package broker import ( "bytes" "context" "crypto/tls" "errors" "fmt" "io" "io/ioutil" "math/rand" "net" "net/http" "net/url" "runtime" "sync" "time" "github.com/google/uuid" "github.com/micro/go-micro/codec/json" merr "github.com/micro/go-micro/errors" "github.com/micro/go-micro/registry" "github.com/micro/go-micro/registry/cache" maddr "github.com/micro/go-micro/util/addr" mnet "github.com/micro/go-micro/util/net" mls "github.com/micro/go-micro/util/tls" "golang.org/x/net/http2" ) // HTTP Broker is a point to point async broker type httpBroker struct { id string address string opts Options mux *http.ServeMux c *http.Client r registry.Registry sync.RWMutex subscribers map[string][]*httpSubscriber running bool exit chan chan error // offline message inbox mtx sync.RWMutex inbox map[string][][]byte } type httpSubscriber struct { opts SubscribeOptions id string topic string fn Handler svc *registry.Service hb *httpBroker } type httpEvent struct { m *Message t string } var ( DefaultSubPath = "/_sub" broadcastVersion = "ff.http.broadcast" registerTTL = time.Minute registerInterval = time.Second * 30 ) func init() { rand.Seed(time.Now().Unix()) } func newTransport(config *tls.Config) *http.Transport { if config == nil { config = &tls.Config{ InsecureSkipVerify: true, } } dialTLS := func(network string, addr string) (net.Conn, error) { return tls.Dial(network, addr, config) } t := &http.Transport{ Proxy: http.ProxyFromEnvironment, Dial: (&net.Dialer{ Timeout: 30 * time.Second, KeepAlive: 30 * time.Second, }).Dial, TLSHandshakeTimeout: 10 * time.Second, DialTLS: dialTLS, } runtime.SetFinalizer(&t, func(tr **http.Transport) { (*tr).CloseIdleConnections() }) // setup http2 http2.ConfigureTransport(t) return t } func newHttpBroker(opts ...Option) Broker { options := Options{ Codec: json.Marshaler{}, Context: context.TODO(), } for _, o := range opts { o(&options) } // set address addr := ":0" if len(options.Addrs) > 0 && len(options.Addrs[0]) > 0 { addr = options.Addrs[0] } // get registry reg, ok := options.Context.Value(registryKey).(registry.Registry) if !ok { reg = registry.DefaultRegistry } h := &httpBroker{ id: "broker-" + uuid.New().String(), address: addr, opts: options, r: reg, c: &http.Client{Transport: newTransport(options.TLSConfig)}, subscribers: make(map[string][]*httpSubscriber), exit: make(chan chan error), mux: http.NewServeMux(), inbox: make(map[string][][]byte), } // specify the message handler h.mux.Handle(DefaultSubPath, h) // get optional handlers if h.opts.Context != nil { handlers, ok := h.opts.Context.Value("http_handlers").(map[string]http.Handler) if ok { for pattern, handler := range handlers { h.mux.Handle(pattern, handler) } } } return h } func (h *httpEvent) Ack() error { return nil } func (h *httpEvent) Message() *Message { return h.m } func (h *httpEvent) Topic() string { return h.t } func (h *httpSubscriber) Options() SubscribeOptions { return h.opts } func (h *httpSubscriber) Topic() string { return h.topic } func (h *httpSubscriber) Unsubscribe() error { return h.hb.unsubscribe(h) } func (h *httpBroker) saveMessage(topic string, msg []byte) { h.mtx.Lock() defer h.mtx.Unlock() // get messages c := h.inbox[topic] // save message c = append(c, msg) // max length 64 if len(c) > 64 { c = c[:64] } // save inbox h.inbox[topic] = c } func (h *httpBroker) getMessage(topic string, num int) [][]byte { h.mtx.Lock() defer h.mtx.Unlock() // get messages c, ok := h.inbox[topic] if !ok { return nil } // more message than requests if len(c) >= num { msg := c[:num] h.inbox[topic] = c[num:] return msg } // reset inbox h.inbox[topic] = nil // return all messages return c } func (h *httpBroker) subscribe(s *httpSubscriber) error { h.Lock() defer h.Unlock() if err := h.r.Register(s.svc, registry.RegisterTTL(registerTTL)); err != nil { return err } h.subscribers[s.topic] = append(h.subscribers[s.topic], s) return nil } func (h *httpBroker) unsubscribe(s *httpSubscriber) error { h.Lock() defer