package dispatcher import ( "context" "regexp" "strings" "sync" "time" "github.com/xtls/xray-core/common" "github.com/xtls/xray-core/common/buf" "github.com/xtls/xray-core/common/errors" "github.com/xtls/xray-core/common/log" "github.com/xtls/xray-core/common/net" "github.com/xtls/xray-core/common/protocol" "github.com/xtls/xray-core/common/session" "github.com/xtls/xray-core/core" "github.com/xtls/xray-core/features/dns" "github.com/xtls/xray-core/features/outbound" "github.com/xtls/xray-core/features/policy" "github.com/xtls/xray-core/features/routing" routing_session "github.com/xtls/xray-core/features/routing/session" "github.com/xtls/xray-core/features/stats" "github.com/xtls/xray-core/transport" "github.com/xtls/xray-core/transport/pipe" ) var errSniffingTimeout = errors.New("timeout on sniffing") type cachedReader struct { sync.Mutex reader *pipe.Reader cache buf.MultiBuffer } func (r *cachedReader) Cache(b *buf.Buffer) { mb, _ := r.reader.ReadMultiBufferTimeout(time.Millisecond * 100) r.Lock() if !mb.IsEmpty() { r.cache, _ = buf.MergeMulti(r.cache, mb) } cacheLen := r.cache.Len() if cacheLen <= b.Cap() { b.Clear() } else { b.Release() *b = *buf.NewWithSize(cacheLen) } rawBytes := b.Extend(cacheLen) n := r.cache.Copy(rawBytes) b.Resize(0, int32(n)) r.Unlock() } func (r *cachedReader) readInternal() buf.MultiBuffer { r.Lock() defer r.Unlock() if r.cache != nil && !r.cache.IsEmpty() { mb := r.cache r.cache = nil return mb } return nil } func (r *cachedReader) ReadMultiBuffer() (buf.MultiBuffer, error) { mb := r.readInternal() if mb != nil { return mb, nil } return r.reader.ReadMultiBuffer() } func (r *cachedReader) ReadMultiBufferTimeout(timeout time.Duration) (buf.MultiBuffer, error) { mb := r.readInternal() if mb != nil { return mb, nil } return r.reader.ReadMultiBufferTimeout(timeout) } func (r *cachedReader) Interrupt() { r.Lock() if r.cache != nil { r.cache = buf.ReleaseMulti(r.cache) } r.Unlock() r.reader.Interrupt() } // DefaultDispatcher is a default implementation of Dispatcher. type DefaultDispatcher struct { ohm outbound.Manager router routing.Router policy policy.Manager stats stats.Manager dns dns.Client fdns dns.FakeDNSEngine } func init() { common.Must(common.RegisterConfig((*Config)(nil), func(ctx context.Context, config interface{}) (interface{}, error) { d := new(DefaultDispatcher) if err := core.RequireFeatures(ctx, func(om outbound.Manager, router routing.Router, pm policy.Manager, sm stats.Manager, dc dns.Client) error { core.RequireFeatures(ctx, func(fdns dns.FakeDNSEngine) { // FakeDNSEngine is optional d.fdns = fdns }) return d.Init(config.(*Config), om, router, pm, sm, dc) }); err != nil { return nil, err } return d, nil })) } // Init initializes DefaultDispatcher. func (d *DefaultDispatcher) Init(config *Config, om outbound.Manager, router routing.Router, pm policy.Manager, sm stats.Manager, dns dns.Client) error { d.ohm = om d.router = router d.policy = pm d.stats = sm d.dns = dns return nil } // Type implements common.HasType. func (*DefaultDispatcher) Type() interface{} { return routing.DispatcherType() } // Start implements common.Runnable. func (*DefaultDispatcher) Start() error { return nil } // Close implements common.Closable. func (*DefaultDispatcher) Close() error { return nil } func (d *DefaultDispatcher) getLink(ctx context.Context) (*transport.Link, *transport.Link) { opt := pipe.OptionsFromContext(ctx) uplinkReader, uplinkWriter := pipe.New(opt...) downlinkReader, downlinkWriter := pipe.New(opt...) inboundLink := &transport.Link{ Reader: downlinkReader, Writer: uplinkWriter, } outboundLink := &transport.Link{ Reader: uplinkReader, Writer: downlinkWriter, } sessionInbound := session.InboundFromContext(ctx) var user *protocol.MemoryUser if sessionInbound != nil { user = sessionInbound.User } if user != nil && len(user.Email) > 0 { p := d.policy.ForLevel(user.Level) if p.Stats.UserUplink { name := "user>>>" + user.Email + ">>>traffic>>>uplink" if c, _ := stats.GetOrRegisterCounter(d.stats, name); c != nil { inboundLink.Writer = &SizeStatWriter{ Counter: c, Writer: inboundLink.Writer, } } } if p.Stats.UserDownlink { name := "user>>>" + user.Email + ">>>traffic>>>downlink" if c, _ := stats.GetOrRegisterCounter(d.stats, name); c != nil { outboundLink.Writer = &SizeStatWriter{ Counter: c, Writer: outboundLink.Writer, } } } if p.Stats.UserOnline { name := "user>>>" + user.Email + ">>>online" if om, _ := stats.GetOrRegisterOnlineMap(d.stats, name); om != nil { sessionInbounds := session.InboundFromContext(ctx) userIP := sessionInbounds.Source.Address.String() om.AddIP(userIP) // log Online user with ips // errors.LogDebug(ctx, "user>>>" + user.Email + ">>>online", om.Count(), om.List()) } } } return inboundLink, outboundLink } func (d *DefaultDispatcher) shouldOverride(ctx context.Context, result SniffResult, request session.SniffingRequest, destination net.Destination) bool { domain := result.Domain() if domain == "" { return false } for _, d := range request.ExcludeForDomain { if strings.HasPrefix(d, "regexp:") { pattern := d[7:] re, err := regexp.Compile(pattern) if err != nil { errors.LogInfo(ctx, "Unable to compile regex") continue } if re.MatchString(domain) { return false } } else { if strings.ToLower(domain) == d { return false } } } protocolString := result.Protocol() if resComp, ok := result.(SnifferResultComposite); ok { protocolString = resComp.ProtocolForDomainResult() } for _, p := range request.OverrideDestinationForProtocol { if strings.HasPrefix(protocolString, p) || strings.HasPrefix(p, protocolString) { return true } if fkr0, ok := d.fdns.(dns.FakeDNSEngineRev0); ok && protocolString != "bittorrent" && p == "fakedns" && fkr0.IsIPInIPPool(destination.Address) { errors.LogInfo(ctx, "Using sniffer ", protocolString, " since the fake DNS missed") return true } if resultSubset, ok := result.(SnifferIsProtoSubsetOf); ok { if resultSubset.IsProtoSubsetOf(p) { return true } } } return false } // Dispatch implements routing.Dispatcher. func (d *DefaultDispatcher) Dispatch(ctx context.Context, destination net.Destination) (*transport.Link, error) { if !destination.IsValid() { panic("Dispatcher: Invalid destination.") } outbounds := session.OutboundsFromContext(ctx) if len(outbounds) == 0 { outbounds = []*session.Outbound{{}} ctx = session.ContextWithOutbounds(ctx, outbounds) } ob := outbounds[len(outbounds)-1] ob.OriginalTarget = destination ob.Target = destination content := session.ContentFromContext(ctx) if content == nil { content = new(session.Content) ctx = session.ContextWithContent(ctx, content) } sniffingRequest := content.SniffingRequest inbound, outbound := d.getLink(ctx) if !sniffingRequest.Enabled { go d.routedDispatch(ctx, outbound, destination) } else { go func() { cReader := &cachedReader{ reader: outbound.Reader.(*pipe.Reader), } outbound.Reader = cReader result, err := sniffer(ctx, cReader, sniffingRequest.MetadataOnly, destination.Network) if err == nil { content.Protocol = result.Protocol() } if err == nil && d.shouldOverride(ctx, result, sniffingRequest, destination) { domain := result.Domain() errors.LogInfo(ctx, "sniffed domain: ", domain) destination.Address = net.ParseAddress(domain) protocol := result.Protocol() if resComp, ok := result.(SnifferResultComposite); ok { protocol = resComp.ProtocolForDomainResult() } isFakeIP := false if fkr0, ok := d.fdns.(dns.FakeDNSEngineRev0); ok && fkr0.IsIPInIPPool(ob.Target.Address) { isFakeIP = true } if sniffingRequest.RouteOnly && protocol != "fakedns" && protocol != "fakedns+others" && !isFakeIP { ob.RouteTarget = destination } else { ob.Target = destination } } d.routedDispatch(ctx, outbound, destination) }() } return inbound, nil } // DispatchLink implements routing.Dispatcher. func (d *DefaultDispatcher) DispatchLink(ctx context.Context, destination net.Destination, outbound *transport.Link) error { if !destination.IsValid() { return errors.New("Dispatcher: Invalid destination.") } outbounds := session.OutboundsFromContext(ctx) if len(outbounds) == 0 { outbounds = []*session.Outbound{{}} ctx = session.ContextWithOutbounds(ctx, outbounds) } ob := outbounds[len(outbounds)-1] ob.OriginalTarget = destination ob.Target = destination content := session.ContentFromContext(ctx) if content == nil { content = new(session.Content) ctx = session.ContextWithContent(ctx, content) } sniffingRequest := content.SniffingRequest if !sniffingRequest.Enabled { d.routedDispatch(ctx, outbound, destination) } else { cReader := &cachedReader{ reader: outbound.Reader.