/* * CLOUD API * * IONOS Enterprise-grade Infrastructure as a Service (IaaS) solutions can be managed through the Cloud API, in addition or as an alternative to the \"Data Center Designer\" (DCD) browser-based tool. Both methods employ consistent concepts and features, deliver similar power and flexibility, and can be used to perform a multitude of management tasks, including adding servers, volumes, configuring networks, and so on. * * API version: 6.0 */ // Code generated by OpenAPI Generator (https://openapi-generator.tech); DO NOT EDIT. package ionoscloud import ( "bytes" "context" "crypto/sha256" "crypto/tls" "crypto/x509" "encoding/hex" "encoding/json" "encoding/xml" "errors" "fmt" "io" "io/ioutil" "mime/multipart" "net" "net/http" "net/http/httputil" "net/url" "os" "path/filepath" "reflect" "regexp" "strconv" "strings" "time" "unicode/utf8" "golang.org/x/oauth2" ) var ( jsonCheck = regexp.MustCompile(`(?i:(?:application|text)/(?:vnd\.[^;]+\+)?json)`) xmlCheck = regexp.MustCompile(`(?i:(?:application|text)/xml)`) ) const DepthParam = "depth" const ( RequestStatusQueued = "QUEUED" RequestStatusRunning = "RUNNING" RequestStatusFailed = "FAILED" RequestStatusDone = "DONE" Version = "6.1.4" ) // Constants for APIs const FilterQueryParam = "filter.%s" const FormatStringErr = "%s %s" // APIClient manages communication with the CLOUD API API v6.0 // In most cases there should be only one, shared, APIClient. type APIClient struct { cfg *Configuration common service // Reuse a single struct instead of allocating one for each service on the heap. // API Services DefaultApi *DefaultApiService ApplicationLoadBalancersApi *ApplicationLoadBalancersApiService BackupUnitsApi *BackupUnitsApiService ContractResourcesApi *ContractResourcesApiService DataCentersApi *DataCentersApiService FirewallRulesApi *FirewallRulesApiService FlowLogsApi *FlowLogsApiService IPBlocksApi *IPBlocksApiService ImagesApi *ImagesApiService KubernetesApi *KubernetesApiService LANsApi *LANsApiService LabelsApi *LabelsApiService LoadBalancersApi *LoadBalancersApiService LocationsApi *LocationsApiService NATGatewaysApi *NATGatewaysApiService NetworkInterfacesApi *NetworkInterfacesApiService NetworkLoadBalancersApi *NetworkLoadBalancersApiService PrivateCrossConnectsApi *PrivateCrossConnectsApiService RequestsApi *RequestsApiService ServersApi *ServersApiService SnapshotsApi *SnapshotsApiService TargetGroupsApi *TargetGroupsApiService TemplatesApi *TemplatesApiService UserManagementApi *UserManagementApiService UserS3KeysApi *UserS3KeysApiService VolumesApi *VolumesApiService } type service struct { client *APIClient } // NewAPIClient creates a new API client. Requires a userAgent string describing your application. // optionally a custom http.Client to allow for advanced features such as caching. func NewAPIClient(cfg *Configuration) *APIClient { if cfg.HTTPClient == nil { cfg.HTTPClient = http.DefaultClient } //enable certificate pinning if the env variable is set pkFingerprint := os.Getenv(IonosPinnedCertEnvVar) if pkFingerprint != "" { httpTransport := &http.Transport{} AddPinnedCert(httpTransport, pkFingerprint) cfg.HTTPClient.Transport = httpTransport } c := &APIClient{} c.cfg = cfg c.common.client = c // API Services c.DefaultApi = (*DefaultApiService)(&c.common) c.ApplicationLoadBalancersApi = (*ApplicationLoadBalancersApiService)(&c.common) c.BackupUnitsApi = (*BackupUnitsApiService)(&c.common) c.ContractResourcesApi = (*ContractResourcesApiService)(&c.common) c.DataCentersApi = (*DataCentersApiService)(&c.common) c.FirewallRulesApi = (*FirewallRulesApiService)(&c.common) c.FlowLogsApi = (*FlowLogsApiService)(&c.common) c.IPBlocksApi = (*IPBlocksApiService)(&c.common) c.ImagesApi = (*ImagesApiService)(&c.common) c.KubernetesApi = (*KubernetesApiService)(&c.common) c.LANsApi = (*LANsApiService)(&c.common) c.LabelsApi = (*LabelsApiService)(&c.common) c.LoadBalancersApi = (*LoadBalancersApiService)(&c.common) c.LocationsApi = (*LocationsApiService)(&c.common) c.NATGatewaysApi = (*NATGatewaysApiService)(&c.common) c.NetworkInterfacesApi = (*NetworkInterfacesApiService)(&c.common) c.NetworkLoadBalancersApi = (*NetworkLoadBalancersApiService)(&c.common) c.PrivateCrossConnectsApi = (*PrivateCrossConnectsApiService)(&c.common) c.RequestsApi = (*RequestsApiService)(&c.common) c.ServersApi = (*ServersApiService)(&c.common) c.SnapshotsApi = (*SnapshotsApiService)(&c.common) c.TargetGroupsApi = (*TargetGroupsApiService)(&c.common) c.TemplatesApi = (*TemplatesApiService)(&c.common) c.UserManagementApi = (*UserManagementApiService)(&c.common) c.UserS3KeysApi = (*UserS3KeysApiService)(&c.common) c.VolumesApi = (*VolumesApiService)(&c.common) return c } // AddPinnedCert - enables pinning of the sha256 public fingerprint to the http client's transport func AddPinnedCert(transport *http.Transport, pkFingerprint string) { if pkFingerprint != "" { transport.DialTLSContext = addPinnedCertVerification([]byte(pkFingerprint), new(tls.Config)) } } // TLSDial can be assigned to a http.Transport's DialTLS field. type TLSDial func(ctx context.Context, network, addr string) (net.Conn, error) // AddPinnedCertVerification returns a TLSDial function which checks that // the remote server provides a certificate whose SHA256 fingerprint matches // the provided value. // // The returned dialer function can be plugged into a http.Transport's DialTLS // field to allow for certificate pinning. func addPinnedCertVerification(fingerprint []byte, tlsConfig *tls.Config) TLSDial { return func(ctx context.Context, network, addr string) (net.Conn, error) { //fingerprints can be added with ':', we need to trim fingerprint = bytes.ReplaceAll(fingerprint, []byte(":"), []byte("")) fingerprint = bytes.ReplaceAll(fingerprint, []byte(" "), []byte("")) //we are manually checking a certificate, so we need to enable insecure tlsConfig.InsecureSkipVerify = true // Dial the connection to get certificates to check conn, err := tls.Dial(network, addr, tlsConfig) if err != nil { return nil, err } if err := verifyPinnedCert(fingerprint, conn.ConnectionState().PeerCertificates); err != nil { _ = conn.Close() return nil, err } return conn, nil } } // verifyPinnedCert iterates the list of peer certificates and attempts to // locate a certificate that is not a CA and whose public key fingerprint matches pkFingerprint. func verifyPinnedCert(pkFingerprint []byte, peerCerts []*x509.Certificate) error { for _, cert := range peerCerts { fingerprint := sha256.Sum256(cert.Raw) var bytesFingerPrint = make([]byte, hex.EncodedLen(len(fingerprint[:]))) hex.Encode(bytesFingerPrint, fingerprint[:]) // we have a match, and it's not an authority certificate if cert.IsCA == false && bytes.EqualFold(bytesFingerPrint, pkFingerprint) { return nil } } return fmt.Errorf("remote server presented a certificate which does not match the provided fingerprint") } func atoi(in string) (int, error) { return strconv.Atoi(in) } // selectHeaderContentType select a content type from the available list. func selectHeaderContentType(contentTypes []string) string { if len(contentTypes) == 0 { return "" } if contains(contentTypes, "application/json") { return "application/json" } return contentTypes[0] // use the first content type specified in 'consumes' } // selectHeaderAccept join all accept types and return func selectHeaderAccept(accepts []string) string { if len(accepts) == 0 { return "" } if contains(accepts, "application/json") { return "application/json" } return strings.Join(accepts, ",") } // contains is a case insenstive match, finding needle in a haystack func contains(haystack []string, needle string) bool { for _, a := range haystack { if strings.ToLower(a) == strings.ToLower(needle) { return true } } return false } // Verify optional parameters are of the correct type. func typeCheckParameter(obj interface{}, expected string, name string) error { // Make sure there is an object. if obj == nil { return nil } // Check the type is as expected. if reflect.TypeOf(obj).String() != expected { return fmt.Errorf("Expected %s to be of type %s but received %s.", name, expected, reflect.TypeOf(obj).String()) } return nil } // parameterToString convert interface{} parameters to string, using a delimiter if format is provided. func parameterToString(obj interface{}, collectionFormat string) string { var delimiter string switch collectionFormat { case "pipes": delimiter = "|" case "ssv": delimiter = " " case "tsv": delimiter = "\t" case "csv": delimiter = "," } if reflect.TypeOf(obj).Kind() == reflect.Slice { return strings.Trim(strings.Replace(fmt.Sprint(obj), " ", delimiter, -1), "[]") } else if t, ok := obj.(time.Time); ok { return t.Format(time.RFC3339) } return fmt.Sprintf("%v", obj) } // helper for converting interface{} parameters to json strings func parameterToJson(obj interface{}) (string, error) { jsonBuf, err := json.Marshal(obj) if err != nil { return "", err } return string(jsonBuf), err } // callAPI do the request. func (c *APIClient) callAPI(request *http.Request) (*http.Response, time.Duration, error) { retryCount := 0 var resp *http.Response var httpRequestTime time.Duration var err error for { retryCount++ /* we need to clone the request with every retry time because Body closes after the request */ var clonedRequest *http.Request = request.Clone(request.Context()) if request.Body != nil { clonedRequest.Body, err = request.GetBody() if err != nil { return nil, httpRequestTime, err } } if c.cfg.Debug || c.cfg.LogLevel.Satisfies(Trace) { dump, err := httputil.DumpRequestOut(clonedRequest, true) if err == nil { c.cfg.Logger.Printf(" DumpRequestOut : %s\n", string(dump)) } else { c.cfg.Logger.Printf(" DumpRequestOut err: %+v", err) } c.cfg.Logger.Printf("\n try no: %d\n", retryCount) } httpRequestStartTime := time.Now() clonedRequest.Close = true resp, err = c.cfg.HTTPClient.Do(clonedRequest) httpRequestTime = time.Since(httpRequestStartTime) if err != nil { return resp, httpRequestTime, err } if c.cfg.Debug || c.cfg.LogLevel.Satisfies(Trace) { dump, err := httputil.DumpResponse(resp, true) if err == nil { c.cfg.Logger.Printf("\n DumpResponse : %s\n", string(dump)) } else { c.cfg.Logger.Printf(" DumpResponse err %+v", err) } } var backoffTime time.Duration switch resp.StatusCode { case http.StatusServiceUnavailable, http.StatusGatewayTimeout, http.StatusBadGateway: backoffTime = c.GetConfig().WaitTime case http.StatusTooManyRequests: if retryAfterSeconds := resp.Header.Get("Retry-After"); retryAfterSeconds != "" { waitTime, err := time.ParseDuration(retryAfterSeconds + "s") if err != nil { return resp, httpRequestTime, err } backoffTime = waitTime } else { backoffTime = c.GetConfig().WaitTime } default: return resp, httpRequestTime, err } if retryCount >= c.GetConfig().MaxRetries { if c.cfg.Debug || c.cfg.LogLevel.Satisfies(Debug) { c.cfg.Logger.Printf(" Number of maximum retries exceeded (%d retries)\n", c.cfg.MaxRetries) } break } else { c.backOff(backoffTime) } } return resp, httpRequestTime, err } func (c *APIClient) backOff(t time.Duration) { if t > c.GetConfig().MaxWaitTime { t = c.GetConfig().MaxWaitTime } if c.cfg.Debug || c.cfg.LogLevel.Satisfies(Debug) { c.cfg.Logger.Printf(" sleeping %s before retrying request\n", t.String()) } time.Sleep(t) } // Allow modification of underlying config for alternate implementations and testing // Caution: modifying the configuration while live can cause data races and potentially unwanted behavior func (c *APIClient) GetConfig() *Configuration { return c.cfg } // prepareRequest build the request func (c *APIClient) prepareRequest( ctx context.Context, path string, method string, postBody interface{}, headerParams map[string]string, queryParams url.Values, formParams url.Values, formFileName string, fileName string, fileBytes []byte) (localVarRequest *http.Request, err error) { var body *bytes.Buffer // Detect postBody type and post. if postBody != nil { contentType := headerParams["Content-Type"] if contentType == "" { contentType = detectContentType(postBody) headerParams["Content-Type"] = contentType } body, err = setBody(postBody, contentType) if err != nil { return nil, err } } // add form parameters and file if available. if strings.HasPrefix(headerParams["Content-Type"], "multipart/form-data") && len(formParams) > 0 || (len(fileBytes) > 0 && fileName != "") { if body != nil { return nil, errors.New("Cannot specify postBody and multipart form at the same time.") } body = &bytes.Buffer{} w := multipart.NewWriter(body) for k, v := range formParams { for _, iv := range v { if strings.HasPrefix(k, "@") { // file err = addFile(w, k[1:], iv) if err != nil { return nil, err } } else { // form value w.WriteField(k, iv) } } } if len(fileBytes) > 0 && fileName != "" { w.Boundary() //_, fileNm := filepath.Split(fileName) part, err := w.CreateFormFile(formFileName, filepath.Base(fileName)) if err != nil { return nil, err } _, err = part.Write(fileBytes) if err != nil { return nil, err } } // Set the Boundary in the Content-Type headerParams["Content-Type"] = w.FormDataContentType() // Set Content-Length headerParams["Content-Length"] = fmt.Sprintf("%d", body.Len()) w.Close() } if strings.HasPrefix(headerParams["Content-Type"], "application/x-www-form-urlencoded") && len(formParams) > 0 { if body != nil { return nil, errors.New("Cannot specify postBody and x-www-form-urlencoded form at the same time.") } body = &bytes.Buffer{} body.WriteString(formParams.Encode()) // Set Content-Length headerParams["Content-Length"] = fmt.Sprintf("%d", body.Len()) } // Setup path and query parameters url, err := url.Parse(path) if err != nil { return nil, err } // Override request host, if applicable if c.cfg.Host != "" { url.Host = c.cfg.Host } // Override request scheme, if applicable if c.cfg.Scheme != "" { url.Scheme = c.cfg.Scheme } // Adding Query Param query := url.Query() /* adding default query params */ for k, v := range c.cfg.DefaultQueryParams { if _, ok := queryParams[k]; !ok { queryParams[k] = v } } for k, v := range queryParams { for _, iv := range v { query.Add(k, iv) } } // Encode the parameters. url.RawQuery = query.Encode() // Generate a new request if body != nil { localVarRequest, err = http.NewRequest(method, url.String(), body) } else { localVarRequest, err = http.NewRequest(method, url.String(), nil) } if err != nil { return nil, err } // add header parameters, if any if len(headerParams) > 0 { headers := http.Header{} for h, v := range headerParams { headers.Set(h, v) } localVarRequest.Header = headers } // Add the user agent to the request. localVarRequest.Header.Add("User-Agent", c.cfg.UserAgent) if c.cfg.Token != "" { localVarRequest.Header.Add("Authorization", "Bearer "+c.cfg.Token) } else { if c.cfg.Username != "" { localVarRequest.SetBasicAuth(c.cfg.Username, c.cfg.Password) } } if ctx != nil { // add context to the request localVarRequest = localVarRequest.WithContext(ctx) // Walk through any authentication. // OAuth2 authentication if tok, ok := ctx.Value(ContextOAuth2).