// Copyright 2010 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. // (Raw) IP sockets package net import ( "os" "sync" "syscall" ) var onceReadProtocols sync.Once func sockaddrToIP(sa syscall.Sockaddr) Addr { switch sa := sa.(type) { case *syscall.SockaddrInet4: return &IPAddr{sa.Addr[0:]} case *syscall.SockaddrInet6: return &IPAddr{sa.Addr[0:]} } return nil } // IPAddr represents the address of a IP end point. type IPAddr struct { IP IP } // Network returns the address's network name, "ip". func (a *IPAddr) Network() string { return "ip" } func (a *IPAddr) String() string { if a == nil { return "" } return a.IP.String() } func (a *IPAddr) family() int { if a == nil || len(a.IP) <= 4 { return syscall.AF_INET } if ip := a.IP.To4(); ip != nil { return syscall.AF_INET } return syscall.AF_INET6 } func (a *IPAddr) sockaddr(family int) (syscall.Sockaddr, os.Error) { return ipToSockaddr(family, a.IP, 0) } func (a *IPAddr) toAddr() sockaddr { if a == nil { // nil *IPAddr return nil // nil interface } return a } // ResolveIPAddr parses addr as a IP address and resolves domain // names to numeric addresses. A literal IPv6 host address must be // enclosed in square brackets, as in "[::]". func ResolveIPAddr(addr string) (*IPAddr, os.Error) { ip, err := hostToIP(addr) if err != nil { return nil, err } return &IPAddr{ip}, nil } // IPConn is the implementation of the Conn and PacketConn // interfaces for IP network connections. type IPConn struct { fd *netFD } func newIPConn(fd *netFD) *IPConn { return &IPConn{fd} } func (c *IPConn) ok() bool { return c != nil && c.fd != nil } // Implementation of the Conn interface - see Conn for documentation. // Read implements the net.Conn Read method. func (c *IPConn) Read(b []byte) (n int, err os.Error) { n, _, err = c.ReadFrom(b) return } // Write implements the net.Conn Write method. func (c *IPConn) Write(b []byte) (n int, err os.Error) { if !c.ok() { return 0, os.EINVAL } return c.fd.Write(b) } // Close closes the IP connection. func (c *IPConn) Close() os.Error { if !c.ok() { return os.EINVAL } err := c.fd.Close() c.fd = nil return err } // LocalAddr returns the local network address. func (c *IPConn) LocalAddr() Addr { if !c.ok() { return nil } return c.fd.laddr } // RemoteAddr returns the remote network address, a *IPAddr. func (c *IPConn) RemoteAddr() Addr { if !c.ok() { return nil } return c.fd.raddr } // SetTimeout implements the net.Conn SetTimeout method. func (c *IPConn) SetTimeout(nsec int64) os.Error { if !c.ok() { return os.EINVAL } return setTimeout(c.fd, nsec) } // SetReadTimeout implements the net.Conn SetReadTimeout method. func (c *IPConn) SetReadTimeout(nsec int64) os.Error { if !c.ok() { return os.EINVAL } return setReadTimeout(c.fd, nsec) } // SetWriteTimeout implements the net.Conn SetWriteTimeout method. func (c *IPConn) SetWriteTimeout(nsec int64) os.Error { if !c.ok() { return os.EINVAL } return setWriteTimeout(c.fd, nsec) } // SetReadBuffer sets the size of the operating system's // receive buffer associated with the connection. func (c *IPConn) SetReadBuffer(bytes int) os.Error { if !c.ok() { return os.EINVAL } return setReadBuffer(c.fd, bytes) } // SetWriteBuffer sets the size of the operating system's // transmit buffer associated with the connection. func (c *IPConn) SetWriteBuffer(bytes int) os.Error { if !c.ok() { return os.EINVAL } return setWriteBuffer(c.fd, bytes) } // IP-specific methods. // ReadFromIP reads a IP packet from c, copying the payload into b. // It returns the number of bytes copied into b and the return address // that was on the packet. // // ReadFromIP can be made to time out and return an error with // Timeout() == true after a fixed time limit; see SetTimeout and // SetReadTimeout. func (c *IPConn) ReadFromIP(b []byte) (n int, addr *IPAddr, err os.Error) { if !c.ok() { return 0, nil, os.EINVAL } // TODO(cw,rsc): consider using readv if we know the family // type to avoid the header trim/copy n, sa, err := c.fd.ReadFrom(b) switch sa := sa.