With the introduction of Angular Universal, a solution for dynamically prerendering Angular applications on the server side (SSR) and sending the content directly to the browser as 'already-bootstrapped' application, Angular became more interesting for many developers that were using a Node.js environment. It solved the problems of SEO optimization, empty page previews from Facebooks & others and resource management (For more information see https://scotch.io/tutorials/server-side-rendering-in-angular-2-with-angular-universal).
For traditional web developers in the Java enterprise environment with technologies like Spring Boot or Java EE, these technologies required the use of a separate Node.js runtime in combination with a web framework like Express.js or even worse, inter process communication between two servers.
This project provides a Java API to a local running Node.js instance that is responsible for server side rendering the Angular application. For this, a regular TCP connection (gRPC is planned in the future) is used to exchange the render requests and to receive the rendered pages.
After the initial request and response, the browser takes over and the single page application is fully running in the browser (No further server side rendering requests are required until the next F5 page refresh):
This repository is divided into several modules that all share the same Angular application
Module name | Content and responsibility |
---|---|
angularj-universal-application | Contains the main Angular application with several pages |
angularj-universal-renderer | Contains the main render SDK that provides the core functionality and allows a developer to implement an own render solution |
angularj-universal-renderer-tcp | Contains a specific render solution that uses a Node.js instance via a TCP connection for rendering requests |
angularj-universal-renderer-v8 | Contains a specific render solution that uses a Node.js instance via J2V8 language bindings for rendering requests (Note: This module is obsolete and deprecated - no further development and support!) |
angularj-universal-example-spring-boot | Contains a Spring Boot web application that serves the Angular application with the help of a custom written Spring Boot starter (See module bellow) |
angularj-universal-example-spring-boot-simple | Contains a Spring Boot web application that serves the Angular application without the help of the Spring Boot starter. This leads to a more simple example, but a lot more boiler plated code is required. For simplicity, this module is used as example |
angularj-universal-example-servlet | TODO: Provide a servlet example |
angularj-universal-spring-boot-starter | Custom Spring Boot starter that allows are better integration of a server side rendered application into the Spring Boot ecosystem |
It is really hard to cover all possible work flows and frameworks, so we are focusing on Spring Boot in this example, but other examples are provided as source code. Please don't hesitate to open a new issue and ask for help with a new framework. With your help we will be able to provide an example for your framework!
If you want to skip this tutorial, checkout the working example https://github.com/swaechter/angularj-universal/tree/master/angularj-universal-example-spring-boot-simple
The whole getting started process can be divided into three phases:
- Create a new Java application with Spring Boot as framework and Maven as build system
- Create a new Angular application inside the Java project
- Integrate the Angular application into the Java project
As mentioned, you can adapt these steps for your framework. If you want to skip the tutorial, just take a look at the example in angularj-universal-example-spring-boot-simple
and the Angular application angularj-universal-application
.
Head over to http://start.spring.io/
and create a new Spring Boot project with Maven. It is important to select Web
and DevTools
as dependency:
http://start.spring.io/
Download and import that Maven project in your favorite Java IDE. In addition, add the AngularJ Universal dependencies:
<dependency>
<groupId>ch.swaechter</groupId>
<artifactId>angularj-universal-renderer</artifactId>
<version>0.0.3</version>
</dependency>
<dependency>
<groupId>ch.swaechter</groupId>
<artifactId>angularj-universal-renderer-v8</artifactId>
<version>0.0.3</version>
</dependency>
Now that we have a project layout and the required Java dependencies, we can continue with phase 2 and create a new Angular application inside the Java project.
To make the integration with Java as smooth as possible, we will stick to the Maven default layout https://maven.apache.org/guides/introduction/introduction-to-the-standard-directory-layout.html
. The Angular application will be located in angularj-universal-example-spring-boot-simple/src/main/angular
and the build output in angularj-universal-example-spring-boot-simple/src/main/resources
.
