/usr/include/sipxtapi/CpTopologyGraphInterface.h is in libsipxtapi-dev 3.3.0~test17-1.
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// Copyright (C) 2005-2013 SIPez LLC. All rights reserved.
//
// Copyright (C) 2004-2009 SIPfoundry Inc.
// Licensed by SIPfoundry under the LGPL license.
//
// Copyright (C) 2004-2006 Pingtel Corp. All rights reserved.
// Licensed to SIPfoundry under a Contributor Agreement.
//
// $$
//////////////////////////////////////////////////////////////////////////////
// Author: Dan Petrie (dpetrie AT SIPez DOT com)
#ifndef _CpTopologyGraphInterface_h_
#define _CpTopologyGraphInterface_h_
// SYSTEM INCLUDES
// APPLICATION INCLUDES
#include <sdp/SdpCodecList.h>
#include "mp/MpTypes.h"
#include "mi/CpMediaInterface.h"
#include <net/QoS.h>
#include "MaNotfTranslatorDispatcher.h"
// DEFINES
//#define HAVE_DELAY_API
// MACROS
// EXTERNAL FUNCTIONS
// EXTERNAL VARIABLES
// CONSTANTS
// STRUCTS
// TYPEDEFS
// FORWARD DECLARATIONS
class CpTopologyGraphFactoryImpl;
class CpTopologyMediaConnection;
class MpTopologyGraph;
class MpResourceTopology;
class MpResourceFactory;
class MpInputDeviceManager;
class MpOutputDeviceManager;
class OsSocket;
/** Subsystem manager and creator of CpTopologyGraphInterfaces specialization of CpMediaInterface
*
*/
class CpTopologyGraphInterface : public CpMediaInterface
{
/* //////////////////////////// PUBLIC //////////////////////////////////// */
public:
/* ============================ CREATORS ================================== */
//! Default constructor
CpTopologyGraphInterface(CpTopologyGraphFactoryImpl* factoryImpl,
uint32_t samplesPerFrame,
uint32_t samplesPerSec,
const char* publicAddress = NULL,
const char* localAddress = NULL,
int numCodecs = 0,
SdpCodec* sdpCodecArray[] = NULL,
const char* pLocale = "",
int expeditedIpTos = QOS_LAYER3_LOW_DELAY_IP_TOS,
const char* stunServer = NULL,
int stunPort = PORT_NONE,
int stunKeepAlivePeriodSecs = 28,
const char* turnServer = NULL,
int turnPort = PORT_NONE,
const char* turnUsername = NULL,
const char* turnPassword = NULL,
int turnKeepAlivePeriodSecs = 28,
UtlBoolean enableIce = FALSE,
OsMsgDispatcher* pDispatcher = NULL,
MpInputDeviceManager* pInputDeviceManager = NULL,
MpInputDeviceHandle inputDeviceHandle = 1,
UtlBoolean inputDeviceAlreadyEnabled = FALSE,
MpOutputDeviceManager* pOutputDeviceManager = NULL,
MpOutputDeviceHandle outputDeviceHandle = 1
);
//! Destructor
virtual ~CpTopologyGraphInterface();
void release();
/* ============================ MANIPULATORS ============================== */
/// @copydoc CpMediaInterface::createConnection()
virtual OsStatus createConnection(int& connectionId,
const char* szLocalAddress,
int localPort = 0,
void* videoWindowHandle = NULL,
void* const pSecurityAttributes = NULL,
const RtpTransportOptions rtpTransportOptions=RTP_TRANSPORT_UDP);
/// @brief This is non-standard version of createConnection() to be used
/// with custom OsSocket.
virtual OsStatus createConnection(int& connectionId,
OsSocket* rtpSocket,
OsSocket* rtcpSocket,
UtlBoolean isMulticast);
/**<
* This version of createConnection() can be used if you want to override
* the OsSocket class in order to provide an external socket implementation.
