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MPEG4Extractor.cpp
4505 lines (3749 loc) · 137 KB
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MPEG4Extractor.cpp
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/*
* 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.
*/
//#define LOG_NDEBUG 0
#define LOG_TAG "MPEG4Extractor"
#include <ctype.h>
#include <inttypes.h>
#include <stdint.h>
#include <stdlib.h>
#include <string.h>
#include <utils/Log.h>
#include "include/MPEG4Extractor.h"
#include "include/SampleTable.h"
#include "include/ESDS.h"
#include <media/stagefright/foundation/ABitReader.h>
#include <media/stagefright/foundation/ABuffer.h>
#include <media/stagefright/foundation/ADebug.h>
#include <media/stagefright/foundation/AMessage.h>
#include <media/stagefright/MediaBuffer.h>
#include <media/stagefright/MediaBufferGroup.h>
#include <media/stagefright/MediaDefs.h>
#include <media/stagefright/MediaSource.h>
#include <media/stagefright/MetaData.h>
#include <utils/String8.h>
#ifdef ENABLE_AV_ENHANCEMENTS
#include <QCMediaDefs.h>
#endif
#include <byteswap.h>
#include "include/ID3.h"
#include "include/ExtendedUtils.h"
namespace android {
class MPEG4Source : public MediaSource {
public:
// Caller retains ownership of both "dataSource" and "sampleTable".
MPEG4Source(const sp<MPEG4Extractor> &owner,
const sp<MetaData> &format,
const sp<DataSource> &dataSource,
int32_t timeScale,
const sp<SampleTable> &sampleTable,
Vector<SidxEntry> &sidx,
const Trex *trex,
off64_t firstMoofOffset);
virtual status_t start(MetaData *params = NULL);
virtual status_t stop();
virtual sp<MetaData> getFormat();
virtual status_t read(MediaBuffer **buffer, const ReadOptions *options = NULL);
virtual status_t fragmentedRead(MediaBuffer **buffer, const ReadOptions *options = NULL);
protected:
virtual ~MPEG4Source();
private:
Mutex mLock;
// keep the MPEG4Extractor around, since we're referencing its data
sp<MPEG4Extractor> mOwner;
sp<MetaData> mFormat;
sp<DataSource> mDataSource;
int32_t mTimescale;
sp<SampleTable> mSampleTable;
uint32_t mCurrentSampleIndex;
uint32_t mCurrentFragmentIndex;
Vector<SidxEntry> &mSegments;
const Trex *mTrex;
off64_t mFirstMoofOffset;
off64_t mCurrentMoofOffset;
off64_t mNextMoofOffset;
uint32_t mCurrentTime;
int32_t mLastParsedTrackId;
int32_t mTrackId;
int32_t mCryptoMode; // passed in from extractor
int32_t mDefaultIVSize; // passed in from extractor
uint8_t mCryptoKey[16]; // passed in from extractor
uint32_t mCurrentAuxInfoType;
uint32_t mCurrentAuxInfoTypeParameter;
int32_t mCurrentDefaultSampleInfoSize;
uint32_t mCurrentSampleInfoCount;
uint32_t mCurrentSampleInfoAllocSize;
uint8_t* mCurrentSampleInfoSizes;
uint32_t mCurrentSampleInfoOffsetCount;
uint32_t mCurrentSampleInfoOffsetsAllocSize;
uint64_t* mCurrentSampleInfoOffsets;
bool mIsAVC;
bool mIsHEVC;
size_t mNALLengthSize;
bool mStarted;
MediaBufferGroup *mGroup;
MediaBuffer *mBuffer;
bool mWantsNALFragments;
uint8_t *mSrcBuffer;
size_t parseNALSize(const uint8_t *data) const;
status_t parseChunk(off64_t *offset);
status_t parseTrackFragmentHeader(off64_t offset, off64_t size);
status_t parseTrackFragmentRun(off64_t offset, off64_t size);
status_t parseSampleAuxiliaryInformationSizes(off64_t offset, off64_t size);
status_t parseSampleAuxiliaryInformationOffsets(off64_t offset, off64_t size);
struct TrackFragmentHeaderInfo {
enum Flags {
kBaseDataOffsetPresent = 0x01,
kSampleDescriptionIndexPresent = 0x02,
kDefaultSampleDurationPresent = 0x08,
kDefaultSampleSizePresent = 0x10,
kDefaultSampleFlagsPresent = 0x20,
kDurationIsEmpty = 0x10000,
};
uint32_t mTrackID;
uint32_t mFlags;
uint64_t mBaseDataOffset;
uint32_t mSampleDescriptionIndex;
uint32_t mDefaultSampleDuration;
uint32_t mDefaultSampleSize;
uint32_t mDefaultSampleFlags;
uint64_t mDataOffset;
};
TrackFragmentHeaderInfo mTrackFragmentHeaderInfo;
struct Sample {
off64_t offset;
size_t size;
uint32_t duration;
int32_t compositionOffset;
uint8_t iv[16];
Vector<size_t> clearsizes;
Vector<size_t> encryptedsizes;
};
Vector<Sample> mCurrentSamples;
MPEG4Source(const MPEG4Source &);
MPEG4Source &operator=(const MPEG4Source &);
};
// This custom data source wraps an existing one and satisfies requests
// falling entirely within a cached range from the cache while forwarding
// all remaining requests to the wrapped datasource.
