After reading the title, you may be thinking "Wait, what? Is Jenkins somehow limited in building Android apps?" You can relax, as I may have phrased it incorrectly. We’re not talking about building Android apps with Jenkins, which has no limitations as far as I know. We’re talking about building something with Jenkins, using an Android device as a Jenkins node, or potentially as a Jenkins controller. Does this sounds appealing or strange enough to you? Continue reading to learn more about the relationship between Android and Jenkins!
Jenkins and aarch64
I joined the Jenkins project in April 2022.
At that time, we could already find aarch64 docker
images, for the agents or the controller, and regular installers for aarch64
Linux.
The oldest image for a controller I found was from August 2021, and the oldest image for an agent was from February 2022.
This is nothing new, as Jenkins works on aarch64
Linux and has been running on that CPU architecture for years.
It’s pretty easy when using Linux on an x86_64
machine, but it can be more difficult on an aarch64
machine.
This is because the tools needed to build Android applications were not available until late 2021, with the release of Android Build Tools 31.0.0
.
Of course, you can use Rosetta to build your applications, and even combine it with Docker.
In my experience with Jenkins and aarch64
, I have several aarch64
Jenkins agents and controllers.
Some of them are using docker
and some of them are installed directly on the Linux machine thanks to the standard instructions.
Thankfully, there has been nothing outstanding to worry about, as Jenkins works fine for me with aarch64
.
Android and aarch64
Until recently, it was difficult to build Android applications on an aarch64
machine.
The main reason was that the Android build tools were not compatible with aarch64
machines.
Before version 31.0.0
, there was a bug in the Android Build Tools that caused the aapt2
tool to crash when building resources on aarch64
machines.
This issue was resolved in version 31.0.0
, which added native support for aarch64
and fixed the aapt2
crash on these machines.
Thanks to this, Android Build Tools are now natively compatible with aarch64
.
Isn’t that fantastic?
This meant there was no need to use Rosetta to build Android apps on aarch64
anymore.
Until I started writing this post, I was actually using build-tools 30.x
.
I didn’t need to build Android apps on aarch64
machines, so upgrading was unnecessary.
However, a friend of mine works on an M1 Mac, which happens to be an aarch64
machine, and wanted to build Android apps on his Mac.
He was working with Docker, which translates x86-64
to aarch64
, as long as you specify that you’re using an x86-64
image to begin with.
I know it’s strange that x86-64
is called amd64
in Docker, but that’s not the point.
[...]android-agent:platform:linux/amd64build:../restart:unless-stoppedvolumes:-android-agent-data:/home/jenkins:rw-../adbkey.pub:/home/jenkins/.android/adbkey.pub:rw-../adbkey.txt:/home/jenkins/.android/adbkey:rwenvironment:-JENKINS_AGENT_SSH_PUBKEY=ssh-ed25519 AAAAC3NzaC1lZDI1NTE5AAAAIBpNqXQ4x7fPPUBbYPxKF77Zqq6d35iPCD2chg644OUD-STF_HOST_NAME[...]
We could theoretically build Android apps on Raspberry PI 3B+ with Jenkins from now on.
In the introduction, I stated that I wanted to build something with Jenkins on an Android device, and not the other way around.
The goal is to run parts of Jenkins (first an agent, then a controller, then a whole Jenkins instance thanks to Docker) on an Android device.
So why am I telling you about building Android apps on aarch64
machines with Jenkins?
Because it would be kind of ironic, and tons of fun, to build an Android app with Jenkins on an Android device!
That would even allow me to introduce you to the Jenkinsception concept.
More on that in a future post.
Get sshd
working on an Android device
What does sshd
have to do with installing Jenkins?
Well, we have a few different ways to start and connect a Jenkins agent to a Jenkins controller, but the easiest one for me is to use an ssh agent.
The first step is to get sshd
working on an Android device.
There are various ways to access an Android device through SSH.
