// Copyright 2015 go-swagger maintainers // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package spec import ( "encoding/json" "fmt" "net/url" "strings" "github.com/go-openapi/jsonpointer" "github.com/go-openapi/swag" ) // BooleanProperty creates a boolean property func BooleanProperty() *Schema { return &Schema{SchemaProps: SchemaProps{Type: []string{"boolean"}}} } // BoolProperty creates a boolean property func BoolProperty() *Schema { return BooleanProperty() } // StringProperty creates a string property func StringProperty() *Schema { return &Schema{SchemaProps: SchemaProps{Type: []string{"string"}}} } // CharProperty creates a string property func CharProperty() *Schema { return &Schema{SchemaProps: SchemaProps{Type: []string{"string"}}} } // Float64Property creates a float64/double property func Float64Property() *Schema { return &Schema{SchemaProps: SchemaProps{Type: []string{"number"}, Format: "double"}} } // Float32Property creates a float32/float property func Float32Property() *Schema { return &Schema{SchemaProps: SchemaProps{Type: []string{"number"}, Format: "float"}} } // Int8Property creates an int8 property func Int8Property() *Schema { return &Schema{SchemaProps: SchemaProps{Type: []string{"integer"}, Format: "int8"}} } // Int16Property creates an int16 property func Int16Property() *Schema { return &Schema{SchemaProps: SchemaProps{Type: []string{"integer"}, Format: "int16"}} } // Int32Property creates an int32 property func Int32Property() *Schema { return &Schema{SchemaProps: SchemaProps{Type: []string{"integer"}, Format: "int32"}} } // Int64Property creates an int64 property func Int64Property() *Schema { return &Schema{SchemaProps: SchemaProps{Type: []string{"integer"}, Format: "int64"}} } // StrFmtProperty creates a property for the named string format func StrFmtProperty(format string) *Schema { return &Schema{SchemaProps: SchemaProps{Type: []string{"string"}, Format: format}} } // DateProperty creates a date property func DateProperty() *Schema { return &Schema{SchemaProps: SchemaProps{Type: []string{"string"}, Format: "date"}} } // DateTimeProperty creates a date time property func DateTimeProperty() *Schema { return &Schema{SchemaProps: SchemaProps{Type: []string{"string"}, Format: "date-time"}} } // MapProperty creates a map property func MapProperty(property *Schema) *Schema { return &Schema{SchemaProps: SchemaProps{Type: []string{"object"}, AdditionalProperties: &SchemaOrBool{Allows: true, Schema: property}}} } // RefProperty creates a ref property func RefProperty(name string) *Schema { return &Schema{SchemaProps: SchemaProps{Ref: MustCreateRef(name)}} } // RefSchema creates a ref property func RefSchema(name string) *Schema { return &Schema{SchemaProps: SchemaProps{Ref: MustCreateRef(name)}} } // ArrayProperty creates an array property func ArrayProperty(items *Schema) *Schema { if items == nil { return &Schema{SchemaProps: SchemaProps{Type: []string{"array"}}} } return &Schema{SchemaProps: SchemaProps{Items: &SchemaOrArray{Schema: items}, Type: []string{"array"}}} } // ComposedSchema creates a schema with allOf func ComposedSchema(schemas ...Schema) *Schema { s := new(Schema) s.AllOf = schemas return s } // SchemaURL represents a schema url type SchemaURL string // MarshalJSON marshal this to JSON func (r SchemaURL) MarshalJSON() ([]byte, error) { if r == "" { return []byte("{}"), nil } v := map[string]interface{}{"$schema": string(r)} return json.Marshal(v) } // UnmarshalJSON unmarshal this from JSON func (r *SchemaURL) UnmarshalJSON(data []byte) error { var v map[string]interface{} if err := json.Unmarshal(data, &v); err != nil { return err } if v == nil { return nil } if vv, ok := v["$schema"]; ok { if str, ok := vv.