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moby--moby/libnetwork/resolver.go

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package libnetwork
import (
"fmt"
"math/rand"
"net"
"strings"
"sync"
"time"
log "github.com/Sirupsen/logrus"
"github.com/docker/libnetwork/types"
"github.com/miekg/dns"
)
// Resolver represents the embedded DNS server in Docker. It operates
// by listening on container's loopback interface for DNS queries.
type Resolver interface {
// Start starts the name server for the container
Start() error
// Stop stops the name server for the container. Stopped resolver
// can be reused after running the SetupFunc again.
Stop()
// SetupFunc() provides the setup function that should be run
// in the container's network namespace.
SetupFunc() func()
// NameServer() returns the IP of the DNS resolver for the
// containers.
NameServer() string
// SetExtServers configures the external nameservers the resolver
// should use to forward queries
SetExtServers([]string)
// FlushExtServers clears the cached UDP connections to external
// nameservers
FlushExtServers()
// ResolverOptions returns resolv.conf options that should be set
ResolverOptions() []string
}
const (
resolverIP = "127.0.0.11"
dnsPort = "53"
ptrIPv4domain = ".in-addr.arpa."
ptrIPv6domain = ".ip6.arpa."
respTTL = 600
maxExtDNS = 3 //max number of external servers to try
extIOTimeout = 4 * time.Second
defaultRespSize = 512
maxConcurrent = 100
logInterval = 2 * time.Second
maxDNSID = 65536
)
type clientConn struct {
dnsID uint16
respWriter dns.ResponseWriter
}
type extDNSEntry struct {
ipStr string
extConn net.Conn
extOnce sync.Once
}
type sboxQuery struct {
sboxID string
dnsID uint16
}
type clientConnGC struct {
toDelete bool
client clientConn
}
var (
queryGCMutex sync.Mutex
queryGC map[sboxQuery]*clientConnGC
)
// resolver implements the Resolver interface
type resolver struct {
sb *sandbox
extDNSList [maxExtDNS]extDNSEntry
server *dns.Server
conn *net.UDPConn
tcpServer *dns.Server
tcpListen *net.TCPListener
err error
count int32
tStamp time.Time
queryLock sync.Mutex
client map[uint16]clientConn
}
func init() {
rand.Seed(time.Now().Unix())
queryGC = make(map[sboxQuery]*clientConnGC)
go func() {
ticker := time.NewTicker(1 * time.Minute)
for range ticker.C {
queryGCMutex.Lock()
for query, conn := range queryGC {
if !conn.toDelete {
conn.toDelete = true
continue
}
delete(queryGC, query)
}
queryGCMutex.Unlock()
}
}()
}
// NewResolver creates a new instance of the Resolver
func NewResolver(sb *sandbox) Resolver {
return &resolver{
sb: sb,
err: fmt.Errorf("setup not done yet"),
client: make(map[uint16]clientConn),
}
}
func (r *resolver) SetupFunc() func() {
return (func() {
var err error
// DNS operates primarily on UDP
addr := &net.UDPAddr{
IP: net.ParseIP(resolverIP),
}
r.conn, err = net.ListenUDP("udp", addr)
if err != nil {
r.err = fmt.Errorf("error in opening name server socket %v", err)
return
}
// Listen on a TCP as well
tcpaddr := &net.TCPAddr{
IP: net.ParseIP(resolverIP),
}
r.tcpListen, err = net.ListenTCP("tcp", tcpaddr)
if err != nil {
r.err = fmt.Errorf("error in opening name TCP server socket %v", err)
return
}
r.err = nil
})
}
func (r *resolver) Start() error {
// make sure the resolver has been setup before starting
if r.err != nil {