h.Unlock() var subscribers []*httpSubscriber // look for subscriber for _, sub := range h.subscribers[s.topic] { // deregister and skip forward if sub.id == s.id { _ = h.r.Deregister(sub.svc) continue } // keep subscriber subscribers = append(subscribers, sub) } // set subscribers h.subscribers[s.topic] = subscribers return nil } func (h *httpBroker) run(l net.Listener) { t := time.NewTicker(registerInterval) defer t.Stop() for { select { // heartbeat for each subscriber case <-t.C: h.RLock() for _, subs := range h.subscribers { for _, sub := range subs { _ = h.r.Register(sub.svc, registry.RegisterTTL(registerTTL)) } } h.RUnlock() // received exit signal case ch := <-h.exit: ch <- l.Close() h.RLock() for _, subs := range h.subscribers { for _, sub := range subs { _ = h.r.Deregister(sub.svc) } } h.RUnlock() return } } } func (h *httpBroker) ServeHTTP(w http.ResponseWriter, req *http.Request) { if req.Method != "POST" { err := merr.BadRequest("go.micro.broker", "Method not allowed") http.Error(w, err.Error(), http.StatusMethodNotAllowed) return } defer req.Body.Close() req.ParseForm() b, err := ioutil.ReadAll(req.Body) if err != nil { errr := merr.InternalServerError("go.micro.broker", "Error reading request body: %v", err) w.WriteHeader(500) w.Write([]byte(errr.Error())) return } var m *Message if err = h.opts.Codec.Unmarshal(b, &m); err != nil { errr := merr.InternalServerError("go.micro.broker", "Error parsing request body: %v", err) w.WriteHeader(500) w.Write([]byte(errr.Error())) return } topic := m.Header[":topic"] delete(m.Header, ":topic") if len(topic) == 0 { errr := merr.InternalServerError("go.micro.broker", "Topic not found") w.WriteHeader(500) w.Write([]byte(errr.Error())) return } p := &httpEvent{m: m, t: topic} id := req.Form.Get("id") var subs []Handler h.RLock() for _, subscriber := range h.subscribers[topic] { if id != subscriber.id { continue } subs = append(subs, subscriber.fn) } h.RUnlock() // execute the handler for _, fn := range subs { fn(p) } } func (h *httpBroker) Address() string { h.RLock() defer h.RUnlock() return h.address } func (h *httpBroker) Connect() error { h.RLock() if h.running { h.RUnlock() return nil } h.RUnlock() h.Lock() defer h.Unlock() var l net.Listener var err error if h.opts.Secure || h.opts.TLSConfig != nil { config := h.opts.TLSConfig fn := func(addr string) (net.Listener, error) { if config == nil { hosts := []string{addr} // check if its a valid host:port if host, _, err := net.SplitHostPort(addr); err == nil { if len(host) == 0 { hosts = maddr.IPs() } else { hosts = []string{host} } } // generate a certificate cert, err := mls.Certificate(hosts...) if err != nil { return nil, err } config = &tls.Config{Certificates: []tls.Certificate{cert}} } return tls.Listen("tcp", addr, config) } l, err = mnet.Listen(h.address, fn) } else { fn := func(addr string) (net.Listener, error) { return net.Listen("tcp", addr) } l, err = mnet.Listen(h.address, fn) } if err != nil { return err } addr := h.address h.address = l.Addr().String() go http.Serve(l, h.mux) go func() { h.run(l) h.Lock() h.opts.Addrs = []string{addr} h.address = addr h.Unlock() }() // get registry reg, ok := h.opts.Context.Value(registryKey).(registry.Registry) if !ok { reg = registry.DefaultRegistry } // set cache h.r = cache.New(reg) // set running h.running = true return nil } func (h *httpBroker) Disconnect() error { h.RLock() if !h.running { h.RUnlock() return nil } h.RUnlock() h.Lock() defer h.Unlock() // stop cache rc, ok := h.r.(cache.Cache) if ok { rc.Stop() } // exit and return err ch := make(chan error) h.exit <- ch err := <-ch // set not running h.running = false return err } func (h *httpBroker) Init(opts ...Option) error { h.RLock() if h.running { h.RUnlock() return errors.New("cannot init while connected") } h.RUnlock() h.Lock() defer h.Unlock() for _, o := range opts { o(&h.opts) } if len(h.opts.Addrs) > 0 && len(h.opts.Addrs[0]) > 0 { h.address = h.opts.Addrs[0] } if len(h.id) == 0 { h.id = "broker-" + uuid.New().String() } // get registry reg, ok := h.opts.Context.Value(registryKey).