*
* @note In this case application should free socket instances by itself,
* because it is not freed in deleteConnection() method.
*/
/// @copydoc CpMediaInterface::setPlcMethod()
virtual OsStatus setPlcMethod(int connectionId,
const UtlString &methodName="");
/// @copydoc CpMediaInterface::setNotificationDispatcher()
virtual
OsMsgDispatcher* setNotificationDispatcher(OsMsgDispatcher* pNotificationDispatcher);
/// @copydoc CpMediaInterface::setNotificationsEnabled()
virtual OsStatus setNotificationsEnabled(bool enabled,
const UtlString& resourceName = NULL);
/// Get number of bridge ports (-1 on failure).
int getNumBridgePorts();
/// Look up the port on the bridge to which the indicated connection is connected.
OsStatus getConnectionPortOnBridge(int connectionId,
int streamNum,
int& portOnBridge);
/**<
* @param[in] connectionId - ID of connection to lookup.
* @param[in] streamNum - number of an input RTP stream to lookup.
* Numbering starts from 0, and stream 0 is always present.
* @param[out] portOnBridge - found bridge port or -1 on failure.
*
* @note Output bridge port is always the same as input bridge port for
* stream 0.
*
* @retval OS_SUCCESS on success
* @retval OS_NOT_FOUND if some error occurs.
*/
/// Look up the port on the bridge to which the indicated resource is connected.
OsStatus getResourceInputPortOnBridge(const UtlString &resourceName,
int outputPortIdx,
int& portOnBridge);
/**<
* @warning You must be sure, that this resource is actually connected
* to the bridge.
*
* @param[in] resourceName - name of the resource to lookup.
* @param[in] outputPortIdx - index of the resource's output port which
* is connected to the bridge.
* @param[out] portOnBridge - index of an input port to which resource
* is connected.
*/
/// @copydoc CpMediaInterface::setMediaPassThrough()
virtual OsStatus setMediaPassThrough(int connectionId,
MEDIA_STREAM_TYPE mediaType,
int mediaTypeStreamIndex,
UtlString& receiveAddress,
int rtpPort,
int rtcpPort);
/// @copydoc CpMediaInterface::setConnectionDestination()
virtual OsStatus setConnectionDestination(int connectionId,
const char* rtpHostAddress,
int rtpAudioPort,
int rtcpAudioPort,
int rtpVideoPort,
int rtcpVideoPort);
/// @copydoc CpMediaInterface::setConnectionDestination()
virtual OsStatus setConnectionDestination(int connectionId,
CpMediaInterface::MEDIA_STREAM_TYPE mediaType,
int streamIndex,
const char* rtpHostAddress,
int rtpPort,
int rtcpPort);
/// @copydoc CpMediaInterface::copyPayloadIds
virtual OsStatus copyPayloadIds(int connectionId, int numCodecs, SdpCodec* remoceCodecs[]);
/// @copydoc CpMediaInterface::startRtpSend()
virtual OsStatus startRtpSend(int connectionId,
int numCodecs,
SdpCodec* sendCodec[]);
/// @copydoc CpMediaInterface::setConnectionDestination()
virtual OsStatus startRtpReceive(int connectionId,
int numCodecs,
SdpCodec* sendCodec[]);
/// @copydoc CpMediaInterface::stopRtpSend()
virtual OsStatus stopRtpSend(int connectionId);
/// @copydoc CpMediaInterface::stopRtpReceive()
virtual OsStatus stopRtpReceive(int connectionId);
/// @copydoc CpMediaInterface::getConnectionCodecList()
virtual const SdpCodecList* getConnectionCodecList(int connectionId);
