mirror of
https://github.com/FluuxIO/go-xmpp.git
synced 2024-11-25 12:02:01 -08:00
375 lines
10 KiB
Go
375 lines
10 KiB
Go
package xmpp
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import (
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"context"
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"encoding/xml"
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"strings"
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"sync"
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"gosrc.io/xmpp/stanza"
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)
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/*
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The XMPP router helps client and component developers select which XMPP they would like to process,
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and associate processing code depending on the router configuration.
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Here are important rules to keep in mind while setting your routes and matchers:
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- Routes are evaluated in the order they are set.
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- When a route matches, it is executed and all others routes are ignored. For each packet, only a single
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route is executed.
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- An empty route will match everything. Adding an empty route as the last route in your router will
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allow you to get all stanzas that did not match any previous route. You can for example use this to
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log all unexpected stanza received by your client or component.
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TODO: Automatically reply to IQ that do not match any route, to comply to XMPP standard.
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*/
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type Router struct {
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// Routes to be matched, in order.
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routes []*Route
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IQResultRoutes map[string]*IQResultRoute
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IQResultRouteLock sync.RWMutex
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}
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// NewRouter returns a new router instance.
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func NewRouter() *Router {
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return &Router{
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IQResultRoutes: make(map[string]*IQResultRoute),
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}
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}
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// route is called by the XMPP client to dispatch stanza received using the set up routes.
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// It is also used by test, but is not supposed to be used directly by users of the library.
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func (r *Router) route(s Sender, p stanza.Packet) {
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a, isA := p.(stanza.SMAnswer)
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if isA {
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switch tt := s.(type) {
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case *Client:
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lastAcked := a.H
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SendMissingStz(int(lastAcked), s, tt.Session.SMState.UnAckQueue)
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case *Component:
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// TODO
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default:
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}
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}
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iq, isIq := p.(*stanza.IQ)
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if isIq {
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r.IQResultRouteLock.RLock()
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route, ok := r.IQResultRoutes[iq.Id]
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r.IQResultRouteLock.RUnlock()
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if ok {
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r.IQResultRouteLock.Lock()
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delete(r.IQResultRoutes, iq.Id)
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r.IQResultRouteLock.Unlock()
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route.result <- *iq
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close(route.result)
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return
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}
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}
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var match RouteMatch
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if r.Match(p, &match) {
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// If we match, route the packet
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match.Handler.HandlePacket(s, p)
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return
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}
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// If there is no match and we receive an iq set or get, we need to send a reply
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if isIq && (iq.Type == stanza.IQTypeGet || iq.Type == stanza.IQTypeSet) {
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iqNotImplemented(s, iq)
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}
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}
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// SendMissingStz sends all stanzas that did not reach the server, according to the response to an ack request (see XEP-0198, acks)
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func SendMissingStz(lastSent int, s Sender, uaq *stanza.UnAckQueue) error {
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uaq.RWMutex.Lock()
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if len(uaq.Uslice) <= 0 {
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uaq.RWMutex.Unlock()
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return nil
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}
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last := uaq.Uslice[len(uaq.Uslice)-1]
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if last.Id > lastSent {
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// Remove sent stanzas from the queue
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uaq.PopN(lastSent - last.Id)
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// Re-send non acknowledged stanzas
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for _, elt := range uaq.PopN(len(uaq.Uslice)) {
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eltStz := elt.(*stanza.UnAckedStz)
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err := s.SendRaw(eltStz.Stz)
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if err != nil {
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return err
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}
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}
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// Ask for updates on stanzas we just sent to the entity. Not sure I should leave this. Maybe let users call ack again by themselves ?
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s.Send(stanza.SMRequest{})
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}
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uaq.RWMutex.Unlock()
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return nil
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}
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func iqNotImplemented(s Sender, iq *stanza.IQ) {
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err := stanza.Err{
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XMLName: xml.Name{Local: "error"},
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Code: 501,
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Type: "cancel",
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Reason: "feature-not-implemented",
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}
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reply := iq.MakeError(err)
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_ = s.Send(reply)
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}
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// NewRoute registers an empty routes
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func (r *Router) NewRoute() *Route {
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route := &Route{}
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r.routes = append(r.routes, route)
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return route
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}
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// NewIQResultRoute register a route that will catch an IQ result stanza with
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// the given Id. The route will only match ones, after which it will automatically
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// be unregistered
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func (r *Router) NewIQResultRoute(ctx context.Context, id string) chan stanza.IQ {
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route := NewIQResultRoute(ctx)
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r.IQResultRouteLock.Lock()
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r.IQResultRoutes[id] = route
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r.IQResultRouteLock.Unlock()
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// Start a go function to make sure the route is unregistered when the context
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// is done.
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go func() {
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<-route.context.Done()
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r.IQResultRouteLock.Lock()
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delete(r.IQResultRoutes, id)
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r.IQResultRouteLock.Unlock()
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}()
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return route.result
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}
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func (r *Router) Match(p stanza.Packet, match *RouteMatch) bool {
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for _, route := range r.routes {
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if route.Match(p, match) {
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return true
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}
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}
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return false
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}
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// Handle registers a new route with a matcher for a given packet name (iq, message, presence)
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// See Route.Packet() and Route.Handler().
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func (r *Router) Handle(name string, handler Handler) *Route {
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return r.NewRoute().Packet(name).Handler(handler)
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}
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// HandleFunc registers a new route with a matcher for for a given packet name (iq, message, presence)
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// See Route.Path() and Route.HandlerFunc().
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func (r *Router) HandleFunc(name string, f func(s Sender, p stanza.Packet)) *Route {
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return r.NewRoute().Packet(name).HandlerFunc(f)
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}
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// ============================================================================
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// TimeoutHandlerFunc is a function type for handling IQ result timeouts.