return r.err
}
if err := r.setupIPTable(); err != nil {
return fmt.Errorf("setting up IP table rules failed: %v", err)
}
s := &dns.Server{Handler: r, PacketConn: r.conn}
r.server = s
go func() {
s.ActivateAndServe()
}()
tcpServer := &dns.Server{Handler: r, Listener: r.tcpListen}
r.tcpServer = tcpServer
go func() {
tcpServer.ActivateAndServe()
}()
return nil
}
func (r *resolver) FlushExtServers() {
for i := 0; i < maxExtDNS; i++ {
if r.extDNSList[i].extConn != nil {
r.extDNSList[i].extConn.Close()
}
r.extDNSList[i].extConn = nil
r.extDNSList[i].extOnce = sync.Once{}
}
}
func (r *resolver) Stop() {
r.FlushExtServers()
if r.server != nil {
r.server.Shutdown()
}
if r.tcpServer != nil {
r.tcpServer.Shutdown()
}
r.conn = nil
r.tcpServer = nil
r.err = fmt.Errorf("setup not done yet")
r.tStamp = time.Time{}
r.count = 0
r.queryLock = sync.Mutex{}
}
func (r *resolver) SetExtServers(dns []string) {
l := len(dns)
if l > maxExtDNS {
l = maxExtDNS
}
for i := 0; i < l; i++ {
r.extDNSList[i].ipStr = dns[i]
}
}
func (r *resolver) NameServer() string {
return resolverIP
}
func (r *resolver) ResolverOptions() []string {
return []string{"ndots:0"}
}
func setCommonFlags(msg *dns.Msg) {
msg.RecursionAvailable = true
}
func shuffleAddr(addr []net.IP) []net.IP {
for i := len(addr) - 1; i > 0; i-- {
r := rand.Intn(i + 1)
addr[i], addr[r] = addr[r], addr[i]
}
return addr
}
func createRespMsg(query *dns.Msg) *dns.Msg {
resp := new(dns.Msg)
resp.SetReply(query)
setCommonFlags(resp)
return resp
}
func (r *resolver) handleIPQuery(name string, query *dns.Msg, ipType int) (*dns.Msg, error) {
addr, ipv6Miss := r.sb.ResolveName(name, ipType)
if addr == nil && ipv6Miss {
// Send a reply without any Answer sections
log.Debugf("Lookup name %s present without IPv6 address", name)
resp := createRespMsg(query)
return resp, nil
}
if addr == nil {
return nil, nil
}
log.Debugf("Lookup for %s: IP %v", name, addr)
resp := createRespMsg(query)
if len(addr) > 1 {
addr = shuffleAddr(addr)
}
if ipType == types.IPv4 {
for _, ip := range addr {
rr := new(dns.A)
rr.Hdr = dns.RR_Header{Name: name, Rrtype: dns.TypeA, Class: dns.ClassINET, Ttl: respTTL}
rr.A = ip
resp.Answer = append(resp.Answer, rr)
}
} else {
for _, ip := range addr {
rr := new(dns.AAAA)
rr.Hdr = dns.RR_Header{Name: name, Rrtype: dns.TypeAAAA, Class: dns.ClassINET, Ttl: respTTL}
rr.AAAA = ip
resp.Answer = append(resp.Answer, rr)
}
}
return resp, nil
}
func (r *resolver) handlePTRQuery(ptr string, query *dns.Msg) (*dns.Msg, error) {
parts := []string{}
if strings.HasSuffix(ptr, ptrIPv4domain) {
parts = strings.Split(ptr, ptrIPv4domain)
} else if strings.HasSuffix(ptr, ptrIPv6domain) {
parts = strings.Split(ptr, ptrIPv6domain)
} else {
return nil, fmt.Errorf("invalid PTR query, %v", ptr)
}
host := r.sb.ResolveIP(parts[0])
if len(host) == 0 {
return nil, nil
}
log.Debugf("Lookup for IP %s: name %s", parts[0], host)
fqdn := dns.Fqdn(host)
resp := new(dns.Msg)
resp.SetReply(query)
setCommonFlags(resp)
rr := new(dns.PTR)
rr.Hdr = dns.RR_Header{Name: ptr, Rrtype: dns.TypePTR, Class: dns.ClassINET, Ttl: respTTL}
rr.Ptr = fqdn
resp.Answer = append(resp.Answer, rr)
return resp, nil
}
func (r *resolver) handleSRVQuery(svc string, query *dns.Msg) (*dns.Msg, error) {
srv, ip, err := r.sb.ResolveService(svc)
