/usr/include/udt/api.h is in libudt-dev 4.9-2.
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Copyright (c) 2001 - 2010, The Board of Trustees of the University of Illinois.
All rights reserved.
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modification, are permitted provided that the following conditions are
met:
* Redistributions of source code must retain the above
copyright notice, this list of conditions and the
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* Redistributions in binary form must reproduce the
above copyright notice, this list of conditions
and the following disclaimer in the documentation
and/or other materials provided with the distribution.
* Neither the name of the University of Illinois
nor the names of its contributors may be used to
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IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
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*****************************************************************************/
/*****************************************************************************
written by
Yunhong Gu, last updated 09/28/2010
*****************************************************************************/
#ifndef __UDT_API_H__
#define __UDT_API_H__
#include <map>
#include <vector>
#include "udt.h"
#include "packet.h"
#include "queue.h"
#include "cache.h"
#include "epoll.h"
class CUDT;
class CUDTSocket
{
public:
CUDTSocket();
~CUDTSocket();
UDTSTATUS m_Status; // current socket state
uint64_t m_TimeStamp; // time when the socket is closed
int m_iIPversion; // IP version
sockaddr* m_pSelfAddr; // pointer to the local address of the socket
sockaddr* m_pPeerAddr; // pointer to the peer address of the socket
UDTSOCKET m_SocketID; // socket ID
UDTSOCKET m_ListenSocket; // ID of the listener socket; 0 means this is an independent socket
UDTSOCKET m_PeerID; // peer socket ID
int32_t m_iISN; // initial sequence number, used to tell different connection from same IP:port
CUDT* m_pUDT; // pointer to the UDT entity
std::set<UDTSOCKET>* m_pQueuedSockets; // set of connections waiting for accept()
std::set<UDTSOCKET>* m_pAcceptSockets; // set of accept()ed connections
pthread_cond_t m_AcceptCond; // used to block "accept" call
pthread_mutex_t m_AcceptLock; // mutex associated to m_AcceptCond
unsigned int m_uiBackLog; // maximum number of connections in queue
int m_iMuxID; // multiplexer ID
pthread_mutex_t m_ControlLock; // lock this socket exclusively for control APIs: bind/listen/connect
private:
CUDTSocket(const CUDTSocket&);
CUDTSocket& operator=(const CUDTSocket&);
};
////////////////////////////////////////////////////////////////////////////////
class CUDTUnited
{
friend class CUDT;
friend class CRendezvousQueue;
public:
CUDTUnited();
~CUDTUnited();
public:
// Functionality:
// initialize the UDT library.
// Parameters:
// None.
// Returned value:
// 0 if success, otherwise -1 is returned.
int startup();
// Functionality:
// release the UDT library.
// Parameters:
// None.
// Returned value:
// 0 if success, otherwise -1 is returned.
int cleanup();
// Functionality:
// Create a new UDT socket.
// Parameters:
// 0) [in] af: IP version, IPv4 (AF_INET) or IPv6 (AF_INET6).
// 1) [in] type: socket type, SOCK_STREAM or SOCK_DGRAM
// Returned value:
// The new UDT socket ID, or INVALID_SOCK.
UDTSOCKET newSocket(const int& af, const int& type);
// Functionality:
// Create a new UDT connection.
// Parameters:
// 0) [in] listen: the listening UDT socket;
// 1) [in] peer: peer address.
// 2) [in/out] hs: handshake information from peer side (in), negotiated value (out);
// Returned value:
// If the new connection is successfully created: 1 success, 0 already exist, -1 error.
int newConnection(const UDTSOCKET listen, const sockaddr* peer, CHandShake* hs);
// Functionality:
// look up the UDT entity according to its ID.
// Parameters:
// 0) [in] u: the UDT socket ID.
// Returned value:
// Pointer to the UDT entity.
CUDT* lookup(const UDTSOCKET u);
// Functionality:
// Check the status of the UDT socket.
// Parameters:
// 0) [in] u: the UDT socket ID.
// Returned value:
// UDT socket status, or NONEXIST if not found.
