/* * Generic Implementation of IPin Interface * * Copyright 2003 Robert Shearman * Copyright 2010 Aric Stewart, CodeWeavers * * 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 "strmbase_private.h" WINE_DEFAULT_DEBUG_CHANNEL(strmbase); static const IMemInputPinVtbl MemInputPin_Vtbl; typedef HRESULT (*SendPinFunc)( IPin *to, LPVOID arg ); static inline struct strmbase_pin *impl_from_IPin(IPin *iface) { return CONTAINING_RECORD(iface, struct strmbase_pin, IPin_iface); } /** Helper function, there are a lot of places where the error code is inherited * The following rules apply: * * Return the first received error code (E_NOTIMPL is ignored) * If no errors occur: return the first received non-error-code that isn't S_OK */ static HRESULT updatehres( HRESULT original, HRESULT new ) { if (FAILED( original ) || new == E_NOTIMPL) return original; if (FAILED( new ) || original == S_OK) return new; return original; } /** Sends a message from a pin further to other, similar pins * fnMiddle is called on each pin found further on the stream. * fnEnd (can be NULL) is called when the message can't be sent any further (this is a renderer or source) * * If the pin given is an input pin, the message will be sent downstream to other input pins * If the pin given is an output pin, the message will be sent upstream to other output pins */ static HRESULT SendFurther(struct strmbase_sink *sink, SendPinFunc func, void *arg) { struct strmbase_pin *pin; HRESULT hr = S_OK; unsigned int i; for (i = 0; (pin = sink->pin.filter->ops->filter_get_pin(sink->pin.filter, i)); ++i) { if (pin->dir == PINDIR_OUTPUT && pin->peer) hr = updatehres(hr, func(pin->peer, arg)); } return hr; } static BOOL CompareMediaTypes(const AM_MEDIA_TYPE * pmt1, const AM_MEDIA_TYPE * pmt2, BOOL bWildcards) { return (((bWildcards && (IsEqualGUID(&pmt1->majortype, &GUID_NULL) || IsEqualGUID(&pmt2->majortype, &GUID_NULL))) || IsEqualGUID(&pmt1->majortype, &pmt2->majortype)) && ((bWildcards && (IsEqualGUID(&pmt1->subtype, &GUID_NULL) || IsEqualGUID(&pmt2->subtype, &GUID_NULL))) || IsEqualGUID(&pmt1->subtype, &pmt2->subtype))); } HRESULT strmbase_pin_get_media_type(struct strmbase_pin *iface, unsigned int index, AM_MEDIA_TYPE *mt) { return VFW_S_NO_MORE_ITEMS; } HRESULT WINAPI BasePinImpl_QueryInterface(IPin *iface, REFIID iid, void **out) { struct strmbase_pin *pin = impl_from_IPin(iface); HRESULT hr; TRACE("iface %p, iid %s, out %p.\n", iface, debugstr_guid(iid), out); *out = NULL; if (pin->pFuncsTable->pin_query_interface && SUCCEEDED(hr = pin->pFuncsTable->pin_query_interface(pin, iid, out))) return hr; if (IsEqualIID(iid, &IID_IUnknown) || IsEqualIID(iid, &IID_IPin)) *out = iface; else { WARN("%s not implemented, returning E_NOINTERFACE.\n", debugstr_guid(iid)); return E_NOINTERFACE; } IUnknown_AddRef((IUnknown *)*out); return S_OK; } ULONG WINAPI BasePinImpl_AddRef(IPin *iface) { struct strmbase_pin *pin = impl_from_IPin(iface); return IBaseFilter_AddRef(&pin->filter->IBaseFilter_iface); } ULONG WINAPI BasePinImpl_Release(IPin *iface) { struct strmbase_pin *pin = impl_from_IPin(iface); return IBaseFilter_Release(&pin->filter->IBaseFilter_iface); } HRESULT WINAPI BasePinImpl_Disconnect(IPin * iface) { struct strmbase_pin *This = impl_from_IPin(iface); HRESULT