Source code of Windows XP (NT5)
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/*++
Copyright (c) 1997 Microsoft Corporation
Module Name:
H323vid.cpp
Abstract:
This module contains implementation of the video send and receive
stream implementations.
Author:
Mu Han (muhan) 15-September-1999
--*/
#include "stdafx.h"
#include "common.h"
#include <irtprph.h> // for IRTPRPHFilter
#include <irtpsph.h> // for IRTPSPHFilter
#include <amrtpuid.h> // AMRTP media types
#include <amrtpnet.h> // rtp guilds
#include <ih26xcd.h> // for the h26X encoder filter
#include <initguid.h>
#include <amrtpdmx.h> // demux guild
#include <viduids.h> // for video CLSIDs
const DWORD c_SlowLinkSpeed = 40000;
/////////////////////////////////////////////////////////////////////////////
//
// CStreamVideoRecv
//
/////////////////////////////////////////////////////////////////////////////
CStreamVideoRecv::CStreamVideoRecv()
: CH323MSPStream(),
m_dwCurrentBitRate(0),
m_dwProposedBitRate(0)
{
m_szName = L"VideoRecv";
m_dwLastIFrameRequestedTime = timeGetTime();
m_dwIFramePending = FALSE;
}
HRESULT CStreamVideoRecv::Configure(
IN HANDLE htChannel,
IN STREAMSETTINGS &StreamSettings
)
/*++
Routine Description:
Configure the settings of this stream.
Arguments:
StreamSettings - The setting structure got from the SDP blob.
Return Value:
HRESULT.
--*/
{
LOG((MSP_TRACE, "VideoRecv configure entered."));
CLock lock(m_lock);
_ASSERTE(m_fIsConfigured == FALSE);
switch (StreamSettings.dwPayloadType)
{
case PAYLOAD_H261:
m_pClsidCodecFilter = &CLSID_H261_DECODE_FILTER;
m_pRPHInputMinorType = &MEDIASUBTYPE_RTP_Payload_H261;
m_pClsidPHFilter = &CLSID_INTEL_RPHH26X;
break;
case PAYLOAD_H263:
m_pClsidCodecFilter = &CLSID_H263_DECODE_FILTER;
m_pRPHInputMinorType = &MEDIASUBTYPE_RTP_Payload_H263;
m_pClsidPHFilter = &CLSID_INTEL_RPHH26X;
break;
default:
LOG((MSP_ERROR, "unknow payload type, %x", StreamSettings.dwPayloadType));
return E_FAIL;
}
m_Settings = StreamSettings;
m_htChannel = htChannel;
m_fIsConfigured = TRUE;
m_dwCurrentBitRate = m_Settings.Video.dwMaxBitRate;
m_dwProposedBitRate = m_dwCurrentBitRate;
InternalConfigure();
return S_OK;
}
HRESULT CStreamVideoRecv::ConfigureRTPFilter(
IN IBaseFilter * pIBaseFilter
)
/*++
Routine Description:
Configure the source RTP filter. Including set the address, port, TTL,
QOS, thread priority, clcokrate, etc.
Arguments:
pIBaseFilter - The source RTP Filter.
Return Value:
HRESULT.
--*/
{
LOG((MSP_TRACE, "VideoRecv ConfigureRTPFilter"));
HRESULT hr;
// Get the IRTPStream interface pointer on the filter.
CComQIPtr<IRTPStream, &IID_IRTPStream> pIRTPStream(pIBaseFilter);
if (pIRTPStream == NULL)
{
LOG((MSP_ERROR, "get RTP Stream interface"));
return E_NOINTERFACE;
}
LOG((MSP_INFO, "set locol Address:%x", m_Settings.dwIPLocal));
// Set the local address and port used in the filter.
if (FAILED(hr = pIRTPStream->SelectLocalIPAddress(
htonl(m_Settings.dwIPLocal)
)))
{
LOG((MSP_ERROR, "set locol Address, hr:%x", hr));
return hr;
}
LOG((MSP_INFO, "set remote Address:%x, port:%d",
m_Settings.dwIPRemote, m_Settings.wRTPPortRemote));
// Set the remote address and port used in the filter.
if (FAILED(hr = pIRTPStream->SetAddress(
htons(m_Settings.wRTPPortLocal), // local port.
0, // remote port.
htonl(m_Settings.dwIPRemote) // remote address.
)))
{
LOG((MSP_ERROR, "set remote Address, hr:%x", hr));
return hr;
}
// Get the IRTCPStream interface pointer.
CComQIPtr<IRTCPStream,
&IID_IRTCPStream> pIRTCPStream(pIBaseFilter);
if (pIRTCPStream == NULL)
{
LOG((MSP_ERROR, "get RTCP Stream interface"));
return E_NOINTERFACE;
}
LOG((MSP_INFO, "set remote RTCP Address:%x, port:%d, local port: %d",
m_Settings.dwIPRemote, m_Settings.wRTCPPortRemote,
m_Settings.wRTCPPortLocal));
// Set the remote RTCP address and port.
if (FAILED(hr = pIRTCPStream->SetRTCPAddress(
htons(m_Settings.wRTCPPortLocal),
htons(m_Settings.wRTCPPortRemote),
htonl(m_Settings.dwIPRemote)
)))
{
LOG((MSP_ERROR, "set remote RTCP Address, hr:%x", hr));
return hr;
}
// Set the TTL used in the filter.
if (FAILED(hr = pIRTPStream->SetMulticastScope(DEFAULT_TTL)))
{
LOG((MSP_ERROR, "set TTL. %x", hr));
return hr;
}
// Set the priority of the session
if (FAILED(hr = pIRTPStream->SetSessionClassPriority(
RTP_CLASS_VIDEO,
g_dwVideoThreadPriority
)))
{
LOG((MSP_ERROR, "set session class and priority. %x", hr));
}
// Set the sample rate of the session
LOG((MSP_INFO, "setting session sample rate to %d", g_dwVideoSampleRateHigh));
if (FAILED(hr = pIRTPStream->SetDataClock(g_dwVideoSampleRateHigh)))
{
LOG((MSP_ERROR, "set session sample rate. %x", hr));
}
// Enable the RTCP events.
if (FAILED(hr = ::EnableRTCPEvents(pIBaseFilter)))
{
LOG((MSP_WARN, "can not enable RTCP events %x", hr));
}
if (FAILED(hr = ::SetQOSOption(
pIBaseFilter,
m_Settings.dwPayloadType, // payload
m_Settings.Video.dwMaxBitRate,
TRUE
)))
{
LOG((MSP_ERROR, "set QOS option. %x", hr));
return hr;
}
return S_OK;
}
HRESULT CStreamVideoRecv::SetUpInternalFilters()
/*++
Routine Description:
set up the filters used in the stream.
RTP->Demux->RPH->DECODER->Render terminal
Arguments:
Return Value:
HRESULT.
