package server import ( "context" "fmt" "net" "runtime/debug" "sort" "strconv" "strings" "sync" "time" "github.com/micro/go-micro/broker" "github.com/micro/go-micro/codec" "github.com/micro/go-micro/metadata" "github.com/micro/go-micro/registry" "github.com/micro/go-micro/transport" "github.com/micro/go-micro/util/addr" log "github.com/micro/go-micro/util/log" mnet "github.com/micro/go-micro/util/net" ) type rpcServer struct { router *router exit chan chan error sync.RWMutex opts Options handlers map[string]Handler subscribers map[*subscriber][]broker.Subscriber // used for first registration registered bool // graceful exit wg *sync.WaitGroup } func newRpcServer(opts ...Option) Server { options := newOptions(opts...) router := newRpcRouter() router.hdlrWrappers = options.HdlrWrappers return &rpcServer{ opts: options, router: router, handlers: make(map[string]Handler), subscribers: make(map[*subscriber][]broker.Subscriber), exit: make(chan chan error), wg: wait(options.Context), } } type rpcRouter struct { h func(context.Context, Request, interface{}) error } func (r rpcRouter) ServeRequest(ctx context.Context, req Request, rsp Response) error { return r.h(ctx, req, rsp) } // ServeConn serves a single connection func (s *rpcServer) ServeConn(sock transport.Socket) { defer func() { // close socket sock.Close() if r := recover(); r != nil { log.Log("panic recovered: ", r) log.Log(string(debug.Stack())) } }() for { var msg transport.Message if err := sock.Recv(&msg); err != nil { return } // add to wait group if "wait" is opt-in if s.wg != nil { s.wg.Add(1) } // we use this Timeout header to set a server deadline to := msg.Header["Timeout"] // we use this Content-Type header to identify the codec needed ct := msg.Header["Content-Type"] // strip our headers hdr := make(map[string]string) for k, v := range msg.Header { hdr[k] = v } // set local/remote ips hdr["Local"] = sock.Local() hdr["Remote"] = sock.Remote() // create new context ctx := metadata.NewContext(context.Background(), hdr) // set the timeout if we have it if len(to) > 0 { if n, err := strconv.ParseUint(to, 10, 64); err == nil { ctx, _ = context.WithTimeout(ctx, time.Duration(n)) } } // no content type if len(ct) == 0 { msg.Header["Content-Type"] = DefaultContentType ct = DefaultContentType } // setup old protocol cf := setupProtocol(&msg) // no old codec if cf == nil { // TODO: needs better error handling var err error if cf, err = s.newCodec(ct); err != nil { sock.Send(&transport.Message{ Header: map[string]string{ "Content-Type": "text/plain", }, Body: []byte(err.Error()), }) if s.wg != nil { s.wg.Done() } return } } rcodec := newRpcCodec(&msg, sock, cf) // internal request request := &rpcRequest{ service: getHeader("Micro-Service", msg.Header), method: getHeader("Micro-Method", msg.Header), endpoint: getHeader("Micro-Endpoint", msg.Header), contentType: ct, codec: rcodec, header: msg.Header, body: msg.Body, socket: sock, stream: true, first: true, } // internal response response := &rpcResponse{ header: make(map[string]string), socket: sock, codec: rcodec, } // set router r := Router(s.router) // if not nil use the router specified if s.opts.Router != nil { // create a wrapped function handler := func(ctx context.Context, req Request, rsp interface{}) error { return s.opts.Router.ServeRequest(ctx, req, rsp.(Response)) } // execute the wrapper for it for i := len(s.opts.HdlrWrappers); i > 0; i-- { handler = s.opts.HdlrWrappers[i-1](handler) } // set the router r = rpcRouter{handler} } // serve the actual request using the request router if err := r.ServeRequest(ctx, request, response); err != nil { // write an error response err = rcodec.Write(&codec.Message{ Header: msg.Header, Error: err.Error(), Type: codec.Error, }, nil) // could not write the error response if err != nil { log.Logf("rpc: unable to write error response: %v", err) } if s.wg != nil { s.wg.Done() } return } // done if s.wg != nil { s.wg.Done() } } } func (s *rpcServer) newCodec(contentType string) (codec.NewCodec, error) { if cf, ok := s.opts.Codecs[contentType]; ok { return cf, nil } if cf, ok := DefaultCodecs[contentType]; ok { return cf, nil } return