package config import ( "container/list" "errors" "fmt" "net" "net/netip" "net/url" "os" "regexp" "strings" "time" "github.com/Dreamacro/clash/adapter" "github.com/Dreamacro/clash/adapter/outbound" "github.com/Dreamacro/clash/adapter/outboundgroup" "github.com/Dreamacro/clash/adapter/provider" "github.com/Dreamacro/clash/common/utils" "github.com/Dreamacro/clash/component/auth" "github.com/Dreamacro/clash/component/dialer" "github.com/Dreamacro/clash/component/fakeip" "github.com/Dreamacro/clash/component/geodata" "github.com/Dreamacro/clash/component/geodata/router" P "github.com/Dreamacro/clash/component/process" "github.com/Dreamacro/clash/component/resolver" SNIFF "github.com/Dreamacro/clash/component/sniffer" tlsC "github.com/Dreamacro/clash/component/tls" "github.com/Dreamacro/clash/component/trie" C "github.com/Dreamacro/clash/constant" providerTypes "github.com/Dreamacro/clash/constant/provider" snifferTypes "github.com/Dreamacro/clash/constant/sniffer" "github.com/Dreamacro/clash/dns" L "github.com/Dreamacro/clash/listener" LC "github.com/Dreamacro/clash/listener/config" "github.com/Dreamacro/clash/log" R "github.com/Dreamacro/clash/rules" RP "github.com/Dreamacro/clash/rules/provider" T "github.com/Dreamacro/clash/tunnel" "gopkg.in/yaml.v3" ) // General config type General struct { Inbound Controller Mode T.TunnelMode `json:"mode"` UnifiedDelay bool LogLevel log.LogLevel `json:"log-level"` IPv6 bool `json:"ipv6"` Interface string `json:"interface-name"` RoutingMark int `json:"-"` GeodataMode bool `json:"geodata-mode"` GeodataLoader string `json:"geodata-loader"` TCPConcurrent bool `json:"tcp-concurrent"` FindProcessMode P.FindProcessMode `json:"find-process-mode"` Sniffing bool `json:"sniffing"` EBpf EBpf `json:"-"` GlobalClientFingerprint string `json:"global-client-fingerprint"` } // Inbound config type Inbound struct { Port int `json:"port"` SocksPort int `json:"socks-port"` RedirPort int `json:"redir-port"` TProxyPort int `json:"tproxy-port"` MixedPort int `json:"mixed-port"` Tun LC.Tun `json:"tun"` TuicServer LC.TuicServer `json:"tuic-server"` ShadowSocksConfig string `json:"ss-config"` VmessConfig string `json:"vmess-config"` Authentication []string `json:"authentication"` AllowLan bool `json:"allow-lan"` BindAddress string `json:"bind-address"` InboundTfo bool `json:"inbound-tfo"` } // Controller config type Controller struct { ExternalController string `json:"-"` ExternalControllerTLS string `json:"-"` ExternalUI string `json:"-"` Secret string `json:"-"` } // DNS config type DNS struct { Enable bool `yaml:"enable"` PreferH3 bool `yaml:"prefer-h3"` IPv6 bool `yaml:"ipv6"` IPv6Timeout uint `yaml:"ipv6-timeout"` NameServer []dns.NameServer `yaml:"nameserver"` Fallback []dns.NameServer `yaml:"fallback"` FallbackFilter FallbackFilter `yaml:"fallback-filter"` Listen string `yaml:"listen"` EnhancedMode C.DNSMode `yaml:"enhanced-mode"` DefaultNameserver []dns.NameServer `yaml:"default-nameserver"` FakeIPRange *fakeip.Pool Hosts *trie.DomainTrie[resolver.HostValue] NameServerPolicy map[string][]dns.NameServer ProxyServerNameserver []dns.NameServer } // FallbackFilter config type FallbackFilter struct { GeoIP bool `yaml:"geoip"` GeoIPCode string `yaml:"geoip-code"` IPCIDR []*netip.Prefix `yaml:"ipcidr"` Domain []string `yaml:"domain"` GeoSite []*router.DomainMatcher `yaml:"geosite"` } // Profile config type Profile struct { StoreSelected bool `yaml:"store-selected"` StoreFakeIP bool `yaml:"store-fake-ip"` } type TLS struct { Certificate string `yaml:"certificate"` PrivateKey string `yaml:"private-key"` CustomTrustCert []string `yaml:"custom-certifactes"` } // IPTables config type IPTables struct { Enable bool `yaml:"enable" json:"enable"` InboundInterface string `yaml:"inbound-interface" json:"inbound-interface"` Bypass []string `yaml:"bypass" json:"bypass"` } type Sniffer struct { Enable bool Sniffers map[snifferTypes.Type]SNIFF.SnifferConfig ForceDomain *trie.DomainSet SkipDomain *trie.DomainSet ForceDnsMapping bool ParsePureIp bool } // Experimental config type Experimental struct { Fingerprints []string `yaml:"fingerprints"` } // Config is clash config manager type Config struct { General *General IPTables *IPTables DNS *DNS Experimental *Experimental Hosts *trie.DomainTrie[resolver.HostValue] Profile *Profile Rules []C.Rule SubRules map[string][]C.Rule Users []auth.AuthUser Proxies map[string]C.Proxy Listeners map[string]C.InboundListener Providers map[string]providerTypes.ProxyProvider RuleProviders map[string]providerTypes.RuleProvider Tunnels []LC.Tunnel Sniffer *Sniffer TLS *TLS } type RawDNS struct { Enable bool `yaml:"enable"` PreferH3 bool `yaml:"prefer-h3"` IPv6 bool `yaml:"ipv6"` IPv6Timeout