package mdns import ( "context" "errors" "math/big" "net" "runtime" "sync" "time" "github.com/pion/logging" "golang.org/x/net/dns/dnsmessage" "golang.org/x/net/ipv4" ) // Conn represents a mDNS Server type Conn struct { mu sync.RWMutex log logging.LeveledLogger socket *ipv4.PacketConn dstAddr *net.UDPAddr queryInterval time.Duration localNames []string queries []query ifaces []net.Interface closed chan interface{} } type query struct { nameWithSuffix string queryResultChan chan queryResult } type queryResult struct { answer dnsmessage.ResourceHeader addr net.Addr } const ( defaultQueryInterval = time.Second destinationAddress = "224.0.0.251:5353" maxMessageRecords = 3 responseTTL = 120 ) var errNoPositiveMTUFound = errors.New("no positive MTU found") // Server establishes a mDNS connection over an existing conn func Server(conn *ipv4.PacketConn, config *Config) (*Conn, error) { if config == nil { return nil, errNilConfig } ifaces, err := net.Interfaces() if err != nil { return nil, err } inboundBufferSize := 0 joinErrCount := 0 ifacesToUse := make([]net.Interface, 0, len(ifaces)) for i, ifc := range ifaces { if err = conn.JoinGroup(&ifaces[i], &net.UDPAddr{IP: net.IPv4(224, 0, 0, 251)}); err != nil { joinErrCount++ continue } ifcCopy := ifc ifacesToUse = append(ifacesToUse, ifcCopy) if ifaces[i].MTU > inboundBufferSize { inboundBufferSize = ifaces[i].MTU } } if inboundBufferSize == 0 { return nil, errNoPositiveMTUFound } if joinErrCount >= len(ifaces) { return nil, errJoiningMulticastGroup } dstAddr, err := net.ResolveUDPAddr("udp", destinationAddress) if err != nil { return nil, err } loggerFactory := config.LoggerFactory if loggerFactory == nil { loggerFactory = logging.NewDefaultLoggerFactory() } localNames := []string{} for _, l := range config.LocalNames { localNames = append(localNames, l+".") } c := &Conn{ queryInterval: defaultQueryInterval, queries: []query{}, socket: conn, dstAddr: dstAddr, localNames: localNames, ifaces: ifacesToUse, log: loggerFactory.NewLogger("mdns"), closed: make(chan interface{}), } if config.QueryInterval != 0 { c.queryInterval = config.QueryInterval } // https://www.rfc-editor.org/rfc/rfc6762.html#section-17 // Multicast DNS messages carried by UDP may be up to the IP MTU of the // physical interface, less the space required for the IP header (20 // bytes for IPv4; 40 bytes for IPv6) and the UDP header (8 bytes). go c.start(inboundBufferSize - 20 - 8) return c, nil } // Close closes the mDNS Conn func (c *Conn) Close() error { select { case <-c.closed: return nil default: } if err := c.socket.Close(); err != nil { return err } <-c.closed return nil } // Query sends mDNS Queries for the following name until // either the Context is canceled/expires or we get a result func (c *Conn) Query(ctx context.Context, name string) (dnsmessage.ResourceHeader, net.Addr, error) { select { case <-c.closed: return dnsmessage.ResourceHeader{}, nil, errConnectionClosed default: } nameWithSuffix := name + "." queryChan := make(chan queryResult, 1) c.mu.Lock() c.queries = append(c.queries, query{nameWithSuffix, queryChan}) ticker := time.NewTicker(c.queryInterval) c.mu.Unlock() defer ticker.Stop() c.sendQuestion(nameWithSuffix) for { select { case <-ticker.C: c.sendQuestion(nameWithSuffix) case <-c.closed: return dnsmessage.ResourceHeader{}, nil, errConnectionClosed case res := <-queryChan: return res.answer, res.addr, nil case <-ctx.Done(): return dnsmessage.ResourceHeader{}, nil, errContextElapsed } } } func ipToBytes(ip net.IP) (out [4]byte) { rawIP := ip.To4() if rawIP == nil { return } ipInt := big.NewInt(0) ipInt.SetBytes(rawIP) copy(out[:], ipInt.Bytes()) return } func interfaceForRemote(remote string) (net.IP, error) { conn, err := net.Dial("udp", remote) if err != nil { return nil, err } localAddr, ok := conn.LocalAddr().