OpenAPI v3 Code Generator for Go.
go get -d github.com/ogen-go/ogen//go:generate go run github.com/ogen-go/ogen/cmd/ogen --target target/dir -package api --clean schema.jsonor using container:
docker run --rm \
--volume ".:/workspace" \
ghcr.io/ogen-go/ogen:latest --target workspace/petstore --clean workspace/petstore.yml- No reflection or
interface{}- The json encoding is code-generated, optimized and uses go-faster/jx for speed and overcoming
encoding/jsonlimitations - Validation is code-generated according to spec
- The json encoding is code-generated, optimized and uses go-faster/jx for speed and overcoming
- Code-generated static radix router
- No more boilerplate
- Structures are generated from OpenAPI v3 specification
- Arguments, headers, url queries are parsed according to specification into structures
- String formats like
uuid,date,date-time,uriare represented by go types directly
- Statically typed client and server
- Convenient support for optional, nullable and optional nullable fields
- No more pointers
- Generated Optional[T], Nullable[T] or OptionalNullable[T] wrappers with helpers
- Special case for array handling with
nilsemantics relevant to specification- When array is optional,
nildenotes absence of value - When nullable,
nildenotes that value isnil - When required,
nilcurrently the same as[], but is actually invalid - If both nullable and required, wrapper will be generated (TODO)
- When array is optional,
- Generated sum types for oneOf
- Primitive types (
string,number) are detected by type - Discriminator field is used if defined in schema
- Type is inferred by unique fields if possible
- Primitive types (
- Extra Go struct field tags in the generated types
- OpenTelemetry tracing and metrics
Example generated structure from schema:
// Pet describes #/components/schemas/Pet.
type Pet struct {
Birthday time.Time `json:"birthday"`
Friends []Pet `json:"friends"`
ID int64 `json:"id"`
IP net.IP `json:"ip"`
IPV4 net.IP `json:"ip_v4"`
IPV6 net.IP `json:"ip_v6"`
Kind PetKind `json:"kind"`
Name string `json:"name"`
Next OptData `json:"next"`
Nickname NilString `json:"nickname"`
NullStr OptNilString `json:"nullStr"`
Rate time.Duration `json:"rate"`
Tag OptUUID `json:"tag"`
TestArray1 [][]string `json:"testArray1"`
TestDate OptTime `json:"testDate"`
TestDateTime OptTime `json:"testDateTime"`
TestDuration OptDuration `json:"testDuration"`
TestFloat1 OptFloat64 `json:"testFloat1"`
TestInteger1 OptInt `json:"testInteger1"`
TestTime OptTime `json:"testTime"`
Type OptPetType `json:"type"`
URI url.URL `json:"uri"`
UniqueID uuid.UUID `json:"unique_id"`
}Example generated server interface:
// Server handles operations described by OpenAPI v3 specification.
type Server interface {
PetGetByName(ctx context.Context, params PetGetByNameParams) (Pet, error)
// ...
}Example generated client method signature:
type PetGetByNameParams struct {
Name string
}
// GET /pet/{name}
func (c *Client) PetGetByName(ctx context.Context, params PetGetByNameParams) (res Pet, err error)Instead of using pointers, ogen generates generic wrappers.
For example, OptNilString is string that is optional (no value) and can be null.
// OptNilString is optional nullable string.
type OptNilString struct {
Value string
Set bool
Null bool
}Multiple convenience helper methods and functions are generated, some of them:
func (OptNilString) Get() (v string, ok bool)
func (OptNilString) IsNull() bool
func (OptNilString) IsSet() bool
func NewOptNilString(v string) OptNilStringIf ogen encounters recursive types that can't be expressed in go, pointers are used as fallback.
For oneOf sum-types are generated. ID that is one of [string, integer] will be represented like that:
type ID struct {
Type IDType
String string
Int int
}
// Also, some helpers:
func NewStringID(v string) ID
func NewIntID(v int) IDOpenAPI enables Specification Extensions,
which are implemented as patterned fields that are always prefixed by x-.