// This is used to cache the full sampletable metadata for a single track,
// possibly wrapping multiple times to cover all tracks, i.e.
// Each MPEG4DataSource caches the sampletable metadata for a single track.
struct MPEG4DataSource : public DataSource {
MPEG4DataSource(const sp<DataSource> &source);
virtual status_t initCheck() const;
virtual ssize_t readAt(off64_t offset, void *data, size_t size);
virtual status_t getSize(off64_t *size);
virtual uint32_t flags();
status_t setCachedRange(off64_t offset, size_t size);
protected:
virtual ~MPEG4DataSource();
private:
Mutex mLock;
sp<DataSource> mSource;
off64_t mCachedOffset;
size_t mCachedSize;
uint8_t *mCache;
void clearCache();
MPEG4DataSource(const MPEG4DataSource &);
MPEG4DataSource &operator=(const MPEG4DataSource &);
};
MPEG4DataSource::MPEG4DataSource(const sp<DataSource> &source)
: mSource(source),
mCachedOffset(0),
mCachedSize(0),
mCache(NULL) {
}
MPEG4DataSource::~MPEG4DataSource() {
clearCache();
}
void MPEG4DataSource::clearCache() {
if (mCache) {
free(mCache);
mCache = NULL;
}
mCachedOffset = 0;
mCachedSize = 0;
}
status_t MPEG4DataSource::initCheck() const {
return mSource->initCheck();
}
ssize_t MPEG4DataSource::readAt(off64_t offset, void *data, size_t size) {
Mutex::Autolock autoLock(mLock);
if (offset >= mCachedOffset
&& offset + size <= mCachedOffset + mCachedSize) {
memcpy(data, &mCache[offset - mCachedOffset], size);
return size;
}
return mSource->readAt(offset, data, size);
}
status_t MPEG4DataSource::getSize(off64_t *size) {
return mSource->getSize(size);
}
uint32_t MPEG4DataSource::flags() {
return mSource->flags();
}
status_t MPEG4DataSource::setCachedRange(off64_t offset, size_t size) {
Mutex::Autolock autoLock(mLock);
clearCache();
mCache = (uint8_t *)malloc(size);
if (mCache == NULL) {
return -ENOMEM;
}
mCachedOffset = offset;
mCachedSize = size;
ssize_t err = mSource->readAt(mCachedOffset, mCache, mCachedSize);
if (err < (ssize_t)size) {
clearCache();
return ERROR_IO;
}
return OK;
}
////////////////////////////////////////////////////////////////////////////////
static const bool kUseHexDump = false;
static void hexdump(const void *_data, size_t size) {
const uint8_t *data = (const uint8_t *)_data;
size_t offset = 0;
while (offset < size) {
printf("0x%04zx ", offset);
size_t n = size - offset;
if (n > 16) {
n = 16;
}
for (size_t i = 0; i < 16; ++i) {
if (i == 8) {
printf(" ");
}
if (offset + i < size) {
printf("%02x ", data[offset + i]);
} else {
printf(" ");
}
}
printf(" ");
for (size_t i = 0; i < n; ++i) {
if (isprint(data[offset + i])) {
printf("%c", data[offset + i]);
} else {
