Esempio n. 1
0
// Handle writes the error from the context into the HttpResponseWriter with a
// 500 http.StatusInternalServerError status code.
func (h *DefaultErrorHandler) Handle(ctx context.Context) (stop bool, err error) {

	var handlerError HandlerError = ctx.Data().Get(DataKeyForError).Data().(HandlerError)
	hostname, _ := os.Hostname()

	w := ctx.HttpResponseWriter()

	// write the error out
	w.Header().Set("Content-Type", "text/html")
	w.WriteHeader(http.StatusInternalServerError)
	w.Write([]byte("<!DOCTYPE html><html><head>"))
	w.Write([]byte("<style>"))
	w.Write([]byte("h1 { font-size: 17px }"))
	w.Write([]byte("h1 strong {text-decoration:underline}"))
	w.Write([]byte("h2 { background-color: #ffd; padding: 20px }"))
	w.Write([]byte("footer { margin-top: 20px; border-top:1px solid black; padding:10px; font-size:0.9em }"))
	w.Write([]byte("</style>"))
	w.Write([]byte("</head><body>"))
	w.Write([]byte(fmt.Sprintf("<h1>Error in <code>%s</code></h1><h2>%s</h2>", handlerError.Handler, handlerError)))
	w.Write([]byte(fmt.Sprintf("<h3><code>%s</code> error in Handler <code>%v</code></h3> <code><pre>%s</pre></code>", reflect.TypeOf(handlerError.OriginalError), &handlerError.Handler, handlerError.Handler)))
	w.Write([]byte(fmt.Sprintf("on %s", hostname)))
	w.Write([]byte("<footer>Learn more about <a href='http://github.com/stretchr/goweb' target='_blank'>Goweb</a></footer>"))
	w.Write([]byte("</body></html>"))

	// responses are actually ignored
	return false, nil
}
Esempio n. 2
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// WriteResponseObject writes the status code and response object to the HttpResponseWriter in
// the specified context, in the format best suited based on the request.
//
// Goweb uses the WebCodecService to decide which codec to use when responding
// see http://godoc.org/github.com/stretchr/codecs/services#WebCodecService for more information.
//
// This method should be used when the Goweb Standard Response Object does not satisfy the needs of
// the API, but other Respond* methods are recommended.
func (a *GowebAPIResponder) WriteResponseObject(ctx context.Context, status int, responseObject interface{}) error {

	service := a.GetCodecService()

	acceptHeader := ctx.HttpRequest().Header.Get("Accept")
	extension := ctx.FileExtension()
	hasCallback := len(ctx.QueryValue(CallbackParameter)) > 0

	codec, codecError := service.GetCodecForResponding(acceptHeader, extension, hasCallback)

	if codecError != nil {
		return codecError
	}

	options := ctx.CodecOptions()

	// do we need to add some options?
	if _, exists := options[constants.OptionKeyClientCallback]; hasCallback && !exists {
		options[constants.OptionKeyClientCallback] = ctx.QueryValue(CallbackParameter)
	}

	output, marshalErr := service.MarshalWithCodec(codec, responseObject, options)

	if marshalErr != nil {
		return marshalErr
	}

	// use the HTTP responder to respond
	ctx.HttpResponseWriter().Header().Set("Content-Type", codec.ContentType()) // TODO: test me
	a.httpResponder.With(ctx, status, output)

	return nil

}
Esempio n. 3
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// With writes a response to the request in the specified context.
func (r *GowebHTTPResponder) With(ctx context.Context, httpStatus int, body []byte) error {

	r.WithStatus(ctx, httpStatus)

	_, writeErr := ctx.HttpResponseWriter().Write(body)
	return writeErr

}
Esempio n. 4
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// WithStatus writes the specified HTTP Status Code to the Context's ResponseWriter.
//
// If the Always200ParamName parameter is present, it will ignore the httpStatus argument,
// and always write net/http.StatusOK (200).
func (r *GowebHTTPResponder) WithStatus(ctx context.Context, httpStatus int) error {