hr; TRACE("(%p)->()\n", This); EnterCriticalSection(&This->filter->csFilter); { if (This->peer) { IPin_Release(This->peer); This->peer = NULL; FreeMediaType(&This->mt); ZeroMemory(&This->mt, sizeof(This->mt)); hr = S_OK; } else hr = S_FALSE; } LeaveCriticalSection(&This->filter->csFilter); return hr; } HRESULT WINAPI BasePinImpl_ConnectedTo(IPin * iface, IPin ** ppPin) { struct strmbase_pin *This = impl_from_IPin(iface); HRESULT hr; TRACE("(%p)->(%p)\n", This, ppPin); EnterCriticalSection(&This->filter->csFilter); { if (This->peer) { *ppPin = This->peer; IPin_AddRef(*ppPin); hr = S_OK; } else { hr = VFW_E_NOT_CONNECTED; *ppPin = NULL; } } LeaveCriticalSection(&This->filter->csFilter); return hr; } HRESULT WINAPI BasePinImpl_ConnectionMediaType(IPin * iface, AM_MEDIA_TYPE * pmt) { struct strmbase_pin *This = impl_from_IPin(iface); HRESULT hr; TRACE("(%p)->(%p)\n", This, pmt); EnterCriticalSection(&This->filter->csFilter); { if (This->peer) { CopyMediaType(pmt, &This->mt); strmbase_dump_media_type(pmt); hr = S_OK; } else { ZeroMemory(pmt, sizeof(*pmt)); hr = VFW_E_NOT_CONNECTED; } } LeaveCriticalSection(&This->filter->csFilter); return hr; } HRESULT WINAPI BasePinImpl_QueryPinInfo(IPin *iface, PIN_INFO *info) { struct strmbase_pin *pin = impl_from_IPin(iface); TRACE("pin %p, info %p.\n", pin, info); info->dir = pin->dir; IBaseFilter_AddRef(info->pFilter = &pin->filter->IBaseFilter_iface); lstrcpyW(info->achName, pin->name); return S_OK; } HRESULT WINAPI BasePinImpl_QueryDirection(IPin *iface, PIN_DIRECTION *dir) { struct strmbase_pin *pin = impl_from_IPin(iface); TRACE("pin %p, dir %p.\n", pin, dir); *dir = pin->dir; return S_OK; } HRESULT WINAPI BasePinImpl_QueryId(IPin *iface, WCHAR **id) { struct strmbase_pin *pin = impl_from_IPin(iface); TRACE("pin %p, id %p.\n", pin, id); if (!(*id = CoTaskMemAlloc((lstrlenW(pin->name) + 1) * sizeof(WCHAR)))) return E_OUTOFMEMORY; lstrcpyW(*id, pin->name); return S_OK; } HRESULT WINAPI BasePinImpl_QueryAccept(IPin * iface, const AM_MEDIA_TYPE * pmt) { struct strmbase_pin *This = impl_from_IPin(iface); TRACE("(%p)->(%p)\n", iface, pmt); strmbase_dump_media_type(pmt); return (This->pFuncsTable->pin_query_accept(This, pmt) == S_OK ? S_OK : S_FALSE); } HRESULT WINAPI BasePinImpl_EnumMediaTypes(IPin *iface, IEnumMediaTypes **enum_media_types) { struct strmbase_pin *pin = impl_from_IPin(iface); AM_MEDIA_TYPE mt; HRESULT hr; TRACE("iface %p, enum_media_types %p.\n", iface, enum_media_types); if (FAILED(hr = pin->pFuncsTable->pin_get_media_type(pin, 0, &mt))) return hr; if (hr == S_OK) FreeMediaType(&mt); return enum_media_types_create(pin, enum_media_types); } HRESULT WINAPI BasePinImpl_QueryInternalConnections(IPin * iface, IPin ** apPin, ULONG * cPin) { struct strmbase_pin *This = impl_from_IPin(iface); TRACE("(%p)->(%p, %p)\n", This, apPin, cPin); return E_NOTIMPL; /* to tell caller that all input pins connected to all output pins */ } HRESULT WINAPI BasePinImpl_NewSegment(IPin * iface, REFERENCE_TIME start, REFERENCE_TIME stop, double rate) { TRACE("iface %p, start %s, stop %s, rate %.16e.