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/*
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This file is a part of JRTPLIB
Copyright ( c ) 1999 - 2017 Jori Liesenborgs
Contact : jori . liesenborgs @ gmail . com
This library was developed at the Expertise Centre for Digital Media
( http : //www.edm.uhasselt.be), a research center of the Hasselt University
( http : //www.uhasselt.be). The library is based upon work done for
my thesis at the School for Knowledge Technology ( Belgium / The Netherlands ) .
Permission is hereby granted , free of charge , to any person obtaining a
copy of this software and associated documentation files ( the " Software " ) ,
to deal in the Software without restriction , including without limitation
the rights to use , copy , modify , merge , publish , distribute , sublicense ,
and / or sell copies of the Software , and to permit persons to whom the
Software is furnished to do so , subject to the following conditions :
The above copyright notice and this permission notice shall be included
in all copies or substantial portions of the Software .
THE SOFTWARE IS PROVIDED " AS IS " , WITHOUT WARRANTY OF ANY KIND , EXPRESS
OR IMPLIED , INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY ,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT . IN NO EVENT SHALL
THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM , DAMAGES OR OTHER
LIABILITY , WHETHER IN AN ACTION OF CONTRACT , TORT OR OTHERWISE , ARISING
FROM , OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
IN THE SOFTWARE .
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*/
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/**
* \ file rtptransmitter . h
*/
# ifndef RTPTRANSMITTER_H
# define RTPTRANSMITTER_H
# include "rtpconfig.h"
# include "rtptypes.h"
# include "rtptimeutilities.h"
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# include <cstddef>
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namespace qrtplib
{
class RTPRawPacket ;
class RTPAddress ;
class RTPTransmissionParams ;
class RTPTime ;
class RTPTransmissionInfo ;
/** Abstract class from which actual transmission components should be derived.
* Abstract class from which actual transmission components should be derived .
* The abstract class RTPTransmitter specifies the interface for
* actual transmission components . Currently , three implementations exist :
* an UDP over IPv4 transmitter , an UDP over IPv6 transmitter and a transmitter
* which can be used to use an external transmission mechanism .
*/
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class RTPTransmitter
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{
public :
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/** Used to identify a specific transmitter.
* If UserDefinedProto is used in the RTPSession : : Create function , the RTPSession
* virtual member function NewUserDefinedTransmitter will be called to create
* a transmission component .
*/
enum TransmissionProtocol
{
IPv4UDPProto , /**< Specifies the internal UDP over IPv4 transmitter. */
IPv6UDPProto , /**< Specifies the internal UDP over IPv6 transmitter. */
TCPProto , /**< Specifies the internal TCP transmitter. */
ExternalProto , /**< Specifies the transmitter which can send packets using an external mechanism, and which can have received packets injected into it - see RTPExternalTransmitter for additional information. */
UserDefinedProto /**< Specifies a user defined, external transmitter. */
} ;
/** Three kind of receive modes can be specified. */
enum ReceiveMode
{
AcceptAll , /**< All incoming data is accepted, no matter where it originated from. */
AcceptSome , /**< Only data coming from specific sources will be accepted. */
IgnoreSome /**< All incoming data is accepted, except for data coming from a specific set of sources. */
} ;
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protected :
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/** Constructor in which you can specify a memory manager to use. */
RTPTransmitter ( )
{
timeinit . Dummy ( ) ;
}
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public :
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virtual ~ RTPTransmitter ( )
{
}
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/** This function must be called before the transmission component can be used. */
virtual int Init ( ) = 0 ;
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/** Prepares the component to be used.
* Prepares the component to be used . The parameter \ c maxpacksize specifies the maximum size
* a packet can have : if the packet is larger it will not be transmitted . The \ c transparams
* parameter specifies a pointer to an RTPTransmissionParams instance . This is also an abstract
* class and each actual component will define its own parameters by inheriting a class
* from RTPTransmissionParams . If \ c transparams is NULL , the default transmission parameters
* for the component will be used .
*/
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virtual int Create ( std : : size_t maxpacksize , const RTPTransmissionParams * transparams ) = 0 ;
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/** Bind the RTP and RTCP sockets to ports that were set at creation time */
virtual int BindSockets ( ) = 0 ;
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/** By calling this function, buffers are cleared and the component cannot be used anymore.
* By calling this function , buffers are cleared and the component cannot be used anymore .
* Only when the Create function is called again can the component be used again . */
virtual void Destroy ( ) = 0 ;
/** Returns additional information about the transmitter.
* This function returns an instance of a subclass of RTPTransmissionInfo which will give
* some additional information about the transmitter ( a list of local IP addresses for example ) .
* Currently , either an instance of RTPUDPv4TransmissionInfo or RTPUDPv6TransmissionInfo is
* returned , depending on the type of the transmitter . The user has to deallocate the returned
* instance when it is no longer needed , which can be done using RTPTransmitter : : DeleteTransmissionInfo .
