haiku/src/kits/media/MediaExtractor.cpp

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/*
** Copyright 2004-2007, Marcus Overhagen. All rights reserved.
** Copyright 2008, Maurice Kalinowski. All rights reserved.
** Distributed under the terms of the MIT License.
*/
#include "MediaExtractor.h"
#include "PluginManager.h"
#include "ChunkCache.h"
#include "debug.h"
#include <Autolock.h>
#include <stdio.h>
#include <string.h>
#include <new>
// should be 0, to disable the chunk cache set it to 1
#define DISABLE_CHUNK_CACHE 0
MediaExtractor::MediaExtractor(BDataIO *source, int32 flags)
{
CALLED();
fSource = source;
fStreamInfo = NULL;
fExtractorThread = -1;
fExtractorWaitSem = -1;
fTerminateExtractor = false;
fErr = _plugin_manager.CreateReader(&fReader, &fStreamCount, &fMff, source);
if (fErr) {
fStreamCount = 0;
fReader = NULL;
return;
}
fStreamInfo = new stream_info[fStreamCount];
// initialize stream infos
for (int32 i = 0; i < fStreamCount; i++) {
fStreamInfo[i].status = B_OK;
fStreamInfo[i].cookie = 0;
fStreamInfo[i].hasCookie = true;
fStreamInfo[i].infoBuffer = 0;
fStreamInfo[i].infoBufferSize = 0;
fStreamInfo[i].chunkCache = new ChunkCache;
memset(&fStreamInfo[i].encodedFormat, 0,
sizeof(fStreamInfo[i].encodedFormat));
}
// create all stream cookies
for (int32 i = 0; i < fStreamCount; i++) {
if (B_OK != fReader->AllocateCookie(i, &fStreamInfo[i].cookie)) {
fStreamInfo[i].cookie = 0;
fStreamInfo[i].hasCookie = false;
fStreamInfo[i].status = B_ERROR;
ERROR("MediaExtractor::MediaExtractor: AllocateCookie for stream "
"%ld failed\n", i);
}
}
// get info for all streams
for (int32 i = 0; i < fStreamCount; i++) {
if (fStreamInfo[i].status != B_OK)
continue;
int64 frameCount;
bigtime_t duration;
if (B_OK != fReader->GetStreamInfo(fStreamInfo[i].cookie, &frameCount,
&duration, &fStreamInfo[i].encodedFormat,
&fStreamInfo[i].infoBuffer, &fStreamInfo[i].infoBufferSize)) {
fStreamInfo[i].status = B_ERROR;
ERROR("MediaExtractor::MediaExtractor: GetStreamInfo for "
"stream %ld failed\n", i);
}
}
#if DISABLE_CHUNK_CACHE == 0
// start extractor thread
fExtractorWaitSem = create_sem(1, "media extractor thread sem");
fExtractorThread = spawn_thread(extractor_thread, "media extractor thread",
10, this);
resume_thread(fExtractorThread);
#endif
}
MediaExtractor::~MediaExtractor()
{
CALLED();
// terminate extractor thread
fTerminateExtractor = true;
release_sem(fExtractorWaitSem);
status_t err;
wait_for_thread(fExtractorThread, &err);
delete_sem(fExtractorWaitSem);
// free all stream cookies
// and chunk caches
for (int32 i = 0; i < fStreamCount; i++) {
if (fStreamInfo[i].hasCookie)
fReader->FreeCookie(fStreamInfo[i].cookie);
delete fStreamInfo[i].chunkCache;
}
_plugin_manager.DestroyReader(fReader);
delete [] fStreamInfo;
// fSource is owned by the BMediaFile
}
status_t
MediaExtractor::InitCheck()
{
CALLED();
return fErr;
}
void
MediaExtractor::GetFileFormatInfo(media_file_format *mfi) const
{
CALLED();
*mfi = fMff;
}
int32
MediaExtractor::StreamCount()
{
CALLED();
return fStreamCount;
}
const char*
MediaExtractor::Copyright()
{
return fReader->Copyright();
}
const media_format *
MediaExtractor::EncodedFormat(int32 stream)
{
return &fStreamInfo[stream].encodedFormat;
}
int64
MediaExtractor::CountFrames(int32 stream) const
{
CALLED();
int64 frameCount;
bigtime_t duration;
media_format format;
const void *infoBuffer;
size_t infoSize;
fReader->GetStreamInfo(fStreamInfo[stream].cookie, &frameCount, &duration,
&format, &infoBuffer, &infoSize);
return frameCount;
}
bigtime_t
MediaExtractor::Duration(int32 stream) const
{
CALLED();
int64 frameCount;
bigtime_t duration;
media_format format;
const void *infoBuffer;
size_t infoSize;
fReader->GetStreamInfo(fStreamInfo[stream].cookie, &frameCount, &duration,
&format, &infoBuffer, &infoSize);
return duration;
}
status_t
MediaExtractor::Seek(int32 stream, uint32 seekTo,
int64 *frame, bigtime_t *time)
