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// 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.
// DNS client: see RFC 1035.
// Has to be linked into package net for Dial.
// TODO(rsc):
// Check periodically whether /etc/resolv.conf has changed.
// 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 (
"bytes"
"fmt"
"os"
"rand"
"sync"
"time"
)
// DNSError represents a DNS lookup error.
type DNSError struct {
Error string // description of the error
Name string // name looked for
Server string // server used
IsTimeout bool
}
func (e *DNSError) String() string {
if e == nil {
return "<nil>"
}
s := "lookup " + e.Name
if e.Server != "" {
s += " on " + e.Server
}
s += ": " + e.Error
return s
}
func (e *DNSError) Timeout() bool { return e.IsTimeout }
func (e *DNSError) Temporary() bool { return e.IsTimeout }
const noSuchHost = "no such host"
// Send a request on the connection and hope for a reply.
// Up to cfg.attempts attempts.
func exchange(cfg *dnsConfig, c Conn, name string, qtype uint16) (*dnsMsg, os.Error) {
if len(name) >= 256 {
return nil, &DNSError{Error: "name too long", Name: name}
}
out := new(dnsMsg)
out.id = uint16(rand.Int()) ^ uint16(time.Nanoseconds())
out.question = []dnsQuestion{
{name, qtype, dnsClassINET},
}
out.recursion_desired = true
msg, ok := out.Pack()
if !ok {
return nil, &DNSError{Error: "internal error - cannot pack message", Name: name}
}
for attempt := 0; attempt < cfg.attempts; attempt++ {
n, err := c.Write(msg)
if err != nil {
return nil, err
}
c.SetReadTimeout(int64(cfg.timeout) * 1e9) // nanoseconds
buf := make([]byte, 2000) // More than enough.
n, err = c.Read(buf)
if err != nil {
if e, ok := err.(Error); ok && e.Timeout() {
continue
}
return nil, err
}
buf = buf[0:n]
in := new(dnsMsg)
if !in.Unpack(buf) || in.id != out.id {
continue
}
return in, nil
}
var server string
if a := c.RemoteAddr(); a != nil {
server = a.String()
}
return nil, &DNSError{Error: "no answer from server", Name: name, Server: server, IsTimeout: true}
}
// Find answer for name in dns message.
// On return, if err == nil, addrs != nil.
func answer(name, server string, dns *dnsMsg, qtype uint16) (addrs []dnsRR, err os.Error) {
addrs = make([]dnsRR, 0, len(dns.answer))
if dns.rcode == dnsRcodeNameError && dns.recursion_available {
return nil, &DNSError{Error: noSuchHost, Name: name}
}
if dns.rcode != dnsRcodeSuccess {
// None of the error codes make sense
// for the query we sent. If we didn't get
// a name error and we didn't get success,
// the server is behaving incorrectly.
return nil, &DNSError{Error: "server misbehaving", Name: name, Server: server}
}
// Look for the name.
// Presotto says it's okay to assume that servers listed in
// /etc/resolv.conf are recursive resolvers.
// We asked for recursion, so it should have included
// all the answers we need in this one packet.
Cname:
for cnameloop := 0; cnameloop < 10; cnameloop++ {
addrs = addrs[0:0]
for i := 0; i < len(dns.answer); i++ {
rr := dns.answer[i]
h := rr.Header()
if h.Class == dnsClassINET && h.Name == name {
switch h.Rrtype {
case qtype:
n := len(addrs)
addrs = addrs[0 : n+1]
addrs[n] = rr
case dnsTypeCNAME:
// redirect to cname
name = rr.(*dnsRR_CNAME).Cname
continue Cname
}
}
}
if len(addrs) == 0 {
return nil, &DNSError{Error: noSuchHost, Name: name, Server: server}
}
return addrs, nil
}
return nil, &DNSError{Error: "too many redirects", Name: name, Server: 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) (addrs []dnsRR, err os.Error) {
if len(cfg.servers) == 0 {
return nil, &DNSError{Error: "no DNS servers", Name: name}
}
for i := 0; i < len(cfg.servers); i++ {
// 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.
server := cfg.servers[i] + ":53"
c, cerr := Dial("udp", "", server)
if cerr != nil {
err = cerr
continue
}
msg, merr := exchange(cfg, c, name, qtype)
c.Close()
if merr != nil {
err = merr
continue
}
addrs, err = answer(name, server, msg, qtype)
if err == nil || err.(*DNSError).Error == noSuchHost {
break
}
}
return
}
func convertRR_A(records []dnsRR) []string {
addrs := make([]string, len(records))
for i := 0; i < len(records); i++ {
rr := records[i]
a := rr.(*dnsRR_A).A
addrs[i] = IPv4(byte(a>>24), byte(a>>16), byte(a>>8), byte(a)).String()
}
return addrs
}
var cfg *dnsConfig
var dnserr os.Error
func loadConfig() { cfg, dnserr = dnsReadConfig() }
func isDomainName(s string) bool {
// See RFC 1035, RFC 3696.
if len(s) == 0 {
return false
}
if len(s) > 255 {
return false
}
if s[len(s)-1] != '.' { // simplify checking loop: make name end in dot
s += "."
