libavdevice/dshow_pin.c - manifest_repos/ffmpeg - Git at Google

 /*
  * DirectShow capture interface
  * Copyright (c) 2010 Ramiro Polla
  *
  * This file is part of FFmpeg.
  *
  * FFmpeg 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.
  *
  * FFmpeg 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 FFmpeg; if not, write to the Free Software
  * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
  */

 #include "dshow_capture.h"

 #include <stddef.h>
 #define imemoffset offsetof(libAVPin, imemvtbl)

 DECLARE_QUERYINTERFACE(libAVPin,
     { {&IID_IUnknown,0}, {&IID_IPin,0}, {&IID_IMemInputPin,imemoffset} })
 DECLARE_ADDREF(libAVPin)
 DECLARE_RELEASE(libAVPin)

 long WINAPI
 libAVPin_Connect(libAVPin *this, IPin *pin, const AM_MEDIA_TYPE *type)
 {
     dshowdebug("libAVPin_Connect(%p, %p, %p)\n", this, pin, type);
     /* Input pins receive connections. */
     return S_FALSE;
 }
 long WINAPI
 libAVPin_ReceiveConnection(libAVPin *this, IPin *pin,
                            const AM_MEDIA_TYPE *type)
 {
     enum dshowDeviceType devtype = this->filter->type;
     dshowdebug("libAVPin_ReceiveConnection(%p)\n", this);

     if (!pin)
         return E_POINTER;
     if (this->connectedto)
         return VFW_E_ALREADY_CONNECTED;

     ff_print_AM_MEDIA_TYPE(type);
     if (devtype == VideoDevice) {
         if (!IsEqualGUID(&type->majortype, &MEDIATYPE_Video))
             return VFW_E_TYPE_NOT_ACCEPTED;
     } else {
         if (!IsEqualGUID(&type->majortype, &MEDIATYPE_Audio))
             return VFW_E_TYPE_NOT_ACCEPTED;
     }

     IPin_AddRef(pin);
     this->connectedto = pin;

     ff_copy_dshow_media_type(&this->type, type);

     return S_OK;
 }
 long WINAPI
 libAVPin_Disconnect(libAVPin *this)
 {
     dshowdebug("libAVPin_Disconnect(%p)\n", this);

     if (this->filter->state != State_Stopped)
         return VFW_E_NOT_STOPPED;
     if (!this->connectedto)
         return S_FALSE;
     IPin_Release(this->connectedto);
     this->connectedto = NULL;

     return S_OK;
 }
 long WINAPI
 libAVPin_ConnectedTo(libAVPin *this, IPin **pin)
 {
     dshowdebug("libAVPin_ConnectedTo(%p)\n", this);

     if (!pin)
         return E_POINTER;
     if (!this->connectedto)
         return VFW_E_NOT_CONNECTED;
     IPin_AddRef(this->connectedto);
     *pin = this->connectedto;

     return S_OK;
 }
 long WINAPI
 libAVPin_ConnectionMediaType(libAVPin *this, AM_MEDIA_TYPE *type)
 {
     dshowdebug("libAVPin_ConnectionMediaType(%p)\n", this);

     if (!type)
         return E_POINTER;
     if (!this->connectedto)
         return VFW_E_NOT_CONNECTED;

     return ff_copy_dshow_media_type(type, &this->type);
 }
 long WINAPI
 libAVPin_QueryPinInfo(libAVPin *this, PIN_INFO *info)
 {
     dshowdebug("libAVPin_QueryPinInfo(%p)\n", this);

     if (!info)
         return E_POINTER;

     if (this->filter)
         libAVFilter_AddRef(this->filter);

     info->pFilter = (IBaseFilter *) this->filter;
     info->dir     = PINDIR_INPUT;
     wcscpy(info->achName, L"Capture");

     return S_OK;
 }
 long WINAPI
 libAVPin_QueryDirection(libAVPin *this, PIN_DIRECTION *dir)
 {
     dshowdebug("libAVPin_QueryDirection(%p)\n", this);
     if (!dir)
         return E_POINTER;
     *dir = PINDIR_INPUT;
     return S_OK;
 }
 long WINAPI
 libAVPin_QueryId(libAVPin *this, wchar_t **id)
 {
     dshowdebug("libAVPin_QueryId(%p)\n", this);

     if (!id)
         return E_POINTER;

