package dns import ( "context" "crypto/tls" "errors" "fmt" "net" "net/netip" "strconv" "strings" "time" "github.com/Dreamacro/clash/common/cache" N "github.com/Dreamacro/clash/common/net" "github.com/Dreamacro/clash/common/nnip" "github.com/Dreamacro/clash/common/picker" "github.com/Dreamacro/clash/component/dialer" "github.com/Dreamacro/clash/component/resolver" C "github.com/Dreamacro/clash/constant" "github.com/Dreamacro/clash/log" "github.com/Dreamacro/clash/tunnel" D "github.com/miekg/dns" "github.com/samber/lo" ) const ( MaxMsgSize = 65535 ) const serverFailureCacheTTL uint32 = 5 func minimalTTL(records []D.RR) uint32 { rr := lo.MinBy(records, func(r1 D.RR, r2 D.RR) bool { return r1.Header().Ttl < r2.Header().Ttl }) if rr == nil { return 0 } return rr.Header().Ttl } func updateTTL(records []D.RR, ttl uint32) { if len(records) == 0 { return } delta := minimalTTL(records) - ttl for i := range records { records[i].Header().Ttl = lo.Clamp(records[i].Header().Ttl-delta, 1, records[i].Header().Ttl) } } func putMsgToCache(c *cache.LruCache[string, *D.Msg], key string, q D.Question, msg *D.Msg) { // skip dns cache for acme challenge if q.Qtype == D.TypeTXT && strings.HasPrefix(q.Name, "_acme-challenge.") { log.Debugln("[DNS] dns cache ignored because of acme challenge for: %s", q.Name) return } var ttl uint32 if msg.Rcode == D.RcodeServerFailure { // [...] a resolver MAY cache a server failure response. // If it does so it MUST NOT cache it for longer than five (5) minutes [...] ttl = serverFailureCacheTTL } else { ttl = minimalTTL(append(append(msg.Answer, msg.Ns...), msg.Extra...)) } if ttl == 0 { return } c.SetWithExpire(key, msg.Copy(), time.Now().Add(time.Duration(ttl)*time.Second)) } func setMsgTTL(msg *D.Msg, ttl uint32) { for _, answer := range msg.Answer { answer.Header().Ttl = ttl } for _, ns := range msg.Ns { ns.Header().Ttl = ttl } for _, extra := range msg.Extra { extra.Header().Ttl = ttl } } func updateMsgTTL(msg *D.Msg, ttl uint32) { updateTTL(msg.Answer, ttl) updateTTL(msg.Ns, ttl) updateTTL(msg.Extra, ttl) } func isIPRequest(q D.Question) bool { return q.Qclass == D.ClassINET && (q.Qtype == D.TypeA || q.Qtype == D.TypeAAAA || q.Qtype == D.TypeCNAME) } func transform(servers []NameServer, resolver *Resolver) []dnsClient { ret := make([]dnsClient, 0, len(servers)) for _, s := range servers { switch s.Net { case "https": ret = append(ret, newDoHClient(s.Addr, resolver, s.PreferH3, s.Params, s.ProxyAdapter, s.ProxyName)) continue case "dhcp": ret = append(ret, newDHCPClient(s.Addr)) continue case "system": ret = append(ret, newSystemClient()) continue case "rcode": ret = append(ret, newRCodeClient(s.Addr)) continue case "quic": if doq, err := newDoQ(resolver, s.Addr, s.ProxyAdapter, s.ProxyName); err == nil { ret = append(ret, doq) } else { log.Fatalln("DoQ format error: %v", err) } continue } host, port, _ := net.SplitHostPort(s.Addr) ret = append(ret, &client{ Client: &D.Client{ Net: s.Net, TLSConfig: &tls.Config{ ServerName: host, }, UDPSize: 4096, Timeout: 5 * time.Second, }, port: port, host: host, iface: s.Interface, r: resolver, proxyAdapter: s.ProxyAdapter, proxyName: s.ProxyName, }) } return ret } func handleMsgWithEmptyAnswer(r *D.Msg) *D.Msg { msg := &D.Msg{} msg.Answer = []D.RR{} msg.SetRcode(r, D.RcodeSuccess) msg.Authoritative = true msg.RecursionAvailable = true return msg } func msgToIP(msg *D.Msg) []netip.Addr { ips := []netip.Addr{} for _, answer := range msg.Answer { switch ans := answer.