printf(".");
}
}
printf("\n");
offset += 16;
}
}
static const char *FourCC2MIME(uint32_t fourcc) {
switch (fourcc) {
case FOURCC('m', 'p', '4', 'a'):
return MEDIA_MIMETYPE_AUDIO_AAC;
case FOURCC('e', 'n', 'c', 'a'):
return MEDIA_MIMETYPE_AUDIO_AAC;
case FOURCC('.', 'm', 'p', '3'):
return MEDIA_MIMETYPE_AUDIO_MPEG;
case FOURCC('s', 'a', 'm', 'r'):
return MEDIA_MIMETYPE_AUDIO_AMR_NB;
case FOURCC('s', 'a', 'w', 'b'):
return MEDIA_MIMETYPE_AUDIO_AMR_WB;
case FOURCC('a', 'c', '-', '3'):
return MEDIA_MIMETYPE_AUDIO_AC3;
case FOURCC('e', 'c', '-', '3'):
return MEDIA_MIMETYPE_AUDIO_EAC3;
case FOURCC('m', 'p', '4', 'v'):
return MEDIA_MIMETYPE_VIDEO_MPEG4;
case FOURCC('e', 'n', 'c', 'v'):
return MEDIA_MIMETYPE_VIDEO_MPEG4;
case FOURCC('s', '2', '6', '3'):
case FOURCC('h', '2', '6', '3'):
case FOURCC('H', '2', '6', '3'):
return MEDIA_MIMETYPE_VIDEO_H263;
case FOURCC('a', 'v', 'c', '1'):
return MEDIA_MIMETYPE_VIDEO_AVC;
case FOURCC('h', 'v', 'c', '1'):
case FOURCC('h', 'e', 'v', '1'):
return MEDIA_MIMETYPE_VIDEO_HEVC;
#ifdef ENABLE_AV_ENHANCEMENTS
case FOURCC('s', 'q', 'c', 'p'):
return MEDIA_MIMETYPE_AUDIO_QCELP;
case FOURCC('s', 'e', 'v', 'c'):
return MEDIA_MIMETYPE_AUDIO_EVRC;
case FOURCC('d', 't', 's', 'c'):
case FOURCC('d', 't', 's', 'h'):
case FOURCC('d', 't', 's', 'l'):
return MEDIA_MIMETYPE_AUDIO_DTS;
case FOURCC('d', 't', 's', 'e'):
return MEDIA_MIMETYPE_AUDIO_DTS_LBR;
#endif
default:
CHECK(!"should not be here.");
return NULL;
}
}
static bool AdjustChannelsAndRate(uint32_t fourcc, uint32_t *channels, uint32_t *rate) {
if (!strcasecmp(MEDIA_MIMETYPE_AUDIO_AMR_NB, FourCC2MIME(fourcc))) {
// AMR NB audio is always mono, 8kHz
*channels = 1;
*rate = 8000;
return true;
} else if (!strcasecmp(MEDIA_MIMETYPE_AUDIO_AMR_WB, FourCC2MIME(fourcc))) {
// AMR WB audio is always mono, 16kHz
*channels = 1;
*rate = 16000;
return true;
}
return false;
}
MPEG4Extractor::MPEG4Extractor(const sp<DataSource> &source)
: mMoofOffset(0),
mDataSource(source),
mInitCheck(NO_INIT),
mHasVideo(false),
mHeaderTimescale(0),
mFirstTrack(NULL),
mLastTrack(NULL),
mFileMetaData(new MetaData),
mFirstSINF(NULL),
mIsDrm(false) {
}
MPEG4Extractor::~MPEG4Extractor() {
Track *track = mFirstTrack;
while (track) {
Track *next = track->next;
delete track;
track = next;
}
mFirstTrack = mLastTrack = NULL;
SINF *sinf = mFirstSINF;
while (sinf) {
SINF *next = sinf->next;
delete[] sinf->IPMPData;
delete sinf;
sinf = next;
}
mFirstSINF = NULL;
for (size_t i = 0; i < mPssh.size(); i++) {
delete [] mPssh[i].data;
}
}
uint32_t MPEG4Extractor::flags() const {
return CAN_PAUSE |
((mMoofOffset == 0 || mSidxEntries.size() != 0) ?
