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probe.go
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probe.go
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package dnssd
import (
"context"
"math/rand"
"net"
"sort"
"strings"
"time"
"github.com/brutella/dnssd/log"
"github.com/miekg/dns"
)
// ProbeService probes for the hostname and service instance name of srv.
// If err == nil, the returned service is verified to be unique on the local network.
func ProbeService(ctx context.Context, srv Service) (Service, error) {
conn, err := newMDNSConn(srv.Ifaces...)
if err != nil {
return srv, err
}
defer conn.close()
// After one minute of probing, if the Multicast DNS responder has been
// unable to find any unused name, it should log an error (RFC6762 9)
probeCtx, cancel := context.WithTimeout(ctx, 60*time.Second)
defer cancel()
// When ready to send its Multicast DNS probe packet(s) the host should
// first wait for a short random delay time, uniformly distributed in
// the range 0-250 ms. (RFC6762 8.1)
r := rand.New(rand.NewSource(time.Now().UnixNano()))
delay := time.Duration(r.Intn(250)) * time.Millisecond
log.Debug.Println("Probing delay", delay)
time.Sleep(delay)
return probeService(probeCtx, conn, srv, 250*time.Millisecond, false)
}
func ReprobeService(ctx context.Context, srv Service) (Service, error) {
conn, err := newMDNSConn(srv.Ifaces...)
if err != nil {
return srv, err
}
defer conn.close()
return probeService(ctx, conn, srv, 250*time.Millisecond, true)
}
func probeService(ctx context.Context, conn MDNSConn, srv Service, delay time.Duration, probeOnce bool) (s Service, e error) {
candidate := srv.Copy()
prevConflict := probeConflict{}
// Keep track of the number of conflicts
numHostConflicts := 0
numNameConflicts := 0
for i := 1; i <= 100; i++ {
conflict, err := probe(ctx, conn, *candidate)
if err != nil {
e = err
return
}
if conflict.hasNone() {
s = *candidate
return
}
candidate = candidate.Copy()
if conflict.hostname && (prevConflict.hostname || probeOnce) {
numHostConflicts++
candidate.Host = incrementHostname(candidate.Host, numHostConflicts+1)
conflict.hostname = false
}
if conflict.serviceName && (prevConflict.serviceName || probeOnce) {
numNameConflicts++
candidate.Name = incrementServiceName(candidate.Name, numNameConflicts+1)
conflict.serviceName = false
}
prevConflict = conflict
if conflict.hasAny() {
// If the host finds that its own data is lexicographically earlier,
// then it defers to the winning host by waiting one second,
// and then begins probing for this record again. (RFC6762 8.2)
log.Debug.Println("Increase wait time after receiving conflicting data")
delay = 1 * time.Second
}
log.Debug.Println("Probing wait", delay)
time.Sleep(delay)
}
return
}
func probe(ctx context.Context, conn MDNSConn, service Service) (conflict probeConflict, err error) {
var queries []*Query
for _, iface := range service.Interfaces() {
queries = append(queries, probeQuery(service, iface))
}
readCtx, readCancel := context.WithCancel(ctx)
defer readCancel()
// Multicast DNS responses received *before* the first probe packet is sent
// MUST be silently ignored. (RFC6762 8.1)
conn.Drain(readCtx)
ch := conn.Read(readCtx)
queryTime := time.After(1 * time.Millisecond)
queriesCount := 1
for {
select {
case rsp := <-ch:
if rsp.iface == nil {
continue
}
reqAs, reqAAAAs, reqSRVs := splitRecords(filterRecords(rsp, &service))
as := A(service, rsp.iface)
aaaas := AAAA(service, rsp.iface)
if len(reqAs) > 0 && len(as) > 0 && areDenyingAs(reqAs, as) {
log.Debug.Printf("%v:%d@%s denies A\n", rsp.from.IP, rsp.from.Port, rsp.IfaceName())
log.Debug.Println(reqAs)
log.Debug.Println(as)
conflict.hostname = true
}
if len(reqAAAAs) > 0 && len(aaaas) > 0 && areDenyingAAAAs(reqAAAAs, aaaas) {
log.Debug.Printf("%v:%d@%s denies AAAA\n", rsp.from.IP, rsp.from.Port, rsp.IfaceName())
log.Debug.Println(reqAAAAs)
log.Debug.Println(aaaas)
conflict.hostname = true
}
// If the service instance name is already taken from another host,
// we have a service instance name conflict
conflict.serviceName = len(reqSRVs) > 0
case <-ctx.Done():
err = ctx.Err()
return
case <-queryTime:
// Stop on conflict
if conflict.hasAny() {
return conflict, err
}
// Stop after 3 probe queries
if queriesCount > 3 {
return
}
queriesCount++
for _, q := range queries {
log.Debug.Println("Sending probe", q.iface.Name, q.msg)
if err := conn.SendQuery(q); err != nil {
log.Debug.Println("Sending probe err:", err)
}
}
delay := 250 * time.Millisecond
log.Debug.Println("Waiting for conflicting data", delay)
queryTime = time.After(delay)
}
}
}
func probeQuery(service Service, iface *net.Interface) *Query {
msg := new(dns.Msg)
instanceQ := dns.Question{
Name: service.EscapedServiceInstanceName(),
Qtype: dns.TypeANY,
Qclass: dns.ClassINET,
}
hostQ := dns.Question{
Name: service.Hostname(),
Qtype: dns.TypeANY,
Qclass: dns.ClassINET,
}
setQuestionUnicast(&instanceQ)
setQuestionUnicast(&hostQ)
msg.Question = []dns.Question{instanceQ, hostQ}
srv := SRV(service)
as := A(service, iface)
aaaas := AAAA(service, iface)
var authority = []dns.RR{srv}
for _, a := range as {
authority = append(authority, a)
}
for _, aaaa := range aaaas {
authority = append(authority, aaaa)
}
msg.Ns = authority
return &Query{msg: msg, iface: iface}
}
type probeConflict struct {
hostname bool
serviceName bool
}
func (pr probeConflict) hasNone() bool {
return !pr.hostname && !pr.serviceName
}
func (pr probeConflict) hasAny() bool {
return pr.hostname || pr.serviceName
}
func isDenyingA(this *dns.A, that *dns.A) bool {
if strings.EqualFold(this.Hdr.Name, that.Hdr.Name) {
log.Debug.Println("Same hosts")
if !isValidRR(this) {
log.Debug.Println("Invalid record produces conflict")
return true
}
switch compareIP(this.A.To4(), that.A.To4()) {
case -1:
log.Debug.Println("Lexicographical earlier")
case 1:
log.Debug.Println("Lexicographical later")
return true
default:
log.Debug.Println("No conflict")
}
}
return false
}
// isDenyingAAAA returns true if this denies that.
