// Copyright 2011 Google Inc. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. // Package googleapi contains the common code shared by all Google API // libraries. package googleapi import ( "bytes" "encoding/json" "errors" "fmt" "io" "io/ioutil" "mime/multipart" "net/http" "net/textproto" "net/url" "regexp" "strconv" "strings" "sync" "time" "golang.org/x/net/context" "google.golang.org/api/googleapi/internal/uritemplates" ) // ContentTyper is an interface for Readers which know (or would like // to override) their Content-Type. If a media body doesn't implement // ContentTyper, the type is sniffed from the content using // http.DetectContentType. type ContentTyper interface { ContentType() string } // A SizeReaderAt is a ReaderAt with a Size method. // An io.SectionReader implements SizeReaderAt. type SizeReaderAt interface { io.ReaderAt Size() int64 } const ( Version = "0.5" // statusResumeIncomplete is the code returned by the Google uploader when the transfer is not yet complete. statusResumeIncomplete = 308 // UserAgent is the header string used to identify this package. UserAgent = "google-api-go-client/" + Version // uploadPause determines the delay between failed upload attempts uploadPause = 1 * time.Second ) // Error contains an error response from the server. type Error struct { // Code is the HTTP response status code and will always be populated. Code int `json:"code"` // Message is the server response message and is only populated when // explicitly referenced by the JSON server response. Message string `json:"message"` // Body is the raw response returned by the server. // It is often but not always JSON, depending on how the request fails. Body string Errors []ErrorItem } // ErrorItem is a detailed error code & message from the Google API frontend. type ErrorItem struct { // Reason is the typed error code. For example: "some_example". Reason string `json:"reason"` // Message is the human-readable description of the error. Message string `json:"message"` } func (e *Error) Error() string { if len(e.Errors) == 0 && e.Message == "" { return fmt.Sprintf("googleapi: got HTTP response code %d with body: %v", e.Code, e.Body) } var buf bytes.Buffer fmt.Fprintf(&buf, "googleapi: Error %d: ", e.Code) if e.Message != "" { fmt.Fprintf(&buf, "%s", e.Message) } if len(e.Errors) == 0 { return strings.TrimSpace(buf.String()) } if len(e.Errors) == 1 && e.Errors[0].Message == e.Message { fmt.Fprintf(&buf, ", %s", e.Errors[0].Reason) return buf.String() } fmt.Fprintln(&buf, "\nMore details:") for _, v := range e.Errors { fmt.Fprintf(&buf, "Reason: %s, Message: %s\n", v.Reason, v.Message) } return buf.String() } type errorReply struct { Error *Error `json:"error"` } // CheckResponse returns an error (of type *Error) if the response // status code is not 2xx. func CheckResponse(res *http.Response) error { if res.StatusCode >= 200 && res.StatusCode <= 299 { return nil } slurp, err := ioutil.ReadAll(res.Body) if err == nil { jerr := new(errorReply) err = json.Unmarshal(slurp, jerr) if err == nil && jerr.Error != nil { if jerr.Error.Code == 0 { jerr.Error.Code = res.StatusCode } jerr.Error.Body = string(slurp) return jerr.Error } } return &Error{ Code: res.StatusCode, Body: string(slurp), } } type MarshalStyle bool var WithDataWrapper = MarshalStyle(true) var WithoutDataWrapper = MarshalStyle(false) func (wrap MarshalStyle) JSONReader(v interface{}) (io.Reader, error) { buf := new(bytes.Buffer) if wrap { buf.Write([]byte(`{"data": `)) } err := json.NewEncoder(buf).Encode(v) if err != nil { return nil, err } if wrap { buf.Write([]byte(`}`)) } return buf, nil } func getMediaType(media io.Reader) (io.Reader, string) { if typer, ok := media.