// Copyright 2009 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. // +build darwin dragonfly freebsd linux netbsd openbsd solaris // DNS client: see RFC 1035. // Has to be linked into package net for Dial. // TODO(rsc): // Could potentially handle many outstanding lookups faster. // Could have a small cache. // Random UDP source port (net.Dial should do that for us). // Random request IDs. package net import ( "errors" "io" "math/rand" "os" "sync" "time" ) // A dnsConn represents a DNS transport endpoint. type dnsConn interface { Conn // readDNSResponse reads a DNS response message from the DNS // transport endpoint and returns the received DNS response // message. readDNSResponse() (*dnsMsg, error) // writeDNSQuery writes a DNS query message to the DNS // connection endpoint. writeDNSQuery(*dnsMsg) error } func (c *UDPConn) readDNSResponse() (*dnsMsg, error) { b := make([]byte, 512) // see RFC 1035 n, err := c.Read(b) if err != nil { return nil, err } msg := &dnsMsg{} if !msg.Unpack(b[:n]) { return nil, errors.New("cannot unmarshal DNS message") } return msg, nil } func (c *UDPConn) writeDNSQuery(msg *dnsMsg) error { b, ok := msg.Pack() if !ok { return errors.New("cannot marshal DNS message") } if _, err := c.Write(b); err != nil { return err } return nil } func (c *TCPConn) readDNSResponse() (*dnsMsg, error) { b := make([]byte, 1280) // 1280 is a reasonable initial size for IP over Ethernet, see RFC 4035 if _, err := io.ReadFull(c, b[:2]); err != nil { return nil, err } l := int(b[0])<<8 | int(b[1]) if l > len(b) { b = make([]byte, l) } n, err := io.ReadFull(c, b[:l]) if err != nil { return nil, err } msg := &dnsMsg{} if !msg.Unpack(b[:n]) { return nil, errors.New("cannot unmarshal DNS message") } return msg, nil } func (c *TCPConn) writeDNSQuery(msg *dnsMsg) error { b, ok := msg.Pack() if !ok { return errors.New("cannot marshal DNS message") } l := uint16(len(b)) b = append([]byte{byte(l >> 8), byte(l)}, b...) if _, err := c.Write(b); err != nil { return err } return nil } func (d *Dialer) dialDNS(network, server string) (dnsConn, error) { switch network { case "tcp", "tcp4", "tcp6", "udp", "udp4", "udp6": default: return nil, UnknownNetworkError(network) } // Calling Dial here is scary -- we have to be sure not to // dial a name that will require a DNS lookup, or Dial will // call back here to translate it. The DNS config parser has // already checked that all the cfg.servers[i] are IP // addresses, which Dial will use without a DNS lookup. c, err := d.Dial(network, server) if err != nil { return nil, err } switch network { case "tcp", "tcp4", "tcp6": return c.(*TCPConn), nil case "udp", "udp4", "udp6": return c.(*UDPConn), nil } panic("unreachable") } // exchange sends a query on the connection and hopes for a response. func exchange(server, name string, qtype uint16, timeout time.Duration) (*dnsMsg, error) { d := Dialer{Timeout: timeout} out := dnsMsg{ dnsMsgHdr: dnsMsgHdr{ recursion_desired: true, }, question: []dnsQuestion{ {name, qtype, dnsClassINET}, }, } for _, network := range []string{"udp", "tcp"} { c, err := d.dialDNS(network, server) if err != nil { return nil, err } defer c.Close() if timeout > 0 { c.SetDeadline(time.Now().Add(timeout)) } out.id = uint16(rand.Int()) ^ uint16(time.Now().UnixNano()) if err := c.writeDNSQuery(&out); err != nil { return nil, err } in, err := c.readDNSResponse() if err != nil { return nil, err } if in.id != out.id { return nil, errors.New("DNS message ID mismatch") } if in.truncated { // see RFC 5966 continue } return in, nil } return nil, errors.New("no answer from DNS server") } // Do a lookup for a single name, which must be rooted // (otherwise answer will not find the answers). func tryOneName(cfg *dnsConfig, name string, qtype uint16) (string, []dnsRR, error) { if len(cfg.servers) == 0 { return "", nil, &DNSError{Err: "no DNS servers", Name: name} } if len(name) >= 256 { return "", nil, &DNSError{Err: "DNS name too long", Name: name} } timeout := time.Duration(cfg.timeout) * time.Second var lastErr error for i := 0; i < cfg.attempts; i++ { for _, server := range cfg.servers { server = JoinHostPort(server, "53") msg, err := exchange(server, name, qtype, timeout) if err != nil { lastErr = &DNSError{ Err: err.Error(), Name: name, Server: server, } if nerr, ok := err.(Error); ok && nerr.Timeout() { lastErr.(*DNSError).IsTimeout = true } continue } cname, addrs, err := answer(name, server, msg, qtype) if err == nil || err.(*DNSError).Err == noSuchHost { return cname, addrs, err } lastErr = err } } return "", nil, lastErr } func convertRR_A(records []dnsRR) []IP { addrs := make([]IP, len(records)) for i, rr := range records { a := rr.(*dnsRR_A).A addrs[i] = IPv4(byte(a>>24), byte(a>>16), byte(a>>8), byte(a)) } return addrs } func convertRR_AAAA(records []dnsRR) []IP { addrs := make([]IP, len(records)) for i, rr := range records { a := make(IP, IPv6len) copy(a, rr.