(CAN_SEEK_BACKWARD | CAN_SEEK_FORWARD | CAN_SEEK) : 0);
}
sp<MetaData> MPEG4Extractor::getMetaData() {
status_t err;
if ((err = readMetaData()) != OK) {
return new MetaData;
}
return mFileMetaData;
}
size_t MPEG4Extractor::countTracks() {
status_t err;
if ((err = readMetaData()) != OK) {
ALOGV("MPEG4Extractor::countTracks: no tracks");
return 0;
}
size_t n = 0;
Track *track = mFirstTrack;
while (track) {
++n;
track = track->next;
}
ALOGV("MPEG4Extractor::countTracks: %zu tracks", n);
return n;
}
sp<MetaData> MPEG4Extractor::getTrackMetaData(
size_t index, uint32_t flags) {
status_t err;
if ((err = readMetaData()) != OK) {
return NULL;
}
Track *track = mFirstTrack;
while (index > 0) {
if (track == NULL) {
return NULL;
}
track = track->next;
--index;
}
if (track == NULL) {
return NULL;
}
if ((flags & kIncludeExtensiveMetaData)
&& !track->includes_expensive_metadata) {
track->includes_expensive_metadata = true;
const char *mime;
CHECK(track->meta->findCString(kKeyMIMEType, &mime));
if (!strncasecmp("video/", mime, 6)) {
if (mMoofOffset > 0) {
int64_t duration;
if (track->meta->findInt64(kKeyDuration, &duration)) {
// nothing fancy, just pick a frame near 1/4th of the duration
track->meta->setInt64(
kKeyThumbnailTime, duration / 4);
}
} else {
uint32_t sampleIndex;
uint32_t sampleTime;
if (track->sampleTable->findThumbnailSample(&sampleIndex) == OK
&& track->sampleTable->getMetaDataForSample(
sampleIndex, NULL /* offset */, NULL /* size */,
&sampleTime) == OK) {
track->meta->setInt64(
kKeyThumbnailTime,
((int64_t)sampleTime * 1000000) / track->timescale);
}
}
}
}
return track->meta;
}
static void MakeFourCCString(uint32_t x, char *s) {
s[0] = x >> 24;
s[1] = (x >> 16) & 0xff;
s[2] = (x >> 8) & 0xff;
s[3] = x & 0xff;
s[4] = '\0';
}
status_t MPEG4Extractor::readMetaData() {
if (mInitCheck != NO_INIT) {
return mInitCheck;
}
off64_t offset = 0;
status_t err;
while (true) {
off64_t orig_offset = offset;
err = parseChunk(&offset, 0);
if (err != OK && err != UNKNOWN_ERROR) {
break;
} else if (offset <= orig_offset) {
// only continue parsing if the offset was advanced,
// otherwise we might end up in an infinite loop
ALOGE("did not advance: 0x%lld->0x%lld", orig_offset, offset);
err = ERROR_MALFORMED;
break;
} else if (err == OK) {
continue;
}
uint32_t hdr[2];
if (mDataSource->readAt(offset, hdr, 8) < 8) {
break;
}
uint32_t chunk_type = ntohl(hdr[1]);
if (chunk_type == FOURCC('m', 'o', 'o', 'f')) {
// store the offset of the first segment
mMoofOffset = offset;
} else if (chunk_type != FOURCC('m', 'd', 'a', 't')) {
// keep parsing until we get to the data
continue;
}
break;
}
if (mInitCheck == OK) {
if (mHasVideo) {
mFileMetaData->setCString(
kKeyMIMEType, MEDIA_MIMETYPE_CONTAINER_MPEG4);
} else {
mFileMetaData->setCString(kKeyMIMEType, "audio/mp4");
}
} else {
mInitCheck = err;
}
CHECK_NE(err, (status_t)NO_INIT);
// copy pssh data into file metadata
int psshsize = 0;
for (size_t i = 0; i < mPssh.size(); i++) {
psshsize += 20 + mPssh[i].datalen;
}
if (psshsize) {
char *buf = (char*)malloc(psshsize);
char *ptr = buf;
for (size_t i = 0; i < mPssh.size(); i++) {
memcpy(ptr, mPssh[i].uuid, 20); // uuid + length
memcpy(ptr + 20, mPssh[i].data, mPssh[i].datalen);
ptr += (20 + mPssh[i].datalen);
}
mFileMetaData->setData(kKeyPssh, 'pssh', buf, psshsize);
free(buf);
}
return mInitCheck;
}
char* MPEG4Extractor::getDrmTrackInfo(size_t trackID, int *len) {
if (mFirstSINF == NULL) {
return NULL;
}
SINF *sinf = mFirstSINF;
while (sinf && (trackID != sinf->trackID)) {
sinf = sinf->next;
}
if (sinf == NULL) {
return NULL;
}
*len = sinf->len;
return sinf->IPMPData;
}
// Reads an encoded integer 7 bits at a time until it encounters the high bit clear.
