There are two versions of this lab
- This one uses Render.com (jpa02r). The other one uses Heroku (jpa02h)
- Heroku is faster, but requires a credit card (though you will not be charged)
- Render.com is slower but doesn’t require a credit card
- You don’t need to do both. You can if you want, but there’s no extra credit for doing so.
Individual lab, but you may help one another
This is an individual lab on the topic of Java web apps on render.
You may cooperate with one or more pair partners from your team to help in debugging and understanding the lab, but each person should complete the lab separately for themselves.
Ask for help on #help-jpa02
There should be a slack channel called #help-jpa02
where you can ask questions about this assignment. Check that channel first to see if your question has already been answered.
Step 1: Understanding what we are trying to do
What are we trying to accomplish again in this lab?
- In this lab, we will create a basic “Hello, World” type web app in Java”
- A web app is a piece of Java code that takes HTTP request messages as input, and responds with HTTP response objects as output.
- render is a platform where we can host a Java web app.
Why use Render.com?
- Web applications run on the “server” side of the web architecture, not the client side.
- So to test a web application, we need to set up a web server that can run Java code.
- Configuring a web server for Java is challenging. But, fortunately, we don’t have to.
- Render.com offers “platform as a service” cloud computing for Java web applications.
- This puts your application “on the web”, for real, so that anyone in the world can access it 24/7
Web Apps vs. Static Web Pages
You may already have some experience with creating static web pages, and/or with creating web applications (e.g. using PHP, Python (Django or Flask) or Ruby on Rails.) If so, then the “Learn More” section will be basic review.
If you are new to writing software for the web, you are strongly encouaged to read the background information at the “learn more” link below.
What are we trying to accomplish again in this lab?
If you just did a deep dive into the article Web Pages vs. Web Apps it may be helpful to again review what we are trying to accomplish in this lab:
- In this lab, we will create a basic “Hello, World” type web app in Java”
- To test that, we need to run that on a server somewhere.
- Configuring a web server for Java is challenging. But, fortunately, we don’t have to.
- render.com offers “platform as a service” cloud computing for Java web applications.
- We’ll use the “free plan” that they offer for folks just getting started with learning render.
- This puts your application “on the web”, for real, so that anyone in the world can access it 24/7
Disk Quota
IMPORTANT: if you are working on CSIL, and at some point things just “stop working”:
- You get odd error messages, especially “cannot write file”, or “disk quota exceeded”
- You cannot log in—it takes your user name and password on the machines in Phelps 3525 or CSIL, but then just logs you out immediately.
Then you probably have a disk quota problem.
- The best way to troubleshoot this, if you cannot log in, is to ask someone else that CAN log in to allow you to use a terminal window on their screen.
- Use
ssh yourusername@csil.cs.ucsb.edu
to get into your account from their terminal session.
- Use
- For troubleshooting tips, visit: CSIL Disk Quota Troubleshooting
Step 2: Create a Render.com Account
Sign up for a Render.com account here:
Visit https://render.com and click Sign Up.
You should see a screen like this one:
I encourage you to use either the GitHub or Google buttons to create your account, rather than signing up with a new Username/Password, but it’s your choice.
Step 3: Create your repo
You should already have a repo under the course organization ucsb-cs156-s23 called jpa02r-githubid created for you by the staff, where github is your github id.
If not, create one for yourself following that naming convention; it should initially be private, and empty (no README
, license or .gitignore
.)
Clone that repo somewhere and cd into it.
Then add this remote:
git remote add starter https://github.com/ucsb-cs156-s23/STARTER-jpa02
Then do:
git checkout -b main
git pull starter main
git push origin main
Step 4: Start your webapp on localhost
The application should be ready to go out of the box; it starts up a web server that brings up a page with the message Greetings from Spring Boot!
We are going to run a command to start up this web server and then try to connect with a browser.