(ContentTyper); ok { return media, typer.ContentType() } pr, pw := io.Pipe() typ := "application/octet-stream" buf, err := ioutil.ReadAll(io.LimitReader(media, 512)) if err != nil { pw.CloseWithError(fmt.Errorf("error reading media: %v", err)) return pr, typ } typ = http.DetectContentType(buf) mr := io.MultiReader(bytes.NewReader(buf), media) go func() { _, err = io.Copy(pw, mr) if err != nil { pw.CloseWithError(fmt.Errorf("error reading media: %v", err)) return } pw.Close() }() return pr, typ } // DetectMediaType detects and returns the content type of the provided media. // If the type can not be determined, "application/octet-stream" is returned. func DetectMediaType(media io.ReaderAt) string { if typer, ok := media.(ContentTyper); ok { return typer.ContentType() } typ := "application/octet-stream" buf := make([]byte, 1024) n, err := media.ReadAt(buf, 0) buf = buf[:n] if err == nil || err == io.EOF { typ = http.DetectContentType(buf) } return typ } type Lengther interface { Len() int } // endingWithErrorReader from r until it returns an error. If the // final error from r is io.EOF and e is non-nil, e is used instead. type endingWithErrorReader struct { r io.Reader e error } func (er endingWithErrorReader) Read(p []byte) (n int, err error) { n, err = er.r.Read(p) if err == io.EOF && er.e != nil { err = er.e } return } func typeHeader(contentType string) textproto.MIMEHeader { h := make(textproto.MIMEHeader) h.Set("Content-Type", contentType) return h } // countingWriter counts the number of bytes it receives to write, but // discards them. type countingWriter struct { n *int64 } func (w countingWriter) Write(p []byte) (int, error) { *w.n += int64(len(p)) return len(p), nil } // ConditionallyIncludeMedia does nothing if media is nil. // // bodyp is an in/out parameter. It should initially point to the // reader of the application/json (or whatever) payload to send in the // API request. It's updated to point to the multipart body reader. // // ctypep is an in/out parameter. It should initially point to the // content type of the bodyp, usually "application/json". It's updated // to the "multipart/related" content type, with random boundary. // // The return value is the content-length of the entire multpart body. func ConditionallyIncludeMedia(media io.Reader, bodyp *io.Reader, ctypep *string) (cancel func(), ok bool) { if media == nil { return } // Get the media type, which might return a different reader instance. var mediaType string media, mediaType = getMediaType(media) body, bodyType := *bodyp, *ctypep pr, pw := io.Pipe() mpw := multipart.NewWriter(pw) *bodyp = pr *ctypep = "multipart/related; boundary=" + mpw.Boundary() go func() { w, err := mpw.CreatePart(typeHeader(bodyType)) if err != nil { mpw.Close() pw.CloseWithError(fmt.Errorf("googleapi: body CreatePart failed: %v", err)) return } _, err = io.Copy(w, body) if err != nil { mpw.Close() pw.CloseWithError(fmt.Errorf("googleapi: body Copy failed: %v", err)) return } w, err = mpw.CreatePart(typeHeader(mediaType)) if err != nil { mpw.Close() pw.CloseWithError(fmt.Errorf("googleapi: media CreatePart failed: %v", err)) return } _, err = io.Copy(w, media) if err != nil { mpw.Close() pw.CloseWithError(fmt.Errorf("googleapi: media Copy failed: %v", err)) return } mpw.Close() pw.Close() }() cancel = func() { pw.CloseWithError(errAborted) } return cancel, true } var errAborted = errors.New("googleapi: upload aborted") // ProgressUpdater is a function that is called upon every progress update of a resumable upload. // This is the only part of a resumable upload (from googleapi) that is usable by the developer. // The remaining usable pieces of resumable uploads is exposed in each auto-generated API. type ProgressUpdater func(current, total int64) // ResumableUpload is used by the generated APIs to provide resumable uploads. // It is not used by developers directly. type ResumableUpload struct { Client *http.Client // URI is the resumable resource destination provided by the server after specifying "&uploadType=resumable". URI string UserAgent string // User-Agent for