     *id = wcsdup(L"libAV Pin");

     return S_OK;
 }
 long WINAPI
 libAVPin_QueryAccept(libAVPin *this, const AM_MEDIA_TYPE *type)
 {
     dshowdebug("libAVPin_QueryAccept(%p)\n", this);
     return S_FALSE;
 }
 long WINAPI
 libAVPin_EnumMediaTypes(libAVPin *this, IEnumMediaTypes **enumtypes)
 {
     const AM_MEDIA_TYPE *type = NULL;
     libAVEnumMediaTypes *new;
     dshowdebug("libAVPin_EnumMediaTypes(%p)\n", this);

     if (!enumtypes)
         return E_POINTER;
     new = libAVEnumMediaTypes_Create(type);
     if (!new)
         return E_OUTOFMEMORY;

     *enumtypes = (IEnumMediaTypes *) new;
     return S_OK;
 }
 long WINAPI
 libAVPin_QueryInternalConnections(libAVPin *this, IPin **pin,
                                   unsigned long *npin)
 {
     dshowdebug("libAVPin_QueryInternalConnections(%p)\n", this);
     return E_NOTIMPL;
 }
 long WINAPI
 libAVPin_EndOfStream(libAVPin *this)
 {
     dshowdebug("libAVPin_EndOfStream(%p)\n", this);
     /* I don't care. */
     return S_OK;
 }
 long WINAPI
 libAVPin_BeginFlush(libAVPin *this)
 {
     dshowdebug("libAVPin_BeginFlush(%p)\n", this);
     /* I don't care. */
     return S_OK;
 }
 long WINAPI
 libAVPin_EndFlush(libAVPin *this)
 {
     dshowdebug("libAVPin_EndFlush(%p)\n", this);
     /* I don't care. */
     return S_OK;
 }
 long WINAPI
 libAVPin_NewSegment(libAVPin *this, REFERENCE_TIME start, REFERENCE_TIME stop,
                     double rate)
 {
     dshowdebug("libAVPin_NewSegment(%p)\n", this);
     /* I don't care. */
     return S_OK;
 }

 static int
 libAVPin_Setup(libAVPin *this, libAVFilter *filter)
 {
     IPinVtbl *vtbl = this->vtbl;
     IMemInputPinVtbl *imemvtbl;

     if (!filter)
         return 0;

     imemvtbl = av_malloc(sizeof(IMemInputPinVtbl));
     if (!imemvtbl)
         return 0;

     SETVTBL(imemvtbl, libAVMemInputPin, QueryInterface);
     SETVTBL(imemvtbl, libAVMemInputPin, AddRef);
     SETVTBL(imemvtbl, libAVMemInputPin, Release);
     SETVTBL(imemvtbl, libAVMemInputPin, GetAllocator);
     SETVTBL(imemvtbl, libAVMemInputPin, NotifyAllocator);
     SETVTBL(imemvtbl, libAVMemInputPin, GetAllocatorRequirements);
     SETVTBL(imemvtbl, libAVMemInputPin, Receive);
     SETVTBL(imemvtbl, libAVMemInputPin, ReceiveMultiple);
     SETVTBL(imemvtbl, libAVMemInputPin, ReceiveCanBlock);

     this->imemvtbl = imemvtbl;

     SETVTBL(vtbl, libAVPin, QueryInterface);
     SETVTBL(vtbl, libAVPin, AddRef);
     SETVTBL(vtbl, libAVPin, Release);
     SETVTBL(vtbl, libAVPin, Connect);
     SETVTBL(vtbl, libAVPin, ReceiveConnection);
     SETVTBL(vtbl, libAVPin, Disconnect);
     SETVTBL(vtbl, libAVPin, ConnectedTo);
     SETVTBL(vtbl, libAVPin, ConnectionMediaType);
     SETVTBL(vtbl, libAVPin, QueryPinInfo);
     SETVTBL(vtbl, libAVPin, QueryDirection);
     SETVTBL(vtbl, libAVPin, QueryId);
     SETVTBL(vtbl, libAVPin, QueryAccept);
     SETVTBL(vtbl, libAVPin, EnumMediaTypes);
     SETVTBL(vtbl, libAVPin, QueryInternalConnections);
     SETVTBL(vtbl, libAVPin, EndOfStream);
     SETVTBL(vtbl, libAVPin, BeginFlush);
     SETVTBL(vtbl, libAVPin, EndFlush);
     SETVTBL(vtbl, libAVPin, NewSegment);