uint `yaml:"ipv6-timeout"` UseHosts bool `yaml:"use-hosts"` NameServer []string `yaml:"nameserver"` Fallback []string `yaml:"fallback"` FallbackFilter RawFallbackFilter `yaml:"fallback-filter"` Listen string `yaml:"listen"` EnhancedMode C.DNSMode `yaml:"enhanced-mode"` FakeIPRange string `yaml:"fake-ip-range"` FakeIPFilter []string `yaml:"fake-ip-filter"` DefaultNameserver []string `yaml:"default-nameserver"` NameServerPolicy map[string]any `yaml:"nameserver-policy"` ProxyServerNameserver []string `yaml:"proxy-server-nameserver"` } type RawFallbackFilter struct { GeoIP bool `yaml:"geoip"` GeoIPCode string `yaml:"geoip-code"` IPCIDR []string `yaml:"ipcidr"` Domain []string `yaml:"domain"` GeoSite []string `yaml:"geosite"` } type RawTun struct { Enable bool `yaml:"enable" json:"enable"` Device string `yaml:"device" json:"device"` Stack C.TUNStack `yaml:"stack" json:"stack"` DNSHijack []string `yaml:"dns-hijack" json:"dns-hijack"` AutoRoute bool `yaml:"auto-route" json:"auto-route"` AutoDetectInterface bool `yaml:"auto-detect-interface"` RedirectToTun []string `yaml:"-" json:"-"` MTU uint32 `yaml:"mtu" json:"mtu,omitempty"` //Inet4Address []LC.ListenPrefix `yaml:"inet4-address" json:"inet4_address,omitempty"` Inet6Address []LC.ListenPrefix `yaml:"inet6-address" json:"inet6_address,omitempty"` StrictRoute bool `yaml:"strict-route" json:"strict_route,omitempty"` Inet4RouteAddress []LC.ListenPrefix `yaml:"inet4_route_address" json:"inet4_route_address,omitempty"` Inet6RouteAddress []LC.ListenPrefix `yaml:"inet6_route_address" json:"inet6_route_address,omitempty"` IncludeUID []uint32 `yaml:"include-uid" json:"include_uid,omitempty"` IncludeUIDRange []string `yaml:"include-uid-range" json:"include_uid_range,omitempty"` ExcludeUID []uint32 `yaml:"exclude-uid" json:"exclude_uid,omitempty"` ExcludeUIDRange []string `yaml:"exclude-uid-range" json:"exclude_uid_range,omitempty"` IncludeAndroidUser []int `yaml:"include-android-user" json:"include_android_user,omitempty"` IncludePackage []string `yaml:"include-package" json:"include_package,omitempty"` ExcludePackage []string `yaml:"exclude-package" json:"exclude_package,omitempty"` EndpointIndependentNat bool `yaml:"endpoint-independent-nat" json:"endpoint_independent_nat,omitempty"` UDPTimeout int64 `yaml:"udp-timeout" json:"udp_timeout,omitempty"` FileDescriptor int `yaml:"file-descriptor" json:"file-descriptor"` } type RawTuicServer struct { Enable bool `yaml:"enable" json:"enable"` Listen string `yaml:"listen" json:"listen"` Token []string `yaml:"token" json:"token"` Certificate string `yaml:"certificate" json:"certificate"` PrivateKey string `yaml:"private-key" json:"private-key"` CongestionController string `yaml:"congestion-controller" json:"congestion-controller,omitempty"` MaxIdleTime int `yaml:"max-idle-time" json:"max-idle-time,omitempty"` AuthenticationTimeout int `yaml:"authentication-timeout" json:"authentication-timeout,omitempty"` ALPN []string `yaml:"alpn" json:"alpn,omitempty"` MaxUdpRelayPacketSize int `yaml:"max-udp-relay-packet-size" json:"max-udp-relay-packet-size,omitempty"` } type RawConfig struct { Port int `yaml:"port"` SocksPort int `yaml:"socks-port"` RedirPort int `yaml:"redir-port"` TProxyPort int `yaml:"tproxy-port"` MixedPort int `yaml:"mixed-port"` ShadowSocksConfig string `yaml:"ss-config"` VmessConfig string `yaml:"vmess-config"` InboundTfo bool `yaml:"inbound-tfo"` Authentication []string `yaml:"authentication"` AllowLan bool `yaml:"allow-lan"` BindAddress string `yaml:"bind-address"` Mode T.TunnelMode `yaml:"mode"` UnifiedDelay bool `yaml:"unified-delay"` LogLevel log.LogLevel `yaml:"log-level"` IPv6 bool `yaml:"ipv6"` ExternalController string `yaml:"external-controller"` ExternalControllerTLS string `yaml:"external-controller-tls"` ExternalUI string `yaml:"external-ui"` Secret string `yaml:"secret"` Interface string `yaml:"interface-name"` RoutingMark int `yaml:"routing-mark"` Tunnels []LC.Tunnel `yaml:"tunnels"` GeodataMode bool `yaml:"geodata-mode"` GeodataLoader string `yaml:"geodata-loader"` TCPConcurrent bool `yaml:"tcp-concurrent" json:"tcp-concurrent"` FindProcessMode P.FindProcessMode `yaml:"find-process-mode" json:"find-process-mode"` GlobalClientFingerprint string `yaml:"global-client-fingerprint"` Sniffer RawSniffer `yaml:"sniffer"` ProxyProvider map[string]map[string]any `yaml:"proxy-providers"` RuleProvider map[string]map[string]any `yaml:"rule-providers"` Hosts map[string]any `yaml:"hosts"` DNS RawDNS `yaml:"dns"` Tun RawTun `yaml:"tun"` TuicServer RawTuicServer `yaml:"tuic-server"` EBpf EBpf `yaml:"ebpf"` IPTables IPTables `yaml:"iptables"` Experimental Experimental `yaml:"experimental"` Profile Profile `yaml:"profile"` GeoXUrl RawGeoXUrl `yaml:"geox-url"` Proxy []map[string]any `yaml:"proxies"` ProxyGroup []map[string]any `yaml:"proxy-groups"` Rule []string `yaml:"rules"` SubRules map[string][]string `yaml:"sub-rules"` RawTLS TLS `yaml:"tls"` Listeners []map[string]any `yaml:"listeners"` } type RawGeoXUrl struct { GeoIp string `yaml:"geoip" json:"geoip"` Mmdb string `yaml:"mmdb" json:"mmdb"` GeoSite string `yaml:"geosite" json:"geosite"` } type RawSniffer struct { Enable bool `yaml:"enable" json:"enable"` OverrideDest bool `yaml:"override-destination" json:"override-destination"` Sniffing []string `yaml:"sniffing" json:"sniffing"` ForceDomain []string `yaml:"force-domain" json:"force-domain"` SkipDomain []string `yaml:"skip-domain" json:"skip-domain"` Ports []string `yaml:"port-whitelist" json:"port-whitelist"` ForceDnsMapping bool `yaml:"force-dns-mapping" json:"force-dns-mapping"` ParsePureIp bool `yaml:"parse-pure-ip" json:"parse-pure-ip"` Sniff map[string]RawSniffingConfig `yaml:"sniff" json:"sniff"` } type RawSniffingConfig struct { Ports []string `yaml:"ports" json:"ports"` OverrideDest *bool `yaml:"override-destination" json:"override-destination"` } // EBpf config type EBpf struct { RedirectToTun []string `yaml:"redirect-to-tun" json:"redirect-to-tun"` AutoRedir []string `yaml:"auto-redir" json:"auto-redir"` } var ( GroupsList = list.New() ProxiesList = list.New() ParsingProxiesCallback func(groupsList *list.List, proxiesList *list.List) ) // Parse config func Parse(buf []byte) (*Config, error) { rawCfg, err := UnmarshalRawConfig(buf) if err != nil { return nil, err } return ParseRawConfig(rawCfg) } func UnmarshalRawConfig(buf []byte) (*RawConfig, error) { // config with default value rawCfg := &RawConfig{ AllowLan: false, BindAddress: "*", IPv6: true, Mode: T.Rule, GeodataMode: C.GeodataMode, GeodataLoader: "memconservative", UnifiedDelay: false, Authentication: []string{}, LogLevel: log.INFO, Hosts: map[string]any{}, Rule: []string{}, Proxy: []map[string]any{}, ProxyGroup: []map[string]any{}, TCPConcurrent: false, FindProcessMode: P.FindProcessStrict, Tun: RawTun{ Enable: false, Device: "", Stack: C.TunGvisor, DNSHijack: []string{"0.0.0.0:53"}, // default hijack all dns query AutoRoute: true, AutoDetectInterface: true, Inet6Address: []LC.ListenPrefix{LC.ListenPrefix(netip.MustParsePrefix("fdfe:dcba:9876::1/126"))}, }, TuicServer: RawTuicServer{ Enable: false, Token: nil, Certificate: "", PrivateKey: "", Listen: "", CongestionController: "", MaxIdleTime: 15000, AuthenticationTimeout: 1000, ALPN: []string{"h3"}, MaxUdpRelayPacketSize: 1500, }, EBpf: EBpf{ RedirectToTun: []string{}, AutoRedir: []string{}, }, IPTables: IPTables{ Enable: false, InboundInterface: "lo", Bypass: []string{}, }, DNS: RawDNS{ Enable: false, IPv6: false, UseHosts: true, IPv6Timeout: 100, EnhancedMode: C.DNSMapping, FakeIPRange: "198.18.0.1/16", FallbackFilter: RawFallbackFilter{ GeoIP: true, GeoIPCode: "CN", IPCIDR: []string{}, GeoSite: []string{}, }, DefaultNameserver: []string{ "114.114.114.114", "223.5.5.5", "8.8.8.8", "1.0.0.1", }, NameServer: []string{ "https://doh.pub/dns-query", "tls://223.5.5.5:853", }, FakeIPFilter: []string{ "dns.msftnsci.com", "www.msftnsci.com", "www.msftconnecttest.com", }, }, Sniffer: RawSniffer{ Enable: false, Sniffing: []string{}, ForceDomain: []string{}, SkipDomain: []string{}, Ports: []string{}, ForceDnsMapping: true, ParsePureIp: true, OverrideDest: true, }, Profile: Profile{ StoreSelected: true, }, GeoXUrl: RawGeoXUrl{ Mmdb: "https://testingcf.jsdelivr.net/gh/MetaCubeX/meta-rules-dat@release/country.mmdb", GeoIp: "https://testingcf.jsdelivr.net/gh/MetaCubeX/meta-rules-dat@release/geoip.dat", GeoSite: "https://testingcf.jsdelivr.net/gh/MetaCubeX/meta-rules-dat@release/geosite.dat", }, } if err := yaml.Unmarshal(buf, rawCfg); err != nil { return nil, err } return rawCfg, nil } func ParseRawConfig(rawCfg *RawConfig) (*Config, error) { config := &Config{} log.Infoln("Start initial configuration in progress") //Segment finished in xxm startTime := time.Now() config.Experimental = &rawCfg.Experimental config.Profile = &rawCfg.Profile config.IPTables = &rawCfg.IPTables config.TLS = &rawCfg.RawTLS general, err := parseGeneral(rawCfg) if err != nil { return nil, err } config.General = general if len(config.General.GlobalClientFingerprint) != 0 { log.Debugln("GlobalClientFingerprint:%s", config.General.GlobalClientFingerprint) tlsC.SetGlobalUtlsClient(config.General.GlobalClientFingerprint) } proxies, providers, err := parseProxies(rawCfg) if err != nil { return nil, err } config.Proxies = proxies config.Providers = providers listener, err := parseListeners(rawCfg) if err != nil { return nil, err } config.Listeners = listener log.Infoln("Geodata Loader mode: %s", geodata.LoaderName()) ruleProviders, err := parseRuleProviders(rawCfg) if err != nil { return nil, err } config.RuleProviders = ruleProviders subRules, err := parseSubRules(rawCfg, proxies) if err != nil { return nil, err } config.SubRules = subRules rules, err := parseRules(rawCfg.Rule, proxies, subRules, "rules") if err != nil { return nil, err } config.Rules = rules hosts, err := parseHosts(rawCfg) if err != nil { return nil, err } config.Hosts = hosts dnsCfg, err := parseDNS(rawCfg, hosts, rules, ruleProviders) if err != nil { return nil, err } config.DNS = dnsCfg err = parseTun(rawCfg.Tun, config.General) if err != nil { return nil, err } err = parseTuicServer(rawCfg.TuicServer, config.General) if err != nil { return nil, err } config.Users = parseAuthentication(rawCfg.Authentication) config.Tunnels = rawCfg.Tunnels // verify tunnels for _, t := range config.Tunnels { if len(t.Proxy) > 0 { if _, ok := config.Proxies[t.Proxy]; !ok { return nil, fmt.Errorf("tunnel proxy %s not found", t.Proxy) } } } config.Sniffer, err = parseSniffer(rawCfg.Sniffer) if err != nil { return nil, err } elapsedTime := time.Since(startTime) / time.Millisecond // duration in ms log.Infoln("Initial configuration complete, total time: %dms", elapsedTime) //Segment finished in xxm return config, nil } func parseGeneral(cfg *RawConfig) (*General, error) { externalUI := cfg.ExternalUI geodata.SetLoader(cfg.GeodataLoader) // checkout externalUI exist if externalUI != "" { externalUI = C.Path.Resolve(externalUI) if _, err := os.Stat(externalUI); os.IsNotExist(err) { return nil, fmt.Errorf("external-ui: %s not exist", externalUI) } } cfg.Tun.RedirectToTun = cfg.EBpf.RedirectToTun return &General{ Inbound: Inbound{ Port: cfg.Port, SocksPort: cfg.SocksPort, RedirPort: cfg.RedirPort, TProxyPort: cfg.TProxyPort, MixedPort: cfg.MixedPort, ShadowSocksConfig: cfg.ShadowSocksConfig, VmessConfig: cfg.VmessConfig, AllowLan: cfg.AllowLan, BindAddress: cfg.BindAddress, InboundTfo: cfg.InboundTfo, }, Controller: Controller{ ExternalController: cfg.ExternalController, ExternalUI: cfg.ExternalUI, Secret: cfg.Secret, ExternalControllerTLS: cfg.ExternalControllerTLS, }, UnifiedDelay: cfg.UnifiedDelay, Mode: cfg.Mode, LogLevel: cfg.LogLevel, IPv6: cfg.IPv6, Interface: cfg.Interface, RoutingMark: cfg.RoutingMark, GeodataMode: cfg.GeodataMode, GeodataLoader: cfg.GeodataLoader, TCPConcurrent: cfg.TCPConcurrent, FindProcessMode: cfg.FindProcessMode, EBpf: cfg.EBpf, GlobalClientFingerprint: cfg.GlobalClientFingerprint, }, nil } func parseProxies(cfg *RawConfig) (proxies map[string]C.Proxy, providersMap map[string]providerTypes.ProxyProvider, err error) { proxies = make(map[string]C.Proxy) providersMap = make(map[string]providerTypes.ProxyProvider) proxiesConfig := cfg.Proxy groupsConfig := cfg.ProxyGroup providersConfig := cfg.ProxyProvider var proxyList []string proxiesList := list.New() groupsList := list.New() proxies["DIRECT"] = adapter.NewProxy(outbound.NewDirect()) proxies["REJECT"] = adapter.NewProxy(outbound.NewReject()) proxies["COMPATIBLE"] = adapter.NewProxy(outbound.NewCompatible()) proxies["PASS"] = adapter.NewProxy(outbound.NewPass()) proxyList = append(proxyList, "DIRECT", "REJECT") // parse proxy for idx, mapping := range proxiesConfig { proxy, err := adapter.ParseProxy(mapping) if err != nil { return nil, nil, fmt.Errorf("proxy %d: %w", idx, err) } if _, exist := proxies[proxy.Name()]; exist { return nil, nil, fmt.Errorf("proxy %s is the duplicate name", proxy.Name()) } proxies[proxy.Name()] = proxy proxyList = append(proxyList, proxy.Name()) proxiesList.PushBack(mapping) } // keep the original order of ProxyGroups in config file for idx, mapping := range groupsConfig { groupName, existName := mapping["name"].(string) if !existName { return nil, nil, fmt.Errorf("proxy group %d: missing name", idx) } proxyList = append(proxyList, groupName) groupsList.PushBack(mapping) } // check if any loop exists and sort the ProxyGroups if err := proxyGroupsDagSort(groupsConfig); err != nil { return nil, nil, err } // parse and initial providers for name, mapping := range providersConfig { if name == provider.ReservedName { return nil, nil, fmt.Errorf("can not defined a provider called `%s`", provider.ReservedName) } pd, err := provider.ParseProxyProvider(name, mapping) if err != nil { return nil, nil, fmt.Errorf("parse proxy provider %s error: %w", name, err) } providersMap[name] = pd } // parse proxy group for idx, mapping := range groupsConfig { group, err := outboundgroup.ParseProxyGroup(mapping, proxies, providersMap) if err != nil { return nil, nil, fmt.Errorf("proxy group[%d]: %w", idx, err) } groupName := group.Name() if _, exist := proxies[groupName]; exist { return nil, nil, fmt.Errorf("proxy group %s: the duplicate name", groupName) } proxies[groupName] = adapter.NewProxy(group) } var ps []C.Proxy for _, v := range proxyList { if proxies[v].Type() == C.Pass { continue } ps = append(ps, proxies[v]) } hc := provider.NewHealthCheck(ps, "", 0, true, nil) pd, _ := provider.NewCompatibleProvider(provider.ReservedName, ps, hc) providersMap[provider.ReservedName] = pd global := outboundgroup.NewSelector( &outboundgroup.GroupCommonOption{ Name: "GLOBAL", }, []providerTypes.ProxyProvider{pd}, ) proxies["GLOBAL"] = adapter.NewProxy(global) ProxiesList = proxiesList GroupsList = groupsList if ParsingProxiesCallback != nil { // refresh tray menu go ParsingProxiesCallback(GroupsList, ProxiesList) } return proxies, providersMap, nil } func parseListeners(cfg *RawConfig) (listeners map[string]C.InboundListener, err error) { listeners = make(map[string]C.InboundListener) for index, mapping := range cfg.Listeners { listener, err := L.ParseListener(mapping) if err != nil { return nil, fmt.Errorf("proxy %d: %w", index, err) } if _, exist := mapping[listener.Name()]; exist { return nil, fmt.Errorf("listener %s is the duplicate name", listener.Name()) } listeners[listener.Name()] = listener } return } func parseRuleProviders(cfg *RawConfig) (ruleProviders map[string]providerTypes.RuleProvider, err error) { ruleProviders = map[string]providerTypes.RuleProvider{} // parse rule provider for name, mapping := range cfg.RuleProvider { rp, err := RP.ParseRuleProvider(name, mapping, R.ParseRule) if err != nil { return nil, err } ruleProviders[name] = rp RP.SetRuleProvider(rp) } return } func parseSubRules(cfg *RawConfig, proxies map[string]C.Proxy) (subRules map[string][]C.Rule, err error) { subRules = map[string][]C.Rule{} for name, rawRules := range cfg.SubRules { if len(name) == 0 { return nil, fmt.Errorf("sub-rule name is empty") } var rules []C.Rule rules, err = parseRules(rawRules, proxies, subRules, fmt.Sprintf("sub-rules[%s]", name)) if err != nil { return nil, err } subRules[name] = rules } if err = verifySubRule(subRules); err != nil { return nil, err } return } func verifySubRule(subRules map[string][]C.Rule) error { for name := range subRules { err := verifySubRuleCircularReferences(name, subRules, []string{}) if err != nil { return err } } return nil } func verifySubRuleCircularReferences(n string, subRules map[string][]C.Rule, arr []string) error { isInArray := func(v string, array []string) bool { for _, c := range array { if v == c { return true } } return false } arr = append(arr, n) for i, rule := range subRules[n] { if rule.RuleType() == C.SubRules { if _, ok := subRules[rule.Adapter()]; !ok { return fmt.Errorf("sub-rule[%d:%s] error: [%s] not found", i, n, rule.Adapter()) } if isInArray(rule.Adapter(), arr) { arr = append(arr, rule.Adapter()) return fmt.Errorf("sub-rule error: circular references [%s]", strings.Join(arr, "->")) } if err := verifySubRuleCircularReferences(rule.Adapter(), subRules, arr); err != nil { return err } } } return nil } func parseRules(rulesConfig []string, proxies map[string]C.Proxy, subRules map[string][]C.Rule, format string) ([]C.Rule, error) { var rules []C.Rule // parse rules for idx, line := range rulesConfig { rule := trimArr(strings.Split(line, ",")) var ( payload string target string params []string ruleName = strings.ToUpper(rule[0]) ) l := len(rule) if ruleName == "NOT" || ruleName == "OR" || ruleName == "AND" || ruleName == "SUB-RULE" { target = rule[l-1] payload = strings.Join(rule[1:l-1], ",") } else { if l < 2 { return nil, fmt.Errorf("%s[%d] [%s] error: format invalid", format, idx, line) } if l < 4 { rule = append(rule, make([]string, 4-l)...) } if ruleName == "MATCH" { l = 2 } if l >= 3 { l = 3 payload = rule[1] } target = rule[l-1] params = rule[l:] } if _, ok := proxies[target]; !ok { if ruleName != "SUB-RULE" { return nil, fmt.Errorf("%s[%d] [%s] error: proxy [%s] not found", format, idx, line, target) } else if _, ok = subRules[target]; !ok { return nil, fmt.Errorf("%s[%d] [%s] error: sub-rule [%s] not found", format, idx, line, target) } } params = trimArr(params) parsed, parseErr := R.ParseRule(ruleName, payload, target, params, subRules) if parseErr != nil { return nil, fmt.Errorf("%s[%d] [%s] error: %s", format, idx, line, parseErr.Error()) } rules = append(rules, parsed) } return rules, nil } func parseHosts(cfg *RawConfig) (*trie.DomainTrie[resolver.HostValue], error) { tree := trie.New[resolver.HostValue]() // add default hosts hostValue, _ := resolver.NewHostValueByIPs( []netip.Addr{netip.AddrFrom4([4]byte{127, 0, 0, 1})}) if err := tree.Insert("localhost", hostValue); err != nil { log.Errorln("insert localhost to host error: %s", err.Error()) } if len(cfg.Hosts) != 0 { for domain, anyValue := range cfg.Hosts { if str, ok := anyValue.