	// check for always200
	if len(ctx.FormValue(Always200ParamName)) > 0 {
		// always return OK
		httpStatus = http.StatusOK
	}

	ctx.HttpResponseWriter().WriteHeader(httpStatus)
	return nil
}
Esempio n. 5
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// WithStatusText writes the specified HTTP Status Code to the Context's ResponseWriter and
// includes a body with the default status text.
func (r *GowebHTTPResponder) WithStatusText(ctx context.Context, httpStatus int) error {

	writeStatusErr := r.WithStatus(ctx, httpStatus)

	if writeStatusErr != nil {
		return writeStatusErr
	}

	// write the body header
	_, writeErr := ctx.HttpResponseWriter().Write([]byte(http.StatusText(httpStatus)))

	return writeErr
}
Esempio n. 6
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func streamDownload(ctx context.Context, n *node.Node, filename string) {
	nf, err := n.FileReader()
	defer nf.Close()
	if err != nil {
		// File not found or some sort of file read error.
		// Probably deserves more checking
		err_msg := "err:@preAuth node.FileReader: " + err.Error()
		logger.Error(err_msg)
		responder.RespondWithError(ctx, 500, err_msg)
		return
	}
	s := &request.Streamer{R: []file.SectionReader{nf}, W: ctx.HttpResponseWriter(), ContentType: "application/octet-stream", Filename: filename, Size: n.File.Size, Filter: nil}
	err = s.Stream()
	if err != nil {
		// causes "multiple response.WriteHeader calls" error but better than no response
		err_msg := "err:@preAuth: s.stream: " + err.Error()
		logger.Error(err_msg)
		responder.RespondWithError(ctx, 500, err_msg)
	}
	return
}
Esempio n. 7
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// handle download and its options
func streamDownload(ctx context.Context, n *node.Node, options map[string]string) {
	nf, err := n.FileReader()
	defer nf.Close()
	if err != nil {
		// File not found or some sort of file read error.
		// Probably deserves more checking
		err_msg := "err:@preAuth node.FileReader: " + err.Error()
		logger.Error(err_msg)
		responder.RespondWithError(ctx, 500, err_msg)
		return
	}
	// set defaults
	filename := n.Id
	var filterFunc filter.FilterFunc = nil
	var compressionFormat string = ""
	// use options if exist
	if fn, has := options["filename"]; has {
		filename = fn
	}
	if fl, has := options["filter"]; has {
		if filter.Has(fl) {
			filterFunc = filter.Filter(fl)
		}
	}
	if cp, has := options["compression"]; has {
		if archive.IsValidCompress(cp) {
			compressionFormat = cp
		}
	}
	// stream it
	s := &request.Streamer{R: []file.SectionReader{nf}, W: ctx.HttpResponseWriter(), ContentType: "application/octet-stream", Filename: filename, Size: n.File.Size, Filter: filterFunc, Compression: compressionFormat}
	err = s.Stream(false)
	if err != nil {
		// causes "multiple response.WriteHeader calls" error but better than no response
		err_msg := "err:@preAuth: s.stream: " + err.Error()
		logger.Error(err_msg)
		responder.RespondWithError(ctx, 500, err_msg)
	}
	return
}
Esempio n. 8
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// WithPermanentRedirect responds with a redirection to the specific path or URL with the
// http.StatusMovedPermanently status.
func (r *GowebHTTPResponder) WithPermanentRedirect(ctx context.Context, pathOrURLSegments ...interface{}) error {
	ctx.HttpResponseWriter().Header().Set("Location", paths.PathFromSegments(pathOrURLSegments...))
	return r.WithStatus(ctx, http.StatusMovedPermanently)
}
Esempio n. 9
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// GET: /node/{id}
func (cr *NodeController) Read(id string, ctx context.Context) error {
	u, err := request.Authenticate(ctx.HttpRequest())
	if err != nil && err.Error() != e.NoAuth {
		return request.AuthError(err, ctx)
	}