Optionally, server name can be specified by x-ogen-server-name, for example:
{
"openapi": "3.0.3",
"servers": [
{
"x-ogen-server-name": "production",
"url": "https://{region}.example.com/{val}/v1",
},
{
"x-ogen-server-name": "prefix",
"url": "/{val}/v1",
},
{
"x-ogen-server-name": "const",
"url": "https://cdn.example.com/v1"
}
],
(...)Optionally, type name can be specified by x-ogen-name, for example:
{
"$schema": "http://json-schema.org/draft-04/schema#",
"type": "object",
"x-ogen-name": "Name",
"properties": {
"foobar": {
"$ref": "#/$defs/FooBar"
}
},
"$defs": {
"FooBar": {
"x-ogen-name": "FooBar",
"type": "object",
"properties": {
"foo": {
"type": "string"
}
}
}
}
}Optionally, type name can be specified by x-ogen-properties, for example:
components:
schemas:
Node:
type: object
properties:
parent:
$ref: "#/components/schemas/Node"
child:
$ref: "#/components/schemas/Node"
x-ogen-properties:
parent:
name: "Prev"
child:
name: "Next"The generated source code looks like:
// Ref: #/components/schemas/Node
type Node struct {
Prev *Node `json:"parent"`
Next *Node `json:"child"`
}Optionally, additional Go struct field tags can be specified by x-oapi-codegen-extra-tags, for example:
components:
schemas:
Pet:
type: object
required:
- id
properties:
id:
type: integer
format: int64
x-oapi-codegen-extra-tags:
gorm: primaryKey
valid: customIdValidatorThe generated source code looks like:
// Ref: #/components/schemas/Pet
type Pet struct {
ID int64 `gorm:"primaryKey" valid:"customNameValidator" json:"id"`
}By default, ogen loads the entire JSON body into memory before decoding it.
Optionally, streaming JSON encoding can be enabled by x-ogen-json-streaming, for example:
requestBody:
required: true
content:
application/json:
x-ogen-json-streaming: true
schema:
type: array
items:
type: numberOptionally, operations can be grouped so a handler interface will be generated for each group of operations. This is useful for organizing operations for large APIs.
The group for operations on a path or individual operations can be specified by x-ogen-operation-group, for example:
paths:
/images:
x-ogen-operation-group: Images
get:
operationId: listImages
...
/images/{imageID}:
x-ogen-operation-group: Images
get:
operationId: getImageByID
...
/users:
x-ogen-operation-group: Users
get:
operationId: listUsers
...The generated handler interfaces look like this:
// x-ogen-operation-group: Images
type ImagesHandler interface {
ListImages(ctx context.Context, req *ListImagesRequest) (*ListImagesResponse, error)
GetImageByID(ctx context.Context, req *GetImagesByIDRequest) (*GetImagesByIDResponse, error)
}
// x-ogen-operation-group: Users
type UsersHandler interface {
ListUsers(ctx context.Context, req *ListUsersRequest) (*ListUsersResponse, error)
}
type Handler interface {
ImagesHandler
UsersHandler
// All un-grouped operations will be on this interface
}Code generation provides very efficient and flexible encoding and decoding of json:
// Decode decodes Error from json.
func (s *Error) Decode(d *jx.Decoder) error {
if s == nil {
return errors.New("invalid: unable to decode Error to nil")
}
return d.ObjBytes(func(d *jx.Decoder, k []byte) error {
switch string(k) {
case "code":
if err := func() error {
v, err := d.Int64()
s.Code = int64(v)
if err != nil {
return err
}
return nil
}(); err != nil {
return errors.Wrap(err, "decode field \"code\"")
}
case "message":
if err := func() error {
v, err := d.Str()
s.Message = string(v)
if err != nil {
return err
}
return nil
}(); err != nil {
return errors.Wrap(err, "decode field \"message\"")
}
default:
return d.Skip()
}
return nil
})
}
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