// Copyright 2015 Matthew Holt and The Caddy Authors // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package caddyevents import ( "context" "encoding/json" "errors" "fmt" "strings" "time" "github.com/google/uuid" "go.uber.org/zap" "github.com/caddyserver/caddy/v2" ) func init() { caddy.RegisterModule(App{}) } // App implements a global eventing system within Caddy. // Modules can emit and subscribe to events, providing // hooks into deep parts of the code base that aren't // otherwise accessible. Events provide information about // what and when things are happening, and this facility // allows handlers to take action when events occur, // add information to the event's metadata, and even // control program flow in some cases. // // Events are propagated in a DOM-like fashion. An event // emitted from module `a.b.c` (the "origin") will first // invoke handlers listening to `a.b.c`, then `a.b`, // then `a`, then those listening regardless of origin. // If a handler returns the special error Aborted, then // propagation immediately stops and the event is marked // as aborted. Emitters may optionally choose to adjust // program flow based on an abort. // // Modules can subscribe to events by origin and/or name. // A handler is invoked only if it is subscribed to the // event by name and origin. Subscriptions should be // registered during the provisioning phase, before apps // are started. // // Event handlers are fired synchronously as part of the // regular flow of the program. This allows event handlers // to control the flow of the program if the origin permits // it and also allows handlers to convey new information // back into the origin module before it continues. // In essence, event handlers are similar to HTTP // middleware handlers. // // Event bindings/subscribers are unordered; i.e. // event handlers are invoked in an arbitrary order. // Event handlers should not rely on the logic of other // handlers to succeed. // // The entirety of this app module is EXPERIMENTAL and // subject to change. Pay attention to release notes. type App struct { // Subscriptions bind handlers to one or more events // either globally or scoped to specific modules or module // namespaces. Subscriptions []*Subscription `json:"subscriptions,omitempty"` // Map of event name to map of module ID/namespace to handlers subscriptions map[string]map[caddy.ModuleID][]Handler logger *zap.Logger started bool } // Subscription represents binding of one or more handlers to // one or more events. type Subscription struct { // The name(s) of the event(s) to bind to. Default: all events. Events []string `json:"events,omitempty"` // The ID or namespace of the module(s) from which events // originate to listen to for events. Default: all modules. // // Events propagate up, so events emitted by module "a.b.c" // will also trigger the event for "a.b" and "a". Thus, to // receive all events from "a.b.c" and "a.b.d", for example, // one can subscribe to either "a.b" or all of "a" entirely. Modules []caddy.ModuleID `json:"modules,omitempty"` // The event handler modules. These implement the actual // behavior to invoke when an event occurs. At least one // handler is required. HandlersRaw []json.RawMessage `json:"handlers,omitempty" caddy:"namespace=events.handlers inline_key=handler"` // The decoded handlers; Go code that is subscribing to // an event should set this field directly; HandlersRaw // is meant for JSON configuration to fill out this field. Handlers []Handler `json:"-"` } // CaddyModule returns the Caddy module information. func (App) CaddyModule() caddy.ModuleInfo { return caddy.ModuleInfo{ ID: "events", New: func() caddy.Module { return new(App) }, } } // Provision sets up the app. func (app *App) Provision(ctx caddy.Context) error { app.logger = ctx.Logger() app.subscriptions = make(map[string]map[caddy.ModuleID][]Handler) for _, sub := range app.Subscriptions { if sub.HandlersRaw == nil { continue } handlersIface, err := ctx.LoadModule(sub, "HandlersRaw") if err != nil { return fmt.Errorf("loading event subscriber modules: %v", err) } for _, h := range handlersIface.([]any) { sub.Handlers = append(sub.Handlers, h.(Handler)) } if len(sub.Handlers) == 0 { // pointless to bind without any handlers return fmt.Errorf("no handlers defined") } } return nil } // Start runs the app. func (app *App) Start() error { for _, sub := range app.Subscriptions { if err := app.Subscribe(sub); err != nil { return err } } app.started = true return nil } // Stop gracefully shuts down the app. func (app *App) Stop() error { return nil } // Subscribe binds one or more event handlers to one or more events // according to the subscription s. For now, subscriptions can only // be created during the provision phase; new bindings cannot be // created after the events app has started. func (app *App) Subscribe(s *Subscription) error { if app.started { return fmt.Errorf("events already started; new subscriptions closed") } // handle special case of catch-alls (omission of event name or module space implies all) if len(s.Events) == 0 { s.Events = []string{""} } if len(s.Modules) == 0 { s.Modules = []caddy.ModuleID{""} } for _, eventName := range s.Events { if app.subscriptions[eventName] == nil { app.subscriptions[eventName] = make(map[caddy.ModuleID][]Handler) } for _, originModule := range s.Modules { app.subscriptions[eventName][originModule] = append(app.subscriptions[eventName][originModule], s.Handlers...) } } return nil } // On is syntactic sugar for Subscribe() that binds a single