package jsonapi import ( "bytes" "encoding/json" "errors" "fmt" "io" "reflect" "strconv" "strings" "time" ) const ( unsuportedStructTagMsg = "Unsupported jsonapi tag annotation, %s" ) var ( // ErrInvalidTime is returned when a struct has a time.Time type field, but // the JSON value was not a unix timestamp integer. ErrInvalidTime = errors.New("Only numbers can be parsed as dates, unix timestamps") // ErrInvalidISO8601 is returned when a struct has a time.Time type field and includes // "iso8601" in the tag spec, but the JSON value was not an ISO8601 timestamp string. ErrInvalidISO8601 = errors.New("Only strings can be parsed as dates, ISO8601 timestamps") // ErrUnknownFieldNumberType is returned when the JSON value was a float // (numeric) but the Struct field was a non numeric type (i.e. not int, uint, // float, etc) ErrUnknownFieldNumberType = errors.New("The struct field was not of a known number type") // ErrUnsupportedPtrType is returned when the Struct field was a pointer but // the JSON value was of a different type ErrUnsupportedPtrType = errors.New("Pointer type in struct is not supported") ) // UnmarshalPayload converts an io into a struct instance using jsonapi tags on // struct fields. This method supports single request payloads only, at the // moment. Bulk creates and updates are not supported yet. // // Will Unmarshal embedded and sideloaded payloads. The latter is only possible if the // object graph is complete. That is, in the "relationships" data there are type and id, // keys that correspond to records in the "included" array. // // For example you could pass it, in, req.Body and, model, a BlogPost // struct instance to populate in an http handler, // // func CreateBlog(w http.ResponseWriter, r *http.Request) { // blog := new(Blog) // // if err := jsonapi.UnmarshalPayload(r.Body, blog); err != nil { // http.Error(w, err.Error(), 500) // return // } // // // ...do stuff with your blog... // // w.WriteHeader(201) // w.Header().Set("Content-Type", "application/vnd.api+json") // // if err := jsonapi.MarshalOnePayload(w, blog); err != nil { // http.Error(w, err.Error(), 500) // } // } // // // Visit https://github.com/google/jsonapi#create for more info. // // model interface{} should be a pointer to a struct. func UnmarshalPayload(in io.Reader, model interface{}) error { payload := new(OnePayload) if err := json.NewDecoder(in).Decode(payload); err != nil { return err } if payload.Included != nil { includedMap := make(map[string]*Node) for _, included := range payload.Included { key := fmt.Sprintf("%s,%s", included.Type, included.ID) includedMap[key] = included } return unmarshalNode(payload.Data, reflect.ValueOf(model), &includedMap) } return unmarshalNode(payload.Data, reflect.ValueOf(model), nil) } // UnmarshalManyPayload converts an io into a set of struct instances using // jsonapi tags on the type's struct fields. func UnmarshalManyPayload(in io.Reader, t reflect.Type) ([]interface{}, error) { payload := new(ManyPayload) if err := json.NewDecoder(in).Decode(payload); err != nil { return nil, err } if payload.Included != nil { includedMap := make(map[string]*Node) for _, included := range payload.Included { key := fmt.Sprintf("%s,%s", included.Type, included.ID) includedMap[key] = included } var models []interface{} for _, data := range payload.Data { model := reflect.New(t.Elem()) err := unmarshalNode(data, model, &includedMap) if err != nil { return nil, err } models = append(models, model.Interface()) } return models, nil } var models []interface{} for _, data := range payload.Data { model := reflect.New(t.Elem()) err := unmarshalNode(data, model, nil) if err != nil { return nil, err } models = append(models, model.Interface()) } return models, nil } func unmarshalNode(data *Node, model reflect.Value, included *map[string]*Node) (err error) { defer func() { if r := recover(); r != nil { err = fmt.Errorf("data is not a jsonapi representation of '%v'", model.Type()) } }() modelValue := model.Elem() modelType := model.Type().Elem() var er error for i := 0; i < modelValue.NumField(); i++ { fieldType := modelType.Field(i) tag := fieldType.Tag.Get("jsonapi") if tag == "" { continue } fieldValue := modelValue.Field(i) args := strings.Split(tag, ",") if len(args) < 1 { er = ErrBadJSONAPIStructTag break } annotation := args[0] if (annotation == annotationClientID && len(args) != 1) || (annotation != annotationClientID && len(args) < 2) { er = ErrBadJSONAPIStructTag break } if annotation == "primary" { if data.ID == "" { continue } // Check the JSON API Type if data.Type != args[1] { er = fmt.Errorf( "Trying to Unmarshal an object of type %#v, but %#v does not match", data.Type, args[1], ) break } // ID will have to be transmitted as astring per the JSON API spec v := reflect.ValueOf(data.ID) // Deal with PTRS var kind reflect.Kind if fieldValue.Kind() == reflect.Ptr { kind = fieldType.Type.Elem().Kind() } else { kind = fieldType.Type.Kind() } // Handle String case if kind == reflect.String { assign(fieldValue, v) continue } // Value was not a string... only other supported type was a numeric, // which would have been sent as a float value. floatValue, err := strconv.ParseFloat(data.ID, 64) if err != nil { // Could not convert the value in the "id" attr to a float er = ErrBadJSONAPIID break } // Convert the numeric float to one of the supported ID numeric types // (int[8,16,32,64] or uint[8,16,32,64]) var idValue reflect.Value switch kind { case reflect.Int: n := int(floatValue) idValue = reflect.ValueOf(&n) case reflect.Int8: n := int8(floatValue) idValue = reflect.ValueOf(&n) case reflect.Int16: n := int16(floatValue) idValue = reflect.ValueOf(&n) case reflect.Int32: n := int32(floatValue) idValue = reflect.ValueOf(&n) case reflect.Int64: n := int64(floatValue) idValue = reflect.ValueOf(&n) case reflect.Uint: n := uint(floatValue) idValue = reflect.ValueOf(&n) case reflect.Uint8: n := uint8(floatValue) idValue = reflect.ValueOf(&n) case reflect.Uint16: n := uint16(floatValue) idValue = reflect.ValueOf(&n) case reflect.Uint32: n := uint32(floatValue) idValue = reflect.ValueOf(&n) case reflect.Uint64: n := uint64(floatValue) idValue = reflect.ValueOf(&n) default: // We had a JSON float (numeric), but our field was not one of the // allowed numeric types er = ErrBadJSONAPIID break } assign(fieldValue, idValue) } else if annotation == annotationClientID { if data.ClientID == "" { continue } fieldValue.Set(reflect.ValueOf(data.ClientID)) } else if annotation == "attr" { attributes := data.Attributes if attributes == nil || len(data.Attributes) == 0 { continue } var iso8601 bool if len(args) > 2 { for _, arg := range args[2:] { if arg == "iso8601" { iso8601 = true } } } val := attributes[args[1]] // continue if the attribute was not included in the request if val == nil { continue } v := reflect.ValueOf(val) // Handle field of type time.Time if fieldValue.Type() == reflect.TypeOf(time.Time{}) { if iso8601 { var tm string if v.Kind() == reflect.String { tm = v.Interface().(string) } else { er = ErrInvalidISO8601 break } t, err := time.Parse(iso8601TimeFormat, tm) if err != nil { er = ErrInvalidISO8601 break } fieldValue.Set(reflect.ValueOf(t)) continue } var at int64 if v.Kind() == reflect.Float64 { at = int64(v.Interface().(float64)) } else if v.Kind() == reflect.Int { at = v.Int() } else { er = ErrInvalidTime break } t := time.Unix(at, 0) fieldValue.Set(reflect.ValueOf(t)) continue } if fieldValue.Type() == reflect.TypeOf([]string(nil)) { values := make([]string, v.Len()) for i := 0; i < v.Len(); i++ { values[i] = v.Index(i).Interface().(string) } fieldValue.Set(reflect.ValueOf(values)) continue } if fieldValue.Type() == reflect.TypeOf(new(time.Time)) { if iso8601 { var tm string if v.Kind() == reflect.String { tm = v.Interface().(string) } else { er = ErrInvalidISO8601 break } v, err := time.Parse(iso8601TimeFormat, tm) if err != nil { er = ErrInvalidISO8601 break } t := &v fieldValue.Set(reflect.ValueOf(t)) continue } var at int64 if v.Kind() == reflect.Float64 { at = int64(v.Interface().(float64)) } else if v.Kind() == reflect.Int { at = v.Int() } else { er = ErrInvalidTime break } v := time.Unix(at, 0) t := &v fieldValue.Set(reflect.ValueOf(t)) continue } // JSON value was a float (numeric) if v.Kind() == reflect.Float64 { floatValue := v.Interface().