// +build !confonly package stats //go:generate errorgen import ( "context" "sync" "v2ray.com/core/common" "v2ray.com/core/common/errors" "v2ray.com/core/features/stats" ) // Manager is an implementation of stats.Manager. type Manager struct { access sync.RWMutex counters map[string]*Counter channels map[string]*Channel running bool } // NewManager creates an instance of Statistics Manager. func NewManager(ctx context.Context, config *Config) (*Manager, error) { m := &Manager{ counters: make(map[string]*Counter), channels: make(map[string]*Channel), } return m, nil } // Type implements common.HasType. func (*Manager) Type() interface{} { return stats.ManagerType() } // RegisterCounter implements stats.Manager. func (m *Manager) RegisterCounter(name string) (stats.Counter, error) { m.access.Lock() defer m.access.Unlock() if _, found := m.counters[name]; found { return nil, newError("Counter ", name, " already registered.") } newError("create new counter ", name).AtDebug().WriteToLog() c := new(Counter) m.counters[name] = c return c, nil } // UnregisterCounter implements stats.Manager. func (m *Manager) UnregisterCounter(name string) error { m.access.Lock() defer m.access.Unlock() if _, found := m.counters[name]; found { newError("remove counter ", name).AtDebug().WriteToLog() delete(m.counters, name) } return nil } // GetCounter implements stats.Manager. func (m *Manager) GetCounter(name string) stats.Counter { m.access.RLock() defer m.access.RUnlock() if c, found := m.counters[name]; found { return c } return nil } // VisitCounters calls visitor function on all managed counters. func (m *Manager) VisitCounters(visitor func(string, stats.Counter) bool) { m.access.RLock() defer m.access.RUnlock() for name, c := range m.counters { if !visitor(name, c) { break } } } // RegisterChannel implements stats.Manager. func (m *Manager) RegisterChannel(name string) (stats.Channel, error) { m.access.Lock() defer m.access.Unlock() if _, found := m.channels[name]; found { return nil, newError("Channel ", name, " already registered.") } newError("create new channel ", name).AtDebug().WriteToLog() c := NewChannel(&ChannelConfig{BufferSize: 16, BroadcastTimeout: 100}) m.channels[name] = c if m.running { return c, c.Start() } return c, nil } // UnregisterChannel implements stats.Manager. func (m *Manager) UnregisterChannel(name string) error { m.access.Lock() defer m.access.Unlock() if c, found := m.channels[name]; found { newError("remove channel ", name).AtDebug().WriteToLog() delete(m.channels, name) return c.Close() } return nil } // GetChannel implements stats.Manager. func (m *Manager) GetChannel(name string) stats.Channel { m.access.RLock() defer m.access.RUnlock() if c, found := m.channels[name]; found { return c } return nil } // Start implements common.Runnable. func (m *Manager) Start() error { m.access.Lock() defer m.access.Unlock() m.running = true errs := []error{} for _, channel := range m.channels { if err := channel.Start(); err != nil { errs = append(errs, err) } } if len(errs) != 0 { return errors.Combine(errs...) } return nil } // Close implement common.Closable. func (m *Manager) Close() error { m.access.Lock() defer m.access.Unlock() m.running = false errs := []error{} for name, channel := range m.channels { newError("remove channel ", name).AtDebug().WriteToLog() delete(m.channels, name) if err := channel.Close(); err != nil { errs = append(errs, err) } } if len(errs) != 0 { return errors.Combine(errs...) } return nil } func init() { common.Must(common.RegisterConfig((*Config)(nil), func(ctx context.Context, config interface{}) (interface{}, error) { return NewManager(ctx, config.(*Config)) })) }