Sweden-Number/dlls/quartz/mpegsplit.c

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/*
* MPEG Splitter Filter
*
* Copyright 2003 Robert Shearman
* Copyright 2004-2005 Christian Costa
* Copyright 2007 Chris Robinson
* Copyright 2008 Maarten Lankhorst
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
*/
#include <assert.h>
#include <math.h>
#include "quartz_private.h"
#include "control_private.h"
#include "pin.h"
#include "uuids.h"
#include "mmreg.h"
#include "mmsystem.h"
#include "winternl.h"
#include "wine/unicode.h"
#include "wine/debug.h"
#include "parser.h"
WINE_DEFAULT_DEBUG_CHANNEL(quartz);
#define SEQUENCE_HEADER_CODE 0xB3
#define PACK_START_CODE 0xBA
#define SYSTEM_START_CODE 0xBB
#define AUDIO_ELEMENTARY_STREAM 0xC0
#define VIDEO_ELEMENTARY_STREAM 0xE0
#define MPEG_SYSTEM_HEADER 3
#define MPEG_VIDEO_HEADER 2
#define MPEG_AUDIO_HEADER 1
#define MPEG_NO_HEADER 0
#define SEEK_INTERVAL (ULONGLONG)(10 * 10000000) /* Add an entry every 10 seconds */
struct seek_entry {
ULONGLONG bytepos;
ULONGLONG timepos;
};
typedef struct MPEGSplitterImpl
{
ParserImpl Parser;
LONGLONG EndOfFile;
LONGLONG duration;
LONGLONG position;
DWORD begin_offset;
BYTE header[4];
/* Whether we just seeked (or started playing) */
BOOL seek;
/* Seeking cache */
ULONG seek_entries;
struct seek_entry *seektable;
} MPEGSplitterImpl;
static int MPEGSplitter_head_check(const BYTE *header)
{
/* If this is a possible start code, check for a system or video header */
if (header[0] == 0 && header[1] == 0 && header[2] == 1)
{
/* Check if we got a system or elementary stream start code */
if (header[3] == PACK_START_CODE ||
header[3] == VIDEO_ELEMENTARY_STREAM ||
header[3] == AUDIO_ELEMENTARY_STREAM)
return MPEG_SYSTEM_HEADER;
/* Check for a MPEG video sequence start code */
if (header[3] == SEQUENCE_HEADER_CODE)
return MPEG_VIDEO_HEADER;
}
/* This should give a good guess if we have an MPEG audio header */
if(header[0] == 0xff && ((header[1]>>5)&0x7) == 0x7 &&
((header[1]>>1)&0x3) != 0 && ((header[2]>>4)&0xf) != 0xf &&
((header[2]>>2)&0x3) != 0x3)
return MPEG_AUDIO_HEADER;
/* Nothing yet.. */
return MPEG_NO_HEADER;
}
static const WCHAR wszAudioStream[] = {'A','u','d','i','o',0};
static const WCHAR wszVideoStream[] = {'V','i','d','e','o',0};
static const DWORD freqs[10] = { 44100, 48000, 32000, 22050, 24000, 16000, 11025, 12000, 8000, 0 };
static const DWORD tabsel_123[2][3][16] = {
{ {0,32,64,96,128,160,192,224,256,288,320,352,384,416,448,},
{0,32,48,56, 64, 80, 96,112,128,160,192,224,256,320,384,},
{0,32,40,48, 56, 64, 80, 96,112,128,160,192,224,256,320,} },
{ {0,32,48,56,64,80,96,112,128,144,160,176,192,224,256,},
{0,8,16,24,32,40,48,56,64,80,96,112,128,144,160,},
{0,8,16,24,32,40,48,56,64,80,96,112,128,144,160,} }
};
static HRESULT parse_header(BYTE *header, LONGLONG *plen, LONGLONG *pduration)
{
LONGLONG duration;
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int bitrate_index, freq_index, lsf = 1, mpeg1, layer, padding, bitrate, length;
if (!(header[0] == 0xff && ((header[1]>>5)&0x7) == 0x7 &&
((header[1]>>1)&0x3) != 0 && ((header[2]>>4)&0xf) != 0xf &&
((header[2]>>2)&0x3) != 0x3))
{
FIXME("Not a valid header: %02x:%02x\n", header[0], header[1]);
