Class List

Here are the classes, structs, unions and interfaces with brief descriptions:
AVStreams::alreadyConnected
AV_Null_MediaCtrl
AVStreams::Basic_StreamCtrlBase class for StreamCtrl, implements basic stream start and stop functionality
TAO_AV_RTP::bvchdr
TAO_AV_RTP::cellbhdr
flowProtocol::credit
AVStreams::deviceQosMismatch
AVStreams::failedToConnect
AVStreams::failedToListen
AVStreams::FDev
AVStreams::FEPMismatch
AVStreams::FlowConnection
AVStreams::FlowConsumer
AVStreams::FlowEndPoint
AVStreams::FlowProducer
AVStreams::flowStatusUsed to store the status of a flow
AVStreams::formatMismatch
AVStreams::formatNotSupported
AVStreams::FPError
flowProtocol::fragment
flowProtocol::frame
flowProtocol::frameHeader
AVStreams::InvalidPosition
AVStreams::invalidSettings
TAO_AV_RTP::jpeghdr
AVStreams::MCastConfigIfInterface for multicasting operations
MD5_CTX
TAO_AV_RTCP::md5_string
AVStreams::MediaControlMediaControl interface is similar to ControlledStream interface in MSS. It can be inherited by flow endpoints or FlowConnection interfaces
MediaTimer
AVStreams::MMDeviceImplements a factory to create Endpoints and VDevs
TAO_StreamCtrl::MMDevice_Map_Entry
MMDevice_Map_Hash_Key
AVStreams::NegotiatorThis interface is used to negotiate QoS between two stream endpoints
AVStreams::noSuchFlow
AVStreams::notConnected
AVStreams::notSupported
TAO_AV_RTCP::ntp64
Null_MediaCtrl
TAO_AV_RTP::nvhdr
TAO_MCastConfigIf::Peer_Info
AVStreams::Position
AVStreams::PostionKeyNotSupported
AVStreams::MediaControl::PostionKeyNotSupported
AVStreams::PropertyException
AVStreams::protocolNotSupported
AVStreams::QoSThis structure represents QoS for a given type. E.g. {"video_qos", <"video_framerate", 26>, <"video_depth", 9>}
AVStreams::QoSRequestFailed
RR_BlockThe receiver report block encapsulates the data that represents the reception statistics for a particular stream
RTCP_BYE_PacketThe BYE RTCP packet is sent by a party when leaving an RTP session
RTCP_Channel_InSingle incoming data channel, or stream. The class has several responsibilities. When the class is instantiated, the incoming RTP traffic must be declared a valid source based on the RTP packets received. Once declared valie, this class is responsible for keeping up with reception statistics and other information. When an SR or RR is created (outside of this class), this class is used to get the Receiver Report block for this particular stream
RTCP_Channel_OutSingle outgoing data channel, or stream. It keeps track of statistics such as number of packets sent and number of bytes sent
RTCP_Common_HeaderThis is the header data that is common to all RTCP messages
RTCP_PacketThis is an abstract class from which all RTCP packet types are derived. It contains code used to validate the RTCP packet
RTCP_RR_PacketThe Receiver Report packet is sent by all members of a session that are not sending data. It contains a list of RR_Block to represent each source this party is receiving data from
RTCP_SDES_PacketThe Source Description packet is sent by all members of a session. At a minimum, the canonical name (or CNAME) is sent with each RTCP packet. Other items such as name, email, or location are included less frequently
RTCP_SR_PacketThe Sender Report packet is sent by all members of a session that are sending data. It contains statistics on the data being sent out. It also contains a list of RR_Block to represent each source this party is receiving data from
