt16(0); // data ref index mOwner->writeInt32(0); // reserved mOwner->writeInt32(0); // reserved mOwner->writeInt16(2); // channel count mOwner->writeInt16(16); // sample size mOwner->writeInt16(0); // predefined mOwner->writeInt16(0); // reserved int32_t samplerate; bool success = mMeta->findInt32(kKeySampleRate, &samplerate); assert(success); mOwner->writeInt32(samplerate << 16); mOwner->endBox(); } else { if (!strcasecmp("video/mp4v-es", mime)) { mOwner->beginBox("mp4v"); } else if (!strcasecmp("video/3gpp", mime)) { mOwner->beginBox("s263"); } else { assert(!"should not be here, unknown mime type."); } mOwner->writeInt32(0); // reserved mOwner->writeInt16(0); // reserved mOwner->writeInt16(0); // data ref index mOwner->writeInt16(0); // predefined mOwner->writeInt16(0); // reserved mOwner->writeInt32(0); // predefined mOwner->writeInt32(0); // predefined mOwner->writeInt32(0); // predefined int32_t width, height; bool success = mMeta->findInt32(kKeyWidth, &width); success = success && mMeta->findInt32(kKeyHeight, &height); assert(success); mOwner->writeInt16(width); mOwner->writeInt16(height); mOwner->writeInt32(0x480000); // horiz resolution mOwner->writeInt32(0x480000); // vert resolution mOwner->writeInt32(0); // reserved mOwner->writeInt16(1); // frame count mOwner->write(" ", 32); mOwner->writeInt16(0x18); // depth mOwner->writeInt16(-1); // predefined assert(23 + mCodecSpecificDataSize < 128); if (!strcasecmp("video/mp4v-es", mime)) { mOwner->beginBox("esds"); mOwner->writeInt32(0); // version=0, flags=0 mOwner->writeInt8(0x03); // ES_DescrTag mOwner->writeInt8(23 + mCodecSpecificDataSize); mOwner->writeInt16(0x0000); // ES_ID mOwner->writeInt8(0x1f); mOwner->writeInt8(0x04); // DecoderConfigDescrTag mOwner->writeInt8(15 + mCodecSpecificDataSize); mOwner->writeInt8(0x20); // objectTypeIndication ISO/IEC 14492-2 mOwner->writeInt8(0x11); // streamType VisualStream static const uint8_t kData[] = { 0x01, 0x77, 0x00, 0x00, 0x03, 0xe8, 0x00, 0x00, 0x03, 0xe8, 0x00 }; mOwner->write(kData, sizeof(kData)); mOwner->writeInt8(0x05); // DecoderSpecificInfoTag mOwner->writeInt8(mCodecSpecificDataSize); mOwner->write(mCodecSpecificData, mCodecSpecificDataSize); static const uint8_t kData2[] = { 0x06, // SLConfigDescriptorTag 0x01, 0x02 }; mOwner->write(kData2, sizeof(kData2)); mOwner->endBox(); // esds } else if (!strcasecmp("video/3gpp", mime)) { mOwner->beginBox("d263"); mOwner->writeInt32(0); // vendor mOwner->writeInt8(0); // decoder version mOwner->writeInt8(10); // level: 10 mOwner->writeInt8(0); // profile: 0 mOwner->endBox(); // d263 } mOwner->endBox(); // mp4v or s263 } mOwner->endBox(); // stsd mOwner->beginBox("stts"); mOwner->writeInt32(0); // version=0, flags=0 mOwner->writeInt32(mSampleInfos.size() - 1); List::iterator it = mSampleInfos.begin(); int64_t last = (*it).timestamp; ++it; while (it != mSampleInfos.end()) { mOwner->writeInt32(1); mOwner->writeInt32((*it).timestamp - last); last = (*it).timestamp; ++it; } mOwner->endBox(); // stts mOwner->beginBox("stsz"); mOwner->writeInt32(0); // version=0, flags=0 mOwner->writeInt32(0); // default sample size mOwner->writeInt32(mSampleInfos.size()); for (List::iterator it = mSampleInfos.begin(); it != mSampleInfos.end(); ++it) { mOwner->writeInt32((*it).size); } mOwner->endBox(); // stsz mOwner->beginBox("stsc"); mOwner->writeInt32(0); // version=0, flags=0 mOwner->writeInt32(mSampleInfos.size()); int32_t n = 1; for (List::iterator it = mSampleInfos.begin(); it != mSampleInfos.end(); ++it, ++n) { mOwner->writeInt32(n); mOwner->writeInt32(1); mOwner->writeInt32(1); } mOwner->endBox(); // stsc mOwner->beginBox("co64"); mOwner->writeInt32(0); // version=0, flags=0 mOwner->writeInt32(mSampleInfos.size()); for (List::iterator it = mSampleInfos.begin(); it != mSampleInfos.end(); ++it, ++n) { mOwner->writeInt64((*it).offset); } mOwner->endBox(); // co64 mOwner->endBox(); // stbl mOwner->endBox(); // mdia mOwner->endBox(); // trak } } // namespace android