return E_INVALIDARG;
}
mpeg1 = (header[1]>>4)&0x1;
if (mpeg1)
lsf = ((header[1]>>3)&0x1)^1;
layer = 4-((header[1]>>1)&0x3);
bitrate_index = ((header[2]>>4)&0xf);
freq_index = ((header[2]>>2)&0x3) + (mpeg1?(lsf*3):6);
padding = ((header[2]>>1)&0x1);
bitrate = tabsel_123[lsf][layer-1][bitrate_index] * 1000;
if (!bitrate || layer != 3)
{
FIXME("Not a valid header: %02x:%02x:%02x:%02x\n", header[0], header[1], header[2], header[3]);
return E_INVALIDARG;
}
if (layer == 3 || layer == 2)
length = 144 * bitrate / freqs[freq_index] + padding;
else
length = 4 * (12 * bitrate / freqs[freq_index] + padding);
duration = (ULONGLONG)10000000 * (ULONGLONG)(length) / (ULONGLONG)(bitrate/8);
*plen = length;
if (pduration)
*pduration += duration;
return S_OK;
}
static HRESULT FillBuffer(MPEGSplitterImpl *This, IMediaSample *pCurrentSample)
{
Parser_OutputPin * pOutputPin = (Parser_OutputPin*)This->Parser.ppPins[1];
LONGLONG length = 0;
LONGLONG pos = BYTES_FROM_MEDIATIME(This->Parser.pInputPin->rtNext);
LONGLONG time = This->position;
HRESULT hr;
BYTE *fbuf = NULL;
DWORD len = IMediaSample_GetActualDataLength(pCurrentSample);
TRACE("Source length: %u\n", len);
IMediaSample_GetPointer(pCurrentSample, &fbuf);
/* Find the next valid header.. it <SHOULD> be right here */
assert(parse_header(fbuf, &length, &This->position) == S_OK);
IMediaSample_SetActualDataLength(pCurrentSample, length);
/* Queue the next sample */
if (length + 4 == len)
{
PullPin *pin = This->Parser.pInputPin;
LONGLONG stop = BYTES_FROM_MEDIATIME(pin->rtStop);
hr = S_OK;
memcpy(This->header, fbuf + length, 4);
while (FAILED(hr = parse_header(This->header, &length, NULL)))
{
memmove(This->header, This->header+1, 3);
if (pos + 4 >= stop)
break;
IAsyncReader_SyncRead(pin->pReader, ++pos, 1, This->header + 3);
}
pin->rtNext = MEDIATIME_FROM_BYTES(pos);
if (SUCCEEDED(hr))
{
/* Remove 4 for the last header, which should hopefully work */
IMediaSample *sample = NULL;
LONGLONG rtSampleStart = pin->rtNext - MEDIATIME_FROM_BYTES(4);
LONGLONG rtSampleStop = rtSampleStart + MEDIATIME_FROM_BYTES(length + 4);
hr = IMemAllocator_GetBuffer(pin->pAlloc, &sample, NULL, NULL, 0);
if (rtSampleStop > pin->rtStop)
rtSampleStop = MEDIATIME_FROM_BYTES(ALIGNUP(BYTES_FROM_MEDIATIME(pin->rtStop), pin->cbAlign));
IMediaSample_SetTime(sample, &rtSampleStart, &rtSampleStop);
IMediaSample_SetPreroll(sample, 0);
IMediaSample_SetDiscontinuity(sample, 0);
IMediaSample_SetSyncPoint(sample, 1);
pin->rtCurrent = rtSampleStart;
pin->rtNext = rtSampleStop;
if (SUCCEEDED(hr))
hr = IAsyncReader_Request(pin->pReader, sample, 0);
if (FAILED(hr))
FIXME("o_Ox%08x\n", hr);
}
}
/* If not, we're presumably at the end of file */
TRACE("Media time : %u.%03u\n", (DWORD)(This->position/10000000), (DWORD)((This->position/10000)%1000));
IMediaSample_SetTime(pCurrentSample, &time, &This->position);
hr = OutputPin_SendSample(&pOutputPin->pin, pCurrentSample);
if (hr != S_OK)
{
if (hr != S_FALSE)
TRACE("Error sending sample (%x)\n", hr);
else
TRACE("S_FALSE (%d), holding\n", IMediaSample_GetActualDataLength(pCurrentSample));
}
return hr;
}
static HRESULT MPEGSplitter_process_sample(LPVOID iface, IMediaSample * pSample, DWORD_PTR cookie)