	// Fake public user
	if u == nil {
		if conf.Bool(conf.Conf["anon-read"]) {
			u = &user.User{Uuid: ""}
		} else {
			return responder.RespondWithError(ctx, http.StatusUnauthorized, e.NoAuth)
		}
	}

	// Load node and handle user unauthorized
	n, err := node.Load(id, u.Uuid)
	if err != nil {
		if err.Error() == e.UnAuth {
			return responder.RespondWithError(ctx, http.StatusUnauthorized, e.UnAuth)
		} else if err.Error() == e.MongoDocNotFound {
			return responder.RespondWithError(ctx, http.StatusNotFound, "Node not found")
		} else {
			// In theory the db connection could be lost between
			// checking user and load but seems unlikely.
			logger.Error("Err@node_Read:LoadNode:" + id + ":" + err.Error())

			n, err = node.LoadFromDisk(id)
			if err.Error() == "Node does not exist" {
				logger.Error(err.Error())
				return responder.RespondWithError(ctx, http.StatusBadRequest, err.Error())
			} else if err != nil {
				err_msg := "Err@node_Read:LoadNodeFromDisk:" + id + ":" + err.Error()
				logger.Error(err_msg)
				return responder.RespondWithError(ctx, http.StatusInternalServerError, err_msg)
			}
		}
	}

	// Gather query params
	query := ctx.HttpRequest().URL.Query()

	var fFunc filter.FilterFunc = nil
	if _, ok := query["filter"]; ok {
		if filter.Has(query.Get("filter")) {
			fFunc = filter.Filter(query.Get("filter"))
		}
	}

	// Switch though param flags
	// ?download=1 or ?download_raw=1

	_, download_raw := query["download_raw"]
	if _, ok := query["download"]; ok || download_raw {
		if !n.HasFile() {
			return responder.RespondWithError(ctx, http.StatusBadRequest, "Node has no file")
		}
		filename := n.Id
		if _, ok := query["filename"]; ok {
			filename = query.Get("filename")
		}

		_, seek_ok := query["seek"]
		if _, length_ok := query["length"]; seek_ok || length_ok {
			if n.Type == "subset" {
				return responder.RespondWithError(ctx, http.StatusBadRequest, "subset nodes do not currently support seek/length offset retrieval")
			}

			var seek int64
			var length int64
			if !seek_ok {
				seek = 0
				length_str := query.Get("length")
				length, err = strconv.ParseInt(length_str, 10, 0)
				if err != nil {
					return responder.RespondWithError(ctx, http.StatusBadRequest, "length must be an integer value")
				}
			} else if !length_ok {
				seek_str := query.Get("seek")
				seek, err = strconv.ParseInt(seek_str, 10, 0)
				if err != nil {
					return responder.RespondWithError(ctx, http.StatusBadRequest, "seek must be an integer value")
				}
				length = n.File.Size - seek
			} else {
				seek_str := query.Get("seek")
				seek, err = strconv.ParseInt(seek_str, 10, 0)
				if err != nil {
					return responder.RespondWithError(ctx, http.StatusBadRequest, "seek must be an integer value")
				}
				length_str := query.Get("length")
				length, err = strconv.ParseInt(length_str, 10, 0)
				if err != nil {
					return responder.RespondWithError(ctx, http.StatusBadRequest, "length must be an integer value")
				}
			}
			r, err := n.FileReader()
			defer r.Close()
			if err != nil {
				err_msg := "Err@node_Read:Open: " + err.Error()
				logger.Error(err_msg)
				return responder.RespondWithError(ctx, http.StatusInternalServerError, err_msg)
			}
			s := &request.Streamer{R: []file.SectionReader{}, W: ctx.HttpResponseWriter(), ContentType: "application/octet-stream", Filename: filename, Size: length, Filter: fFunc}
			s.R = append(s.R, io.NewSectionReader(r, seek, length))
			if download_raw {
				err = s.StreamRaw()
				if err != nil {
					// causes "multiple response.WriteHeader calls" error but better than no response
					err_msg := "err:@node_Read s.StreamRaw: " + err.Error()
					logger.Error(err_msg)
					return responder.RespondWithError(ctx, http.StatusBadRequest, err_msg)
				}
			} else {
				err = s.Stream()
				if err != nil {
					// causes "multiple response.WriteHeader calls" error but better than no response
					err_msg := "err:@node_Read s.Stream: " + err.Error()
					logger.Error(err_msg)
					return responder.RespondWithError(ctx, http.StatusBadRequest, err_msg)
				}
			}
		} else if _, ok := query["index"]; ok {
			//handling bam file
			if query.Get("index") == "bai" {
				if n.Type == "subset" {
					return responder.RespondWithError(ctx, http.StatusBadRequest, "subset nodes do not support bam indices")
				}

