inversify-express-utils
Some utilities for the development of express applications with Inversify.
Installation
You can install inversify-express-utils
using npm:
npm install inversify inversify-express-utils reflect-metadata --save
The inversify-express-utils
type definitions are included in the npm module and require TypeScript 2.0.
Please refer to the InversifyJS documentation to learn more about the installation process.
The Basics
Step 1: Decorate your controllers
To use a class as a "controller" for your express app, simply add the @controller
decorator to the class. Similarly, decorate methods of the class to serve as request handlers.
The following example will declare a controller that responds to `GET /foo'.
import * as express from "express";
import { interfaces, controller, httpGet, httpPost, httpDelete, request, queryParam, response, requestParam } from "inversify-express-utils";
import { injectable, inject } from "inversify";
@controller("/foo")
export class FooController implements interfaces.Controller {
constructor( @inject("FooService") private fooService: FooService ) {}
@httpGet("/")
private index(@request() req: express.Request, @response() res: express.Response, @next() next: express.NextFunction): string {
return this.fooService.get(req.query.id);
}
@httpGet("/")
private list(@queryParam("start") start: number, @queryParam("count") count: number): string {
return this.fooService.get(start, count);
}
@httpPost("/")
private async create(@request() req: express.Request, @response() res: express.Response) {
try {
await this.fooService.create(req.body);
res.sendStatus(201);
} catch (err) {
res.status(400).json({ error: err.message });
}
}
@httpDelete("/:id")
private delete(@requestParam("id") id: string, @response() res: express.Response): Promise<void> {
return this.fooService.delete(id)
.then(() => res.sendStatus(204))
.catch((err: Error) => {
res.status(400).json({ error: err.message });
});
}
}
Step 2: Configure container and server
Configure the inversify container in your composition root as usual.
Then, pass the container to the InversifyExpressServer constructor. This will allow it to register all controllers and their dependencies from your container and attach them to the express app.
Then just call server.build() to prepare your app.
In order for the InversifyExpressServer to find your controllers, you must bind them to the TYPE.Controller
service identifier and tag the binding with the controller's name.
The Controller
interface exported by inversify-express-utils is empty and solely for convenience, so feel free to implement your own if you want.
import * as bodyParser from 'body-parser';
import { Container } from 'inversify';
import { interfaces, InversifyExpressServer, TYPE } from 'inversify-express-utils';
import "./controllers/foo_controller";
let container = new Container();
container.bind<FooService>('FooService').to(FooService);
let server = new InversifyExpressServer(container);
server.setConfig((app) => {
app.use(bodyParser.urlencoded({
extended: true
}));
app.use(bodyParser.json());
});
let app = server.build();
app.listen(3000);
Important information about the @controller decorator
Since the inversify-express-util@5.0.0
release. The @injectable
annotation is no longer required in classes annotated with @controller
. Declaring a type binding for controllers is also no longer required in classes annotated with @controller
.
:warning: Declaring a binding is not required for Controllers but it is required to import the controller one unique time. When the controller file is imported (e.g. import "./controllers/some_controller"
) the class is declared and the metadata is generated. If you don't import it the metadata is never generated and therefore the controller is not found. An example of this can be found here.
If you run the application multiple times within a shared runtime process (e.g. unit testing) you might need to clean up the existing metadata before each test.
import { cleanUpMetadata } from "inversify-express-utils";
describe("Some Component", () => {
beforeEach(() => {
cleanUpMetadata();
});
it("Some test case", () => {
});
});
You can find an example of this in our unit tests.
Inversify express utils will throw an exception if your application doesn't have controllers. You can disable this behaviour using the forceControllers
option. You can find some examples of forceControllers
in our unit tests.
InversifyExpressServer
A wrapper for an express Application.
