package service import ( "fmt" "reflect" "strings" "sync" "unicode" "unicode/utf8" ) var ( // Precompute the reflect.Type of error and http.Request typeOfError = reflect.TypeOf((*error)(nil)).Elem() ) // ---------------------------------------------------------------------------- // service // ---------------------------------------------------------------------------- type ServiceMeta struct { name string // name of service rcvrV reflect.Value // receiver of methods for the service rcvrT reflect.Type // type of the receiver methods map[string]*MethodMeta // registered methods } func (sm *ServiceMeta) ReceiverType() reflect.Type { return sm.rcvrT } func (sm *ServiceMeta) ReceiverValue() reflect.Value { return sm.rcvrV } type MethodMeta struct { method reflect.Method // receiver method paramTypes []reflect.Type // type of the request argument returnType reflect.Type // type of the response argument } func (mm *MethodMeta) Call(in []reflect.Value) []reflect.Value { return mm.method.Func.Call(in) } func (mm *MethodMeta) ReturnType() reflect.Type { return mm.returnType } func (mm *MethodMeta) ParamValues() (values []reflect.Value, instances []interface{}) { if nil == mm.paramTypes || 0 == len(mm.paramTypes) { return nil, nil } pCount := len(mm.paramTypes) values = make([]reflect.Value, pCount) instances = make([]interface{}, pCount) for indexI := 0; indexI < pCount; indexI++ { values[indexI] = getValue(mm.paramTypes[indexI]) instances[indexI] = values[indexI].Interface() } return } func getValue(t reflect.Type) reflect.Value { rt := t if rt.Kind() == reflect.Ptr { rt = rt.Elem() } // rv := reflect.New(rt) // if rt.Kind() != reflect.Struct { // rv = reflect.Indirect(rv) // } // var rv reflect.Value // switch rt.Kind() { // case reflect.Slice: // rv = reflect.New(reflect.SliceOf(rt.Elem())) // default: // rv = reflect.New(rt) // } return reflect.New(rt) } // ---------------------------------------------------------------------------- // ServiceRegistry // ---------------------------------------------------------------------------- // ServiceRegistry is a registry for services. type ServiceRegistry struct { mutex sync.RWMutex services map[string]*ServiceMeta } func (sm *ServiceRegistry) GetService(name string) interface{} { sm.mutex.RLock() defer sm.mutex.RUnlock() if sm.services == nil { return nil } return sm.services[name] } // register adds a new service using reflection to extract its methods. func (sm *ServiceRegistry) Register(rcvr interface{}, name string) error { // Setup service. s := &ServiceMeta{ name: name, rcvrV: reflect.ValueOf(rcvr), rcvrT: reflect.TypeOf(rcvr), methods: make(map[string]*MethodMeta), } if name == "" { s.name = reflect.Indirect(s.rcvrV).Type().Name() if !isExported(s.name) { return fmt.Errorf("ServiceRegistry: type %q is not exported", s.name) } } if s.name == "" { return fmt.Errorf("ServiceRegistry: no service name for type %q", s.rcvrT.String()) } var err error // Setup methods. Loop: for i := 0; i < s.rcvrT.NumMethod(); i++ { m := s.rcvrT.Method(i) mt := m.Type // Method must be exported. if m.PkgPath != "" { continue } var paramTypes []reflect.Type var returnType reflect.Type pCount := mt.NumIn() - 1 if 0 < pCount { paramTypes = make([]reflect.Type, pCount) for indexI := 0; indexI < pCount; indexI++ { pt := mt.In(indexI + 1) if err = validateType(mt.In(indexI + 1)); nil != err { return err } paramTypes[indexI] = pt } } switch mt.NumOut() { case 1: if t := mt.Out(0); t != typeOfError { continue Loop } case 2: if t := mt.Out(0); !isExportedOrBuiltin(t) { continue Loop } if t := mt.Out(1); t != typeOfError { continue Loop } rt := mt.Out(0) if err = validateType(rt); nil != err { return err } returnType = rt default: continue } s.methods[m.Name] = &MethodMeta{ method: m, paramTypes: paramTypes, returnType: returnType, } } if len(s.methods) == 0 { return fmt.Errorf("ServiceRegistry: %q has no exported methods of suitable type", s.name) } // Add to the map. sm.mutex.Lock() defer sm.mutex.Unlock() if sm.services == nil { sm.services = make(map[string]*ServiceMeta) } else if _, ok := sm.services[s.name]; ok { return fmt.Errorf("ServiceRegistry: service already defined: %q", s.name) } sm.services[s.name] = s return nil } func validateType(t reflect.Type) error { if t.Kind() == reflect.Struct { return fmt.Errorf("Type is Struct. Pass by reference, i.e. *%s", t) } return nil } // get returns a registered service given a method name. // // The method name uses a dotted notation as in "Service.Method". func (sm *ServiceRegistry) Get(method string) (*ServiceMeta, *MethodMeta, error) { parts := strings.Split(method, ".") if len(parts) != 2 { err := fmt.Errorf("ServiceRegistry: service/method request ill-formed: %q", method) return nil, nil, err } sm.mutex.Lock() service := sm.services[parts[0]] sm.mutex.Unlock() if service == nil { err := fmt.Errorf("ServiceRegistry: can't find service %q", method) return nil, nil, err } MethodMeta := service.methods[parts[1]] if MethodMeta == nil { err := fmt.Errorf("ServiceRegistry: can't find method %q", method) return nil, nil, err } return service, MethodMeta, nil } // isExported returns true of a string is an exported (upper case) name. func isExported(name string) bool { rune, _ := utf8.DecodeRuneInString(name) return unicode.IsUpper(rune) } // isExportedOrBuiltin returns true if a type is exported or a builtin. func isExportedOrBuiltin(t reflect.Type) bool { for t.Kind() == reflect.Ptr { t = t.Elem() } // PkgPath will be non-empty even for an exported type, // so we need to check the type name as well. return isExported(t.Name()) || t.PkgPath() == "" }