				s := &request.Streamer{R: []file.SectionReader{}, W: ctx.HttpResponseWriter(), ContentType: "application/octet-stream", Filename: filename, Size: n.File.Size, Filter: fFunc}

				var region string
				if _, ok := query["region"]; ok {
					//retrieve alingments overlapped with specified region
					region = query.Get("region")
				}
				argv, err := request.ParseSamtoolsArgs(ctx)
				if err != nil {
					return responder.RespondWithError(ctx, http.StatusBadRequest, "Invaid args in query url")
				}
				err = s.StreamSamtools(n.FilePath(), region, argv...)
				if err != nil {
					return responder.RespondWithError(ctx, http.StatusBadRequest, "error while invoking samtools")
				}
				return nil
			}

			// open file
			r, err := n.FileReader()
			defer r.Close()
			if err != nil {
				err_msg := "Err@node_Read:Open: " + err.Error()
				logger.Error(err_msg)
				return responder.RespondWithError(ctx, http.StatusInternalServerError, err_msg)
			}

			// load index obj and info
			idxName := query.Get("index")
			idxInfo, ok := n.Indexes[idxName]
			if !ok {
				return responder.RespondWithError(ctx, http.StatusBadRequest, "Invalid index")
			}
			idx, err := n.DynamicIndex(idxName)
			if err != nil {
				return responder.RespondWithError(ctx, http.StatusBadRequest, err.Error())
			}

			if idx.Type() == "virtual" {
				if n.Type == "subset" {
					return responder.RespondWithError(ctx, http.StatusBadRequest, "subset nodes do not currently support virtual indices")
				}

				csize := conf.CHUNK_SIZE
				if _, ok := query["chunk_size"]; ok {
					csize, err = strconv.ParseInt(query.Get("chunk_size"), 10, 64)
					if err != nil {
						return responder.RespondWithError(ctx, http.StatusBadRequest, "Invalid chunk_size")
					}
				}
				idx.Set(map[string]interface{}{"ChunkSize": csize})
			}

			var size int64 = 0
			s := &request.Streamer{R: []file.SectionReader{}, W: ctx.HttpResponseWriter(), ContentType: "application/octet-stream", Filename: filename, Filter: fFunc}

			_, hasPart := query["part"]
			if n.Type == "subset" && idxName == "chunkrecord" {
				recordIdxName := "record"
				recordIdxInfo, ok := n.Indexes[recordIdxName]
				if !ok {
					return responder.RespondWithError(ctx, http.StatusBadRequest, "Invalid request, record index must exist to retrieve chunkrecord index on a subset node.")
				}
				recordIdx, err := n.DynamicIndex(recordIdxName)
				if err != nil {
					return responder.RespondWithError(ctx, http.StatusBadRequest, err.Error())
				}