UDTSTATUS getStatus(const UDTSOCKET u);
// socket APIs
int bind(const UDTSOCKET u, const sockaddr* name, const int& namelen);
int bind(const UDTSOCKET u, UDPSOCKET udpsock);
int listen(const UDTSOCKET u, const int& backlog);
UDTSOCKET accept(const UDTSOCKET listen, sockaddr* addr, int* addrlen);
int connect(const UDTSOCKET u, const sockaddr* name, const int& namelen);
int close(const UDTSOCKET u);
int getpeername(const UDTSOCKET u, sockaddr* name, int* namelen);
int getsockname(const UDTSOCKET u, sockaddr* name, int* namelen);
int select(ud_set* readfds, ud_set* writefds, ud_set* exceptfds, const timeval* timeout);
int selectEx(const std::vector<UDTSOCKET>& fds, std::vector<UDTSOCKET>* readfds, std::vector<UDTSOCKET>* writefds, std::vector<UDTSOCKET>* exceptfds, int64_t msTimeOut);
int epoll_create();
int epoll_add_usock(const int eid, const UDTSOCKET u, const int* events = NULL);
int epoll_add_ssock(const int eid, const SYSSOCKET s, const int* events = NULL);
int epoll_remove_usock(const int eid, const UDTSOCKET u, const int* events = NULL);
int epoll_remove_ssock(const int eid, const SYSSOCKET s, const int* events = NULL);
int epoll_wait(const int eid, std::set<UDTSOCKET>* readfds, std::set<UDTSOCKET>* writefds, int64_t msTimeOut, std::set<SYSSOCKET>* lrfds = NULL, std::set<SYSSOCKET>* lwfds = NULL);
int epoll_release(const int eid);
// Functionality:
// record the UDT exception.
// Parameters:
// 0) [in] e: pointer to a UDT exception instance.
// Returned value:
// None.
void setError(CUDTException* e);
// Functionality:
// look up the most recent UDT exception.
// Parameters:
// None.
// Returned value:
// pointer to a UDT exception instance.
CUDTException* getError();
private:
std::map<UDTSOCKET, CUDTSocket*> m_Sockets; // stores all the socket structures
pthread_mutex_t m_ControlLock; // used to synchronize UDT API
pthread_mutex_t m_IDLock; // used to synchronize ID generation
UDTSOCKET m_SocketID; // seed to generate a new unique socket ID
std::map<int64_t, std::set<UDTSOCKET> > m_PeerRec;// record sockets from peers to avoid repeated connection request, int64_t = (socker_id << 30) + isn
private:
pthread_key_t m_TLSError; // thread local error record (last error)
#ifndef WIN32
static void TLSDestroy(void* e) {if (NULL != e) delete (CUDTException*)e;}
#else
std::map<DWORD, CUDTException*> m_mTLSRecord;
void checkTLSValue();
pthread_mutex_t m_TLSLock;
#endif
private:
void connect_complete(const UDTSOCKET u);
CUDTSocket* locate(const UDTSOCKET u);
CUDTSocket* locate(const sockaddr* peer, const UDTSOCKET& id, const int32_t& isn);
void updateMux(CUDTSocket* s, const sockaddr* addr = NULL, const UDPSOCKET* = NULL);
void updateMux(CUDTSocket* s, const CUDTSocket* ls);
private:
std::map<int, CMultiplexer> m_mMultiplexer; // UDP multiplexer
pthread_mutex_t m_MultiplexerLock;
private:
CCache<CInfoBlock>* m_pCache; // UDT network information cache
private:
volatile bool m_bClosing;
pthread_mutex_t m_GCStopLock;
pthread_cond_t m_GCStopCond;
pthread_mutex_t m_InitLock;
int m_iInstanceCount; // number of startup() called by application
bool m_bGCStatus; // if the GC thread is working (true)
pthread_t m_GCThread;
#ifndef WIN32
static void* garbageCollect(void*);
#else
static DWORD WINAPI garbageCollect(LPVOID);
#endif
std::map<UDTSOCKET, CUDTSocket*> m_ClosedSockets; // temporarily store closed sockets
void checkBrokenSockets();
void removeSocket(const UDTSOCKET u);
private:
CEPoll m_EPoll; // handling epoll data structures and events
private:
CUDTUnited(const CUDTUnited&);
CUDTUnited& operator=(const CUDTUnited&);
};
#endif
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