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client.go
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client.go
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package zeroconf
import (
"context"
"fmt"
"log"
"net"
"strings"
"golang.org/x/net/ipv4"
"golang.org/x/net/ipv6"
"time"
"github.com/cenkalti/backoff"
"github.com/miekg/dns"
)
// IPType specifies the IP traffic the client listens for.
// This does not guarantee that only mDNS entries of this sepcific
// type passes. E.g. typical mDNS packets distributed via IPv4, often contain
// both DNS A and AAAA entries.
type IPType uint8
// Options for IPType.
const (
IPv4 = 0x01
IPv6 = 0x02
IPv4AndIPv6 = (IPv4 | IPv6) //< Default option.
)
type clientOpts struct {
listenOn IPType
ifaces []net.Interface
}
// ClientOption fills the option struct to configure intefaces, etc.
type ClientOption func(*clientOpts)
// SelectIPTraffic selects the type of IP packets (IPv4, IPv6, or both) this
// instance listens for.
// This does not guarantee that only mDNS entries of this sepcific
// type passes. E.g. typical mDNS packets distributed via IPv4, may contain
// both DNS A and AAAA entries.
func SelectIPTraffic(t IPType) ClientOption {
return func(o *clientOpts) {
o.listenOn = t
}
}
// SelectIfaces selects the interfaces to query for mDNS records
func SelectIfaces(ifaces []net.Interface) ClientOption {
return func(o *clientOpts) {
o.ifaces = ifaces
}
}
// Resolver acts as entry point for service lookups and to browse the DNS-SD.
type Resolver struct {
c *client
}
// NewResolver creates a new resolver and joins the UDP multicast groups to
// listen for mDNS messages.
func NewResolver(options ...ClientOption) (*Resolver, error) {
// Apply default configuration and load supplied options.
var conf = clientOpts{
listenOn: IPv4AndIPv6,
}
for _, o := range options {
if o != nil {
o(&conf)
}
}
c, err := newClient(conf)
if err != nil {
return nil, err
}
return &Resolver{
c: c,
}, nil
}
// Browse for all services of a given type in a given domain.
func (r *Resolver) Browse(ctx context.Context, service, domain string, entries chan<- *ServiceEntry) error {
params := defaultParams(service)
if domain != "" {
params.Domain = domain
}
params.Entries = entries
ctx, cancel := context.WithCancel(ctx)
go r.c.mainloop(ctx, params)
err := r.c.query(params)
if err != nil {
cancel()
return err
}
// If previous probe was ok, it should be fine now. In case of an error later on,
// the entries' queue is closed.
go func() {
if err := r.c.periodicQuery(ctx, params); err != nil {
cancel()
}
}()
return nil
}
// Lookup a specific service by its name and type in a given domain.
func (r *Resolver) Lookup(ctx context.Context, instance, service, domain string, entries chan<- *ServiceEntry) error {
params := defaultParams(service)
params.Instance = instance
if domain != "" {
params.Domain = domain
}
params.Entries = entries
ctx, cancel := context.WithCancel(ctx)
go r.c.mainloop(ctx, params)
err := r.c.query(params)
if err != nil {
// cancel mainloop
cancel()
return err
}
// If previous probe was ok, it should be fine now. In case of an error later on,
// the entries' queue is closed.
go func() {
if err := r.c.periodicQuery(ctx, params); err != nil {
cancel()
}
}()
return nil
}
// defaultParams returns a default set of QueryParams.
func defaultParams(service string) *LookupParams {
return NewLookupParams("", service, "local", make(chan *ServiceEntry))
}
// Client structure encapsulates both IPv4/IPv6 UDP connections.
