package logical import ( "encoding/json" "errors" "fmt" "net/http" "github.com/hashicorp/errwrap" multierror "github.com/hashicorp/go-multierror" "github.com/hashicorp/vault/sdk/helper/consts" ) // RespondErrorCommon pulls most of the functionality from http's // respondErrorCommon and some of http's handleLogical and makes it available // to both the http package and elsewhere. func RespondErrorCommon(req *Request, resp *Response, err error) (int, error) { if err == nil && (resp == nil || !resp.IsError()) { switch { case req.Operation == ReadOperation: if resp == nil { return http.StatusNotFound, nil } // Basically: if we have empty "keys" or no keys at all, 404. This // provides consistency with GET. case req.Operation == ListOperation && (resp == nil || resp.WrapInfo == nil): if resp == nil { return http.StatusNotFound, nil } if len(resp.Data) == 0 { if len(resp.Warnings) > 0 { return 0, nil } return http.StatusNotFound, nil } keysRaw, ok := resp.Data["keys"] if !ok || keysRaw == nil { // If we don't have keys but have other data, return as-is if len(resp.Data) > 0 || len(resp.Warnings) > 0 { return 0, nil } return http.StatusNotFound, nil } var keys []string switch keysRaw.(type) { case []interface{}: keys = make([]string, len(keysRaw.([]interface{}))) for i, el := range keysRaw.([]interface{}) { s, ok := el.(string) if !ok { return http.StatusInternalServerError, nil } keys[i] = s } case []string: keys = keysRaw.([]string) default: return http.StatusInternalServerError, nil } if len(keys) == 0 { return http.StatusNotFound, nil } } return 0, nil } if errwrap.ContainsType(err, new(ReplicationCodedError)) { var allErrors error var codedErr *ReplicationCodedError errwrap.Walk(err, func(inErr error) { newErr, ok := inErr.(*ReplicationCodedError) if ok { codedErr = newErr } else { allErrors = multierror.Append(allErrors, inErr) } }) if allErrors != nil { return codedErr.Code, multierror.Append(errors.New(fmt.Sprintf("errors from both primary and secondary; primary error was %v; secondary errors follow", codedErr.Msg)), allErrors) } return codedErr.Code, errors.New(codedErr.Msg) } // Start out with internal server error since in most of these cases there // won't be a response so this won't be overridden statusCode := http.StatusInternalServerError // If we actually have a response, start out with bad request if resp != nil { statusCode = http.StatusBadRequest } // Now, check the error itself; if it has a specific logical error, set the // appropriate code if err != nil { switch { case errwrap.ContainsType(err, new(StatusBadRequest)): statusCode = http.StatusBadRequest case errwrap.Contains(err, ErrPermissionDenied.Error()): statusCode = http.StatusForbidden case errwrap.Contains(err, ErrUnsupportedOperation.Error()): statusCode = http.StatusMethodNotAllowed case errwrap.Contains(err, ErrUnsupportedPath.Error()): statusCode = http.StatusNotFound case errwrap.Contains(err, ErrInvalidRequest.Error()): statusCode = http.StatusBadRequest case errwrap.Contains(err, ErrUpstreamRateLimited.Error()): statusCode = http.StatusBadGateway } } if resp != nil && resp.IsError() { err = fmt.Errorf("%s", resp.Data["error"].(string)) } return statusCode, err } // AdjustErrorStatusCode adjusts the status that will be sent in error // conditions in a way that can be shared across http's respondError and other // locations. func AdjustErrorStatusCode(status *int, err error) { // Handle nested errors if t, ok := err.(*multierror.Error); ok { for _, e := range t.Errors { AdjustErrorStatusCode(status, e) } } // Adjust status code when sealed if errwrap.Contains(err, consts.ErrSealed.Error()) { *status = http.StatusServiceUnavailable } // Adjust status code on if errwrap.Contains(err, "http: request body too large") { *status = http.StatusRequestEntityTooLarge } // Allow HTTPCoded error passthrough to specify a code if t, ok := err.(HTTPCodedError); ok { *status = t.Code() } } func RespondError(w http.ResponseWriter, status int, err error) { AdjustErrorStatusCode(&status, err) w.Header().Set("Content-Type", "application/json") w.WriteHeader(status) type ErrorResponse struct { Errors []string `json:"errors"` } resp := &ErrorResponse{Errors: make([]string, 0, 1)} if err != nil { resp.Errors = append(resp.Errors, err.Error()) } enc := json.NewEncoder(w) enc.Encode(resp) }