--*/
{
LOG((MSP_TRACE, "VideoRecv.SetUpInternalFilters"));
CComPtr<IBaseFilter> pSourceFilter;
HRESULT hr;
// create and add the source fitler.
if (FAILED(hr = ::AddFilter(
m_pIGraphBuilder,
CLSID_RTPSourceFilter,
L"RtpSource",
&pSourceFilter)))
{
LOG((MSP_ERROR, "adding source filter. %x", hr));
return hr;
}
if (FAILED(hr = ConfigureRTPFilter(pSourceFilter)))
{
LOG((MSP_ERROR, "configure RTP source filter. %x", hr));
return hr;
}
// Create and add the payload handler into the filtergraph.
CComPtr<IBaseFilter> pIRPHFilter;
if (FAILED(hr = ::AddFilter(
m_pIGraphBuilder,
*m_pClsidPHFilter,
L"RPH",
&pIRPHFilter
)))
{
LOG((MSP_ERROR, "add RPH filter. %x", hr));
return hr;
}
// Get the IRPHH26XSettings interface used in H323iguring the RPH
// filter to the right image size.
CComQIPtr<IRPHH26XSettings,
&IID_IRPHH26XSettings> pIRPHH26XSettings(pIRPHFilter);
if (pIRPHH26XSettings == NULL)
{
LOG((MSP_WARN, "can't get IRPHH26XSettings interface"));
}
else if (FAILED(pIRPHH26XSettings->SetCIF(m_Settings.Video.bCIF)))
{
LOG((MSP_WARN, "can't set CIF or QCIF"));
}
// Get the IRTPRPHFilter interface.
CComQIPtr<IRTPRPHFilter, &IID_IRTPRPHFilter>pIRTPRPHFilter(pIRPHFilter);
if (pIRTPRPHFilter == NULL)
{
LOG((MSP_ERROR, "get IRTPRPHFilter interface"));
return hr;
}
if (FAILED(hr = pIRTPRPHFilter->OverridePayloadType(
(BYTE)m_Settings.dwPayloadType
)))
{
LOG((LOG_ERROR, "override payload type. %x", hr));
return FALSE;
}
// Connect the payload handler to the output pin on the source filter.
if (FAILED(hr = ::ConnectFilters(
m_pIGraphBuilder,
(IBaseFilter *)pSourceFilter,
(IBaseFilter *)pIRPHFilter
)))
{
LOG((MSP_ERROR, "connect demux and RPH filter. %x", hr));
return hr;
}
CComPtr<IBaseFilter> pCodecFilter;
if (FAILED(hr = ::AddFilter(
m_pIGraphBuilder,
*m_pClsidCodecFilter,
L"codec",
&pCodecFilter
)))
{
LOG((MSP_ERROR, "add Codec filter. %x", hr));
return hr;
}
// Connect the payload handler to the output pin on the demux.
if (FAILED(hr = ::ConnectFilters(
m_pIGraphBuilder,
(IBaseFilter *)pIRPHFilter,
(IBaseFilter *)pCodecFilter
)))
{
LOG((MSP_ERROR, "connect RPH filter and codec. %x", hr));
return hr;
}
m_pEdgeFilter = pCodecFilter;
m_pEdgeFilter->AddRef();
return hr;
}
HRESULT CStreamVideoRecv::ConnectTerminal(
IN ITTerminal * pITTerminal
)
/*++
Routine Description:
connect the codec to the video render terminal.
Arguments:
pITTerminal - The terminal to be connected.
Return Value:
HRESULT.
--*/
{
LOG((MSP_TRACE, "VideoRecv.ConnectTerminal, pTerminal %p", pITTerminal));
HRESULT hr;
// if our filters have not been contructed, do it now.
if (m_pEdgeFilter == NULL)
{
hr = SetUpInternalFilters();
if (FAILED(hr))
{
LOG((MSP_ERROR, "Set up internal filter failed, %x", hr));
CleanUpFilters();
return hr;
}
}
// get the terminal control interface.
CComQIPtr<ITTerminalControl, &IID_ITTerminalControl>
pTerminal(pITTerminal);
if (pTerminal == NULL)
{
LOG((MSP_ERROR, "can't get Terminal Control interface"));
SendStreamEvent(CALL_TERMINAL_FAIL, CALL_CAUSE_BAD_DEVICE, E_NOINTERFACE, pITTerminal);
return E_NOINTERFACE;
}
// try to disable DDraw because the decoders can't handle DDraw now.
HRESULT hr2;
IDrawVideoImage *pIDrawVideoImage;
hr2 = pTerminal->QueryInterface(IID_IDrawVideoImage, (void **)&pIDrawVideoImage);
if (SUCCEEDED(hr2))
{
hr2 = pIDrawVideoImage->DrawVideoImageBegin();
if (FAILED(hr2))
{
LOG((MSP_WARN, "Can't disable DDraw. %x", hr2));
}
else
{
LOG((MSP_INFO, "DDraw disabled."));
}
pIDrawVideoImage->Release();
}
else
{
LOG((MSP_WARN, "Can't get IDrawVideoImage. %x", hr2));
}
const DWORD MAXPINS = 8;
DWORD dwNumPins = MAXPINS;
IPin * Pins[MAXPINS];
hr = pTerminal->ConnectTerminal(
m_pIGraphBuilder, 0, &dwNumPins, Pins
);
if (FAILED(hr))
{
LOG((MSP_ERROR, "can't connect to terminal, %x", hr));
SendStreamEvent(CALL_TERMINAL_FAIL, CALL_CAUSE_BAD_DEVICE, hr, pITTerminal);
return hr;
}
// the number of pins should never be 0.
if (dwNumPins == 0)
{
LOG((MSP_ERROR, "terminal has no pins."));
SendStreamEvent(CALL_TERMINAL_FAIL, CALL_CAUSE_BAD_DEVICE, hr, pITTerminal);
pTerminal->DisconnectTerminal(m_pIGraphBuilder, 0);
return E_UNEXPECTED;
}
// Connect the codec filter to the video render terminal.
hr = ::ConnectFilters(
m_pIGraphBuilder,
(IBaseFilter *)m_pEdgeFilter,
(IPin *)Pins[0],
FALSE // use Connect instead of ConnectDirect.
);
// release the refcounts on the pins.
for (DWORD i = 0; i < dwNumPins; i ++)
{
Pins[i]->Release();
}
if (FAILED(hr))
{
LOG((MSP_ERROR, "connect to the codec filter. %x", hr));
pTerminal->DisconnectTerminal(m_pIGraphBuilder, 0);
return hr;
}
//
// Now we are actually connected. Update our state and perform postconnection
// (ignore postconnection error code).
//
pTerminal->CompleteConnectTerminal();
return hr;
}
HRESULT CStreamVideoRecv::SetUpFilters()
/*++
Routine Description:
Insert filters into the graph and connect to the terminals.
Arguments:
Return Value:
HRESULT.