(oauth2.TokenSource); ok { // We were able to grab an oauth2 token from the context var latestToken *oauth2.Token if latestToken, err = tok.Token(); err != nil { return nil, err } latestToken.SetAuthHeader(localVarRequest) } // Basic HTTP Authentication if auth, ok := ctx.Value(ContextBasicAuth).(BasicAuth); ok { localVarRequest.SetBasicAuth(auth.UserName, auth.Password) } // AccessToken Authentication if auth, ok := ctx.Value(ContextAccessToken).(string); ok { localVarRequest.Header.Add("Authorization", "Bearer "+auth) } } for header, value := range c.cfg.DefaultHeader { localVarRequest.Header.Add(header, value) } return localVarRequest, nil } func (c *APIClient) decode(v interface{}, b []byte, contentType string) (err error) { if len(b) == 0 { return nil } if s, ok := v.(*string); ok { *s = string(b) return nil } if xmlCheck.MatchString(contentType) { if err = xml.Unmarshal(b, v); err != nil { return err } return nil } if jsonCheck.MatchString(contentType) { if actualObj, ok := v.(interface{ GetActualInstance() interface{} }); ok { // oneOf, anyOf schemas if unmarshalObj, ok := actualObj.(interface{ UnmarshalJSON([]byte) error }); ok { // make sure it has UnmarshalJSON defined if err = unmarshalObj.UnmarshalJSON(b); err != nil { return err } } else { return errors.New("unknown type with GetActualInstance but no unmarshalObj.UnmarshalJSON defined") } } else if err = json.Unmarshal(b, v); err != nil { // simple model return err } return nil } return fmt.Errorf("undefined response type for content %s", contentType) } func (c *APIClient) GetRequestStatus(ctx context.Context, path string) (*RequestStatus, *APIResponse, error) { r, err := c.prepareRequest(ctx, path, http.MethodGet, nil, nil, nil, nil, "", "", nil) if err != nil { return nil, nil, err } resp, httpRequestTime, err := c.callAPI(r) var responseBody = make([]byte, 0) if resp != nil { var errRead error responseBody, errRead = ioutil.ReadAll(resp.Body) _ = resp.Body.Close() if errRead != nil { return nil, nil, errRead } } apiResponse := &APIResponse{ Response: resp, Method: http.MethodGet, RequestTime: httpRequestTime, RequestURL: path, Operation: "GetRequestStatus", } apiResponse.Payload = responseBody if err != nil { return nil, apiResponse, err } status := &RequestStatus{} err = c.decode(status, responseBody, resp.Header.Get("Content-Type")) if err != nil { return nil, apiResponse, err } return status, apiResponse, nil } type ResourceHandler interface { GetMetadata() *DatacenterElementMetadata GetMetadataOk() (*DatacenterElementMetadata, bool) } const ( Available string = "AVAILABLE" Busy = "BUSY" Inactive = "INACTIVE" Deploying = "DEPLOYING" Active = "ACTIVE" Failed = "FAILED" Suspended = "SUSPENDED" FailedSuspended = "FAILED_SUSPENDED" Updating = "UPDATING" FailedUpdating = "FAILED_UPDATING" Destroying = "DESTROYING" FailedDestroying = "FAILED_DESTROYING" Terminated = "TERMINATED" ) type resourceGetCallFn func(apiClient *APIClient, resourceID string) (ResourceHandler, error) type resourceDeleteCallFn func(apiClient *APIClient, resourceID string) (*APIResponse, error) type StateChannel struct { Msg string Err error } type DeleteStateChannel struct { Msg int Err error } // fn() is a function that returns from the API the resource you want to check it's state. // Successful states that can be checked: Available, or Active func (c *APIClient) WaitForState(ctx context.Context, fn resourceGetCallFn, resourceID string) (bool, error) { ticker := time.NewTicker(1 * time.Second) defer