{
MPEGSplitterImpl *This = iface;
BYTE *pbSrcStream;
DWORD cbSrcStream = 0;
REFERENCE_TIME tStart, tStop, tAviStart = This->position;
Parser_OutputPin * pOutputPin;
HRESULT hr;
pOutputPin = (Parser_OutputPin*)This->Parser.ppPins[1];
hr = IMediaSample_GetTime(pSample, &tStart, &tStop);
if (SUCCEEDED(hr))
{
cbSrcStream = IMediaSample_GetActualDataLength(pSample);
hr = IMediaSample_GetPointer(pSample, &pbSrcStream);
}
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/* Flush occurring */
if (cbSrcStream == 0)
{
FIXME(".. Why do I need you?\n");
return S_OK;
}
/* trace removed for performance reasons */
/* TRACE("(%p), %llu -> %llu\n", pSample, tStart, tStop); */
/* Now, try to find a new header */
hr = FillBuffer(This, pSample);
if (hr != S_OK)
{
WARN("Failed with hres: %08x!\n", hr);
/* Unset progression if denied! */
if (hr == VFW_E_WRONG_STATE || hr == S_FALSE)
{
memcpy(This->header, pbSrcStream, 4);
This->Parser.pInputPin->rtCurrent = tStart;
This->position = tAviStart;
}
}
if (BYTES_FROM_MEDIATIME(tStop) >= This->EndOfFile || This->position >= This->Parser.mediaSeeking.llStop)
{
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unsigned int i;
TRACE("End of file reached\n");
for (i = 0; i < This->Parser.cStreams; i++)
{
IPin* ppin;
hr = IPin_ConnectedTo(This->Parser.ppPins[i+1], &ppin);
if (SUCCEEDED(hr))
{
hr = IPin_EndOfStream(ppin);
IPin_Release(ppin);
}
if (FAILED(hr))
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WARN("Error sending EndOfStream to pin %u (%x)\n", i, hr);
}
/* Force the pullpin thread to stop */
hr = S_FALSE;
}
return hr;
}
static HRESULT MPEGSplitter_query_accept(LPVOID iface, const AM_MEDIA_TYPE *pmt)
{
if (!IsEqualIID(&pmt->majortype, &MEDIATYPE_Stream))
return S_FALSE;
if (IsEqualIID(&pmt->subtype, &MEDIASUBTYPE_MPEG1Audio))
return S_OK;
if (IsEqualIID(&pmt->subtype, &MEDIASUBTYPE_MPEG1Video))
FIXME("MPEG-1 video streams not yet supported.\n");
else if (IsEqualIID(&pmt->subtype, &MEDIASUBTYPE_MPEG1System))
FIXME("MPEG-1 system streams not yet supported.\n");
else if (IsEqualIID(&pmt->subtype, &MEDIASUBTYPE_MPEG1VideoCD))
FIXME("MPEG-1 VideoCD streams not yet supported.\n");
return S_FALSE;
}
static HRESULT MPEGSplitter_init_audio(MPEGSplitterImpl *This, const BYTE *header, PIN_INFO *ppiOutput, AM_MEDIA_TYPE *pamt)
{
WAVEFORMATEX *format;
int bitrate_index;
int freq_index;
int mode_ext;
int emphasis;
int lsf = 1;
int mpeg1;
int layer;
int mode;
ZeroMemory(pamt, sizeof(*pamt));
ppiOutput->dir = PINDIR_OUTPUT;
ppiOutput->pFilter = (IBaseFilter*)This;
wsprintfW(ppiOutput->achName, wszAudioStream);
pamt->formattype = FORMAT_WaveFormatEx;
pamt->majortype = MEDIATYPE_Audio;
pamt->subtype = MEDIASUBTYPE_MPEG1AudioPayload;
pamt->lSampleSize = 0;
pamt->bFixedSizeSamples = FALSE;
pamt->bTemporalCompression = 0;
mpeg1 = (header[1]>>4)&0x1;
if (mpeg1)
lsf = ((header[1]>>3)&0x1)^1;
layer = 4-((header[1]>>1)&0x3);
bitrate_index = ((header[2]>>4)&0xf);
freq_index = ((header[2]>>2)&0x3) + (mpeg1?(lsf*3):6);
mode = ((header[3]>>6)&0x3);
mode_ext = ((header[3]>>4)&0x3);
emphasis = ((header[3]>>0)&0x3);
if (!bitrate_index)
{
