package outbound import ( "context" "net" "sort" "sync" "time" "github.com/sagernet/sing-box/adapter" "github.com/sagernet/sing-box/common/urltest" C "github.com/sagernet/sing-box/constant" "github.com/sagernet/sing-box/log" "github.com/sagernet/sing-box/option" "github.com/sagernet/sing/common" "github.com/sagernet/sing/common/atomic" "github.com/sagernet/sing/common/batch" E "github.com/sagernet/sing/common/exceptions" M "github.com/sagernet/sing/common/metadata" N "github.com/sagernet/sing/common/network" ) var ( _ adapter.Outbound = (*URLTest)(nil) _ adapter.OutboundGroup = (*URLTest)(nil) _ adapter.InterfaceUpdateListener = (*URLTest)(nil) ) type URLTest struct { myOutboundAdapter ctx context.Context tags []string link string interval time.Duration tolerance uint16 group *URLTestGroup } func NewURLTest(ctx context.Context, router adapter.Router, logger log.ContextLogger, tag string, options option.URLTestOutboundOptions) (*URLTest, error) { outbound := &URLTest{ myOutboundAdapter: myOutboundAdapter{ protocol: C.TypeURLTest, router: router, logger: logger, tag: tag, dependencies: options.Outbounds, }, ctx: ctx, tags: options.Outbounds, link: options.URL, interval: time.Duration(options.Interval), tolerance: options.Tolerance, } if len(outbound.tags) == 0 { return nil, E.New("missing tags") } return outbound, nil } func (s *URLTest) Network() []string { if s.group == nil { return []string{N.NetworkTCP, N.NetworkUDP} } return s.group.Select(N.NetworkTCP).Network() } func (s *URLTest) Start() error { outbounds := make([]adapter.Outbound, 0, len(s.tags)) for i, tag := range s.tags { detour, loaded := s.router.Outbound(tag) if !loaded { return E.New("outbound ", i, " not found: ", tag) } outbounds = append(outbounds, detour) } s.group = NewURLTestGroup(s.ctx, s.router, s.logger, outbounds, s.link, s.interval, s.tolerance) go s.group.CheckOutbounds(false) return nil } func (s *URLTest) Close() error { return common.Close( common.PtrOrNil(s.group), ) } func (s *URLTest) Now() string { return s.group.Select(N.NetworkTCP).Tag() } func (s *URLTest) All() []string { return s.tags } func (s *URLTest) URLTest(ctx context.Context, link string) (map[string]uint16, error) { return s.group.URLTest(ctx, link) } func (s *URLTest) DialContext(ctx context.Context, network string, destination M.Socksaddr) (net.Conn, error) { s.group.Start() outbound := s.group.Select(network) conn, err := outbound.DialContext(ctx, network, destination) if err == nil { return conn, nil } s.logger.ErrorContext(ctx, err) s.group.history.DeleteURLTestHistory(outbound.Tag()) return nil, err } func (s *URLTest) ListenPacket(ctx context.Context, destination M.Socksaddr) (net.PacketConn, error) { s.group.Start() outbound := s.group.Select(N.NetworkUDP) conn, err := outbound.ListenPacket(ctx, destination) if err == nil { return conn, nil } s.logger.ErrorContext(ctx, err) s.group.history.DeleteURLTestHistory(outbound.Tag()) return nil, err } func (s *URLTest) NewConnection(ctx context.Context, conn net.Conn, metadata adapter.InboundContext) error { return NewConnection(ctx, s, conn, metadata) } func (s *URLTest) NewPacketConnection(ctx context.Context, conn N.PacketConn, metadata adapter.InboundContext) error { return NewPacketConnection(ctx, s, conn, metadata) } func (s *URLTest) InterfaceUpdated() error { go s.group.CheckOutbounds(true) return nil } type URLTestGroup struct { ctx context.Context router adapter.Router logger log.Logger outbounds []adapter.Outbound link string interval time.Duration tolerance uint16 history *urltest.HistoryStorage checking atomic.Bool access sync.Mutex ticker *time.Ticker close chan struct{} } func NewURLTestGroup(ctx context.Context, router adapter.Router, logger