Here are some of them:
ADB: You can use the Android Debug Bridge (ADB) to connect to your Android device over SSH. This requires you to enable USB debugging on your device and have ADB installed on your computer. The following guide may not work any longer, but it’s a good starting point: How to enable ssh on Android.
SimpleSSHD: SimpleSSHD is a lightweight and easy-to-use SSH server app for Android. It supports key-based authentication, and you can configure it to run at startup.
Termux: Termux is a terminal emulator and Linux environment app that allows you to start an SSH server on your Android device. You can then use any SSH client to connect to your device over SSH. Unfortunately, updates for Termux are not available on the Google Play Store anymore, but you can still find it on GitHub or F-Droid.
It is important to note that SSH access to your device can pose security risks, so it is recommended to use caution and only enable SSH access when necessary.
Termux is my go-to choice when it comes to using some kind of Linux on Android. There are packages available that will allow you to install new software, and package updates, like a "real" Linux distribution. I almost feel at home when using it.
While reading the Termux documentation, I discovered that Termux has an SSH server (OpenSSH) built-in. It’s not enabled by default, but it’s easy enough to configure. The following instructions are available on the Termux wiki, and I’ve added some details to make it easier to follow.
Starting and stopping the OpenSSH server
Since Termux does not use an initialization system, services are started manually from the command line.
To start the OpenSSH server, you need to execute this command: sshd
.
If you need to stop sshd
, just kill its process: pkill sshd
.
SSH daemon logs to the Android system log, and you can view them by running logcat -s 'sshd:*'
.
This is possible from either Termux or ADB.
Setting up password authentication
Password authentication is enabled by default, making it easier to get started. Before proceeding, make sure that you understand that password authentication is less secure than a pubkey-based one.
Ensure that everything is up-to-date and the openssh
package is installed:
pkg upgradepkg install openssh
Please note that $PREFIX
is a variable that points to the Termux installation directory.
It is usually /data/data/com.termux/files
.
Password authentication is enabled by default in the configuration file.
You can review the file at $PREFIX/etc/ssh/sshd_config
, and it should contain this data:
PrintMotd yes PasswordAuthentication yes Subsystem sftp /data/data/com.termux/files/usr/libexec/sftp-server
If your file does not look like this, you will have to edit the file.
Note that vi
is not installed by default, but nano
is.
You can use nano
to edit the file.
Set a new password by executing the command passwd
.
While the program allows a minimal password length of one character, the recommended password length is more than eight to ten characters.
Passwords are not printed on the console.
$ passwd New password: Retype new password: New password was successfully set.
Setting up public key authentication
Public key authentication is the recommended way for logging in using SSH. You need to have a public/private key pair to use this type of authentication. For a successful login, the public key must exist in the authorized keys list on the remote machine, while the private key should be kept safe on your local host.
In the following example, it is assumed that you want to establish public key authentication between your PC (host) and your future Jenkins agent, which happens to be an Android device running Termux (remote). It is also assumed that you’re running a Linux distribution on your PC, WSL2, or even Cygwin. It would be better if both machines were using the same network, for example both are connected to the same Wi-Fi network. It is also assumed that you know your Android device’s IP address. If you have access to your router webpage, you should be able to see which IP has been assigned to your Android device. If you don’t have access to the router webpage, you can find your IP address on an Android device by following these steps:
Open the Settings app on your Android device.
Scroll down and tap on "About phone" or "About device".
Look for the "Status" or "Network" section and tap it.
Find the "IP address" or "Wi-Fi IP address" option, which will display your device’s IP address.
Alternatively, you can also find your IP address within Termux by typing the following command: ip addr show
.
Be aware that if the package is not installed yet, you will need to issue pkg install iproute2
first.
Look for the inet
line next to the wlan0
line that has your IP address given by your Wi-Fi router.
If you do not have ssh keys, you can generate them.
In this example, we will generate an RSA
key.