(string); ok && str == "clash" { if addrs, err := net.InterfaceAddrs(); err != nil { log.Errorln("insert clash to host error: %s", err) } else { ips := make([]netip.Addr, 0) for _, addr := range addrs { if ipnet, ok := addr.(*net.IPNet); ok && !ipnet.IP.IsLoopback() && !ipnet.IP.IsLinkLocalUnicast() { if ip, err := netip.ParseAddr(ipnet.IP.String()); err == nil { ips = append(ips, ip) } } } anyValue = ips } } value, err := resolver.NewHostValue(anyValue) if err != nil { return nil, fmt.Errorf("%s is not a valid value", anyValue) } if value.IsDomain { node := tree.Search(value.Domain) for node != nil && node.Data().IsDomain { if node.Data().Domain == domain { return nil, fmt.Errorf("%s, there is a cycle in domain name mapping", domain) } node = tree.Search(node.Data().Domain) } } _ = tree.Insert(domain, value) } } tree.Optimize() return tree, nil } func hostWithDefaultPort(host string, defPort string) (string, error) { hostname, port, err := net.SplitHostPort(host) if err != nil { if !strings.Contains(err.Error(), "missing port in address") { return "", err } host = host + ":" + defPort if hostname, port, err = net.SplitHostPort(host); err != nil { return "", err } } return net.JoinHostPort(hostname, port), nil } func parseNameServer(servers []string, preferH3 bool) ([]dns.NameServer, error) { var nameservers []dns.NameServer for idx, server := range servers { server = parsePureDNSServer(server) u, err := url.Parse(server) if err != nil { return nil, fmt.Errorf("DNS NameServer[%d] format error: %s", idx, err.Error()) } proxyName := u.Fragment var addr, dnsNetType string params := map[string]string{} switch u.Scheme { case "udp": addr, err = hostWithDefaultPort(u.Host, "53") dnsNetType = "" // UDP case "tcp": addr, err = hostWithDefaultPort(u.Host, "53") dnsNetType = "tcp" // TCP case "tls": addr, err = hostWithDefaultPort(u.Host, "853") dnsNetType = "tcp-tls" // DNS over TLS case "https": addr, err = hostWithDefaultPort(u.Host, "443") if err == nil { proxyName = "" clearURL := url.URL{Scheme: "https", Host: addr, Path: u.Path, User: u.User} addr = clearURL.String() dnsNetType = "https" // DNS over HTTPS if len(u.Fragment) != 0 { for _, s := range strings.Split(u.Fragment, "&") { arr := strings.Split(s, "=") if len(arr) == 0 { continue } else if len(arr) == 1 { proxyName = arr[0] } else if len(arr) == 2 { params[arr[0]] = arr[1] } else { params[arr[0]] = strings.Join(arr[1:], "=") } } } } case "dhcp": addr = u.Host dnsNetType = "dhcp" // UDP from DHCP case "quic": addr, err = hostWithDefaultPort(u.Host, "853") dnsNetType = "quic" // DNS over QUIC case "system": dnsNetType = "system" // System DNS default: return nil, fmt.Errorf("DNS NameServer[%d] unsupport scheme: %s", idx, u.Scheme) } if err != nil { return nil, fmt.Errorf("DNS NameServer[%d] format error: %s", idx, err.Error()) } nameservers = append( nameservers, dns.NameServer{ Net: dnsNetType, Addr: addr, ProxyName: proxyName, Interface: dialer.DefaultInterface, Params: params, PreferH3: preferH3, }, ) } return nameservers, nil } func init() { dns.ParseNameServer = func(servers []string) ([]dns.NameServer, error) { // using by wireguard return parseNameServer(servers, false) } } func parsePureDNSServer(server string) string { addPre := func(server string) string { return "udp://" + server } if server == "system" { return "system://" } if ip, err := netip.ParseAddr(server); err != nil { if strings.Contains(server, "://") { return server } return addPre(server) } else { if ip.Is4() { return addPre(server) } else { return addPre("[" + server + "]") } } } func parseNameServerPolicy(nsPolicy map[string]any, ruleProviders map[string]providerTypes.RuleProvider, preferH3 bool) (map[string][]dns.NameServer, error) { policy := map[string][]dns.NameServer{} updatedPolicy := make(map[string]interface{}) re := regexp.MustCompile(`[a-zA-Z0-9\-]+\.[a-zA-Z]{2,}(\.[a-zA-Z]{2,})?