package wsutil import ( "context" "runtime/debug" "time" "github.com/pkg/errors" "github.com/diamondburned/arikawa/v2/internal/heart" "github.com/diamondburned/arikawa/v2/internal/moreatomic" ) type errBrokenConnection struct { underneath error } // Error formats the broken connection error with the message "explicit // connection break." func (err errBrokenConnection) Error() string { return "explicit connection break: " + err.underneath.Error() } // Unwrap returns the underlying error. func (err errBrokenConnection) Unwrap() error { return err.underneath } // ErrBrokenConnection marks the given error as a broken connection error. This // error will cause the pacemaker loop to break and return the error. The error, // when stringified, will say "explicit connection break." func ErrBrokenConnection(err error) error { return errBrokenConnection{underneath: err} } // IsBrokenConnection returns true if the error is a broken connection error. func IsBrokenConnection(err error) bool { var broken *errBrokenConnection return errors.As(err, &broken) } // TODO API type EventLoopHandler interface { EventHandler HeartbeatCtx(context.Context) error } // PacemakerLoop provides an event loop with a pacemaker. A zero-value instance // is a valid instance only when RunAsync is called first. type PacemakerLoop struct { heart.Pacemaker running moreatomic.Bool stop chan struct{} events <-chan Event handler func(*OP) error stack []byte Extras ExtraHandlers ErrorLog func(error) } func (p *PacemakerLoop) errorLog(err error) { if p.ErrorLog == nil { WSDebug("Uncaught error:", err) return } p.ErrorLog(err) } // Pace calls the pacemaker's Pace function. func (p *PacemakerLoop) Pace(ctx context.Context) error { return p.Pacemaker.PaceCtx(ctx) } // Stop stops the pacer loop. It does nothing if the loop is already stopped. func (p *PacemakerLoop) Stop() { if p.Stopped() { return } // Despite p.running and p.stop being thread-safe on their own, this entire // block is actually not thread-safe. p.Pacemaker.Stop() close(p.stop) } func (p *PacemakerLoop) Stopped() bool { return p == nil || !p.running.Get() } func (p *PacemakerLoop) RunAsync( heartrate time.Duration, evs <-chan Event, evl EventLoopHandler, exit func(error)) { WSDebug("Starting the pacemaker loop.") p.Pacemaker = heart.NewPacemaker(heartrate, evl.HeartbeatCtx) p.handler = evl.HandleOP p.events = evs p.stack = debug.Stack() p.stop = make(chan struct{}) p.running.Set(true) go func() { exit(p.startLoop()) }() } func (p *PacemakerLoop) startLoop() error { defer WSDebug("Pacemaker loop has exited.") defer p.running.Set(false) defer p.Pacemaker.Stop() for { select { case <-p.stop: WSDebug("Stop requested; exiting.") return nil case <-p.Pacemaker.Ticks: if err := p.Pacemaker.Pace(); err != nil { return errors.Wrap(err, "pace failed, reconnecting") } case ev, ok := <-p.events: if !ok { WSDebug("Events channel closed, stopping pacemaker.") return nil } if ev.Error != nil { return errors.Wrap(ev.Error, "event returned error") } o, err := DecodeOP(ev) if err != nil { return errors.Wrap(err, "failed to decode OP") } // Check the events before handling. p.Extras.Check(o) // Handle the event if err := p.handler(o); err != nil { if IsBrokenConnection(err) { return errors.Wrap(err, "handler failed") } p.errorLog(err) } } } }