.setConfig(configFn)
Optional - exposes the express application object for convenient loading of server-level middleware.
import * as morgan from 'morgan';
let server = new InversifyExpressServer(container);
server.setConfig((app) => {
var logger = morgan('combined')
app.use(logger);
});
.setErrorConfig(errorConfigFn)
Optional - like .setConfig()
, except this function is applied after registering all app middleware and controller routes.
let server = new InversifyExpressServer(container);
server.setErrorConfig((app) => {
app.use((err, req, res, next) => {
console.error(err.stack);
res.status(500).send('Something broke!');
});
});
.build()
Attaches all registered controllers and middleware to the express application. Returns the application instance.
let server = new InversifyExpressServer(container);
server
.setConfig(configFn)
.setErrorConfig(errorConfigFn)
.build()
.listen(3000, 'localhost', callback);
Using a custom Router
It is possible to pass a custom Router
instance to InversifyExpressServer
:
let container = new Container();
let router = express.Router({
caseSensitive: false,
mergeParams: false,
strict: false
});
let server = new InversifyExpressServer(container, router);
By default server will serve the API at /
path, but sometimes you might need to use different root namespace, for
example all routes should start with /api/v1
. It is possible to pass this setting via routing configuration to
InversifyExpressServer
let container = new Container();
let server = new InversifyExpressServer(container, null, { rootPath: "/api/v1" });
Using a custom express application
It is possible to pass a custom express.Application
instance to InversifyExpressServer
:
let container = new Container();
let app = express();
let server = new InversifyExpressServer(container, null, null, app);
Decorators
@controller(path, [middleware, ...])
Registers the decorated class as a controller with a root path, and optionally registers any global middleware for this controller.
@httpMethod(method, path, [middleware, ...])
Registers the decorated controller method as a request handler for a particular path and method, where the method name is a valid express routing method.
@SHORTCUT(path, [middleware, ...])
Shortcut decorators which are simply wrappers for @httpMethod
. Right now these include @httpGet
, @httpPost
, @httpPut
, @httpPatch
, @httpHead
, @httpDelete
, and @All
. For anything more obscure, use @httpMethod
(Or make a PR :smile:).
@request()
Binds a method parameter to the request object.
@response()
Binds a method parameter to the response object.
@requestParam(name: string)
Binds a method parameter to request.params object or to a specific parameter if a name is passed.
@queryParam(name: string)
Binds a method parameter to request.query or to a specific query parameter if a name is passed.
@requestBody()
Binds a method parameter to the request.body. If the bodyParser middleware is not used on the express app, this will bind the method parameter to the express request object.
Binds a method parameter to the request headers.
@cookies(name: string)
Binds a method parameter to the request cookies.
@next()
Binds a method parameter to the next() function.
@principal()
Binds a method parameter to the user principal obtained from the AuthProvider.
BaseHttpController
The BaseHttpController
is a base class that provides a significant amount of helper functions in order to aid writing testable controllers. When returning a response from a method defined on one of these controllers, you may use the response
object available on the httpContext
property described in the next section, or you may return an HttpResponseMessage
, or you may return an object that implements the IHttpActionResult interface.
The benefit of the latter two methods is that since your controller is no longer directly coupled to requiring an httpContext to send a response, unit testing controllers becomes extraordinarily simple as you no longer need to mock the entire response object, you can simply run assertions on the returned value. This API also allows us to make future improvements in this area and add in functionality that exists in similar frameworks (.NET WebAPI) such as media formatters, content negotation, etc.
import { injectable, inject } from "inversify";
import {
controller, httpGet, BaseHttpController, HttpResponseMessage, StringContent
} from "inversify-express-utils";
@controller("/")
class ExampleController extends BaseHttpController {
@httpGet("/")
public async get() {
const response = new HttpResponseMessage(200);
response.content = new StringContent("foo");
return response;
}
On the BaseHttpController, we provide a litany of helper methods to ease returning common IHttpActionResults including
- OkResult
- OkNegotiatedContentResult
- RedirectResult
- ResponseMessageResult
- StatusCodeResult
- BadRequestErrorMessageResult
- BadRequestResult
- ConflictResult
- CreatedNegotiatedContentResult
- ExceptionResult
- InternalServerError
- NotFoundResult
- JsonResult
import { injectable, inject } from "inversify";
import {
controller, httpGet, BaseHttpController
} from "inversify-express-utils";
@controller("/")
class ExampleController extends BaseHttpController {
@httpGet("/")
public async get() {
return this.ok("foo");
}
JsonResult
In some scenarios, you'll want to set the status code of the response.
