package route import ( "context" "net/netip" "net/url" "os" "runtime" "strings" "time" "github.com/sagernet/sing-box/adapter" "github.com/sagernet/sing-box/common/dialer" "github.com/sagernet/sing-box/common/geoip" "github.com/sagernet/sing-box/common/geosite" "github.com/sagernet/sing-box/common/process" "github.com/sagernet/sing-box/common/taskmonitor" C "github.com/sagernet/sing-box/constant" "github.com/sagernet/sing-box/experimental/libbox/platform" "github.com/sagernet/sing-box/log" "github.com/sagernet/sing-box/option" R "github.com/sagernet/sing-box/route/rule" "github.com/sagernet/sing-box/transport/fakeip" "github.com/sagernet/sing-dns" "github.com/sagernet/sing/common" E "github.com/sagernet/sing/common/exceptions" F "github.com/sagernet/sing/common/format" M "github.com/sagernet/sing/common/metadata" N "github.com/sagernet/sing/common/network" "github.com/sagernet/sing/common/task" "github.com/sagernet/sing/service" "github.com/sagernet/sing/service/pause" ) var _ adapter.Router = (*Router)(nil) type Router struct { ctx context.Context logger log.ContextLogger dnsLogger log.ContextLogger inbound adapter.InboundManager outbound adapter.OutboundManager connection adapter.ConnectionManager network adapter.NetworkManager rules []adapter.Rule needGeoIPDatabase bool needGeositeDatabase bool geoIPOptions option.GeoIPOptions geositeOptions option.GeositeOptions geoIPReader *geoip.Reader geositeReader *geosite.Reader geositeCache map[string]adapter.Rule needFindProcess bool dnsClient *dns.Client defaultDomainStrategy dns.DomainStrategy dnsRules []adapter.DNSRule ruleSets []adapter.RuleSet ruleSetMap map[string]adapter.RuleSet defaultTransport dns.Transport transports []dns.Transport transportMap map[string]dns.Transport transportDomainStrategy map[dns.Transport]dns.DomainStrategy dnsReverseMapping *DNSReverseMapping fakeIPStore adapter.FakeIPStore processSearcher process.Searcher pauseManager pause.Manager tracker adapter.ConnectionTracker platformInterface platform.Interface needWIFIState bool started bool } func NewRouter(ctx context.Context, logFactory log.Factory, options option.RouteOptions, dnsOptions option.DNSOptions) (*Router, error) { router := &Router{ ctx: ctx, logger: logFactory.NewLogger("router"), dnsLogger: logFactory.NewLogger("dns"), inbound: service.FromContext[adapter.InboundManager](ctx), outbound: service.FromContext[adapter.OutboundManager](ctx), connection: service.FromContext[adapter.ConnectionManager](ctx), network: service.FromContext[adapter.NetworkManager](ctx), rules: make([]adapter.Rule, 0, len(options.Rules)), dnsRules: make([]adapter.DNSRule, 0, len(dnsOptions.Rules)), ruleSetMap: make(map[string]adapter.RuleSet), needGeoIPDatabase: hasRule(options.Rules, isGeoIPRule) || hasDNSRule(dnsOptions.Rules, isGeoIPDNSRule), needGeositeDatabase: hasRule(options.Rules, isGeositeRule) || hasDNSRule(dnsOptions.Rules, isGeositeDNSRule), geoIPOptions: common.PtrValueOrDefault(options.GeoIP), geositeOptions: common.PtrValueOrDefault(options.Geosite), geositeCache: make(map[string]adapter.Rule), needFindProcess: hasRule(options.Rules, isProcessRule) || hasDNSRule(dnsOptions.Rules, isProcessDNSRule) || options.FindProcess, defaultDomainStrategy: dns.DomainStrategy(dnsOptions.Strategy), pauseManager: service.FromContext[pause.Manager](ctx), platformInterface: service.FromContext[platform.Interface](ctx), needWIFIState: hasRule(options.Rules, isWIFIRule) || hasDNSRule(dnsOptions.Rules, isWIFIDNSRule), } service.MustRegister[adapter.Router](ctx, router) router.dnsClient = dns.NewClient(dns.ClientOptions{ DisableCache: dnsOptions.DNSClientOptions.DisableCache, DisableExpire: dnsOptions.DNSClientOptions.DisableExpire, IndependentCache: dnsOptions.DNSClientOptions.IndependentCache, CacheCapacity: dnsOptions.DNSClientOptions.CacheCapacity, RDRC: func() dns.RDRCStore { cacheFile := service.FromContext[adapter.CacheFile](ctx) if cacheFile == nil { return nil } if !cacheFile.StoreRDRC() { return nil } return cacheFile }, Logger: router.dnsLogger, }) for i, ruleOptions := range options.Rules { routeRule, err := R.NewRule(ctx, router.logger, ruleOptions, true) if err != nil { return nil, E.Cause(err, "parse rule[", i, "]") } router.rules = append(router.rules, routeRule) } for i, dnsRuleOptions := range dnsOptions.Rules { dnsRule, err := R.NewDNSRule(ctx, router.logger, dnsRuleOptions, true) if err != nil { return nil, E.Cause(err, "parse dns rule[", i, "]") } router.dnsRules = append(router.dnsRules, dnsRule) } for i, ruleSetOptions := range options.RuleSet { if _, exists := router.ruleSetMap[ruleSetOptions.Tag]; exists { return nil, E.New("duplicate rule-set tag: ", ruleSetOptions.Tag) } ruleSet, err := R.NewRuleSet(ctx, router.logger, ruleSetOptions) if err != nil { return nil, E.Cause(err, "parse rule-set[", i, "]") } router.ruleSets = append(router.ruleSets, ruleSet) router.ruleSetMap[ruleSetOptions.Tag] = ruleSet } transports := make([]dns.Transport, len(dnsOptions.Servers)) dummyTransportMap := make(map[string]dns.Transport) transportMap := make(map[string]dns.Transport) transportTags := make([]string, len(dnsOptions.Servers)) transportTagMap := make(map[string]bool) transportDomainStrategy := make(map[dns.Transport]dns.DomainStrategy) for i, server := range dnsOptions.Servers { var tag string if server.Tag != "" { tag = server.Tag } else { tag = F.ToString(i) } if transportTagMap[tag] { return nil, E.New("duplicate dns server tag: ", tag) } transportTags[i] = tag transportTagMap[tag] = true } outboundManager := service.FromContext[adapter.OutboundManager](ctx) for { lastLen := len(dummyTransportMap) for i, server := range dnsOptions.Servers { tag := transportTags[i] if _, exists := dummyTransportMap[tag]; exists { continue } var detour N.Dialer if server.Detour == "" { detour = dialer.NewDefaultOutbound(outboundManager) } else { detour = dialer.NewDetour(outboundManager, server.Detour) } var serverProtocol string switch server.Address { case "local": serverProtocol = "local" default: serverURL, _ := url.Parse(server.Address) var serverAddress string if serverURL != nil { if serverURL.Scheme == "" { serverProtocol = "udp" } else { serverProtocol = serverURL.Scheme } serverAddress = serverURL.Hostname() } if serverAddress == "" { serverAddress = server.Address } notIpAddress := !M.ParseSocksaddr(serverAddress).Addr.IsValid() if server.AddressResolver != "" { if !transportTagMap[server.AddressResolver] { return nil, E.New("parse dns server[", tag, "]: address resolver not found: ", server.AddressResolver) } if upstream, exists := dummyTransportMap[server.AddressResolver]; exists { detour = dns.NewDialerWrapper(detour, router.dnsClient, upstream, dns.DomainStrategy(server.AddressStrategy), time.Duration(server.AddressFallbackDelay)) } else { continue } } else if notIpAddress && strings.Contains(server.Address, ".") { return nil, E.New("parse dns server[", tag, "]: missing address_resolver") } } var clientSubnet netip.Prefix if server.ClientSubnet != nil { clientSubnet = netip.Prefix(common.PtrValueOrDefault(server.ClientSubnet)) } else if dnsOptions.ClientSubnet != nil { clientSubnet = netip.Prefix(common.PtrValueOrDefault(dnsOptions.ClientSubnet)) } if serverProtocol == "" { serverProtocol = "transport" } transport, err := dns.CreateTransport(dns.TransportOptions{ Context: ctx, Logger: logFactory.NewLogger(F.ToString("dns/", serverProtocol, "[", tag, "]")), Name: tag, Dialer: detour, Address: server.Address, ClientSubnet: clientSubnet, }) if err != nil { return nil, E.Cause(err, "parse dns server[", tag, "]") } transports[i] = transport dummyTransportMap[tag] = transport if server.Tag != "" { transportMap[server.Tag] = transport } strategy := dns.DomainStrategy(server.Strategy) if strategy != dns.DomainStrategyAsIS { transportDomainStrategy[transport] = strategy } } if len(transports) == len(dummyTransportMap) { break } if lastLen != len(dummyTransportMap) { continue } unresolvedTags := common.MapIndexed(common.FilterIndexed(dnsOptions.Servers, func(index int, server option.DNSServerOptions) bool { _, exists := dummyTransportMap[transportTags[index]] return !exists }), func(index int, server option.DNSServerOptions) string { return transportTags[index] }) if len(unresolvedTags) == 0 { panic(F.ToString("unexpected unresolved dns servers: ", len(transports), " ", len(dummyTransportMap), " ", len(transportMap))) } return nil, E.New("found circular reference in dns servers: ", strings.Join(unresolvedTags, " ")) } var defaultTransport dns.Transport if dnsOptions.Final != "" { defaultTransport = dummyTransportMap[dnsOptions.Final] if defaultTransport == nil { return nil, E.New("default dns server not found: ", dnsOptions.Final) } } if defaultTransport == nil { if len(transports) == 0 { transports = append(transports, common.Must1(dns.CreateTransport(dns.TransportOptions{ Context: ctx, Name: "local", Address: "local", Dialer: common.Must1(dialer.NewDefault(ctx, option.DialerOptions{})), }))) } defaultTransport = transports[0] } if _, isFakeIP := defaultTransport.(adapter.FakeIPTransport); isFakeIP { return nil, E.New("default DNS server cannot be fakeip") } router.defaultTransport = defaultTransport router.transports = transports router.transportMap = transportMap router.transportDomainStrategy = transportDomainStrategy if dnsOptions.ReverseMapping { router.dnsReverseMapping = NewDNSReverseMapping() } if fakeIPOptions := dnsOptions.FakeIP; fakeIPOptions != nil && dnsOptions.FakeIP.Enabled { var inet4Range netip.Prefix var inet6Range netip.Prefix if fakeIPOptions.Inet4Range != nil { inet4Range = *fakeIPOptions.Inet4Range } if fakeIPOptions.Inet6Range != nil { inet6Range = *fakeIPOptions.Inet6Range } router.fakeIPStore = fakeip.NewStore(ctx, router.logger, inet4Range, inet6Range) } return router, nil } func (r *Router) Start(stage adapter.StartStage) error { monitor := taskmonitor.New(r.logger, C.StartTimeout) switch stage { case adapter.StartStateInitialize: if r.fakeIPStore != nil { monitor.Start("initialize fakeip store") err := r.fakeIPStore.Start() monitor.Finish() if err != nil { return err } } case adapter.StartStateStart: if r.needGeoIPDatabase { monitor.Start("initialize geoip database") err := r.prepareGeoIPDatabase() monitor.Finish() if err != nil { return err } } if r.needGeositeDatabase { monitor.Start("initialize geosite database") err := r.prepareGeositeDatabase() monitor.Finish() if err != nil { return err } } if r.needGeositeDatabase { for _, rule := range r.rules { err := rule.UpdateGeosite() if err != nil { r.logger.Error("failed to initialize geosite: ", err) } } for _, rule := range r.dnsRules { err := rule.UpdateGeosite() if err != nil { r.logger.Error("failed to initialize geosite: ", err) } } err := common.Close(r.geositeReader) if err != nil { return err } r.geositeCache = nil r.geositeReader = nil } monitor.Start("initialize DNS client") r.dnsClient.Start() monitor.Finish() for i, rule := range r.dnsRules { monitor.Start("initialize DNS rule[", i, "]") err := rule.Start() monitor.Finish() if err != nil { return E.Cause(err, "initialize DNS rule[", i, "]") } } for i, transport := range r.transports { monitor.Start("initialize DNS transport[", i, "]") err := transport.Start() monitor.Finish() if err != nil { return E.Cause(err, "initialize DNS server[", i, "]") } } case adapter.StartStatePostStart: var cacheContext *adapter.HTTPStartContext if len(r.ruleSets) > 0 { monitor.Start("initialize rule-set") cacheContext = adapter.NewHTTPStartContext() var ruleSetStartGroup task.Group for i, ruleSet := range r.ruleSets { ruleSetInPlace := ruleSet ruleSetStartGroup.Append0(func(ctx context.Context) error { err := ruleSetInPlace.StartContext(ctx, cacheContext) if err != nil { return E.Cause(err, "initialize rule-set[", i, "]") } return nil }) } ruleSetStartGroup.Concurrency(5) ruleSetStartGroup.FastFail() err := ruleSetStartGroup.Run(r.ctx) monitor.Finish() if err != nil { return err } } if cacheContext != nil { cacheContext.Close() } needFindProcess := r.needFindProcess for _, ruleSet := range r.ruleSets { metadata := ruleSet.Metadata() if metadata.ContainsProcessRule { needFindProcess = true } if metadata.ContainsWIFIRule { r.needWIFIState = true } } if needFindProcess { if r.platformInterface != nil { r.processSearcher = r.platformInterface } else { monitor.Start("initialize process searcher") searcher, err := process.NewSearcher(process.Config{ Logger: r.logger, PackageManager: r.network.PackageManager(), }) monitor.Finish() if err != nil { if err != os.ErrInvalid { r.logger.Warn(E.Cause(err, "create process searcher")) } } else { r.processSearcher = searcher } } } for i, rule := range r.rules { monitor.Start("initialize rule[", i, "]") err := rule.Start() monitor.Finish() if err != nil { return E.Cause(err, "initialize rule[", i, "]") } } for _, ruleSet := range r.ruleSets { monitor.Start("post start rule_set[", ruleSet.Name(), "]") err := ruleSet.PostStart() monitor.Finish() if err != nil { return E.Cause(err, "post start rule_set[", ruleSet.Name(), "]") } } r.started = true return nil case adapter.StartStateStarted: for _, ruleSet := range r.ruleSetMap { ruleSet.Cleanup() } runtime.GC() } return nil } func (r *Router) Close() error { monitor := taskmonitor.New(r.logger, C.StopTimeout) var err error for i, rule := range r.rules { monitor.Start("close rule[", i, "]") err = E.Append(err, rule.Close(), func(err error) error { return E.Cause(err, "close rule[", i, "]") }) monitor.Finish() } for i, rule := range r.dnsRules { monitor.Start("close dns rule[", i, "]") err = E.Append(err, rule.Close(), func(err error) error { return E.Cause(err, "close dns rule[", i, "]") }) monitor.Finish() } for i, transport := range r.transports { monitor.Start("close dns transport[", i, "]") err = E.Append(err, transport.Close(), func(err error) error { return E.Cause(err, "close dns transport[", i, "]") }) monitor.Finish() } if r.geoIPReader != nil { monitor.Start("close geoip reader") err = E.Append(err, r.geoIPReader.Close(), func(err error) error { return E.Cause(err, "close geoip reader") }) monitor.Finish() } if r.fakeIPStore != nil { monitor.Start("close fakeip store") err = E.Append(err, r.fakeIPStore.Close(), func(err error) error { return E.Cause(err, "close fakeip store") }) monitor.Finish() } return err } func (r *Router) FakeIPStore() adapter.FakeIPStore { return r.fakeIPStore } func (r *Router) RuleSet(tag string) (adapter.RuleSet, bool) { ruleSet, loaded := r.ruleSetMap[tag] return ruleSet, loaded } func (r *Router) NeedWIFIState() bool { return r.needWIFIState } func (r *Router) Rules() []adapter.Rule { return r.rules } func (r *Router) SetTracker(tracker adapter.ConnectionTracker) { r.tracker = tracker } func (r *Router) ResetNetwork() { r.network.ResetNetwork() for _, transport := range r.transports { transport.Reset() } }