package icsnet import ( "net" "strconv" "time" "gitlab.com/ics_cinnamon/voiceStatistics/icserror" ) type IcsUDPNet struct { laddr *IcsNetAddr raddr *IcsNetAddr conn *IcsConn } func NewUDP(laddr, raddr *IcsNetAddr) (udpnet *IcsUDPNet) { udpnet = &IcsUDPNet{ laddr: laddr, raddr: raddr, conn: &IcsConn{}, } return udpnet } func (u *IcsUDPNet) GetRemoteAddr() *IcsNetAddr { addr := u.conn.ICSUDPConn.RemoteAddr() if addr == nil { return nil } ip, sport, _ := net.SplitHostPort(addr.String()) port, _ := strconv.Atoi(sport) ret := NewNetAddrWithIPPort(ip, port) return &ret } func (u *IcsUDPNet) SetRemoteAddr(raddr *IcsNetAddr) { u.raddr = raddr } func (u *IcsUDPNet) Listen() *icserror.IcsError { addr, err := u.laddr.ResolveIcsNetAddr("udp") if err != nil { return err } var aerr error switch v := addr.(type) { case net.UDPAddr: u.conn.ICSUDPConn, aerr = net.ListenUDP("udp4", &v) if aerr != nil { icserror.ICSERRNETListenError.SetError(aerr) return icserror.ICSERRNETListenError } } return nil } func (u *IcsUDPNet) Connect(localAddr, remoteAddr *IcsNetAddr) *icserror.IcsError { //var ra *net.UDPAddr var la, ra *net.UDPAddr if localAddr != nil { u.laddr = localAddr } if remoteAddr != nil { u.raddr = remoteAddr } if u.laddr != nil { laddr, err := u.laddr.ResolveIcsNetAddr("udp") if err != nil { return err } switch v := laddr.(type) { case net.UDPAddr: la = &v } } else { la = nil } if u.raddr != nil { raddr, err := u.raddr.ResolveIcsNetAddr("udp") if err != nil { return err } switch v := raddr.(type) { case net.UDPAddr: ra = &v } } else { return icserror.ICSERRInvalidParam } var derr error u.conn.ICSUDPConn, derr = net.DialUDP("udp", la, ra) if derr != nil { icserror.ICSERRNETConnectError.SetError(derr) return icserror.ICSERRNETConnectError } return nil } func (u *IcsUDPNet) Close() *icserror.IcsError { //fmt.Println("UDP close!!") if u.conn.ICSUDPConn == nil { return icserror.ICSERRNETNotConnectError } err := u.conn.ICSUDPConn.Close() if err != nil { icserror.ICSERRNETCloseError.SetError(err) return icserror.ICSERRNETCloseError } return nil } func (u *IcsUDPNet) Write(b []byte) (int, *icserror.IcsError) { if u.conn.ICSUDPConn == nil { return 0, icserror.ICSERRNETNotConnectError } /* raddr := &net.UDPAddr{ IP: u.raddr.IPv4, Port: u.raddr.Port, } //fmt.Println("Write addr ", raddr) wsize, err := u.conn.ICSUDPConn.WriteTo(b, raddr) */ //wsize, err := u.conn.ICSUDPConn.WriteToUDP(b, raddr) wsize, err := u.conn.ICSUDPConn.Write(b) if err != nil { icserror.ICSERRNETWriteError.SetError(err) //fmt.Println("UDP WRITE ERROR -", err) return -1, icserror.ICSERRNETWriteError } return wsize, nil } func (u *IcsUDPNet) WriteSIP(b []byte) (int, *icserror.IcsError) { if u.conn.ICSUDPConn == nil { return 0, icserror.ICSERRNETNotConnectError } raddr := &net.UDPAddr{ IP: u.raddr.IPv4, Port: u.raddr.Port, } //fmt.Println("Write addr ", raddr) //wsize, err := u.conn.ICSUDPConn.WriteTo(b, raddr) wsize, err := u.conn.ICSUDPConn.WriteToUDP(b, raddr) //wsize, err := u.conn.ICSUDPConn.Write(b) if err != nil { icserror.ICSERRNETWriteError.SetError(err) //fmt.Println("UDP WRITE ERROR -", err) return -1, icserror.ICSERRNETWriteError } return wsize, nil } func (u *IcsUDPNet) WriteRTP(b []byte) (int, *icserror.IcsError) { if u.conn.ICSUDPConn == nil { return 0, icserror.ICSERRNETNotConnectError } raddr := &net.UDPAddr{ IP: u.raddr.IPv4, Port: u.raddr.Port, } //fmt.Println("Write addr ", raddr) //wsize, err := u.conn.ICSUDPConn.WriteTo(b, raddr) wsize, err := u.conn.ICSUDPConn.WriteToUDP(b, raddr) //wsize, err := u.conn.ICSUDPConn.Write(b) if err != nil { icserror.ICSERRNETWriteError.SetError(err) //fmt.Println("UDP WRITE ERROR -", err) return -1, icserror.ICSERRNETWriteError } return wsize, nil } func (u *IcsUDPNet) Read(size int) ([]byte, int, *icserror.IcsError) { if u.conn.ICSUDPConn == nil { return nil, -1, icserror.ICSERRNETNotConnectError } buf := make([]byte, size) for rlen := 0; ; { len, err := u.conn.ICSUDPConn.Read(buf) if err == nil { //fmt.Println(len, string(buf)) rlen += len if rlen >= size { //fmt.Println(">>>", rlen, string(buf)) return buf, rlen, nil } } else { icserror.ICSERRNETReadError.SetError(err) return nil, -1, icserror.ICSERRNETReadError } } } func (u *IcsUDPNet) ReadSIP() ([]byte, *net.UDPAddr, int, *icserror.IcsError) { if u.conn.ICSUDPConn == nil { return nil, nil, -1, icserror.ICSERRNETNotConnectError } buf := make([]byte, 10240) len, addr, err := u.conn.ICSUDPConn.ReadFromUDP(buf[:]) //len, err := u.conn.ICSUDPConn.Read(buf[:]) if err == nil { //fmt.Println("remote addr", u.conn.ICSUDPConn.RemoteAddr(), u.conn.ICSUDPConn.LocalAddr()) return buf, addr, len, nil } else { icserror.ICSERRNETReadError.SetError(err) return nil, nil, -1, icserror.ICSERRNETReadError } } func (u *IcsUDPNet) ReadRTP() ([]byte, *net.UDPAddr, int, *icserror.IcsError) { if u.conn.ICSUDPConn == nil { return nil, nil, -1, icserror.ICSERRNETNotConnectError } buf := make([]byte, 10240) len, addr, err := u.conn.ICSUDPConn.ReadFromUDP(buf[:]) if err == nil { //fmt.Println("remote addr", u.conn.ICSUDPConn.RemoteAddr(), u.conn.ICSUDPConn.LocalAddr()) return buf, addr, len, nil } else { icserror.ICSERRNETReadError.SetError(err) return nil, nil, -1, icserror.ICSERRNETReadError } } func (u *IcsUDPNet) LocalAddr() net.Addr { return u.conn.ICSUDPConn.LocalAddr() } func (u *IcsUDPNet) RemoteAddr() net.Addr { raddr := &net.UDPAddr{ IP: u.raddr.IPv4, Port: u.raddr.Port, } return raddr } func (u *IcsUDPNet) SetDeadLine(sec int64) { u.conn.ICSUDPConn.SetDeadline(time.Now().Add(time.Second * time.Duration(sec))) } func (u *IcsUDPNet) SetWriteDeadLine(sec int64) { u.conn.ICSUDPConn.SetWriteDeadline(time.Now().Add(time.Second * time.Duration(sec))) } func (u *IcsUDPNet) SetReadDeadLine(sec int64) { u.conn.ICSUDPConn.SetReadDeadline(time.Now().Add(time.Second * time.Duration(sec))) }