Install the Angular CLI and create a new Angular application:
sudo npm install -g @angular/cli
cd angularj-universal-example-spring-boot-simple/src/main
ng new angular
Generate the universal component and add all required third party libraries:
cd angular
ng generate universal --client-project angular
npm install --save @nguniversal/module-map-ngfactory-loader @nguniversal/socket-engine
npm install --save-dev webpack-cli ts-loader
npm update
This will create a traditional single page application (SPA) that needs some adjustment and preparations. To enable lazy modules, change the file src/app/app.server.module.ts
to this:
import {NgModule} from '@angular/core';
import {ServerModule} from '@angular/platform-server';
import {AppModule} from './app.module';
import {AppComponent} from './app.component';
import {ModuleMapLoaderModule} from "@nguniversal/module-map-ngfactory-loader";
@NgModule({
imports: [
AppModule,
ServerModule,
// ModuleMapLoaderModule // Add this line // TODO: Check how to add this line - lazy loading is at the moment not supported!
],
bootstrap: [AppComponent],
})
export class AppServerModule {
}
To stick with the traditional Maven layout, change the output path of the application (Property projects.angular.architect.build.options.outputPath
) in angular.json
;
"outputPath": "../resources/public"
At the moment, the generated server bundle will not be relocatable (The required libraries from ǹode_modules
are not packaged into the build artifact), hence we have to build a relocatable bundle with webpack. Create the file webpack.config.js
:
const path = require('path');
const webpack = require('webpack');
const UglifyJsPlugin = require('uglifyjs-webpack-plugin');
module.exports = {
mode: 'development',
entry: {server: './server.ts'},
resolve: {extensions: ['.js', '.ts']},
target: 'node',
externals: [/(node_modules|main\..*\.js)/],
output: {
path: path.join(__dirname, '../resources'),
filename: '[name].js'
},
module: {
rules: [
{test: /\.ts$/, loader: 'ts-loader'}
]
},
plugins: [
// Temporary Fix for issue: https://github.com/angular/angular/issues/11580
// for "WARNING Critical dependency: the request of a dependency is an expression"
new webpack.ContextReplacementPlugin(
/(.+)?angular(\\|\/)core(.+)?/,
path.join(__dirname, 'src'), // location of your src
{} // a map of your routes
),
new webpack.ContextReplacementPlugin(
/(.+)?express(\\|\/)(.+)?/,
path.join(__dirname, 'src'),
{}
),
new UglifyJsPlugin({
uglifyOptions: {
ecma: 6,
compress: false,
mangle: false,
comments: false
}
})
]
};
Now we need to create the Node.js script that allows us to establish a TCP connection between the Java webserver and the Node.js rednering process. For this, create a script called server.ts
that provides the communication mechanism::
require('zone.js/dist/zone-node');
const socketEngine = require('@nguniversal/socket-engine');
const {AppServerModuleNgFactory} = require('./dist/angular-server/main');
const port: Number = parseInt(process.env.NODEPORT) || 9090;
console.log('Going to start the server on port: ' + port);
socketEngine.startSocketEngine(AppServerModuleNgFactory, [], 'localhost', port);
This script will provide a rendering service on port 9090
which we can use from the Java render engine (Note: Ensure, that this port is local-link only accessible! Not from another system!).
Now let's update our Node scripts to all three applications at once (Snipped from package.json
):
"scripts": {
"start": "npm run build",
"build": "ng build --prod && ng run angular:server && webpack --config webpack.config.js"
},
Now run npm start
or npm run build
and the traditional client side SPA application will land in angularj-universal-example-spring-boot-simple/src/main/resources/public
, the publicly accessible part of our web server. In addition, the relocatable server side bundle that will be loaded by the Java JVM can be found in angularj-universal-example-spring-boot-simple/src/main/resources/server.js
, the not publicly accessible part of our web server (Only the subdirectory public
is).
We can continue with the third phase and integrate the Angular application into the Java application and automate the NPM build (Because In cause you don't execute it, your application will fail).
Now we switch back to the Java part and create a web application with a controller and a service that is going to render our application.
Create a new Java class file angularj-universal-example-spring-boot-simple/src/main/java/ch/swaechter/angularjuniversal/example/springboot/simple/DemoApplication.java
with the following content bellow:
Note 1: In this example we only provide the /
route, but the example in angularj-universal-application
has several pages and hence routes (Home, keywords, about etc.). For every Angular route you have to define an own route in Spring Boot
Note 2: To avoid such manual and duplicated routes, check out the Spring Boot starter example in angularj-universal-example-spring-boot
. In the starter example, you can define all routes via the application.properties
and don't have to define any ModelAndView
at all.