This can be done by using the json
helper method provided by BaseHttpController
.
import {
controller, httpGet, BaseHttpController
} from "inversify-express-utils";
@controller("/")
export class ExampleController extends BaseHttpController {
@httpGet("/")
public async get() {
const content = { foo: "bar" };
const statusCode = 403;
return this.json(content, statusCode);
}
}
This gives you the flexability to create your own responses while keeping unit testing simple.
import { expect } from "chai";
import { ExampleController } from "./example-controller";
import { results } from "inversify-express-utils";
describe("ExampleController", () => {
let controller: ExampleController;
beforeEach(() => {
controller = new ExampleController();
});
describe("#get", () => {
it("should have a status code of 403", async () => {
const response = await controller.get();
expect(response).to.be.an.instanceof(results.JsonResult);
expect(response.statusCode).to.equal(403);
});
});
});
This example uses Mocha and Chai as a unit testing framework
HttpContext
The HttpContext
property allow us to access the current request,
response and user with ease. HttpContext
is available as a property
in controllers derived from BaseHttpController
.
import { injectable, inject } from "inversify";
import {
controller, httpGet, BaseHttpController
} from "inversify-express-utils";
@controller("/")
class UserPreferencesController extends BaseHttpController {
@inject("AuthService") private readonly _authService: AuthService;
@httpGet("/")
public async get() {
const token = this.httpContext.request.headers["x-auth-token"];
return await this._authService.getUserPreferences(token);
}
}
If you are creating a custom controller you will need to inject HttpContext
manually
using the @injectHttpContext
decorator:
import { injectable, inject } from "inversify";
import {
controller, httpGet, BaseHttpController, httpContext, interfaces
} from "inversify-express-utils";
const authService = inject("AuthService")
@controller("/")
class UserPreferencesController {
@injectHttpContext private readonly _httpContext: interfaces.HttpContext;
@authService private readonly _authService: AuthService;
@httpGet("/")
public async get() {
const token = this.httpContext.request.headers["x-auth-token"];
return await this._authService.getUserPreferences(token);
}
}
AuthProvider
The HttpContext
will not have access to the current user if you don't
create a custom AuthProvider
implementation:
const server = new InversifyExpressServer(
container, null, null, null, CustomAuthProvider
);
We need to implement the AuthProvider
interface.
The AuthProvider
allow us to get a user (Principal
):
import { injectable, inject } from "inversify";
import { interfaces } from "inversify-express-utils";
const authService = inject("AuthService");
@injectable()
class CustomAuthProvider implements interfaces.AuthProvider {
@authService private readonly _authService: AuthService;
public async getUser(
req: express.Request,
res: express.Response,
next: express.NextFunction
): Promise<interfaces.Principal> {
const token = req.headers["x-auth-token"]
const user = await this._authService.getUser(token);
const principal = new Principal(user);
return principal;
}
}
We also need to implement the Principal interface.
The Principal
interface allow us to:
- Access the details of a user
- Check if it has access to certain resource
- Check if it is authenticated
- Check if it is in a user role
class Principal implements interfaces.Principal<T = unknown> {
public details: T;
public constructor(details: T) {
this.details = details;
}
public isAuthenticated(): Promise<boolean> {
return Promise.resolve(true);
}
public isResourceOwner(resourceId: unknown): Promise<boolean> {
return Promise.resolve(resourceId === 1111);
}
public isInRole(role: string): Promise<boolean> {
return Promise.resolve(role === "admin");
}
}
We can then access the current user (Principal) via the HttpContext
:
@controller("/")
class UserDetailsController extends BaseHttpController {
@inject("AuthService") private readonly _authService: AuthService;
@httpGet("/")
public async getUserDetails() {
if (this.httpContext.user.isAuthenticated()) {
return this._authService.getUserDetails(this.httpContext.user.details.id);
} else {
throw new Error();
}
}
}
BaseMiddleware
Extending BaseMiddleware
allow us to inject dependencies
and to access the current HttpContext
in Express middleware function.
import { BaseMiddleware } from "inversify-express-utils";
@injectable()
class LoggerMiddleware extends BaseMiddleware {
@inject(TYPES.Logger) private readonly _logger: Logger;
public handler(
req: express.Request,
res: express.Response,
next: express.NextFunction
) {
if (this.httpContext.user.isAuthenticated()) {
this._logger.info(`${this.httpContext.user.details.email} => ${req.url}`);
} else {
this._logger.info(`Anonymous => ${req.url}`);
}
next();
}
}
We also need to declare some type bindings:
const container = new Container();
container.bind<Logger>(TYPES.Logger)
.to(Logger);
container.bind<LoggerMiddleware>(TYPES.LoggerMiddleware)
.to(LoggerMiddleware);
We can then inject TYPES.LoggerMiddleware
into one of our controllers.