static int32_t readSize(off64_t offset,
const sp<DataSource> DataSource, uint8_t *numOfBytes) {
uint32_t size = 0;
uint8_t data;
bool moreData = true;
*numOfBytes = 0;
while (moreData) {
if (DataSource->readAt(offset, &data, 1) < 1) {
return -1;
}
offset ++;
moreData = (data >= 128) ? true : false;
size = (size << 7) | (data & 0x7f); // Take last 7 bits
(*numOfBytes) ++;
}
return size;
}
status_t MPEG4Extractor::parseDrmSINF(
off64_t * /* offset */, off64_t data_offset) {
uint8_t updateIdTag;
if (mDataSource->readAt(data_offset, &updateIdTag, 1) < 1) {
return ERROR_IO;
}
data_offset ++;
if (0x01/*OBJECT_DESCRIPTOR_UPDATE_ID_TAG*/ != updateIdTag) {
return ERROR_MALFORMED;
}
uint8_t numOfBytes;
int32_t size = readSize(data_offset, mDataSource, &numOfBytes);
if (size < 0) {
return ERROR_IO;
}
data_offset += numOfBytes;
while(size >= 11 ) {
uint8_t descriptorTag;
if (mDataSource->readAt(data_offset, &descriptorTag, 1) < 1) {
return ERROR_IO;
}
data_offset ++;
if (0x11/*OBJECT_DESCRIPTOR_ID_TAG*/ != descriptorTag) {
return ERROR_MALFORMED;
}
uint8_t buffer[8];
//ObjectDescriptorID and ObjectDescriptor url flag
if (mDataSource->readAt(data_offset, buffer, 2) < 2) {
return ERROR_IO;
}
data_offset += 2;
if ((buffer[1] >> 5) & 0x0001) { //url flag is set
return ERROR_MALFORMED;
}
if (mDataSource->readAt(data_offset, buffer, 8) < 8) {
return ERROR_IO;
}
data_offset += 8;
if ((0x0F/*ES_ID_REF_TAG*/ != buffer[1])
|| ( 0x0A/*IPMP_DESCRIPTOR_POINTER_ID_TAG*/ != buffer[5])) {
return ERROR_MALFORMED;
}
SINF *sinf = new SINF;
sinf->trackID = U16_AT(&buffer[3]);
sinf->IPMPDescriptorID = buffer[7];
sinf->next = mFirstSINF;
mFirstSINF = sinf;
size -= (8 + 2 + 1);
}
if (size != 0) {
return ERROR_MALFORMED;
}
if (mDataSource->readAt(data_offset, &updateIdTag, 1) < 1) {
return ERROR_IO;
}
data_offset ++;
if(0x05/*IPMP_DESCRIPTOR_UPDATE_ID_TAG*/ != updateIdTag) {
return ERROR_MALFORMED;
}
size = readSize(data_offset, mDataSource, &numOfBytes);
if (size < 0) {
return ERROR_IO;
}
data_offset += numOfBytes;
while (size > 0) {
uint8_t tag;
int32_t dataLen;
if (mDataSource->readAt(data_offset, &tag, 1) < 1) {
return ERROR_IO;
}
data_offset ++;
if (0x0B/*IPMP_DESCRIPTOR_ID_TAG*/ == tag) {
uint8_t id;
dataLen = readSize(data_offset, mDataSource, &numOfBytes);
if (dataLen < 0) {
return ERROR_IO;
} else if (dataLen < 4) {
return ERROR_MALFORMED;
}
data_offset += numOfBytes;
if (mDataSource->readAt(data_offset, &id, 1) < 1) {
return ERROR_IO;
}
data_offset ++;
SINF *sinf = mFirstSINF;
while (sinf && (sinf->IPMPDescriptorID != id)) {
sinf = sinf->next;
}
if (sinf == NULL) {
return ERROR_MALFORMED;
}
sinf->len = dataLen - 3;
sinf->IPMPData = new (std::nothrow) char[sinf->len];
if (sinf->IPMPData == NULL) {
return ERROR_MALFORMED;
}
data_offset += 2;
if (mDataSource->readAt(data_offset, sinf->IPMPData, sinf->len) < sinf->len) {
return ERROR_IO;
}
data_offset += sinf->len;
size -= (dataLen + numOfBytes + 1);
}
}
if (size != 0) {
return ERROR_MALFORMED;
}
return UNKNOWN_ERROR; // Return a dummy error.