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type TimeoutHandlerFunc func(err error)
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// IQResultRoute is a temporary route to match IQ result stanzas
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type IQResultRoute struct {
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context context.Context
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result chan stanza.IQ
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}
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// NewIQResultRoute creates a new IQResultRoute instance
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func NewIQResultRoute(ctx context.Context) *IQResultRoute {
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return &IQResultRoute{
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context: ctx,
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result: make(chan stanza.IQ),
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}
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}
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// ============================================================================
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// IQ result handler
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// IQResultHandler is a utility interface for IQ result handlers
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type IQResultHandler interface {
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HandleIQ(ctx context.Context, s Sender, iq stanza.IQ)
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}
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// IQResultHandlerFunc is an adapter to allow using functions as IQ result handlers.
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type IQResultHandlerFunc func(ctx context.Context, s Sender, iq stanza.IQ)
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// HandleIQ is a proxy function to implement IQResultHandler using a function.
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func (f IQResultHandlerFunc) HandleIQ(ctx context.Context, s Sender, iq stanza.IQ) {
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f(ctx, s, iq)
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}
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// ============================================================================
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// Route
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type Handler interface {
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HandlePacket(s Sender, p stanza.Packet)
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}
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type Route struct {
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handler Handler
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// Matchers are used to "specialize" routes and focus on specific packet features
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matchers []Matcher
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}
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func (r *Route) Handler(handler Handler) *Route {
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r.handler = handler
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return r
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}
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// The HandlerFunc type is an adapter to allow the use of
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// ordinary functions as XMPP handlers. If f is a function
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// with the appropriate signature, HandlerFunc(f) is a
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// Handler that calls f.
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type HandlerFunc func(s Sender, p stanza.Packet)
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// HandlePacket calls f(s, p)
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func (f HandlerFunc) HandlePacket(s Sender, p stanza.Packet) {
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f(s, p)
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}
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// HandlerFunc sets a handler function for the route
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func (r *Route) HandlerFunc(f HandlerFunc) *Route {
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return r.Handler(f)
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}
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// AddMatcher adds a matcher to the route
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func (r *Route) AddMatcher(m Matcher) *Route {
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r.matchers = append(r.matchers, m)
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return r
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}
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func (r *Route) Match(p stanza.Packet, match *RouteMatch) bool {
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for _, m := range r.matchers {
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if matched := m.Match(p, match); !matched {
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return false
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}
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}
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// We have a match, let's pass info route match info
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match.Route = r
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match.Handler = r.handler
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return true
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}
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// --------------------
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// Match on packet name
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type nameMatcher string
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func (n nameMatcher) Match(p stanza.Packet, match *RouteMatch) bool {
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var name string
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// TODO: To avoid type switch everywhere in matching, I think we will need to have
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// to move to a concrete type for packets, to make matching and comparison more natural.
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// Current code structure is probably too rigid.
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// Maybe packet types should even be from an enum.
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switch p.(type) {
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case stanza.Message:
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name = "message"
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case *stanza.IQ:
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name = "iq"
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case stanza.Presence:
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name = "presence"
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}
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if name == string(n) {
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return true
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}
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return false
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}
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// Packet matches on a packet name (iq, message, presence, ...)
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// It matches on the Local part of the xml.Name
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func (r *Route) Packet(name string) *Route {
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name = strings.ToLower(name)
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return r.AddMatcher(nameMatcher(name))
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}
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// -------------------------
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// Match on stanza type
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// nsTypeMather matches on a list of IQ payload namespaces
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type nsTypeMatcher []string
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func (m nsTypeMatcher) Match(p stanza.Packet, match *RouteMatch) bool {
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var stanzaType stanza.StanzaType
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switch packet := p.(type) {
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case *stanza.IQ:
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stanzaType = packet.Type
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case stanza.Presence:
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stanzaType = packet.Type
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case stanza.Message:
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if packet.Type == "" {
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// optional on message, normal is the default type
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stanzaType = "normal"
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} else {
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stanzaType = packet.Type
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}
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default:
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return false
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}
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return matchInArray(m, string(stanzaType))
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}
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// IQNamespaces adds an IQ matcher, expecting both an IQ and a
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func (r *Route) StanzaType(types ...string) *Route {
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for k, v := range types {
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types[k] = strings.ToLower(v)
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}
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return r.AddMatcher(nsTypeMatcher(types))
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}
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// -------------------------
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// Match on IQ and namespace
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// nsIqMather matches on a list of IQ payload namespaces
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type nsIQMatcher []string
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func (m nsIQMatcher) Match(p stanza.Packet, match *RouteMatch) bool {
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iq, ok := p.(*stanza.IQ)
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if !ok {
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return false
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}
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if iq.Payload == nil {
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return false
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}
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return matchInArray(m, iq.Payload.Namespace())
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}
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// IQNamespaces adds an IQ matcher, expecting both an IQ and a
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func (r *Route) IQNamespaces(namespaces ...string) *Route {
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for k, v := range namespaces {
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namespaces[k] = strings.ToLower(v)
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}
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return r.AddMatcher(nsIQMatcher(namespaces))
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}
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// ============================================================================
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// Matchers
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// Matchers are used to "specialize" routes and focus on specific packet features.
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// You can register attach them to a route via the AddMatcher method.
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type Matcher interface {
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Match(stanza.Packet, *RouteMatch) bool
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}
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// RouteMatch extracts and gather match information
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type RouteMatch struct {
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Route *Route
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Handler Handler
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}
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// matchInArray is a generic matching function to check if a string is a list
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// of specific function
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func matchInArray(arr []string, value string) bool {
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for _, str := range arr {
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if str == value {
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return true
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}
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}
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return false
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}
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