--*/
{
LOG((MSP_TRACE, "VideoRecv.SetUpFilters"));
// we only support one terminal for this stream.
if (m_Terminals.GetSize() != 1)
{
return E_UNEXPECTED;
}
HRESULT hr;
// Connect the terminal.
if (FAILED(hr = ConnectTerminal(
m_Terminals[0]
)))
{
LOG((MSP_ERROR, "connect the terminal. %x", hr));
return hr;
}
return hr;
}
HRESULT CStreamVideoRecv::HandlePacketReceiveLoss(
IN DWORD dwLossRate
)
{
LOG((MSP_TRACE, "%ls HandlePacketReceiveLoss, lossRate:%d",
m_szName, dwLossRate));
CLock lock(m_lock);
if (m_pMSPCall == NULL)
{
LOG((MSP_WARN, "The call has shut down the stream."));
return S_OK;
}
DWORD dwCurrentTime = timeGetTime();
if (dwLossRate == 0)
{
if (m_dwIFramePending)
{
((CH323MSPCall*)m_pMSPCall)->SendTSPMessage(
H323MSP_VIDEO_FAST_UPDATE_PICTURE_COMMAND,
(ITStream *)this,
m_htChannel
);
m_dwLastIFrameRequestedTime = dwCurrentTime;
m_dwIFramePending = 0;
}
if (m_dwCurrentBitRate >= m_Settings.Video.dwMaxBitRate)
{
return S_OK;
}
// Adjust the proposed bitrate and
m_dwProposedBitRate += BITRATEINC;
if (m_dwProposedBitRate > m_Settings.Video.dwMaxBitRate)
{
m_dwProposedBitRate = m_Settings.Video.dwMaxBitRate;
}
if ((m_dwProposedBitRate - m_dwCurrentBitRate >= BITRATEDELTA)
|| (m_dwProposedBitRate == m_Settings.Video.dwMaxBitRate))
{
m_dwCurrentBitRate = m_dwProposedBitRate;
// Tell the TSP to send a new flow control command.
((CH323MSPCall*)m_pMSPCall)->SendTSPMessage(
H323MSP_FLOW_CONTROL_COMMAND,
(ITStream *)this,
m_htChannel,
(m_dwMediaType == TAPIMEDIATYPE_AUDIO) ? MEDIA_AUDIO : MEDIA_VIDEO,
0,
m_dwCurrentBitRate
);
LOG((MSP_INFO, "%ls New bitrate:%d", m_szName, m_dwCurrentBitRate));
}
return S_OK;
}
_ASSERTE(dwLossRate < 100);
m_dwProposedBitRate = (DWORD)(m_dwCurrentBitRate / 100.0 * (100 - dwLossRate));
if (m_dwProposedBitRate < BITRATELOWERLIMIT)
{
// we don't want the bitRate to go too low.
m_dwProposedBitRate = BITRATELOWERLIMIT;
// TODO, if this happens too many times, close the channel.
}
if (m_dwCurrentBitRate - m_dwProposedBitRate >= BITRATEDELTA)
{
m_dwCurrentBitRate = m_dwProposedBitRate;
// Tell the TSP to send a new flow control command.
((CH323MSPCall*)m_pMSPCall)->SendTSPMessage(
H323MSP_FLOW_CONTROL_COMMAND,
(ITStream *)this,
m_htChannel,
(m_dwMediaType == TAPIMEDIATYPE_AUDIO) ? MEDIA_AUDIO : MEDIA_VIDEO,
0,
m_dwCurrentBitRate
);
LOG((MSP_INFO, "%ls New bitrate:%d", m_szName, m_dwCurrentBitRate));
}
if (dwCurrentTime - m_dwLastIFrameRequestedTime > IFRAMEINTERVAL)
{
((CH323MSPCall*)m_pMSPCall)->SendTSPMessage(
H323MSP_VIDEO_FAST_UPDATE_PICTURE_COMMAND,
(ITStream *)this,
m_htChannel
);
m_dwLastIFrameRequestedTime = dwCurrentTime;
m_dwIFramePending = 0;
}
else
{
// Remember that we need to send an I Frame request when time arrives.
m_dwIFramePending = 1;
}
return S_OK;
}
/////////////////////////////////////////////////////////////////////////////
//
// CStreamVideoSend
//
/////////////////////////////////////////////////////////////////////////////
CStreamVideoSend::CStreamVideoSend()
: CH323MSPStream(),
m_pIEncoderFilter(NULL),
m_dwCurrentBitRate(0),
m_dwProposedBitRate(0)
{
m_szName = L"VideoSend";
m_dwIFramePending = FALSE;
m_dwLastIFrameSentTime = timeGetTime();
}
HRESULT CStreamVideoSend::ShutDown()
/*++
Routine Description:
Shut down the stream. Release our members and then calls the base class's
ShutDown method.
Arguments:
Return Value:
S_OK
--*/
{
CLock lock(m_lock);
if (m_pIEncoderFilter)
{
m_pIEncoderFilter->Release();
m_pIEncoderFilter = NULL;
}
return CH323MSPStream::ShutDown();
}
HRESULT CStreamVideoSend::Configure(
IN HANDLE htChannel,
IN STREAMSETTINGS &StreamSettings
)
/*++
Routine Description:
Configure this stream.
Arguments:
StreamSettings - The setting structure got from the SDP blob.
Return Value:
HRESULT.
--*/
{
LOG((MSP_TRACE, "VideoSend.Configure"));
CLock lock(m_lock);
_ASSERTE(m_fIsConfigured == FALSE);
switch (StreamSettings.dwPayloadType)
{
case PAYLOAD_H261:
m_pClsidCodecFilter = &CLSID_H261_ENCODE_FILTER;
m_pRPHInputMinorType = &MEDIASUBTYPE_RTP_Payload_H261;
m_pClsidPHFilter = &CLSID_INTEL_SPHH26X;
break;
case PAYLOAD_H263:
m_pClsidCodecFilter = &CLSID_H263_ENCODE_FILTER;
m_pRPHInputMinorType = &MEDIASUBTYPE_RTP_Payload_H263;
m_pClsidPHFilter = &CLSID_INTEL_SPHH26X;
break;
default:
LOG((MSP_ERROR, "unknow payload type, %x", StreamSettings.dwPayloadType));
return E_FAIL;
}
m_Settings = StreamSettings;
m_htChannel = htChannel;
m_fIsConfigured = TRUE;
m_dwCurrentBitRate = m_Settings.Video.dwStartUpBitRate;
m_dwProposedBitRate = m_dwCurrentBitRate;
InternalConfigure();
return S_OK;
}
HRESULT
SetVideoFormat(
IN IUnknown * pIUnknown,
IN BOOL bCIF,
IN DWORD dwFramesPerSecond
)
/*++
Routine Description:
Set the video format to be CIF or QCIF and also set the frames per second.
Arguments:
pIUnknown - a capture terminal.
bCIF - CIF or QCIF.
dwFramesPerSecond - Frames per second.
Return Value:
HRESULT
--*/
{
LOG((MSP_TRACE, "SetVideoFormat"));
HRESULT hr;
// first get eht IAMStreamConfig interface.
CComPtr<IAMStreamConfig> pIAMStreamConfig;
if (FAILED(hr = pIUnknown->QueryInterface(
IID_IAMStreamConfig,
(void **)&pIAMStreamConfig
)))
{
LOG((MSP_ERROR, "Can't get IAMStreamConfig interface.%8x", hr));
return hr;
}
// get the current format of the video capture terminal.