On the PC, execute the command: ssh-keygen -t rsa -b 2048 -f id_rsa
, replacing id_rsa
with the name of your key.
For me it would be ssh_key_for_jenkins_agent_2023-03-10
.
The command shown above generates a private RSA key with a 2048-bit key length and saves it to the file id_rsa
.
In the same directory, you can find a file named id_rsa.pub
, and this is a public key.
For me, the command was:
ssh-keygen -t rsa -b 2048 -f ssh_key_for_jenkins_agent_2023-03-10
Generating public/private rsa key pair.
Enter passphrase (empty for no passphrase):
Enter same passphrase again:
Your identification has been saved in ssh_key_for_jenkins_agent_2023-03-10
Your public key has been saved in ssh_key_for_jenkins_agent_2023-03-10.pub
The key fingerprint is:SHA256:yoykbWyCHuqrANFBkO41vuXMC7kLhsVfe8caLWQEUqk user@PC
The key's randomart image is:
+---[RSA 2048]----+
|.+o ..o. |
|.. . ... |
|o . . . |
| + oE . |
|o = o . S |
|o+ B.* = o |
|++oo& = + + |
|= o=o+ . = |
|=+.o... . |
+----[SHA256]-----+
The key was generated in the current directory, not in $HOME/.ssh
.
I tend to move the generated key in that $HOME/.ssh
directory (mv ssh_key_for_jenkins_agent_2023-03-10* ~/.ssh
for me).
I then change the directory to $HOME/.ssh
(cd ~/.ssh
) and change the permissions of the key (chmod 600 ssh_key_for_jenkins_agent_2023-03-10
).
2048 bit is the minimal key length that is considered safe. You can use higher values, but do not use a higher than 4096, as the remote server may not support that big of a key. |
Copy the key to the remote machine (your Jenkins agent wannabe running Termux).
Password authentication must be enabled to install a public key on the remote machine.
Now execute: ssh-copy-id -p 8022 -i id_rsa IP_ADDRESS
, making sure to replace id_rsa
with the name of your key and IP_ADDRESS
with the IP address of your Android machine.
Alternatively, you can manually copy the content inside id_rsa.pub
(public key), which is already on the PC, and looks like ssh-rsa <A LOT OF RANDOM STRINGS> user@host
.
After copying, paste this content to the Termux file $HOME/.ssh/authorized_keys
(remote machine).
Before copying and pasting, you must connect through ssh user@IP_ADDRESS -p 8022
, replacing IP_ADDRESS
with the IP address of your Android machine.
Doing so enables you to copy the content of the public key, using any text editor available on PC, and paste it inside an ssh session handled by Termux.
What looks strange to me is that user
could be just about anything.
I tried to log in without supplying a user, which means I was using my PC username, and it worked!
I tried to log in with a different username and this also worked.
When issuing the whoami
command inside Termux, it shows the username of the Termux user, which is u0_a504
in my case.
If everything went fine, you will see a message like this one:
Number of key(s) added: 1
If your system has an ssh-agent, you should now add your newly generated key to the agent.
After adding the key, try logging into the machine with: ssh -p '8022''IP_ADDRESS'
Be sure to replace IP_ADDRESS
with the IP address of your Android machine and check to make sure that only the key(s) you wanted were added.
If you don’t have an agent running, you will have to use a slightly different command: ssh -i id_rsa -p '8022''IP_ADDRESS'
Here, you need to replace id_rsa
with the name of your key and IP_ADDRESS
with the IP address of your Android machine.
That would display for me as:
ssh -i ssh_key_for_jenkins_agent_2023-03-10 -p 8022 192.168.1.xx
Welcome to Termux!
At this point, password authentication can be disabled.
Using nano
, edit the file $PREFIX/etc/ssh/sshd_config
, and replace the line beginning PasswordAuthentication
with PasswordAuthentication no
.
Back in the Termux app, execute the command pkill sshd && sshd
to restart the sshd
server with the updated configuration file.