/// @copydoc CpMediaInterface::deleteConnection()
virtual OsStatus deleteConnection(int connectionId);
/// @copydoc CpMediaInterface::startTone()
virtual OsStatus startTone(int toneId, UtlBoolean local, UtlBoolean remote);
/// @copydoc CpMediaInterface::stopTone()
virtual OsStatus stopTone();
/// @copydoc CpMediaInterface::setRtcpTimeOffset()
virtual OsStatus setRtcpTimeOffset(int connectionId,
CpMediaInterface::MEDIA_STREAM_TYPE mediaType,
int streamIndex,
int timeOffset);
/// @copydoc CpMediaInterface::startChannelTone()
virtual OsStatus startChannelTone(int connectionId, int toneId, UtlBoolean local, UtlBoolean remote) ;
virtual OsStatus startChannelTone(int connectionId, int toneId, UtlBoolean local, UtlBoolean remote, UtlBoolean inband, UtlBoolean rfc4733payload) ;
/// @copydoc CpMediaInterface::stopChannelTone()
virtual OsStatus stopChannelTone(int connectionId) ;
virtual OsStatus stopChannelTone(int connectionId,
UtlBoolean inband,
UtlBoolean rfc4733payload);
/// @copydoc CpMediaInterface::playAudio()
virtual OsStatus playAudio(const char* url,
UtlBoolean repeat,
UtlBoolean local,
UtlBoolean remote,
UtlBoolean mixWithMic = false,
int downScaling = 100,
UtlBoolean autoStopAfterFinish = TRUE);
/// @copydoc CpMediaInterface::playBuffer()
virtual OsStatus playBuffer(char* buf,
unsigned long bufSize,
uint32_t bufRate,
int type,
UtlBoolean repeat,
UtlBoolean local,
UtlBoolean remote,
OsProtectedEvent* event = NULL,
UtlBoolean mixWithMic = false,
int downScaling = 100,
UtlBoolean autoStopOnFinish = TRUE);
/// @copydoc CpMediaInterface::pauseAudio()
virtual OsStatus pauseAudio();
/// @copydoc CpMediaInterface::resumeAudio()
virtual OsStatus resumeAudio();
virtual OsStatus stopAudio();
virtual OsStatus playChannelAudio(int connectionId,
const char* url,
UtlBoolean repeat,
UtlBoolean local,
UtlBoolean remote,
UtlBoolean mixWithMic = false,
int downScaling = 100,
UtlBoolean autoStopOnFinish = TRUE);
virtual OsStatus stopChannelAudio(int connectionId) ;
virtual OsStatus recordChannelAudio(int connectionId,
const char* szFile) ;
virtual OsStatus stopRecordChannelAudio(int connectionId) ;
virtual OsStatus recordBufferChannelAudio(int connectionId,
char* pBuffer,
int bufferSize,
int maxRecordTime = -1,
int maxSilence = -1) ;
virtual OsStatus stopRecordBufferChannelAudio(int connectionId) ;
/// Deprecated
virtual OsStatus createPlayer(MpStreamPlayer** ppPlayer,
const char* szStream,
int flags,
OsMsgQ *pMsgQ = NULL,
const char* szTarget = NULL) ;
/// Deprecated
virtual OsStatus destroyPlayer(MpStreamPlayer* pPlayer);
/// Deprecated
virtual OsStatus createPlaylistPlayer(MpStreamPlaylistPlayer**
ppPlayer,
OsMsgQ *pMsgQ = NULL,
const char* szTarget = NULL);
/// Deprecated
virtual OsStatus destroyPlaylistPlayer(MpStreamPlaylistPlayer* pPlayer);
/// Deprecated
virtual OsStatus createQueuePlayer(MpStreamQueuePlayer** ppPlayer,
OsMsgQ *pMsgQ = NULL,
const char* szTarget = NULL);
/// Deprecated
virtual OsStatus destroyQueuePlayer(MpStreamQueuePlayer* pPlayer);
virtual OsStatus giveFocus();
virtual OsStatus defocus();
virtual void setCodecCPULimit(int iLimit);
//:Limits the available codecs to only those within the designated
//:limit.
