package outboundgroup import ( "github.com/Dreamacro/clash/adapter/outbound" C "github.com/Dreamacro/clash/constant" "github.com/Dreamacro/clash/constant/provider" types "github.com/Dreamacro/clash/constant/provider" "github.com/Dreamacro/clash/log" "github.com/Dreamacro/clash/tunnel" "github.com/dlclark/regexp2" "go.uber.org/atomic" "sync" "time" ) type GroupBase struct { *outbound.Base filter *regexp2.Regexp providers []provider.ProxyProvider versions sync.Map // map[string]uint proxies sync.Map // map[string][]C.Proxy failedTestMux sync.Mutex failedTimes int failedTime time.Time failedTesting *atomic.Bool } type GroupBaseOption struct { outbound.BaseOption filter string providers []provider.ProxyProvider } func NewGroupBase(opt GroupBaseOption) *GroupBase { var filter *regexp2.Regexp = nil if opt.filter != "" { filter = regexp2.MustCompile(opt.filter, 0) } return &GroupBase{ Base: outbound.NewBase(opt.BaseOption), filter: filter, providers: opt.providers, failedTesting: atomic.NewBool(false), } } func (gb *GroupBase) GetProxies(touch bool) []C.Proxy { if gb.filter == nil { var proxies []C.Proxy for _, pd := range gb.providers { if touch { proxies = append(proxies, pd.ProxiesWithTouch()...) } else { proxies = append(proxies, pd.Proxies()...) } } if len(proxies) == 0 { return append(proxies, tunnel.Proxies()["COMPATIBLE"]) } return proxies } for _, pd := range gb.providers { if pd.VehicleType() == types.Compatible { if touch { gb.proxies.Store(pd.Name(), pd.ProxiesWithTouch()) } else { gb.proxies.Store(pd.Name(), pd.Proxies()) } gb.versions.Store(pd.Name(), pd.Version()) continue } if version, ok := gb.versions.Load(pd.Name()); !ok || version != pd.Version() { var ( proxies []C.Proxy newProxies []C.Proxy ) if touch { proxies = pd.ProxiesWithTouch() } else { proxies = pd.Proxies() } for _, p := range proxies { if mat, _ := gb.filter.FindStringMatch(p.Name()); mat != nil { newProxies = append(newProxies, p) } } gb.proxies.Store(pd.Name(), newProxies) gb.versions.Store(pd.Name(), pd.Version()) } } var proxies []C.Proxy gb.proxies.Range(func(key, value any) bool { proxies = append(proxies, value.([]C.Proxy)...) return true }) if len(proxies) == 0 { return append(proxies, tunnel.Proxies()["COMPATIBLE"]) } return proxies } func (gb *GroupBase) onDialFailed() { if gb.failedTesting.Load() { return } go func() { gb.failedTestMux.Lock() defer gb.failedTestMux.Unlock() gb.failedTimes++ if gb.failedTimes == 1 { log.Warnln("ProxyGroup: %s first failed", gb.Name()) gb.failedTime = time.Now() } else { if time.Since(gb.failedTime) > gb.failedTimeoutInterval() { return } log.Warnln("ProxyGroup: %s failed count: %d", gb.Name(), gb.failedTimes) if gb.failedTimes >= gb.maxFailedTimes() { gb.failedTesting.Store(true) log.Warnln("because %s failed multiple times, active health check", gb.Name()) wg := sync.WaitGroup{} for _, proxyProvider := range gb.providers { wg.Add(1) proxyProvider := proxyProvider go func() { defer wg.Done() proxyProvider.HealthCheck() }() } wg.Wait() gb.failedTesting.Store(false) gb.failedTimes = 0 } } }() } func (gb *GroupBase) failedIntervalTime() int64 { return 5 * time.Second.Milliseconds() } func (gb *GroupBase) onDialSuccess() { if !gb.failedTesting.Load() { gb.failedTimes = 0 } } func (gb *GroupBase) maxFailedTimes() int { return 5 } func (gb *GroupBase) failedTimeoutInterval() time.Duration { return 5 * time.Second }