(type) { case *D.AAAA: ips = append(ips, nnip.IpToAddr(ans.AAAA)) case *D.A: ips = append(ips, nnip.IpToAddr(ans.A)) } } return ips } func msgToDomain(msg *D.Msg) string { if len(msg.Question) > 0 { return strings.TrimRight(msg.Question[0].Name, ".") } return "" } type dialHandler func(ctx context.Context, network, addr string) (net.Conn, error) func getDialHandler(r *Resolver, proxyAdapter C.ProxyAdapter, proxyName string, opts ...dialer.Option) dialHandler { return func(ctx context.Context, network, addr string) (net.Conn, error) { if len(proxyName) == 0 && proxyAdapter == nil { opts = append(opts, dialer.WithResolver(r)) return dialer.DialContext(ctx, network, addr, opts...) } else { host, port, err := net.SplitHostPort(addr) if err != nil { return nil, err } uintPort, err := strconv.ParseUint(port, 10, 16) if err != nil { return nil, err } if proxyAdapter == nil { var ok bool proxyAdapter, ok = tunnel.Proxies()[proxyName] if !ok { opts = append(opts, dialer.WithInterface(proxyName)) } } if strings.Contains(network, "tcp") { // tcp can resolve host by remote metadata := &C.Metadata{ NetWork: C.TCP, Host: host, DstPort: uint16(uintPort), } if proxyAdapter != nil { if proxyAdapter.IsL3Protocol(metadata) { // L3 proxy should resolve domain before to avoid loopback dstIP, err := resolver.ResolveIPWithResolver(ctx, host, r) if err != nil { return nil, err } metadata.Host = "" metadata.DstIP = dstIP } return proxyAdapter.DialContext(ctx, metadata, opts...) } opts = append(opts, dialer.WithResolver(r)) return dialer.DialContext(ctx, network, addr, opts...) } else { // udp must resolve host first dstIP, err := resolver.ResolveIPWithResolver(ctx, host, r) if err != nil { return nil, err } metadata := &C.Metadata{ NetWork: C.UDP, Host: "", DstIP: dstIP, DstPort: uint16(uintPort), } if proxyAdapter == nil { return dialer.DialContext(ctx, network, addr, opts...) } if !proxyAdapter.SupportUDP() { return nil, fmt.Errorf("proxy adapter [%s] UDP is not supported", proxyAdapter) } packetConn, err := proxyAdapter.ListenPacketContext(ctx, metadata, opts...) if err != nil { return nil, err } return N.NewBindPacketConn(packetConn, metadata.UDPAddr()), nil } } } } func listenPacket(ctx context.Context, proxyAdapter C.ProxyAdapter, proxyName string, network string, addr string, r *Resolver, opts ...dialer.Option) (net.PacketConn, error) { host, port, err := net.SplitHostPort(addr) if err != nil { return nil, err } uintPort, err := strconv.ParseUint(port, 10, 16) if err != nil { return nil, err } if proxyAdapter == nil { var ok bool proxyAdapter, ok = tunnel.Proxies()[proxyName] if !ok { opts = append(opts, dialer.WithInterface(proxyName)) } } // udp must resolve host first dstIP, err := resolver.ResolveIPWithResolver(ctx, host, r) if err != nil { return nil, err } metadata := &C.Metadata{ NetWork: C.UDP, Host: "", DstIP: dstIP, DstPort: uint16(uintPort), } if proxyAdapter == nil { return dialer.NewDialer(opts...).ListenPacket(ctx, dialer.ParseNetwork(network, dstIP), "", netip.AddrPortFrom(metadata.DstIP, metadata.DstPort)) } if !proxyAdapter.SupportUDP() { return nil, fmt.Errorf("proxy adapter [%s] UDP is not supported", proxyAdapter) } return proxyAdapter.ListenPacketContext(ctx, metadata, opts...) } func batchExchange(ctx context.Context, clients []dnsClient, m *D.Msg) (msg *D.Msg, cache bool, err error) { cache = true fast, ctx := picker.WithTimeout[*D.Msg](ctx, resolver.DefaultDNSTimeout) defer fast.Close() domain := msgToDomain(m) for _, client := range clients { if _, isRCodeClient := client.(rcodeClient); isRCodeClient { msg, err = client.ExchangeContext(ctx, m) return msg, false, err } client := client // shadow define client to ensure the value captured by the closure will not be changed in the next loop fast.Go(func() (*D.Msg, error) { log.Debugln("[DNS] resolve %s from %s", domain, client.Address()) m, err := client.ExchangeContext(ctx, m) if err != nil { return nil, err } else if cache && (m.Rcode == D.RcodeServerFailure || m.Rcode == D.RcodeRefused) { // currently, cache indicates whether this msg was from a RCode client, // so we would ignore RCode errors from RCode clients. return nil, errors.New("server failure: " + D.RcodeToString[m.Rcode]) } log.Debugln("[DNS] %s --> %s, from %s", domain, msgToIP(m), client.Address()) return m, nil }) } msg = fast.Wait() if msg == nil { err = errors.New("all DNS requests failed") if fErr := fast.Error(); fErr != nil { err = fmt.Errorf("%w, first error: %w", err, fErr) } } return }