/// @copydoc CpMediaInterface::recordMic(int,int16_t*,int)
virtual OsStatus recordMic(int ms, int16_t* pAudioBuf, int bufferSize);
/// @copydoc CpMediaInterface::recordMic(int, int, const char*)
virtual OsStatus recordMic(int ms,
int silenceLength,
const char* fileName);
virtual void setContactType(int connectionId, SIPX_CONTACT_TYPE eType, SIPX_CONTACT_ID contactId) ;
//: Set the contact type for this Phone media interface.
// It is important to set the contact type BEFORE creating the
// connection -- setting after the connection has been created
// is essentially a NOP.
//! Rebuild the codec factory on the fly
virtual OsStatus setAudioCodecBandwidth(int connectionId, int bandWidth) ;
/// @copydoc CpMediaInterface::limitCodecs
virtual OsStatus limitCodecs(int connectionId, const SdpCodecList& includeOnlyCodecList);
virtual OsStatus rebuildCodecFactory(int connectionId,
int audioBandwidth,
int videoBandwidth,
UtlString& videoCodec);
//! Set connection bitrate on the fly
virtual OsStatus setConnectionBitrate(int connectionId, int bitrate) ;
//! Set connection framerate on the fly
virtual OsStatus setConnectionFramerate(int connectionId, int framerate) ;
virtual OsStatus setSecurityAttributes(const void* security) ;
virtual OsStatus addAudioRtpConnectionDestination(int connectionId,
int iPriority,
const char* candidateIp,
int candidatePort) ;
virtual OsStatus addAudioRtcpConnectionDestination(int connectionId,
int iPriority,
const char* candidateIp,
int candidatePort) ;
virtual OsStatus addVideoRtpConnectionDestination(int connectionId,
int iPriority,
const char* candidateIp,
int candidatePort) ;
virtual OsStatus addVideoRtcpConnectionDestination(int connectionId,
int iPriority,
const char* candidateIp,
int candidatePort) ;
virtual void setConnectionTcpRole(const int connectionId, const RtpTcpRoles role)
{
// NOT IMPLEMENTED
}
virtual OsStatus generateVoiceQualityReport(int connectiond,
const char* callId,
UtlString& report) ;
/// Enable/disable discontinuous transmission for given connection.
OsStatus enableDtx(int connectionId, UtlBoolean enable);
/// Set inactive time (in ms) after which RTP stream is actually marked inactive.
OsStatus setRtpInactivityTimeout(int connectionId, int timeoutMs);
/* ============================ ACCESSORS ================================= */
/** soon to be deprecated in favor of getCapabilitiesEx
*/
virtual OsStatus getCapabilities(int connectionId,
UtlString& rtpHostAddress,
int& rtpAudioPort,
int& rtcpAudioPort,
int& rtpVideoPort,
int& rtcpVideoPort,
SdpCodecList& supportedCodecs,
SdpSrtpParameters& srtpParams,
int bandWidth,
int& videoBandwidth,
int& videoFramerate);
/**
* replacement for getCapabilities
*/
virtual OsStatus getCapabilitiesEx(int connectionId,
int nMaxAddresses,
UtlString rtpHostAddresses[],
int rtpAudioPorts[],
int rtcpAudioPorts[],
int rtpVideoPorts[],
int rtcpVideoPorts[],
RTP_TRANSPORT transportTypes[],
int& nActualAddresses,
SdpCodecList& supportedCodecs,
SdpSrtpParameters& srtpParameters,
int bandWidth,
int& videoBandwidth,
int& videoFramerate);
//! Calculate the current cost for the current set of
//! sending/receiving codecs.
virtual int getCodecCPUCost();
//! Calculate the worst case cost for the current set of
//! sending/receiving codecs.