ticker.Stop() for { select { case <-ctx.Done(): return false, ctx.Err() case <-ticker.C: resource, err := fn(c, resourceID) if err != nil { return false, fmt.Errorf("error occurred when calling the fn function: %w", err) } if resource == nil { return false, errors.New("fail to get resource") } if metadata := resource.GetMetadata(); metadata != nil { if state, ok := metadata.GetStateOk(); ok && state != nil { if *state == Available || *state == Active { return true, nil } if *state == Failed || *state == FailedSuspended || *state == FailedUpdating { return false, errors.New("state of the resource is " + *state) } } } else { return false, errors.New("metadata could not be retrieved from the fn API call") } } continue } } // fn() is a function that returns from the API the resource you want to check it's state // the channel is of type StateChannel and it represents the state of the resource. Successful states that can be checked: Available, or Active func (c *APIClient) waitForStateWithChanel(ctx context.Context, fn resourceGetCallFn, resourceID string, ch chan<- StateChannel) { ticker := time.NewTicker(1 * time.Second) defer ticker.Stop() done := make(chan bool, 1) for { select { case <-ctx.Done(): ch <- StateChannel{ "", ctx.Err(), } return case <-done: return case <-ticker.C: resource, err := fn(c, resourceID) if err != nil { ch <- StateChannel{ "", fmt.Errorf("error occurred when calling the fn function: %w", err), } } else if resource == nil { ch <- StateChannel{ "", errors.New("fail to get resource"), } } else if metadata := resource.GetMetadata(); metadata != nil { if state, ok := metadata.GetStateOk(); ok && state != nil { if *state == Available || *state == Active { ch <- StateChannel{ *state, nil, } } if *state == Failed || *state == FailedSuspended || *state == FailedUpdating { ch <- StateChannel{ "", errors.New("state of the resource is " + *state), } } } } else { ch <- StateChannel{ "", errors.New("metadata could not be retrieved from the fn API call"), } } done <- true } continue } } // fn() is a function that returns from the API the resource you want to check it's state // the channel is of type StateChannel and it represents the state of the resource. Successful states that can be checked: Available, or Active func (c *APIClient) WaitForStateAsync(ctx context.Context, fn resourceGetCallFn, resourceID string, ch chan<- StateChannel) { go c.waitForStateWithChanel(ctx, fn, resourceID, ch) } // fn() is a function that returns from the API the resource you want to check it's state. // a resource is deleted when status code 404 is returned from the get call to API func (c *APIClient) WaitForDeletion(ctx context.Context, fn resourceDeleteCallFn, resourceID string) (bool, error) { ticker := time.NewTicker(1 * time.Second) defer ticker.Stop() for { select { case <-ctx.Done(): return false, ctx.Err() case <-ticker.C: apiResponse, err := fn(c, resourceID) if err != nil { if apiResponse == nil { return false, fmt.Errorf("fail to get response: %w", err) } if apiResp := apiResponse.Response; apiResp != nil { if apiResp.StatusCode == http.StatusNotFound { return true, nil } } return false, err } } continue } } // fn() is a function that returns from the API the resource you want to check it's state // the channel is of type int and it represents the status response of the resource, which in this case is 404 to check when the resource is not found. func (c *APIClient) waitForDeletionWithChannel(ctx context.Context, fn resourceDeleteCallFn, resourceID string, ch chan<- DeleteStateChannel) { ticker := time.NewTicker(1 * time.Second) defer ticker.Stop() done := make(chan bool, 1) for { select { case <-ctx.Done(): ch <- DeleteStateChannel{ 