-
First, use
mvn compile
to make sure that the code compiles.- If you get the error on CSIL about
JAVA_HOME
not being defined correctly, you may need this command:export JAVA_HOME=/usr/lib/jvm/java-17-openjdk
- If you get the error on CSIL about
- Next, try
mvn test
to be sure that the test cases pass. -
Then, try
mvn spring-boot:run
. This should start up a web server on port 8080 running onlocalhost
The
mvn spring-boot:run
command is a shortcut that is provided for us to be able to run the jar file. It does pretty much the same thing as if we ran the.jar
file and specified the class containing ourmain
on the command line.
Connecting with a browser
Now, if you are running on your own machine, connecting with a browser is quite simple; the web server is running on the local machine (localhost
) on port 8080, so putting the address http://localhost:8080 in your browser will just work. If you are successful, you should see the message Greetings from Spring Boot
appear in your browser.
It’s the case where you are running on CSIL where things can get more complicated.
First, there’s the possibility that port 8080 may already be taken; in that case you’ll see the error:
Web server failed to start. Port 8080 was already in use.
To see how to fix the `Port 8080 was already in use` error, click the triangle:
In this case, the fix is to choose another port number. Any number between 8080
and 65535
is fair game; to try another port number, use the command shown below (change 12345
to whatever port number you like):
PORT=12345 mvn spring-boot:run
You’ll need to substitute this number (e.g. 12345
) in place of 8080
when trying to load the website.
To see strategies for bringing up a web page for a web server running on CSIL, click the triangle.
Strategy 1: Point browser directly at CSIL machine
If you are running on CSIL, you can try to point your web browser at the machine where the server is running instead of localhost
.
For example, if you are running on CSIL and type in hostname
, and see this:
[pconrad@csilvm-01 ~]$ hostname
csilvm-01.cs.ucsb.edu
[pconrad@csilvm-01 ~]$
Then substitute that name in place of localhost
, e.g. point your browser as http://csilvm-01.cs.ucsb.edu:8080 instead of http://localhost:8080
This may not always work, because firewalls may prevent access. Using the UCSB VPN may help.
Strategy 2: Port Forwarding
If you are using ssh
to connect to CSIL, the solution shown here allows you to forward traffic on localhost:8080
on your own machine to localhost:8080
on the machine you are connecting to:
Strategy 3: Remote Desktop
Using the Remote Desktop (RDP) Solution described in the articles below, you can load a complete “desktop” of a CSIL Linux environment and show it in a window on your Mac or Windows machine.
- Windows Instructions: https://doc.engr.ucsb.edu/pages/viewpage.action?pageId=31785118
- Mac Instructions: https://doc.engr.ucsb.edu/display/EPK/CS+Lab+RDP+Access+-+MacOS+Client
In the RDP window, you can open both a terminal window and a browser that are both running on CSIL. Since that browser is running on the same system as the web server, you can just use http://localhost:8080 to connect to the server.
About localhost
and “Port Numbers”
The code in this repo is configured to start up a webserver on port 8080, running on localhost
, which is a name for the machine on which the code is running.
- If you are running the code on a CSIL machine, then
localhost
refers to that machine. - If you are running on your own machine, then
locahost
refers to that machine. - The port number is a more specific “communications channel” on that machine. You can find more information on port numbers at this short article, which you are encouraged to read if you are not already familiar with port numbers (or, for that matter, even if you are): https://ucsb-cs156.github.io/topics/port_numbers.html
So the web address to acccess your server is: http://localhost:8080
.
- Note: You should use
http
nothttps
when running onlocalhost
. Usinghttp
is the unsecure, unencrypted version. - It is possible to set up Spring Boot to run
https
(the secure, encrypted version), but it’s complicated and typically unnecessary; Render sets uphttps
for us automatically, so we really don’t need to deal with those steps most of the time.
Step 5: Understanding localhost
vs. Render
When running on localhost
:
- The web app is only runnning as long as your program is executing.
- As soon as you CTRL/C the program to interrupt it, the web app is no longer available.
- The web app is only available on the machine where you are running the program; not on the public internet.
Running on localhost
is fine for testing and development. But eventually we want to know how to deploy a web application so that anyone on the internet can access it.
To get the web app running on the public internet, we’ll need to use a cloud-computing platform such as Render.com.
Render allows us to deploy web applications in Java rather easily.
