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* addition * attribute * auditing * availability * available * bandwidth * browser * business * cadence * chartmuseum * client * column * content * demonstrate * described * endpoints * facilitate * github * harbor * information * instance * manual * meaningful * operation * overridden * password * possible * project * refactor * replication * requires * running * scanned * settings * signup * those * unsigned * vulnerability -- Also removes trailing space from a filename Signed-off-by: Josh Soref <jsoref@users.noreply.github.com>
312 lines
11 KiB
Markdown
312 lines
11 KiB
Markdown
# swagger
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In Stratoscale, we really like the idea of API-first services, and we also really like Go.
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We saw the go-swagger library, and thought that most of it can really help us. Generating code from
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swagger files is a big problem with a lot of corner cases, and go-swagger is doing great job.
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The one thing that we felt missing, is customization of the server to run with our design principles:
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* Custom `main` function
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* Dependency injection
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* Limited scopes with unit testing.
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Also:
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* Adding you functions to the generated `configure_swagger_*.go` seems to be a burden.
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* Lack of Interface that the service implement.
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* Complicated and custom http clients and runtime.
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Those are the changes that this contributor templates are providing:
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## Server
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### The new `restapi` package exposes interfaces
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* Those interfaces can implemented by the developer and are the business logic of the service.
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* The implementation of those is extensible.
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* The implementation is separated from the generated code.
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### The `restapi` returns an `http.Handler`
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The `restapi.Handler` (see [example](./example/restapi/configure_swagger_petstore.go)) function returns
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a standard `http.Handler`
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* Given objects that implements the business logic, we can create a simple http handler.
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* This handler is standard go http.Handler, so we can now use any other middleware, library, or framework
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that support it.
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* This handler is standard, so we understand it better.
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## Client
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* The new client package exposes interfaces, so functions in our code can receive those
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interfaces which can be mocked for testing.
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* The new client has a config that gets an `*url.URL` to customize the endpoint.
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* The new client has a config that gets an `http.RoundTripper` to customize client with libraries, middleware or
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frameworks that support the standard library's objects.
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# Example Walk-Through
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In the [example package](https://github.com/Stratoscale/swagger/tree/master/example) you'll find generated code and usage of the pet-store
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[swagger file](./example/swagger.yaml).
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* The `restapi`, `models` and `client` are auto-generated by the stratoscale/swagger docker file.
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* The `internal` package was manually added and contains the server's business logic.
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* The `main.go` file is the entrypoint and contains initializations and dependency injections of the project.
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## Server
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### [restapi](https://github.com/Stratoscale/swagger/tree/master/example/restapi)
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This package is autogenerated and contains the server routing and parameters parsing.
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The modified version contains `restapi.PetAPI` and `restapi.StoreAPI` which were auto generated.
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```go
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// PetAPI
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type PetAPI interface {
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PetCreate(ctx context.Context, params pet.PetCreateParams) middleware.Responder
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PetDelete(ctx context.Context, params pet.PetDeleteParams) middleware.Responder
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PetGet(ctx context.Context, params pet.PetGetParams) middleware.Responder
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PetList(ctx context.Context, params pet.PetListParams) middleware.Responder
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PetUpdate(ctx context.Context, params pet.PetUpdateParams) middleware.Responder
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}
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//go:generate mockery -name StoreAPI -inpkg
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// StoreAPI
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type StoreAPI interface {
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InventoryGet(ctx context.Context, params store.InventoryGetParams) middleware.Responder
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OrderCreate(ctx context.Context, params store.OrderCreateParams) middleware.Responder
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// OrderDelete is For valid response try integer IDs with positive integer value. Negative or non-integer values will generate API errors
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OrderDelete(ctx context.Context, params store.OrderDeleteParams) middleware.Responder
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// OrderGet is For valid response try integer IDs with value >= 1 and <= 10. Other values will generated exceptions
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OrderGet(ctx context.Context, params store.OrderGetParams) middleware.Responder
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}
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```
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Each function matches an `operationId` in the swagger file and they are grouped according to
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the operation `tags`.
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There is also a `restapi.Config`:
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```go
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// Config is configuration for Handler
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type Config struct {
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PetAPI
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StoreAPI
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Logger func(string, ...interface{})
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// InnerMiddleware is for the handler executors. These do not apply to the swagger.json document.
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// The middleware executes after routing but before authentication, binding and validation
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InnerMiddleware func(http.Handler) http.Handler
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}
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```
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This config is auto generated and contains all the declared interfaces above.
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It is used to initiate an http.Handler with the `Handler` function:
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```go
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// Handler returns an http.Handler given the handler configuration
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// It mounts all the business logic implementers in the right routing.
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func Handler(c Config) (http.Handler, error) {
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...
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```
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Let's look how we use this generated code to build our server.
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### [internal](https://github.com/Stratoscale/swagger/tree/master/example/internal)
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The `internal` package is **not** auto generated and contains the business logic of our server.
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We can see two structs that implements the `restapi.PetAPI` and `restapi.StoreAPI` interfaces,
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needed to make our server work.
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When adding or removing functions from our REST API, we can just add or remove functions to those
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business logic units. We can also create new logical units when they are added to our REST API.
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### [main.go](./example/main.go)
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The main function is pretty straight forward. We initiate our business logic units.
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Then create a config for our rest API. We then create a standard `http.Handler` which we can
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update with middleware, test with `httptest`, or to use with other standard tools.