0, ctx.Err(), } return case <-done: return case <-ticker.C: apiResponse, err := fn(c, resourceID) if err != nil { if apiResponse == nil { ch <- DeleteStateChannel{ 0, fmt.Errorf("API Response from fn is empty: %w ", err), } } else if apiresp := apiResponse.Response; apiresp != nil { if statusCode := apiresp.StatusCode; statusCode == http.StatusNotFound { ch <- DeleteStateChannel{ statusCode, nil, } } else { ch <- DeleteStateChannel{ statusCode, err, } } done <- true } } } continue } } // fn() is a function that returns from the API the resource you want to check it's state // the channel is of type int and it represents the status response of the resource, which in this case is 404 to check when the resource is not found. func (c *APIClient) WaitForDeletionAsync(ctx context.Context, fn resourceDeleteCallFn, resourceID string, ch chan<- DeleteStateChannel) { go c.waitForDeletionWithChannel(ctx, fn, resourceID, ch) } func (c *APIClient) WaitForRequest(ctx context.Context, path string) (*APIResponse, error) { var ( localVarHTTPMethod = http.MethodGet localVarPostBody interface{} localVarFormFileName string localVarFileName string localVarFileBytes []byte ) // create path and map variables localVarHeaderParams := make(map[string]string) localVarQueryParams := url.Values{} localVarFormParams := url.Values{} r, err := c.prepareRequest(ctx, path, localVarHTTPMethod, localVarPostBody, localVarHeaderParams, localVarQueryParams, localVarFormParams, localVarFormFileName, localVarFileName, localVarFileBytes) if err != nil { return nil, err } ticker := time.NewTicker(1 * time.Second) defer ticker.Stop() for { resp, httpRequestTime, err := c.callAPI(r) var localVarBody = make([]byte, 0) if resp != nil { var errRead error localVarBody, errRead = ioutil.ReadAll(resp.Body) _ = resp.Body.Close() if errRead != nil { return nil, errRead } } localVarAPIResponse := &APIResponse{ Response: resp, Method: localVarHTTPMethod, RequestTime: httpRequestTime, RequestURL: path, Operation: "WaitForRequest", } localVarAPIResponse.Payload = localVarBody if err != nil { return localVarAPIResponse, err } status := RequestStatus{} err = c.decode(&status, localVarBody, resp.Header.Get("Content-Type")) if err != nil { return localVarAPIResponse, err } if resp.StatusCode != http.StatusOK { return localVarAPIResponse, fmt.Errorf("WaitForRequest failed; received status code %d from API", resp.StatusCode) } if status.Metadata != nil && status.Metadata.Status != nil { switch *status.Metadata.Status { case RequestStatusDone: return localVarAPIResponse, nil case RequestStatusFailed: var id = "" var message = "" if status.Id != nil { id = *status.Id } if status.Metadata.Message != nil { message = *status.Metadata.Message } return localVarAPIResponse, errors.New( fmt.Sprintf("Request %s failed: %s", id, message), ) } } select { case <-ctx.Done(): return nil, ctx.Err() case <-ticker.C: continue } } } // Add a file to the multipart request func addFile(w *multipart.Writer, fieldName, path string) error { file, err := os.Open(path) if err != nil { return err } defer file.Close() part, err := w.CreateFormFile(fieldName, filepath.Base(path)) if err != nil { return err } _, err = io.Copy(part, file) return err } // Prevent trying to import "fmt" func reportError(format string, a ...interface{}) error { return fmt.Errorf(format, a...) } // Set request body from an interface{} func setBody(body interface{}, contentType string) (bodyBuf *bytes.Buffer, err error) { if bodyBuf == nil { bodyBuf = &bytes.Buffer{} } if reader, ok := body.(io.Reader); ok { _, err = bodyBuf.ReadFrom(reader) } else if b, ok := body.([]byte); ok { _, err = bodyBuf.Write(b) } else if s, ok := body.