package tunnel import ( "fmt" "strconv" "strings" "sync" "time" "github.com/Dreamacro/clash/adapters" C "github.com/Dreamacro/clash/constant" "github.com/Dreamacro/clash/observable" R "github.com/Dreamacro/clash/rules" "gopkg.in/eapache/channels.v1" ) var ( tunnel *Tunnel once sync.Once ) type Tunnel struct { queue *channels.InfiniteChannel rules []C.Rule proxys map[string]C.Proxy observable *observable.Observable logCh chan interface{} configLock *sync.RWMutex traffic *C.Traffic mode Mode selector *adapters.Selector } func (t *Tunnel) Add(req C.ServerAdapter) { t.queue.In() <- req } func (t *Tunnel) Traffic() *C.Traffic { return t.traffic } func (t *Tunnel) Config() ([]C.Rule, map[string]C.Proxy) { return t.rules, t.proxys } func (t *Tunnel) Log() *observable.Observable { return t.observable } func (t *Tunnel) SetMode(mode Mode) { t.mode = mode } func (t *Tunnel) UpdateConfig() (err error) { cfg, err := C.GetConfig() if err != nil { return } // empty proxys and rules proxys := make(map[string]C.Proxy) rules := []C.Rule{} proxysConfig := cfg.Section("Proxy") rulesConfig := cfg.Section("Rule") groupsConfig := cfg.Section("Proxy Group") // parse proxy for _, key := range proxysConfig.Keys() { proxy := key.Strings(",") if len(proxy) == 0 { continue } switch proxy[0] { // ss, server, port, cipter, password case "ss": if len(proxy) < 5 { continue } ssURL := fmt.Sprintf("ss://%s:%s@%s:%s", proxy[3], proxy[4], proxy[1], proxy[2]) ss, err := adapters.NewShadowSocks(key.Name(), ssURL, t.traffic) if err != nil { return err } proxys[key.Name()] = ss } } // parse rules for _, key := range rulesConfig.Keys() { rule := strings.Split(key.Name(), ",") if len(rule) < 3 { continue } rule = trimArr(rule) switch rule[0] { case "DOMAIN-SUFFIX": rules = append(rules, R.NewDomainSuffix(rule[1], rule[2])) case "DOMAIN-KEYWORD": rules = append(rules, R.NewDomainKeyword(rule[1], rule[2])) case "GEOIP": rules = append(rules, R.NewGEOIP(rule[1], rule[2])) case "IP-CIDR", "IP-CIDR6": rules = append(rules, R.NewIPCIDR(rule[1], rule[2])) case "FINAL": rules = append(rules, R.NewFinal(rule[2])) } } // parse proxy groups for _, key := range groupsConfig.Keys() { rule := strings.Split(key.Value(), ",") rule = trimArr(rule) switch rule[0] { case "url-test": if len(rule) < 4 { return fmt.Errorf("URLTest need more than 4 param") } proxyNames := rule[1 : len(rule)-2] delay, _ := strconv.Atoi(rule[len(rule)-1]) url := rule[len(rule)-2] var ps []C.Proxy for _, name := range proxyNames { if p, ok := proxys[name]; ok { ps = append(ps, p) } } adapter, err := adapters.NewURLTest(key.Name(), ps, url, time.Duration(delay)*time.Second) if err != nil { return fmt.Errorf("Config error: %s", err.Error()) } proxys[key.Name()] = adapter case "select": if len(rule) < 3 { return fmt.Errorf("Selector need more than 3 param") } proxyNames := rule[1:] selectProxy := make(map[string]C.Proxy) for _, name := range proxyNames { proxy, exist := proxys[name] if !exist { return fmt.Errorf("Proxy %s not exist", name) } selectProxy[name] = proxy } selector, err := adapters.NewSelector(key.Name(), selectProxy) if err != nil { return fmt.Errorf("Selector create error: %s", err.Error()) } proxys[key.Name()] = selector } } // init proxy proxys["DIRECT"] = adapters.NewDirect(t.traffic) proxys["REJECT"] = adapters.NewReject() t.configLock.Lock() defer t.configLock.Unlock() // stop url-test for _, elm := range t.proxys { urlTest, ok := elm.(*adapters.URLTest) if ok { urlTest.Close() } } s, err := adapters.NewSelector("Proxy", proxys) if err != nil { return err } t.proxys = proxys t.rules = rules t.selector = s return nil } func (t *Tunnel) process() { queue := t.queue.Out() for { elm := <-queue conn := elm.(C.ServerAdapter) go t.handleConn(conn) } } func (t *Tunnel) handleConn(localConn C.ServerAdapter) { defer localConn.Close() addr := localConn.Addr() var proxy C.Proxy switch t.mode { case Direct: proxy = t.proxys["DIRECT"] case Global: proxy = t.selector // Rule default: proxy = t.match(addr) } remoConn, err := proxy.Generator(addr) if err != nil { t.logCh <- newLog(WARNING, "Proxy connect error: %s", err.Error()) return } defer remoConn.Close() localConn.Connect(remoConn) } func (t *Tunnel) match(addr *C.Addr) C.Proxy { t.configLock.RLock() defer t.configLock.RUnlock() for _, rule := range t.rules { if rule.IsMatch(addr) { a, ok := t.proxys[rule.Adapter()] if !ok { continue } t.logCh <- newLog(INFO, "%v match %s using %s", addr.String(), rule.RuleType().String(), rule.Adapter()) return a } } t.logCh <- newLog(INFO, "%v doesn't match any rule using DIRECT", addr.String()) return t.proxys["DIRECT"] } func newTunnel() *Tunnel { logCh := make(chan interface{}) tunnel := &Tunnel{ queue: channels.NewInfiniteChannel(), proxys: make(map[string]C.Proxy), observable: observable.NewObservable(logCh), logCh: logCh, configLock: &sync.RWMutex{}, traffic: C.NewTraffic(time.Second), mode: Rule, } go tunnel.process() go tunnel.subscribeLogs() return tunnel } func GetInstance() *Tunnel { once.Do(func() { tunnel = newTunnel() }) return tunnel }