Of course, if you were to do that from your PC, you would be disconnected and the ssh server would not be restarted.
Now you can log in to the remote machine without a password.
Just execute the command ssh -p '8022''IP_ADDRESS'
For this command, replace IP_ADDRESS
with the IP address of your Android machine, or with the more complex command -i
, if your machine does not use an ssh agent.
Installing Java on Termux
We all know that Jenkins is written in Java.
We also know Android apps are written in Java or Kotlin, so while we could hope that we magically skip this step, I’m afraid we can’t.
The virtual machine that runs Android apps is not the same as the one that runs on your PC.
Later on, we’ll detail the main differences between the two.
The Android virtual machine (called dalvik) is available on Termux, but it is not capable of executing our agent.jar file, since the java
command is not available yet.
$ dalvikvm -showversion
ART version 2.1.0 arm64
$ java --version
bash: /data/data/com.termux/files/usr/bin/java: No such file or directory
For the time being, let’s assume that we need to install Java on Termux. Let’s find out which java versions are available on Termux:
pkg update && pkg search openjdk
Checking availability of current mirror:
[*] https://packages-cf.termux.dev/apt/termux-main: ok
Sorting...
Done
Full Text Search...
Done
openjdk-17/stable 17.0-25 aarch64
Java development kit and runtime
openjdk-17-source/stable 17.0-25 all
Source files for openjdk-17
openjdk-17-x/stable 17.0-25 aarch64
Portion of openjdk-17 requiring X11 functionality
Nice. Jenkins supports Java 17 since the 2.355 and 2.346.1 LTS releases, so let’s go with OpenJDK 17.
pkg install openjdk-17
Now the java
command is available:
java --version
openjdk 17-internal 2021-09-14
OpenJDK Runtime Environment (build 17-internal+0-adhoc..src)
OpenJDK 64-Bit Server VM (build 17-internal+0-adhoc..src, mixed mode)
Creating a Jenkins ssh agent
You should now be able to connect via ssh
to your Android device running Termux if you have issued the sshd
command.
Your ssh
server also knows about the ssh
key you generated on your PC.
We will now create a credential based on that key within Jenkins, that will allow you to connect to your Android device running Termux from Jenkins later on.
Creating a Jenkins ssh credential
For this part, there is almost nothing specific to Android. You can follow the official documentation, and there are instructions on how to create a Jenkins credential.
Setting up a Jenkins ssh agent
It’s now time to set up your agent.
You can use Android
as a label for your agent.
Choose the Launch agent via SSH
option.
The hostname should be your phone’s IP address, which was named 'IP_ADDRESS' in the previous steps.
The credentials should be the ones you created in the previous steps.
The remote root directory should be /data/data/com.termux/files/home
.
The host key verification strategy should be Non-verifying Verification Strategy
.
The Launch method
should be Launch agent via SSH
.
Don’t forget to select the Advanced option and change the port to 8022
.
You could also specify the path of the java
executable you installed in the previous steps, which happens to be /data/data/com.termux/files/usr/bin/java
.
Since I have installed the 'Platform Labeller' plugin, I have also checked the 'Automatic Platform Labels' checkbox.
We’ll see later on if it can cope with Android devices that don’t use the lsb_release
command.
The very last thing to do is to select Save
.
You should now see the complete list of your defined agents.
While the agent has been created, it may have not started yet.
If that’s the case, select the name corresponding to your newly created agent ('Android Phone' for me) and select Launch
to start the agent.
After some time, you should see in the logs Agent successfully connected and online
, which means you can now use this agent to run your builds.
Using a Jenkins ssh agent
Let’s create a new job and use our newly created agent to run it.
The simplest job that comes to mind is a Freestyle project
that runs the uname -a
command.
That should give us some information about the Android device we are running on, while proving that the agent is working.
Once again, there is nothing specific to Android for this step, so you can follow the official documentation.
