/* Copyright 2015 Google Inc. All rights reserved. Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. */ package apiserver import ( "fmt" "net/http" "net/url" gpath "path" "reflect" "sort" "strings" "github.com/GoogleCloudPlatform/kubernetes/pkg/api" "github.com/GoogleCloudPlatform/kubernetes/pkg/api/errors" "github.com/GoogleCloudPlatform/kubernetes/pkg/api/meta" "github.com/GoogleCloudPlatform/kubernetes/pkg/api/rest" "github.com/GoogleCloudPlatform/kubernetes/pkg/conversion" "github.com/GoogleCloudPlatform/kubernetes/pkg/runtime" watchjson "github.com/GoogleCloudPlatform/kubernetes/pkg/watch/json" "github.com/emicklei/go-restful" ) type APIInstaller struct { group *APIGroupVersion info *APIRequestInfoResolver prefix string // Path prefix where API resources are to be registered. } // Struct capturing information about an action ("GET", "POST", "WATCH", PROXY", etc). type action struct { Verb string // Verb identifying the action ("GET", "POST", "WATCH", PROXY", etc). Path string // The path of the action Params []*restful.Parameter // List of parameters associated with the action. Namer ScopeNamer } // errEmptyName is returned when API requests do not fill the name section of the path. var errEmptyName = errors.NewBadRequest("name must be provided") // Installs handlers for API resources. func (a *APIInstaller) Install() (ws *restful.WebService, errors []error) { errors = make([]error, 0) // Create the WebService. ws = a.newWebService() redirectHandler := (&RedirectHandler{a.group.Storage, a.group.Codec, a.group.Context, a.info}) proxyHandler := (&ProxyHandler{a.prefix + "/proxy/", a.group.Storage, a.group.Codec, a.group.Context, a.info}) // Register the paths in a deterministic (sorted) order to get a deterministic swagger spec. paths := make([]string, len(a.group.Storage)) var i int = 0 for path := range a.group.Storage { paths[i] = path i++ } sort.Strings(paths) for _, path := range paths { if err := a.registerResourceHandlers(path, a.group.Storage[path], ws, redirectHandler, proxyHandler); err != nil { errors = append(errors, err) } } return ws, errors } func (a *APIInstaller) newWebService() *restful.WebService { ws := new(restful.WebService) ws.Path(a.prefix) ws.Doc("API at " + a.prefix + " version " + a.group.Version) // TODO: change to restful.MIME_JSON when we set content type in client ws.Consumes("*/*") ws.Produces(restful.MIME_JSON) ws.ApiVersion(a.group.Version) return ws } func (a *APIInstaller) registerResourceHandlers(path string, storage rest.Storage, ws *restful.WebService, redirectHandler, proxyHandler http.Handler) error { admit := a.group.Admit context := a.group.Context serverVersion := a.group.ServerVersion if len(serverVersion) == 0 { serverVersion = a.group.Version } var resource, subresource string switch parts := strings.Split(path, "/"); len(parts) { case 2: resource, subresource = parts[0], parts[1] case 1: resource = parts[0] default: // TODO: support deeper paths return fmt.Errorf("api_installer allows only one or two segment paths (resource or resource/subresource)") } object := storage.New() _, kind, err := a.group.Typer.ObjectVersionAndKind(object) if err != nil { return err } versionedPtr, err := a.group.Creater.New(a.group.Version, kind) if err != nil { return err } versionedObject := indirectArbitraryPointer(versionedPtr) mapping, err := a.group.Mapper.RESTMapping(kind, a.group.Version) if err != nil { return err } // what verbs are supported by the storage, used to know what verbs we support per path creater, isCreater := storage.(rest.Creater) lister, isLister := storage.(rest.Lister) getter, isGetter := storage.(rest.Getter) getterWithOptions, isGetterWithOptions := storage.(rest.GetterWithOptions) deleter, isDeleter := storage.(rest.Deleter) gracefulDeleter, isGracefulDeleter := storage.(rest.GracefulDeleter) updater, isUpdater := storage.(rest.Updater) patcher, isPatcher := storage.(rest.Patcher) watcher, isWatcher := storage.