if err != nil {
return nil, err
}
if len(srv) != len(ip) {
return nil, fmt.Errorf("invalid reply for SRV query %s", svc)
}
resp := createRespMsg(query)
for i, r := range srv {
rr := new(dns.SRV)
rr.Hdr = dns.RR_Header{Name: svc, Rrtype: dns.TypePTR, Class: dns.ClassINET, Ttl: respTTL}
rr.Port = r.Port
rr.Target = r.Target
resp.Answer = append(resp.Answer, rr)
rr1 := new(dns.A)
rr1.Hdr = dns.RR_Header{Name: r.Target, Rrtype: dns.TypeA, Class: dns.ClassINET, Ttl: respTTL}
rr1.A = ip[i]
resp.Extra = append(resp.Extra, rr1)
}
return resp, nil
}
func truncateResp(resp *dns.Msg, maxSize int, isTCP bool) {
if !isTCP {
resp.Truncated = true
}
srv := resp.Question[0].Qtype == dns.TypeSRV
// trim the Answer RRs one by one till the whole message fits
// within the reply size
for resp.Len() > maxSize {
resp.Answer = resp.Answer[:len(resp.Answer)-1]
if srv && len(resp.Extra) > 0 {
resp.Extra = resp.Extra[:len(resp.Extra)-1]
}
}
}
func (r *resolver) ServeDNS(w dns.ResponseWriter, query *dns.Msg) {
var (
extConn net.Conn
resp *dns.Msg
err error
writer dns.ResponseWriter
)
if query == nil || len(query.Question) == 0 {
return
}
name := query.Question[0].Name
switch query.Question[0].Qtype {
case dns.TypeA:
resp, err = r.handleIPQuery(name, query, types.IPv4)
case dns.TypeAAAA:
resp, err = r.handleIPQuery(name, query, types.IPv6)
case dns.TypePTR:
resp, err = r.handlePTRQuery(name, query)
case dns.TypeSRV:
resp, err = r.handleSRVQuery(name, query)
}
if err != nil {
log.Error(err)
return
}
proto := w.LocalAddr().Network()
maxSize := 0
if proto == "tcp" {
maxSize = dns.MaxMsgSize - 1
} else if proto == "udp" {
optRR := query.IsEdns0()
if optRR != nil {
maxSize = int(optRR.UDPSize())
}
if maxSize < defaultRespSize {
maxSize = defaultRespSize
}
}
if resp != nil {
if resp.Len() > maxSize {
truncateResp(resp, maxSize, proto == "tcp")
}
writer = w
} else {
queryID := query.Id
extQueryLoop:
for i := 0; i < maxExtDNS; i++ {
extDNS := &r.extDNSList[i]
if extDNS.ipStr == "" {
break
}
extConnect := func() {
addr := fmt.Sprintf("%s:%d", extDNS.ipStr, 53)
extConn, err = net.DialTimeout(proto, addr, extIOTimeout)
}
// For udp clients connection is persisted to reuse for further queries.
// Accessing extDNS.extConn be a race here between go rouines. Hence the
// connection setup is done in a Once block and fetch the extConn again
extConn = extDNS.extConn
if extConn == nil || proto == "tcp" {
if proto == "udp" {
extDNS.extOnce.Do(func() {
r.sb.execFunc(extConnect)
extDNS.extConn = extConn
})
extConn = extDNS.extConn
} else {
r.sb.execFunc(extConnect)
}
if err != nil {
log.Debugf("Connect failed, %s", err)
continue
}
}
// If two go routines are executing in parralel one will
// block on the Once.Do and in case of error connecting
// to the external server it will end up with a nil err
// but extConn also being nil.
if extConn == nil {
continue
}
log.Debugf("Query %s[%d] from %s, forwarding to %s:%s", name, query.Question[0].Qtype,
extConn.LocalAddr().String(), proto, extDNS.ipStr)
// Timeout has to be set for every IO operation.
extConn.SetDeadline(time.Now().Add(extIOTimeout))
co := &dns.Conn{Conn: extConn}
// forwardQueryStart stores required context to mux multiple client queries over
// one connection; and limits the number of outstanding concurrent queries.