AM_MEDIA_TYPE *pmt;
if (FAILED(hr = pIAMStreamConfig->GetFormat(&pmt)))
{
LOG((MSP_ERROR, "GetFormat returns error: %8x", hr));
return hr;
}
VIDEOINFO *pVideoInfo = (VIDEOINFO *)pmt->pbFormat;
if (pVideoInfo == NULL)
{
DeleteMediaType(pmt);
return E_UNEXPECTED;
}
BITMAPINFOHEADER *pHeader = HEADER(pmt->pbFormat);
if (pHeader == NULL)
{
DeleteMediaType(pmt);
return E_UNEXPECTED;
}
LOG((MSP_INFO,
"Video capture: Format BitRate: %d, TimePerFrame: %d",
pVideoInfo->dwBitRate,
pVideoInfo->AvgTimePerFrame));
LOG((MSP_INFO, "Video capture: Format Compression:%c%c%c%c %dbit %dx%d",
(DWORD)pHeader->biCompression & 0xff,
((DWORD)pHeader->biCompression >> 8) & 0xff,
((DWORD)pHeader->biCompression >> 16) & 0xff,
((DWORD)pHeader->biCompression >> 24) & 0xff,
pHeader->biBitCount,
pHeader->biWidth,
pHeader->biHeight));
// The time is in 100ns unit.
pVideoInfo->AvgTimePerFrame = (DWORD) 1e7 / dwFramesPerSecond;
if (bCIF)
{
pHeader->biWidth = CIFWIDTH;
pHeader->biHeight = CIFHEIGHT;
}
else
{
pHeader->biWidth = QCIFWIDTH;
pHeader->biHeight = QCIFHEIGHT;
}
#if defined(ALPHA)
// update bmiSize with new Width/Height
pHeader->biSizeImage = DIBSIZE( ((VIDEOINFOHEADER *)pmt->pbFormat)->bmiHeader );
#endif
if (FAILED(hr = pIAMStreamConfig->SetFormat(pmt)))
{
LOG((MSP_ERROR, "putMediaFormat returns error: %8x", hr));
}
else
{
LOG((MSP_INFO,
"Video capture: Format BitRate: %d, TimePerFrame: %d",
pVideoInfo->dwBitRate,
pVideoInfo->AvgTimePerFrame));
LOG((MSP_INFO, "Video capture: Format Compression:%c%c%c%c %dbit %dx%d",
(DWORD)pHeader->biCompression & 0xff,
((DWORD)pHeader->biCompression >> 8) & 0xff,
((DWORD)pHeader->biCompression >> 16) & 0xff,
((DWORD)pHeader->biCompression >> 24) & 0xff,
pHeader->biBitCount,
pHeader->biWidth,
pHeader->biHeight));
}
DeleteMediaType(pmt);
return hr;
}
HRESULT
SetVideoBufferSize(
IN IUnknown *pIUnknown
)
/*++
Routine Description:
Set the video capture terminal's buffersize.
Arguments:
pIUnknown - a capture terminal.
Return Value:
HRESULT
--*/
{
// The number of capture buffers is four for now.
#define NUMCAPTUREBUFFER 4
LOG((MSP_TRACE, "SetVideoBufferSize"));
HRESULT hr;
CComPtr<IAMBufferNegotiation> pBN;
if (FAILED(hr = pIUnknown->QueryInterface(
IID_IAMBufferNegotiation,
(void **)&pBN
)))
{
LOG((MSP_ERROR, "Can't get buffer negotiation interface.%8x", hr));
return hr;
}
ALLOCATOR_PROPERTIES prop;
#if 0 // Get allocator property is not working.
if (FAILED(hr = pBN->GetAllocatorProperties(&prop)))
{
LOG((MSP_ERROR, "GetAllocatorProperties returns error: %8x", hr));
return hr;
}
// Set the number of buffers.
if (prop.cBuffers > NUMCAPTUREBUFFER)
{
prop.cBuffers = NUMCAPTUREBUFFER;
}
#endif
prop.cBuffers = NUMCAPTUREBUFFER;
prop.cbBuffer = -1;
prop.cbAlign = -1;
prop.cbPrefix = -1;
if (FAILED(hr = pBN->SuggestAllocatorProperties(&prop)))
{
LOG((MSP_ERROR, "SuggestAllocatorProperties returns error: %8x", hr));
}
else
{
LOG((MSP_INFO,
"SetVidedobuffersize"
" buffers: %d, buffersize: %d, align: %d, Prefix: %d",
prop.cBuffers,
prop.cbBuffer,
prop.cbAlign,
prop.cbPrefix
));
}
return hr;
}
HRESULT CStreamVideoSend::ConfigureVideoCaptureTerminal(
IN ITTerminalControl* pTerminal,
OUT IPin ** ppIPin
)
/*++
Routine Description:
Given a terminal, find the capture pin and configure it.
Arguments:
pTerminal - a capture terminal.
ppIPin - the address to store a pointer to a IPin interface.
Return Value:
HRESULT
--*/
{
LOG((MSP_TRACE, "ConfigureVideoCaptureTerminal, pTerminal %x", pTerminal));
const DWORD MAXPINS = 8;
DWORD dwNumPins = MAXPINS;
IPin * Pins[MAXPINS];
HRESULT hr = pTerminal->ConnectTerminal(
m_pIGraphBuilder, 0, &dwNumPins, Pins
);
if (FAILED(hr))
{
LOG((MSP_ERROR, "can't connect to terminal, %x", hr));
return hr;
}
if (dwNumPins == 0)
{
LOG((MSP_ERROR, "terminal has no pins."));
return hr;
}
// Save the first pin and release the others.
CComPtr <IPin> pIPin = Pins[0];
for (DWORD i = 0; i < dwNumPins; i ++)
{
Pins[i]->Release();
}
// set the video format.
hr = SetVideoFormat(
pIPin,
m_Settings.Video.bCIF,
#ifdef TWOFRAMERATES
(m_dwCurrentBitRate > c_SlowLinkSpeed) ? g_dwVideoSampleRateHigh
: g_dwVideoSampleRateLow
#else
g_dwVideoSampleRateHigh
#endif
);
if (FAILED(hr))
{
LOG((MSP_ERROR, "can't set video format, %x", hr));
return hr;
}
// set the video buffer size.
hr = SetVideoBufferSize(
pIPin
);
if (FAILED(hr))
{
LOG((MSP_ERROR, "can't set aduio capture buffer size, %x", hr));
return hr;
}
pIPin->AddRef();
*ppIPin = pIPin;
return hr;
}
HRESULT CStreamVideoSend::FindPreviewInputPin(
IN ITTerminalControl* pTerminal,
OUT IPin ** ppIPin
)
/*++
Routine Description:
Find the input pin on a preview terminal.
Arguments:
pTerminal - a video render terminal.
ppIPin - the address to store a pointer to a IPin interface.