TAO_AV_RTCP::rtcphdr
RTP_PacketThis class encapsulates all the necessary information to break down or build up an RTP data packet as well as operations to access all data items in the packet
TAO_AV_RTP::rtphdr
sdesChunk_sThis is a linked list of structures containing groups of source description items. A group of items for a particular synchronization source id is referred to as a 'chunk'
sdesItem_sThis is a linked list of structures containing source description 'items' such as canonical name, email, location etc
flowProtocol::sequencedFrame
AVStreams::SFPStatusThis structure is defined for SFP1.0 Subsequent versions of the protocol may specify new structures
flowProtocol::specialFrame
flowProtocol::Start
flowProtocol::StartReply
AVStreams::StreamCtrlImplementation the A/V StreamCtrl class. this class is used to control the stream. It should be subclassed by applications that want to provide more control features
AVStreams::StreamEndPoint
StreamEndpointThe Stream EndPoint. Used to implement one endpoint of a stream that implements the transport layer
AVStreams::StreamEndPoint_AThe "A" side of a streamendpoint
AVStreams::StreamEndPoint_BThe "B" side of a streamendpoint
AVStreams::streamOpDenied
AVStreams::streamOpFailed
TAO_AV_Acceptor
TAO_AV_Acceptor_Registry
TAO_AV_Base_Connector
TAO_AV_CallbackCallback class that the user will be implementing for receiving frames from the network and also for timer events
TAO_AV_Child_Process< T_StreamEndpoint, T_VDev, T_MediaCtrl >Helper class for the child process created in TAO_AV_Endpoint_Process_Strategy
TAO_AV_Child_Process_A< T_StreamEndpoint, T_VDev, T_MediaCtrl >Helper class for the child process created in TAO_AV_Child_Process
TAO_AV_Child_Process_B< T_StreamEndpoint, T_VDev, T_MediaCtrl >Helper class for the child process created in TAO_AV_Child_Process
TAO_AV_Connector
TAO_AV_Connector_Registry
TAO_AV_CoreThis class encapsulates access to the TAO AV Core's resources and its state
TAO_AV_Default_Resource_FactoryTAO AV Streams default resource factory The AV Streams resource factory loads the pluggable transport and flow protocol factories in the corresponding factory sets
TAO_AV_Endpoint_Process_StrategyProcess-based strategy for creating endpoints. Abstract base class
TAO_AV_Endpoint_Process_Strategy_AProcess-based strategy to create "A" type endpoints
TAO_AV_Endpoint_Process_Strategy_BProcess-based strategy to create "B" type endpoints
TAO_AV_Endpoint_Reactive_Strategy< T_StreamEndpoint, T_VDev, T_MediaCtrl >Reactive strategy base class
TAO_AV_Endpoint_Reactive_Strategy_A< T_StreamEndpoint, T_VDev, T_MediaCtrl >Reactive strategy
TAO_AV_Endpoint_Reactive_Strategy_B< T_StreamEndpoint, T_Vdev, T_MediaCtrl >Reactive strategy
TAO_AV_Endpoint_Strategy
TAO_AV_Flow_Handler
TAO_AV_Flow_Protocol_Factory
TAO_AV_Flow_Protocol_Item
TAO_AV_frame_info
TAO_AV_Payload_Type_Policy
TAO_AV_Policy
TAO_AV_Protocol_Object
TAO_AV_QoSClass for getting and setting the QoS characteristics of an AV Stream
TAO_AV_Resource_FactoryTAO AV Streams default resource factory abstract The AV Streams resource factory loads the pluggable transport and flow protocol factories in the corresponding factory sets
TAO_AV_RTCPEncapsulate the header format for the Real Time Control Protocol (RTCP)
TAO_AV_RTCP_CallbackTAO_AV_Callback for RTCP protocol
TAO_AV_RTCP_Flow_Factory
TAO_AV_RTCP_ObjectTAO_AV_Protocol_Object for RTCP protocol
TAO_AV_RTCP_Sdes
TAO_AV_RTCP_Sdes_Policy