\n", iface, debugstr_time(start), debugstr_time(stop), rate); return S_OK; } /*** OutputPin implementation ***/ static inline struct strmbase_source *impl_source_from_IPin( IPin *iface ) { return CONTAINING_RECORD(iface, struct strmbase_source, pin.IPin_iface); } HRESULT WINAPI BaseOutputPinImpl_Connect(IPin * iface, IPin * pReceivePin, const AM_MEDIA_TYPE * pmt) { HRESULT hr; struct strmbase_source *This = impl_source_from_IPin(iface); TRACE("(%p)->(%p, %p)\n", This, pReceivePin, pmt); strmbase_dump_media_type(pmt); if (!pReceivePin) return E_POINTER; /* If we try to connect to ourselves, we will definitely deadlock. * There are other cases where we could deadlock too, but this * catches the obvious case */ assert(pReceivePin != iface); EnterCriticalSection(&This->pin.filter->csFilter); { if (This->pin.filter->state != State_Stopped) { LeaveCriticalSection(&This->pin.filter->csFilter); WARN("Filter is not stopped; returning VFW_E_NOT_STOPPED.\n"); return VFW_E_NOT_STOPPED; } /* if we have been a specific type to connect with, then we can either connect * with that or fail. We cannot choose different AM_MEDIA_TYPE */ if (pmt && !IsEqualGUID(&pmt->majortype, &GUID_NULL) && !IsEqualGUID(&pmt->subtype, &GUID_NULL)) hr = This->pFuncsTable->pfnAttemptConnection(This, pReceivePin, pmt); else { /* negotiate media type */ IEnumMediaTypes * pEnumCandidates; AM_MEDIA_TYPE * pmtCandidate = NULL; /* Candidate media type */ if (SUCCEEDED(hr = IPin_EnumMediaTypes(iface, &pEnumCandidates))) { hr = VFW_E_NO_ACCEPTABLE_TYPES; /* Assume the worst, but set to S_OK if connected successfully */ /* try this filter's media types first */ while (S_OK == IEnumMediaTypes_Next(pEnumCandidates, 1, &pmtCandidate, NULL)) { assert(pmtCandidate); if (!IsEqualGUID(&FORMAT_None, &pmtCandidate->formattype) && !IsEqualGUID(&GUID_NULL, &pmtCandidate->formattype)) assert(pmtCandidate->pbFormat); if ((!pmt || CompareMediaTypes(pmt, pmtCandidate, TRUE)) && This->pFuncsTable->pfnAttemptConnection(This, pReceivePin, pmtCandidate) == S_OK) { hr = S_OK; DeleteMediaType(pmtCandidate); break; } DeleteMediaType(pmtCandidate); pmtCandidate = NULL; } IEnumMediaTypes_Release(pEnumCandidates); } /* then try receiver filter's media types */ if (hr != S_OK && SUCCEEDED(hr = IPin_EnumMediaTypes(pReceivePin, &pEnumCandidates))) /* if we haven't already connected successfully */ { ULONG fetched; hr = VFW_E_NO_ACCEPTABLE_TYPES; /* Assume the worst, but set to S_OK if connected successfully */ while (S_OK == IEnumMediaTypes_Next(pEnumCandidates, 1, &pmtCandidate, &fetched)) { assert(pmtCandidate); strmbase_dump_media_type(pmtCandidate); if ((!pmt || CompareMediaTypes(pmt, pmtCandidate, TRUE)) && This->pFuncsTable->pfnAttemptConnection(This, pReceivePin, pmtCandidate) == S_OK) { hr = S_OK; DeleteMediaType(pmtCandidate); break; } DeleteMediaType(pmtCandidate); pmtCandidate = NULL; } /* while */ IEnumMediaTypes_Release(pEnumCandidates); } /* if not found */ } /* if negotiate media type */ } /* if succeeded */ LeaveCriticalSection(&This->pin.filter->csFilter); TRACE(" -- %x\n", hr); return hr; } HRESULT WINAPI BaseOutputPinImpl_ReceiveConnection(IPin *iface, IPin *pin, const AM_MEDIA_TYPE *pmt) { ERR("(%p)->(%p, %p) incoming connection on an output pin!