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The last piece is to run the handler with `http.ListenAndServe` or to use it with an `http.Server` -
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it is all very customizable.
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```go
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func main() {
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// Initiate business logic implementers.
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// This is the main function, so here the implementers' dependencies can be
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// injected, such as database, parameters from environment variables, or different
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// clients for different APIs.
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p := internal.Pet{}
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s := internal.Store{}
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// Initiate the http handler, with the objects that are implementing the business logic.
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h, err := restapi.Handler(restapi.Config{
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PetAPI: &p,
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StoreAPI: &s,
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Logger: log.Printf,
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})
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if err != nil {
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log.Fatal(err)
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}
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// Run the standard http server
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log.Fatal(http.ListenAndServe(":8080", h))
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}
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```
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## Client
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The client code is in the [client package](https://github.com/Stratoscale/swagger/tree/master/example/client) and is autogenerated.
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To create a new client we use the `client.Config` struct:
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```go
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type Config struct {
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// URL is the base URL of the upstream server
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URL *url.URL
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// Transport is an inner transport for the client
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Transport http.RoundTripper
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}
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```
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This enables us to use custom server endpoint or custom client middleware. Easily, with the
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standard components, and with any library that accepts them.
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The client is then generated with the New method:
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```go
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// New creates a new swagger petstore HTTP client.
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func New(c Config) *SwaggerPetstore { ... }
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```
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This method returns an object that has two important fields:
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```go
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type SwaggerPetstore {
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...
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Pet *pet.Client
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Store *store.Client
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}
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```
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Those fields are objects, which implements interfaces declared in the [pet](./example/client/pet) and
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[store](./example/client/store) packages:
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For example:
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```go
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// API is the interface of the pet client
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type API interface {
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// PetCreate adds a new pet to the store
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PetCreate(ctx context.Context, params *PetCreateParams) (*PetCreateCreated, error)
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// PetDelete deletes a pet
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PetDelete(ctx context.Context, params *PetDeleteParams) (*PetDeleteNoContent, error)
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// PetGet gets pet by it s ID
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PetGet(ctx context.Context, params *PetGetParams) (*PetGetOK, error)
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// PetList lists pets
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PetList(ctx context.Context, params *PetListParams) (*PetListOK, error)
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// PetUpdate updates an existing pet
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PetUpdate(ctx context.Context, params *PetUpdateParams) (*PetUpdateCreated, error)
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}
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```
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They are very similar to the server interfaces, and can be used by consumers of those APIs
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(instead of using the actual client or the `*Pet` struct)
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# Authentication
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Authenticating and policy enforcement of the application is done in several stages, described below.
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## Define security in swagger.yaml
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Add to the root of the swagger.yaml the security and security definitions sections.
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```yaml
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securityDefinitions:
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token:
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type: apiKey
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in: header
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name: Cookie
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security:
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- token: []
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```
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The securityDefinitions section defines different security types that your application can handle.
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The supported types by go-swagger are:
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* `apiKey` - token that should be able to processed.
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* `oauth2` - token and scopes that should be processed.
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* and `basic` - user/password that should be processed.
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Here we defined an apiKey, that is passed through the Cookie header.
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The `security` section defines the default security enforcement for the application. You can select
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different securityDefinitions, as the keys, and apply "scopes" as the values. Those default definitions
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can be overridden in each route by a section with the same name:
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```yaml
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paths:
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/pets:
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post:
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[...]
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security:
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- token: [admin]
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```
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Here we overridden the scope of token in the POST /pets URL so that only admin can use this API.
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Let's see how we can use this functionality.
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## Writing Security Handlers
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Once we created a security definition named "token", a function called "AuthToken" was added to the `restapi.Config`:
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```go
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type Config struct {
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...
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// AuthToken Applies when the "Cookie" header is set
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AuthToken func(token string) (interface{}, error)
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}
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```
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This function gets the content of the Cookie header, and should return an `interface{}` and `error`.
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The `interface{}` is the object that should represent the user that performed the request, it should
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be nil to return an unauthorized 401 HTTP response. If the returned `error` is not nil, an HTTP 500,
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internal server error will be returned.
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The returned object, will be stored in the request context under the `restapi.AuthKey` key.
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There is another function that we should know about, in the `restapi.Config` struct:
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```go
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type Config struct {
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...
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// Authorizer is used to authorize a request after the Auth function was called using the "Auth*" functions
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// and the principal was stored in the context in the "AuthKey" context value.
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Authorizer func(*http.Request) error
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}
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```
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This one is a custom defined function that gets the request and can return an error.
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If the returned error is not nil, and 403 HTTP error will be returned to the client - here the policy
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enforcement comes to place.
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There are two things that this function should be aware of:
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1. The user - it can retrieve the user information from the context: `ctx.Value(restapi.AuthKey).(MyUserType)`.
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Usually, a server will have a function for extracting this user information and returns a concrete
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type which could be used by all the routes.
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2. The route - it can retrieve the route using the go-swagger function: `middleware.MatchedRouteFrom(*http.Request)`.
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So no need to parse URL and test the request method.
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This route struct contains the route information. If for example, we want to check the scopes that were
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defined for the current route in the swagger.yaml we can use the code below:
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```go
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for _, auth := range route.Authenticators {
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for scopeName, scopeValues := range auth.Scopes {
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for _, scopeValue := range scopeValues {
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...
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}
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}
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}
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```
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