Return Value:
HRESULT
--*/
{
LOG((MSP_TRACE, "VideoSend.FindPreviewInputPin, pTerminal %x", pTerminal));
// Get the pins from the first terminal because we only use on terminal
// on this stream.
const DWORD MAXPINS = 8;
DWORD dwNumPins = MAXPINS;
IPin * Pins[MAXPINS];
HRESULT hr = pTerminal->ConnectTerminal(
m_pIGraphBuilder, 0, &dwNumPins, Pins
);
if (FAILED(hr))
{
LOG((MSP_ERROR, "can't connect to terminal, %x", hr));
return hr;
}
if (dwNumPins == 0)
{
LOG((MSP_ERROR, "terminal has no pins."));
return hr;
}
// Save the first pin and release the others.
CComPtr <IPin> pIPin = Pins[0];
for (DWORD i = 0; i < dwNumPins; i ++)
{
Pins[i]->Release();
}
pIPin->AddRef();
*ppIPin = pIPin;
return hr;
}
HRESULT CStreamVideoSend::CheckTerminalTypeAndDirection(
IN ITTerminal * pTerminal
)
/*++
Routine Description:
Check if the terminal is allowed on this stream.
VideoSend allows both a capture terminal and a preivew terminal.
Arguments:
pTerminal - the terminal.
Return value:
HRESULT.
S_OK means the terminal is OK.
*/
{
LOG((MSP_TRACE, "VideoSend.CheckTerminalTypeAndDirection"));
// This stream only support one capture + one preview terminal
if (m_Terminals.GetSize() > 1)
{
return TAPI_E_MAXTERMINALS;
}
// check the media type of this terminal.
long lMediaType;
HRESULT hr = pTerminal->get_MediaType(&lMediaType);
if (FAILED(hr))
{
LOG((MSP_ERROR, "can't get terminal media type. %x", hr));
return TAPI_E_INVALIDTERMINAL;
}
if ((DWORD)lMediaType != m_dwMediaType)
{
return TAPI_E_INVALIDTERMINAL;
}
// check the direction of this terminal.
TERMINAL_DIRECTION Direction;
hr = pTerminal->get_Direction(&Direction);
if (FAILED(hr))
{
LOG((MSP_ERROR, "can't get terminal direction. %x", hr));
return TAPI_E_INVALIDTERMINAL;
}
if (m_Terminals.GetSize() > 0)
{
// check the direction of this terminal.
TERMINAL_DIRECTION Direction2;
hr = m_Terminals[0]->get_Direction(&Direction2);
if (FAILED(hr))
{
LOG((MSP_ERROR, "can't get terminal direction. %x", hr));
return TAPI_E_INVALIDTERMINAL;
}
if (Direction == Direction2)
{
LOG((MSP_ERROR,
"can't have two terminals with the same direction. %x", hr));
return TAPI_E_MAXTERMINALS;
}
}
return S_OK;
}
HRESULT CStreamVideoSend::SetUpFilters()
/*++
Routine Description:
Insert filters into the graph and connect to the terminals.
Arguments:
Return Value:
HRESULT.
--*/
{
LOG((MSP_TRACE, "VideoSend.SetUpFilters"));
// we only support one capture terminal and one preview
// window on this stream.
if (m_Terminals.GetSize() > 2)
{
return E_UNEXPECTED;
}
int iCaptureIndex = -1, iPreviewIndex = -1;
// Find out which terminal is capture and which is preview.
HRESULT hr;
for (int i = 0; i < m_Terminals.GetSize(); i ++)
{
TERMINAL_DIRECTION Direction;
hr = m_Terminals[i]->get_Direction(&Direction);
if (FAILED(hr))
{
LOG((MSP_ERROR, "can't get terminal direction. %x", hr));
SendStreamEvent(CALL_TERMINAL_FAIL, CALL_CAUSE_BAD_DEVICE, hr, m_Terminals[i]);
return hr;
}
if (Direction == TD_CAPTURE)
{
iCaptureIndex = i;
}
else
{
iPreviewIndex = i;
}
}
// the stream will not work without a capture terminal.
if (iCaptureIndex == -1)
{
LOG((MSP_ERROR, "no capture terminal selected."));
return E_UNEXPECTED;
}
// Connect the capture filter to the terminal.
if (FAILED(hr = ConnectTerminal(
m_Terminals[iCaptureIndex]
)))
{
LOG((MSP_ERROR, "connect the codec filter to terminal. %x", hr));
return hr;
}
if (iPreviewIndex != -1)
{
// Connect the preview filter to the terminal.
if (FAILED(hr = ConnectTerminal(
m_Terminals[iPreviewIndex]
)))
{
LOG((MSP_ERROR, "connect the codec filter to terminal. %x", hr));
return hr;
}
}
return hr;
}
HRESULT CStreamVideoSend::ConfigureRTPFilter(
IN IBaseFilter * pIBaseFilter
)
/*++
Routine Description:
Configure the source RTP filter. Including set the address, port, TTL,
QOS, thread priority, clcokrate, etc.
Arguments:
pIBaseFilter - The source RTP Filter.
Return Value:
HRESULT.
--*/
{
LOG((MSP_TRACE, "VideoSend.ConfigureRTPFilter"));
HRESULT hr;
// Get the IRTPStream interface pointer on the filter.
CComQIPtr<IRTPStream, &IID_IRTPStream> pIRTPStream(pIBaseFilter);
if (pIRTPStream == NULL)
{
LOG((MSP_ERROR, "get RTP Stream interface"));
return E_NOINTERFACE;
}
LOG((MSP_INFO, "set locol Address:%x", m_Settings.dwIPLocal));
// Set the local address and port used in the filter.
if (FAILED(hr = pIRTPStream->SelectLocalIPAddress(
htonl(m_Settings.dwIPLocal)
)))
{
LOG((MSP_ERROR, "set locol Address, hr:%x", hr));
return hr;
}
LOG((MSP_INFO, "set remote Address:%x, port:%d, TTL:%d",
m_Settings.dwIPRemote, m_Settings.wRTPPortRemote, DEFAULT_TTL));
// Set the address and port used in the filter.
if (FAILED(hr = pIRTPStream->SetAddress(
0, // local port.
htons(m_Settings.wRTPPortRemote), // remote port.
htonl(m_Settings.dwIPRemote) // remote IP.
)))
{
LOG((MSP_ERROR, "set remote Address, hr:%x", hr));
return hr;
}
// Get the IRTCPStream interface pointer.