handler // to a single event from any module. If the eventName is empty string, // it counts for all events. func (app *App) On(eventName string, handler Handler) error { return app.Subscribe(&Subscription{ Events: []string{eventName}, Handlers: []Handler{handler}, }) } // Emit creates and dispatches an event named eventName to all relevant handlers with // the metadata data. Events are emitted and propagated synchronously. The returned Event // value will have any additional information from the invoked handlers. // // Note that the data map is not copied, for efficiency. After Emit() is called, the // data passed in should not be changed in other goroutines. func (app *App) Emit(ctx caddy.Context, eventName string, data map[string]any) Event { logger := app.logger.With(zap.String("name", eventName)) id, err := uuid.NewRandom() if err != nil { logger.Error("failed generating new event ID", zap.Error(err)) } eventName = strings.ToLower(eventName) e := Event{ Data: data, id: id, ts: time.Now(), name: eventName, origin: ctx.Module(), } logger = logger.With( zap.String("id", e.id.String()), zap.String("origin", e.origin.CaddyModule().String())) // add event info to replacer, make sure it's in the context repl, ok := ctx.Context.Value(caddy.ReplacerCtxKey).(*caddy.Replacer) if !ok { repl = caddy.NewReplacer() ctx.Context = context.WithValue(ctx.Context, caddy.ReplacerCtxKey, repl) } repl.Map(func(key string) (any, bool) { switch key { case "event": return e, true case "event.id": return e.id, true case "event.name": return e.name, true case "event.time": return e.ts, true case "event.time_unix": return e.ts.UnixMilli(), true case "event.module": return e.origin.CaddyModule().ID, true case "event.data": return e.Data, true } if strings.HasPrefix(key, "event.data.") { key = strings.TrimPrefix(key, "event.data.") if val, ok := e.Data[key]; ok { return val, true } } return nil, false }) logger = logger.With(zap.Any("data", e.Data)) logger.Debug("event") // invoke handlers bound to the event by name and also all events; this for loop // iterates twice at most: once for the event name, once for "" (all events) for { moduleID := e.origin.CaddyModule().ID // implement propagation up the module tree (i.e. start with "a.b.c" then "a.b" then "a" then "") for { if app.subscriptions[eventName] == nil { break // shortcut if event not bound at all } for _, handler := range app.subscriptions[eventName][moduleID] { select { case <-ctx.Done(): logger.Error("context canceled; event handling stopped") return e default: } // this log can be a useful sanity check to ensure your handlers are in fact being invoked // (see https://github.com/mholt/caddy-events-exec/issues/6) logger.Debug("invoking subscribed handler", zap.String("subscribed_to", eventName), zap.Any("handler", handler)) if err := handler.Handle(ctx, e); err != nil { aborted := errors.Is(err, ErrAborted) logger.Error("handler error", zap.Error(err), zap.Bool("aborted", aborted)) if aborted { e.Aborted = err return e } } } if moduleID == "" { break } lastDot := strings.LastIndex(string(moduleID), ".") if lastDot < 0 { moduleID = "" // include handlers bound to events regardless of module } else { moduleID = moduleID[:lastDot] } } // include handlers listening to all events if eventName == "" { break } eventName = "" } return e } // Event represents something that has happened or is happening. // An Event value is not synchronized, so it should be copied if // being used in goroutines. // // EXPERIMENTAL: As with the rest of this package, events are // subject to change. type Event struct { // If non-nil, the event has been aborted, meaning // propagation has stopped to other handlers and // the code should stop what it was doing. Emitters // may choose to use this as a signal to adjust their // code path appropriately. Aborted error // The data associated with the event. Usually the // original emitter will be the only one to set or // change these values, but the field is exported // so handlers can have full access if needed. // However, this map is not synchronized, so // handlers must not use this map directly in new // goroutines; instead, copy the map to use it in a // goroutine. Data map[string]any id uuid.UUID ts time.Time name string origin caddy.Module } func (e Event) ID() uuid.UUID { return e.id } func (e Event) Timestamp() time.Time { return e.ts } func (e Event) Name() string { return e.name } func (e Event) Origin() caddy.Module { return e.origin } // CloudEvent exports event e as a structure that, when // serialized as JSON, is compatible with the // CloudEvents spec. func (e Event) CloudEvent() CloudEvent { dataJSON, _ := json.Marshal(e.Data) return CloudEvent{ ID: e.id.String(), Source: e.origin.CaddyModule().String(), SpecVersion: "1.0", Type: e.name, Time: e.ts, DataContentType: "application/json", Data: dataJSON, } } // CloudEvent is a JSON-serializable structure that // is compatible with the CloudEvents specification. // See https://cloudevents.io. type CloudEvent struct { ID string `json:"id"` Source string `json:"source"` SpecVersion string `json:"specversion"` Type string `json:"type"` Time time.Time `json:"time"` DataContentType string `json:"datacontenttype,omitempty"` Data json.RawMessage `json:"data,omitempty"` } // ErrAborted cancels an event. var ErrAborted = errors.New("event aborted") // Handler is a type that can handle events. type Handler interface { Handle(context.Context, Event) error } // Interface guards var ( _ caddy.App = (*App)(nil) _ caddy.Provisioner = (*App)(nil) )