A side note: though we won’t explore it in this course, Render also makes it easy to deploy webapps in a variety of langauges, including Python, Node (JavaScript), and Ruby just to name a few. Many of the skills you’ll learn in this course about Render will transfer to those other languages if you want to work with them in other courses such as CMPSC 48, CMPSC 189A/B, or personal projects.)
A note about security: Let’s say up front that this is a risky thing to do. You need to be very careful about security when deploying web applications to the public internet. Fortunately, this particular application is rather simple and low-risk. We’ll discuss web security throughout the course.
Step 6: Create a new Render App and link GitHub Repo
In this step, we’ll deploy our Spring Boot application to the public internet using Render.com
You can follow the instructions here to create a new app. Use the name jpa02-yourgithubid
https://ucsb-cs156.github.io/topics/render/deploying_any_repo_to_render.html
This should result in an app at the address https://jpa02-yourgithubid.onrender.com
Step 7: Review the Render.com Dashboard
Now navigate to the render.com dashboard at https://dashboard.render.com
You should see something like this (but with only your app):
As you can see, for each app you’ll see either:
- or
- .
If you see “Deploy Failed”, you can click on the button and it will take you to a page like this:
On that page, there is a link to the deploy logs where you can get more information about why a particular deploy failed.
If your deploy succeeded, you can move on to the next step.
Otherwise, look at the deploy logs and try to figure out what went wrong.
Step 8: Changing what is shown on the page
Go into the Java source code under src
and locate the file /src/main/java/edu/ucsb/cs156/spring/hello/HelloController.java
In this file, locate the line of code that says:
@RequestMapping("/")
public String index() {
return "Greetings from Spring Boot!";
}
This method returns the contents of the home page ("/"
) for the webapp.
Change that code by changing “Spring Boot” to your email address (without the @ucsb.edu
part).
For example, if your email is cgaucho@ucsb.edu
, instead of:
return "Greetings from Spring Boot!";
You’ll have:
return "Greetings from cgaucho!";
If your email contains upper-case letters, underscore (`_`) or periods (`.`) click the triangle for special instructions:
Update: The autograder has been modified to handle the cases of:
- mixed case (upper and lowercase letters) in email addresses
- underscores
_
in email addresses - periods
.
in email addresses
In order to convert each of these to legal Render app names, the autograder converts your email by:
- stripping off the @ and everything after the @
- converting to all lowercase
- converting
_
and.
to-
Examples: Foo.Bar@ucsb.edu
becomesfoo-bar
My-Lit.tle_pony@umail.ucsb.edu
becomesmy-lit-tle-pony
So, if your email address is My-Lit.tle_pony@umail.ucsb.edu
, you should modify your code to replace:
return "Greetings from Spring Boot!";
with
return "Greetings from my-lit-tle-pony!";
If your email presents any other corner cases that are handled above, make a post on #help-jpa02
on slack to ask for help.
Then:
- use
mvn compile
to make sure your code still compiles - (optional, but suggested in case you need to debug)
- use
mvn spring-boot:run
to test locally, perhaps withcurl http://localhost:8080
- use
- Use git add, git commit, and git push to push your changes to github.
- Redeploy your app using Render
Ok, so far, we haven’t really done anything we couldn’t have done with a static web page. But we have gotten a working Java web app running on Render, so it’s start we can build on.
Step 9: The test cases
You’ll see that when you run “mvn test” that there are test cases, some of which are now failing.
The test cases are in these files:
src/test/java/hello/HelloControllerTest.java
(Unit Test)
Run the tests and see them fail.
Then modify them so that they pass. Note that we are doing TDD “wrong” this time; to do it “the right way”, we should have modified the tests first, and then modified the code so that the tests pass. We’ll pivot to this style of working once we have a better grasp on all the moving parts here.
Step 10: Adding links to running web app in the README.md
Edit your README.md. You’ll find some TODO items inside indicating what edits you need to make.
All quarter long, we want you to develop the habit of adjusting the README.md in your repo to include a link to your running web app, and sometimes other things as well.
Follow the instructions
Step 11: Submitting your work for grading
When you have a running web app on Render, make a submission under jpa02 on Canvas with a link to your repo. The repo’s README should have a link to your running web app.