\n", iface, pin, pmt); return E_UNEXPECTED; } HRESULT WINAPI BaseOutputPinImpl_Disconnect(IPin * iface) { HRESULT hr; struct strmbase_source *This = impl_source_from_IPin(iface); TRACE("(%p)->()\n", This); EnterCriticalSection(&This->pin.filter->csFilter); { if (This->pin.filter->state != State_Stopped) { LeaveCriticalSection(&This->pin.filter->csFilter); WARN("Filter is not stopped; returning VFW_E_NOT_STOPPED.\n"); return VFW_E_NOT_STOPPED; } if (This->pMemInputPin) { IMemInputPin_Release(This->pMemInputPin); This->pMemInputPin = NULL; } if (This->pin.peer) { IPin_Release(This->pin.peer); This->pin.peer = NULL; FreeMediaType(&This->pin.mt); ZeroMemory(&This->pin.mt, sizeof(This->pin.mt)); hr = S_OK; } else hr = S_FALSE; } LeaveCriticalSection(&This->pin.filter->csFilter); return hr; } HRESULT WINAPI BaseOutputPinImpl_EndOfStream(IPin * iface) { TRACE("(%p)->()\n", iface); /* not supposed to do anything in an output pin */ return E_UNEXPECTED; } HRESULT WINAPI BaseOutputPinImpl_BeginFlush(IPin * iface) { TRACE("(%p)->()\n", iface); /* not supposed to do anything in an output pin */ return E_UNEXPECTED; } HRESULT WINAPI BaseOutputPinImpl_EndFlush(IPin * iface) { TRACE("(%p)->()\n", iface); /* not supposed to do anything in an output pin */ return E_UNEXPECTED; } HRESULT WINAPI BaseOutputPinImpl_GetDeliveryBuffer(struct strmbase_source *This, IMediaSample **ppSample, REFERENCE_TIME *tStart, REFERENCE_TIME *tStop, DWORD dwFlags) { HRESULT hr; TRACE("(%p)->(%p, %p, %p, %x)\n", This, ppSample, tStart, tStop, dwFlags); if (!This->pin.peer) hr = VFW_E_NOT_CONNECTED; else { hr = IMemAllocator_GetBuffer(This->pAllocator, ppSample, tStart, tStop, dwFlags); if (SUCCEEDED(hr)) hr = IMediaSample_SetTime(*ppSample, tStart, tStop); } return hr; } /* replaces OutputPin_CommitAllocator */ HRESULT WINAPI BaseOutputPinImpl_Active(struct strmbase_source *This) { HRESULT hr; TRACE("(%p)->()\n", This); EnterCriticalSection(&This->pin.filter->csFilter); { if (!This->pin.peer || !This->pMemInputPin) hr = VFW_E_NOT_CONNECTED; else hr = IMemAllocator_Commit(This->pAllocator); } LeaveCriticalSection(&This->pin.filter->csFilter); TRACE("--> %08x\n", hr); return hr; } /* replaces OutputPin_DecommitAllocator */ HRESULT WINAPI BaseOutputPinImpl_Inactive(struct strmbase_source *This) { HRESULT hr; TRACE("(%p)->()\n", This); EnterCriticalSection(&This->pin.filter->csFilter); { if (!This->pin.peer || !This->pMemInputPin) hr = VFW_E_NOT_CONNECTED; else hr = IMemAllocator_Decommit(This->pAllocator); } LeaveCriticalSection(&This->pin.filter->csFilter); TRACE("--> %08x\n", hr); return hr; } HRESULT WINAPI BaseOutputPinImpl_InitAllocator(struct strmbase_source *This, IMemAllocator **pMemAlloc) { return CoCreateInstance(&CLSID_MemoryAllocator, NULL, CLSCTX_INPROC_SERVER, &IID_IMemAllocator, (LPVOID*)pMemAlloc); } HRESULT WINAPI BaseOutputPinImpl_DecideAllocator(struct strmbase_source *This, IMemInputPin *pPin, IMemAllocator **pAlloc) { HRESULT hr; hr = IMemInputPin_GetAllocator(pPin, pAlloc); if (hr == VFW_E_NO_ALLOCATOR) /* Input pin provides no allocator, use standard memory allocator */ hr = BaseOutputPinImpl_InitAllocator(This, pAlloc); if (SUCCEEDED(hr)) { ALLOCATOR_PROPERTIES rProps; ZeroMemory(&rProps, sizeof(ALLOCATOR_PROPERTIES)); IMemInputPin_GetAllocatorRequirements(pPin, &rProps); hr = This->pFuncsTable->pfnDecideBufferSize(This, *pAlloc, &rProps); } if (SUCCEEDED(hr)) hr = IMemInputPin_NotifyAllocator(pPin, *pAlloc, FALSE); return