package outbound import ( "context" "io" "os" "strings" "sync" "github.com/sagernet/sing-box/adapter" "github.com/sagernet/sing-box/common/taskmonitor" C "github.com/sagernet/sing-box/constant" "github.com/sagernet/sing-box/log" "github.com/sagernet/sing/common" E "github.com/sagernet/sing/common/exceptions" "github.com/sagernet/sing/common/logger" ) var _ adapter.OutboundManager = (*Manager)(nil) type Manager struct { logger log.ContextLogger registry adapter.OutboundRegistry endpoint adapter.EndpointManager defaultTag string access sync.Mutex started bool stage adapter.StartStage outbounds []adapter.Outbound outboundByTag map[string]adapter.Outbound dependByTag map[string][]string defaultOutbound adapter.Outbound defaultOutboundFallback adapter.Outbound } func NewManager(logger logger.ContextLogger, registry adapter.OutboundRegistry, endpoint adapter.EndpointManager, defaultTag string) *Manager { return &Manager{ logger: logger, registry: registry, endpoint: endpoint, defaultTag: defaultTag, outboundByTag: make(map[string]adapter.Outbound), dependByTag: make(map[string][]string), } } func (m *Manager) Initialize(defaultOutboundFallback adapter.Outbound) { m.defaultOutboundFallback = defaultOutboundFallback } func (m *Manager) Start(stage adapter.StartStage) error { m.access.Lock() if m.started && m.stage >= stage { panic("already started") } m.started = true m.stage = stage outbounds := m.outbounds m.access.Unlock() if stage == adapter.StartStateStart { return m.startOutbounds(append(outbounds, common.Map(m.endpoint.Endpoints(), func(it adapter.Endpoint) adapter.Outbound { return it })...)) } else { for _, outbound := range outbounds { err := adapter.LegacyStart(outbound, stage) if err != nil { return E.Cause(err, stage, " outbound/", outbound.Type(), "[", outbound.Tag(), "]") } } } return nil } func (m *Manager) startOutbounds(outbounds []adapter.Outbound) error { monitor := taskmonitor.New(m.logger, C.StartTimeout) started := make(map[string]bool) for { canContinue := false startOne: for _, outboundToStart := range outbounds { outboundTag := outboundToStart.Tag() if started[outboundTag] { continue } dependencies := outboundToStart.Dependencies() for _, dependency := range dependencies { if !started[dependency] { continue startOne } } started[outboundTag] = true canContinue = true if starter, isStarter := outboundToStart.(adapter.Lifecycle); isStarter { monitor.Start("start outbound/", outboundToStart.Type(), "[", outboundTag, "]") err := starter.Start(adapter.StartStateStart) monitor.Finish() if err != nil { return E.Cause(err, "start outbound/", outboundToStart.Type(), "[", outboundTag, "]") } } else if starter, isStarter := outboundToStart.(interface { Start() error }); isStarter { monitor.Start("start outbound/", outboundToStart.Type(), "[", outboundTag, "]") err := starter.Start() monitor.Finish() if err != nil { return E.Cause(err, "start outbound/", outboundToStart.Type(), "[", outboundTag, "]") } } } if len(started) == len(outbounds) { break } if canContinue { continue } currentOutbound := common.Find(outbounds, func(it adapter.Outbound) bool { return !started[it.Tag()] }) var lintOutbound func(oTree []string, oCurrent adapter.Outbound) error lintOutbound = func(oTree []string, oCurrent adapter.Outbound) error { problemOutboundTag := common.Find(oCurrent.Dependencies(), func(it string) bool { return !started[it] }) if common.Contains(oTree, problemOutboundTag) { return E.New("circular outbound dependency: ", strings.Join(oTree, " -> "), " -> ", problemOutboundTag) } m.access.Lock() problemOutbound := m.outboundByTag[problemOutboundTag] m.access.Unlock() if problemOutbound == nil { return E.New("dependency[", problemOutboundTag, "] not found for outbound[", oCurrent.Tag(), "]") } return lintOutbound(append(oTree, problemOutboundTag), problemOutbound) } return lintOutbound([]string{currentOutbound.Tag()}, currentOutbound) } return nil } func (m *Manager) Close() error { monitor := taskmonitor.New(m.logger, C.StopTimeout) m.access.Lock() if !m.started { m.access.Unlock() return nil } m.started = false outbounds := m.outbounds m.outbounds = nil m.access.Unlock() var err error for _, outbound := range outbounds { if closer, isCloser := outbound.