package ch.swaechter.angularjuniversal.example.springboot.simple;
import ch.swaechter.angularjuniversal.renderer.Renderer;
import ch.swaechter.angularjuniversal.renderer.configuration.RenderConfiguration;
import ch.swaechter.angularjuniversal.renderer.engine.RenderEngineFactory;
import ch.swaechter.angularjuniversal.renderer.utils.RenderUtils;
import ch.swaechter.angularjuniversal.v8renderer.V8RenderEngineFactory;
import org.springframework.beans.factory.annotation.Autowired;
import org.springframework.boot.SpringApplication;
import org.springframework.boot.autoconfigure.SpringBootApplication;
import org.springframework.stereotype.Service;
import org.springframework.web.bind.annotation.GetMapping;
import org.springframework.web.bind.annotation.ResponseBody;
import org.springframework.web.bind.annotation.RestController;
import java.io.File;
import java.io.IOException;
import java.io.InputStream;
import java.nio.charset.StandardCharsets;
import java.util.concurrent.Future;
@SpringBootApplication
public class WebApplication {
public static void main(String[] args) {
SpringApplication.run(WebApplication.class, args);
}
@RestController
public class ContentController {
private final RenderService renderservice;
@Autowired
public ContentController(RenderService renderservice) {
this.renderservice = renderservice;
}
@ResponseBody
@GetMapping("/")
public String showIndex() throws Exception {
return renderservice.renderPage("/").get();
}
// Note: For every Angular route you have to provide a Java Spring Boot route - or just provide a wildcard route
}
@Service
public class RenderService {
private final Renderer renderer;
public RenderService() throws IOException {
// Load the template and create a temporary server bundle file from the resource (This file will of course never change until manually edited)
InputStream templateInputStream = getClass().getResourceAsStream("/public/index.html");
InputStream serverBundleInputStream = getClass().getResourceAsStream("/server.js");
String templateContent = RenderUtils.getStringFromInputStream(templateInputStream, StandardCharsets.UTF_8);
File serverBundleFile = RenderUtils.createTemporaryFileFromInputStream("serverbundle", "tmp", serverBundleInputStream);
// File serverBundleFile = new File("<Local server bundle on the file system>"); --> Also enable auto reload in the configuration
// Create the configuration. For real live reloading, don't use a temporary file but the real generated on from the file system
// The string "node" is the path or executable name of the Node.js process and has to match/be found
RenderConfiguration renderConfiguration = new RenderConfiguration.RenderConfigurationBuilder("node", 9090, serverBundleFile, templateContent).liveReload(false).build();
// Create the TCP render engine factory for spawning render engines
RenderEngineFactory renderEngineFactory = new TcpRenderEngineFactory();
// Create and start the renderer
this.renderer = new Renderer(renderConfiguration, renderEngineFactory);
this.renderer.startRenderer();
}
Future<String> renderPage(String uri) {
// Render a request and return a resolvable future
return renderer.addRenderRequest(uri);
}
}
}
Now start the Spring Boot application and head to the URL:
http://localhost:8080
You can test if the server side rendering is working if:
- You see the page in general
- You disable JavaScript temporary, reload and still see the page
- You inspect the source code of the current page and see the rendered page (Not only the content of the index.html file)
Be aware of these information:
- You have to build the Angular application with
npm run build
, otherwise the AngularJ Universal won't find the index template and relocatable server bundle and will fail. In case you want to integrate this into your regular Maven build, take a look at the Maven NPM/Node plugineirslett/frontend-maven-plugin
or just take a look at the usage inangularj-universal-application/pom.xml
- If you rebuild your Angular application you have to restart/reload the web application by default. You can avoid this problem if you use the the server bundle from the file system in the
RenderConfiguration
and enable the reload flag - All examples use the Angular application in
angularj-universal-application
to avoid duplication of Angular applications. Just be aware of these fact in case you are reading the source code and asking yourself where the application is. In case you want to use the examples for your own project, just copy away the example and integrate theangularj-universal-application
content and adjust thepom.xml
If you encounter a problem/bug or something isn't documented well enough, feel free to create an issue in the issue tracker (https://github.com/swaechter/angularj-universal/issues) or send me a mail ([email protected])
This project was heavily influenced by many other projects (A huge thank you to the authors):
- https://github.com/bennylut/hello-angular2-universal-j2v8 for providing an Angular 2 example that shows how the J2V8 library and Node.js can be used to render pages
- https://github.com/blacksonic/angular2-aot-cli-webpack-plugin for providing an example of a relocatable webpack bundle