hr; } /*** The Construct functions ***/ /* Function called as a helper to IPin_Connect */ /* specific AM_MEDIA_TYPE - it cannot be NULL */ HRESULT WINAPI BaseOutputPinImpl_AttemptConnection(struct strmbase_source *This, IPin *pReceivePin, const AM_MEDIA_TYPE *pmt) { HRESULT hr; IMemAllocator * pMemAlloc = NULL; TRACE("(%p)->(%p, %p)\n", This, pReceivePin, pmt); if ((hr = This->pFuncsTable->base.pin_query_accept(&This->pin, pmt)) != S_OK) return hr; This->pin.peer = pReceivePin; IPin_AddRef(pReceivePin); CopyMediaType(&This->pin.mt, pmt); hr = IPin_ReceiveConnection(pReceivePin, &This->pin.IPin_iface, pmt); /* get the IMemInputPin interface we will use to deliver samples to the * connected pin */ if (SUCCEEDED(hr)) { This->pMemInputPin = NULL; hr = IPin_QueryInterface(pReceivePin, &IID_IMemInputPin, (LPVOID)&This->pMemInputPin); if (SUCCEEDED(hr)) { hr = This->pFuncsTable->pfnDecideAllocator(This, This->pMemInputPin, &pMemAlloc); if (SUCCEEDED(hr)) This->pAllocator = pMemAlloc; else if (pMemAlloc) IMemAllocator_Release(pMemAlloc); } /* break connection if we couldn't get the allocator */ if (FAILED(hr)) { if (This->pMemInputPin) IMemInputPin_Release(This->pMemInputPin); This->pMemInputPin = NULL; IPin_Disconnect(pReceivePin); } } if (FAILED(hr)) { IPin_Release(This->pin.peer); This->pin.peer = NULL; FreeMediaType(&This->pin.mt); } TRACE(" -- %x\n", hr); return hr; } void strmbase_source_init(struct strmbase_source *pin, const IPinVtbl *vtbl, struct strmbase_filter *filter, const WCHAR *name, const struct strmbase_source_ops *func_table) { memset(pin, 0, sizeof(*pin)); pin->pin.IPin_iface.lpVtbl = vtbl; pin->pin.filter = filter; pin->pin.dir = PINDIR_OUTPUT; lstrcpyW(pin->pin.name, name); pin->pin.pFuncsTable = &func_table->base; pin->pFuncsTable = func_table; } void strmbase_source_cleanup(struct strmbase_source *pin) { FreeMediaType(&pin->pin.mt); if (pin->pAllocator) IMemAllocator_Release(pin->pAllocator); pin->pAllocator = NULL; } static struct strmbase_sink *impl_sink_from_IPin(IPin *iface) { return CONTAINING_RECORD(iface, struct strmbase_sink, pin.IPin_iface); } HRESULT WINAPI BaseInputPinImpl_Connect(IPin *iface, IPin *pin, const AM_MEDIA_TYPE *pmt) { ERR("(%p)->(%p, %p) outgoing connection on an input pin!\n", iface, pin, pmt); return E_UNEXPECTED; } HRESULT WINAPI BaseInputPinImpl_ReceiveConnection(IPin * iface, IPin * pReceivePin, const AM_MEDIA_TYPE * pmt) { struct strmbase_sink *This = impl_sink_from_IPin(iface); PIN_DIRECTION pindirReceive; HRESULT hr = S_OK; TRACE("(%p)->(%p, %p)\n", This, pReceivePin, pmt); strmbase_dump_media_type(pmt); EnterCriticalSection(&This->pin.filter->csFilter); { if (This->pin.filter->state != State_Stopped) { LeaveCriticalSection(&This->pin.filter->csFilter); WARN("Filter is not stopped; returning VFW_E_NOT_STOPPED.