func isDenyingAAAA(this *dns.AAAA, that *dns.AAAA) bool {
if strings.EqualFold(this.Hdr.Name, that.Hdr.Name) {
log.Debug.Println("Same hosts")
if !isValidRR(this) {
log.Debug.Println("Invalid record produces conflict")
return true
}
switch compareIP(this.AAAA.To16(), that.AAAA.To16()) {
case -1:
log.Debug.Println("Lexicographical earlier")
case 1:
log.Debug.Println("Lexicographical later")
return true
default:
log.Debug.Println("No conflict")
}
}
return false
}
// areDenyingAs returns true if this and that are denying each other.
func areDenyingAs(this []*dns.A, that []*dns.A) bool {
if len(this) != len(that) {
log.Debug.Printf("A: different number of records is a conflict (%d != %d)\n", len(this), len(that))
return true
}
sort.Sort(byAIP(this))
sort.Sort(byAIP(that))
for i, ti := range this {
ta := that[i]
if isDenyingA(ti, ta) {
return true
}
}
log.Debug.Println("A: same records are no conflict")
return false
}
func areDenyingAAAAs(this []*dns.AAAA, that []*dns.AAAA) bool {
if len(this) != len(that) {
log.Debug.Printf("AAAA: different number of records is a conflict (%d != %d)\n", len(this), len(that))
return true
}
sort.Sort(byAAAAIP(this))
sort.Sort(byAAAAIP(that))
for i, ti := range this {
ta := that[i]
if isDenyingAAAA(ti, ta) {
return true
}
}
log.Debug.Println("AAAA: same records are no conflict")
return false
}
type byAIP []*dns.A
func (a byAIP) Len() int { return len(a) }
func (a byAIP) Swap(i, j int) { a[i], a[j] = a[j], a[i] }
func (a byAIP) Less(i, j int) bool {
return strings.Compare(a[i].A.To4().String(), a[j].A.To4().String()) == -1
}
type byAAAAIP []*dns.AAAA
func (a byAAAAIP) Len() int { return len(a) }
func (a byAAAAIP) Swap(i, j int) { a[i], a[j] = a[j], a[i] }
func (a byAAAAIP) Less(i, j int) bool {
return strings.Compare(a[i].AAAA.To16().String(), a[j].AAAA.To16().String()) == -1
}
// isDenyingSRV returns true if this denies that.
func isDenyingSRV(this *dns.SRV, that *dns.SRV) bool {
if strings.EqualFold(this.Hdr.Name, that.Hdr.Name) {
log.Debug.Println("Same SRV")
if !isValidRR(this) {
log.Debug.Println("Invalid record produces conflict")
return true
}
switch compareSRV(this, that) {
case -1:
log.Debug.Println("Lexicographical earlier")
case 1:
log.Debug.Println("Lexicographical later")
return true
default:
log.Debug.Println("No conflict")
}
}
return false
}
func isValidRR(rr dns.RR) bool {
switch r := rr.(type) {
case *dns.A:
return !net.IPv4zero.Equal(r.A)
case *dns.AAAA:
return !net.IPv6zero.Equal(r.AAAA)
case *dns.SRV:
return len(r.Target) > 0 && r.Port != 0
default:
}
return true
}
func compareIP(this net.IP, that net.IP) int {
count := len(this)
if count > len(that) {
count = len(that)
}
for i := 0; i < count; i++ {
if this[i] < that[i] {
return -1
} else if this[i] > that[i] {
return 1
}
}
if len(this) < len(that) {
return -1
} else if len(this) > len(that) {
return 1
}
return 0
}
func compareSRV(this *dns.SRV, that *dns.SRV) int {
if this.Priority < that.Priority {
return -1
} else if this.Priority > that.Priority {
return 1
}
if this.Weight < that.Weight {
return -1
} else if this.Weight > that.Weight {
return 1
}
if this.Port < that.Port {
return -1
} else if this.Port > that.Port {
return 1
}
return strings.Compare(this.Target, that.Target)
}