CComQIPtr<IRTCPStream,
&IID_IRTCPStream> pIRTCPStream(pIBaseFilter);
if (pIRTCPStream == NULL)
{
LOG((MSP_ERROR, "get RTCP Stream interface"));
return E_NOINTERFACE;
}
LOG((MSP_INFO, "set remote RTCP Address:%x, port:%d, local port:%d",
m_Settings.dwIPRemote, m_Settings.wRTCPPortRemote,
m_Settings.wRTCPPortLocal));
// Set the remote RTCP address and port.
if (FAILED(hr = pIRTCPStream->SetRTCPAddress(
htons(m_Settings.wRTCPPortLocal),
htons(m_Settings.wRTCPPortRemote),
htonl(m_Settings.dwIPRemote)
)))
{
LOG((MSP_ERROR, "set remote RTCP Address, hr:%x", hr));
return hr;
}
// Set the TTL used in the filter.
if (FAILED(hr = pIRTPStream->SetMulticastScope(DEFAULT_TTL)))
{
LOG((MSP_ERROR, "set TTL. %x", hr));
return hr;
}
// Set the priority of the session
if (FAILED(hr = pIRTPStream->SetSessionClassPriority(
RTP_CLASS_VIDEO,
g_dwVideoThreadPriority
)))
{
LOG((MSP_ERROR, "set session class and priority. %x", hr));
}
// Set the sample rate of the session
#ifdef TWOFRAMERATES
LOG((MSP_INFO, "setting session sample rate to %d",
(m_dwCurrentBitRate > c_SlowLinkSpeed) ? g_dwVideoSampleRateHigh
: g_dwVideoSampleRateLow
));
#else
LOG((MSP_INFO, "setting session sample rate to %d",
g_dwVideoSampleRateHigh
));
#endif
#ifdef TWOFRAMERATES
if (FAILED(hr = pIRTPStream->SetDataClock(
(m_dwCurrentBitRate > c_SlowLinkSpeed) ? g_dwVideoSampleRateHigh
: g_dwVideoSampleRateLow
)))
#else
if (FAILED(hr = pIRTPStream->SetDataClock(
g_dwVideoSampleRateHigh
)))
#endif
{
LOG((MSP_ERROR, "set session sample rate. %x", hr));
}
// Enable the RTCP events
if (FAILED(hr = ::EnableRTCPEvents(pIBaseFilter)))
{
LOG((MSP_WARN, "can not enable RTCP events %x", hr));
}
if (FAILED(hr = ::SetQOSOption(
pIBaseFilter,
m_Settings.dwPayloadType, // payload
m_Settings.Video.dwMaxBitRate,
FALSE
)))
{
LOG((MSP_ERROR, "set QOS option. %x", hr));
return hr;
}
return S_OK;
}
HRESULT CStreamVideoSend::ConnectTerminal(
IN ITTerminal * pITTerminal
)
/*++
Routine Description:
connect the video terminals to the stream.
Arguments:
Return Value:
HRESULT.
--*/
{
LOG((MSP_TRACE, "VideoSend.ConnectTerminal %x", pITTerminal));
// Get the TerminalControl interface on the terminal
CComQIPtr<ITTerminalControl, &IID_ITTerminalControl>
pTerminal(pITTerminal);
if (pTerminal == NULL)
{
LOG((MSP_ERROR, "can't get Terminal Control interface"));
SendStreamEvent(CALL_TERMINAL_FAIL,
CALL_CAUSE_BAD_DEVICE, E_NOINTERFACE, pITTerminal);
return E_NOINTERFACE;
}
// Find out the direction of the terminal.
TERMINAL_DIRECTION Direction;
HRESULT hr = pITTerminal->get_Direction(&Direction);
if (FAILED(hr))
{
LOG((MSP_ERROR, "can't get terminal direction. %x", hr));
SendStreamEvent(CALL_TERMINAL_FAIL,
CALL_CAUSE_BAD_DEVICE, hr, pITTerminal);
return hr;
}
if (Direction == TD_CAPTURE)
{
// find the capture pin on the capture terminal and configure it.
CComPtr<IPin> pCapturePin;
hr = ConfigureVideoCaptureTerminal(pTerminal, &pCapturePin);
if (FAILED(hr))
{
LOG((MSP_ERROR, "configure video capture termianl failed. %x", hr));
SendStreamEvent(CALL_TERMINAL_FAIL,
CALL_CAUSE_BAD_DEVICE, hr, pITTerminal);
return hr;
}
hr = CreateSendFilters(pCapturePin);
if (FAILED(hr))
{
LOG((MSP_ERROR, "Create video send filters failed. %x", hr));
// disconnect the terminal.
pTerminal->DisconnectTerminal(m_pIGraphBuilder, 0);
// clean up internal filters as well.
CleanUpFilters();
return hr;
}
//
// Now we are actually connected. Update our state and perform postconnection
// (ignore postconnection error code).
//
pTerminal->CompleteConnectTerminal();
}
else
{
// find the input pin on the preview window. If there is no preview window,
// we just pass in NULL for the next function.
CComPtr<IPin> pPreviewInputPin;
hr = FindPreviewInputPin(pTerminal, &pPreviewInputPin);
if (FAILED(hr))
{
LOG((MSP_ERROR, "find preview input pin failed. %x", hr));
SendStreamEvent(CALL_TERMINAL_FAIL, CALL_CAUSE_BAD_DEVICE, hr, pITTerminal);
return hr;
}
hr = ConnectPreview(pPreviewInputPin);
if (FAILED(hr))
{
LOG((MSP_ERROR, "Create video send filters failed. %x", hr));
pTerminal->DisconnectTerminal(m_pIGraphBuilder, 0);
return hr;
}
//
// Now we are actually connected. Update our state and perform postconnection
// (ignore postconnection error code).
//
pTerminal->CompleteConnectTerminal();
}
return hr;
}
HRESULT
EncoderDoCommand(
IN IBaseFilter * pIFilter,
IN ENCODERCOMMAND command,
IN DWORD dwParam1
)
/*++
Routine Description:
Set the video capture terminal's buffersize.
Arguments:
pIFilter - a H26x encoder.
command - the command needs to be performed on the encoder.
dwparam1 - the parameter.
Return Value:
HRESULT
--*/
{
LOG((MSP_TRACE, "EncoderDoCommand, command:%d, param1: %d",
command, dwParam1));
HRESULT hr;
CComPtr<IH26XEncoderControl> pIH26XEncoderControl;
if (FAILED(hr = pIFilter->QueryInterface(
IID_IH26XEncoderControl,
(void **)&pIH26XEncoderControl
)))
{
LOG((MSP_ERROR, "Can't get pIH26XEncoderControl interface.%8x", hr));
return hr;
}
// get the current encoder properties of the video capture terminal.
ENC_CMP_DATA prop;
if (FAILED(hr = pIH26XEncoderControl->get_EncodeCompression(&prop)))
{
LOG((MSP_ERROR, "get_EncodeCompression returns error: %8x", hr));
return hr;
}
LOG((MSP_INFO,
"Video encoder::get_EncodeCompression"
" FrameRate: %d, DataRate: %d, Width %d, bSendKey: %s, interval: %d, Quality: %d",
prop.dwFrameRate,
prop.dwDataRate,
prop.dwWidth,
prop.bSendKey ? "TRUE" : "FALSE",
prop.dwKeyFrameInterval,
prop.dwQuality
));
switch (command)
{
case EC_BITRATE:
prop.bFrameSizeBRC = FALSE; // control bit rate
prop.dwDataRate = dwParam1 / 1000; // in kbps
break;
case EC_IFRAME:
prop.bSendKey = TRUE;
break;
}
if (FAILED(hr = pIH26XEncoderControl->set_EncodeCompression(&prop)))
{
LOG((MSP_ERROR, "set_EncodeCompression returns error: %8x", hr));
}
else
{
LOG((MSP_INFO,
"Video encoder::set_EncodeCompression"
" FrameRate: %d, DataRate: %d, Width %d, bSendKey: %s, interval: %d, Quality: %d",
prop.dwFrameRate,
prop.dwDataRate,
prop.dwWidth,
prop.bSendKey ? "TRUE" : "FALSE",
prop.dwKeyFrameInterval,
prop.dwQuality
));
}
return hr;
}
HRESULT
ConfigureEncoder(
IN IBaseFilter * pIFilter,
IN BOOL bCIF,
IN DWORD dwMaxBitRate,
IN DWORD dwFramesPerSecond
)
/*++
Routine Description:
Set the video capture terminal's buffersize.