(type) { case *syscall.SockaddrInet4: addr = &IPAddr{sa.Addr[0:]} if len(b) >= 4 { // discard ipv4 header hsize := (int(b[0]) & 0xf) * 4 copy(b, b[hsize:]) n -= hsize } case *syscall.SockaddrInet6: addr = &IPAddr{sa.Addr[0:]} } return } // ReadFrom implements the net.PacketConn ReadFrom method. func (c *IPConn) ReadFrom(b []byte) (n int, addr Addr, err os.Error) { if !c.ok() { return 0, nil, os.EINVAL } n, uaddr, err := c.ReadFromIP(b) return n, uaddr.toAddr(), err } // WriteToIP writes a IP packet to addr via c, copying the payload from b. // // WriteToIP can be made to time out and return // an error with Timeout() == true after a fixed time limit; // see SetTimeout and SetWriteTimeout. // On packet-oriented connections, write timeouts are rare. func (c *IPConn) WriteToIP(b []byte, addr *IPAddr) (n int, err os.Error) { if !c.ok() { return 0, os.EINVAL } sa, err1 := addr.sockaddr(c.fd.family) if err1 != nil { return 0, &OpError{Op: "write", Net: "ip", Addr: addr, Error: err1} } return c.fd.WriteTo(b, sa) } // WriteTo implements the net.PacketConn WriteTo method. func (c *IPConn) WriteTo(b []byte, addr Addr) (n int, err os.Error) { if !c.ok() { return 0, os.EINVAL } a, ok := addr.(*IPAddr) if !ok { return 0, &OpError{"writeto", "ip", addr, os.EINVAL} } return c.WriteToIP(b, a) } // Convert "host" into IP address. func hostToIP(host string) (ip IP, err os.Error) { var addr IP // Try as an IP address. addr = ParseIP(host) if addr == nil { // Not an IP address. Try as a DNS name. addrs, err1 := LookupHost(host) if err1 != nil { err = err1 goto Error } addr = firstSupportedAddr(anyaddr, addrs) if addr == nil { // should not happen err = &AddrError{"LookupHost returned invalid address", addrs[0]} goto Error } } return addr, nil Error: return nil, err } var protocols map[string]int func readProtocols() { protocols = make(map[string]int) if file, err := open("/etc/protocols"); err == nil { for line, ok := file.readLine(); ok; line, ok = file.readLine() { // tcp 6 TCP # transmission control protocol if i := byteIndex(line, '#'); i >= 0 { line = line[0:i] } f := getFields(line) if len(f) < 2 { continue } if proto, _, ok := dtoi(f[1], 0); ok { protocols[f[0]] = proto for _, alias := range f[2:] { protocols[alias] = proto } } } file.close() } } func netProtoSplit(netProto string) (net string, proto int, err os.Error) { onceReadProtocols.Do(readProtocols) i := last(netProto, ':') if i < 0 { // no colon return "", 0, os.ErrorString("no IP protocol specified") } net = netProto[0:i] protostr := netProto[i+1:] proto, i, ok := dtoi(protostr, 0) if !ok || i != len(protostr) { // lookup by name proto, ok = protocols[protostr] if ok { return } } return } // DialIP connects to the remote address raddr on the network net, // which must be "ip", "ip4", or "ip6". func DialIP(netProto string, laddr, raddr *IPAddr) (c *IPConn, err os.Error) { net, proto, err := netProtoSplit(netProto) if err != nil { return } switch net { case "ip", "ip4", "ip6": default: return nil, UnknownNetworkError(net) } if raddr == nil { return nil, &OpError{"dial", "ip", nil, errMissingAddress} } fd, e := internetSocket(net, laddr.toAddr(), raddr.toAddr(), syscall.SOCK_RAW, proto, "dial", sockaddrToIP) if e != nil { return nil, e } return newIPConn(fd), nil } // ListenIP listens for incoming IP packets addressed to the // local address laddr. The returned connection c's ReadFrom // and WriteTo methods can be used to receive and send IP // packets with per-packet addressing. func ListenIP(netProto string, laddr *IPAddr) (c *IPConn, err os.Error) { net, proto, err := netProtoSplit(netProto) if err != nil { return } switch net { case "ip", "ip4", "ip6": default: return nil, UnknownNetworkError(net) } fd, e := internetSocket(net, laddr.toAddr(), nil, syscall.SOCK_RAW, proto, "dial", sockaddrToIP) if e != nil { return nil, e } return newIPConn(fd), nil } // BindToDevice binds an IPConn to a network interface. func (c *IPConn) BindToDevice(device string) os.Error { if !c.ok() { return os.EINVAL } c.fd.incref() defer c.fd.decref() return os.NewSyscallError("setsockopt", syscall.BindToDevice(c.fd.sysfd, device)) }