(*net.UDPAddr) if !ok { return nil, errFailedCast } if err := conn.Close(); err != nil { return nil, err } return localAddr.IP, nil } func (c *Conn) sendQuestion(name string) { packedName, err := dnsmessage.NewName(name) if err != nil { c.log.Warnf("Failed to construct mDNS packet %v", err) return } msg := dnsmessage.Message{ Header: dnsmessage.Header{}, Questions: []dnsmessage.Question{ { Type: dnsmessage.TypeA, Class: dnsmessage.ClassINET, Name: packedName, }, }, } rawQuery, err := msg.Pack() if err != nil { c.log.Warnf("Failed to construct mDNS packet %v", err) return } c.writeToSocket(rawQuery) } const isWindows = runtime.GOOS == "windows" func (c *Conn) writeToSocket(b []byte) { var wcm ipv4.ControlMessage for i := range c.ifaces { if isWindows { if err := c.socket.SetMulticastInterface(&c.ifaces[i]); err != nil { c.log.Warnf("Failed to set multicast interface for %d: %v", i, err) } } else { wcm.IfIndex = c.ifaces[i].Index } if _, err := c.socket.WriteTo(b, &wcm, c.dstAddr); err != nil { c.log.Warnf("Failed to send mDNS packet on interface %d: %v", i, err) } } } func (c *Conn) sendAnswer(name string, dst net.IP) { packedName, err := dnsmessage.NewName(name) if err != nil { c.log.Warnf("Failed to construct mDNS packet %v", err) return } msg := dnsmessage.Message{ Header: dnsmessage.Header{ Response: true, Authoritative: true, }, Answers: []dnsmessage.Resource{ { Header: dnsmessage.ResourceHeader{ Type: dnsmessage.TypeA, Class: dnsmessage.ClassINET, Name: packedName, TTL: responseTTL, }, Body: &dnsmessage.AResource{ A: ipToBytes(dst), }, }, }, } rawAnswer, err := msg.Pack() if err != nil { c.log.Warnf("Failed to construct mDNS packet %v", err) return } c.writeToSocket(rawAnswer) } func (c *Conn) start(inboundBufferSize int) { //nolint gocognit defer func() { c.mu.Lock() defer c.mu.Unlock() close(c.closed) }() b := make([]byte, inboundBufferSize) p := dnsmessage.Parser{} for { n, _, src, err := c.socket.ReadFrom(b) if err != nil { if errors.Is(err, net.ErrClosed) { return } c.log.Warnf("Failed to ReadFrom %q %v", src, err) continue } func() { c.mu.RLock() defer c.mu.RUnlock() if _, err := p.Start(b[:n]); err != nil { c.log.Warnf("Failed to parse mDNS packet %v", err) return } for i := 0; i <= maxMessageRecords; i++ { q, err := p.Question() if errors.Is(err, dnsmessage.ErrSectionDone) { break } else if err != nil { c.log.Warnf("Failed to parse mDNS packet %v", err) return } for _, localName := range c.localNames { if localName == q.Name.String() { localAddress, err := interfaceForRemote(src.String()) if err != nil { c.log.Warnf("Failed to get local interface to communicate with %s: %v", src.String(), err) continue } c.sendAnswer(q.Name.String(), localAddress) } } } for i := 0; i <= maxMessageRecords; i++ { a, err := p.AnswerHeader() if errors.Is(err, dnsmessage.ErrSectionDone) { return } if err != nil { c.log.Warnf("Failed to parse mDNS packet %v", err) return } if a.Type != dnsmessage.TypeA && a.Type != dnsmessage.TypeAAAA { continue } for i := len(c.queries) - 1; i >= 0; i-- { if c.queries[i].nameWithSuffix == a.Name.String() { ip, err := ipFromAnswerHeader(a, p) if err != nil { c.log.Warnf("Failed to parse mDNS answer %v", err) return } c.queries[i].queryResultChan <- queryResult{a, &net.IPAddr{ IP: ip, }} c.queries = append(c.queries[:i], c.queries[i+1:]...) } } } }() } } func ipFromAnswerHeader(a dnsmessage.ResourceHeader, p dnsmessage.Parser) (ip []byte, err error) { if a.Type == dnsmessage.TypeA { resource, err := p.AResource() if err != nil { return nil, err } ip = net.IP(resource.A[:]) } else { resource, err := p.AAAAResource() if err != nil { return nil, err } ip = resource.AAAA[:] } return }