Arguments:
pIFilter - a H26x encoder.
bCIF - CIF or QCIF.
pdwFramesPerSecond - Frames per second.
dwKeyFrameInterval - The number of frames before sending a key frame.
Return Value:
HRESULT
--*/
{
LOG((MSP_TRACE, "ConfigureEncoder, dwMaxBitRate :%d", dwMaxBitRate));
HRESULT hr;
CComPtr<IH26XEncoderControl> pIH26XEncoderControl;
if (FAILED(hr = pIFilter->QueryInterface(
IID_IH26XEncoderControl,
(void **)&pIH26XEncoderControl
)))
{
LOG((MSP_ERROR, "Can't get pIH26XEncoderControl interface.%8x", hr));
return hr;
}
// get the current encoder properties of the video capture terminal.
ENC_CMP_DATA prop;
if (FAILED(hr = pIH26XEncoderControl->get_EncodeCompression(&prop)))
{
LOG((MSP_ERROR, "get_EncodeCompression returns error: %8x", hr));
return hr;
}
LOG((MSP_INFO,
"Video encoder::get_EncodeCompression"
" FrameRate: %d, DataRate: %d, Width %d, bSendKey: %s, interval: %d, Quality: %d",
prop.dwFrameRate,
prop.dwDataRate,
prop.dwWidth,
prop.bSendKey ? "TRUE" : "FALSE",
prop.dwKeyFrameInterval,
prop.dwQuality
));
prop.bSendKey = TRUE;
prop.dwFrameRate = dwFramesPerSecond;
prop.bFrameSizeBRC = FALSE; // control bit rate
prop.dwQuality = 8500;
prop.dwDataRate = dwMaxBitRate / 1000; // in kbps
prop.dwKeyFrameInterval = 9999999; // don't send Keyframes.
if (bCIF)
{
prop.dwWidth = CIFWIDTH;
}
else
{
prop.dwWidth = QCIFWIDTH;
}
if (FAILED(hr = pIH26XEncoderControl->set_EncodeCompression(&prop)))
{
LOG((MSP_ERROR, "set_EncodeCompression returns error: %8x", hr));
}
else
{
LOG((MSP_INFO,
"Video encoder::set_EncodeCompression"
" FrameRate: %d, DataRate: %d, Width %d, bSendKey: %s, interval: %d, Quality: %d",
prop.dwFrameRate,
prop.dwDataRate,
prop.dwWidth,
prop.bSendKey ? "TRUE" : "FALSE",
prop.dwKeyFrameInterval,
prop.dwQuality
));
}
return hr;
}
HRESULT CStreamVideoSend::ConnectPreview(
IN IPin *pPreviewInputPin
)
/*++
Routine Description:
connect the preview pin the the TEE filter.
Capturepin->TEE+->Encoder->SPH->RTPRender
+->PreviewInputPin
Arguments:
pPin - The output pin on the capture filter.
Return Value:
HRESULT.
--*/
{
HRESULT hr;
if (m_pEdgeFilter == NULL)
{
LOG((MSP_ERROR, "no capture to preview"));
return E_UNEXPECTED;
}
// Create the AVI decompressor filter and add it into the graph.
// This will make the graph construction faster for since the AVI
// decompressor are always needed for the preview
CComPtr<IBaseFilter> pAviFilter;
if (FAILED(hr = ::AddFilter(
m_pIGraphBuilder,
CLSID_AVIDec,
L"Avi",
&pAviFilter)))
{
LOG((MSP_ERROR, "add Avi filter. %x", hr));
return hr;
}
// connect the preview input pin with the smart tee filter.
if (FAILED(hr = ::ConnectFilters(
m_pIGraphBuilder,
(IBaseFilter *)m_pEdgeFilter,
(IPin *)pPreviewInputPin,
FALSE // not direct connect
)))
{
LOG((MSP_ERROR, "connect preview input pin with the tee. %x", hr));
return hr;
}
return hr;
}
HRESULT CStreamVideoSend::CreateSendFilters(
IN IPin *pCapturePin
)
/*++
Routine Description:
Insert filters into the graph and connect to the capture pin.
Capturepin->TEE+->Encoder->SPH->RTPRender
Arguments:
pPin - The output pin on the capture filter.
Return Value:
HRESULT.
--*/
{
HRESULT hr;
if (m_pEdgeFilter)
{
// connect the capture pin with the smart tee filter.
if (FAILED(hr = ::ConnectFilters(
m_pIGraphBuilder,
(IPin *)pCapturePin,
(IBaseFilter *)m_pEdgeFilter
)))
{
LOG((MSP_ERROR, "connect capture pin with the tee. %x", hr));
return hr;
}
return hr;
}
// Create the tee filter and add it into the graph.
CComPtr<IBaseFilter> pTeeFilter;
if (FAILED(hr = ::AddFilter(
m_pIGraphBuilder,
CLSID_SmartTee,
// CLSID_InfTee,
L"tee",
&pTeeFilter)))
{
LOG((MSP_ERROR, "add smart tee filter. %x", hr));
return hr;
}
// connect the capture pin with the tee filter.
if (FAILED(hr = ::ConnectFilters(
m_pIGraphBuilder,
(IPin *)pCapturePin,
(IBaseFilter *)pTeeFilter
)))
{
LOG((MSP_ERROR, "connect capture pin with the tee. %x", hr));
return hr;
}
// Create the codec filter and add it into the graph.
CComPtr<IBaseFilter> pCodecFilter;
if (FAILED(hr = ::AddFilter(
m_pIGraphBuilder,
*m_pClsidCodecFilter,
L"Encoder",
&pCodecFilter)))
{
LOG((MSP_ERROR, "add Codec filter. %x", hr));
return hr;
}
// configure the encoder
#ifdef TWOFRAMERATES
if (FAILED(hr = ::ConfigureEncoder(
pCodecFilter,
m_Settings.Video.bCIF,
m_dwCurrentBitRate,
(m_dwCurrentBitRate > c_SlowLinkSpeed) ? g_dwVideoSampleRateHigh
: g_dwVideoSampleRateLow
)))
#else
if (FAILED(hr = ::ConfigureEncoder(
pCodecFilter,
m_Settings.Video.bCIF,
m_dwCurrentBitRate,
g_dwVideoSampleRateHigh
)))
#endif
{
LOG((MSP_WARN, "Configure video encoder. %x", hr));
}
// connect the smart tee filter and the Codec filter.
if (FAILED(hr = ::ConnectFilters(
m_pIGraphBuilder,
(IBaseFilter *)pTeeFilter,
(IBaseFilter *)pCodecFilter
)))
{
LOG((MSP_ERROR, "connect Tee filter and codec filter. %x", hr));
return hr;
}
// Create the send payload handler and add it into the graph.