log.Logger, outbounds []adapter.Outbound, link string, interval time.Duration, tolerance uint16) *URLTestGroup { if interval == 0 { interval = C.DefaultURLTestInterval } if tolerance == 0 { tolerance = 50 } var history *urltest.HistoryStorage if clashServer := router.ClashServer(); clashServer != nil { history = clashServer.HistoryStorage() } else { history = urltest.NewHistoryStorage() } return &URLTestGroup{ ctx: ctx, router: router, logger: logger, outbounds: outbounds, link: link, interval: interval, tolerance: tolerance, history: history, close: make(chan struct{}), } } func (g *URLTestGroup) Start() { if g.ticker != nil { return } g.access.Lock() defer g.access.Unlock() if g.ticker != nil { return } g.ticker = time.NewTicker(g.interval) go g.loopCheck() } func (g *URLTestGroup) Close() error { if g.ticker == nil { return nil } g.ticker.Stop() close(g.close) return nil } func (g *URLTestGroup) Select(network string) adapter.Outbound { var minDelay uint16 var minTime time.Time var minOutbound adapter.Outbound for _, detour := range g.outbounds { if !common.Contains(detour.Network(), network) { continue } history := g.history.LoadURLTestHistory(RealTag(detour)) if history == nil { continue } if minDelay == 0 || minDelay > history.Delay+g.tolerance || minDelay > history.Delay-g.tolerance && minTime.Before(history.Time) { minDelay = history.Delay minTime = history.Time minOutbound = detour } } if minOutbound == nil { for _, detour := range g.outbounds { if !common.Contains(detour.Network(), network) { continue } minOutbound = detour break } } return minOutbound } func (g *URLTestGroup) Fallback(used adapter.Outbound) []adapter.Outbound { outbounds := make([]adapter.Outbound, 0, len(g.outbounds)-1) for _, detour := range g.outbounds { if detour != used { outbounds = append(outbounds, detour) } } sort.SliceStable(outbounds, func(i, j int) bool { oi := outbounds[i] oj := outbounds[j] hi := g.history.LoadURLTestHistory(RealTag(oi)) if hi == nil { return false } hj := g.history.LoadURLTestHistory(RealTag(oj)) if hj == nil { return false } return hi.Delay < hj.Delay }) return outbounds } func (g *URLTestGroup) loopCheck() { go g.CheckOutbounds(true) for { select { case <-g.close: return case <-g.ticker.C: g.CheckOutbounds(false) } } } func (g *URLTestGroup) CheckOutbounds(force bool) { _, _ = g.urlTest(g.ctx, g.link, force) } func (g *URLTestGroup) URLTest(ctx context.Context, link string) (map[string]uint16, error) { return g.urlTest(ctx, link, false) } func (g *URLTestGroup) urlTest(ctx context.Context, link string, force bool) (map[string]uint16, error) { result := make(map[string]uint16) if g.checking.Swap(true) { return result, nil } defer g.checking.Store(false) b, _ := batch.New(ctx, batch.WithConcurrencyNum[any](10)) checked := make(map[string]bool) var resultAccess sync.Mutex for _, detour := range g.outbounds { tag := detour.Tag() realTag := RealTag(detour) if checked[realTag] { continue } history := g.history.LoadURLTestHistory(realTag) if !force && history != nil && time.Now().Sub(history.Time) < g.interval { continue } checked[realTag] = true p, loaded := g.router.Outbound(realTag) if !loaded { continue } b.Go(realTag, func() (any, error) { ctx, cancel := context.WithTimeout(context.Background(), C.TCPTimeout) defer cancel() t, err := urltest.URLTest(ctx, link, p) if err != nil { g.logger.Debug("outbound ", tag, " unavailable: ", err) g.history.DeleteURLTestHistory(realTag) } else { g.logger.Debug("outbound ", tag, " available: ", t, "ms") g.history.StoreURLTestHistory(realTag, &urltest.History{ Time: time.Now(), Delay: t, }) resultAccess.Lock() result[tag] = t resultAccess.Unlock() } return nil, nil }) } b.Wait() return result, nil }