// Copyright 2015 go-swagger maintainers // // 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 client import ( "bytes" "fmt" "io" "log" "mime/multipart" "net/http" "net/textproto" "net/url" "os" "path" "path/filepath" "strings" "time" "github.com/go-openapi/strfmt" "github.com/go-openapi/runtime" ) // NewRequest creates a new swagger http client request func newRequest(method, pathPattern string, writer runtime.ClientRequestWriter) (*request, error) { return &request{ pathPattern: pathPattern, method: method, writer: writer, header: make(http.Header), query: make(url.Values), timeout: DefaultTimeout, getBody: getRequestBuffer, }, nil } // Request represents a swagger client request. // // This Request struct converts to a HTTP request. // There might be others that convert to other transports. // There is no error checking here, it is assumed to be used after a spec has been validated. // so impossible combinations should not arise (hopefully). // // The main purpose of this struct is to hide the machinery of adding params to a transport request. // The generated code only implements what is necessary to turn a param into a valid value for these methods. type request struct { pathPattern string method string writer runtime.ClientRequestWriter pathParams map[string]string header http.Header query url.Values formFields url.Values fileFields map[string][]runtime.NamedReadCloser payload interface{} timeout time.Duration buf *bytes.Buffer getBody func(r *request) []byte } var ( // ensure interface compliance _ runtime.ClientRequest = new(request) ) func (r *request) isMultipart(mediaType string) bool { if len(r.fileFields) > 0 { return true } return runtime.MultipartFormMime == mediaType } // BuildHTTP creates a new http request based on the data from the params func (r *request) BuildHTTP(mediaType, basePath string, producers map[string]runtime.Producer, registry strfmt.Registry) (*http.Request, error) { return r.buildHTTP(mediaType, basePath, producers, registry, nil) } func escapeQuotes(s string) string { return strings.NewReplacer("\\", "\\\\", `"`, "\\\"").Replace(s) } func logClose(err error, pw *io.PipeWriter) { log.Println(err) closeErr := pw.CloseWithError(err) if closeErr != nil { log.Println(closeErr) } } func (r *request) buildHTTP(mediaType, basePath string, producers map[string]runtime.Producer, registry strfmt.Registry, auth runtime.ClientAuthInfoWriter) (*http.Request, error) { // build the data if err := r.writer.WriteToRequest(r, registry); err != nil { return nil, err } // Our body must be an io.Reader. // When we create the http.Request, if we pass it a // bytes.Buffer then it will wrap it in an io.ReadCloser // and set the content length automatically. var body io.Reader var pr *io.PipeReader var pw *io.PipeWriter r.buf = bytes.NewBuffer(nil) if r.payload != nil || len(r.formFields) > 0 || len(r.fileFields) > 0 { body = r.buf if r.isMultipart(mediaType) { pr, pw = io.Pipe() body = pr } } // check if this is a form type request if len(r.formFields) > 0 || len(r.fileFields) > 0 { if !r.isMultipart(mediaType) { r.header.Set(runtime.HeaderContentType, mediaType) formString := r.formFields.Encode() r.buf.WriteString(formString) goto DoneChoosingBodySource } mp := multipart.NewWriter(pw) r.header.Set(runtime.HeaderContentType, mangleContentType(mediaType, mp.Boundary())) go func() { defer func() { mp.Close() pw.Close() }() for fn, v := range r.formFields { for _, vi := range v { if err := mp.WriteField(fn, vi); err != nil { logClose(err, pw) return } } } defer func() { for _, ff := range r.fileFields { for _, ffi := range ff { ffi.Close() } } }() for fn, f := range r.fileFields { for _, fi := range f { // Need to read the data so that we can detect the content type buf := make([]byte, 512) size, err := fi.Read(buf) if err != nil { logClose(err, pw) return } fileContentType := http.DetectContentType(buf) newFi := runtime.NamedReader(fi.Name(), io.MultiReader(bytes.NewReader(buf[:size]), fi)) // Create the MIME headers for the new part h := make(textproto.MIMEHeader) h.Set("Content-Disposition", fmt.Sprintf(`form-data; name="%s"; filename="%s"`, escapeQuotes(fn), escapeQuotes(filepath.Base(fi.Name())))) h.Set("Content-Type", fileContentType) wrtr, err := mp.CreatePart(h) if err != nil { logClose(err, pw) return } if _, err := io.Copy(wrtr, newFi); err != nil { logClose(err, pw) } } } }() goto DoneChoosingBodySource } // if there is payload, use the producer to write the payload, and then // set the header to the content-type appropriate for the payload produced if r.payload != nil { // TODO: infer most appropriate content type based on the producer used, // and the `consumers` section of the spec/operation r.header.Set(runtime.HeaderContentType, mediaType) if rdr, ok := r.payload.(io.ReadCloser); ok { body = rdr goto DoneChoosingBodySource } if rdr, ok := r.payload.(io.Reader); ok { body = rdr goto DoneChoosingBodySource } producer := producers[mediaType] if err := producer.Produce(r.buf, r.payload); err != nil { return nil, err } } DoneChoosingBodySource: if runtime.CanHaveBody(r.method) && body != nil && r.header.Get(runtime.HeaderContentType) == "" { r.header.Set(runtime.HeaderContentType, mediaType) } if auth != nil { // If we're not using r.buf as our http.Request's body, // either the payload is an io.Reader or io.ReadCloser, // or we're doing a multipart form/file. // // In those cases, if the AuthenticateRequest call asks for the body, // we must read it into a buffer and provide that, then use that buffer // as the body of our http.Request. // // This is done in-line with the GetBody() request rather than ahead // of time, because there's no way to know if the AuthenticateRequest // will even ask for the body of the request. // // If for some reason the copy fails, there's no way to return that // error to the GetBody() call, so return it afterwards. // // An error from the copy action is prioritized over any error // from the AuthenticateRequest call, because the mis-read // body may have interfered with the auth. // var copyErr error if buf, ok := body.