     this->filter = filter;

     return 1;
 }

 static void
 libAVPin_Free(libAVPin *this)
 {
     if (!this)
         return;
     av_freep(&this->imemvtbl);
     if (this->type.pbFormat) {
         CoTaskMemFree(this->type.pbFormat);
         this->type.pbFormat = NULL;
     }
 }
 DECLARE_CREATE(libAVPin, libAVPin_Setup(this, filter), libAVFilter *filter)
 DECLARE_DESTROY(libAVPin, libAVPin_Free)

 /*****************************************************************************
  * libAVMemInputPin
  ****************************************************************************/
 long WINAPI
 libAVMemInputPin_QueryInterface(libAVMemInputPin *this, const GUID *riid,
                                 void **ppvObject)
 {
     libAVPin *pin = (libAVPin *) ((uint8_t *) this - imemoffset);
     dshowdebug("libAVMemInputPin_QueryInterface(%p)\n", this);
     return libAVPin_QueryInterface(pin, riid, ppvObject);
 }
 unsigned long WINAPI
 libAVMemInputPin_AddRef(libAVMemInputPin *this)
 {
     libAVPin *pin = (libAVPin *) ((uint8_t *) this - imemoffset);
     dshowdebug("libAVMemInputPin_AddRef(%p)\n", this);
     return libAVPin_AddRef(pin);
 }
 unsigned long WINAPI
 libAVMemInputPin_Release(libAVMemInputPin *this)
 {
     libAVPin *pin = (libAVPin *) ((uint8_t *) this - imemoffset);
     dshowdebug("libAVMemInputPin_Release(%p)\n", this);
     return libAVPin_Release(pin);
 }
 long WINAPI
 libAVMemInputPin_GetAllocator(libAVMemInputPin *this, IMemAllocator **alloc)
 {
     dshowdebug("libAVMemInputPin_GetAllocator(%p)\n", this);
     return VFW_E_NO_ALLOCATOR;
 }
 long WINAPI
 libAVMemInputPin_NotifyAllocator(libAVMemInputPin *this, IMemAllocator *alloc,
                                  BOOL rdwr)
 {
     dshowdebug("libAVMemInputPin_NotifyAllocator(%p)\n", this);
     return S_OK;
 }
 long WINAPI
 libAVMemInputPin_GetAllocatorRequirements(libAVMemInputPin *this,
                                           ALLOCATOR_PROPERTIES *props)
 {
     dshowdebug("libAVMemInputPin_GetAllocatorRequirements(%p)\n", this);
     return E_NOTIMPL;
 }
 long WINAPI
 libAVMemInputPin_Receive(libAVMemInputPin *this, IMediaSample *sample)
 {
     libAVPin *pin = (libAVPin *) ((uint8_t *) this - imemoffset);
     enum dshowDeviceType devtype = pin->filter->type;
     void *priv_data;
     AVFormatContext *s;
     uint8_t *buf;
     int buf_size; /* todo should be a long? */
     int index;
     int64_t curtime;
     int64_t orig_curtime;
     int64_t graphtime;
     const char *devtypename = (devtype == VideoDevice) ? "video" : "audio";
     IReferenceClock *clock = pin->filter->clock;
     int64_t dummy;
     struct dshow_ctx *ctx;


     dshowdebug("libAVMemInputPin_Receive(%p)\n", this);

     if (!sample)
         return E_POINTER;

