/* Server represents a server instance in go-micro which handles synchronous requests via handlers and asynchronous requests via subscribers that register with a broker. The server combines the all the packages in go-micro to create a whole unit used for building applications including discovery, client/server communication and pub/sub. import "github.com/micro/go-micro/server" type Greeter struct {} func (g *Greeter) Hello(ctx context.Context, req *greeter.Request, rsp *greeter.Response) error { rsp.Msg = "Hello " + req.Name return nil } s := server.NewServer() s.Handle( s.NewHandler(&Greeter{}), ) s.Start() */ package server import ( "os" "os/signal" "syscall" log "github.com/golang/glog" "github.com/pborman/uuid" ) type Server interface { Config() options Init(...Option) Handle(Handler) error NewHandler(interface{}) Handler NewSubscriber(string, interface{}) Subscriber Subscribe(Subscriber) error Register() error Deregister() error Start() error Stop() error } type Publication interface { Topic() string Message() interface{} ContentType() string } type Request interface { Service() string Method() string ContentType() string Request() interface{} // indicates whether the response should be streaming Stream() bool } type Option func(*options) var ( DefaultAddress = ":0" DefaultName = "go-server" DefaultVersion = "1.0.0" DefaultId = uuid.NewUUID().String() DefaultServer Server = newRpcServer() ) // Returns config options for the default service func Config() options { return DefaultServer.Config() } // Initialises the default server with options passed in func Init(opt ...Option) { if DefaultServer == nil { DefaultServer = newRpcServer(opt...) } DefaultServer.Init(opt...) } // Returns a new server with options passed in func NewServer(opt ...Option) Server { return newRpcServer(opt...) } // Creates a new subscriber interface with the given topic // and handler using the default server func NewSubscriber(topic string, h interface{}) Subscriber { return DefaultServer.NewSubscriber(topic, h) } // Creates a new handler interface using the default server // Handlers are required to be a public object with public // methods. Call to a service method such as Foo.Bar expects // the type: // // type Foo struct {} // func (f *Foo) Bar(ctx, req, rsp) error { // return nil // } // func NewHandler(h interface{}) Handler { return DefaultServer.NewHandler(h) } // Registers a handler interface with the default server to // handle inbound requests func Handle(h Handler) error { return DefaultServer.Handle(h) } // Registers a subscriber interface with the default server // which subscribes to specified topic with the broker func Subscribe(s Subscriber) error { return DefaultServer.Subscribe(s) } // Registers the default server with the discovery system func Register() error { return DefaultServer.Register() } // Deregisters the default server from the discovery system func Deregister() error { return DefaultServer.Deregister() } // Blocking run starts the default server and waits for a kill // signal before exiting. Also registers/deregisters the server func Run() error { if err := Start(); err != nil { return err } if err := DefaultServer.Register(); err != nil { return err } ch := make(chan os.Signal, 1) signal.Notify(ch, syscall.SIGTERM, syscall.SIGINT, syscall.SIGKILL) log.Infof("Received signal %s", <-ch) if err := DefaultServer.Deregister(); err != nil { return err } return Stop() } // Starts the default server func Start() error { config := DefaultServer.Config() log.Infof("Starting server %s id %s", config.Name(), config.Id()) return DefaultServer.Start() } // Stops the default server func Stop() error { log.Infof("Stopping server") return DefaultServer.Stop() }