(*bytes.Buffer); body != nil && (!ok || buf != r.buf) { var copied bool r.getBody = func(r *request) []byte { if copied { return getRequestBuffer(r) } defer func() { copied = true }() if _, copyErr = io.Copy(r.buf, body); copyErr != nil { return nil } if closer, ok := body.(io.ReadCloser); ok { if copyErr = closer.Close(); copyErr != nil { return nil } } body = r.buf return getRequestBuffer(r) } } authErr := auth.AuthenticateRequest(r, registry) if copyErr != nil { return nil, fmt.Errorf("error retrieving the response body: %v", copyErr) } if authErr != nil { return nil, authErr } } // In case the basePath or the request pathPattern include static query parameters, // parse those out before constructing the final path. The parameters themselves // will be merged with the ones set by the client, with the priority given first to // the ones set by the client, then the path pattern, and lastly the base path. basePathURL, err := url.Parse(basePath) if err != nil { return nil, err } staticQueryParams := basePathURL.Query() pathPatternURL, err := url.Parse(r.pathPattern) if err != nil { return nil, err } for name, values := range pathPatternURL.Query() { if _, present := staticQueryParams[name]; present { staticQueryParams.Del(name) } for _, value := range values { staticQueryParams.Add(name, value) } } // create http request var reinstateSlash bool if pathPatternURL.Path != "" && pathPatternURL.Path != "/" && pathPatternURL.Path[len(pathPatternURL.Path)-1] == '/' { reinstateSlash = true } urlPath := path.Join(basePathURL.Path, pathPatternURL.Path) for k, v := range r.pathParams { urlPath = strings.Replace(urlPath, "{"+k+"}", url.PathEscape(v), -1) } if reinstateSlash { urlPath = urlPath + "/" } req, err := http.NewRequest(r.method, urlPath, body) if err != nil { return nil, err } originalParams := r.GetQueryParams() // Merge the query parameters extracted from the basePath with the ones set by // the client in this struct. In case of conflict, the client wins. for k, v := range staticQueryParams { _, present := originalParams[k] if !present { if err = r.SetQueryParam(k, v...); err != nil { return nil, err } } } req.URL.RawQuery = r.query.Encode() req.Header = r.header return req, nil } func mangleContentType(mediaType, boundary string) string { if strings.ToLower(mediaType) == runtime.URLencodedFormMime { return fmt.Sprintf("%s; boundary=%s", mediaType, boundary) } return "multipart/form-data; boundary=" + boundary } func (r *request) GetMethod() string { return r.method } func (r *request) GetPath() string { path := r.pathPattern for k, v := range r.pathParams { path = strings.Replace(path, "{"+k+"}", v, -1) } return path } func (r *request) GetBody() []byte { return r.getBody(r) } func getRequestBuffer(r *request) []byte { if r.buf == nil { return nil } return r.buf.Bytes() } // SetHeaderParam adds a header param to the request // when there is only 1 value provided for the varargs, it will set it. // when there are several values provided for the varargs it will add it (no overriding) func (r *request) SetHeaderParam(name string, values ...string) error { if r.header == nil { r.header = make(http.Header) } r.header[http.CanonicalHeaderKey(name)] = values return nil } // GetHeaderParams returns the all headers currently set for the request func (r *request) GetHeaderParams() http.Header { return r.header } // SetQueryParam adds a query param to the request // when there is only 1 value provided for the varargs, it will set it. // when there are several values provided for the varargs it will add it (no overriding) func (r *request) SetQueryParam(name string, values ...string) error { if r.query == nil { r.query = make(url.Values) } r.query[name] = values return nil } // GetQueryParams returns a copy of all query params currently set for the request func (r *request) GetQueryParams() url.Values { var result = make(url.Values) for key, value := range r.query { result[key] = append([]string{}, value...) } return result } // SetFormParam adds a forn param to the request // when there is only 1 value provided for the varargs, it will set it. // when there are several values provided for the varargs it will add it (no overriding) func (r *request) SetFormParam(name string, values ...string) error { if r.formFields == nil { r.formFields = make(url.Values) } r.formFields[name] = values return nil } // SetPathParam adds a path param to the request func (r *request) SetPathParam(name string, value string) error { if r.pathParams == nil { r.pathParams = make(map[string]string) } r.pathParams[name] = value return nil } // SetFileParam adds a file param to the request func (r *request) SetFileParam(name string, files ...runtime.NamedReadCloser) error { for _, file := range files { if actualFile, ok := file.(*os.File); ok { fi, err := os.Stat(actualFile.Name()) if err != nil { return err } if fi.IsDir() { return fmt.Errorf("%q is a directory, only files are supported", file.Name()) } } } if r.fileFields == nil { r.fileFields = make(map[string][]runtime.NamedReadCloser) } if r.formFields == nil { r.formFields = make(url.Values) } r.fileFields[name] = files return nil } func (r *request) GetFileParam() map[string][]runtime.NamedReadCloser { return r.fileFields } // SetBodyParam sets a body parameter on the request. // This does not yet serialze the object, this happens as late as possible. func (r *request) SetBodyParam(payload interface{}) error { r.payload = payload return nil } func (r *request) GetBodyParam() interface{} { return r.payload } // SetTimeout sets the timeout for a request func (r *request) SetTimeout(timeout time.Duration) error { r.timeout = timeout return nil }