     IMediaSample_GetTime(sample, &orig_curtime, &dummy);
     orig_curtime += pin->filter->start_time;
     IReferenceClock_GetTime(clock, &graphtime);
     if (devtype == VideoDevice) {
         /* PTS from video devices is unreliable. */
         IReferenceClock_GetTime(clock, &curtime);
     } else {
         IMediaSample_GetTime(sample, &curtime, &dummy);
         if(curtime > 400000000000000000LL) {
             /* initial frames sometimes start < 0 (shown as a very large number here,
                like 437650244077016960 which FFmpeg doesn't like.
                TODO figure out math. For now just drop them. */
             av_log(NULL, AV_LOG_DEBUG,
                 "dshow dropping initial (or ending) audio frame with odd PTS too high %"PRId64"\n", curtime);
             return S_OK;
         }
         curtime += pin->filter->start_time;
     }

     buf_size = IMediaSample_GetActualDataLength(sample);
     IMediaSample_GetPointer(sample, &buf);
     priv_data = pin->filter->priv_data;
     s = priv_data;
     ctx = s->priv_data;
     index = pin->filter->stream_index;

     av_log(NULL, AV_LOG_VERBOSE, "dshow passing through packet of type %s size %8d "
         "timestamp %"PRId64" orig timestamp %"PRId64" graph timestamp %"PRId64" diff %"PRId64" %s\n",
         devtypename, buf_size, curtime, orig_curtime, graphtime, graphtime - orig_curtime, ctx->device_name[devtype]);
     pin->filter->callback(priv_data, index, buf, buf_size, curtime, devtype);

     return S_OK;
 }
 long WINAPI
 libAVMemInputPin_ReceiveMultiple(libAVMemInputPin *this,
                                  IMediaSample **samples, long n, long *nproc)
 {
     int i;
     dshowdebug("libAVMemInputPin_ReceiveMultiple(%p)\n", this);

     for (i = 0; i < n; i++)
         libAVMemInputPin_Receive(this, samples[i]);

     *nproc = n;
     return S_OK;
 }
 long WINAPI
 libAVMemInputPin_ReceiveCanBlock(libAVMemInputPin *this)
 {
     dshowdebug("libAVMemInputPin_ReceiveCanBlock(%p)\n", this);
     /* I swear I will not block. */
     return S_FALSE;
 }

 void
 libAVMemInputPin_Destroy(libAVMemInputPin *this)
 {
     libAVPin *pin = (libAVPin *) ((uint8_t *) this - imemoffset);
     dshowdebug("libAVMemInputPin_Destroy(%p)\n", this);
     libAVPin_Destroy(pin);
 }
	/*
	* DirectShow capture interface
	* Copyright (c) 2010 Ramiro Polla
	*
	* This file is part of FFmpeg.
	*
	* FFmpeg 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.
	*
	* FFmpeg 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 FFmpeg; if not, write to the Free Software
	* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
	*/

	#include "dshow_capture.h"

	#include <stddef.h>
	#define imemoffset offsetof(libAVPin, imemvtbl)

	DECLARE_QUERYINTERFACE(libAVPin,
	{ {&IID_IUnknown,0}, {&IID_IPin,0}, {&IID_IMemInputPin,imemoffset} })
	DECLARE_ADDREF(libAVPin)
	DECLARE_RELEASE(libAVPin)

	long WINAPI
	libAVPin_Connect(libAVPin this, IPin pin, const AM_MEDIA_TYPE *type)
	{
	dshowdebug("libAVPin_Connect(%p, %p, %p)\n", this, pin, type);
	/* Input pins receive connections. */
	return S_FALSE;
	}
	long WINAPI
	libAVPin_ReceiveConnection(libAVPin this, IPin pin,
	const AM_MEDIA_TYPE *type)
	{
	enum dshowDeviceType devtype = this->filter->type;
	dshowdebug("libAVPin_ReceiveConnection(%p)\n", this);

	if (!pin)
	return E_POINTER;
	if (this->connectedto)
	return VFW_E_ALREADY_CONNECTED;

	ff_print_AM_MEDIA_TYPE(type);
	if (devtype == VideoDevice) {
	if (!IsEqualGUID(&type->majortype, &MEDIATYPE_Video))
	return VFW_E_TYPE_NOT_ACCEPTED;
	} else {
	if (!IsEqualGUID(&type->majortype, &MEDIATYPE_Audio))
	return VFW_E_TYPE_NOT_ACCEPTED;
	}