virtual int getCodecCPULimit();
// @copydoc CpMediaInterface::getSamplesPerSec()
virtual uint32_t getSamplesPerSec();
/// @copydoc CpMediaInterface::getSamplesPerFrame()
virtual uint32_t getSamplesPerFrame();
/// @copydoc CpMediaInterface::getMsgQ()
virtual OsMsgQ* getMsgQ();
/// @copydoc CpMediaInterface::getNotificationDispatcher()
virtual OsMsgDispatcher* getNotificationDispatcher();
/// @copydoc CpMediaInterface::setMixWeightForOutput
virtual OsStatus setMixWeightForOutput(int bridgeOutputPort, float weight);
/// @copydoc CpMediaInterface::setMixWeightsForOutput()
virtual OsStatus setMixWeightsForOutput(int bridgeOutputPort, int numWeights, float weights[]);
virtual OsStatus getVideoQuality(int& quality);
virtual OsStatus getVideoBitRate(int& bitRate);
virtual OsStatus getVideoFrameRate(int& frameRate);
// Returns the primary codec for the connection
virtual OsStatus getPrimaryCodec(int connectionId,
UtlString& audioCodec,
UtlString& videoCodec,
int* audiopPayloadType,
int* videoPayloadType,
bool& isEncrypted);
virtual OsStatus setVideoWindowDisplay(const void* hWnd);
virtual const void* getVideoWindowDisplay();
virtual OsStatus getAudioEnergyLevels(int& iInputEnergyLevel,
int& iOutputEnergyLevel)
{ return OS_NOT_SUPPORTED ;} ;
virtual OsStatus getAudioEnergyLevels(int connectionId,
int& iInputEnergyLevel,
int& iOutputEnergyLevel,
int& nContributors,
unsigned int* pContributorSRCIds,
int* pContributorEngeryLevels)
{ return OS_NOT_SUPPORTED ;} ;
/// Get receiving and sending SSRCs for given connection.
virtual OsStatus getAudioRtpSourceIDs(int connectionId,
unsigned int& uiSendingSSRC,
unsigned int& uiReceivingSSRC);
/**<
* WARNING! uiReceivingSSRC is not filled right now. Someday it should
* be made an array and then we'll be able to fill it in.
*/
virtual OsStatus enableAudioTransport(int connectionId, UtlBoolean bEnable)
{
return OS_NOT_SUPPORTED;
};
virtual OsStatus enableVideoTransport(int connectionId, UtlBoolean bEnable)
{
return OS_NOT_SUPPORTED;
};
// Note: the followingproperties may be set or get, but have no effect
// Set a media property on the media interface
/*
* Media interfaces that wish to interoperate should implement the following properties
* and values:
*
* Property Name Property Values
* ======================= ===============
* "audioInput1.muteState" "true", "false" for systems that may have a microphone for each conference or 2-way call
* "audioInput1.device" same value as szDevice in sipxAudioSetCallInputDevice
* "audioOutput1.deviceType" "speaker", "ringer" same as sipxAudioEnableSpeaker, but for specific conference or 2-way call
* "audioOutput1.ringerDevice" same value as szDevice in sipxAudioSetRingerOutputDevice
* "audioOutput1.speakerDevice" same values as szDevice in sipxAudioSetCallOutputDevice
* "audioOutput1.volume" string value of iLevel in sipxAudioSetVolume
*/
virtual OsStatus setMediaProperty(const UtlString& propertyName,
const UtlString& propertyValue);
//! Get a media property on the media interface
virtual OsStatus getMediaProperty(const UtlString& propertyName,
UtlString& propertyValue);
//! Set a media property associated with a connection
virtual OsStatus setMediaProperty(int connectionId,
const UtlString& propertyName,
const UtlString& propertyValue);
//! Get a media property associated with a connection
virtual OsStatus getMediaProperty(int connectionId,
const UtlString& propertyName,
UtlString& propertyValue);
/// Get a latency of the input part of the RTP or local connection
virtual OsStatus getConnectionInputLatency(int &latency,
MpConnectionID connectionId,
int streamId=0);
/**<
* @param[out] latency - returned latency value.