/* Set to highest bitrate so samples will fit in for sure */
FIXME("Variable-bitrate audio not fully supported.\n");
bitrate_index = 15;
}
pamt->cbFormat = ((layer==3)? sizeof(MPEGLAYER3WAVEFORMAT) :
sizeof(MPEG1WAVEFORMAT));
pamt->pbFormat = CoTaskMemAlloc(pamt->cbFormat);
if (!pamt->pbFormat)
return E_OUTOFMEMORY;
ZeroMemory(pamt->pbFormat, pamt->cbFormat);
format = (WAVEFORMATEX*)pamt->pbFormat;
format->wFormatTag = ((layer == 3) ? WAVE_FORMAT_MPEGLAYER3 :
WAVE_FORMAT_MPEG);
format->nChannels = ((mode == 3) ? 1 : 2);
format->nSamplesPerSec = freqs[freq_index];
format->nAvgBytesPerSec = tabsel_123[lsf][layer-1][bitrate_index] * 1000 / 8;
if (layer == 3)
format->nBlockAlign = format->nAvgBytesPerSec * 8 * 144 /
(format->nSamplesPerSec<<lsf) + 1;
else if (layer == 2)
format->nBlockAlign = format->nAvgBytesPerSec * 8 * 144 /
format->nSamplesPerSec + 1;
else
format->nBlockAlign = 4 * (format->nAvgBytesPerSec * 8 * 12 / format->nSamplesPerSec + 1);
format->wBitsPerSample = 0;
if (layer == 3)
{
MPEGLAYER3WAVEFORMAT *mp3format = (MPEGLAYER3WAVEFORMAT*)format;
format->cbSize = MPEGLAYER3_WFX_EXTRA_BYTES;
mp3format->wID = MPEGLAYER3_ID_MPEG;
mp3format->fdwFlags = MPEGLAYER3_FLAG_PADDING_ON;
mp3format->nBlockSize = format->nBlockAlign;
mp3format->nFramesPerBlock = 1;
/* Beware the evil magic numbers. This struct is apparently horribly
* under-documented, and the only references I could find had it being
* set to this with no real explanation. It works fine though, so I'm
* not complaining (yet).
*/
mp3format->nCodecDelay = 1393;
}
else
{
MPEG1WAVEFORMAT *mpgformat = (MPEG1WAVEFORMAT*)format;
format->cbSize = 22;
mpgformat->fwHeadLayer = ((layer == 1) ? ACM_MPEG_LAYER1 :
((layer == 2) ? ACM_MPEG_LAYER2 :
ACM_MPEG_LAYER3));
mpgformat->dwHeadBitrate = format->nAvgBytesPerSec * 8;
mpgformat->fwHeadMode = ((mode == 3) ? ACM_MPEG_SINGLECHANNEL :
((mode == 2) ? ACM_MPEG_DUALCHANNEL :
((mode == 1) ? ACM_MPEG_JOINTSTEREO :
ACM_MPEG_STEREO)));
mpgformat->fwHeadModeExt = ((mode == 1) ? 0x0F : (1<<mode_ext));
mpgformat->wHeadEmphasis = emphasis + 1;
mpgformat->fwHeadFlags = ACM_MPEG_ID_MPEG1;
}
pamt->subtype.Data1 = format->wFormatTag;
TRACE("MPEG audio stream detected:\n"
"\tLayer %d (%#x)\n"
"\tFrequency: %d\n"
"\tChannels: %d (%d)\n"
"\tBytesPerSec: %d\n",
layer, format->wFormatTag, format->nSamplesPerSec,
format->nChannels, mode, format->nAvgBytesPerSec);
dump_AM_MEDIA_TYPE(pamt);
return S_OK;
}
static HRESULT MPEGSplitter_pre_connect(IPin *iface, IPin *pConnectPin, ALLOCATOR_PROPERTIES *props)
{
PullPin *pPin = (PullPin *)iface;
MPEGSplitterImpl *This = (MPEGSplitterImpl*)pPin->pin.pinInfo.pFilter;
HRESULT hr;
LONGLONG pos = 0; /* in bytes */
BYTE header[10];
int streamtype = 0;
LONGLONG total, avail;
AM_MEDIA_TYPE amt;
PIN_INFO piOutput;
IAsyncReader_Length(pPin->pReader, &total, &avail);
This->EndOfFile = total;
hr = IAsyncReader_SyncRead(pPin->pReader, pos, 4, header);
if (SUCCEEDED(hr))
pos += 4;
/* Skip ID3 v2 tag, if any */
if (SUCCEEDED(hr) && !memcmp("ID3", header, 3))
do {
UINT length;
hr = IAsyncReader_SyncRead(pPin->pReader, pos, 6, header + 4);
if (FAILED(hr))
break;
pos += 6;
TRACE("Found ID3 v2.%d.%d\n", header[3], header[4]);