(string); ok { u, err := url.Parse(str) if err != nil { return err } *r = SchemaURL(u.String()) } } return nil } // type ExtraSchemaProps map[string]interface{} // // JSONSchema represents a structure that is a json schema draft 04 // type JSONSchema struct { // SchemaProps // ExtraSchemaProps // } // // MarshalJSON marshal this to JSON // func (s JSONSchema) MarshalJSON() ([]byte, error) { // b1, err := json.Marshal(s.SchemaProps) // if err != nil { // return nil, err // } // b2, err := s.Ref.MarshalJSON() // if err != nil { // return nil, err // } // b3, err := s.Schema.MarshalJSON() // if err != nil { // return nil, err // } // b4, err := json.Marshal(s.ExtraSchemaProps) // if err != nil { // return nil, err // } // return swag.ConcatJSON(b1, b2, b3, b4), nil // } // // UnmarshalJSON marshal this from JSON // func (s *JSONSchema) UnmarshalJSON(data []byte) error { // var sch JSONSchema // if err := json.Unmarshal(data, &sch.SchemaProps); err != nil { // return err // } // if err := json.Unmarshal(data, &sch.Ref); err != nil { // return err // } // if err := json.Unmarshal(data, &sch.Schema); err != nil { // return err // } // if err := json.Unmarshal(data, &sch.ExtraSchemaProps); err != nil { // return err // } // *s = sch // return nil // } type SchemaProps struct { ID string `json:"id,omitempty"` Ref Ref `json:"-"` Schema SchemaURL `json:"-"` Description string `json:"description,omitempty"` Type StringOrArray `json:"type,omitempty"` Format string `json:"format,omitempty"` Title string `json:"title,omitempty"` Default interface{} `json:"default,omitempty"` Maximum *float64 `json:"maximum,omitempty"` ExclusiveMaximum bool `json:"exclusiveMaximum,omitempty"` Minimum *float64 `json:"minimum,omitempty"` ExclusiveMinimum bool `json:"exclusiveMinimum,omitempty"` MaxLength *int64 `json:"maxLength,omitempty"` MinLength *int64 `json:"minLength,omitempty"` Pattern string `json:"pattern,omitempty"` MaxItems *int64 `json:"maxItems,omitempty"` MinItems *int64 `json:"minItems,omitempty"` UniqueItems bool `json:"uniqueItems,omitempty"` MultipleOf *float64 `json:"multipleOf,omitempty"` Enum []interface{} `json:"enum,omitempty"` MaxProperties *int64 `json:"maxProperties,omitempty"` MinProperties *int64 `json:"minProperties,omitempty"` Required []string `json:"required,omitempty"` Items *SchemaOrArray `json:"items,omitempty"` AllOf []Schema `json:"allOf,omitempty"` OneOf []Schema `json:"oneOf,omitempty"` AnyOf []Schema `json:"anyOf,omitempty"` Not *Schema `json:"not,omitempty"` Properties map[string]Schema `json:"properties,omitempty"` AdditionalProperties *SchemaOrBool `json:"additionalProperties,omitempty"` PatternProperties map[string]Schema `json:"patternProperties,omitempty"` Dependencies Dependencies `json:"dependencies,omitempty"` AdditionalItems *SchemaOrBool `json:"additionalItems,omitempty"` Definitions Definitions `json:"definitions,omitempty"` } type SwaggerSchemaProps struct { Discriminator string `json:"discriminator,omitempty"` ReadOnly bool `json:"readOnly,omitempty"` XML *XMLObject `json:"xml,omitempty"` ExternalDocs *ExternalDocumentation `json:"externalDocs,omitempty"` Example interface{} `json:"example,omitempty"` } // Schema the schema object allows the definition of input and output data types. // These types can be objects, but also primitives and arrays. // This object is based on the [JSON Schema Specification Draft 4](http://json-schema.org/) // and uses a predefined subset of it. // On top of this subset, there are extensions provided by this specification to allow for more complete documentation. // // For more information: http://goo.gl/8us55a#schemaObject type Schema struct { VendorExtensible SchemaProps SwaggerSchemaProps ExtraProps map[string]interface{} `json:"-"` } // JSONLookup implements an interface to customize json pointer lookup func (s Schema) JSONLookup(token string) (interface{}, error) { if ex, ok := s.Extensions[token]; ok { return &ex, nil } if ex, ok := s.ExtraProps[token]; ok { return &ex, nil } r, _, err := jsonpointer.GetForToken(s.SchemaProps, token) if r != nil || (err != nil && !strings.HasPrefix(err.Error(), "object has no field")) { return r, err } r, _, err = jsonpointer.GetForToken(s.SwaggerSchemaProps, token) return r, err } // WithID sets the id for this schema, allows for chaining func (s *Schema) WithID(id string) *Schema { s.ID = id return s } // WithTitle sets the title for this schema, allows for chaining func (s *Schema) WithTitle(title string) *Schema { s.Title = title return s } // WithDescription sets the description for this schema, allows for chaining func (s *Schema) WithDescription(description string) *Schema { s.Description = description return s } // WithProperties sets the properties for this schema func (s *Schema) WithProperties(schemas map[string]Schema) *Schema { s.Properties = schemas return s } // SetProperty sets a property on this schema func (s *Schema) SetProperty(name string, schema Schema) *Schema { if s.Properties == nil { s.Properties = make(map[string]Schema) } s.Properties[name] = schema return s } // WithAllOf sets the all of property func (s *Schema) WithAllOf(schemas ...Schema) *Schema { s.AllOf = schemas return s } // WithMaxProperties sets the max number of properties an object can have func (s *Schema) WithMaxProperties(max int64) *Schema { s.MaxProperties = &max return s } // WithMinProperties sets the min number of properties an object must have func (s *Schema) WithMinProperties(min int64) *Schema { s.MinProperties = &min return s } // Typed sets the type of this schema for a single value item func (s *Schema) Typed(tpe, format string) *Schema { s.Type = []string{tpe} s.Format = format return s } // AddType adds a type with potential format to the types for this schema func (s *Schema) AddType(tpe, format string) *Schema { s.Type = append(s.Type, tpe) if format != "" { s.Format = format } return s } // CollectionOf a fluent builder method for an array parameter func (s *Schema) CollectionOf(items Schema) *Schema { s.Type = []string{"array"} s.Items = &SchemaOrArray{Schema: &items} return s } // WithDefault sets the default value on this parameter func (s *Schema) WithDefault(defaultValue interface{}) *Schema { s.Default = defaultValue return s } // WithRequired flags this parameter as required func (s *Schema) WithRequired(items ...string) *Schema { s.Required = items return s } // AddRequired adds field names to the required properties array func (s *Schema) AddRequired(items ...string) *Schema { s.Required = append(s.Required, items...) return s } // WithMaxLength sets a max length value func (s *Schema) WithMaxLength(max int64) *Schema { s.MaxLength = &max return s } // WithMinLength sets a min length value func (s *Schema) WithMinLength(min int64) *Schema { s.MinLength = &min return s } // WithPattern sets a pattern value func (s *Schema) WithPattern(pattern string) *Schema { s.Pattern = pattern return s } // WithMultipleOf sets a multiple of value func (s *Schema) WithMultipleOf(number float64) *Schema { s.MultipleOf = &number return s } // WithMaximum sets a maximum number value func (s *Schema) WithMaximum(max float64, exclusive bool) *Schema { s.Maximum = &max s.ExclusiveMaximum = exclusive return s } // WithMinimum sets a minimum number value func (s *Schema) WithMinimum(min float64, exclusive bool) *Schema { s.Minimum = &min s.ExclusiveMinimum = exclusive return s } // WithEnum sets a the enum values (replace) func (s *Schema) WithEnum(values ...interface{}) *Schema { s.Enum = append([]interface{}{}, values...) return s } // WithMaxItems sets the max items func (s *Schema) WithMaxItems(size int64) *Schema { s.MaxItems = &size return s } // WithMinItems sets the min items func (s *Schema) WithMinItems(size int64) *Schema { s.MinItems = &size return s } // UniqueValues dictates that this array can only have unique items func (s *Schema) UniqueValues() *Schema { s.UniqueItems = true return s } // AllowDuplicates this array can have duplicates func (s *Schema) AllowDuplicates() *Schema { s.UniqueItems = false return s } // AddToAllOf adds a schema to the allOf property func (s *Schema) AddToAllOf(schemas ...Schema) *Schema { s.AllOf = append(s.AllOf, schemas...) return s } // WithDiscriminator sets the name of the discriminator field func (s *Schema) WithDiscriminator(discriminator string) *Schema { s.Discriminator = discriminator