package config import ( "container/list" "errors" "fmt" "net" "net/url" "os" "regexp" "runtime" "strings" "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/component/auth" "github.com/Dreamacro/clash/component/fakeip" "github.com/Dreamacro/clash/component/geodata" "github.com/Dreamacro/clash/component/geodata/router" "github.com/Dreamacro/clash/component/trie" C "github.com/Dreamacro/clash/constant" providerTypes "github.com/Dreamacro/clash/constant/provider" "github.com/Dreamacro/clash/dns" "github.com/Dreamacro/clash/log" R "github.com/Dreamacro/clash/rule" T "github.com/Dreamacro/clash/tunnel" "gopkg.in/yaml.v2" ) // 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:"-"` } // Inbound 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"` Authentication []string `json:"authentication"` AllowLan bool `json:"allow-lan"` BindAddress string `json:"bind-address"` } // Controller type Controller struct { ExternalController string `json:"-"` ExternalUI string `json:"-"` Secret string `json:"-"` } // DNS config type DNS struct { Enable bool `yaml:"enable"` IPv6 bool `yaml:"ipv6"` 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 NameServerPolicy map[string]dns.NameServer } // FallbackFilter config type FallbackFilter struct { GeoIP bool `yaml:"geoip"` GeoIPCode string `yaml:"geoip-code"` IPCIDR []*net.IPNet `yaml:"ipcidr"` Domain []string `yaml:"domain"` GeoSite []*router.DomainMatcher `yaml:"geosite"` } var ( GroupsList = list.New() ProxiesList = list.New() ParsingProxiesCallback func(groupsList *list.List, proxiesList *list.List) ) // Profile config type Profile struct { StoreSelected bool `yaml:"store-selected"` StoreFakeIP bool `yaml:"store-fake-ip"` } // Tun config type Tun struct { Enable bool `yaml:"enable" json:"enable"` Stack string `yaml:"stack" json:"stack"` DnsHijack []string `yaml:"dns-hijack" json:"dns-hijack"` AutoRoute bool `yaml:"auto-route" json:"auto-route"` } // Script config type Script struct { MainCode string `yaml:"code" json:"code"` ShortcutsCode map[string]string `yaml:"shortcuts" json:"shortcuts"` } // Experimental config type Experimental struct{} // Config is clash config manager type Config struct { General *General Tun *Tun DNS *DNS Experimental *Experimental Hosts *trie.DomainTrie Profile *Profile Rules []C.Rule Users []auth.AuthUser Proxies map[string]C.Proxy Providers map[string]providerTypes.ProxyProvider RuleProviders map[string]*providerTypes.RuleProvider } type RawDNS struct { Enable bool `yaml:"enable"` IPv6 bool `yaml:"ipv6"` 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]string `yaml:"nameserver-policy"` } 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 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"` 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"` ExternalUI string `yaml:"external-ui"` Secret string `yaml:"secret"` Interface string `yaml:"interface-name"` ProxyProvider map[string]map[string]interface{} `yaml:"proxy-providers"` RuleProvider map[string]map[string]interface{} `yaml:"rule-providers"` Hosts map[string]string `yaml:"hosts"` DNS RawDNS `yaml:"dns"` Tun Tun `yaml:"tun"` Experimental Experimental `yaml:"experimental"` Profile Profile `yaml:"profile"` Proxy []map[string]interface{} `yaml:"proxies"` ProxyGroup []map[string]interface{} `yaml:"proxy-groups"` Rule []string `yaml:"rules"` Script Script `yaml:"script"` } // 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: "*", Mode: T.Rule, UnifiedDelay: false, Authentication: []string{}, LogLevel: log.INFO, Hosts: map[string]string{}, Rule: []string{}, Proxy: []map[string]interface{}{}, ProxyGroup: []map[string]interface{}{}, Tun: Tun{ Enable: false, Stack: "gvisor", DnsHijack: []string{}, AutoRoute: false, }, DNS: RawDNS{ Enable: false, UseHosts: true, 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{ "223.5.5.5", "119.29.29", }, FakeIPFilter: []string{ "dns.msftnsci.com", "www.msftnsci.com", "www.msftconnecttest.com", }, }, Profile: Profile{ StoreSelected: true, }, Script: Script{ MainCode: "", ShortcutsCode: map[string]string{}, }, } if err := yaml.Unmarshal(buf, rawCfg); err != nil { return nil, err } return rawCfg, nil } func ParseRawConfig(rawCfg *RawConfig) (*Config, error) { config := &Config{} config.Experimental = &rawCfg.Experimental config.Profile = &rawCfg.Profile general, err := parseGeneral(rawCfg) if err != nil { return nil, err } config.General = general config.Tun = &rawCfg.Tun proxies, providers, err := parseProxies(rawCfg) if err != nil { return nil, err } config.Proxies = proxies config.Providers = providers err = parseScript(rawCfg) if err != nil { return nil, err } rules, ruleProviders, err := parseRules(rawCfg, proxies) if err != nil { return nil, err } config.Rules = rules config.RuleProviders = ruleProviders hosts, err := parseHosts(rawCfg) if err != nil { return nil, err } config.Hosts = hosts dnsCfg, err := parseDNS(rawCfg, hosts, rules) if err != nil { return nil, err } config.DNS = dnsCfg config.Users = parseAuthentication(rawCfg.Authentication) return config, nil } func parseGeneral(cfg *RawConfig) (*General, error) { externalUI := cfg.ExternalUI // 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) } } return &General{ Inbound: Inbound{ Port: cfg.Port, SocksPort: cfg.SocksPort, RedirPort: cfg.RedirPort, TProxyPort: cfg.TProxyPort, MixedPort: cfg.MixedPort, AllowLan: cfg.AllowLan, BindAddress: cfg.BindAddress, }, Controller: Controller{ ExternalController: cfg.ExternalController, ExternalUI: cfg.ExternalUI, Secret: cfg.Secret, }, UnifiedDelay: cfg.UnifiedDelay, Mode: cfg.Mode, LogLevel: cfg.LogLevel, IPv6: cfg.IPv6, Interface: cfg.Interface, }, 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) var proxyList []string _proxiesList := list.New() _groupsList := list.New() proxiesConfig := cfg.Proxy groupsConfig := cfg.ProxyGroup providersConfig := cfg.ProxyProvider proxies["DIRECT"] = adapter.NewProxy(outbound.NewDirect()) proxies["REJECT"] = adapter.NewProxy(outbound.NewReject()) proxies["COMPATIBLE"] = adapter.NewProxy(outbound.NewCompatible()) 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 { ps = append(ps, proxies[v]) } hc := provider.NewHealthCheck(ps, "", 0, true) 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 parseScript(cfg *RawConfig) error { mode := cfg.Mode script := cfg.Script mainCode := cleanPyKeywords(script.MainCode) shortcutsCode := script.ShortcutsCode if mode != T.Script && len(shortcutsCode) == 0 { return nil } else if mode == T.Script && len(mainCode) == 0 { return fmt.Errorf("initialized script module failure, can't find script code in the config file") } content := `# -*- coding: UTF-8 -*- from datetime import datetime as whatever class ClashTime: def now(self): return whatever.now() def unix(self): return int(whatever.now().timestamp()) def unix_nano(self): return int(round(whatever.now().timestamp() * 1000)) time = ClashTime() ` for k, v := range shortcutsCode { v = cleanPyKeywords(v) v = strings.TrimSpace(v) if len(v) == 0 { return fmt.Errorf("initialized rule SCRIPT failure, shortcut [%s] code invalid syntax", k) } content += "def " + strings.ToLower(k) + "(ctx, network, process_name, host, src_ip, src_port, dst_ip, dst_port):\n return " + v + "\n\n" } return nil } func parseRules(cfg *RawConfig, proxies map[string]C.Proxy) ([]C.Rule, map[string]*providerTypes.RuleProvider, error) { ruleProviders := map[string]*providerTypes.RuleProvider{} // parse rule provider for name, mapping := range cfg.RuleProvider { rp, err := R.ParseRuleProvider(name, mapping) if err != nil { return nil, nil, err } ruleProviders[name] = &rp R.SetRuleProvider(rp) } var rules []C.Rule rulesConfig := cfg.Rule mode := cfg.Mode // parse rules for idx, line := range rulesConfig { rule := trimArr(strings.Split(line, ",")) var ( payload string target string params []string ruleName = strings.ToUpper(rule[0]) ) if mode == T.Script && ruleName != "GEOSITE" { continue } switch l := len(rule); { case l == 2: target = rule[1] case l == 3: if ruleName == "MATCH" { payload = "" target = rule[1] params = rule[2:] break } payload = rule[1] target = rule[2] case l >= 4: payload = rule[1] target = rule[2] params = rule[3:] default: return nil, nil, fmt.Errorf("rules[%d] [%s] error: format invalid", idx, line) } if _, ok := proxies[target]; mode != T.Script && !ok { return nil, nil, fmt.Errorf("rules[%d] [%s] error: proxy [%s] not found", idx, line, target) } params = trimArr(params) parsed, parseErr := R.ParseRule(ruleName, payload, target, params) if parseErr != nil { return nil, nil, fmt.Errorf("rules[%d] [%s] error: %s", idx, line, parseErr.Error()) } else { if parsed.RuleType() == C.GEOSITE { if err := initGeoSite(); err != nil { return nil, nil, fmt.Errorf("can't initial GeoSite: %w", err) } } } if