if r.forwardQueryStart(w, query, queryID) == false {
old := r.tStamp
r.tStamp = time.Now()
if r.tStamp.Sub(old) > logInterval {
log.Errorf("More than %v concurrent queries from %s", maxConcurrent, extConn.LocalAddr().String())
}
continue
}
defer func() {
if proto == "tcp" {
co.Close()
}
}()
err = co.WriteMsg(query)
if err != nil {
r.forwardQueryEnd(w, query)
log.Debugf("Send to DNS server failed, %s", err)
continue
}
for {
// If a reply comes after a read timeout it will remain in the socket buffer
// and will be read after sending next query. To ignore such stale replies
// save the query context in a GC queue when read timesout. On the next reply
// if the context is present in the GC queue its a old reply. Ignore it and
// read again
resp, err = co.ReadMsg()
if err != nil {
if nerr, ok := err.(net.Error); ok && nerr.Timeout() {
r.addQueryToGC(w, query)
}
r.forwardQueryEnd(w, query)
log.Debugf("Read from DNS server failed, %s", err)
continue extQueryLoop
}
if !r.checkRespInGC(w, resp) {
break
}
}
// Retrieves the context for the forwarded query and returns the client connection
// to send the reply to
writer = r.forwardQueryEnd(w, resp)
if writer == nil {
continue
}
resp.Compress = true
break
}
if resp == nil || writer == nil {
return
}
}
if writer == nil {
return
}
if err = writer.WriteMsg(resp); err != nil {
log.Errorf("error writing resolver resp, %s", err)
}
}
func (r *resolver) forwardQueryStart(w dns.ResponseWriter, msg *dns.Msg, queryID uint16) bool {
proto := w.LocalAddr().Network()
dnsID := uint16(rand.Intn(maxDNSID))
cc := clientConn{
dnsID: queryID,
respWriter: w,
}
r.queryLock.Lock()
defer r.queryLock.Unlock()
if r.count == maxConcurrent {
return false
}
r.count++
switch proto {
case "tcp":
break
case "udp":
for ok := true; ok == true; dnsID = uint16(rand.Intn(maxDNSID)) {
_, ok = r.client[dnsID]
}
log.Debugf("client dns id %v, changed id %v", queryID, dnsID)
r.client[dnsID] = cc
msg.Id = dnsID
default:
log.Errorf("Invalid protocol..")
return false
}
return true
}
func (r *resolver) addQueryToGC(w dns.ResponseWriter, msg *dns.Msg) {
if w.LocalAddr().Network() != "udp" {
return
}
r.queryLock.Lock()
cc, ok := r.client[msg.Id]
r.queryLock.Unlock()
if !ok {
return
}
query := sboxQuery{
sboxID: r.sb.ID(),
dnsID: msg.Id,
}
clientGC := &clientConnGC{
client: cc,
}
queryGCMutex.Lock()
queryGC[query] = clientGC
queryGCMutex.Unlock()
}
func (r *resolver) checkRespInGC(w dns.ResponseWriter, msg *dns.Msg) bool {
if w.LocalAddr().Network() != "udp" {
return false
}
query := sboxQuery{
sboxID: r.sb.ID(),
dnsID: msg.Id,
}
queryGCMutex.Lock()
defer queryGCMutex.Unlock()
if _, ok := queryGC[query]; ok {
delete(queryGC, query)
return true
}
return false
}
func (r *resolver) forwardQueryEnd(w dns.ResponseWriter, msg *dns.Msg) dns.ResponseWriter {
var (
cc clientConn
ok bool
)
proto := w.LocalAddr().Network()
r.queryLock.Lock()
defer r.queryLock.Unlock()
if r.count == 0 {
log.Errorf("Invalid concurrent query count")
} else {
r.count--
}
switch proto {
case "tcp":
break
case "udp":
if cc, ok = r.client[msg.Id]; ok == false {
log.Debugf("Can't retrieve client context for dns id %v", msg.Id)
return nil
}
log.Debugf("dns msg id %v, client id %v", msg.Id, cc.dnsID)
delete(r.client, msg.Id)
msg.Id = cc.dnsID
w = cc.respWriter
default:
log.Errorf("Invalid protocol")
return nil
}
return w
}