length = (header[6] & 0x7F) << 21;
length += (header[7] & 0x7F) << 14;
length += (header[8] & 0x7F) << 7;
length += (header[9] & 0x7F);
TRACE("Length: %u\n", length);
pos += length;
/* Read the real header for the mpeg splitter */
hr = IAsyncReader_SyncRead(pPin->pReader, pos, 4, header);
if (SUCCEEDED(hr))
pos += 4;
TRACE("%x:%x:%x:%x\n", header[0], header[1], header[2], header[3]);
} while (0);
while(SUCCEEDED(hr) && !(streamtype=MPEGSplitter_head_check(header)))
{
TRACE("%x:%x:%x:%x\n", header[0], header[1], header[2], header[3]);
/* No valid header yet; shift by a byte and check again */
memmove(header, header+1, 3);
hr = IAsyncReader_SyncRead(pPin->pReader, pos++, 1, header + 3);
}
if (FAILED(hr))
return hr;
pos -= 4;
This->begin_offset = pos;
memcpy(This->header, header, 4);
This->seektable[0].bytepos = pos;
This->seektable[0].timepos = 0;
switch(streamtype)
{
case MPEG_AUDIO_HEADER:
{
LONGLONG duration = 0;
DWORD last_entry = 0;
DWORD ticks = GetTickCount();
hr = MPEGSplitter_init_audio(This, header, &piOutput, &amt);
if (SUCCEEDED(hr))
{
WAVEFORMATEX *format = (WAVEFORMATEX*)amt.pbFormat;
props->cbAlign = 1;
props->cbPrefix = 0;
/* Make the output buffer a multiple of the frame size */
props->cbBuffer = 0x4000 / format->nBlockAlign *
format->nBlockAlign;
props->cBuffers = 3;
hr = Parser_AddPin(&(This->Parser), &piOutput, props, &amt);
}
if (FAILED(hr))
{
if (amt.pbFormat)
CoTaskMemFree(amt.pbFormat);
ERR("Could not create pin for MPEG audio stream (%x)\n", hr);
break;
}
/* Check for idv1 tag, and remove it from stream if found */
hr = IAsyncReader_SyncRead(pPin->pReader, This->EndOfFile-128, 3, header+4);
if (FAILED(hr))
break;
if (!strncmp((char*)header+4, "TAG", 3))
This->EndOfFile -= 128;
This->Parser.pInputPin->rtStop = MEDIATIME_FROM_BYTES(This->EndOfFile);
This->Parser.pInputPin->rtStart = This->Parser.pInputPin->rtCurrent = MEDIATIME_FROM_BYTES(This->begin_offset);
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/* http://mpgedit.org/mpgedit/mpeg_format/mpeghdr.htm has a whole read up on audio headers */
while (pos + 3 < This->EndOfFile)
{
LONGLONG length = 0;
hr = IAsyncReader_SyncRead(pPin->pReader, pos, 4, header);
if (hr != S_OK)
break;
while (parse_header(header, &length, &duration))
{
/* No valid header yet; shift by a byte and check again */
memmove(header, header+1, 3);
hr = IAsyncReader_SyncRead(pPin->pReader, pos++, 1, header + 3);
if (hr != S_OK || This->EndOfFile - pos < 4)
break;
}
pos += length;
if (This->seektable && (duration / SEEK_INTERVAL) > last_entry)
{
if (last_entry + 1 > duration / SEEK_INTERVAL)
{
ERR("Somehow skipped %d interval lengths instead of 1\n", (DWORD)(duration/SEEK_INTERVAL) - (last_entry + 1));
}
++last_entry;
TRACE("Entry: %u\n", last_entry);
if (last_entry >= This->seek_entries)
{
This->seek_entries += 64;
This->seektable = CoTaskMemRealloc(This->seektable, (This->seek_entries)*sizeof(struct seek_entry));
}
This->seektable[last_entry].bytepos = pos;
This->seektable[last_entry].timepos = duration;
}
TRACE("Pos: %x%08x/%x%08x\n", (DWORD)(pos >> 32), (DWORD)pos, (DWORD)(This->EndOfFile>>32), (DWORD)This->EndOfFile);
}
hr = S_OK;