* @param[in] connectionId - connection ID to get latency for. Use -1 for local mic.
* @param[in] streamId - stream ID to get latency for. Use 0 for default.
*
* @retval OS_SUCCESS if latency has been successfully calculated.
* @retval OS_NOT_FOUND if connection or stream is not found.
*/
/// Get a latency of the output part of the RTP or local connection
virtual OsStatus getConnectionOutputLatency(int &latency,
MpConnectionID connectionId=-1);
/**<
* @param[out] latency - returned latency value.
* @param[in] connectionId - connection ID to get latency for. Use -1 for local speaker.
*
* @retval OS_SUCCESS if latency has been successfully calculated.
* @retval OS_NOT_FOUND if connection or stream is not found.
*/
virtual UtlString getType() { return "CpTopologyGraphInterface"; };
/* ============================ INQUIRY =================================== */
//! Query whether the specified media connection is enabled for
//! sending RTP.
virtual UtlBoolean isSendingRtpAudio(int connectionId);
//! Query whether the specified media connection is enabled for
//! sending RTP.
virtual UtlBoolean isSendingRtpVideo(int connectionId);
//! Query whether the specified media connection is enabled for
//! sending RTP.
virtual UtlBoolean isReceivingRtpAudio(int connectionId);
//! Query whether the specified media connection is enabled for
//! sending RTP.
virtual UtlBoolean isReceivingRtpVideo(int connectionId);
//! Query whether the specified media connection has a destination
//! specified for sending RTP.
virtual UtlBoolean isDestinationSet(int connectionId);
//! Query whether a new party can be added to this media interfaces
virtual UtlBoolean canAddParty();
//! Query whether the connection has started sending or receiving video
virtual UtlBoolean isVideoInitialized(int connectionId);
//! Query whether the connection has started sending or receiving audio
virtual UtlBoolean isAudioInitialized(int connectionId);
//! Query if the audio device is available.
virtual UtlBoolean isAudioAvailable();
//! Query if we are mixing a video conference
virtual UtlBoolean isVideoConferencing(){return(FALSE);};
/* //////////////////////////// PROTECTED ///////////////////////////////// */
protected:
UtlBoolean getLocalAddresses( int connectionId,
UtlString& hostIp,
int& rtpAudioPort,
int& rtcpAudioPort,
int& rtpVideoPort,
int& rtcpVideoPort) ;
UtlBoolean getNatedAddresses( int connectionId,
UtlString& hostIp,
int& rtpAudioPort,
int& rtcpAudioPort,
int& rtpVideoPort,
int& rtcpVideoPort) ;
UtlBoolean getRelayAddresses( int connectionId,
UtlString& hostIp,
int& rtpAudioPort,
int& rtcpAudioPort,
int& rtpVideoPort,
int& rtcpVideoPort) ;
OsStatus addLocalContacts( int connectionId,
int nMaxAddresses,
UtlString rtpHostAddresses[],
int rtpAudioPorts[],
int rtcpAudioPorts[],
int rtpVideoPorts[],
int rtcpVideoPorts[],
int& nActualAddresses) ;
OsStatus addNatedContacts( int connectionId,
int nMaxAddresses,
UtlString rtpHostAddresses[],
int rtpAudioPorts[],
int rtcpAudioPorts[],
int rtpVideoPorts[],
int rtcpVideoPorts[],
int& nActualAddresses) ;
OsStatus addRelayContacts( int connectionId,
int nMaxAddresses,
UtlString rtpHostAddresses[],
int rtpAudioPorts[],
int rtcpAudioPorts[],
int rtpVideoPorts[],
int rtcpVideoPorts[],
int& nActualAddresses) ;
void applyAlternateDestinations(int connectionId) ;
/// Create socket pair for RTP/RTCP streams.
