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How to Make a Server in Java in 5 Easy Steps
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Everyone likes the idea of reducing their workload when possible, yet the need to perform basic functionality arises almost constantly. Often, developers end up doing a lot of work for what seems like little return, especially when it comes to basic web design. You don’t need a full-fledged web server to perform quick checks for things like connectivity or to ensure basic functionality. This is where Java 18’s newfound web functionality comes into play. Java 18 sets up and configures a basic Java web server you can use for simple tasks. It only takes a matter of minutes, rather than hours, and it’s a pretty straightforward process. This guide demonstrates how to work with Java 18’s web functionality to create a server in Java. It also covers how to use the jwebserver
command line tool.
Before You Begin
If you have not already done so, create a Linode account and Compute Instance. See our Getting Started with Linode and Creating a Compute Instance guides.
Follow our Setting Up and Securing a Compute Instance guide to update your system. You may also wish to set the timezone, configure your hostname, create a limited user account, and harden SSH access.
sudo
. If you’re not familiar with the sudo
command, see the
Users and Groups guide.Getting Started with Java 18 (and above)
Java 18 and above have much to offer in the way of web functionality. The following sections provide an overview of Java 18 web functionality used for Java web hosting at the developer level. A detailed look at the jwebserver
command line tool is also provided.
A Quick Overview of Java 18
Java 18 has new functionality that makes it easier to create, test, debug, and simulate a Java API server, among other things. Java 18 also includes features like a vector API, previews pattern matching for switch expressions, and UTF-8 as the default character set. There are many advances in server-side programming when working with Java 18. In fact, there are nine major new features that you need to know about as a developer to create a better server:
- It deprecates
Finalizer
for removal in a future release to reduce security, performance, reliability, and maintainability issues. - It defines Stateful Packet Inspection (SPI) for Internet address resolution to better enable Project Loom, concurrency, new programming models, network protocols, customization, and testing.
- It provides a preview of pattern matching for
switch
expressions and statements (something that was originally previewed in Java 17, but enhanced in this release). - It reimplements
lang.reflect.Method
,Constructor
, andField
on top ofjava.lang.invoke
method handles. - It offers an out-of-the-box static Java HTTP file server with easy setup and minimal functionality.
- It formalizes a second iteration of the foreign function and memory API, which allows Java program interoperation with code and data outside the Java runtime.
- It creates a method to express vector computations that compile at runtime using the vector API originally introduced in Java 16 and updated in Java 17.
- It uses UTF-8 (the web’s standard charset) to make web server data encoding easier and reduce the potential for applications behaving incorrectly when they use a different default charset.
- It introduces the
@snippet
tag for JavaDoc’s Standard Doclet to simplify the inclusion of sample code in the API documentation.
Understanding the Java 18 Features for Web Development
jwebserver
reproduces the developer-grade web servers provided in languages like Python, Ruby, PHP, and Erlang. This is a basic web server, and the documentation tells you a lot about its limitations. On the upside, not stated in the documentation is that the simplicity of the web server doesn’t affect the operating systems or its features. It’s entirely possible to perform various setups and configurations that normally require a lot of time using the operating system and third party tools. Think of this server as something to use in a simulation, for demonstration purposes, or for tasks such as simulating an API. For example, a development team can use this web server to share files or create documentation.
Considering jwebserver Limitations
The web server included with Java 18 provides a simple activation server that developers can use to serve static files. These files must all appear in a single directory, but this isn’t a problem for the web server’s intended purpose. As described in JEP408, the purpose is to develop a minimal web server that a developer can interact with using an API that allows customization. The jwebserver
doesn’t replace commercial-grade web servers, such as Jetty, Netty, and Grizzly. Nor production-grade web servers, such as Apache Tomcat, Apache httpd, and NGINX. It does provide a functional option that allows developers to avoid installing and configuring full-fledged web servers just so they can get to work. The web server itself doesn’t provide security features, such as authentication, access control, or encryption. The idea here is to save time developing a full-fledged server. This allows the developer to perform testing, debugging, and development without a lot of effort.
