// Copyright (c) 2017 Shivaram Lingamneni // released under the MIT license package irc import ( "fmt" "sync" "time" "github.com/oragono/oragono/irc/caps" ) const ( // RegisterTimeout is how long clients have to register before we disconnect them RegisterTimeout = time.Minute // IdleTimeout is how long without traffic before a registered client is considered idle. IdleTimeout = time.Minute + time.Second*30 // IdleTimeoutWithResumeCap is how long without traffic before a registered client is considered idle, when they have the resume capability. IdleTimeoutWithResumeCap = time.Minute*2 + time.Second*30 // QuitTimeout is how long without traffic before an idle client is disconnected QuitTimeout = time.Minute ) // client idleness state machine type TimerState uint const ( TimerUnregistered TimerState = iota // client is unregistered TimerActive // client is actively sending commands TimerIdle // client is idle, we sent PING and are waiting for PONG TimerDead // client was terminated ) type IdleTimer struct { sync.Mutex // tier 1 // immutable after construction registerTimeout time.Duration idleTimeout time.Duration idleTimeoutWithResume time.Duration quitTimeout time.Duration client *Client // mutable state TimerState timer *time.Timer } // NewIdleTimer sets up a new IdleTimer using constant timeouts. func NewIdleTimer(client *Client) *IdleTimer { it := IdleTimer{ registerTimeout: RegisterTimeout, idleTimeout: IdleTimeout, idleTimeoutWithResume: IdleTimeoutWithResumeCap, quitTimeout: QuitTimeout, client: client, } return &it } // Start starts counting idle time; if there is no activity from the client, // it will eventually be stopped. func (it *IdleTimer) Start() { it.Lock() defer it.Unlock() it.state = TimerUnregistered it.resetTimeout() } func (it *IdleTimer) Touch() { // ignore touches from unregistered clients if !it.client.Registered() { return } it.Lock() defer it.Unlock() // a touch transitions TimerUnregistered or TimerIdle into TimerActive if it.state != TimerDead { it.state = TimerActive it.resetTimeout() } } func (it *IdleTimer) processTimeout() { var previousState TimerState func() { it.Lock() defer it.Unlock() previousState = it.state // TimerActive transitions to TimerIdle, all others to TimerDead if it.state == TimerActive { // send them a ping, give them time to respond it.state = TimerIdle it.resetTimeout() } else { it.state = TimerDead } }() if previousState == TimerActive { it.client.Ping() } else { it.client.Quit(it.quitMessage(previousState)) it.client.destroy(false) } } // Stop stops counting idle time. func (it *IdleTimer) Stop() { it.Lock() defer it.Unlock() it.state = TimerDead it.resetTimeout() } func (it *IdleTimer) resetTimeout() { if it.timer != nil { it.timer.Stop() } var nextTimeout time.Duration switch it.state { case TimerUnregistered: nextTimeout = it.registerTimeout case TimerActive: // if they have the resume cap, wait longer before pinging them out // to give them a chance to resume their connection if it.client.capabilities.Has(caps.Resume) { nextTimeout = it.idleTimeoutWithResume } else { nextTimeout = it.idleTimeout } case TimerIdle: nextTimeout = it.quitTimeout case TimerDead: return } it.timer = time.AfterFunc(nextTimeout, it.processTimeout) } func (it *IdleTimer) quitMessage(state TimerState) string { switch state { case TimerUnregistered: return fmt.Sprintf("Registration timeout: %v", it.registerTimeout) case TimerIdle: // how many seconds before registered clients are timed out (IdleTimeout plus QuitTimeout). return fmt.Sprintf("Ping timeout: %v", (it.idleTimeout + it.quitTimeout)) default: // shouldn't happen return "" } }