	IPin_AddRef(pin);
	this->connectedto = pin;

	ff_copy_dshow_media_type(&this->type, type);

	return S_OK;
	}
	long WINAPI
	libAVPin_Disconnect(libAVPin *this)
	{
	dshowdebug("libAVPin_Disconnect(%p)\n", this);

	if (this->filter->state != State_Stopped)
	return VFW_E_NOT_STOPPED;
	if (!this->connectedto)
	return S_FALSE;
	IPin_Release(this->connectedto);
	this->connectedto = NULL;

	return S_OK;
	}
	long WINAPI
	libAVPin_ConnectedTo(libAVPin this, IPin *pin)
	{
	dshowdebug("libAVPin_ConnectedTo(%p)\n", this);

	if (!pin)
	return E_POINTER;
	if (!this->connectedto)
	return VFW_E_NOT_CONNECTED;
	IPin_AddRef(this->connectedto);
	*pin = this->connectedto;

	return S_OK;
	}
	long WINAPI
	libAVPin_ConnectionMediaType(libAVPin this, AM_MEDIA_TYPE type)
	{
	dshowdebug("libAVPin_ConnectionMediaType(%p)\n", this);

	if (!type)
	return E_POINTER;
	if (!this->connectedto)
	return VFW_E_NOT_CONNECTED;

	return ff_copy_dshow_media_type(type, &this->type);
	}
	long WINAPI
	libAVPin_QueryPinInfo(libAVPin this, PIN_INFO info)
	{
	dshowdebug("libAVPin_QueryPinInfo(%p)\n", this);

	if (!info)
	return E_POINTER;

	if (this->filter)
	libAVFilter_AddRef(this->filter);

	info->pFilter = (IBaseFilter *) this->filter;
	info->dir = PINDIR_INPUT;
	wcscpy(info->achName, L"Capture");

	return S_OK;
	}
	long WINAPI
	libAVPin_QueryDirection(libAVPin this, PIN_DIRECTION dir)
	{
	dshowdebug("libAVPin_QueryDirection(%p)\n", this);
	if (!dir)
	return E_POINTER;
	*dir = PINDIR_INPUT;
	return S_OK;
	}
	long WINAPI
	libAVPin_QueryId(libAVPin this, wchar_t *id)
	{
	dshowdebug("libAVPin_QueryId(%p)\n", this);

	if (!id)
	return E_POINTER;

	*id = wcsdup(L"libAV Pin");

	return S_OK;
	}
	long WINAPI
	libAVPin_QueryAccept(libAVPin this, const AM_MEDIA_TYPE type)
	{
	dshowdebug("libAVPin_QueryAccept(%p)\n", this);
	return S_FALSE;
	}
	long WINAPI
	libAVPin_EnumMediaTypes(libAVPin this, IEnumMediaTypes *enumtypes)
	{
	const AM_MEDIA_TYPE *type = NULL;
	libAVEnumMediaTypes *new;
	dshowdebug("libAVPin_EnumMediaTypes(%p)\n", this);

	if (!enumtypes)
	return E_POINTER;
	new = libAVEnumMediaTypes_Create(type);
	if (!new)
	return E_OUTOFMEMORY;

	enumtypes = (IEnumMediaTypes ) new;
	return S_OK;
	}
	long WINAPI
	libAVPin_QueryInternalConnections(libAVPin this, IPin *pin,
	unsigned long *npin)
	{
	dshowdebug("libAVPin_QueryInternalConnections(%p)\n", this);
	return E_NOTIMPL;
	}
	long WINAPI
	libAVPin_EndOfStream(libAVPin *this)
	{
	dshowdebug("libAVPin_EndOfStream(%p)\n", this);
	/* I don't care. */
	return S_OK;
	}
	long WINAPI
	libAVPin_BeginFlush(libAVPin *this)
	{
	dshowdebug("libAVPin_BeginFlush(%p)\n", this);
	/* I don't care. */
	return S_OK;
	}
	long WINAPI
	libAVPin_EndFlush(libAVPin *this)
	{
	dshowdebug("libAVPin_EndFlush(%p)\n", this);
	/* I don't care. */
	return S_OK;
	}
	long WINAPI
	libAVPin_NewSegment(libAVPin *this, REFERENCE_TIME start, REFERENCE_TIME stop,
	double rate)
	{
	dshowdebug("libAVPin_NewSegment(%p)\n", this);
	/* I don't care. */
	return S_OK;
	}

	static int
	libAVPin_Setup(libAVPin this, libAVFilter filter)
	{
	IPinVtbl *vtbl = this->vtbl;
	IMemInputPinVtbl *imemvtbl;

	if (!filter)
	return 0;

	imemvtbl = av_malloc(sizeof(IMemInputPinVtbl));
	if (!imemvtbl)
	return 0;