(float64) // The field may or may not be a pointer to a numeric; the kind var // will not contain a pointer type var kind reflect.Kind if fieldValue.Kind() == reflect.Ptr { kind = fieldType.Type.Elem().Kind() } else { kind = fieldType.Type.Kind() } var numericValue reflect.Value switch kind { case reflect.Int: n := int(floatValue) numericValue = reflect.ValueOf(&n) case reflect.Int8: n := int8(floatValue) numericValue = reflect.ValueOf(&n) case reflect.Int16: n := int16(floatValue) numericValue = reflect.ValueOf(&n) case reflect.Int32: n := int32(floatValue) numericValue = reflect.ValueOf(&n) case reflect.Int64: n := int64(floatValue) numericValue = reflect.ValueOf(&n) case reflect.Uint: n := uint(floatValue) numericValue = reflect.ValueOf(&n) case reflect.Uint8: n := uint8(floatValue) numericValue = reflect.ValueOf(&n) case reflect.Uint16: n := uint16(floatValue) numericValue = reflect.ValueOf(&n) case reflect.Uint32: n := uint32(floatValue) numericValue = reflect.ValueOf(&n) case reflect.Uint64: n := uint64(floatValue) numericValue = reflect.ValueOf(&n) case reflect.Float32: n := float32(floatValue) numericValue = reflect.ValueOf(&n) case reflect.Float64: n := float64(floatValue) numericValue = reflect.ValueOf(&n) default: // We had a JSON float (numeric), but our field was a non numeric // type er = ErrUnknownFieldNumberType break } assign(fieldValue, numericValue) continue } // Field was a Pointer type if fieldValue.Kind() == reflect.Ptr { var concreteVal reflect.Value switch cVal := val.(type) { case string: concreteVal = reflect.ValueOf(&cVal) case bool: concreteVal = reflect.ValueOf(&cVal) case complex64: concreteVal = reflect.ValueOf(&cVal) case complex128: concreteVal = reflect.ValueOf(&cVal) case uintptr: concreteVal = reflect.ValueOf(&cVal) default: er = ErrUnsupportedPtrType break } if fieldValue.Type() != concreteVal.Type() { // TODO: use fmt.Errorf so that you can have a more informative // message that reports the attempted type that was not supported. er = ErrUnsupportedPtrType break } fieldValue.Set(concreteVal) continue } fieldValue.Set(reflect.ValueOf(val)) } else if annotation == "relation" { isSlice := fieldValue.Type().Kind() == reflect.Slice if data.Relationships == nil || data.Relationships[args[1]] == nil { continue } if isSlice { // to-many relationship relationship := new(RelationshipManyNode) buf := bytes.NewBuffer(nil) json.NewEncoder(buf).Encode(data.Relationships[args[1]]) json.NewDecoder(buf).Decode(relationship) data := relationship.Data models := reflect.New(fieldValue.Type()).Elem() for _, n := range data { m := reflect.New(fieldValue.Type().Elem().Elem()) if err := unmarshalNode( fullNode(n, included), m, included, ); err != nil { er = err break } models = reflect.Append(models, m) } fieldValue.Set(models) } else { // to-one relationships relationship := new(RelationshipOneNode) buf := bytes.NewBuffer(nil) json.NewEncoder(buf).Encode( data.Relationships[args[1]], ) json.NewDecoder(buf).Decode(relationship) /* http://jsonapi.org/format/#document-resource-object-relationships http://jsonapi.org/format/#document-resource-object-linkage relationship can have a data node set to null (e.g. to disassociate the relationship) so unmarshal and set fieldValue only if data obj is not null */ if relationship.Data == nil { continue } m := reflect.New(fieldValue.Type().Elem()) if err := unmarshalNode( fullNode(relationship.Data, included), m, included, ); err != nil { er = err break } fieldValue.Set(m) } } else { er = fmt.Errorf(unsuportedStructTagMsg, annotation) } } if er != nil { return er } return nil } func fullNode(n *Node, included *map[string]*Node) *Node { includedKey := fmt.Sprintf("%s,%s", n.Type, n.ID) if included != nil && (*included)[includedKey] != nil { return (*included)[includedKey] } return n } // assign will take the value specified and assign it to the field; if // field is expecting a ptr assign will assign a ptr. func assign(field, value reflect.Value) { if field.Kind() == reflect.Ptr { field.Set(value) } else { field.Set(reflect.Indirect(value)) } }