				if !hasPart {
					// download full subset file
					fullRange := "1-" + strconv.FormatInt(recordIdxInfo.TotalUnits, 10)
					recSlice, err := recordIdx.Range(fullRange, n.IndexPath()+"/"+recordIdxName+".idx", recordIdxInfo.TotalUnits)
					if err != nil {
						return responder.RespondWithError(ctx, http.StatusBadRequest, "Invalid index subset")
					}
					for _, rec := range recSlice {
						size += rec[1]
						s.R = append(s.R, io.NewSectionReader(r, rec[0], rec[1]))
					}
				} else if hasPart {
					// download parts
					for _, p := range query["part"] {
						chunkRecSlice, err := idx.Range(p, n.IndexPath()+"/"+idxName+".idx", idxInfo.TotalUnits)
						if err != nil {
							return responder.RespondWithError(ctx, http.StatusBadRequest, "Invalid index part")
						}
						// This gets us the parts of the chunkrecord index, but we still need to convert these to record indices.
						for _, chunkRec := range chunkRecSlice {
							start := (chunkRec[0] / 16) + 1
							stop := (start - 1) + (chunkRec[1] / 16)
							recSlice, err := recordIdx.Range(strconv.FormatInt(start, 10)+"-"+strconv.FormatInt(stop, 10), n.IndexPath()+"/"+recordIdxName+".idx", recordIdxInfo.TotalUnits)
							if err != nil {
								return responder.RespondWithError(ctx, http.StatusBadRequest, "Invalid index subset")
							}
							for _, rec := range recSlice {
								size += rec[1]
								s.R = append(s.R, io.NewSectionReader(r, rec[0], rec[1]))
							}
						}
					}
				} else {
					// bad request
					return responder.RespondWithError(ctx, http.StatusBadRequest, "Index parameter requires part parameter")
				}
			} else {
				if (!hasPart) && (idxInfo.Type == "subset") {
					// download full subset file
					fullRange := "1-" + strconv.FormatInt(idxInfo.TotalUnits, 10)
					recSlice, err := idx.Range(fullRange, n.IndexPath()+"/"+idxName+".idx", idxInfo.TotalUnits)
					if err != nil {
						return responder.RespondWithError(ctx, http.StatusBadRequest, "Invalid index subset")
					}
					for _, rec := range recSlice {
						size += rec[1]
						s.R = append(s.R, io.NewSectionReader(r, rec[0], rec[1]))
					}
				} else if hasPart {
					// download parts
					for _, p := range query["part"] {
						// special case for subset ranges
						if idxInfo.Type == "subset" {
							recSlice, err := idx.Range(p, n.IndexPath()+"/"+idxName+".idx", idxInfo.TotalUnits)
							if err != nil {
								return responder.RespondWithError(ctx, http.StatusBadRequest, "Invalid index part")
							}
							for _, rec := range recSlice {
								size += rec[1]
								s.R = append(s.R, io.NewSectionReader(r, rec[0], rec[1]))
							}
						} else {
							pos, length, err := idx.Part(p, n.IndexPath()+"/"+idxName+".idx", idxInfo.TotalUnits)
							if err != nil {
								return responder.RespondWithError(ctx, http.StatusBadRequest, "Invalid index part")
							}
							size += length
							s.R = append(s.R, io.NewSectionReader(r, pos, length))
						}
					}
				} else {
					// bad request
					return responder.RespondWithError(ctx, http.StatusBadRequest, "Index parameter requires part parameter")
				}
			}
			s.Size = size
			if download_raw {
				err = s.StreamRaw()
				if err != nil {
					// causes "multiple response.WriteHeader calls" error but better than no response
					err_msg := "err:@node_Read s.StreamRaw: " + err.Error()
					logger.Error(err_msg)
					return responder.RespondWithError(ctx, http.StatusBadRequest, err_msg)
				}
			} else {
				err = s.Stream()
				if err != nil {
					// causes "multiple response.WriteHeader calls" error but better than no response
					err_msg := "err:@node_Read s.Stream: " + err.Error()
					logger.Error(err_msg)
					return responder.RespondWithError(ctx, http.StatusBadRequest, err_msg)
				}
			}
			// download full file
		} else {
			if n.Type == "subset" {
				// open file
				r, err := n.FileReader()
				defer r.Close()
				if err != nil {
					err_msg := "Err@node_Read:Open: " + err.Error()
					logger.Error(err_msg)
					return responder.RespondWithError(ctx, http.StatusInternalServerError, err_msg)
				}