	SETVTBL(imemvtbl, libAVMemInputPin, QueryInterface);
	SETVTBL(imemvtbl, libAVMemInputPin, AddRef);
	SETVTBL(imemvtbl, libAVMemInputPin, Release);
	SETVTBL(imemvtbl, libAVMemInputPin, GetAllocator);
	SETVTBL(imemvtbl, libAVMemInputPin, NotifyAllocator);
	SETVTBL(imemvtbl, libAVMemInputPin, GetAllocatorRequirements);
	SETVTBL(imemvtbl, libAVMemInputPin, Receive);
	SETVTBL(imemvtbl, libAVMemInputPin, ReceiveMultiple);
	SETVTBL(imemvtbl, libAVMemInputPin, ReceiveCanBlock);

	this->imemvtbl = imemvtbl;

	SETVTBL(vtbl, libAVPin, QueryInterface);
	SETVTBL(vtbl, libAVPin, AddRef);
	SETVTBL(vtbl, libAVPin, Release);
	SETVTBL(vtbl, libAVPin, Connect);
	SETVTBL(vtbl, libAVPin, ReceiveConnection);
	SETVTBL(vtbl, libAVPin, Disconnect);
	SETVTBL(vtbl, libAVPin, ConnectedTo);
	SETVTBL(vtbl, libAVPin, ConnectionMediaType);
	SETVTBL(vtbl, libAVPin, QueryPinInfo);
	SETVTBL(vtbl, libAVPin, QueryDirection);
	SETVTBL(vtbl, libAVPin, QueryId);
	SETVTBL(vtbl, libAVPin, QueryAccept);
	SETVTBL(vtbl, libAVPin, EnumMediaTypes);
	SETVTBL(vtbl, libAVPin, QueryInternalConnections);
	SETVTBL(vtbl, libAVPin, EndOfStream);
	SETVTBL(vtbl, libAVPin, BeginFlush);
	SETVTBL(vtbl, libAVPin, EndFlush);
	SETVTBL(vtbl, libAVPin, NewSegment);

	this->filter = filter;

	return 1;
	}

	static void
	libAVPin_Free(libAVPin *this)
	{
	if (!this)
	return;
	av_freep(&this->imemvtbl);
	if (this->type.pbFormat) {
	CoTaskMemFree(this->type.pbFormat);
	this->type.pbFormat = NULL;
	}
	}
	DECLARE_CREATE(libAVPin, libAVPin_Setup(this, filter), libAVFilter *filter)
	DECLARE_DESTROY(libAVPin, libAVPin_Free)

