package restful // Copyright 2013 Ernest Micklei. All rights reserved. // Use of this source code is governed by a license // that can be found in the LICENSE file. import ( "fmt" "os" "reflect" "runtime" "strings" "sync/atomic" "github.com/emicklei/go-restful/log" ) // RouteBuilder is a helper to construct Routes. type RouteBuilder struct { rootPath string currentPath string produces []string consumes []string httpMethod string // required function RouteFunction // required filters []FilterFunction conditions []RouteSelectionConditionFunction typeNameHandleFunc TypeNameHandleFunction // required // documentation doc string notes string operation string readSample, writeSample interface{} parameters []*Parameter errorMap map[int]ResponseError metadata map[string]interface{} } // Do evaluates each argument with the RouteBuilder itself. // This allows you to follow DRY principles without breaking the fluent programming style. // Example: // ws.Route(ws.DELETE("/{name}").To(t.deletePerson).Do(Returns200, Returns500)) // // func Returns500(b *RouteBuilder) { // b.Returns(500, "Internal Server Error", restful.ServiceError{}) // } func (b *RouteBuilder) Do(oneArgBlocks ...func(*RouteBuilder)) *RouteBuilder { for _, each := range oneArgBlocks { each(b) } return b } // To bind the route to a function. // If this route is matched with the incoming Http Request then call this function with the *Request,*Response pair. Required. func (b *RouteBuilder) To(function RouteFunction) *RouteBuilder { b.function = function return b } // Method specifies what HTTP method to match. Required. func (b *RouteBuilder) Method(method string) *RouteBuilder { b.httpMethod = method return b } // Produces specifies what MIME types can be produced ; the matched one will appear in the Content-Type Http header. func (b *RouteBuilder) Produces(mimeTypes ...string) *RouteBuilder { b.produces = mimeTypes return b } // Consumes specifies what MIME types can be consumes ; the Accept Http header must matched any of these func (b *RouteBuilder) Consumes(mimeTypes ...string) *RouteBuilder { b.consumes = mimeTypes return b } // Path specifies the relative (w.r.t WebService root path) URL path to match. Default is "/". func (b *RouteBuilder) Path(subPath string) *RouteBuilder { b.currentPath = subPath return b } // Doc tells what this route is all about. Optional. func (b *RouteBuilder) Doc(documentation string) *RouteBuilder { b.doc = documentation return b } // Notes is a verbose explanation of the operation behavior. Optional. func (b *RouteBuilder) Notes(notes string) *RouteBuilder { b.notes = notes return b } // Reads tells what resource type will be read from the request payload. Optional. // A parameter of type "body" is added ,required is set to true and the dataType is set to the qualified name of the sample's type. func (b *RouteBuilder) Reads(sample interface{}) *RouteBuilder { fn := b.typeNameHandleFunc if fn == nil { fn = reflectTypeName } typeAsName := fn(sample) b.readSample = sample bodyParameter := &Parameter{&ParameterData{Name: "body"}} bodyParameter.beBody() bodyParameter.Required(true) bodyParameter.DataType(typeAsName) b.Param(bodyParameter) return b } // ParameterNamed returns a Parameter already known to the RouteBuilder. Returns nil if not. // Use this to modify or extend information for the Parameter (through its Data()). func (b RouteBuilder) ParameterNamed(name string) (p *Parameter) { for _, each := range b.parameters { if each.Data().Name == name { return each } } return p } // Writes tells what resource type will be written as the response payload. Optional. func (b *RouteBuilder) Writes(sample interface{}) *RouteBuilder { b.writeSample = sample return b } // Param allows you to document the parameters of the Route. It adds a new Parameter (does not check for duplicates). func (b *RouteBuilder) Param(parameter *Parameter) *RouteBuilder { if b.parameters == nil { b.parameters = []*Parameter{} } b.parameters = append(b.parameters, parameter) return b } // Operation allows you to document what the actual method/function call is of the Route. // Unless called, the operation name is derived from the RouteFunction set using To(..). func (b *RouteBuilder) Operation(name string) *RouteBuilder { b.operation = name return b } // ReturnsError is deprecated, use Returns instead. func (b *RouteBuilder) ReturnsError(code int, message string, model interface{}) *RouteBuilder { log.Print("ReturnsError is deprecated, use Returns instead.") return b.Returns(code, message, model) } // Returns allows you to document what responses (errors or regular) can be expected. // The model parameter is optional ; either pass a struct instance or use