}
struct PathAdder {
PathAdder(Vector<uint32_t> *path, uint32_t chunkType)
: mPath(path) {
mPath->push(chunkType);
}
~PathAdder() {
mPath->pop();
}
private:
Vector<uint32_t> *mPath;
PathAdder(const PathAdder &);
PathAdder &operator=(const PathAdder &);
};
static bool underMetaDataPath(const Vector<uint32_t> &path) {
return path.size() >= 5
&& path[0] == FOURCC('m', 'o', 'o', 'v')
&& path[1] == FOURCC('u', 'd', 't', 'a')
&& path[2] == FOURCC('m', 'e', 't', 'a')
&& path[3] == FOURCC('i', 'l', 's', 't');
}
// Given a time in seconds since Jan 1 1904, produce a human-readable string.
static void convertTimeToDate(int64_t time_1904, String8 *s) {
time_t time_1970 = time_1904 - (((66 * 365 + 17) * 24) * 3600);
char tmp[32];
strftime(tmp, sizeof(tmp), "%Y%m%dT%H%M%S.000Z", gmtime(&time_1970));
s->setTo(tmp);
}
status_t MPEG4Extractor::parseChunk(off64_t *offset, int depth) {
ALOGV("entering parseChunk %lld/%d", *offset, depth);
uint32_t hdr[2];
if (mDataSource->readAt(*offset, hdr, 8) < 8) {
return ERROR_IO;
}
uint64_t chunk_size = ntohl(hdr[0]);
uint32_t chunk_type = ntohl(hdr[1]);
off64_t data_offset = *offset + 8;
if (chunk_size == 1) {
if (mDataSource->readAt(*offset + 8, &chunk_size, 8) < 8) {
return ERROR_IO;
}
chunk_size = ntoh64(chunk_size);
data_offset += 8;
if (chunk_size < 16) {
// The smallest valid chunk is 16 bytes long in this case.
return ERROR_MALFORMED;
}
} else if (chunk_size == 0) {
if (depth == 0) {
// atom extends to end of file
off64_t sourceSize;
if (mDataSource->getSize(&sourceSize) == OK) {
chunk_size = (sourceSize - *offset);
} else {
// XXX could we just pick a "sufficiently large" value here?
ALOGE("atom size is 0, and data source has no size");
return ERROR_MALFORMED;
}
} else {
// not allowed for non-toplevel atoms, skip it
*offset += 4;
return OK;
}
} else if (chunk_size < 8) {
// The smallest valid chunk is 8 bytes long.