	/*****************************************************************************
	* libAVMemInputPin
	****************************************************************************/
	long WINAPI
	libAVMemInputPin_QueryInterface(libAVMemInputPin this, const GUID riid,
	void **ppvObject)
	{
	libAVPin pin = (libAVPin ) ((uint8_t *) this - imemoffset);
	dshowdebug("libAVMemInputPin_QueryInterface(%p)\n", this);
	return libAVPin_QueryInterface(pin, riid, ppvObject);
	}
	unsigned long WINAPI
	libAVMemInputPin_AddRef(libAVMemInputPin *this)
	{
	libAVPin pin = (libAVPin ) ((uint8_t *) this - imemoffset);
	dshowdebug("libAVMemInputPin_AddRef(%p)\n", this);
	return libAVPin_AddRef(pin);
	}
	unsigned long WINAPI
	libAVMemInputPin_Release(libAVMemInputPin *this)
	{
	libAVPin pin = (libAVPin ) ((uint8_t *) this - imemoffset);
	dshowdebug("libAVMemInputPin_Release(%p)\n", this);
	return libAVPin_Release(pin);
	}
	long WINAPI
	libAVMemInputPin_GetAllocator(libAVMemInputPin this, IMemAllocator *alloc)
	{
	dshowdebug("libAVMemInputPin_GetAllocator(%p)\n", this);
	return VFW_E_NO_ALLOCATOR;
	}
	long WINAPI
	libAVMemInputPin_NotifyAllocator(libAVMemInputPin this, IMemAllocator alloc,
	BOOL rdwr)
	{
	dshowdebug("libAVMemInputPin_NotifyAllocator(%p)\n", this);
	return S_OK;
	}
	long WINAPI
	libAVMemInputPin_GetAllocatorRequirements(libAVMemInputPin *this,
	ALLOCATOR_PROPERTIES *props)
	{
	dshowdebug("libAVMemInputPin_GetAllocatorRequirements(%p)\n", this);
	return E_NOTIMPL;
	}
	long WINAPI
	libAVMemInputPin_Receive(libAVMemInputPin this, IMediaSample sample)
	{
	libAVPin pin = (libAVPin ) ((uint8_t *) this - imemoffset);
	enum dshowDeviceType devtype = pin->filter->type;
	void *priv_data;
	AVFormatContext *s;
	uint8_t *buf;
	int buf_size; /* todo should be a long? */
	int index;
	int64_t curtime;
	int64_t orig_curtime;
	int64_t graphtime;
	const char *devtypename = (devtype == VideoDevice) ? "video" : "audio";
	IReferenceClock *clock = pin->filter->clock;
	int64_t dummy;
	struct dshow_ctx *ctx;


	dshowdebug("libAVMemInputPin_Receive(%p)\n", this);

	if (!sample)
	return E_POINTER;

	IMediaSample_GetTime(sample, &orig_curtime, &dummy);
	orig_curtime += pin->filter->start_time;
	IReferenceClock_GetTime(clock, &graphtime);
	if (devtype == VideoDevice) {
	/* PTS from video devices is unreliable. */
	IReferenceClock_GetTime(clock, &curtime);
	} else {
	IMediaSample_GetTime(sample, &curtime, &dummy);
	if(curtime > 400000000000000000LL) {
	/* initial frames sometimes start < 0 (shown as a very large number here,
	like 437650244077016960 which FFmpeg doesn't like.
	TODO figure out math. For now just drop them. */
	av_log(NULL, AV_LOG_DEBUG,
	"dshow dropping initial (or ending) audio frame with odd PTS too high %"PRId64"\n", curtime);
	return S_OK;
	}
	curtime += pin->filter->start_time;
	}

	buf_size = IMediaSample_GetActualDataLength(sample);
	IMediaSample_GetPointer(sample, &buf);
	priv_data = pin->filter->priv_data;
	s = priv_data;
	ctx = s->priv_data;
	index = pin->filter->stream_index;

	av_log(NULL, AV_LOG_VERBOSE, "dshow passing through packet of type %s size %8d "
	"timestamp %"PRId64" orig timestamp %"PRId64" graph timestamp %"PRId64" diff %"PRId64" %s\n",
	devtypename, buf_size, curtime, orig_curtime, graphtime, graphtime - orig_curtime, ctx->device_name[devtype]);
	pin->filter->callback(priv_data, index, buf, buf_size, curtime, devtype);

	return S_OK;
	}
	long WINAPI
	libAVMemInputPin_ReceiveMultiple(libAVMemInputPin *this,
	IMediaSample *samples, long n, long nproc)
	{
	int i;
	dshowdebug("libAVMemInputPin_ReceiveMultiple(%p)\n", this);

	for (i = 0; i < n; i++)
	libAVMemInputPin_Receive(this, samples[i]);

	*nproc = n;
	return S_OK;
	}
	long WINAPI
	libAVMemInputPin_ReceiveCanBlock(libAVMemInputPin *this)
	{
	dshowdebug("libAVMemInputPin_ReceiveCanBlock(%p)\n", this);
	/* I swear I will not block. */
	return S_FALSE;
	}

	void
	libAVMemInputPin_Destroy(libAVMemInputPin *this)
	{
	libAVPin pin = (libAVPin ) ((uint8_t *) this - imemoffset);
	dshowdebug("libAVMemInputPin_Destroy(%p)\n", this);
	libAVPin_Destroy(pin);
	}