(registry.Registry) if !ok { reg = registry.DefaultRegistry } // get cache if rc, ok := h.r.(cache.Cache); ok { rc.Stop() } // set registry h.r = cache.New(reg) // reconfigure tls config if c := h.opts.TLSConfig; c != nil { h.c = &http.Client{ Transport: newTransport(c), } } return nil } func (h *httpBroker) Options() Options { return h.opts } func (h *httpBroker) Publish(topic string, msg *Message, opts ...PublishOption) error { // create the message first m := &Message{ Header: make(map[string]string), Body: msg.Body, } for k, v := range msg.Header { m.Header[k] = v } m.Header[":topic"] = topic // encode the message b, err := h.opts.Codec.Marshal(m) if err != nil { return err } // save the message h.saveMessage(topic, b) // now attempt to get the service h.RLock() s, err := h.r.GetService(topic) if err != nil { h.RUnlock() // ignore error return nil } h.RUnlock() pub := func(node *registry.Node, t string, b []byte) error { scheme := "http" // check if secure is added in metadata if node.Metadata["secure"] == "true" { scheme = "https" } vals := url.Values{} vals.Add("id", node.Id) uri := fmt.Sprintf("%s://%s%s?%s", scheme, node.Address, DefaultSubPath, vals.Encode()) r, err := h.c.Post(uri, "application/json", bytes.NewReader(b)) if err != nil { return err } // discard response body io.Copy(ioutil.Discard, r.Body) r.Body.Close() return nil } srv := func(s []*registry.Service, b []byte) { for _, service := range s { // only process if we have nodes if len(service.Nodes) == 0 { continue } var nodes []*registry.Node for _, node := range service.Nodes { // only use nodes tagged with broker http if node.Metadata["broker"] != "http" { continue } // look for nodes for the topic if node.Metadata["topic"] != topic { continue } nodes = append(nodes, node) } switch service.Version { // broadcast version means broadcast to all nodes case broadcastVersion: var success bool // publish to all nodes for _, node := range nodes { // publish async if err := pub(node, topic, b); err == nil { success = true } } // save if it failed to publish at least once if !success { h.saveMessage(topic, b) } default: // select node to publish to node := nodes[rand.Int()%len(nodes)] // publish async to one node if err := pub(node, topic, b); err != nil { // if failed save it h.saveMessage(topic, b) } } } } // do the rest async go func() { // get a third of the backlog messages := h.getMessage(topic, 8) delay := (len(messages) > 1) // publish all the messages for _, msg := range messages { // serialize here srv(s, msg) // sending a backlog of messages if delay { time.Sleep(time.Millisecond * 100) } } }() return nil } func (h *httpBroker) Subscribe(topic string, handler Handler, opts ...SubscribeOption) (Subscriber, error) { var err error var host, port string options := NewSubscribeOptions(opts...) // parse address for host, port host, port, err = net.SplitHostPort(h.Address()) if err != nil { return nil, err } addr, err := maddr.Extract(host) if err != nil { return nil, err } // create unique id id := h.id + "." + uuid.New().String() var secure bool if h.opts.Secure || h.opts.TLSConfig != nil { secure = true } // register service node := ®istry.Node{ Id: id, Address: mnet.HostPort(addr, port), Metadata: map[string]string{ "secure": fmt.Sprintf("%t", secure), "broker": "http", "topic": topic, }, } // check for queue group or broadcast queue version := options.Queue if len(version) == 0 { version = broadcastVersion } service := ®istry.Service{ Name: topic, Version: version, Nodes: []*registry.Node{node}, } // generate subscriber subscriber := &httpSubscriber{ opts: options, hb: h, id: id, topic: topic, fn: handler, svc: service, } // subscribe now if err := h.subscribe(subscriber); err != nil { return nil, err } // return the subscriber return subscriber, nil } func (h *httpBroker) String() string { return "http" }