				idx := index.New()

				s := &request.Streamer{R: []file.SectionReader{}, W: ctx.HttpResponseWriter(), ContentType: "application/octet-stream", Filename: filename, Size: n.File.Size, Filter: fFunc}

				fullRange := "1-" + strconv.FormatInt(n.Subset.Index.TotalUnits, 10)
				recSlice, err := idx.Range(fullRange, n.Path()+"/"+n.Id+".subset.idx", n.Subset.Index.TotalUnits)
				if err != nil {
					return responder.RespondWithError(ctx, http.StatusInternalServerError, "Invalid data index for subset node.")
				}
				for _, rec := range recSlice {
					s.R = append(s.R, io.NewSectionReader(r, rec[0], rec[1]))
				}

				if download_raw {
					err = s.StreamRaw()
					if err != nil {
						// causes "multiple response.WriteHeader calls" error but better than no response
						err_msg := "err:@node_Read s.StreamRaw: " + err.Error()
						logger.Error(err_msg)
						return responder.RespondWithError(ctx, http.StatusBadRequest, err_msg)
					}
				} else {
					err = s.Stream()
					if err != nil {
						// causes "multiple response.WriteHeader calls" error but better than no response
						err_msg := "err:@node_Read s.Stream: " + err.Error()
						logger.Error(err_msg)
						return responder.RespondWithError(ctx, http.StatusBadRequest, err_msg)
					}
				}
			} else {
				nf, err := n.FileReader()
				defer nf.Close()
				if err != nil {
					// File not found or some sort of file read error.
					// Probably deserves more checking
					err_msg := "err:@node_Read node.FileReader: " + err.Error()
					logger.Error(err_msg)
					return responder.RespondWithError(ctx, http.StatusBadRequest, err_msg)
				}
				s := &request.Streamer{R: []file.SectionReader{nf}, W: ctx.HttpResponseWriter(), ContentType: "application/octet-stream", Filename: filename, Size: n.File.Size, Filter: fFunc}
				if download_raw {
					err = s.StreamRaw()
					if err != nil {
						// causes "multiple response.WriteHeader calls" error but better than no response
						err_msg := "err:@node_Read s.StreamRaw: " + err.Error()
						logger.Error(err_msg)
						return responder.RespondWithError(ctx, http.StatusBadRequest, err_msg)
					}
				} else {
					err = s.Stream()
					if err != nil {
						// causes "multiple response.WriteHeader calls" error but better than no response
						err_msg := "err:@node_Read s.Stream: " + err.Error()
						logger.Error(err_msg)
						return responder.RespondWithError(ctx, http.StatusBadRequest, err_msg)
					}
				}
			}
		}
	} else if _, ok := query["download_url"]; ok {
		if n.Type == "subset" {
			return responder.RespondWithError(ctx, http.StatusBadRequest, "subset nodes do not currently support download_url operation")
		}

		if !n.HasFile() {
			return responder.RespondWithError(ctx, http.StatusBadRequest, "Node has no file")
		} else {
			options := map[string]string{}
			if _, ok := query["filename"]; ok {
				options["filename"] = query.Get("filename")
			}
			if p, err := preauth.New(util.RandString(20), "download", n.Id, options); err != nil {
				err_msg := "err:@node_Read download_url: " + err.Error()
				logger.Error(err_msg)
				return responder.RespondWithError(ctx, http.StatusInternalServerError, err_msg)
			} else {
				return responder.RespondWithData(ctx, util.UrlResponse{Url: util.ApiUrl(ctx) + "/preauth/" + p.Id, ValidTill: p.ValidTill.Format(time.ANSIC)})
			}
		}
	} else if _, ok := query["download_post"]; ok {
		// This is a request to post the node to another Shock server. The 'post_url' parameter is required.
		// By default the post operation will include the data file and attributes (these options can be set
		// with post_data=0/1 and post_attr=0/1).
		if n.Type == "subset" {
			return responder.RespondWithError(ctx, http.StatusBadRequest, "subset nodes do not currently support download_post operation")
		}