nil, fmt.Errorf("Unsupported Content-Type: %s", contentType) } func (s *rpcServer) Options() Options { s.RLock() opts := s.opts s.RUnlock() return opts } func (s *rpcServer) Init(opts ...Option) error { s.Lock() for _, opt := range opts { opt(&s.opts) } // update router if its the default if s.opts.Router == nil { r := newRpcRouter() r.hdlrWrappers = s.opts.HdlrWrappers r.serviceMap = s.router.serviceMap s.router = r } s.Unlock() return nil } func (s *rpcServer) NewHandler(h interface{}, opts ...HandlerOption) Handler { return s.router.NewHandler(h, opts...) } func (s *rpcServer) Handle(h Handler) error { s.Lock() defer s.Unlock() if err := s.router.Handle(h); err != nil { return err } s.handlers[h.Name()] = h return nil } func (s *rpcServer) NewSubscriber(topic string, sb interface{}, opts ...SubscriberOption) Subscriber { return newSubscriber(topic, sb, opts...) } func (s *rpcServer) Subscribe(sb Subscriber) error { sub, ok := sb.(*subscriber) if !ok { return fmt.Errorf("invalid subscriber: expected *subscriber") } if len(sub.handlers) == 0 { return fmt.Errorf("invalid subscriber: no handler functions") } if err := validateSubscriber(sb); err != nil { return err } s.Lock() defer s.Unlock() _, ok = s.subscribers[sub] if ok { return fmt.Errorf("subscriber %v already exists", s) } s.subscribers[sub] = nil return nil } func (s *rpcServer) Register() error { var err error var advt, host, port string // parse address for host, port config := s.Options() // check the advertise address first // if it exists then use it, otherwise // use the address if len(config.Advertise) > 0 { advt = config.Advertise } else { advt = config.Address } if cnt := strings.Count(advt, ":"); cnt >= 1 { // ipv6 address in format [host]:port or ipv4 host:port host, port, err = net.SplitHostPort(advt) if err != nil { return err } } else { host = advt } addr, err := addr.Extract(host) if err != nil { return err } // make copy of metadata md := make(metadata.Metadata) for k, v := range config.Metadata { md[k] = v } // mq-rpc(eg. nats) doesn't need the port. its addr is queue name. if port != "" { addr = mnet.HostPort(addr, port) } // register service node := ®istry.Node{ Id: config.Name + "-" + config.Id, Address: addr, Metadata: md, } node.Metadata["transport"] = config.Transport.String() node.Metadata["broker"] = config.Broker.String() node.Metadata["server"] = s.String() node.Metadata["registry"] = config.Registry.String() node.Metadata["protocol"] = "mucp" s.RLock() // Maps are ordered randomly, sort the keys for consistency var handlerList []string for n, e := range s.handlers { // Only advertise non internal handlers if !e.Options().Internal { handlerList = append(handlerList, n) } } sort.Strings(handlerList) var subscriberList []*subscriber for e := range s.subscribers { // Only advertise non internal subscribers if !e.Options().Internal { subscriberList = append(subscriberList, e) } } sort.Slice(subscriberList, func(i, j int) bool { return subscriberList[i].topic > subscriberList[j].topic }) var endpoints []*registry.Endpoint for _, n := range handlerList { endpoints = append(endpoints, s.handlers[n].Endpoints()...) } for _, e := range subscriberList { endpoints = append(endpoints, e.Endpoints()...) } s.RUnlock() service := ®istry.Service{ Name: config.Name, Version: config.Version, Nodes: []*registry.Node{node}, Endpoints: endpoints, } s.Lock() registered := s.registered s.Unlock() if !registered { log.Logf("Registry [%s] Registering node: %s", config.Registry.String(), node.Id) } // create registry options rOpts := []registry.RegisterOption{registry.RegisterTTL(config.RegisterTTL)} if err := config.Registry.Register(service, rOpts...); err != nil { return err } // already registered? don't need to register subscribers if registered { return nil } s.Lock() defer s.Unlock() s.registered = true for sb, _ := range s.subscribers { handler := s.createSubHandler(sb, s.opts) var opts []broker.SubscribeOption if queue := sb.Options().Queue; len(queue) > 0 { opts = append(opts, broker.Queue(queue)) } if cx := sb.Options().Context; cx != nil { opts = append(opts, broker.SubscribeContext(cx)) } if !sb.Options().AutoAck { opts = append(opts, broker.DisableAutoAck()) } sub, err := config.Broker.Subscribe(sb.Topic(), handler, opts...) if err != nil { return err } log.Logf("Subscribing %s to topic: %s", node.Id, sub.Topic()) s.subscribers[sb] = []broker.Subscriber{sub} } return nil } func (s *rpcServer) Deregister() error { var err error var advt, host, port string config := s.Options() // check the advertise address first // if it exists then use it, otherwise // use the address if len(config.Advertise) > 0 { advt = config.Advertise } else { advt = config.Address } if cnt := strings.Count(advt, ":"); cnt >= 1 { // ipv6 address in format [host]:port or ipv4 host:port host, port, err = net.SplitHostPort(advt) if err != nil { return err } } else { host = advt } addr, err := addr.Extract(host) if err != nil { return err } // mq-rpc(eg. nats) doesn't need the port. its addr is queue name. if port != "" { addr = mnet.HostPort(addr, port) } node := ®istry.Node{ Id: config.Name + "-" + config.Id, Address: addr, } service := ®istry.Service{ Name: config.Name, Version: config.Version, Nodes: []*registry.Node{node}, } log.Logf("Registry [%s] Deregistering node: %s", config.Registry.String(), node.Id) if err := config.Registry.Deregister(service); err != nil { return err } s.Lock() if !s.registered { s.Unlock() return nil } s.registered = false for sb, subs := range s.subscribers { for _, sub := range subs { log.Logf("Unsubscribing %s from topic: %s", node.Id, sub.Topic()) sub.Unsubscribe() } s.subscribers[sb] = nil } s.Unlock() return nil } func (s *rpcServer) Start() error { config := s.Options() // start listening on the transport ts, err := config.Transport.Listen(config.Address) if err != nil { return err } log.Logf("Transport [%s] Listening on %s", config.Transport.String(), ts.Addr()) // swap address s.Lock() addr := s.opts.Address s.opts.Address = ts.Addr() s.Unlock() // connect to the broker if err := config.Broker.Connect(); err != nil { return err } bname := config.Broker.String() log.Logf("Broker [%s] Connected to %s", bname, config.Broker.Address()) // use RegisterCheck func before register if err = s.opts.RegisterCheck(s.opts.Context); err != nil { log.Logf("Server %s-%s register check error: %s", config.Name, config.Id, err) } else { // announce self to the world if err = s.Register(); err != nil { log.Logf("Server %s-%s register error: %s", config.Name, config.Id, err) } } exit := make(chan bool) go func() { for { // listen for connections err := ts.Accept(s.ServeConn) // TODO: listen for messages // msg := broker.Exchange(service).Consume() select { // check if we're supposed to exit case <-exit: return // check the error and backoff default: if err != nil { log.Logf("Accept error: %v", err) time.Sleep(time.Second) continue } } // no error just exit return } }() go func() { t := new(time.Ticker) // only process if it exists if s.opts.RegisterInterval > time.Duration(0) { // new ticker t = time.NewTicker(s.opts.RegisterInterval) } // return error chan var ch chan error Loop: for { select { // register self on interval case <-t.C: s.RLock() registered := s.registered s.RUnlock() if err = s.opts.RegisterCheck(s.opts.Context); err != nil && registered { log.Logf("Server %s-%s register check error: %s, deregister it", config.Name, config.Id, err) // deregister self in case of error if err := s.Deregister(); err != nil { log.Logf("Server %s-%s deregister error: %s", config.Name, config.Id, err) } } else { if err := s.Register(); err != nil { log.Logf("Server %s-%s register error: %s", config.Name, config.Id, err) } } // wait for exit case ch = <-s.exit: t.Stop() close(exit) break Loop } } // deregister self if err := s.Deregister(); err != nil { log.Logf("Server %s-%s deregister error: %s", config.Name, config.Id, err) } // wait for requests to finish if s.wg != nil { s.wg.Wait() } // close transport listener ch <- ts.Close() // disconnect the broker config.Broker.Disconnect() // swap back address s.Lock() s.opts.Address = addr s.Unlock() }() return nil } func (s *rpcServer) Stop() error { ch := make(chan error) s.exit <- ch return <-ch } func (s *rpcServer) String() string { return "mucp" }