header of the request // Media is the object being uploaded. Media io.ReaderAt // MediaType defines the media type, e.g. "image/jpeg". MediaType string // ContentLength is the full size of the object being uploaded. ContentLength int64 mu sync.Mutex // guards progress progress int64 // number of bytes uploaded so far started bool // whether the upload has been started // Callback is an optional function that will be called upon every progress update. Callback ProgressUpdater } var ( // rangeRE matches the transfer status response from the server. $1 is the last byte index uploaded. rangeRE = regexp.MustCompile(`^bytes=0\-(\d+)$`) // chunkSize is the size of the chunks created during a resumable upload and should be a power of two. // 1<<18 is the minimum size supported by the Google uploader, and there is no maximum. chunkSize int64 = 1 << 18 ) // Progress returns the number of bytes uploaded at this point. func (rx *ResumableUpload) Progress() int64 { rx.mu.Lock() defer rx.mu.Unlock() return rx.progress } func (rx *ResumableUpload) transferStatus() (int64, *http.Response, error) { req, _ := http.NewRequest("POST", rx.URI, nil) req.ContentLength = 0 req.Header.Set("User-Agent", rx.UserAgent) req.Header.Set("Content-Range", fmt.Sprintf("bytes */%v", rx.ContentLength)) res, err := rx.Client.Do(req) if err != nil || res.StatusCode != statusResumeIncomplete { return 0, res, err } var start int64 if m := rangeRE.FindStringSubmatch(res.Header.Get("Range")); len(m) == 2 { start, err = strconv.ParseInt(m[1], 10, 64) if err != nil { return 0, nil, fmt.Errorf("unable to parse range size %v", m[1]) } start += 1 // Start at the next byte } return start, res, nil } type chunk struct { body io.Reader size int64 err error } func (rx *ResumableUpload) transferChunks(ctx context.Context) (*http.Response, error) { var start int64 var err error res := &http.Response{} if rx.started { start, res, err = rx.transferStatus() if err != nil || res.StatusCode != statusResumeIncomplete { return res, err } } rx.started = true for { select { // Check for cancellation case <-ctx.Done(): res.StatusCode = http.StatusRequestTimeout return res, ctx.Err() default: } reqSize := rx.ContentLength - start if reqSize > chunkSize { reqSize = chunkSize } r := io.NewSectionReader(rx.Media, start, reqSize) req, _ := http.NewRequest("POST", rx.URI, r) req.ContentLength = reqSize req.Header.Set("Content-Range", fmt.Sprintf("bytes %v-%v/%v", start, start+reqSize-1, rx.ContentLength)) req.Header.Set("Content-Type", rx.MediaType) req.Header.Set("User-Agent", rx.UserAgent) res, err = rx.Client.Do(req) start += reqSize if err == nil && (res.StatusCode == statusResumeIncomplete || res.StatusCode == http.StatusOK) { rx.mu.Lock() rx.progress = start // keep track of number of bytes sent so far rx.mu.Unlock() if rx.Callback != nil { rx.Callback(start, rx.ContentLength) } } if err != nil || res.StatusCode != statusResumeIncomplete { break } } return res, err } var sleep = time.Sleep // override in unit tests // Upload starts the process of a resumable upload with a cancellable context. // It retries indefinitely (with a pause of uploadPause between attempts) until cancelled. // It is called from the auto-generated API code and is not visible to the user. // rx is private to the auto-generated API code. func (rx *ResumableUpload) Upload(ctx context.Context) (*http.Response, error) { var res *http.Response var err error for { res, err = rx.transferChunks(ctx) if err != nil || res.StatusCode == http.StatusCreated || res.StatusCode == http.StatusOK { return res, err } select { // Check for cancellation case <-ctx.Done(): res.StatusCode = http.StatusRequestTimeout return res, ctx.Err() default: } sleep(uploadPause) } return res, err } func ResolveRelative(basestr, relstr string) string { u, _ := url.Parse(basestr) rel, _ := url.Parse(relstr) u = u.ResolveReference(rel) us := u.String() us = strings.Replace(us, "%7B", "{", -1) us = strings.Replace(us, "%7D", "}", -1) return us } // has4860Fix is whether this Go environment contains the fix for // http://golang.org/issue/4860 var has4860Fix bool // init initializes has4860Fix by checking the behavior of the net/http package. func init() { r := http.Request{ URL: &url.URL{ Scheme: "http", Opaque: "//opaque", }, } b := &bytes.Buffer{} r.Write(b) has4860Fix = bytes.HasPrefix(b.Bytes(), []byte("GET http")) } // SetOpaque sets u.Opaque from u.Path such that HTTP requests to it // don't alter any hex-escaped characters in u.Path. func SetOpaque(u *url.URL) { u.Opaque = "//" + u.Host + u.Path if !has4860Fix { u.Opaque = u.Scheme + ":" + u.Opaque } } // Expand subsitutes any {encoded} strings in the URL passed in using // the map supplied. // // This calls SetOpaque to avoid encoding of the parameters in the URL path. func Expand(u *url.URL, expansions map[string]string) { expanded, err := uritemplates.Expand(u.Path, expansions) if err == nil { u.Path = expanded SetOpaque(u) } } // CloseBody is used to close res.Body. // Prior to calling Close, it also tries to Read a small amount to see an EOF. // Not seeing an EOF can prevent HTTP Transports from reusing connections. func CloseBody(res *http.Response) { if res == nil || res.Body == nil { return } // Justification for 3 byte reads: two for up to "\r\n" after // a JSON/XML document, and then 1 to see EOF if we haven't yet. // TODO(bradfitz): detect Go 1.3+ and skip these reads. // See https://codereview.appspot.com/58240043 // and https://codereview.appspot.com/49570044 buf := make([]byte, 1) for i := 0; i < 3; i++ { _, err := res.Body.Read(buf) if err != nil { break } } res.Body.Close() } // VariantType returns the type name of the given variant. // If the map doesn't contain the named key or the value is not a []interface{}, "" is returned. // This is used to support "variant" APIs that can return one of a number of different types. func VariantType(t map[string]interface{}) string { s, _ := t["type"].(string) return s } // ConvertVariant uses the JSON encoder/decoder to fill in the struct 'dst' with the fields found in variant 'v'. // This is used to support "variant" APIs that can return one of a number of different types. // It reports whether the conversion was successful. func ConvertVariant(v map[string]interface{}, dst interface{}) bool { var buf bytes.Buffer err := json.NewEncoder(&buf).Encode(v) if err != nil { return false } return json.Unmarshal(buf.Bytes(), dst) == nil } // A Field names a field to be retrieved with a partial response. // See https://developers.google.com/gdata/docs/2.0/basics#PartialResponse // // Partial responses can dramatically reduce the amount of data that must be sent to your application. // In order to request partial responses, you can specify the full list of fields // that your application needs by adding the Fields option to your request. // // Field strings use camelCase with leading lower-case characters to identify fields within the response. // // For example, if your response has a "NextPageToken" and a slice of "Items" with "Id" fields, // you could request just those fields like this: // // svc.Events.List().Fields("nextPageToken", "items/id").Do() // // or if you were also interested in each Item's "Updated" field, you can combine them like this: // // svc.Events.List().Fields("nextPageToken", "items(id,updated)").Do() // // More information about field formatting can be found here: // https://developers.google.com/+/api/#fields-syntax // // Another way to find field names is through the Google API explorer: // https://developers.google.com/apis-explorer/#p/ type Field string // CombineFields combines fields into a single string. func CombineFields(s []Field) string { r := make([]string, len(s)) for i, v := range s { r[i] = string(v) } return strings.Join(r, ",") }