type client struct {
ipv4conn *ipv4.PacketConn
ipv6conn *ipv6.PacketConn
ifaces []net.Interface
}
// Client structure constructor
func newClient(opts clientOpts) (*client, error) {
ifaces := opts.ifaces
if len(ifaces) == 0 {
ifaces = listMulticastInterfaces()
}
// IPv4 interfaces
var ipv4conn *ipv4.PacketConn
if (opts.listenOn & IPv4) > 0 {
var err error
ipv4conn, err = joinUdp4Multicast(ifaces)
if err != nil {
return nil, err
}
}
// IPv6 interfaces
var ipv6conn *ipv6.PacketConn
if (opts.listenOn & IPv6) > 0 {
var err error
ipv6conn, err = joinUdp6Multicast(ifaces)
if err != nil {
return nil, err
}
}
return &client{
ipv4conn: ipv4conn,
ipv6conn: ipv6conn,
ifaces: ifaces,
}, nil
}
// Start listeners and waits for the shutdown signal from exit channel
func (c *client) mainloop(ctx context.Context, params *LookupParams) {
// start listening for responses
msgCh := make(chan *dns.Msg, 32)
if c.ipv4conn != nil {
go c.recv(ctx, c.ipv4conn, msgCh)
}
if c.ipv6conn != nil {
go c.recv(ctx, c.ipv6conn, msgCh)
}
// Iterate through channels from listeners goroutines
var entries, sentEntries map[string]*ServiceEntry
sentEntries = make(map[string]*ServiceEntry)
for {
select {
case <-ctx.Done():
// Context expired. Notify subscriber that we are done here.
params.done()
c.shutdown()
return
case msg := <-msgCh:
entries = make(map[string]*ServiceEntry)
sections := append(msg.Answer, msg.Ns...)
sections = append(sections, msg.Extra...)
for _, answer := range sections {
switch rr := answer.(type) {
case *dns.PTR:
if params.ServiceName() != rr.Hdr.Name {
continue
}
if params.ServiceInstanceName() != "" && params.ServiceInstanceName() != rr.Ptr {
continue
}
if _, ok := entries[rr.Ptr]; !ok {
entries[rr.Ptr] = NewServiceEntry(
trimDot(strings.Replace(rr.Ptr, rr.Hdr.Name, "", -1)),
params.Service,
params.Domain)
}
entries[rr.Ptr].TTL = rr.Hdr.Ttl
case *dns.SRV:
if params.ServiceInstanceName() != "" && params.ServiceInstanceName() != rr.Hdr.Name {
continue
} else if !strings.HasSuffix(rr.Hdr.Name, params.ServiceName()) {
continue
}
if _, ok := entries[rr.Hdr.Name]; !ok {
entries[rr.Hdr.Name] = NewServiceEntry(
trimDot(strings.Replace(rr.Hdr.Name, params.ServiceName(), "", 1)),
params.Service,
params.Domain)
}
entries[rr.Hdr.Name].HostName = rr.Target
entries[rr.Hdr.Name].Port = int(rr.Port)
entries[rr.Hdr.Name].TTL = rr.Hdr.Ttl
case *dns.TXT:
if params.ServiceInstanceName() != "" && params.ServiceInstanceName() != rr.Hdr.Name {
continue
} else if !strings.HasSuffix(rr.Hdr.Name, params.ServiceName()) {
continue
}
if _, ok := entries[rr.Hdr.Name]; !ok {
entries[rr.Hdr.Name] = NewServiceEntry(
trimDot(strings.Replace(rr.Hdr.Name, params.ServiceName(), "", 1)),
params.Service,
params.Domain)
}
entries[rr.Hdr.Name].Text = rr.Txt
entries[rr.Hdr.Name].TTL = rr.Hdr.Ttl
}
}
// Associate IPs in a second round as other fields should be filled by now.
for _, answer := range sections {
switch rr := answer.(type) {
case *dns.A:
for k, e := range entries {
if e.HostName == rr.Hdr.Name {
entries[k].AddrIPv4 = append(entries[k].AddrIPv4, rr.A)
}
}
case *dns.AAAA:
for k, e := range entries {
if e.HostName == rr.Hdr.Name {
entries[k].AddrIPv6 = append(entries[k].AddrIPv6, rr.AAAA)
}
}
}
}
}
if len(entries) > 0 {
for k, e := range entries {
if e.TTL == 0 {
delete(entries, k)
delete(sentEntries, k)
continue
}
if _, ok := sentEntries[k]; ok {
continue
}
// If this is an DNS-SD query do not throw PTR away.
// It is expected to have only PTR for enumeration
if params.ServiceRecord.ServiceTypeName() != params.ServiceRecord.ServiceName() {
// Require at least one resolved IP address for ServiceEntry
// TODO: wait some more time as chances are high both will arrive.
if len(e.AddrIPv4) == 0 && len(e.AddrIPv6) == 0 {
continue
}
}
// Submit entry to subscriber and cache it.