(*pipe.Reader), } outbound.Reader = cReader result, err := sniffer(ctx, cReader, sniffingRequest.MetadataOnly, destination.Network) if err == nil { content.Protocol = result.Protocol() } if err == nil && d.shouldOverride(ctx, result, sniffingRequest, destination) { domain := result.Domain() errors.LogInfo(ctx, "sniffed domain: ", domain) destination.Address = net.ParseAddress(domain) protocol := result.Protocol() if resComp, ok := result.(SnifferResultComposite); ok { protocol = resComp.ProtocolForDomainResult() } isFakeIP := false if fkr0, ok := d.fdns.(dns.FakeDNSEngineRev0); ok && fkr0.IsIPInIPPool(ob.Target.Address) { isFakeIP = true } if sniffingRequest.RouteOnly && protocol != "fakedns" && protocol != "fakedns+others" && !isFakeIP { ob.RouteTarget = destination } else { ob.Target = destination } } d.routedDispatch(ctx, outbound, destination) } return nil } func sniffer(ctx context.Context, cReader *cachedReader, metadataOnly bool, network net.Network) (SniffResult, error) { payload := buf.New() defer payload.Release() sniffer := NewSniffer(ctx) metaresult, metadataErr := sniffer.SniffMetadata(ctx) if metadataOnly { return metaresult, metadataErr } contentResult, contentErr := func() (SniffResult, error) { totalAttempt := 0 for { select { case <-ctx.Done(): return nil, ctx.Err() default: totalAttempt++ if totalAttempt > 2 { return nil, errSniffingTimeout } cReader.Cache(payload) if !payload.IsEmpty() { result, err := sniffer.Sniff(ctx, payload.Bytes(), network) if err != common.ErrNoClue { return result, err } } if payload.IsFull() { return nil, errUnknownContent } } } }() if contentErr != nil && metadataErr == nil { return metaresult, nil } if contentErr == nil && metadataErr == nil { return CompositeResult(metaresult, contentResult), nil } return contentResult, contentErr } func (d *DefaultDispatcher) routedDispatch(ctx context.Context, link *transport.Link, destination net.Destination) { outbounds := session.OutboundsFromContext(ctx) ob := outbounds[len(outbounds)-1] if hosts, ok := d.dns.(dns.HostsLookup); ok && destination.Address.Family().IsDomain() { proxied := hosts.LookupHosts(ob.Target.String()) if proxied != nil { ro := ob.RouteTarget == destination destination.Address = *proxied if ro { ob.RouteTarget = destination } else { ob.Target = destination } } } var handler outbound.Handler routingLink := routing_session.AsRoutingContext(ctx) inTag := routingLink.GetInboundTag() isPickRoute := 0 if forcedOutboundTag := session.GetForcedOutboundTagFromContext(ctx); forcedOutboundTag != "" { ctx = session.SetForcedOutboundTagToContext(ctx, "") if h := d.ohm.GetHandler(forcedOutboundTag); h != nil { isPickRoute = 1 errors.LogInfo(ctx, "taking platform initialized detour [", forcedOutboundTag, "] for [", destination, "]") handler = h } else { errors.LogError(ctx, "non existing tag for platform initialized detour: ", forcedOutboundTag) common.Close(link.Writer) common.Interrupt(link.Reader) return } } else if d.router != nil { if route, err := d.router.PickRoute(routingLink); err == nil { outTag := route.GetOutboundTag() if h := d.ohm.GetHandler(outTag); h != nil { isPickRoute = 2 if route.GetRuleTag() == "" { errors.LogInfo(ctx, "taking detour [", outTag, "] for [", destination, "]") } else { errors.LogInfo(ctx, "Hit route rule: [", route.GetRuleTag(), "] so taking detour [", outTag, "] for [", destination, "]") } handler = h } else { errors.LogWarning(ctx, "non existing outTag: ", outTag) } } else { errors.LogInfo(ctx, "default route for ", destination) } } if handler == nil { handler = d.ohm.GetDefaultHandler() } if handler == nil { errors.LogInfo(ctx, "default outbound handler not exist") common.Close(link.Writer) common.Interrupt(link.Reader) return } ob.Tag = handler.Tag() if accessMessage := log.AccessMessageFromContext(ctx); accessMessage != nil { if tag := handler.Tag(); tag != "" { if inTag == "" { accessMessage.Detour = tag } else if isPickRoute == 1 { accessMessage.Detour = inTag + " ==> " + tag } else if isPickRoute == 2 { accessMessage.Detour = inTag + " -> " + tag } else { accessMessage.Detour = inTag + " >> " + tag } } log.Record(accessMessage) } handler.Dispatch(ctx, link) }