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TRACE("Duration: %d seconds\n", (DWORD)(duration / 10000000));
TRACE("Parsing took %u ms\n", GetTickCount() - ticks);
This->duration = duration;
This->Parser.mediaSeeking.llCurrent = 0;
This->Parser.mediaSeeking.llDuration = duration;
This->Parser.mediaSeeking.llStop = duration;
break;
}
case MPEG_VIDEO_HEADER:
FIXME("MPEG video processing not yet supported!\n");
hr = E_FAIL;
break;
case MPEG_SYSTEM_HEADER:
FIXME("MPEG system streams not yet supported!\n");
hr = E_FAIL;
break;
default:
break;
}
This->position = 0;
return hr;
}
static HRESULT MPEGSplitter_cleanup(LPVOID iface)
{
MPEGSplitterImpl *This = iface;
TRACE("(%p)\n", This);
return S_OK;
}
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static HRESULT MPEGSplitter_seek(IBaseFilter *iface)
{
MPEGSplitterImpl *This = (MPEGSplitterImpl*)iface;
PullPin *pPin = This->Parser.pInputPin;
LONGLONG newpos, timepos, bytepos;
HRESULT hr = S_OK;
BYTE header[4];
newpos = This->Parser.mediaSeeking.llCurrent;
if (newpos > This->duration)
{
WARN("Requesting position %x%08x beyond end of stream %x%08x\n", (DWORD)(newpos>>32), (DWORD)newpos, (DWORD)(This->duration>>32), (DWORD)This->duration);
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return E_INVALIDARG;
}
if (This->position/1000000 == newpos/1000000)
{
TRACE("Requesting position %x%08x same as current position %x%08x\n", (DWORD)(newpos>>32), (DWORD)newpos, (DWORD)(This->position>>32), (DWORD)This->position);
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return S_OK;
}
/* Position, cached */
bytepos = This->seektable[newpos / SEEK_INTERVAL].bytepos;
timepos = This->seektable[newpos / SEEK_INTERVAL].timepos;
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hr = IAsyncReader_SyncRead(pPin->pReader, bytepos, 4, header);
while (bytepos + 3 < This->EndOfFile)
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{
LONGLONG length = 0;
hr = IAsyncReader_SyncRead(pPin->pReader, bytepos, 4, header);
if (hr != S_OK || timepos >= newpos)
break;
while (parse_header(header, &length, &timepos) && bytepos + 3 < This->EndOfFile)
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{
/* No valid header yet; shift by a byte and check again */
memmove(header, header+1, 3);
hr = IAsyncReader_SyncRead(pPin->pReader, ++bytepos, 1, header + 3);
if (hr != S_OK)
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break;
}
bytepos += length;
TRACE("Pos: %x%08x/%x%08x\n", (DWORD)(bytepos >> 32), (DWORD)bytepos, (DWORD)(This->EndOfFile>>32), (DWORD)This->EndOfFile);
}
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if (SUCCEEDED(hr))
{
PullPin *pin = This->Parser.pInputPin;
IPin *victim = NULL;
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TRACE("Moving sound to %08u bytes!\n", (DWORD)bytepos);
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EnterCriticalSection(&pin->thread_lock);
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IPin_BeginFlush((IPin *)pin);
/* Make sure this is done while stopped, BeginFlush takes care of this */
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EnterCriticalSection(&This->Parser.csFilter);
memcpy(This->header, header, 4);