nil if not applicable. func (b *RouteBuilder) Returns(code int, message string, model interface{}) *RouteBuilder { err := ResponseError{ Code: code, Message: message, Model: model, IsDefault: false, } // lazy init because there is no NewRouteBuilder (yet) if b.errorMap == nil { b.errorMap = map[int]ResponseError{} } b.errorMap[code] = err return b } // DefaultReturns is a special Returns call that sets the default of the response ; the code is zero. func (b *RouteBuilder) DefaultReturns(message string, model interface{}) *RouteBuilder { b.Returns(0, message, model) // Modify the ResponseError just added/updated re := b.errorMap[0] // errorMap is initialized b.errorMap[0] = ResponseError{ Code: re.Code, Message: re.Message, Model: re.Model, IsDefault: true, } return b } // Metadata adds or updates a key=value pair to the metadata map. func (b *RouteBuilder) Metadata(key string, value interface{}) *RouteBuilder { if b.metadata == nil { b.metadata = map[string]interface{}{} } b.metadata[key] = value return b } // ResponseError represents a response; not necessarily an error. type ResponseError struct { Code int Message string Model interface{} IsDefault bool } func (b *RouteBuilder) servicePath(path string) *RouteBuilder { b.rootPath = path return b } // Filter appends a FilterFunction to the end of filters for this Route to build. func (b *RouteBuilder) Filter(filter FilterFunction) *RouteBuilder { b.filters = append(b.filters, filter) return b } // If sets a condition function that controls matching the Route based on custom logic. // The condition function is provided the HTTP request and should return true if the route // should be considered. // // Efficiency note: the condition function is called before checking the method, produces, and // consumes criteria, so that the correct HTTP status code can be returned. // // Lifecycle note: no filter functions have been called prior to calling the condition function, // so the condition function should not depend on any context that might be set up by container // or route filters. func (b *RouteBuilder) If(condition RouteSelectionConditionFunction) *RouteBuilder { b.conditions = append(b.conditions, condition) return b } // If no specific Route path then set to rootPath // If no specific Produces then set to rootProduces // If no specific Consumes then set to rootConsumes func (b *RouteBuilder) copyDefaults(rootProduces, rootConsumes []string) { if len(b.produces) == 0 { b.produces = rootProduces } if len(b.consumes) == 0 { b.consumes = rootConsumes } } // typeNameHandler sets the function that will convert types to strings in the parameter // and model definitions. func (b *RouteBuilder) typeNameHandler(handler TypeNameHandleFunction) *RouteBuilder { b.typeNameHandleFunc = handler return b } // Build creates a new Route using the specification details collected by the RouteBuilder func (b *RouteBuilder) Build() Route { pathExpr, err := newPathExpression(b.currentPath) if err != nil { log.Printf("[restful] Invalid path:%s because:%v", b.currentPath, err) os.Exit(1) } if b.function == nil { log.Printf("[restful] No function specified for route:" + b.currentPath) os.Exit(1) } operationName := b.operation if len(operationName) == 0 && b.function != nil { // extract from definition operationName = nameOfFunction(b.function) } route := Route{ Method: b.httpMethod, Path: concatPath(b.rootPath, b.currentPath), Produces: b.produces, Consumes: b.consumes, Function: b.function, Filters: b.filters, If: b.conditions, relativePath: b.currentPath, pathExpr: pathExpr, Doc: b.doc, Notes: b.notes, Operation: operationName, ParameterDocs: b.parameters, ResponseErrors: b.errorMap, ReadSample: b.readSample, WriteSample: b.writeSample, Metadata: b.metadata} route.postBuild() return route } func concatPath(path1, path2 string) string { return strings.TrimRight(path1, "/") + "/" + strings.TrimLeft(path2, "/") } var anonymousFuncCount int32 // nameOfFunction returns the short name of the function f for documentation. // It uses a runtime feature for debugging ; its value may change for later Go versions. func nameOfFunction(f interface{}) string { fun := runtime.FuncForPC(reflect.ValueOf(f).Pointer()) tokenized := strings.Split(fun.Name(), ".") last := tokenized[len(tokenized)-1] last = strings.TrimSuffix(last, ")·fm") // < Go 1.5 last = strings.TrimSuffix(last, ")-fm") // Go 1.5 last = strings.TrimSuffix(last, "·fm") // < Go 1.5 last = strings.TrimSuffix(last, "-fm") // Go 1.5 if last == "func1" { // this could mean conflicts in API docs val := atomic.AddInt32(&anonymousFuncCount, 1) last = "func" + fmt.Sprintf("%d", val) atomic.StoreInt32(&anonymousFuncCount, val) } return last }