package schema import ( "container/list" "fmt" "reflect" "strings" ) // defines schema for a json object type Schema struct { // Type of the object Type JavascriptType `json:"type,omitempty"` // Description of the object. This is rendered as inline documentation in the // IDE. This is manually injected here using schema.Docs Description string `json:"description,omitempty"` // Schemas for the fields of an struct. The keys are the first json tag. // The values are the schema for the type of the field Properties map[string]*Schema `json:"properties,omitempty"` // The schema for all values of an array Items *Schema `json:"items,omitempty"` // The schema for any properties not mentioned in the Schema.Properties field. // this validates Maps in bundle configuration // OR // A boolean type with value false. Setting false here validates that all // properties in the yaml file have been defined in the json schema // // Its type during runtime will either be *Schema or bool AdditionalProperties any `json:"additionalProperties,omitempty"` // Required properties for the object. Any fields missing the "omitempty" // tag will be included Required []string `json:"required,omitempty"` } /* This function translates golang types into json schema. Here is the mapping between json schema types and golang types - GolangType -> Javascript type / Json Schema2 - bool -> boolean - string -> string - int (all variants) -> number - float (all variants) -> number - map[string]MyStruct -> { type: object, additionalProperties: {}} for details visit: https://json-schema.org/understanding-json-schema/reference/object.html#additional-properties - []MyStruct -> {type: array, items: {}} for details visit: https://json-schema.org/understanding-json-schema/reference/array.html#items - []MyStruct -> {type: object, properties: {}, additionalProperties: false} for details visit: https://json-schema.org/understanding-json-schema/reference/object.html#properties */ func NewSchema(golangType reflect.Type, docs *Docs) (*Schema, error) { tracker := newTracker() schema, err := safeToSchema(golangType, docs, "", tracker) if err != nil { return nil, tracker.errWithTrace(err.Error()) } return schema, nil } type JavascriptType string const ( Invalid JavascriptType = "invalid" Boolean JavascriptType = "boolean" String JavascriptType = "string" Number JavascriptType = "number" Object JavascriptType = "object" Array JavascriptType = "array" ) func javascriptType(golangType reflect.Type) (JavascriptType, error) { switch golangType.Kind() { case reflect.Bool: return Boolean, nil case reflect.String: return String, nil case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64, reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64, reflect.Float32, reflect.Float64: return Number, nil case reflect.Struct: return Object, nil case reflect.Map: if golangType.Key().Kind() != reflect.String { return Invalid, fmt.Errorf("only strings map keys are valid. key type: %v", golangType.Key().Kind()) } return Object, nil case reflect.Array, reflect.Slice: return Array, nil default: return Invalid, fmt.Errorf("unhandled golang type: %s", golangType) } } // A wrapper over toSchema function to detect cycles in the bundle config struct func safeToSchema(golangType reflect.Type, docs *Docs, traceId string, tracker *tracker) (*Schema, error) { // WE ERROR OUT IF THERE ARE CYCLES IN THE JSON SCHEMA // There are mechanisms to deal with cycles though recursive identifiers in json // schema. However if we use them, we would need to make sure we are able to detect // cycles two properties (directly or indirectly) pointing to each other // // see: https://json-schema.org/understanding-json-schema/structuring.html#recursion // for details if tracker.hasCycle(golangType) { return nil, fmt.Errorf("cycle detected") } tracker.step(golangType, traceId) props, err := toSchema(golangType, docs, tracker) if err != nil { return nil, err } tracker.undoStep(golangType) return props, nil } // This function returns all member fields of the provided type. // If the type has embedded (aka anonymous) fields, this function traverses // those in a breadth first manner func getStructFields(golangType reflect.Type) []reflect.StructField { fields := []reflect.StructField{} bfsQueue := list.New() for i := 0; i < golangType.NumField(); i++ { bfsQueue.PushBack(golangType.Field(i)) } for bfsQueue.Len() > 0 { front := bfsQueue.Front() field := front.Value.(reflect.StructField) bfsQueue.Remove(front) if !field.Anonymous { fields = append(fields, field) continue } fieldType := field.Type if fieldType.Kind() == reflect.Pointer { fieldType = fieldType.Elem() } for i := 0; i < fieldType.NumField(); i++ { bfsQueue.PushBack(fieldType.Field(i)) } } return fields } // params: // // golangType: golang type for which json schema properties to generate // docs: Struct containing documentation to be injected into the json schema generated // seenTypes : set of golang types already seen in path during recursion. // Used to identify cycles. // debugTrace: linked list of golang types encounted. In case of errors this // helps log where the error originated from func toSchema(golangType reflect.Type, docs *Docs, tracker *tracker) (*Schema, error) { // *Struct and Struct generate identical json schemas if golangType.Kind() == reflect.Pointer { return safeToSchema(golangType.Elem(), docs, "", tracker) } if golangType.Kind() == reflect.Interface { return &Schema{}, nil } rootJavascriptType, err := javascriptType(golangType) if err != nil { return nil, err } schema := &Schema{Type: rootJavascriptType} if docs != nil { schema.Description = docs.Documentation } // case array/slice if golangType.Kind() == reflect.Array || golangType.Kind() == reflect.Slice { elemGolangType := golangType.Elem() elemJavascriptType, err := javascriptType(elemGolangType) if err != nil { return nil, err } elemProps, err := safeToSchema(elemGolangType, docs, "", tracker) if err != nil { return nil, err } schema.Items = &Schema{ Type: elemJavascriptType, Properties: elemProps.Properties, AdditionalProperties: elemProps.AdditionalProperties, Items: elemProps.Items, Required: elemProps.Required, } } // case map if golangType.Kind() == reflect.Map { if golangType.Key().Kind() != reflect.String { return nil, fmt.Errorf("only string keyed maps allowed") } schema.AdditionalProperties, err = safeToSchema(golangType.Elem(), docs, "", tracker) if err != nil { return nil, err } } // case struct if golangType.Kind() == reflect.Struct { children := getStructFields(golangType) properties := map[string]*Schema{} required := []string{} for _, child := range children { // get child json tags childJsonTag := strings.Split(child.Tag.Get("json"), ",") childName := childJsonTag[0] // skip children that have no json tags, the first json tag is "" // or the first json tag is "-" if childName == "" || childName == "-" { continue } // get docs for the child if they exist var childDocs *Docs if docs != nil { if val, ok := docs.Children[childName]; ok { childDocs = &val } } // compute if the child is a required field. Determined by the // resence of "omitempty" in the json tags hasOmitEmptyTag := false for i := 1; i < len(childJsonTag); i++ { if childJsonTag[i] == "omitempty" { hasOmitEmptyTag = true } } if !hasOmitEmptyTag { required = append(required, childName) } // compute Schema.Properties for the child recursively fieldProps, err := safeToSchema(child.Type, childDocs, childName, tracker) if err != nil { return nil, err } properties[childName] = fieldProps } schema.AdditionalProperties = false schema.Properties = properties schema.Required = required } return schema, nil }