`) for k, v := range nsPolicy { if strings.Contains(k, ",") { if strings.Contains(k, "geosite:") { subkeys := strings.Split(k, ":") subkeys = subkeys[1:] subkeys = strings.Split(subkeys[0], ",") for _, subkey := range subkeys { newKey := "geosite:" + subkey updatedPolicy[newKey] = v } } else if strings.Contains(k, "rule-set:") { subkeys := strings.Split(k, ":") subkeys = subkeys[1:] subkeys = strings.Split(subkeys[0], ",") for _, subkey := range subkeys { newKey := "rule-set:" + subkey updatedPolicy[newKey] = v } } else if re.MatchString(k) { subkeys := strings.Split(k, ",") for _, subkey := range subkeys { updatedPolicy[subkey] = v } } } else { updatedPolicy[k] = v } } for domain, server := range updatedPolicy { servers, err := utils.ToStringSlice(server) if err != nil { return nil, err } nameservers, err := parseNameServer(servers, preferH3) if err != nil { return nil, err } if _, valid := trie.ValidAndSplitDomain(domain); !valid { return nil, fmt.Errorf("DNS ResoverRule invalid domain: %s", domain) } if strings.HasPrefix(domain, "rule-set:") { domainSetName := domain[9:] if provider, ok := ruleProviders[domainSetName]; !ok { return nil, fmt.Errorf("not found rule-set: %s", domainSetName) } else { switch provider.Behavior() { case providerTypes.IPCIDR: return nil, fmt.Errorf("rule provider type error, except domain,actual %s", provider.Behavior()) case providerTypes.Classical: log.Warnln("%s provider is %s, only matching it contain domain rule", provider.Name(), provider.Behavior()) } } } policy[domain] = nameservers } return policy, nil } func parseFallbackIPCIDR(ips []string) ([]*netip.Prefix, error) { var ipNets []*netip.Prefix for idx, ip := range ips { ipnet, err := netip.ParsePrefix(ip) if err != nil { return nil, fmt.Errorf("DNS FallbackIP[%d] format error: %s", idx, err.Error()) } ipNets = append(ipNets, &ipnet) } return ipNets, nil } func parseFallbackGeoSite(countries []string, rules []C.Rule) ([]*router.DomainMatcher, error) { var sites []*router.DomainMatcher if len(countries) > 0 { if err := geodata.InitGeoSite(); err != nil { return nil, fmt.Errorf("can't initial GeoSite: %s", err) } log.Warnln("replace fallback-filter.geosite with nameserver-policy, it will be removed in the future") } for _, country := range countries { found := false for _, rule := range rules { if rule.RuleType() == C.GEOSITE { if strings.EqualFold(country, rule.Payload()) { found = true sites = append(sites, rule.(C.RuleGeoSite).GetDomainMatcher()) log.Infoln("Start initial GeoSite dns fallback filter from rule `%s`", country) } } } if !found { matcher, recordsCount, err := geodata.LoadGeoSiteMatcher(country) if err != nil { return nil, err } sites = append(sites, matcher) log.Infoln("Start initial GeoSite dns fallback filter `%s`, records: %d", country, recordsCount) } } return sites, nil } func parseDNS(rawCfg *RawConfig, hosts *trie.DomainTrie[resolver.HostValue], rules []C.Rule, ruleProviders map[string]providerTypes.RuleProvider) (*DNS, error) { cfg := rawCfg.DNS if cfg.Enable && len(cfg.NameServer) == 0 { return nil, fmt.Errorf("if DNS configuration is turned on, NameServer cannot be empty") } dnsCfg := &DNS{ Enable: cfg.Enable, Listen: cfg.Listen, PreferH3: cfg.PreferH3, IPv6Timeout: cfg.IPv6Timeout, IPv6: cfg.IPv6, EnhancedMode: cfg.EnhancedMode, FallbackFilter: FallbackFilter{ IPCIDR: []*netip.Prefix{}, GeoSite: []*router.DomainMatcher{}, }, } var err error if dnsCfg.NameServer, err = parseNameServer(cfg.NameServer, cfg.PreferH3); err != nil { return nil, err } if dnsCfg.Fallback, err = parseNameServer(cfg.Fallback, cfg.PreferH3); err != nil { return nil, err } if dnsCfg.NameServerPolicy, err = parseNameServerPolicy(cfg.NameServerPolicy, ruleProviders, cfg.PreferH3); err != nil { return nil, err } if dnsCfg.ProxyServerNameserver, err = parseNameServer(cfg.ProxyServerNameserver, cfg.PreferH3); err != nil { return nil, err } if len(cfg.DefaultNameserver) == 0 { return nil, errors.New("default nameserver should have at least one nameserver") } if dnsCfg.DefaultNameserver, err = parseNameServer(cfg.DefaultNameserver, cfg.PreferH3); err != nil { return nil, err } // check default nameserver is pure ip addr for _, ns := range dnsCfg.DefaultNameserver { if ns.Net == "system" { continue } host, _, err := net.SplitHostPort(ns.Addr) if err != nil || net.ParseIP(host) == nil { u, err := url.Parse(ns.Addr) if err == nil && net.ParseIP(u.Host) == nil { if ip, _, err := net.SplitHostPort(u.Host); err != nil || net.ParseIP(ip) == nil { return nil, errors.New("default nameserver should be pure IP") } } } } fakeIPRange, err := netip.ParsePrefix(cfg.FakeIPRange) T.SetFakeIPRange(fakeIPRange) if cfg.EnhancedMode == C.DNSFakeIP { if err != nil { return nil, err } var host *trie.DomainTrie[struct{}] // fake ip skip host filter if len(cfg.FakeIPFilter) != 0 { host = trie.New[struct{}]() for _, domain := range cfg.FakeIPFilter { _ = host.Insert(domain, struct{}{}) } host.Optimize() } if len(dnsCfg.Fallback) != 0 { if host == nil { host = trie.New[struct{}]() } for _, fb := range dnsCfg.Fallback { if net.ParseIP(fb.Addr) != nil { continue } _ = host.Insert(fb.Addr, struct{}{}) } host.Optimize() } pool, err := fakeip.New(fakeip.Options{ IPNet: &fakeIPRange, Size: 1000, Host: host, Persistence: rawCfg.Profile.StoreFakeIP, }) if