(io.Closer); isCloser { monitor.Start("close outbound/", outbound.Type(), "[", outbound.Tag(), "]") err = E.Append(err, closer.Close(), func(err error) error { return E.Cause(err, "close outbound/", outbound.Type(), "[", outbound.Tag(), "]") }) monitor.Finish() } } return nil } func (m *Manager) Outbounds() []adapter.Outbound { m.access.Lock() defer m.access.Unlock() return m.outbounds } func (m *Manager) Outbound(tag string) (adapter.Outbound, bool) { m.access.Lock() outbound, found := m.outboundByTag[tag] m.access.Unlock() if found { return outbound, true } return m.endpoint.Get(tag) } func (m *Manager) Default() adapter.Outbound { m.access.Lock() defer m.access.Unlock() if m.defaultOutbound != nil { return m.defaultOutbound } else { return m.defaultOutboundFallback } } func (m *Manager) Remove(tag string) error { m.access.Lock() outbound, found := m.outboundByTag[tag] if !found { m.access.Unlock() return os.ErrInvalid } delete(m.outboundByTag, tag) index := common.Index(m.outbounds, func(it adapter.Outbound) bool { return it == outbound }) if index == -1 { panic("invalid inbound index") } m.outbounds = append(m.outbounds[:index], m.outbounds[index+1:]...) started := m.started if m.defaultOutbound == outbound { if len(m.outbounds) > 0 { m.defaultOutbound = m.outbounds[0] m.logger.Info("updated default outbound to ", m.defaultOutbound.Tag()) } else { m.defaultOutbound = nil } } dependBy := m.dependByTag[tag] if len(dependBy) > 0 { return E.New("outbound[", tag, "] is depended by ", strings.Join(dependBy, ", ")) } dependencies := outbound.Dependencies() for _, dependency := range dependencies { if len(m.dependByTag[dependency]) == 1 { delete(m.dependByTag, dependency) } else { m.dependByTag[dependency] = common.Filter(m.dependByTag[dependency], func(it string) bool { return it != tag }) } } m.access.Unlock() if started { return common.Close(outbound) } return nil } func (m *Manager) Create(ctx context.Context, router adapter.Router, logger log.ContextLogger, tag string, inboundType string, options any) error { if tag == "" { return os.ErrInvalid } outbound, err := m.registry.CreateOutbound(ctx, router, logger, tag, inboundType, options) if err != nil { return err } m.access.Lock() defer m.access.Unlock() if m.started { for _, stage := range adapter.ListStartStages { err = adapter.LegacyStart(outbound, stage) if err != nil { return E.Cause(err, stage, " outbound/", outbound.Type(), "[", outbound.Tag(), "]") } } } if existsOutbound, loaded := m.outboundByTag[tag]; loaded { if m.started { err = common.Close(existsOutbound) if err != nil { return E.Cause(err, "close outbound/", existsOutbound.Type(), "[", existsOutbound.Tag(), "]") } } existsIndex := common.Index(m.outbounds, func(it adapter.Outbound) bool { return it == existsOutbound }) if existsIndex == -1 { panic("invalid inbound index") } m.outbounds = append(m.outbounds[:existsIndex], m.outbounds[existsIndex+1:]...) } m.outbounds = append(m.outbounds, outbound) m.outboundByTag[tag] = outbound dependencies := outbound.Dependencies() for _, dependency := range dependencies { m.dependByTag[dependency] = append(m.dependByTag[dependency], tag) } if tag == m.defaultTag || (m.defaultTag == "" && m.defaultOutbound == nil) { m.defaultOutbound = outbound if m.started { m.logger.Info("updated default outbound to ", outbound.Tag()) } } return nil }