@controller("/")
class UserDetailsController extends BaseHttpController {
@inject("AuthService") private readonly _authService: AuthService;
@httpGet("/", TYPES.LoggerMiddleware)
public async getUserDetails() {
if (this.httpContext.user.isAuthenticated()) {
return this._authService.getUserDetails(this.httpContext.user.details.id);
} else {
throw new Error();
}
}
}
Request-scope services
Middleware extending BaseMiddleware
is capable of re-binding services in the scope of a HTTP request.
This is useful if you need access to a HTTP request or context-specific property in a service that doesn't have
the direct access to them otherwise.
Consider the below TracingMiddleware
. In this example we want to capture the X-Trace-Id
header from the incoming request
and make it available to our IoC services as TYPES.TraceIdValue
:
import { inject, injectable } from "inversify";
import { BaseHttpController, BaseMiddleware, controller, httpGet } from "inversify-express-utils";
import * as express from "express";
const TYPES = {
TraceId: Symbol.for("TraceIdValue"),
TracingMiddleware: Symbol.for("TracingMiddleware"),
Service: Symbol.for("Service"),
};
@injectable()
class TracingMiddleware extends BaseMiddleware {
public handler(
req: express.Request,
res: express.Response,
next: express.NextFunction
) {
this.bind<string>(TYPES.TraceIdValue)
.toConstantValue(`${ req.header('X-Trace-Id') }`);
next();
}
}
@controller("/")
class TracingTestController extends BaseHttpController {
constructor(@inject(TYPES.Service) private readonly service: Service) {
super();
}
@httpGet(
"/",
TYPES.TracingMiddleware
)
public getTest() {
return this.service.doSomethingThatRequiresTheTraceID();
}
}
@injectable()
class Service {
constructor(@inject(TYPES.TraceIdValue) private readonly traceID: string) {
}
public doSomethingThatRequiresTheTraceID() {
}
}
The BaseMiddleware.bind()
method will bind the TYPES.TraceIdValue
if it hasn't been bound yet or re-bind if it has
already been bound.
Route Map
If we have some controllers like for example:
@controller("/api/user")
class UserController extends BaseHttpController {
@httpGet("/")
public get() {
return {};
}
@httpPost("/")
public post() {
return {};
}
@httpDelete("/:id")
public delete(@requestParam("id") id: string) {
return {};
}
}
@controller("/api/order")
class OrderController extends BaseHttpController {
@httpGet("/")
public get() {
return {};
}
@httpPost("/")
public post() {
return {};
}
@httpDelete("/:id")
public delete(@requestParam("id") id: string) {
return {};
}
}
We can use the prettyjson
function to see all the available enpoints:
import { getRouteInfo } from "inversify-express-utils";
import * as prettyjson from "prettyjson";
let server = new InversifyExpressServer(container);
let app = server.build();
const routeInfo = getRouteInfo(container);
console.log(prettyjson.render({ routes: routeInfo }));
:warning: Please ensure that you invoke getRouteInfo
after invoking server.build()
!
The output formatter by prettyjson
looks as follows:
routes:
-
controller: OrderController
endpoints:
-
route: GET /api/order/
-
route: POST /api/order/
-
path: DELETE /api/order/:id
route:
- @requestParam id
-
controller: UserController
endpoints:
-
route: GET /api/user/
-
route: POST /api/user/
-
route: DELETE /api/user/:id
args:
- @requestParam id
Examples
Some examples can be found at the inversify-express-example repository.
License
License under the MIT License (MIT)
Copyright © 2016-2017 Cody Simms
Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.