(rest.Watcher) _, isRedirector := storage.(rest.Redirector) storageMeta, isMetadata := storage.(rest.StorageMetadata) if !isMetadata { storageMeta = defaultStorageMetadata{} } var versionedList interface{} if isLister { list := lister.NewList() _, listKind, err := a.group.Typer.ObjectVersionAndKind(list) versionedListPtr, err := a.group.Creater.New(a.group.Version, listKind) if err != nil { return err } versionedList = indirectArbitraryPointer(versionedListPtr) } versionedListOptions, err := a.group.Creater.New(serverVersion, "ListOptions") if err != nil { return err } var versionedDeleterObject interface{} switch { case isGracefulDeleter: objectPtr, err := a.group.Creater.New(serverVersion, "DeleteOptions") if err != nil { return err } versionedDeleterObject = indirectArbitraryPointer(objectPtr) isDeleter = true case isDeleter: gracefulDeleter = rest.GracefulDeleteAdapter{deleter} } versionedStatusPtr, err := a.group.Creater.New(serverVersion, "Status") if err != nil { return err } versionedStatus := indirectArbitraryPointer(versionedStatusPtr) var getOptions runtime.Object var getOptionsKind string if isGetterWithOptions { getOptions = getterWithOptions.NewGetOptions() _, getOptionsKind, err = a.group.Typer.ObjectVersionAndKind(getOptions) if err != nil { return err } isGetter = true } var ctxFn ContextFunc ctxFn = func(req *restful.Request) api.Context { if ctx, ok := context.Get(req.Request); ok { return ctx } return api.NewContext() } allowWatchList := isWatcher && isLister // watching on lists is allowed only for kinds that support both watch and list. scope := mapping.Scope nameParam := ws.PathParameter("name", "name of the "+kind).DataType("string") pathParam := ws.PathParameter("path:*", "path to the resource").DataType("string") params := []*restful.Parameter{} actions := []action{} // Get the list of actions for the given scope. if scope.Name() != meta.RESTScopeNameNamespace { resourcePath := resource itemPath := resourcePath + "/{name}" if len(subresource) > 0 { itemPath = itemPath + "/" + subresource resourcePath = itemPath } nameParams := append(params, nameParam) proxyParams := append(nameParams, pathParam) namer := rootScopeNaming{scope, a.group.Linker, gpath.Join(a.prefix, itemPath)} // Handler for standard REST verbs (GET, PUT, POST and DELETE). actions = appendIf(actions, action{"LIST", resourcePath, params, namer}, isLister) actions = appendIf(actions, action{"POST", resourcePath, params, namer}, isCreater) actions = appendIf(actions, action{"WATCHLIST", "watch/" + resourcePath, params, namer}, allowWatchList) actions = appendIf(actions, action{"GET", itemPath, nameParams, namer}, isGetter) actions = appendIf(actions, action{"PUT", itemPath, nameParams, namer}, isUpdater) actions = appendIf(actions, action{"PATCH", itemPath, nameParams, namer}, isPatcher) actions = appendIf(actions, action{"DELETE", itemPath, nameParams, namer}, isDeleter) actions = appendIf(actions, action{"WATCH", "watch/" + itemPath, nameParams, namer}, isWatcher) actions = appendIf(actions, action{"REDIRECT", "redirect/" + itemPath, nameParams, namer}, isRedirector) actions = appendIf(actions, action{"PROXY", "proxy/" + itemPath + "/{path:*}", proxyParams, namer}, isRedirector) actions = appendIf(actions, action{"PROXY", "proxy/" + itemPath, nameParams, namer}, isRedirector) } else { // v1beta3 format with namespace in path if scope.ParamPath() { // Handler for standard REST verbs (GET, PUT, POST and DELETE). namespaceParam := ws.PathParameter(scope.ParamName(), scope.ParamDescription()).DataType("string") namespacedPath := scope.ParamName() + "/{" + scope.ParamName() + "}/" + resource namespaceParams := []*restful.Parameter{namespaceParam} resourcePath := namespacedPath itemPath := namespacedPath + "/{name}" if len(subresource) > 0 { itemPath = itemPath + "/" + subresource resourcePath = itemPath } nameParams := append(namespaceParams, nameParam) proxyParams := append(nameParams, pathParam) namer := scopeNaming{scope, a.group.Linker, gpath.Join(a.prefix, itemPath), false} actions = appendIf(actions, action{"LIST", resourcePath, namespaceParams, namer}, isLister) // Some paths ("/pods/{name}/binding", I'm looking at you) contain an embedded '{name}') if strings.Contains(resourcePath, "{name}") { actions = appendIf(actions, action{"POST", resourcePath, nameParams, namer}, isCreater) } else { actions = appendIf(actions, action{"POST", resourcePath, namespaceParams, namer}, isCreater) } actions = appendIf(actions, action{"WATCHLIST", "watch/" + resourcePath, namespaceParams, namer}, allowWatchList) actions = appendIf(actions, action{"GET", itemPath, nameParams, namer}, isGetter) actions = appendIf(actions, action{"PUT", itemPath, nameParams, namer}, isUpdater) actions = appendIf(actions, action{"PATCH", itemPath, nameParams, namer}, isPatcher) actions = appendIf(actions, action{"DELETE", itemPath, nameParams, namer}, isDeleter) actions = appendIf(actions, action{"WATCH", "watch/" + itemPath, nameParams, namer}, isWatcher) actions = appendIf(actions, action{"REDIRECT", "redirect/" + itemPath, nameParams, namer}, isRedirector) actions = appendIf(actions, action{"PROXY", "proxy/" + itemPath + "/{path:*}", proxyParams, namer}, isRedirector) actions = appendIf(actions, action{"PROXY", "proxy/" + itemPath, nameParams, namer}, isRedirector) // list across namespace. namer = scopeNaming{scope, a.group.Linker, gpath.Join(a.prefix, itemPath), true} actions = appendIf(actions, action{"LIST", resource, params, namer}, isLister) actions = appendIf(actions, action{"WATCHLIST", "watch/" + resource, params, namer}, allowWatchList) } else { // Handler for standard REST verbs (GET, PUT, POST and DELETE). // v1beta1/v1beta2 format where namespace was a query parameter namespaceParam := ws.QueryParameter(scope.ParamName(), scope.ParamDescription()).DataType("string") namespaceParams := []*restful.Parameter{namespaceParam} basePath := resource resourcePath := basePath itemPath := resourcePath + "/{name}" if len(subresource) > 0 { itemPath = itemPath + "/" + subresource resourcePath = itemPath } nameParams := append(namespaceParams, nameParam) proxyParams := append(nameParams, pathParam) namer := legacyScopeNaming{scope, a.group.Linker, gpath.Join(a.prefix, itemPath)} actions = appendIf(actions, action{"LIST", resourcePath, namespaceParams, namer}, isLister) actions = appendIf(actions, action{"POST", resourcePath, namespaceParams, namer}, isCreater) actions = appendIf(actions, action{"WATCHLIST", "watch/" + resourcePath, namespaceParams, namer}, allowWatchList) actions = appendIf(actions, action{"GET", itemPath, nameParams, namer}, isGetter) actions = appendIf(actions, action{"PUT", itemPath, nameParams, namer}, isUpdater) actions = appendIf(actions, action{"PATCH", itemPath, nameParams, namer}, isPatcher) actions = appendIf(actions, action{"DELETE", itemPath, nameParams, namer}, isDeleter) actions = appendIf(actions, action{"WATCH", "watch/" + itemPath, nameParams, namer}, isWatcher) actions = appendIf(actions, action{"REDIRECT", "redirect/" + itemPath, nameParams, namer}, isRedirector) actions = appendIf(actions, action{"PROXY", "proxy/" + itemPath + "/{path:*}", proxyParams, namer}, isRedirector) actions = appendIf(actions, action{"PROXY", "proxy/" + itemPath, nameParams, namer}, isRedirector) } } // Create Routes for the actions. // TODO: Add status documentation using Returns() // Errors (see api/errors/errors.go as well as go-restful router): // http.StatusNotFound, http.StatusMethodNotAllowed, // http.StatusUnsupportedMediaType, http.StatusNotAcceptable, // http.StatusBadRequest, http.StatusUnauthorized, http.StatusForbidden, // http.StatusRequestTimeout, http.StatusConflict, http.StatusPreconditionFailed, // 422 (StatusUnprocessableEntity), http.StatusInternalServerError, // http.StatusServiceUnavailable // and