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 ( "bytes" "net/http" "strings" ) // RouteFunction declares the signature of a function that can be bound to a Route. type RouteFunction func(*Request, *Response) // RouteSelectionConditionFunction declares the signature of a function that // can be used to add extra conditional logic when selecting whether the route // matches the HTTP request. type RouteSelectionConditionFunction func(httpRequest *http.Request) bool // Route binds a HTTP Method,Path,Consumes combination to a RouteFunction. type Route struct { Method string Produces []string Consumes []string Path string // webservice root path + described path Function RouteFunction Filters []FilterFunction If []RouteSelectionConditionFunction // cached values for dispatching relativePath string pathParts []string pathExpr *pathExpression // cached compilation of relativePath as RegExp // documentation Doc string Notes string Operation string ParameterDocs []*Parameter ResponseErrors map[int]ResponseError ReadSample, WriteSample interface{} // structs that model an example request or response payload // Extra information used to store custom information about the route. Metadata map[string]interface{} // marks a route as deprecated Deprecated bool } // Initialize for Route func (r *Route) postBuild() { r.pathParts = tokenizePath(r.Path) } // Create Request and Response from their http versions func (r *Route) wrapRequestResponse(httpWriter http.ResponseWriter, httpRequest *http.Request) (*Request, *Response) { params := r.extractParameters(httpRequest.URL.Path) wrappedRequest := NewRequest(httpRequest) wrappedRequest.pathParameters = params wrappedRequest.selectedRoutePath = r.Path wrappedResponse := NewResponse(httpWriter) wrappedResponse.requestAccept = httpRequest.Header.Get(HEADER_Accept) wrappedResponse.routeProduces = r.Produces return wrappedRequest, wrappedResponse } // dispatchWithFilters call the function after passing through its own filters func (r *Route) dispatchWithFilters(wrappedRequest *Request, wrappedResponse *Response) { if len(r.Filters) > 0 { chain := FilterChain{Filters: r.Filters, Target: r.Function} chain.ProcessFilter(wrappedRequest, wrappedResponse) } else { // unfiltered r.Function(wrappedRequest, wrappedResponse) } } // Return whether the mimeType matches to what this Route can produce. func (r Route) matchesAccept(mimeTypesWithQuality string) bool { parts := strings.Split(mimeTypesWithQuality, ",") for _, each := range parts { var withoutQuality string if strings.Contains(each, ";") { withoutQuality = strings.Split(each, ";")[0] } else { withoutQuality = each } // trim before compare withoutQuality = strings.Trim(withoutQuality, " ") if withoutQuality == "*/*" { return true } for _, producibleType := range r.Produces { if producibleType == "*/*" || producibleType == withoutQuality { return true } } } return false } // Return whether this Route can consume content with a type specified by mimeTypes (can be empty). func (r Route) matchesContentType(mimeTypes string) bool { if len(r.Consumes) == 0 { // did not specify what it can consume ; any media type (“*/*”) is assumed return true } if len(mimeTypes) == 0 { // idempotent methods with (most-likely or guaranteed) empty content match missing Content-Type m := r.Method if m == "GET" || m == "HEAD" || m == "OPTIONS" || m == "DELETE" || m == "TRACE" { return true } // proceed with default mimeTypes = MIME_OCTET } parts := strings.Split(mimeTypes, ",") for _, each := range parts { var contentType string if strings.Contains(each, ";") { contentType = strings.Split(each, ";")[0] } else { contentType = each } // trim before compare contentType = strings.Trim(contentType, " ") for _, consumeableType := range r.Consumes { if consumeableType == "*/*" || consumeableType == contentType { return true } } } return false } // Extract the parameters from the request url path func (r Route) extractParameters(urlPath string) map[string]string { urlParts := tokenizePath(urlPath) pathParameters := map[string]string{} for i, key := range r.pathParts { var value string if i >= len(urlParts) { value = "" } else { value = urlParts[i] } if strings.HasPrefix(key, "{") { // path-parameter if colon := strings.Index(key, ":"); colon != -1 { // extract by regex regPart := key[colon+1 : len(key)-1] keyPart := key[1:colon] if regPart == "*" { pathParameters[keyPart] = untokenizePath(i, urlParts) break } else { pathParameters[keyPart] = value } } else { // without enclosing {} pathParameters[key[1:len(key)-1]] = value } } } return pathParameters } // Untokenize back into an URL path using the slash separator func untokenizePath(offset int, parts []string) string { var buffer bytes.Buffer for p := offset; p < len(parts); p++ { buffer.WriteString(parts[p]) // do not end if p < len(parts)-1 { buffer.WriteString("/") } } return buffer.String() } // Tokenize an URL path using the slash separator ; the result does not have empty tokens func tokenizePath(path string) []string { if "/" == path { return []string{} } return strings.Split(strings.Trim(path, "/"), "/") } // for debugging func (r Route) String() string { return r.Method + " " + r.Path }