\n"); return VFW_E_NOT_STOPPED; } if (This->pin.peer) hr = VFW_E_ALREADY_CONNECTED; if (SUCCEEDED(hr) && This->pin.pFuncsTable->pin_query_accept(&This->pin, pmt) != S_OK) hr = VFW_E_TYPE_NOT_ACCEPTED; /* FIXME: shouldn't we just map common errors onto * VFW_E_TYPE_NOT_ACCEPTED and pass the value on otherwise? */ if (SUCCEEDED(hr)) { IPin_QueryDirection(pReceivePin, &pindirReceive); if (pindirReceive != PINDIR_OUTPUT) { ERR("Can't connect from non-output pin\n"); hr = VFW_E_INVALID_DIRECTION; } } if (SUCCEEDED(hr)) { CopyMediaType(&This->pin.mt, pmt); This->pin.peer = pReceivePin; IPin_AddRef(pReceivePin); } } LeaveCriticalSection(&This->pin.filter->csFilter); return hr; } static HRESULT deliver_endofstream(IPin* pin, LPVOID unused) { return IPin_EndOfStream( pin ); } HRESULT WINAPI BaseInputPinImpl_EndOfStream(IPin * iface) { struct strmbase_sink *This = impl_sink_from_IPin(iface); HRESULT hr = S_OK; TRACE("(%p)->()\n", This); EnterCriticalSection(&This->pin.filter->csFilter); if (This->flushing) hr = S_FALSE; LeaveCriticalSection(&This->pin.filter->csFilter); if (hr == S_OK) hr = SendFurther(This, deliver_endofstream, NULL); return hr; } static HRESULT deliver_beginflush(IPin* pin, LPVOID unused) { return IPin_BeginFlush( pin ); } HRESULT WINAPI BaseInputPinImpl_BeginFlush(IPin * iface) { struct strmbase_sink *This = impl_sink_from_IPin(iface); HRESULT hr; TRACE("(%p) semi-stub\n", This); EnterCriticalSection(&This->pin.filter->csFilter); This->flushing = TRUE; hr = SendFurther(This, deliver_beginflush, NULL); LeaveCriticalSection(&This->pin.filter->csFilter); return hr; } static HRESULT deliver_endflush(IPin* pin, LPVOID unused) { return IPin_EndFlush( pin ); } HRESULT WINAPI BaseInputPinImpl_EndFlush(IPin * iface) { struct strmbase_sink *This = impl_sink_from_IPin(iface); HRESULT hr; TRACE("(%p)->()\n", This); EnterCriticalSection(&This->pin.filter->csFilter); This->flushing = FALSE; hr = SendFurther(This, deliver_endflush, NULL); LeaveCriticalSection(&This->pin.filter->csFilter); return hr; } typedef struct newsegmentargs { REFERENCE_TIME tStart, tStop; double rate; } newsegmentargs; static HRESULT deliver_newsegment(IPin *pin, LPVOID data) { newsegmentargs *args = data; return IPin_NewSegment(pin, args->tStart, args->tStop, args->rate); } HRESULT WINAPI BaseInputPinImpl_NewSegment(IPin * iface, REFERENCE_TIME start, REFERENCE_TIME stop, double rate) { struct strmbase_sink *pin = impl_sink_from_IPin(iface); newsegmentargs args; TRACE("iface %p, start %s, stop %s, rate %.16e.\n", iface, debugstr_time(start), debugstr_time(stop), rate); args.tStart = start; args.tStop = stop; args.rate = rate; return SendFurther(pin, deliver_newsegment, &args); } /*** IMemInputPin implementation ***/ static inline struct strmbase_sink *impl_from_IMemInputPin(IMemInputPin *iface) { return CONTAINING_RECORD(iface, struct strmbase_sink, IMemInputPin_iface); } static HRESULT WINAPI MemInputPin_QueryInterface(IMemInputPin * iface, REFIID riid, LPVOID * ppv) { struct strmbase_sink *This = impl_from_IMemInputPin(iface); return IPin_QueryInterface(&This->pin.IPin_iface, riid, ppv); } static ULONG WINAPI MemInputPin_AddRef(IMemInputPin * iface) { struct strmbase_sink *This = impl_from_IMemInputPin(iface); return IPin_AddRef(&This->pin.IPin_iface); } static ULONG WINAPI MemInputPin_Release(IMemInputPin * iface) { struct strmbase_sink *This = impl_from_IMemInputPin(iface); return IPin_Release(&This->pin.IPin_iface); } static HRESULT WINAPI MemInputPin_GetAllocator(IMemInputPin * iface, IMemAllocator ** ppAllocator) { struct strmbase_sink *This = impl_from_IMemInputPin(iface); TRACE("(%p/%p)->(%p)\n", This, iface, ppAllocator); *ppAllocator = This->pAllocator; if (*ppAllocator) IMemAllocator_AddRef(*ppAllocator); return *ppAllocator ? S_OK : VFW_E_NO_ALLOCATOR; } static HRESULT WINAPI MemInputPin_NotifyAllocator(IMemInputPin * iface, IMemAllocator * pAllocator, BOOL bReadOnly) { struct strmbase_sink *This = impl_from_IMemInputPin(iface); TRACE("(%p/%p)->(%p, %d)\n", This, iface, pAllocator, bReadOnly); if (bReadOnly) FIXME("Read only flag not handled yet!