api error codes // Note that if we specify a versioned Status object here, we may need to // create one for the tests, also // Success: // http.StatusOK, http.StatusCreated, http.StatusAccepted, http.StatusNoContent // // test/integration/auth_test.go is currently the most comprehensive status code test reqScope := RequestScope{ ContextFunc: ctxFn, Creater: a.group.Creater, Convertor: a.group.Convertor, Codec: mapping.Codec, APIVersion: a.group.Version, ServerAPIVersion: serverVersion, Resource: resource, Kind: kind, } for _, action := range actions { reqScope.Namer = action.Namer m := monitorFilter(action.Verb, resource) switch action.Verb { case "GET": // Get a resource. var handler restful.RouteFunction if isGetterWithOptions { handler = GetResourceWithOptions(getterWithOptions, reqScope, getOptionsKind) } else { handler = GetResource(getter, reqScope) } route := ws.GET(action.Path).To(handler). Filter(m). Doc("read the specified "+kind). Operation("read"+kind). Produces(append(storageMeta.ProducesMIMETypes(action.Verb), "application/json")...). Returns(http.StatusOK, "OK", versionedObject). Writes(versionedObject) if isGetterWithOptions { if err := addObjectParams(ws, route, getOptions); err != nil { return err } } addParams(route, action.Params) ws.Route(route) case "LIST": // List all resources of a kind. route := ws.GET(action.Path).To(ListResource(lister, watcher, reqScope, false)). Filter(m). Doc("list objects of kind "+kind). Operation("list"+kind). Produces("application/json"). Returns(http.StatusOK, "OK", versionedList). Writes(versionedList) if err := addObjectParams(ws, route, versionedListOptions); err != nil { return err } switch { case isLister && isWatcher: route.Doc("list or watch objects of kind " + kind) case isWatcher: route.Doc("watch objects of kind " + kind) } addParams(route, action.Params) ws.Route(route) case "PUT": // Update a resource. route := ws.PUT(action.Path).To(UpdateResource(updater, reqScope, a.group.Typer, admit)). Filter(m). Doc("replace the specified "+kind). Operation("replace"+kind). Produces(append(storageMeta.ProducesMIMETypes(action.Verb), "application/json")...). Returns(http.StatusOK, "OK", versionedObject). Reads(versionedObject). Writes(versionedObject) addParams(route, action.Params) ws.Route(route) case "PATCH": // Partially update a resource route := ws.PATCH(action.Path).To(PatchResource(patcher, reqScope, a.group.Typer, admit, mapping.ObjectConvertor)). Filter(m). Doc("partially update the specified "+kind). Consumes(string(api.JSONPatchType), string(api.MergePatchType), string(api.StrategicMergePatchType)). Operation("patch"+kind). Produces(append(storageMeta.ProducesMIMETypes(action.Verb), "application/json")...). Returns(http.StatusOK, "OK", "string"). Reads("string"). Writes(versionedObject) addParams(route, action.Params) ws.Route(route) case "POST": // Create a resource. route := ws.POST(action.Path).To(CreateResource(creater, reqScope, a.group.Typer, admit)). Filter(m). Doc("create a "+kind). Operation("create"+kind). Produces(append(storageMeta.ProducesMIMETypes(action.Verb), "application/json")...). Returns(http.StatusOK, "OK", versionedObject). Reads(versionedObject). Writes(versionedObject) addParams(route, action.Params) ws.Route(route) case "DELETE": // Delete a resource. route := ws.DELETE(action.Path).To(DeleteResource(gracefulDeleter, isGracefulDeleter, reqScope, admit)). Filter(m). Doc("delete a "+kind). Operation("delete"+kind). Produces(append(storageMeta.ProducesMIMETypes(action.Verb), "application/json")...). Writes(versionedStatus). Returns(http.StatusOK, "OK", versionedStatus) if isGracefulDeleter { route.Reads(versionedDeleterObject) } addParams(route, action.Params) ws.Route(route) // TODO: deprecated case "WATCH": // Watch a resource. route := ws.GET(action.Path).To(ListResource(lister, watcher, reqScope, true)). Filter(m). Doc("watch changes to an object of kind "+kind). Operation("watch"+kind). Produces("application/json"). Returns(http.StatusOK, "OK", watchjson.WatchEvent{}). Writes(watchjson.WatchEvent{}) if err := addObjectParams(ws, route, versionedListOptions); err != nil { return err } addParams(route, action.Params) ws.Route(route) // TODO: deprecated case "WATCHLIST": // Watch all resources of a kind. route := ws.GET(action.Path).To(ListResource(lister, watcher, reqScope, true)). Filter(m). Doc("watch individual changes to a list of "+kind). Operation("watch"+kind+"list"). Produces("application/json"). Returns(http.StatusOK, "OK", watchjson.WatchEvent{}). Writes(watchjson.WatchEvent{}) if err := addObjectParams(ws, route, versionedListOptions); err != nil { return err } addParams(route, action.Params) ws.Route(route) case "REDIRECT": // Get the redirect URL for a resource. route := ws.GET(action.Path).To(routeFunction(redirectHandler)). Filter(m). Doc("redirect GET request to " + kind). Operation("redirect" + kind). Produces("*/*"). Consumes("*/*"). Writes("string") addParams(route, action.Params) ws.Route(route) case "PROXY": // Proxy requests to a resource. // Accept all methods as per https://github.com/GoogleCloudPlatform/kubernetes/issues/3996 addProxyRoute(ws, "GET", a.prefix, action.Path, proxyHandler, kind, resource, action.Params) addProxyRoute(ws, "PUT", a.prefix, action.Path, proxyHandler, kind, resource, action.Params) addProxyRoute(ws, "POST", a.prefix, action.Path, proxyHandler, kind, resource, action.Params) addProxyRoute(ws, "DELETE", a.prefix, action.Path, proxyHandler, kind, resource, action.Params) default: return fmt.Errorf("unrecognized action verb: %s", action.Verb) } // Note: update GetAttribs() when adding a custom handler. } return nil } // rootScopeNaming reads only names from a request and ignores namespaces. It implements ScopeNamer // for root scoped resources. type rootScopeNaming struct { scope meta.RESTScope runtime.SelfLinker itemPath string } // rootScopeNaming implements ScopeNamer var _ ScopeNamer = rootScopeNaming{} // Namespace returns an empty string because root scoped objects have no namespace. func (n rootScopeNaming) Namespace(req *restful.Request) (namespace string, err error) { return "", nil } // Name returns the name from the path and an empty string for namespace, or an error if the // name is empty. func (n rootScopeNaming) Name(req *restful.Request) (namespace, name string, err error) { name = req.PathParameter("name") if len(name) == 0 { return "", "", errEmptyName } return "", name, nil } // GenerateLink returns the appropriate path and query to locate an object by its canonical path. func (n rootScopeNaming) GenerateLink(req *restful.Request, obj runtime.Object) (path, query string, err error) { _, name, err := n.ObjectName(obj) if err != nil { return "", "", err } if len(name) == 0 { _, name, err = n.Name(req) if err != nil { return "", "", err } } path = strings.Replace(n.itemPath, "{name}", name, 1) return path, "", nil } // GenerateListLink returns the appropriate path and query to locate a list by its canonical path. func (n rootScopeNaming) GenerateListLink(req *restful.Request) (path, query string, err error) { path = req.Request.URL.Path return path, "", nil } // ObjectName returns the name set on the object, or an error if the // name cannot be returned. Namespace is empty // TODO: distinguish between objects with name/namespace and without via a specific error. func (n rootScopeNaming) ObjectName(obj runtime.Object) (namespace, name string, err error) { name, err = n.SelfLinker.Name(obj) if err != nil { return "", "", err } if len(name) == 0 { return "", "", errEmptyName } return "", name, nil } // scopeNaming returns naming information from a request. It implements ScopeNamer for // namespace scoped resources. type scopeNaming struct { scope meta.RESTScope runtime.SelfLinker itemPath string allNamespaces bool } // scopeNaming implements ScopeNamer var _ ScopeNamer = scopeNaming{} // Namespace returns the namespace from the path or the default. func (n scopeNaming) Namespace(req *restful.Request) (namespace string, err error) { if n.allNamespaces { return "", nil } namespace = req.PathParameter(n.scope.ParamName()) if len(namespace) == 0 { // a URL was constructed without the namespace, or this method was invoked // on an object without a namespace path parameter. return "", fmt.Errorf("no namespace parameter found on request") } return namespace, nil } // Name returns the name from the path, the namespace (or default), or an error if the // name is empty. func (n scopeNaming) Name(req *restful.Request) (namespace, name string, err error) { namespace, _ = n.Namespace(req) name = req.PathParameter("name") if len(name) == 0 { return "", "", errEmptyName } return } // GenerateLink returns the appropriate path and query to locate an object by its canonical path. func (n scopeNaming) GenerateLink(req *restful.Request, obj runtime.Object) (path, query string, err error) { namespace, name, err := n.ObjectName(obj) if err != nil { return "", "", err } if len(namespace) == 0 && len(name) == 0 { namespace, name, err = n.Name(req) if err != nil { return "", "", err } } path = strings.Replace(n.itemPath, "{name}", name, 1) path = strings.Replace(path, "{"+n.scope.ParamName()+"}", namespace, 1) return path, "", nil } // GenerateListLink returns the appropriate path and query to locate a list by its canonical path. func (n scopeNaming) GenerateListLink(req *restful.Request) (path, query string, err error) { path = req.Request.URL.Path return path, "", nil } // ObjectName returns the name and namespace set on the object, or an error if the // name cannot be returned. // TODO: distinguish between objects with name/namespace and without via a specific error. func (n scopeNaming) ObjectName(obj runtime.Object) (namespace, name string, err error) { name, err = n.SelfLinker.Name(obj) if err != nil { return "", "", err } namespace, err = n.SelfLinker.Namespace(obj) if err != nil { return "", "", err } return namespace, name, err } // legacyScopeNaming modifies a scopeNaming to read namespace from the query. It implements // ScopeNamer for older query based namespace parameters. type legacyScopeNaming struct { scope meta.RESTScope runtime.SelfLinker itemPath string } // legacyScopeNaming implements ScopeNamer var _ ScopeNamer = legacyScopeNaming{} // Namespace returns the namespace from the query or the default. func (n legacyScopeNaming) Namespace(req *restful.Request) (namespace string, err error) { values, ok := req.Request.URL.Query()[n.scope.ParamName()] if !ok || len(values) == 0 { // legacy behavior if req.Request.Method == "POST" || len(req.PathParameter("name")) > 0 { return api.NamespaceDefault, nil } return api.NamespaceAll, nil } return values[0], nil } // Name returns the name from the path, the namespace (or default), or an error if the // name is empty. func (n legacyScopeNaming) Name(req *restful.Request) (namespace, name string, err error) { namespace, _ = n.Namespace(req) name = req.PathParameter("name") if len(name) == 0 { return "", "", errEmptyName } return namespace, name, nil } // GenerateLink returns the appropriate path and query to locate an object by its canonical path. func (n legacyScopeNaming) GenerateLink(req *restful.Request, obj runtime.Object) (path, query string, err error) { namespace, name, err := n.ObjectName(obj) if err != nil { return "", "", err } if len(name) == 0 { return "", "", errEmptyName } path = strings.Replace(n.itemPath, "{name}", name, -1) values := make(url.Values) values.Set(n.scope.ParamName(), namespace) query = values.Encode() return path, query, nil } // GenerateListLink returns the appropriate path and query to locate a list by its canonical path. func (n legacyScopeNaming) GenerateListLink(req *restful.Request) (path, query string, err error) { namespace, err := n.Namespace(req) if err != nil { return "", "", err } path = req.Request.URL.Path values := make(url.Values) values.Set(n.scope.ParamName(), namespace) query = values.Encode() return path, query, nil } // ObjectName returns the name and namespace set on the object, or an error if the // name cannot be returned. // TODO: distinguish between objects with name/namespace and without via a specific error. func (n legacyScopeNaming) ObjectName(obj runtime.Object) (namespace, name string, err error) { name, err = n.SelfLinker.Name(obj) if err != nil { return "", "", err } namespace, err = n.SelfLinker.Namespace(obj) if err != nil { return "", "", err } return namespace, name, err } // This magic incantation returns *ptrToObject for an arbitrary pointer func indirectArbitraryPointer(ptrToObject interface{}) interface{} { return reflect.Indirect(reflect.ValueOf(ptrToObject)).Interface() } func appendIf(actions []action, a action, shouldAppend bool) []action { if shouldAppend { actions = append(actions, a) } return actions } // Wraps a http.Handler function inside a restful.RouteFunction func routeFunction(handler http.Handler) restful.RouteFunction { return func(restReq *restful.Request, restResp *restful.Response) { handler.ServeHTTP(restResp.ResponseWriter, restReq.Request) } } func addProxyRoute(ws *restful.WebService, method string, prefix string, path string, proxyHandler http.Handler, kind, resource string, params []*restful.Parameter) { proxyRoute := ws.Method(method).Path(path).To(routeFunction(proxyHandler)). Filter(monitorFilter("PROXY", resource)). Doc("proxy " + method + " requests to " + kind). Operation("proxy" + method + kind). Produces("*/*"). Consumes("*/*"). Writes("string") addParams(proxyRoute, params) ws.Route(proxyRoute) } func addParams(route *restful.RouteBuilder, params []*restful.Parameter) { for _, param := range params { route.Param(param) } } // addObjectParams converts a runtime.Object into a set of go-restful Param() definitions on the route. // The object must be a pointer to a struct; only fields at the top level of the struct that are not // themselves interfaces or structs are used; only fields with a json tag that is non empty (the standard // Go JSON behavior for omitting a field) become query parameters. The name of the query parameter is // the JSON field name. If a description struct tag is set on the field, that description is used on the // query parameter. In essence, it converts a standard JSON top level object into a query param schema. func addObjectParams(ws *restful.WebService, route *restful.RouteBuilder, obj interface{}) error { sv, err := conversion.EnforcePtr(obj) if err != nil { return err } st := sv.Type() switch st.Kind() { case reflect.Struct: for i := 0; i < st.NumField(); i++ { name := st.Field(i).Name sf, ok := st.FieldByName(name) if !ok { continue } switch sf.Type.Kind() { case reflect.Interface, reflect.Struct: default: jsonTag := sf.Tag.Get("json") if len(jsonTag) == 0 { continue } jsonName := strings.SplitN(jsonTag, ",", 2)[0] if len(jsonName) == 0 { continue } desc := sf.Tag.Get("description") route.Param(ws.QueryParameter(jsonName, desc).DataType(typeToJSON(sf.Type.Name()))) } } } return nil } // TODO: this is incomplete, expand as needed. // Convert the name of a golang type to the name of a JSON type func typeToJSON(typeName string) string { switch typeName { case "bool": return "boolean" case "uint8", "int", "int32", "int64", "uint32", "uint64": return "integer" case "byte": return "string" case "float64", "float32": return "number" case "util.Time": return "string" default: return typeName } } // defaultStorageMetadata provides default answers to rest.StorageMetadata. type defaultStorageMetadata struct{} // defaultStorageMetadata implements rest.StorageMetadata var _ rest.StorageMetadata = defaultStorageMetadata{} func (defaultStorageMetadata) ProducesMIMETypes(verb string) []string { return nil }