CComPtr<IBaseFilter> pISPHFilter;
if (FAILED(hr = ::AddFilter(
m_pIGraphBuilder,
*m_pClsidPHFilter,
L"SPH",
&pISPHFilter
)))
{
LOG((MSP_ERROR, "add SPH filter. %x", hr));
return hr;
}
// Connect the Codec filter with the SPH filter .
if (FAILED(hr = ::ConnectFilters(
m_pIGraphBuilder,
(IBaseFilter *)pCodecFilter,
(IBaseFilter *)pISPHFilter
)))
{
LOG((MSP_ERROR, "connect codec filter and SPH filter. %x", hr));
return hr;
}
// Get the IRTPSPHFilter interface.
CComQIPtr<IRTPSPHFilter,
&IID_IRTPSPHFilter> pIRTPSPHFilter(pISPHFilter);
if (pIRTPSPHFilter == NULL)
{
LOG((MSP_ERROR, "get IRTPSPHFilter interface"));
return E_NOINTERFACE;
}
// Create the RTP render filter and add it into the graph.
CComPtr<IBaseFilter> pRenderFilter;
if (FAILED(hr = ::AddFilter(
m_pIGraphBuilder,
CLSID_RTPRenderFilter,
L"RtpRender",
&pRenderFilter)))
{
LOG((MSP_ERROR, "adding render filter. %x", hr));
return hr;
}
// Set the address for the render fitler.
if (FAILED(hr = ConfigureRTPFilter(pRenderFilter)))
{
LOG((MSP_ERROR, "configure RTP Filter failed %x", hr));
return hr;
}
// Connect the SPH filter with the RTP Render filter.
if (FAILED(hr = ::ConnectFilters(
m_pIGraphBuilder,
(IBaseFilter *)pISPHFilter,
(IBaseFilter *)pRenderFilter
)))
{
LOG((MSP_ERROR, "connect SPH filter and Render filter. %x", hr));
return hr;
}
// remember the first filter after the terminal
m_pEdgeFilter = pTeeFilter;
m_pEdgeFilter->AddRef();
m_pIEncoderFilter = pCodecFilter;
m_pIEncoderFilter->AddRef();
return S_OK;
}
HRESULT CStreamVideoSend::SendIFrame()
/*++
Routine Description:
Now we got a I Frame request from the TSP. Use the encoder filter to
generate a I frame.
Arguments:
Return Value:
HRESULT.
--*/
{
CLock lock(m_lock);
if (!m_pIEncoderFilter)
{
return E_UNEXPECTED;
}
DWORD dwCurrentTime = timeGetTime();
if (dwCurrentTime - m_dwLastIFrameSentTime > IFRAMEINTERVAL)
{
// this function always succeeds.
EncoderDoCommand(m_pIEncoderFilter, EC_IFRAME, 0);
m_dwLastIFrameSentTime = dwCurrentTime;
m_dwIFramePending = 0;
}
else
{
m_dwIFramePending = 1;
}
return S_OK;
}
HRESULT CStreamVideoSend::ChangeMaxBitRate(
IN DWORD dwMaxBitRate
)
/*++
Routine Description:
The receiver set the max bit-rate to a new value.
Arguments:
dwMaxBitRate - the new max bit rate requested by the other endpoint.
Return Value:
S_OK;
--*/
{
LOG((MSP_INFO, "new Max bitrate: %d", dwMaxBitRate));
CLock lock(m_lock);
m_Settings.Video.dwMaxBitRate = dwMaxBitRate;
if (m_dwCurrentBitRate > m_Settings.Video.dwMaxBitRate)
{
m_dwCurrentBitRate = m_Settings.Video.dwMaxBitRate;
if (m_pIEncoderFilter)
{
// this function always succeeds.
EncoderDoCommand(
m_pIEncoderFilter, EC_BITRATE, m_dwCurrentBitRate
);
}
}
return S_OK;
}
HRESULT CStreamVideoSend::HandlePacketTransmitLoss(
IN DWORD dwLossRate
)
/*++
Routine Description:
.
Arguments:
dwMaxBitRate - the new max bit rate requested by the other endpoint.
Return Value:
S_OK;
--*/
{
LOG((MSP_TRACE, "%ls HandlePacketTransmitLoss, lossRate:%d",
m_szName, dwLossRate));
CLock lock(m_lock);
if (m_pMSPCall == NULL)
{
LOG((MSP_WARN, "The call has shut down the stream."));
return S_OK;
}
DWORD dwCurrentTime = timeGetTime();
if (dwLossRate == 0)
{
if (m_dwIFramePending)
{
// this function always succeeds.
EncoderDoCommand(m_pIEncoderFilter, EC_IFRAME, 0);
m_dwLastIFrameSentTime = dwCurrentTime;
m_dwIFramePending = 0;
}
if (m_dwCurrentBitRate >= m_Settings.Video.dwMaxBitRate)
{
return S_OK;
}
// Adjust the proposed bitrate and
m_dwProposedBitRate += BITRATEINC;
if (m_dwProposedBitRate > m_Settings.Video.dwMaxBitRate)
{
m_dwProposedBitRate = m_Settings.Video.dwMaxBitRate;
}
if ((m_dwProposedBitRate - m_dwCurrentBitRate >= BITRATEDELTA)
|| (m_dwProposedBitRate == m_Settings.Video.dwMaxBitRate))
{
m_dwCurrentBitRate = m_dwProposedBitRate;
// this function always succeeds.
EncoderDoCommand(
m_pIEncoderFilter, EC_BITRATE, m_dwCurrentBitRate
);
}
return S_OK;
}
_ASSERTE(dwLossRate < 100);
m_dwProposedBitRate = (DWORD)(m_dwCurrentBitRate / 100.0 * (100 - dwLossRate));
if (m_dwProposedBitRate < BITRATELOWERLIMIT)
{
// we don't want the bitRate to go too low.
m_dwProposedBitRate = BITRATELOWERLIMIT;
// TODO, if this happens too many times, close the channel.
}
if (m_dwCurrentBitRate - m_dwProposedBitRate >= BITRATEDELTA)
{
m_dwCurrentBitRate = m_dwProposedBitRate;
// this function always succeeds.
EncoderDoCommand(
m_pIEncoderFilter, EC_BITRATE, m_dwCurrentBitRate
);
}
if (dwCurrentTime - m_dwLastIFrameSentTime > IFRAMEINTERVAL)
{
// this function always succeeds.
EncoderDoCommand(
m_pIEncoderFilter, EC_IFRAME, 0
);
m_dwLastIFrameSentTime = dwCurrentTime;
m_dwIFramePending = 0;
}
else
{
// Remember that we need to send an I Frame when time arrives.
m_dwIFramePending = 1;
}
return S_OK;
}