(*dnsRR_AAAA).AAAA[:]) addrs[i] = a } return addrs } var cfg struct { ch chan struct{} mu sync.RWMutex // protects dnsConfig and dnserr dnsConfig *dnsConfig dnserr error } var onceLoadConfig sync.Once // Assume dns config file is /etc/resolv.conf here func loadDefaultConfig() { loadConfig("/etc/resolv.conf", 5*time.Second, nil) } func loadConfig(resolvConfPath string, reloadTime time.Duration, quit <-chan chan struct{}) { var mtime time.Time cfg.ch = make(chan struct{}, 1) if fi, err := os.Stat(resolvConfPath); err != nil { cfg.dnserr = err } else { mtime = fi.ModTime() cfg.dnsConfig, cfg.dnserr = dnsReadConfig(resolvConfPath) } go func() { for { time.Sleep(reloadTime) select { case qresp := <-quit: qresp <- struct{}{} return case <-cfg.ch: } // In case of error, we keep the previous config fi, err := os.Stat(resolvConfPath) if err != nil { continue } // If the resolv.conf mtime didn't change, do not reload m := fi.ModTime() if m.Equal(mtime) { continue } mtime = m // In case of error, we keep the previous config ncfg, err := dnsReadConfig(resolvConfPath) if err != nil || len(ncfg.servers) == 0 { continue } cfg.mu.Lock() cfg.dnsConfig = ncfg cfg.dnserr = nil cfg.mu.Unlock() } }() } func lookup(name string, qtype uint16) (cname string, addrs []dnsRR, err error) { if !isDomainName(name) { return name, nil, &DNSError{Err: "invalid domain name", Name: name} } onceLoadConfig.Do(loadDefaultConfig) select { case cfg.ch <- struct{}{}: default: } cfg.mu.RLock() defer cfg.mu.RUnlock() if cfg.dnserr != nil || cfg.dnsConfig == nil { err = cfg.dnserr return } // If name is rooted (trailing dot) or has enough dots, // try it by itself first. rooted := len(name) > 0 && name[len(name)-1] == '.' if rooted || count(name, '.') >= cfg.dnsConfig.ndots { rname := name if !rooted { rname += "." } // Can try as ordinary name. cname, addrs, err = tryOneName(cfg.dnsConfig, rname, qtype) if rooted || err == nil { return } } // Otherwise, try suffixes. for i := 0; i < len(cfg.dnsConfig.search); i++ { rname := name + "." + cfg.dnsConfig.search[i] if rname[len(rname)-1] != '.' { rname += "." } cname, addrs, err = tryOneName(cfg.dnsConfig, rname, qtype) if err == nil { return } } // Last ditch effort: try unsuffixed only if we haven't already, // that is, name is not rooted and has less than ndots dots. if count(name, '.') < cfg.dnsConfig.ndots { cname, addrs, err = tryOneName(cfg.dnsConfig, name+".", qtype) if err == nil { return } } if e, ok := err.(*DNSError); ok { // Show original name passed to lookup, not suffixed one. // In general we might have tried many suffixes; showing // just one is misleading. See also golang.org/issue/6324. e.Name = name } return } // goLookupHost is the native Go implementation of LookupHost. // Used only if cgoLookupHost refuses to handle the request // (that is, only if cgoLookupHost is the stub in cgo_stub.go). // Normally we let cgo use the C library resolver instead of // depending on our lookup code, so that Go and C get the same // answers. func goLookupHost(name string) (addrs []string, err error) { // Use entries from /etc/hosts if they match. addrs = lookupStaticHost(name) if len(addrs) > 0 { return } ips, err := goLookupIP(name) if err != nil { return } addrs = make([]string, 0, len(ips)) for _, ip := range ips { addrs = append(addrs, ip.String()) } return } // goLookupIP is the native Go implementation of LookupIP. // Used only if cgoLookupIP refuses to handle the request // (that is, only if cgoLookupIP is the stub in cgo_stub.go). // Normally we let cgo use the C library resolver instead of // depending on our lookup code, so that Go and C get the same // answers. func goLookupIP(name string) (addrs []IPAddr, err error) { // Use entries from /etc/hosts if possible. haddrs := lookupStaticHost(name) if len(haddrs) > 0 { for _, haddr := range haddrs { haddr, zone := splitHostZone(haddr) if ip := ParseIP(haddr); ip != nil { addr := IPAddr{IP: ip, Zone: zone} addrs = append(addrs, addr) } } if len(addrs) > 0 { return } } type racer struct { qtype uint16 rrs []dnsRR error } lane := make(chan racer, 1) qtypes := [...]uint16{dnsTypeA, dnsTypeAAAA} for _, qtype := range qtypes { go func(qtype uint16) { _, rrs, err := lookup(name, qtype) lane <- racer{qtype, rrs, err} }(qtype) } var lastErr error for range qtypes { racer := <-lane if racer.error != nil { lastErr = racer.error continue } switch racer.qtype { case dnsTypeA: for _, ip := range convertRR_A(racer.rrs) { addr := IPAddr{IP: ip} addrs = append(addrs, addr) } case dnsTypeAAAA: for _, ip := range convertRR_AAAA(racer.rrs) { addr := IPAddr{IP: ip} addrs = append(addrs, addr) } } } if len(addrs) == 0 && lastErr != nil { return nil, lastErr } return addrs, nil } // goLookupCNAME is the native Go implementation of LookupCNAME. // Used only if cgoLookupCNAME refuses to handle the request // (that is, only if cgoLookupCNAME is the stub in cgo_stub.go). // Normally we let cgo use the C library resolver instead of // depending on our lookup code, so that Go and C get the same // answers. func goLookupCNAME(name string) (cname string, err error) { _, rr, err := lookup(name, dnsTypeCNAME) if err != nil { return } cname = rr[0].(*dnsRR_CNAME).Cname return }