// This is also a point to possibly stop probing actively for a
// service entry.
params.Entries <- e
sentEntries[k] = e
params.disableProbing()
}
// reset entries
entries = make(map[string]*ServiceEntry)
}
}
}
// Shutdown client will close currently open connections and channel implicitly.
func (c *client) shutdown() {
if c.ipv4conn != nil {
c.ipv4conn.Close()
}
if c.ipv6conn != nil {
c.ipv6conn.Close()
}
}
// Data receiving routine reads from connection, unpacks packets into dns.Msg
// structures and sends them to a given msgCh channel
func (c *client) recv(ctx context.Context, l interface{}, msgCh chan *dns.Msg) {
var readFrom func([]byte) (n int, src net.Addr, err error)
switch pConn := l.(type) {
case *ipv6.PacketConn:
readFrom = func(b []byte) (n int, src net.Addr, err error) {
n, _, src, err = pConn.ReadFrom(b)
return
}
case *ipv4.PacketConn:
readFrom = func(b []byte) (n int, src net.Addr, err error) {
n, _, src, err = pConn.ReadFrom(b)
return
}
default:
return
}
buf := make([]byte, 65536)
var fatalErr error
for {
// Handles the following cases:
// - ReadFrom aborts with error due to closed UDP connection -> causes ctx cancel
// - ReadFrom aborts otherwise.
// TODO: the context check can be removed. Verify!
if ctx.Err() != nil || fatalErr != nil {
return
}
n, _, err := readFrom(buf)
if err != nil {
fatalErr = err
continue
}
msg := new(dns.Msg)
if err := msg.Unpack(buf[:n]); err != nil {
// log.Printf("[WARN] mdns: Failed to unpack packet: %v", err)
continue
}
select {
case msgCh <- msg:
// Submit decoded DNS message and continue.
case <-ctx.Done():
// Abort.
return
}
}
}
// periodicQuery sens multiple probes until a valid response is received by
// the main processing loop or some timeout/cancel fires.
// TODO: move error reporting to shutdown function as periodicQuery is called from
// go routine context.
func (c *client) periodicQuery(ctx context.Context, params *LookupParams) error {
if params.stopProbing == nil {
return nil
}
bo := backoff.NewExponentialBackOff()
bo.InitialInterval = 4 * time.Second
bo.MaxInterval = 60 * time.Second
bo.Reset()
for {
// Do periodic query.
if err := c.query(params); err != nil {
return err
}
// Backoff and cancel logic.
wait := bo.NextBackOff()
if wait == backoff.Stop {
log.Println("periodicQuery: abort due to timeout")
return nil
}
select {
case <-time.After(wait):
// Wait for next iteration.
case <-params.stopProbing:
// Chan is closed (or happened in the past).
// Done here. Received a matching mDNS entry.
return nil
case <-ctx.Done():
return ctx.Err()
}
}
}
// Performs the actual query by service name (browse) or service instance name (lookup),
// start response listeners goroutines and loops over the entries channel.
func (c *client) query(params *LookupParams) error {
var serviceName, serviceInstanceName string
serviceName = fmt.Sprintf("%s.%s.", trimDot(params.Service), trimDot(params.Domain))
if params.Instance != "" {
serviceInstanceName = fmt.Sprintf("%s.%s", params.Instance, serviceName)
}
// send the query
m := new(dns.Msg)
if serviceInstanceName != "" {
m.Question = []dns.Question{
dns.Question{serviceInstanceName, dns.TypeSRV, dns.ClassINET},
dns.Question{serviceInstanceName, dns.TypeTXT, dns.ClassINET},
}
m.RecursionDesired = false
} else {
m.SetQuestion(serviceName, dns.TypePTR)
m.RecursionDesired = false
}
if err := c.sendQuery(m); err != nil {
return err
}
return nil
}
// Pack the dns.Msg and write to available connections (multicast)
func (c *client) sendQuery(msg *dns.Msg) error {
buf, err := msg.Pack()
if err != nil {
return err
}
if c.ipv4conn != nil {
var wcm ipv4.ControlMessage
for ifi := range c.ifaces {
wcm.IfIndex = c.ifaces[ifi].Index
c.ipv4conn.WriteTo(buf, &wcm, ipv4Addr)
}
}
if c.ipv6conn != nil {
var wcm ipv6.ControlMessage
for ifi := range c.ifaces {
wcm.IfIndex = c.ifaces[ifi].Index
c.ipv6conn.WriteTo(buf, &wcm, ipv6Addr)
}
}
return nil
}