OsStatus createRtpSocketPair(UtlString localAddress,
int localPort,
UtlBoolean isMulticast,
SIPX_CONTACT_TYPE contactType,
OsSocket* &rtpSocket,
OsSocket* &rtcpSocket);
/**<
* For RTP/RTCP port pair will be set next free port pair.
*
* @param[in] localAddress - Address to bind to (for multihomed hosts).
* @param[in] localPort - Local port to bind to (0 for auto select).
* @param[in] isMulticast - Is requested stream multicast or not?
* @param[in] contactType - Contact type (see SIPX_CONTACT_TYPE).
* @param[out] rtpSocket - Created socket for RTP stream.
* @param[out] rtcpSocket - Created socket for RTCP stream.
*/
/* //////////////////////////// PRIVATE /////////////////////////////////// */
private:
int mLastConnectionId;
MpResourceFactory* mpResourceFactory;
MpTopologyGraph* mpTopologyGraph;
SdpCodecList mSupportedCodecs;
UtlDList mMediaConnections;
int mExpeditedIpTos;
MpInputDeviceManager* mpInputDeviceManager;
MpInputDeviceHandle mInputDeviceHandle;
MpOutputDeviceManager* mpOutputDeviceManager;
MpOutputDeviceHandle mOutputDeviceHandle;
UtlString mStunServer;
int mStunPort;
int mStunRefreshPeriodSecs;
UtlString mTurnServer;
int mTurnPort;
int mTurnRefreshPeriodSecs;
UtlString mTurnUsername;
UtlString mTurnPassword;
UtlBoolean mEnableIce;
UtlString mRtpReceiveHostAddress;
UtlString mLocalAddress;
UtlHashMap mInterfaceProperties;
MaNotfTranslatorDispatcher mTranslatorDispatcher; ///< Dispatcher for translating
///< mediaLib notification messages into abstract MediaAdapter ones.
///< Only used if a dispatcher is set on this interface.
/// Get the next unique connection Id scoped to this flowgraph
int getNextConnectionId();
/// Create media connection structure to store connection params.
CpTopologyMediaConnection* createMediaConnection(int& connectionId, UtlBoolean isMcast);
/// Free media connection structure.
OsStatus deleteMediaConnection(CpTopologyMediaConnection* mediaConnection);
/// Get media connection structure by its connectionID.
CpTopologyMediaConnection* getMediaConnection(int connectionId);
/// Enable discarding of our RTP stream, looped back to us.
OsStatus discardLoopbackRtp(CpTopologyMediaConnection* mediaConnection);
/**<
* This is the case, when you have to turn off similar OS functionality.
* E.g. this is the case, when you're running two or more connections
* on the same computer with the same multicast address and want to
* receive each others packets.
*/
/// Stop receiving RTP on selected media connection.
void stopRtpReceive(CpTopologyMediaConnection* mediaConnection);
/// Stop receiving RTP on selected media connection.
void stopRtpSend(CpTopologyMediaConnection* mediaConnection);
/// Set mixing weight from all connection's streams to the given output port.
OsStatus setConnectionWeightOnBridge(CpTopologyMediaConnection *mediaConnection,
int destPort,
float weight);
/// Set mixing weight from all connection's streams to the given output port.
OsStatus setConnectionToConnectionWeight(CpTopologyMediaConnection *srcConnection,
int destConnectionId,
float weight);
/// Set the Mic gain.
OsStatus setMicGain(float gain);
/// Set mixing weight from the Mic to all other Bridge ports.
OsStatus setMicWeightOnBridge(float weight);
/// Disabled copy constructor
CpTopologyGraphInterface(CpTopologyGraphInterface&);
/// Disabled assignment operator
CpTopologyGraphInterface& operator=(const CpTopologyGraphInterface&);
};
/* ============================ INLINE METHODS ============================ */
#endif // _CpTopologyGraphInterface_h_
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