return s } // AsReadOnly flags this schema as readonly func (s *Schema) AsReadOnly() *Schema { s.ReadOnly = true return s } // AsWritable flags this schema as writeable (not read-only) func (s *Schema) AsWritable() *Schema { s.ReadOnly = false return s } // WithExample sets the example for this schema func (s *Schema) WithExample(example interface{}) *Schema { s.Example = example return s } // WithExternalDocs sets/removes the external docs for/from this schema. // When you pass empty strings as params the external documents will be removed. // When you pass non-empty string as one value then those values will be used on the external docs object. // So when you pass a non-empty description, you should also pass the url and vice versa. func (s *Schema) WithExternalDocs(description, url string) *Schema { if description == "" && url == "" { s.ExternalDocs = nil return s } if s.ExternalDocs == nil { s.ExternalDocs = &ExternalDocumentation{} } s.ExternalDocs.Description = description s.ExternalDocs.URL = url return s } // WithXMLName sets the xml name for the object func (s *Schema) WithXMLName(name string) *Schema { if s.XML == nil { s.XML = new(XMLObject) } s.XML.Name = name return s } // WithXMLNamespace sets the xml namespace for the object func (s *Schema) WithXMLNamespace(namespace string) *Schema { if s.XML == nil { s.XML = new(XMLObject) } s.XML.Namespace = namespace return s } // WithXMLPrefix sets the xml prefix for the object func (s *Schema) WithXMLPrefix(prefix string) *Schema { if s.XML == nil { s.XML = new(XMLObject) } s.XML.Prefix = prefix return s } // AsXMLAttribute flags this object as xml attribute func (s *Schema) AsXMLAttribute() *Schema { if s.XML == nil { s.XML = new(XMLObject) } s.XML.Attribute = true return s } // AsXMLElement flags this object as an xml node func (s *Schema) AsXMLElement() *Schema { if s.XML == nil { s.XML = new(XMLObject) } s.XML.Attribute = false return s } // AsWrappedXML flags this object as wrapped, this is mostly useful for array types func (s *Schema) AsWrappedXML() *Schema { if s.XML == nil { s.XML = new(XMLObject) } s.XML.Wrapped = true return s } // AsUnwrappedXML flags this object as an xml node func (s *Schema) AsUnwrappedXML() *Schema { if s.XML == nil { s.XML = new(XMLObject) } s.XML.Wrapped = false return s } // MarshalJSON marshal this to JSON func (s Schema) MarshalJSON() ([]byte, error) { b1, err := json.Marshal(s.SchemaProps) if err != nil { return nil, fmt.Errorf("schema props %v", err) } b2, err := json.Marshal(s.VendorExtensible) if err != nil { return nil, fmt.Errorf("vendor props %v", err) } b3, err := s.Ref.MarshalJSON() if err != nil { return nil, fmt.Errorf("ref prop %v", err) } b4, err := s.Schema.MarshalJSON() if err != nil { return nil, fmt.Errorf("schema prop %v", err) } b5, err := json.Marshal(s.SwaggerSchemaProps) if err != nil { return nil, fmt.Errorf("common validations %v", err) } var b6 []byte if s.ExtraProps != nil { jj, err := json.Marshal(s.ExtraProps) if err != nil { return nil, fmt.Errorf("extra props %v", err) } b6 = jj } return swag.ConcatJSON(b1, b2, b3, b4, b5, b6), nil } // UnmarshalJSON marshal this from JSON func (s *Schema) UnmarshalJSON(data []byte) error { var sch Schema if err := json.Unmarshal(data, &sch.SchemaProps); err != nil { return err } if err := json.Unmarshal(data, &sch.Ref); err != nil { return err } if err := json.Unmarshal(data, &sch.Schema); err != nil { return err } if err := json.Unmarshal(data, &sch.SwaggerSchemaProps); err != nil { return err } var d map[string]interface{} if err := json.Unmarshal(data, &d); err != nil { return err } delete(d, "$ref") delete(d, "$schema") for _, pn := range swag.DefaultJSONNameProvider.GetJSONNames(s) { delete(d, pn) } for k, vv := range d { lk := strings.ToLower(k) if strings.HasPrefix(lk, "x-") { if sch.Extensions == nil { sch.Extensions = map[string]interface{}{} } sch.Extensions[k] = vv continue } if sch.ExtraProps == nil { sch.ExtraProps = map[string]interface{}{} } sch.ExtraProps[k] = vv } *s = sch return nil }