How to Make a Server in Java
These steps walk you through the process of installing Java 18, accessing the jwebserver
command line utility, and performing specific tasks using jwebserver
and its associated components. It extends these basic principles to perform tasks like providing Java web hosting and performing server-side programming in Java, with less fuss than ever.
Step 1: Install Java 18
These steps show how to install the Oracle Java Development Kit (JDK) 18 on an Ubuntu 22.04 LTS system. They also work with other versions of Linux.
Update the package list:
sudo apt -y update
The output displays the number of packages that can be upgraded.
If there are packages to upgrade, do so:
sudo apt -y upgrade
The host system automatically upgrades and tells you about the need to reboot, if warranted.
Install the
openjdk
package:sudo apt install -y openjdk-18-jdk
Confirm the installation by checking the Java version:
java -version
Your system should now be running Java 18.
Now check the
jwebserver
version:jwebserver -version
The output shows the version of
jwebserver
you’re running, which should be18.0.2-ea
or above to work with the examples in this guide.
Step 2: Use the Java 18 Web Server
It’s entirely possible to perform some configuration of the jwebserver
using command line options. The following command line switches let you start jwebserver
with the settings needed for testing, debugging, demonstration, simulation, and other needs:
- -h, -?, or –help: Displays a help message, then exits.
- -b addr or –bind-address addr: Defines the address that
jwebserver
binds to so you can control the address used for access. The default setting is127.0.0.1
. If you want to use thejwebserver
for all interfaces, use the-b 0.0.0.0
or-b ::
switch option. - -d dir or –directory dir: Determines the directory that
jwebserver
uses for serving static files. The default is to use the current directory. - -o level or –output level: Sets the amount of information you see at the command line as
jwebserver
serves files. The allowed settings arenone
,info
, andverbose
, with the default setting beinginfo
. - -p port or –port port: Determines the port used to access
jwebserver
, with the default setting being8000
. - -version or –version: Displays version information for the copy of
jwebserver
being used.
Step 3: Create a Simple Web Page
The jwebserver
capabilities are limited to static files over HTTP/1.1 so you can’t create anything complex or dynamic. The idea is to keep things simple. Here is what happens with various kinds of content, in order of precedence:
- If there is an index file and you specify a directory, the index file, such as index.html, is served.
- When a specific file is requested, then that specific file is served.
- If a specific file is requested and it doesn’t exist, then a File Not Found error appears.
- When a directory is requested and it doesn’t contain an index file, a listing of the directory appears.
With these requirements in mind, you can create content like this and jwebserver
presents it without any problems.
- File: web/index.html
1 2 3 4 5 6 7 8 9 10 11 12 13 14
<!DOCTYPE html> <html> <head> <title> My Web Page </title> </head> <body> <h1>Greeting</h1> <p>Hello World!</p> </body> </html>
As you make requests of jwebserver
, the console screen displays the requests and their result code. If the resource exists, you see the location of the resource within the host directory and a result code of 200. Requesting non-existent resources displays a 404 result code. The server supports only HEAD
and GET
request methods. Anything else displays an error message. Consequently, the amount of damage a hacker can do is a lot more limited, but not eliminated entirely. For example, a hacker can’t use a POST
request method, but can theoretically use a smuggling attack.
Step 4: Verify Web Page Access
The default jwebserver
configuration assumes that you’re working from the host system, so use a loopback address of http://127.0.0.1:8000/
when using the default settings. This assumption has limitations, one of which is that you can’t access the web server outside of the local host. When working with a Linode or other cloud setup, you need the external address of the host system.
Configure the web server for this external address. This way you can access it on your workstation to perform tasks such as simulations, demonstrations, and peer collaboration. Start jwebserver
in the directory that contains your web data. To access the page you created in the previous section, you need to specify the -b <IP Address of Your Linode>
option. Otherwise, you need to add the -d dir
option as well. This comes with the danger of anyone accessing your jwebserver
unless you add some security. You can partially overcome this issue by ensuring that you use an uncommon port by adding the -p port
option for web server access.
