// 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" "strings" "github.com/go-openapi/jsonpointer" "github.com/go-openapi/swag" ) // QueryParam creates a query parameter func QueryParam(name string) *Parameter { return &Parameter{ParamProps: ParamProps{Name: name, In: "query"}} } // HeaderParam creates a header parameter, this is always required by default func HeaderParam(name string) *Parameter { return &Parameter{ParamProps: ParamProps{Name: name, In: "header", Required: true}} } // PathParam creates a path parameter, this is always required func PathParam(name string) *Parameter { return &Parameter{ParamProps: ParamProps{Name: name, In: "path", Required: true}} } // BodyParam creates a body parameter func BodyParam(name string, schema *Schema) *Parameter { return &Parameter{ParamProps: ParamProps{Name: name, In: "body", Schema: schema}, SimpleSchema: SimpleSchema{Type: "object"}} } // FormDataParam creates a body parameter func FormDataParam(name string) *Parameter { return &Parameter{ParamProps: ParamProps{Name: name, In: "formData"}} } // FileParam creates a body parameter func FileParam(name string) *Parameter { return &Parameter{ParamProps: ParamProps{Name: name, In: "formData"}, SimpleSchema: SimpleSchema{Type: "file"}} } // SimpleArrayParam creates a param for a simple array (string, int, date etc) func SimpleArrayParam(name, tpe, fmt string) *Parameter { return &Parameter{ParamProps: ParamProps{Name: name}, SimpleSchema: SimpleSchema{Type: jsonArray, CollectionFormat: "csv", Items: &Items{SimpleSchema: SimpleSchema{Type: tpe, Format: fmt}}}} } // ParamRef creates a parameter that's a json reference func ParamRef(uri string) *Parameter { p := new(Parameter) p.Ref = MustCreateRef(uri) return p } // ParamProps describes the specific attributes of an operation parameter // // NOTE: // - Schema is defined when "in" == "body": see validate // - AllowEmptyValue is allowed where "in" == "query" || "formData" type ParamProps struct { Description string `json:"description,omitempty"` Name string `json:"name,omitempty"` In string `json:"in,omitempty"` Required bool `json:"required,omitempty"` Schema *Schema `json:"schema,omitempty"` AllowEmptyValue bool `json:"allowEmptyValue,omitempty"` } // Parameter a unique parameter is defined by a combination of a [name](#parameterName) and [location](#parameterIn). // // There are five possible parameter types. // * Path - Used together with [Path Templating](#pathTemplating), where the parameter value is actually part // of the operation's URL. This does not include the host or base path of the API. For example, in `/items/{itemId}`, // the path parameter is `itemId`. // * Query - Parameters that are appended to the URL. For example, in `/items?id=###`, the query parameter is `id`. // * Header - Custom headers that are expected as part of the request. // * Body - The payload that's appended to the HTTP request. Since there can only be one payload, there can only be // _one_ body parameter. The name of the body parameter has no effect on the parameter itself and is used for // documentation purposes only. Since Form parameters are also in the payload, body and form parameters cannot exist // together for the same operation. // * Form - Used to describe the payload of an HTTP request when either `application/x-www-form-urlencoded` or // `multipart/form-data` are used as the content type of the request (in Swagger's definition, // the [`consumes`](#operationConsumes) property of an operation). This is the only parameter type that can be used // to send files, thus supporting the `file` type. Since form parameters are sent in the payload, they cannot be // declared together with a body parameter for the same operation. Form parameters have a different format based on // the content-type used (for further details, consult http://www.w3.org/TR/html401/interact/forms.html#h-17.13.4). // * `application/x-www-form-urlencoded` - Similar to the format of Query parameters but as a payload. // For example, `foo=1&bar=swagger` - both `foo` and `bar` are form parameters. This is normally used for simple // parameters that are being transferred. // * `multipart/form-data` - each parameter takes a section in the payload with an internal header. // For example, for the header `Content-Disposition: form-data; name="submit-name"` the name of the parameter is // `submit-name`. This type of form parameters is more commonly used for file transfers. // // For more information: http://goo.gl/8us55a#parameterObject type Parameter struct { Refable CommonValidations SimpleSchema VendorExtensible ParamProps } // JSONLookup look up a value by the json property name func (p Parameter) JSONLookup(token string) (interface{}, error) { if ex, ok := p.Extensions[token]; ok { return &ex, nil } if token == jsonRef { return &p.Ref, nil } r, _, err := jsonpointer.GetForToken(p.CommonValidations, token) if err != nil && !strings.HasPrefix(err.Error(), "object has no field") { return nil, err } if r != nil { return r, nil } r, _, err = jsonpointer.GetForToken(p.SimpleSchema, token) if err != nil && !strings.HasPrefix(err.Error(), "object has no field") { return nil, err } if r != nil { return r, nil } r, _, err = jsonpointer.GetForToken(p.ParamProps, token) return r, err } // WithDescription a fluent builder method for the description of the parameter func (p *Parameter) WithDescription(description string) *Parameter { p.Description = description return p } // Named a fluent builder method to override the name of the parameter func (p *Parameter) Named(name string) *Parameter { p.Name = name return p } // WithLocation a fluent builder method to override the location of the parameter func (p *Parameter) WithLocation(in string) *Parameter { p.In = in return p } // Typed a fluent builder method for the type of the parameter value func (p *Parameter) Typed(tpe, format string) *Parameter { p.Type = tpe p.Format = format return p } // CollectionOf a fluent builder method for an array parameter func (p *Parameter) CollectionOf(items *Items, format string) *Parameter { p.Type = jsonArray p.Items = items p.CollectionFormat = format return p } // WithDefault sets the default value on this parameter func (p *Parameter) WithDefault(defaultValue interface{}) *Parameter { p.AsOptional() // with default implies optional p.Default = defaultValue return p } // AllowsEmptyValues flags this parameter as being ok with empty values func (p *Parameter) AllowsEmptyValues() *Parameter { p.AllowEmptyValue = true return p } // NoEmptyValues flags this parameter as not liking empty values func (p *Parameter) NoEmptyValues() *Parameter { p.AllowEmptyValue = false return p } // AsOptional flags this parameter as optional func (p *Parameter) AsOptional() *Parameter { p.Required = false return p } // AsRequired flags this parameter as required func (p *Parameter) AsRequired() *Parameter { if p.Default != nil { // with a default required makes no sense return p } p.Required = true return p } // WithMaxLength sets a max length value func (p *Parameter) WithMaxLength(max int64) *Parameter { p.MaxLength = &max return p } // WithMinLength sets a min length value func (p *Parameter) WithMinLength(min int64) *Parameter { p.MinLength = &min return p } // WithPattern sets a pattern value func (p *Parameter) WithPattern(pattern string) *Parameter { p.Pattern = pattern return p } // WithMultipleOf sets a multiple of value func (p *Parameter) WithMultipleOf(number float64) *Parameter { p.MultipleOf = &number return p } // WithMaximum sets a maximum number value func (p *Parameter) WithMaximum(max float64, exclusive bool) *Parameter { p.Maximum = &max p.ExclusiveMaximum = exclusive return p } // WithMinimum sets a minimum number value func (p *Parameter) WithMinimum(min float64, exclusive bool) *Parameter { p.Minimum = &min p.ExclusiveMinimum = exclusive return p } // WithEnum sets a the enum values (replace) func (p *Parameter) WithEnum(values ...interface{}) *Parameter { p.Enum = append([]interface{}{}, values...) return p } // WithMaxItems sets the max items func (p *Parameter) WithMaxItems(size int64) *Parameter { p.MaxItems = &size return p } // WithMinItems sets the min items func (p *Parameter) WithMinItems(size int64) *Parameter { p.MinItems = &size return p } // UniqueValues dictates that this array can only have unique items func (p *Parameter) UniqueValues() *Parameter { p.UniqueItems = true return p } // AllowDuplicates this array can have duplicates func (p *Parameter) AllowDuplicates() *Parameter { p.UniqueItems = false return p } // UnmarshalJSON hydrates this items instance with the data from JSON func (p *Parameter) UnmarshalJSON(data []byte) error { if err := json.Unmarshal(data, &p.CommonValidations); err != nil { return err } if err := json.Unmarshal(data, &p.Refable); err != nil { return err } if err := json.Unmarshal(data, &p.SimpleSchema); err != nil { return err } if err := json.Unmarshal(data, &p.VendorExtensible); err != nil { return err } return json.Unmarshal(data, &p.ParamProps) } // MarshalJSON converts this items object to JSON func (p Parameter) MarshalJSON() ([]byte, error) { b1, err := json.Marshal(p.CommonValidations) if err != nil { return nil, err } b2, err := json.Marshal(p.SimpleSchema) if err != nil { return nil, err } b3, err := json.Marshal(p.Refable) if err != nil { return nil, err } b4, err := json.Marshal(p.VendorExtensible) if err != nil { return nil, err } b5, err := json.Marshal(p.ParamProps) if err != nil { return nil, err } return swag.ConcatJSON(b3, b1, b2, b4, b5), nil }