		post_url := ""
		if _, ok := query["post_url"]; ok {
			post_url = query.Get("post_url")
		} else {
			return responder.RespondWithError(ctx, http.StatusBadRequest, "Request type requires post_url parameter of where to post new Shock node")
		}

		post_opts := map[string]int{
			"post_data": 1,
			"post_attr": 1,
		}

		for k, _ := range post_opts {
			if _, ok := query[k]; ok {
				if query.Get(k) == "0" {
					post_opts[k] = 0
				} else if query.Get(k) == "1" {
					post_opts[k] = 1
				} else {
					return responder.RespondWithError(ctx, http.StatusBadRequest, "Parameter "+k+" must be either 0 or 1")
				}
			}
		}

		form := client.NewForm()
		form.AddParam("file_name", n.File.Name)

		if post_opts["post_data"] == 1 {
			form.AddFile("upload", n.FilePath())
		}

		if post_opts["post_attr"] == 1 && n.Attributes != nil {
			attr, _ := json.Marshal(n.Attributes)
			form.AddParam("attributes_str", string(attr[:]))
		}

		err = form.Create()
		if err != nil {
			err_msg := "could not create multipart form for posting to Shock server: " + err.Error()
			logger.Error(err_msg)
			return responder.RespondWithError(ctx, http.StatusInternalServerError, err_msg)
		}

		headers := client.Header{
			"Content-Type":   form.ContentType,
			"Content-Length": strconv.FormatInt(form.Length, 10),
		}

		if _, hasAuth := ctx.HttpRequest().Header["Authorization"]; hasAuth {
			headers["Authorization"] = ctx.HttpRequest().Header.Get("Authorization")
		}

		if res, err := client.Do("POST", post_url, headers, form.Reader); err == nil {
			if res.StatusCode == 200 {
				r := responseWrapper{}
				body, _ := ioutil.ReadAll(res.Body)
				if err = json.Unmarshal(body, &r); err != nil {
					err_msg := "err:@node_Read POST: " + err.Error()
					logger.Error(err_msg)
					return responder.WriteResponseObject(ctx, http.StatusInternalServerError, err_msg)
				} else {
					return responder.WriteResponseObject(ctx, http.StatusOK, r)
				}
			} else {
				r := responseWrapper{}
				body, _ := ioutil.ReadAll(res.Body)
				if err = json.Unmarshal(body, &r); err == nil {
					err_msg := res.Status + ": " + (*r.Error)[0]
					logger.Error(err_msg)
					return responder.RespondWithError(ctx, http.StatusInternalServerError, err_msg)
				} else {
					err_msg := "request error: " + res.Status
					logger.Error(err_msg)
					return responder.RespondWithError(ctx, http.StatusInternalServerError, err_msg)
				}
			}
		} else {
			return err
		}
	} else {
		// Base case respond with node in json
		return responder.RespondWithData(ctx, n)
	}

	return nil
}
Esempio n. 10
0
func addResponseHeaders(ctx context.Context) {
	ctx.HttpResponseWriter().Header().Set("Connection", "close")
	ctx.HttpResponseWriter().Header().Set("Access-Control-Allow-Headers", "Authorization")
	ctx.HttpResponseWriter().Header().Set("Access-Control-Allow-Methods", "POST, GET, PUT, DELETE, OPTIONS")
	ctx.HttpResponseWriter().Header().Set("Access-Control-Allow-Origin", "*")
}