mode != T.Script { rules = append(rules, parsed) } } runtime.GC() return rules, ruleProviders, nil } func parseHosts(cfg *RawConfig) (*trie.DomainTrie, error) { tree := trie.New() // add default hosts if err := tree.Insert("localhost", net.IP{127, 0, 0, 1}); err != nil { log.Errorln("insert localhost to host error: %s", err.Error()) } if len(cfg.Hosts) != 0 { for domain, ipStr := range cfg.Hosts { ip := net.ParseIP(ipStr) if ip == nil { return nil, fmt.Errorf("%s is not a valid IP", ipStr) } _ = tree.Insert(domain, ip) } } return tree, nil } func hostWithDefaultPort(host string, defPort string) (string, error) { if !strings.Contains(host, ":") { host += ":" } hostname, port, err := net.SplitHostPort(host) if err != nil { return "", err } if port == "" { port = defPort } return net.JoinHostPort(hostname, port), nil } func parseNameServer(servers []string) ([]dns.NameServer, error) { var nameservers []dns.NameServer for idx, server := range servers { // parse without scheme .e.g 8.8.8.8:53 if !strings.Contains(server, "://") { server = "udp://" + server } u, err := url.Parse(server) if err != nil { return nil, fmt.Errorf("DNS NameServer[%d] format error: %s", idx, err.Error()) } var addr, dnsNetType 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": clearURL := url.URL{Scheme: "https", Host: u.Host, Path: u.Path} addr = clearURL.String() dnsNetType = "https" // DNS over HTTPS case "dhcp": addr = u.Host dnsNetType = "dhcp" // UDP from DHCP 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, ProxyAdapter: u.Fragment, }, ) } return nameservers, nil } func parseNameServerPolicy(nsPolicy map[string]string) (map[string]dns.NameServer, error) { policy := map[string]dns.NameServer{} for domain, server := range nsPolicy { nameservers, err := parseNameServer([]string{server}) if err != nil { return nil, err } if _, valid := trie.ValidAndSplitDomain(domain); !valid { return nil, fmt.Errorf("DNS ResoverRule invalid domain: %s", domain) } policy[domain] = nameservers[0] } return policy, nil } func parseFallbackIPCIDR(ips []string) ([]*net.IPNet, error) { var ipNets []*net.IPNet for idx, ip := range ips { _, ipnet, err := net.ParseCIDR(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 := initGeoSite(); err != nil { return nil, fmt.Errorf("can't initial GeoSite: %w", err) } } 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) } } runtime.GC() return sites, nil } func parseDNS(rawCfg *RawConfig, hosts *trie.DomainTrie, rules []C.Rule) (*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, IPv6: cfg.IPv6, EnhancedMode: cfg.EnhancedMode, FallbackFilter: FallbackFilter{ IPCIDR: []*net.IPNet{}, GeoSite: []*router.DomainMatcher{}, }, } var err error if dnsCfg.NameServer, err = parseNameServer(cfg.NameServer); err != nil { return nil, err } if dnsCfg.Fallback, err = parseNameServer(cfg.Fallback); err != nil { return nil, err } if dnsCfg.NameServerPolicy, err = parseNameServerPolicy(cfg.NameServerPolicy); 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); err != nil { return nil, err } // check default nameserver is pure ip addr for _, ns := range dnsCfg.DefaultNameserver { host, _, err := net.SplitHostPort(ns.Addr) if err != nil || net.ParseIP(host) == nil { return nil, errors.New("default nameserver should be pure IP") } } if cfg.EnhancedMode == C.DNSFakeIP { _, ipnet, err := net.ParseCIDR(cfg.FakeIPRange) if err != nil { return nil, err } var host *trie.DomainTrie // fake ip skip host filter if len(cfg.FakeIPFilter) != 0 { host = trie.New() for _, domain := range cfg.FakeIPFilter { _ = host.Insert(domain, true) } } if len(dnsCfg.Fallback) != 0 { if host == nil { host = trie.New() } for _, fb := range dnsCfg.Fallback { if net.ParseIP(fb.Addr) != nil { continue } _ = host.Insert(fb.Addr, true) } } pool, err := fakeip.New(fakeip.Options{ IPNet: ipnet, 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 { users := make([]auth.AuthUser, 0) for _, line := range rawRecords { userData := strings.SplitN(line, ":", 2) if len(userData) == 2 { users = append(users, auth.AuthUser{User: userData[0], Pass: userData[1]}) } } return users } func cleanPyKeywords(code string) string { if len(code) == 0 { return code } keywords := []string{"import", "print"} for _, kw := range keywords { reg := regexp.MustCompile("(?m)[\r\n]+^.*" + kw + ".*$") code = reg.ReplaceAllString(code, "") } return code }