(string); ok { _, err = bodyBuf.WriteString(s) } else if s, ok := body.(*string); ok { _, err = bodyBuf.WriteString(*s) } else if jsonCheck.MatchString(contentType) { err = json.NewEncoder(bodyBuf).Encode(body) } else if xmlCheck.MatchString(contentType) { err = xml.NewEncoder(bodyBuf).Encode(body) } if err != nil { return nil, err } if bodyBuf.Len() == 0 { err = fmt.Errorf("Invalid body type %s\n", contentType) return nil, err } return bodyBuf, nil } // detectContentType method is used to figure out `Request.Body` content type for request header func detectContentType(body interface{}) string { contentType := "text/plain; charset=utf-8" kind := reflect.TypeOf(body).Kind() switch kind { case reflect.Struct, reflect.Map, reflect.Ptr: contentType = "application/json; charset=utf-8" case reflect.String: contentType = "text/plain; charset=utf-8" default: if b, ok := body.([]byte); ok { contentType = http.DetectContentType(b) } else if kind == reflect.Slice { contentType = "application/json; charset=utf-8" } } return contentType } // Ripped from https://github.com/gregjones/httpcache/blob/master/httpcache.go type cacheControl map[string]string func parseCacheControl(headers http.Header) cacheControl { cc := cacheControl{} ccHeader := headers.Get("Cache-Control") for _, part := range strings.Split(ccHeader, ",") { part = strings.Trim(part, " ") if part == "" { continue } if strings.ContainsRune(part, '=') { keyval := strings.Split(part, "=") cc[strings.Trim(keyval[0], " ")] = strings.Trim(keyval[1], ",") } else { cc[part] = "" } } return cc } // CacheExpires helper function to determine remaining time before repeating a request. func CacheExpires(r *http.Response) time.Time { // Figure out when the cache expires. var expires time.Time now, err := time.Parse(time.RFC1123, r.Header.Get("date")) if err != nil { return time.Now() } respCacheControl := parseCacheControl(r.Header) if maxAge, ok := respCacheControl["max-age"]; ok { lifetime, err := time.ParseDuration(maxAge + "s") if err != nil { expires = now } else { expires = now.Add(lifetime) } } else { expiresHeader := r.Header.Get("Expires") if expiresHeader != "" { expires, err = time.Parse(time.RFC1123, expiresHeader) if err != nil { expires = now } } } return expires } func strlen(s string) int { return utf8.RuneCountInString(s) } // GenericOpenAPIError Provides access to the body, error and model on returned errors. type GenericOpenAPIError struct { statusCode int body []byte error string model interface{} } // NewGenericOpenAPIError - constructor for GenericOpenAPIError func NewGenericOpenAPIError(message string, body []byte, model interface{}, statusCode int) GenericOpenAPIError { return GenericOpenAPIError{ statusCode: statusCode, body: body, error: message, model: model, } } // Error returns non-empty string if there was an error. func (e GenericOpenAPIError) Error() string { return e.error } // SetError sets the error string func (e *GenericOpenAPIError) SetError(error string) { e.error = error } // Body returns the raw bytes of the response func (e GenericOpenAPIError) Body() []byte { return e.body } // SetBody sets the raw body of the error func (e *GenericOpenAPIError) SetBody(body []byte) { e.body = body } // Model returns the unpacked model of the error func (e GenericOpenAPIError) Model() interface{} { return e.model } // SetModel sets the model of the error func (e *GenericOpenAPIError) SetModel(model interface{}) { e.model = model } // StatusCode returns the status code of the error func (e GenericOpenAPIError) StatusCode() int { return e.statusCode } // SetStatusCode sets the status code of the error func (e *GenericOpenAPIError) SetStatusCode(statusCode int) { e.statusCode = statusCode }