{
CALLED();
if (fStreamInfo[stream].status != B_OK)
return fStreamInfo[stream].status;
status_t result;
result = fReader->Seek(fStreamInfo[stream].cookie, seekTo, frame, time);
if (result != B_OK)
return result;
// clear buffered chunks
fStreamInfo[stream].chunkCache->MakeEmpty();
release_sem(fExtractorWaitSem);
return B_OK;
}
status_t
MediaExtractor::FindKeyFrame(int32 stream, uint32 seekTo, int64 *frame,
bigtime_t *time) const
{
CALLED();
if (fStreamInfo[stream].status != B_OK)
return fStreamInfo[stream].status;
return fReader->FindKeyFrame(fStreamInfo[stream].cookie,
seekTo, frame, time);
}
status_t
MediaExtractor::GetNextChunk(int32 stream,
const void **chunkBuffer, size_t *chunkSize,
media_header *mediaHeader)
{
if (fStreamInfo[stream].status != B_OK)
return fStreamInfo[stream].status;
#if DISABLE_CHUNK_CACHE > 0
static BLocker locker;
BAutolock lock(locker);
return fReader->GetNextChunk(fStreamInfo[stream].cookie, chunkBuffer,
chunkSize, mediaHeader);
#endif
status_t err;
err = fStreamInfo[stream].chunkCache->GetNextChunk(chunkBuffer, chunkSize,
mediaHeader);
release_sem(fExtractorWaitSem);
return err;
}
class MediaExtractorChunkProvider : public ChunkProvider {
private:
MediaExtractor * fExtractor;
int32 fStream;
public:
MediaExtractorChunkProvider(MediaExtractor * extractor, int32 stream)
{
fExtractor = extractor;
fStream = stream;
}
virtual status_t GetNextChunk(const void **chunkBuffer, size_t *chunkSize,
media_header *mediaHeader)
{
return fExtractor->GetNextChunk(fStream, chunkBuffer, chunkSize,
mediaHeader);
}
};
status_t
MediaExtractor::CreateDecoder(int32 stream, Decoder **out_decoder,
media_codec_info *mci)
{
CALLED();
status_t res;
Decoder *decoder;
res = fStreamInfo[stream].status;
if (res != B_OK) {
ERROR("MediaExtractor::CreateDecoder can't create decoder for "
"stream %ld\n", stream);
return res;
}
res = _plugin_manager.CreateDecoder(&decoder,
fStreamInfo[stream].encodedFormat);
if (res != B_OK) {
char formatString[256];
string_for_format(fStreamInfo[stream].encodedFormat, formatString,
256);
ERROR("MediaExtractor::CreateDecoder _plugin_manager.CreateDecoder "
"failed for stream %ld, format: %s\n", stream, formatString);
return res;
}
ChunkProvider *chunkProvider
= new(std::nothrow) MediaExtractorChunkProvider(this, stream);
if (!chunkProvider) {
_plugin_manager.DestroyDecoder(decoder);
ERROR("MediaExtractor::CreateDecoder can't create chunk provider "
"for stream %ld\n", stream);
return B_NO_MEMORY;
}
decoder->SetChunkProvider(chunkProvider);
res = decoder->Setup(&fStreamInfo[stream].encodedFormat,
fStreamInfo[stream].infoBuffer, fStreamInfo[stream].infoBufferSize);
if (res != B_OK) {
_plugin_manager.DestroyDecoder(decoder);
ERROR("MediaExtractor::CreateDecoder Setup failed for stream %ld: "
"%ld (%s)\n", stream, res, strerror(res));
return res;
}
res = _plugin_manager.GetDecoderInfo(decoder, mci);
if (res != B_OK) {
_plugin_manager.DestroyDecoder(decoder);
ERROR("MediaExtractor::CreateDecoder GetCodecInfo failed for stream "
"%ld: %ld (%s)\n", stream, res, strerror(res));
return res;
}
*out_decoder = decoder;
return B_OK;
}
int32
MediaExtractor::extractor_thread(void *arg)
{
static_cast<MediaExtractor *>(arg)->ExtractorThread();
return 0;
}
void
MediaExtractor::ExtractorThread()
{
for (;;) {
acquire_sem(fExtractorWaitSem);
if (fTerminateExtractor)
return;
bool refill_done;
do {
refill_done = false;
for (int32 stream = 0; stream < fStreamCount; stream++) {
if (fStreamInfo[stream].status != B_OK)
continue;
if (fStreamInfo[stream].chunkCache->NeedsRefill()) {
media_header mediaHeader;
const void *chunkBuffer;
size_t chunkSize;
status_t err;
err = fReader->GetNextChunk(fStreamInfo[stream].cookie,
&chunkBuffer, &chunkSize, &mediaHeader);
fStreamInfo[stream].chunkCache->PutNextChunk(chunkBuffer,
chunkSize, mediaHeader, err);
refill_done = true;
}
}
if (fTerminateExtractor)
return;
} while (refill_done);
}
}