err != nil { return nil, err } dnsCfg.FakeIPRange = pool } if len(cfg.Fallback) != 0 { dnsCfg.FallbackFilter.GeoIP = cfg.FallbackFilter.GeoIP dnsCfg.FallbackFilter.GeoIPCode = cfg.FallbackFilter.GeoIPCode if fallbackip, err := parseFallbackIPCIDR(cfg.FallbackFilter.IPCIDR); err == nil { dnsCfg.FallbackFilter.IPCIDR = fallbackip } dnsCfg.FallbackFilter.Domain = cfg.FallbackFilter.Domain fallbackGeoSite, err := parseFallbackGeoSite(cfg.FallbackFilter.GeoSite, rules) if err != nil { return nil, fmt.Errorf("load GeoSite dns fallback filter error, %w", err) } dnsCfg.FallbackFilter.GeoSite = fallbackGeoSite } if cfg.UseHosts { dnsCfg.Hosts = hosts } return dnsCfg, nil } func parseAuthentication(rawRecords []string) []auth.AuthUser { var users []auth.AuthUser for _, line := range rawRecords { if user, pass, found := strings.Cut(line, ":"); found { users = append(users, auth.AuthUser{User: user, Pass: pass}) } } return users } func parseTun(rawTun RawTun, general *General) error { tunAddressPrefix := T.FakeIPRange() if !tunAddressPrefix.IsValid() { tunAddressPrefix = netip.MustParsePrefix("198.18.0.1/16") } tunAddressPrefix = netip.PrefixFrom(tunAddressPrefix.Addr(), 30) if !general.IPv6 || !verifyIP6() { rawTun.Inet6Address = nil } general.Tun = LC.Tun{ Enable: rawTun.Enable, Device: rawTun.Device, Stack: rawTun.Stack, DNSHijack: rawTun.DNSHijack, AutoRoute: rawTun.AutoRoute, AutoDetectInterface: rawTun.AutoDetectInterface, RedirectToTun: rawTun.RedirectToTun, MTU: rawTun.MTU, Inet4Address: []LC.ListenPrefix{LC.ListenPrefix(tunAddressPrefix)}, Inet6Address: rawTun.Inet6Address, StrictRoute: rawTun.StrictRoute, Inet4RouteAddress: rawTun.Inet4RouteAddress, Inet6RouteAddress: rawTun.Inet6RouteAddress, IncludeUID: rawTun.IncludeUID, IncludeUIDRange: rawTun.IncludeUIDRange, ExcludeUID: rawTun.ExcludeUID, ExcludeUIDRange: rawTun.ExcludeUIDRange, IncludeAndroidUser: rawTun.IncludeAndroidUser, IncludePackage: rawTun.IncludePackage, ExcludePackage: rawTun.ExcludePackage, EndpointIndependentNat: rawTun.EndpointIndependentNat, UDPTimeout: rawTun.UDPTimeout, FileDescriptor: rawTun.FileDescriptor, } return nil } func parseTuicServer(rawTuic RawTuicServer, general *General) error { general.TuicServer = LC.TuicServer{ Enable: rawTuic.Enable, Listen: rawTuic.Listen, Token: rawTuic.Token, Certificate: rawTuic.Certificate, PrivateKey: rawTuic.PrivateKey, CongestionController: rawTuic.CongestionController, MaxIdleTime: rawTuic.MaxIdleTime, AuthenticationTimeout: rawTuic.AuthenticationTimeout, ALPN: rawTuic.ALPN, MaxUdpRelayPacketSize: rawTuic.MaxUdpRelayPacketSize, } return nil } func parseSniffer(snifferRaw RawSniffer) (*Sniffer, error) { sniffer := &Sniffer{ Enable: snifferRaw.Enable, ForceDnsMapping: snifferRaw.ForceDnsMapping, ParsePureIp: snifferRaw.ParsePureIp, } loadSniffer := make(map[snifferTypes.Type]SNIFF.SnifferConfig) if len(snifferRaw.Sniff) != 0 { for sniffType, sniffConfig := range snifferRaw.Sniff { find := false ports, err := utils.NewIntRangesFromList[uint16](sniffConfig.Ports) if err != nil { return nil, err } overrideDest := snifferRaw.OverrideDest if sniffConfig.OverrideDest != nil { overrideDest = *sniffConfig.OverrideDest } for _, snifferType := range snifferTypes.List { if snifferType.String() == strings.ToUpper(sniffType) { find = true loadSniffer[snifferType] = SNIFF.SnifferConfig{ Ports: ports, OverrideDest: overrideDest, } } } if !find { return nil, fmt.Errorf("not find the sniffer[%s]", sniffType) } } } else { if sniffer.Enable { // Deprecated: Use Sniff instead log.Warnln("Deprecated: Use Sniff instead") } globalPorts, err := utils.NewIntRangesFromList[uint16](snifferRaw.Ports) if err != nil { return nil, err } for _, snifferName := range snifferRaw.Sniffing { find := false for _, snifferType := range snifferTypes.List { if snifferType.String() == strings.ToUpper(snifferName) { find = true loadSniffer[snifferType] = SNIFF.SnifferConfig{ Ports: globalPorts, OverrideDest: snifferRaw.OverrideDest, } } } if !find { return nil, fmt.Errorf("not find the sniffer[%s]", snifferName) } } } sniffer.Sniffers = loadSniffer forceDomainTrie := trie.New[struct{}]() for _, domain := range snifferRaw.ForceDomain { err := forceDomainTrie.Insert(domain, struct{}{}) if err != nil { return nil, fmt.Errorf("error domian[%s] in force-domain, error:%v", domain, err) } } sniffer.ForceDomain = forceDomainTrie.NewDomainSet() skipDomainTrie := trie.New[struct{}]() for _, domain := range snifferRaw.SkipDomain { err := skipDomainTrie.Insert(domain, struct{}{}) if err != nil { return nil, fmt.Errorf("error domian[%s] in force-domain, error:%v", domain, err) } } sniffer.SkipDomain = skipDomainTrie.NewDomainSet() return sniffer, nil }