}
last := byte('.')
ok := false // ok once we've seen a letter
partlen := 0
for i := 0; i < len(s); i++ {
c := s[i]
switch {
default:
return false
case 'a' <= c && c <= 'z' || 'A' <= c && c <= 'Z' || c == '_':
ok = true
partlen++
case '0' <= c && c <= '9':
// fine
partlen++
case c == '-':
// byte before dash cannot be dot
if last == '.' {
return false
}
partlen++
case c == '.':
// byte before dot cannot be dot, dash
if last == '.' || last == '-' {
return false
}
if partlen > 63 || partlen == 0 {
return false
}
partlen = 0
}
last = c
}
return ok
}
var onceLoadConfig sync.Once
func lookup(name string, qtype uint16) (cname string, addrs []dnsRR, err os.Error) {
if !isDomainName(name) {
return name, nil, &DNSError{Error: "invalid domain name", Name: name}
}
onceLoadConfig.Do(loadConfig)
if dnserr != nil || cfg == nil {
err = 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.ndots {
rname := name
if !rooted {
rname += "."
}
// Can try as ordinary name.
addrs, err = tryOneName(cfg, rname, qtype)
if err == nil {
cname = rname
return
}
}
if rooted {
return
}
// Otherwise, try suffixes.
for i := 0; i < len(cfg.search); i++ {
rname := name + "." + cfg.search[i]
if rname[len(rname)-1] != '.' {
rname += "."
}
addrs, err = tryOneName(cfg, rname, qtype)
if err == nil {
cname = rname
return
}
}
// Last ditch effort: try unsuffixed.
rname := name
if !rooted {
rname += "."
}
addrs, err = tryOneName(cfg, rname, qtype)
if err == nil {
cname = rname
return
}
return
}
// LookupHost looks for name using the local hosts file and DNS resolver.
// It returns the canonical name for the host and an array of that
// host's addresses.
func LookupHost(name string) (cname string, addrs []string, err os.Error) {
onceLoadConfig.Do(loadConfig)
if dnserr != nil || cfg == nil {
err = dnserr
return
}
// Use entries from /etc/hosts if they match.
addrs = lookupStaticHost(name)
if len(addrs) > 0 {
cname = name
return
}
var records []dnsRR
cname, records, err = lookup(name, dnsTypeA)
if err != nil {
return
}
addrs = convertRR_A(records)
return
}
type SRV struct {
Target string
Port uint16
Priority uint16
Weight uint16
}
// LookupSRV tries to resolve an SRV query of the given service,
// protocol, and domain name, as specified in RFC 2782. In most cases
// the proto argument can be the same as the corresponding
// Addr.Network().
func LookupSRV(service, proto, name string) (cname string, addrs []*SRV, err os.Error) {
target := "_" + service + "._" + proto + "." + name
var records []dnsRR
cname, records, err = lookup(target, dnsTypeSRV)
if err != nil {
return
}
addrs = make([]*SRV, len(records))
for i := 0; i < len(records); i++ {
r := records[i].(*dnsRR_SRV)
addrs[i] = &SRV{r.Target, r.Port, r.Priority, r.Weight}
}
return
}
type MX struct {
Host string
Pref uint16
}
func LookupMX(name string) (entries []*MX, err os.Error) {
var records []dnsRR
_, records, err = lookup(name, dnsTypeMX)
if err != nil {
return
}
entries = make([]*MX, len(records))
for i := range records {
r := records[i].(*dnsRR_MX)
entries[i] = &MX{r.Mx, r.Pref}
}
return
}
// reverseaddr returns the in-addr.arpa. or ip6.arpa. hostname of the IP
// address addr suitable for rDNS (PTR) record lookup or an error if it fails
// to parse the IP address.
func reverseaddr(addr string) (arpa string, err os.Error) {
ip := ParseIP(addr)
if ip == nil {
return "", &DNSError{Error: "unrecognized address", Name: addr}
}
if ip.To4() != nil {
return fmt.Sprintf("%d.%d.%d.%d.in-addr.arpa.", ip[15], ip[14], ip[13], ip[12]), nil
}
// Must be IPv6
var buf bytes.Buffer
// Add it, in reverse, to the buffer
for i := len(ip) - 1; i >= 0; i-- {
s := fmt.Sprintf("%02x", ip[i])
buf.WriteByte(s[1])
buf.WriteByte('.')
buf.WriteByte(s[0])
buf.WriteByte('.')
}
// Append "ip6.arpa." and return (buf already has the final .)
return buf.String() + "ip6.arpa.", nil
}
// LookupAddr performs a reverse lookup for the given address, returning a list
// of names mapping to that address.
func LookupAddr(addr string) (name []string, err os.Error) {
name = lookupStaticAddr(addr)
if len(name) > 0 {
return
}
var arpa string
arpa, err = reverseaddr(addr)
if err != nil {
return
}
var records []dnsRR
_, records, err = lookup(arpa, dnsTypePTR)
if err != nil {
return
}
name = make([]string, len(records))
for i := range records {
r := records[i].(*dnsRR_PTR)
name[i] = r.Ptr
}
return
}
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