*/
virtual RTPTransmissionInfo * GetTransmissionInfo ( ) = 0 ;
/** Deallocates the information returned by RTPTransmitter::GetTransmissionInfo .
* Deallocates the information returned by RTPTransmitter : : GetTransmissionInfo .
*/
virtual void DeleteTransmissionInfo ( RTPTransmissionInfo * inf ) = 0 ;
/** Returns \c true if the address specified by \c addr is one of the addresses of the transmitter. */
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virtual bool ComesFromThisTransmitter ( const RTPAddress & addr ) = 0 ;
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/** Returns the amount of bytes that will be added to the RTP packet by the underlying layers (excluding
* the link layer ) . */
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virtual std : : size_t GetHeaderOverhead ( ) = 0 ;
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/** Send a packet with length \c len containing \c data to all RTP addresses of the current destination list. */
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virtual int SendRTPData ( const void * data , std : : size_t len ) = 0 ;
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/** Send a packet with length \c len containing \c data to all RTCP addresses of the current destination list. */
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virtual int SendRTCPData ( const void * data , std : : size_t len ) = 0 ;
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/** Adds the address specified by \c addr to the list of destinations. */
virtual int AddDestination ( const RTPAddress & addr ) = 0 ;
/** Deletes the address specified by \c addr from the list of destinations. */
virtual int DeleteDestination ( const RTPAddress & addr ) = 0 ;
/** Clears the list of destinations. */
virtual void ClearDestinations ( ) = 0 ;
/** Returns \c true if the transmission component supports multicasting. */
virtual bool SupportsMulticasting ( ) = 0 ;
/** Joins the multicast group specified by \c addr. */
virtual int JoinMulticastGroup ( const RTPAddress & addr ) = 0 ;
/** Leaves the multicast group specified by \c addr. */
virtual int LeaveMulticastGroup ( const RTPAddress & addr ) = 0 ;
/** Sets the receive mode.
* Sets the receive mode to \ c m , which is one of the following : RTPTransmitter : : AcceptAll ,
* RTPTransmitter : : AcceptSome or RTPTransmitter : : IgnoreSome . Note that if the receive
* mode is changed , all information about the addresses to ignore to accept is lost .
*/
virtual int SetReceiveMode ( RTPTransmitter : : ReceiveMode m ) = 0 ;
/** Adds \c addr to the list of addresses to ignore. */
virtual int AddToIgnoreList ( const RTPAddress & addr ) = 0 ;
/** Deletes \c addr from the list of addresses to accept. */
virtual int DeleteFromIgnoreList ( const RTPAddress & addr ) = 0 ;
/** Clears the list of addresses to ignore. */
virtual void ClearIgnoreList ( ) = 0 ;
/** Adds \c addr to the list of addresses to accept. */
virtual int AddToAcceptList ( const RTPAddress & addr ) = 0 ;
/** Deletes \c addr from the list of addresses to accept. */
virtual int DeleteFromAcceptList ( const RTPAddress & addr ) = 0 ;
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/** Clears the list of addresses to accept. */
virtual void ClearAcceptList ( ) = 0 ;
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/** Sets the maximum packet size which the transmitter should allow to \c s. */
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virtual int SetMaximumPacketSize ( std : : size_t s ) = 0 ;
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/** Returns the raw data of a received RTP packet
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* in an RTPRawPacket instance . */
virtual RTPRawPacket * GetNextPacket ( ) = 0 ;
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} ;
/** Base class for transmission parameters.
* This class is an abstract class which will have a specific implementation for a
* specific kind of transmission component . All actual implementations inherit the
* GetTransmissionProtocol function which identifies the component type for which
* these parameters are valid .
*/
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class RTPTransmissionParams
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{
protected :
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RTPTransmissionParams ( RTPTransmitter : : TransmissionProtocol p )
{
protocol = p ;
}
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public :
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virtual ~ RTPTransmissionParams ( )
{
}
/** Returns the transmitter type for which these parameters are valid. */
RTPTransmitter : : TransmissionProtocol GetTransmissionProtocol ( ) const
{
return protocol ;
}
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private :
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RTPTransmitter : : TransmissionProtocol protocol ;
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} ;
/** Base class for additional information about the transmitter.
* This class is an abstract class which will have a specific implementation for a
* specific kind of transmission component . All actual implementations inherit the
* GetTransmissionProtocol function which identifies the component type for which
* these parameters are valid .
*/
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class RTPTransmissionInfo
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{
protected :
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RTPTransmissionInfo ( RTPTransmitter : : TransmissionProtocol p )
{
protocol = p ;
}
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public :
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virtual ~ RTPTransmissionInfo ( )
{
}
/** Returns the transmitter type for which these parameters are valid. */
RTPTransmitter : : TransmissionProtocol GetTransmissionProtocol ( ) const
{
return protocol ;
}
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private :
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RTPTransmitter : : TransmissionProtocol protocol ;
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} ;
} // end namespace
# endif // RTPTRANSMITTER_H