TAO_AV_RTPEncapsulate the Real Time Protocol (RTP) header format
TAO_AV_RTP_Flow_Factory
TAO_AV_RTP_ObjectTAO_AV_Protocol_object for the RTP protocol
TAO_AV_SFP_Credit_Policy
TAO_AV_SFP_Factory
TAO_AV_SSRC_Policy
TAO_AV_TCP_Acceptor
TAO_AV_TCP_Base_Acceptor
TAO_AV_TCP_Base_Connector
TAO_AV_TCP_Connector
TAO_AV_TCP_Factory
TAO_AV_TCP_Flow_Factory
TAO_AV_TCP_Flow_Handler
TAO_AV_TCP_ObjectTAO_AV_Protocol_Object for Transmission Control Protocol (TCP)
TAO_AV_TCP_TransportA transport abstraction for socket streams. Uses the ACE_SOCK_Stream to send the data
TAO_AV_TransportA Base class for the different transport protocols. All the different transports should derive and implement the open,close,send and recv methods
TAO_AV_Transport_Factory
TAO_AV_Transport_Item
TAO_AV_UDP_Acceptor
TAO_AV_UDP_Connection_SetupThis class is a helper for the TAO_AV_UDP_Acceptor and TAO_AV_UDP_Connector. It basically just reduces duplicate code. It takes the address of the peer in the connection, whether or not it is a multicast connection, and whether it is a connector or acceptor; and creates the local address and flow handler associated with the connection
TAO_AV_UDP_Connector
TAO_AV_UDP_Factory
TAO_AV_UDP_Flow_Factory
TAO_AV_UDP_Flow_HandlerFlow Handler for UDP flows
TAO_AV_UDP_MCast_Flow_HandlerFlow Handler for data sent over multicast sockets
TAO_AV_UDP_MCast_TransportA transport abstraction for Multicast dgram sockets. Uses the ACE_SOCK_Dgram_Mcast to send data
TAO_AV_UDP_ObjectTAO_AV_Protocol_Object for the User Datagram Protocol (UDP)
TAO_AV_UDP_TransportA transport abstraction for udp sockets. Uses the ACE_SOCK_Dgram to send the data
TAO_Base_StreamEndPoint
TAO_Basic_StreamCtrlBase class for StreamCtrl, implements basic stream start and stop functionality
TAO_FDev< T_Producer, T_Consumer >Implementation of the AV/Streams Flow Device. A FlowConnection is used to bind FDevs for flows, much like how a StreamCtrl is used to bind MMDevices for streams
TAO_FlowConnectionThis class currently supports only one producer and one consumer per flow
TAO_FlowConsumer
TAO_FlowEndPointThis class is used per flow e.g video flow and an audio flow to encapsulate the transport details
TAO_FlowProducer
TAO_FlowSpec_EntryA helper entry class in the flow spec sequence passed to bind_devs
TAO_Forward_FlowSpec_Entry
TAO_MCastConfigIf
TAO_MediaControlAbstract Mediacontrol class. The following are to be handled by the specialized media control for the specific media like camera, speaker
TAO_MMDeviceImplements a factory to create Endpoints and VDevs
TAO_Negotiator
TAO_Reverse_FlowSpec_Entry
TAO_SFP_Base
TAO_SFP_Consumer_Object
TAO_SFP_Fragment_Node
TAO_SFP_Fragment_Table_Entry
TAO_SFP_Frame_State
TAO_SFP_Object
TAO_SFP_Producer_Object
TAO_StreamCtrlImplementation the A/V StreamCtrl class. this class is used to control the stream. It should be subclassed by applications that want to provide more control features
TAO_StreamEndPointThe Stream EndPoint. Used to implement one endpoint of a stream that implements the transport layer
TAO_StreamEndPoint_AThe "A" side of a streamendpoint
TAO_StreamEndPoint_BThe "B" side of a streamendpoint
TAO_Tokenizer
TAO_VDevImplements the VDev interface. One of these is created per connection, and represents device-specific parameters
AVStreams::VDevImplements the VDev interface. One of these is created per connection, and represents device-specific parameters
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