\n"); /* FIXME: Should we release the allocator on disconnection? */ if (!pAllocator) { WARN("Null allocator\n"); return E_POINTER; } if (This->preferred_allocator && pAllocator != This->preferred_allocator) return E_FAIL; if (This->pAllocator) IMemAllocator_Release(This->pAllocator); This->pAllocator = pAllocator; if (This->pAllocator) IMemAllocator_AddRef(This->pAllocator); return S_OK; } static HRESULT WINAPI MemInputPin_GetAllocatorRequirements(IMemInputPin * iface, ALLOCATOR_PROPERTIES * pProps) { struct strmbase_sink *This = impl_from_IMemInputPin(iface); TRACE("(%p/%p)->(%p)\n", This, iface, pProps); /* override this method if you have any specific requirements */ return E_NOTIMPL; } static HRESULT WINAPI MemInputPin_Receive(IMemInputPin * iface, IMediaSample * pSample) { struct strmbase_sink *This = impl_from_IMemInputPin(iface); HRESULT hr = S_FALSE; /* this trace commented out for performance reasons */ /*TRACE("(%p/%p)->(%p)\n", This, iface, pSample);*/ if (This->pFuncsTable->pfnReceive) hr = This->pFuncsTable->pfnReceive(This, pSample); return hr; } static HRESULT WINAPI MemInputPin_ReceiveMultiple(IMemInputPin * iface, IMediaSample ** pSamples, LONG nSamples, LONG *nSamplesProcessed) { struct strmbase_sink *This = impl_from_IMemInputPin(iface); HRESULT hr = S_OK; TRACE("(%p/%p)->(%p, %d, %p)\n", This, iface, pSamples, nSamples, nSamplesProcessed); for (*nSamplesProcessed = 0; *nSamplesProcessed < nSamples; (*nSamplesProcessed)++) { hr = IMemInputPin_Receive(iface, pSamples[*nSamplesProcessed]); if (hr != S_OK) break; } return hr; } static HRESULT WINAPI MemInputPin_ReceiveCanBlock(IMemInputPin * iface) { struct strmbase_sink *This = impl_from_IMemInputPin(iface); TRACE("(%p/%p)->()\n", This, iface); return S_OK; } static const IMemInputPinVtbl MemInputPin_Vtbl = { MemInputPin_QueryInterface, MemInputPin_AddRef, MemInputPin_Release, MemInputPin_GetAllocator, MemInputPin_NotifyAllocator, MemInputPin_GetAllocatorRequirements, MemInputPin_Receive, MemInputPin_ReceiveMultiple, MemInputPin_ReceiveCanBlock }; void strmbase_sink_init(struct strmbase_sink *pin, const IPinVtbl *vtbl, struct strmbase_filter *filter, const WCHAR *name, const struct strmbase_sink_ops *func_table, IMemAllocator *allocator) { memset(pin, 0, sizeof(*pin)); pin->pin.IPin_iface.lpVtbl = vtbl; pin->pin.filter = filter; pin->pin.dir = PINDIR_INPUT; lstrcpyW(pin->pin.name, name); pin->pin.pFuncsTable = &func_table->base; pin->pFuncsTable = func_table; pin->pAllocator = pin->preferred_allocator = allocator; if (pin->preferred_allocator) IMemAllocator_AddRef(pin->preferred_allocator); pin->IMemInputPin_iface.lpVtbl = &MemInputPin_Vtbl; } void strmbase_sink_cleanup(struct strmbase_sink *pin) { FreeMediaType(&pin->pin.mt); if (pin->pAllocator) IMemAllocator_Release(pin->pAllocator); pin->pAllocator = NULL; pin->pin.IPin_iface.lpVtbl = NULL; }