Step 5: Perform Ad Hoc Coding
Using the jwebserver
command line tool is helpful when you have static content and want to perform tasks such as simulations, demonstrations, and collaborations. However, the Java 18 web server functionality wouldn’t be very helpful to developers if it did not perform tasks such as testing code. This is where the API (separate from jwebserver
) comes into play. It lets you work with the new Java 18 classes SimpleFileServer
, HttpHandlers
, and Request
. These classes allow you to programmatically build onto the simple functionality that jwebserver
provides using your custom code. This new API replaces the cumbersome com.sun.net.httpserver
API that is used in most of the examples you see online. In short, you spend less time playing with web server code and more time working with your custom application code.
The easiest way to walk through some code to see how Java 18 works is to use the jshell
utility. Put the following code together to see how a web server works from a coded perspective. Paste these lines of code in jshell
, adjust IP Address of Your Linode
and Absolute Path to Data
, then press Enter.
import com.sun.net.httpserver.*;
var addr = new InetSocketAddress("IP Address of Your Linode", 8000);
var path = Path.of("Absolute Path to Data");
var server = SimpleFileServer.createFileServer(addr, path, SimpleFileServer.OutputLevel.VERBOSE);
server.start();
At this point, you can access your server using your browser as usual. There are some important things to note about this code. First, there are no defaults, so you must provide all three of the items displayed in the example. Second, as when using jwebserver
, you need to provide the IP address of your cloud-based server as part of creating the addr
variable. Third, the path variable must be absolute, so you have to provide the username (or root) along with the directory containing the data. For example, when working with the example-user
and a web
data folder in that user’s home directory, the path needs to point to “/home/example-user/web”
. Otherwise, the createFileServer()
call outputs errors.
When you issue server.start()
the web server is ready to go. The output displays the same information as when using jwebserver
. The difference is that you can programmatically perform a number of additional tasks, such as adding a file handler and providing an output filter. To stop your server you issue the server.stop(seconds)
call with seconds
specifying the amount of time to wait before stopping the server.
Keeping Your Setup Safe
The Java 18 web server functionality doesn’t come with any built-in security features. You won’t be able to authenticate users, encrypt data, or perform other security-related tasks as part of the web server. Such functionality must be built into the additions you provide through the API. However, you can still add a certain level of security using the functionality that the platform provides. The following sections show you two ways of accomplishing this goal, but there are likely other strategies you can employ for your particular situation.
Working with the Firewall
The most basic way to secure your web server is to configure the UFW (Uncomplicated Firewall) to manage requests. Begin by ensuring that your web server is configured to use a non-traditional port. Then set UFW to disallow the conventional ports and allow the port of your choosing. When configuring the firewall, set it up to allow access only from select IP addresses using particular protocols. This approach, while not completely perfect, greatly increases the work required to find your web server, much less do anything nefarious with it. Afterward you must enable the firewall, because it’s inactive by default.
Configuring a Secure Environment
Some of the techniques you use for other security needs also work with the Java 18 web server. For example, you can use chmod
to ensure no one can do anything with the files in the host directory other than read them. To do this, set up groups that have access to the directory and its files. Next, ensure that anyone who fits into the other category has zero access. Unlike a firewall, this approach requires a means to authenticate the user at the platform level before allowing access to the web server. However, to do this you’d need to add custom code using the API to make the process possible. Unfortunately, this starts to take the simple web services outside the realm of simple.
Conclusion
You now know how to install, configure, and work with the web server functionality included with Java 18. Remember this web server isn’t designed to function as a production- or commercial-quality server for your final application’s client needs. Rather, it provides an ad-hoc functionality for you to test and debug code, collaborate with your team, and demonstrate your final product. Consequently, it’s a useful part of your developer toolkit that favors simplicity, low resource usage, and reliability over robustness, functionality, and flexibility.
More Information
You may wish to consult the following resources for additional information on this topic. While these are provided in the hope that they will be useful, please note that we cannot vouch for the accuracy or timeliness of externally hosted materials.
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