package analysis import ( "fmt" "github.com/go-openapi/spec" "github.com/go-openapi/strfmt" ) // SchemaOpts configures the schema analyzer type SchemaOpts struct { Schema *spec.Schema Root interface{} BasePath string _ struct{} } // Schema analysis, will classify the schema according to known // patterns. func Schema(opts SchemaOpts) (*AnalyzedSchema, error) { if opts.Schema == nil { return nil, fmt.Errorf("no schema to analyze") } a := &AnalyzedSchema{ schema: opts.Schema, root: opts.Root, basePath: opts.BasePath, } a.initializeFlags() a.inferKnownType() a.inferEnum() a.inferBaseType() if err := a.inferMap(); err != nil { return nil, err } if err := a.inferArray(); err != nil { return nil, err } a.inferTuple() if err := a.inferFromRef(); err != nil { return nil, err } a.inferSimpleSchema() return a, nil } // AnalyzedSchema indicates what the schema represents type AnalyzedSchema struct { schema *spec.Schema root interface{} basePath string hasProps bool hasAllOf bool hasItems bool hasAdditionalProps bool hasAdditionalItems bool hasRef bool IsKnownType bool IsSimpleSchema bool IsArray bool IsSimpleArray bool IsMap bool IsSimpleMap bool IsExtendedObject bool IsTuple bool IsTupleWithExtra bool IsBaseType bool IsEnum bool } // Inherits copies value fields from other onto this schema func (a *AnalyzedSchema) inherits(other *AnalyzedSchema) { if other == nil { return } a.hasProps = other.hasProps a.hasAllOf = other.hasAllOf a.hasItems = other.hasItems a.hasAdditionalItems = other.hasAdditionalItems a.hasAdditionalProps = other.hasAdditionalProps a.hasRef = other.hasRef a.IsKnownType = other.IsKnownType a.IsSimpleSchema = other.IsSimpleSchema a.IsArray = other.IsArray a.IsSimpleArray = other.IsSimpleArray a.IsMap = other.IsMap a.IsSimpleMap = other.IsSimpleMap a.IsExtendedObject = other.IsExtendedObject a.IsTuple = other.IsTuple a.IsTupleWithExtra = other.IsTupleWithExtra a.IsBaseType = other.IsBaseType a.IsEnum = other.IsEnum } func (a *AnalyzedSchema) inferFromRef() error { if a.hasRef { sch := new(spec.Schema) sch.Ref = a.schema.Ref err := spec.ExpandSchema(sch, a.root, nil) if err != nil { return err } rsch, err := Schema(SchemaOpts{ Schema: sch, Root: a.root, BasePath: a.basePath, }) if err != nil { // NOTE(fredbi): currently the only cause for errors is // unresolved ref. Since spec.ExpandSchema() expands the // schema recursively, there is no chance to get there, // until we add more causes for error in this schema analysis. return err } a.inherits(rsch) } return nil } func (a *AnalyzedSchema) inferSimpleSchema() { a.IsSimpleSchema = a.IsKnownType || a.IsSimpleArray || a.IsSimpleMap } func (a *AnalyzedSchema) inferKnownType() { tpe := a.schema.Type format := a.schema.Format a.IsKnownType = tpe.Contains("boolean") || tpe.Contains("integer") || tpe.Contains("number") || tpe.Contains("string") || (format != "" && strfmt.Default.ContainsName(format)) || (a.isObjectType() && !a.hasProps && !a.hasAllOf && !a.hasAdditionalProps && !a.hasAdditionalItems) } func (a *AnalyzedSchema) inferMap() error { if a.isObjectType() { hasExtra := a.hasProps || a.hasAllOf a.IsMap = a.hasAdditionalProps && !hasExtra a.IsExtendedObject = a.hasAdditionalProps && hasExtra if a.IsMap { if a.schema.AdditionalProperties.Schema != nil { msch, err := Schema(SchemaOpts{ Schema: a.schema.AdditionalProperties.Schema, Root: a.root, BasePath: a.basePath, }) if err != nil { return err } a.IsSimpleMap = msch.IsSimpleSchema } else if a.schema.AdditionalProperties.Allows { a.IsSimpleMap = true } } } return nil } func (a *AnalyzedSchema) inferArray() error { // an array has Items defined as an object schema, otherwise we qualify this JSON array as a tuple // (yes, even if the Items array contains only one element). // arrays in JSON schema may be unrestricted (i.e no Items specified). // Note that arrays in Swagger MUST have Items. Nonetheless, we analyze unrestricted arrays. // // NOTE: the spec package misses the distinction between: // items: [] and items: {}, so we consider both arrays here. a.IsArray = a.isArrayType() && (a.schema.Items == nil || a.schema.Items.Schemas == nil) if a.IsArray && a.hasItems { if a.schema.Items.Schema != nil { itsch, err := Schema(SchemaOpts{ Schema: a.schema.Items.Schema, Root: a.root, BasePath: a.basePath, }) if err != nil { return err } a.IsSimpleArray = itsch.IsSimpleSchema } } if a.IsArray && !a.hasItems { a.IsSimpleArray = true } return nil } func (a *AnalyzedSchema) inferTuple() { tuple := a.hasItems && a.schema.Items.Schemas != nil a.IsTuple = tuple && !a.hasAdditionalItems a.IsTupleWithExtra = tuple && a.hasAdditionalItems } func (a *AnalyzedSchema) inferBaseType() { if a.isObjectType() { a.IsBaseType = a.schema.Discriminator != "" } } func (a *AnalyzedSchema) inferEnum() { a.IsEnum = len(a.schema.Enum) > 0 } func (a *AnalyzedSchema) initializeFlags() { a.hasProps = len(a.schema.Properties) > 0 a.hasAllOf = len(a.schema.AllOf) > 0 a.hasRef = a.schema.Ref.String() != "" a.hasItems = a.schema.Items != nil && (a.schema.Items.Schema != nil || len(a.schema.Items.Schemas) > 0) a.hasAdditionalProps = a.schema.AdditionalProperties != nil && (a.schema.AdditionalProperties != nil || a.schema.AdditionalProperties.Allows) a.hasAdditionalItems = a.schema.AdditionalItems != nil && (a.schema.AdditionalItems.Schema != nil || a.schema.AdditionalItems.Allows) } func (a *AnalyzedSchema) isObjectType() bool { return !a.hasRef && (a.schema.Type == nil || a.schema.Type.Contains("") || a.schema.Type.Contains("object")) } func (a *AnalyzedSchema) isArrayType() bool { return !a.hasRef && (a.schema.Type != nil && a.schema.Type.Contains("array")) }