IPin_ConnectedTo(This->Parser.ppPins[1], &victim);
if (victim)
{
IPin_NewSegment(victim, newpos, This->duration, pin->dRate);
IPin_Release(victim);
}
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pin->rtStart = pin->rtCurrent = MEDIATIME_FROM_BYTES(bytepos);
pin->rtStop = MEDIATIME_FROM_BYTES((REFERENCE_TIME)This->EndOfFile);
This->seek = TRUE;
This->position = newpos;
LeaveCriticalSection(&This->Parser.csFilter);
TRACE("Done flushing\n");
IPin_EndFlush((IPin *)pin);
LeaveCriticalSection(&pin->thread_lock);
2008-04-01 23:43:09 +02:00
}
return hr;
}
static HRESULT MPEGSplitter_disconnect(LPVOID iface)
{
/* TODO: Find memory leaks etc */
return S_OK;
}
static HRESULT MPEGSplitter_first_request(LPVOID iface)
{
MPEGSplitterImpl *This = iface;
PullPin *pin = This->Parser.pInputPin;
HRESULT hr;
LONGLONG length;
IMediaSample *sample;
TRACE("Seeking? %d\n", This->seek);
assert(parse_header(This->header, &length, NULL) == S_OK);
if (pin->rtCurrent >= pin->rtStop)
{
/* Last sample has already been queued, request nothing more */
FIXME("Done!\n");
return S_OK;
}
hr = IMemAllocator_GetBuffer(pin->pAlloc, &sample, NULL, NULL, 0);
pin->rtNext = pin->rtCurrent;
if (SUCCEEDED(hr))
{
LONGLONG rtSampleStart = pin->rtNext;
/* Add 4 for the next header, which should hopefully work */
LONGLONG rtSampleStop = rtSampleStart + MEDIATIME_FROM_BYTES(length + 4);
if (rtSampleStop > pin->rtStop)
rtSampleStop = MEDIATIME_FROM_BYTES(ALIGNUP(BYTES_FROM_MEDIATIME(pin->rtStop), pin->cbAlign));
hr = IMediaSample_SetTime(sample, &rtSampleStart, &rtSampleStop);
pin->rtCurrent = pin->rtNext;
pin->rtNext = rtSampleStop;
IMediaSample_SetPreroll(sample, FALSE);
IMediaSample_SetDiscontinuity(sample, This->seek);
IMediaSample_SetSyncPoint(sample, 1);
This->seek = 0;
hr = IAsyncReader_Request(pin->pReader, sample, 0);
}
if (FAILED(hr))
ERR("Horsemen of the apocalypse came to bring error 0x%08x\n", hr);
return hr;
}
static const IBaseFilterVtbl MPEGSplitter_Vtbl =
{
Parser_QueryInterface,
Parser_AddRef,
Parser_Release,
Parser_GetClassID,
Parser_Stop,
Parser_Pause,
Parser_Run,
Parser_GetState,
Parser_SetSyncSource,
Parser_GetSyncSource,
Parser_EnumPins,
Parser_FindPin,
Parser_QueryFilterInfo,
Parser_JoinFilterGraph,
Parser_QueryVendorInfo
};
HRESULT MPEGSplitter_create(IUnknown * pUnkOuter, LPVOID * ppv)
{
MPEGSplitterImpl *This;
HRESULT hr = E_FAIL;
TRACE("(%p, %p)\n", pUnkOuter, ppv);
*ppv = NULL;
if (pUnkOuter)
return CLASS_E_NOAGGREGATION;
This = CoTaskMemAlloc(sizeof(MPEGSplitterImpl));
if (!This)
return E_OUTOFMEMORY;
ZeroMemory(This, sizeof(MPEGSplitterImpl));
This->seektable = CoTaskMemAlloc(sizeof(struct seek_entry) * 64);
if (!This->seektable)
{
CoTaskMemFree(This);
return E_OUTOFMEMORY;
}
This->seek_entries = 64;
hr = Parser_Create(&(This->Parser), &MPEGSplitter_Vtbl, &CLSID_MPEG1Splitter, MPEGSplitter_process_sample, MPEGSplitter_query_accept, MPEGSplitter_pre_connect, MPEGSplitter_cleanup, MPEGSplitter_disconnect, MPEGSplitter_first_request, NULL, NULL, MPEGSplitter_seek, NULL);
if (FAILED(hr))
{
CoTaskMemFree(This);
return hr;
}
This->seek = 1;
/* Note: This memory is managed by the parser filter once created */
*ppv = This;
return hr;
}