void SctpSocket::OnWrite() { if (Connecting()) { int err = SoError(); // don't reset connecting flag on error here, we want the OnConnectFailed timeout later on /// \todo add to read fd_set here if (!err) // ok { Set(!IsDisableRead(), false); SetConnecting(false); SetCallOnConnect(); return; } Handler().LogError(this, "sctp: connect failed", err, StrError(err), LOG_LEVEL_FATAL); Set(false, false); // no more monitoring because connection failed // failed #ifdef ENABLE_SOCKS4 if (Socks4()) { OnSocks4ConnectFailed(); return; } #endif if (GetConnectionRetry() == -1 || (GetConnectionRetry() && GetConnectionRetries() < GetConnectionRetry()) ) { // even though the connection failed at once, only retry after // the connection timeout. // should we even try to connect again, when CheckConnect returns // false it's because of a connection error - not a timeout... return; } SetConnecting(false); SetCloseAndDelete( true ); /// \todo state reason why connect failed OnConnectFailed(); return; } }
bool TcpSocket::Open(SocketAddress& ad,SocketAddress& bind_ad,bool skip_socks) { if (!ad.IsValid()) { Handler().LogError(this, "Open", 0, "Invalid SocketAddress", LOG_LEVEL_FATAL); SetCloseAndDelete(); return false; } if (Handler().GetCount() >= Handler().MaxCount()) { Handler().LogError(this, "Open", 0, "no space left for more sockets", LOG_LEVEL_FATAL); SetCloseAndDelete(); return false; } SetConnecting(false); #ifdef ENABLE_SOCKS4 SetSocks4(false); #endif // check for pooling #ifdef ENABLE_POOL if (Handler().PoolEnabled()) { ISocketHandler::PoolSocket *pools = Handler().FindConnection(SOCK_STREAM, "tcp", ad); if (pools) { CopyConnection( pools ); delete pools; SetIsClient(); SetCallOnConnect(); // ISocketHandler must call OnConnect Handler().LogError(this, "SetCallOnConnect", 0, "Found pooled connection", LOG_LEVEL_INFO); return true; } } #endif // if not, create new connection SOCKET s = CreateSocket(ad.GetFamily(), SOCK_STREAM, "tcp"); if (s == INVALID_SOCKET) { return false; } // socket must be nonblocking for async connect if (!SetNonblocking(true, s)) { SetCloseAndDelete(); closesocket(s); return false; } #ifdef ENABLE_POOL SetIsClient(); // client because we connect #endif SetClientRemoteAddress(ad); int n = 0; if (bind_ad.GetPort() != 0) { bind(s, bind_ad, bind_ad); } #ifdef ENABLE_SOCKS4 if (!skip_socks && GetSocks4Host() && GetSocks4Port()) { Ipv4Address sa(GetSocks4Host(), GetSocks4Port()); { std::string sockshost; Utility::l2ip(GetSocks4Host(), sockshost); Handler().LogError(this, "Open", 0, "Connecting to socks4 server @ " + sockshost + ":" + Utility::l2string(GetSocks4Port()), LOG_LEVEL_INFO); } SetSocks4(); n = connect(s, sa, sa); SetRemoteAddress(sa); } else #endif { n = connect(s, ad, ad); SetRemoteAddress(ad); } if (n == -1) { // check error code that means a connect is in progress #ifdef _WIN32 if (Errno == WSAEWOULDBLOCK) #else if (Errno == EINPROGRESS) #endif { Attach(s); SetConnecting( true ); // this flag will control fd_set's } else #ifdef ENABLE_SOCKS4 if (Socks4() && Handler().Socks4TryDirect() ) // retry { closesocket(s); return Open(ad, true); } else #endif #ifdef ENABLE_RECONNECT if (Reconnect()) { Handler().LogError(this, "connect: failed, reconnect pending", Errno, StrError(Errno), LOG_LEVEL_INFO); Attach(s); SetConnecting( true ); // this flag will control fd_set's } else #endif { Handler().LogError(this, "connect: failed", Errno, StrError(Errno), LOG_LEVEL_FATAL); SetCloseAndDelete(); closesocket(s); return false; } } else { Attach(s); SetCallOnConnect(); // ISocketHandler must call OnConnect } // 'true' means connected or connecting(not yet connected) // 'false' means something failed return true; //!Connecting(); }