package executor import ( "fmt" "github.com/Dreamacro/clash/ntp" "net" "net/netip" "os" "runtime" "strconv" "strings" "sync" "time" "github.com/Dreamacro/clash/adapter" "github.com/Dreamacro/clash/adapter/inbound" "github.com/Dreamacro/clash/adapter/outboundgroup" "github.com/Dreamacro/clash/component/auth" "github.com/Dreamacro/clash/component/dialer" G "github.com/Dreamacro/clash/component/geodata" "github.com/Dreamacro/clash/component/iface" "github.com/Dreamacro/clash/component/profile" "github.com/Dreamacro/clash/component/profile/cachefile" "github.com/Dreamacro/clash/component/resolver" SNI "github.com/Dreamacro/clash/component/sniffer" CTLS "github.com/Dreamacro/clash/component/tls" "github.com/Dreamacro/clash/component/trie" "github.com/Dreamacro/clash/config" C "github.com/Dreamacro/clash/constant" "github.com/Dreamacro/clash/constant/provider" "github.com/Dreamacro/clash/dns" "github.com/Dreamacro/clash/listener" authStore "github.com/Dreamacro/clash/listener/auth" LC "github.com/Dreamacro/clash/listener/config" "github.com/Dreamacro/clash/listener/inner" "github.com/Dreamacro/clash/listener/tproxy" "github.com/Dreamacro/clash/log" "github.com/Dreamacro/clash/tunnel" ) var mux sync.Mutex func readConfig(path string) ([]byte, error) { if _, err := os.Stat(path); os.IsNotExist(err) { return nil, err } data, err := os.ReadFile(path) if err != nil { return nil, err } if len(data) == 0 { return nil, fmt.Errorf("configuration file %s is empty", path) } return data, err } // Parse config with default config path func Parse() (*config.Config, error) { return ParseWithPath(C.Path.Config()) } // ParseWithPath parse config with custom config path func ParseWithPath(path string) (*config.Config, error) { buf, err := readConfig(path) if err != nil { return nil, err } return ParseWithBytes(buf) } // ParseWithBytes config with buffer func ParseWithBytes(buf []byte) (*config.Config, error) { return config.Parse(buf) } // ApplyConfig dispatch configure to all parts func ApplyConfig(cfg *config.Config, force bool) { mux.Lock() defer mux.Unlock() tunnel.OnSuspend() CTLS.ResetCertificate() for _, c := range cfg.TLS.CustomTrustCert { if err := CTLS.AddCertificate(c); err != nil { log.Warnln("%s\nadd error: %s", c, err.Error()) } } updateUsers(cfg.Users) updateProxies(cfg.Mitm, cfg.Proxies, cfg.Providers) updateRules(cfg.Rules, cfg.SubRules, cfg.RuleProviders) updateSniffer(cfg.Sniffer) updateHosts(cfg.Hosts) updateMitm(cfg.Mitm) updateGeneral(cfg.General) updateNTP(cfg.NTP) updateDNS(cfg.DNS, cfg.RuleProviders, cfg.General.IPv6) updateListeners(cfg.General, cfg.Listeners, force) updateIPTables(cfg) updateTun(cfg.General) updateExperimental(cfg) updateTunnels(cfg.Tunnels) tunnel.OnInnerLoading() initInnerTcp() loadProxyProvider(cfg.Providers) updateProfile(cfg) loadRuleProvider(cfg.RuleProviders) runtime.GC() tunnel.OnRunning() log.SetLevel(cfg.General.LogLevel) } func initInnerTcp() { inner.New(tunnel.TCPIn()) } func GetGeneral() *config.General { ports := listener.GetPorts() var authenticator []string if auth := authStore.Authenticator(); auth != nil { authenticator = auth.Users() } general := &config.General{ Inbound: config.Inbound{ Port: ports.Port, SocksPort: ports.SocksPort, RedirPort: ports.RedirPort, TProxyPort: ports.TProxyPort, MixedPort: ports.MixedPort, MitmPort: ports.MitmPort, Tun: listener.GetTunConf(), TuicServer: listener.GetTuicConf(), ShadowSocksConfig: ports.ShadowSocksConfig, VmessConfig: ports.VmessConfig, Authentication: authenticator, AllowLan: listener.AllowLan(), BindAddress: listener.BindAddress(), }, Mode: tunnel.Mode(), LogLevel: log.Level(), IPv6: !resolver.DisableIPv6, GeodataLoader: G.LoaderName(), Interface: dialer.DefaultInterface.Load(), Sniffing: tunnel.IsSniffing(), TCPConcurrent: dialer.GetTcpConcurrent(), } return general } func updateListeners(general *config.General, listeners map[string]C.InboundListener, force bool) { tcpIn := tunnel.TCPIn() udpIn := tunnel.UDPIn() natTable := tunnel.NatTable() listener.PatchInboundListeners(listeners, tcpIn, udpIn, natTable, true) if !force { return } allowLan := general.AllowLan listener.SetAllowLan(allowLan) bindAddress := general.BindAddress listener.SetBindAddress(bindAddress) listener.ReCreateHTTP(general.Port, tcpIn) listener.ReCreateSocks(general.SocksPort, tcpIn, udpIn) listener.ReCreateRedir(general.RedirPort, tcpIn, udpIn, natTable) listener.ReCreateAutoRedir(general.EBpf.AutoRedir, tcpIn, udpIn) listener.ReCreateTProxy(general.TProxyPort, tcpIn, udpIn, natTable) listener.ReCreateMixed(general.MixedPort, tcpIn, udpIn) listener.ReCreateShadowSocks(general.ShadowSocksConfig, tcpIn, udpIn) listener.ReCreateVmess(general.VmessConfig, tcpIn, udpIn) listener.ReCreateTuic(LC.TuicServer(general.TuicServer), tcpIn, udpIn) } func updateExperimental(c *config.Config) { } func updateNTP(c *config.NTP) { if c.Enable { ntp.ReCreateNTPService(net.JoinHostPort(c.Server, strconv.Itoa(c.Port)), time.Duration(c.Interval)) } } func updateDNS(c *config.DNS, ruleProvider map[string]provider.RuleProvider, generalIPv6 bool) { if !c.Enable { resolver.DefaultResolver = nil resolver.DefaultHostMapper = nil resolver.DefaultLocalServer = nil dns.ReCreateServer("", nil, nil) return } policy := make(map[string][]dns.NameServer) domainSetPolicies := make(map[provider.RuleProvider][]dns.NameServer) for key, nameservers := range c.NameServerPolicy { temp := strings.Split(key, ":") if len(temp) == 2 { prefix := temp[0] key := temp[1] switch strings.ToLower(prefix) { case "rule-set": if p, ok := ruleProvider[key]; ok { domainSetPolicies[p] = nameservers } case "geosite": // TODO: } } else { policy[key] = nameservers } } cfg := dns.Config{ Main: c.NameServer, Fallback: c.Fallback, IPv6: c.IPv6 && generalIPv6, IPv6Timeout: c.IPv6Timeout, EnhancedMode: c.EnhancedMode, Pool: c.FakeIPRange, Hosts: c.Hosts, FallbackFilter: dns.FallbackFilter{ GeoIP: c.FallbackFilter.GeoIP, GeoIPCode: c.FallbackFilter.GeoIPCode, IPCIDR: c.FallbackFilter.IPCIDR, Domain: c.FallbackFilter.Domain, GeoSite: c.FallbackFilter.GeoSite, }, Default: c.DefaultNameserver, Policy: c.NameServerPolicy, ProxyServer: c.ProxyServerNameserver, DomainSetPolicy: domainSetPolicies, } r := dns.NewResolver(cfg) pr := dns.NewProxyServerHostResolver(r) m := dns.NewEnhancer(cfg) // reuse cache of old host mapper if old := resolver.DefaultHostMapper; old != nil { m.PatchFrom(old.(*dns.ResolverEnhancer)) } resolver.DefaultResolver = r resolver.DefaultHostMapper = m resolver.DefaultLocalServer = dns.NewLocalServer(r, m) if pr.Invalid() { resolver.ProxyServerHostResolver = pr } dns.ReCreateServer(c.Listen, r, m) } func updateHosts(tree *trie.DomainTrie[resolver.HostValue]) { resolver.DefaultHosts = resolver.NewHosts(tree) } func updateProxies(mitm *config.Mitm, proxies map[string]C.Proxy, providers map[string]provider.ProxyProvider) { tunnel.UpdateProxies(proxies, providers) } func updateRules(rules []C.Rule, subRules map[string][]C.Rule, ruleProviders map[string]provider.RuleProvider) { tunnel.UpdateRules(rules, subRules, ruleProviders) } func loadProvider(pv provider.Provider) { if pv.VehicleType() == provider.Compatible { log.Infoln("Start initial compatible provider %s", pv.Name()) } else { log.Infoln("Start initial provider %s", (pv).Name()) } if err := pv.Initial(); err != nil { switch pv.Type() { case provider.Proxy: { log.Errorln("initial proxy provider %s error: %v", (pv).Name(), err) } case provider.Rule: { log.Errorln("initial rule provider %s error: %v", (pv).Name(), err) } } } } func loadRuleProvider(ruleProviders map[string]provider.RuleProvider) { wg := sync.WaitGroup{} ch := make(chan struct{}, concurrentCount) for _, ruleProvider := range ruleProviders { ruleProvider := ruleProvider wg.Add(1) ch <- struct{}{} go func() { defer func() { <-ch; wg.Done() }() loadProvider(ruleProvider) }() } wg.Wait() } func loadProxyProvider(proxyProviders map[string]provider.ProxyProvider) { // limit concurrent size wg := sync.WaitGroup{} ch := make(chan struct{}, concurrentCount) for _, proxyProvider := range proxyProviders { proxyProvider := proxyProvider wg.Add(1) ch <- struct{}{} go func() { defer func() { <-ch; wg.Done() }() loadProvider(proxyProvider) }() } wg.Wait() } func updateTun(general *config.General) { if general == nil { return } listener.ReCreateTun(LC.Tun(general.Tun), tunnel.TCPIn(), tunnel.UDPIn()) listener.ReCreateRedirToTun(general.Tun.RedirectToTun) } func updateSniffer(sniffer *config.Sniffer) { if sniffer.Enable { dispatcher, err := SNI.NewSnifferDispatcher( sniffer.Sniffers, sniffer.ForceDomain, sniffer.SkipDomain, sniffer.ForceDnsMapping, sniffer.ParsePureIp, ) if err != nil { log.Warnln("initial sniffer failed, err:%v", err) } tunnel.UpdateSniffer(dispatcher) log.Infoln("Sniffer is loaded and working") } else { dispatcher, err := SNI.NewCloseSnifferDispatcher() if err != nil { log.Warnln("initial sniffer failed, err:%v", err) } tunnel.UpdateSniffer(dispatcher) log.Infoln("Sniffer is closed") } } func updateTunnels(tunnels []LC.Tunnel) { listener.PatchTunnel(tunnels, tunnel.TCPIn(), tunnel.UDPIn()) } func updateGeneral(general *config.General) { tunnel.SetMode(general.Mode) tunnel.SetFindProcessMode(general.FindProcessMode) resolver.DisableIPv6 = !general.IPv6 if general.TCPConcurrent { dialer.SetTcpConcurrent(general.TCPConcurrent) log.Infoln("Use tcp concurrent") } inbound.SetTfo(general.InboundTfo) inbound.SetMPTCP(general.InboundMPTCP) adapter.UnifiedDelay.Store(general.UnifiedDelay) dialer.DefaultInterface.Store(general.Interface) dialer.DefaultRoutingMark.Store(int32(general.RoutingMark)) if general.RoutingMark > 0 { log.Infoln("Use routing mark: %#x", general.RoutingMark) } iface.FlushCache() geodataLoader := general.GeodataLoader G.SetLoader(geodataLoader) } func updateUsers(users []auth.AuthUser) { authenticator := auth.NewAuthenticator(users) authStore.SetAuthenticator(authenticator) if authenticator != nil { log.Infoln("Authentication of local server updated") } } func updateProfile(cfg *config.Config) { profileCfg := cfg.Profile profile.StoreSelected.Store(profileCfg.StoreSelected) if profileCfg.StoreSelected { patchSelectGroup(cfg.Proxies) } } func patchSelectGroup(proxies map[string]C.Proxy) { mapping := cachefile.Cache().SelectedMap() if mapping == nil { return } for name, proxy := range proxies { outbound, ok := proxy.(*adapter.Proxy) if !ok { continue } selector, ok := outbound.ProxyAdapter.(outboundgroup.SelectAble) if !ok { continue } selected, exist := mapping[name] if !exist { continue } selector.ForceSet(selected) } } func updateIPTables(cfg *config.Config) { tproxy.CleanupTProxyIPTables() iptables := cfg.IPTables if runtime.GOOS != "linux" || !iptables.Enable { return } var err error defer func() { if err != nil { log.Errorln("[IPTABLES] setting iptables failed: %s", err.Error()) os.Exit(2) } }() if cfg.General.Tun.Enable { err = fmt.Errorf("when tun is enabled, iptables cannot be set automatically") return } var ( inboundInterface = "lo" bypass = iptables.Bypass tProxyPort = cfg.General.TProxyPort dnsCfg = cfg.DNS ) if tProxyPort == 0 { err = fmt.Errorf("tproxy-port must be greater than zero") return } if !dnsCfg.Enable { err = fmt.Errorf("DNS server must be enable") return } dnsPort, err := netip.ParseAddrPort(dnsCfg.Listen) if err != nil { err = fmt.Errorf("DNS server must be correct") return } if iptables.InboundInterface != "" { inboundInterface = iptables.InboundInterface } if dialer.DefaultRoutingMark.Load() == 0 { dialer.DefaultRoutingMark.Store(2158) } err = tproxy.SetTProxyIPTables(inboundInterface, bypass, uint16(tProxyPort), dnsPort.Port()) if err != nil { return } log.Infoln("[IPTABLES] Setting iptables completed") } func updateMitm(mitm *config.Mitm) { listener.ReCreateMitm(mitm.Port, tunnel.TCPIn()) tunnel.UpdateRewrites(mitm.Rules) } func Shutdown() { listener.Cleanup() tproxy.CleanupTProxyIPTables() resolver.StoreFakePoolState() log.Warnln("Clash shutting down") }