ALOGE("invalid chunk size: %" PRIu64, chunk_size);
return ERROR_MALFORMED;
}
char chunk[5];
MakeFourCCString(chunk_type, chunk);
ALOGV("chunk: %s @ %lld, %d", chunk, *offset, depth);
if (kUseHexDump) {
static const char kWhitespace[] = " ";
const char *indent = &kWhitespace[sizeof(kWhitespace) - 1 - 2 * depth];
printf("%sfound chunk '%s' of size %" PRIu64 "\n", indent, chunk, chunk_size);
char buffer[256];
size_t n = chunk_size;
if (n > sizeof(buffer)) {
n = sizeof(buffer);
}
if (mDataSource->readAt(*offset, buffer, n)
< (ssize_t)n) {
return ERROR_IO;
}
hexdump(buffer, n);
}
PathAdder autoAdder(&mPath, chunk_type);
off64_t chunk_data_size = *offset + chunk_size - data_offset;
if (chunk_type != FOURCC('c', 'p', 'r', 't')
&& chunk_type != FOURCC('c', 'o', 'v', 'r')
&& mPath.size() == 5 && underMetaDataPath(mPath)) {
off64_t stop_offset = *offset + chunk_size;
*offset = data_offset;
while (*offset < stop_offset) {
status_t err = parseChunk(offset, depth + 1);
if (err != OK) {
return err;
}
}
if (*offset != stop_offset) {
return ERROR_MALFORMED;
}
return OK;
}
switch(chunk_type) {
case FOURCC('m', 'o', 'o', 'v'):
case FOURCC('t', 'r', 'a', 'k'):
case FOURCC('m', 'd', 'i', 'a'):
case FOURCC('m', 'i', 'n', 'f'):
case FOURCC('d', 'i', 'n', 'f'):
case FOURCC('s', 't', 'b', 'l'):
case FOURCC('m', 'v', 'e', 'x'):
case FOURCC('m', 'o', 'o', 'f'):
case FOURCC('t', 'r', 'a', 'f'):
case FOURCC('m', 'f', 'r', 'a'):
case FOURCC('u', 'd', 't', 'a'):
case FOURCC('i', 'l', 's', 't'):
case FOURCC('s', 'i', 'n', 'f'):
case FOURCC('s', 'c', 'h', 'i'):
case FOURCC('e', 'd', 't', 's'):
{
if (chunk_type == FOURCC('s', 't', 'b', 'l')) {
ALOGV("sampleTable chunk is %" PRIu64 " bytes long.", chunk_size);
if (mDataSource->flags()
& (DataSource::kWantsPrefetching
| DataSource::kIsCachingDataSource)) {
sp<MPEG4DataSource> cachedSource =
new MPEG4DataSource(mDataSource);
if (cachedSource->setCachedRange(*offset, chunk_size) == OK) {
mDataSource = cachedSource;
}
}
mLastTrack->sampleTable = new SampleTable(mDataSource);
}
bool isTrack = false;
if (chunk_type == FOURCC('t', 'r', 'a', 'k')) {
isTrack = true;
Track *track = new Track;
track->next = NULL;
if (mLastTrack) {
mLastTrack->next = track;
} else {
mFirstTrack = track;
}
mLastTrack = track;
track->meta = new MetaData;
track->includes_expensive_metadata = false;
track->skipTrack = false;
track->timescale = 0;
track->meta->setCString(kKeyMIMEType, "application/octet-stream");
}
off64_t stop_offset = *offset + chunk_size;
*offset = data_offset;
while (*offset < stop_offset) {
status_t err = parseChunk(offset, depth + 1);
if (err != OK) {
return err;
}
}
if (*offset != stop_offset) {
return ERROR_MALFORMED;
}
if (isTrack) {
if (mLastTrack->skipTrack) {
Track *cur = mFirstTrack;
if (cur == mLastTrack) {
delete cur;
mFirstTrack = mLastTrack = NULL;
} else {
while (cur && cur->next != mLastTrack) {
cur = cur->next;
}
cur->next = NULL;
delete mLastTrack;
mLastTrack = cur;
}
return OK;
}
status_t err = verifyTrack(mLastTrack);
if (err != OK) {
return err;
}
} else if (chunk_type == FOURCC('m', 'o', 'o', 'v')) {
mInitCheck = OK;
if (!mIsDrm) {
return UNKNOWN_ERROR; // Return a dummy error.
} else {
return OK;
}
}
break;
}
case FOURCC('e', 'l', 's', 't'):
{
*offset += chunk_size;
// See 14496-12 8.6.6
uint8_t version;
if (mDataSource->readAt(data_offset, &version, 1) < 1) {
return ERROR_IO;
}
uint32_t entry_count;
if (!mDataSource->getUInt32(data_offset + 4, &entry_count)) {