The only changes to the documentation I have made are:
I have used the
Android
label to make sure the job is run on the Android agent.I have used the
uname -a
command instead of theecho $NODE_NAME
command.
Started by user admin
Running as SYSTEM[EnvInject] - Loading node environment variables.
Building remotely on Android Phone (aarch64 aarch64-unknown+check_lsb_release_installed aarch64-unknown+check_lsb_release_installed-unknown+check_lsb_release_installed android unknown+check_lsb_release_installed-unknown+check_lsb_release_installed unknown+check_lsb_release_installed)in workspace /data/data/com.termux/files/home/workspace/Android First Job
[Android First Job] $ /bin/sh -xe /data/data/com.termux/files/usr/tmp/jenkins13760213506108463207.sh
+ uname-a
Linux localhost 4.4.192-perf+ #1 SMP PREEMPT Fri Dec 10 13:53:37 WIB 2021 aarch64 Android
Finished: SUCCESS
We now have a working Jenkins agent running on Android, thanks to Termux.
Now what?
Of course, we will be limited to the commands and packages that are available on Termux.
For example, I can’t see gcc
in the list of available packages, which could be troublesome.
pkg search gcc
Checking availability of current mirror:
[*] https://termux.astra.in.ua/apt/termux-main: ok
Sorting...
Done
Full Text Search...
Done
No gcc?
You’re right, there is no gcc
in the official Termux repository.
However, the Termux community comes to the rescue with some repositories that provide additional packages, like gcc.
After installing the repository, we can install gcc
.
pkg search gcc
Checking availability of current mirror:
[*] https://termux.astra.in.ua/apt/termux-main: ok
Sorting...
Done
Full Text Search...
Done
gcc-6/termux 6.5.0-2 aarch64
GNU C compiler
gcc-7/termux 7.4.0-2 aarch64
GNU C compiler
gcc-8/termux 8.3.0-3 aarch64
GNU C compiler
libgccjit-8-dev/termux 8.3.0-3 aarch64
GCC just-in-time compilation
libgomp-7/termux 7.4.0-2 aarch64
openmp library for gcc
libgomp-8/termux 8.3.0-3 aarch64
openmp library for gcc-8
As you can see, we have a few gcc
versions to try out.
What if we need gcc
10, for example?
We would have to compile it ourselves like in the good old days.
This solves the problem for gcc
, but what about other packages?
We are somewhat limited by the availability of packages on Termux.
What if we could work around that limitation though? What about running Docker on Termux? Docker has no limit on packages as long as we choose the right base image, right? So, we could run a Jenkins agent on Termux through a Docker image, based on another distribution that happens to supply all the packages we need. The slight problem that may arise, is that Docker is not easily installed on Termux, and once installed, it won’t work out of the box.
Android apps are running some kind of JVM, right? So why not use a Jenkins inbound agent?
Android apps are written in Java or Kotlin programming languages, and they run on one of two Java Virtual Machines (JVM):
It is possible to access the JVM from an ADB
shell and run Java code using the dalvikvm
command.
This is a command-line tool that allows you to execute Java code on the DalvikVM.
Nevertheless, there are preliminary steps that you need to take before you can run Java code on an Android device:
* Compile your Java code into a .class
file
* Transform it into the DEX
format using the d8
tool
* Push the resulting .dex
file to your Android device
* Run the Java class using the dalvikvm
command.
It’s possible to some extent to automate these steps, but it’s not trivial.
The dalvikvm
command is a low-level tool that may not be suitable for running complex Java apps, which may need additional dependencies to function properly.
Even if that would work, it would be a very roundabout solution (which is fine with me), but where would we go from there?
I mean, we have a subset of the Linux commands available in the ADB shell, but we can’t install tools, packages, etc.
For example, how would we install gcc
?
So what could our Jenkins agent do? Not so much I’m afraid… We could still use Termux, as we’ve seen earlier Termux uses the base shell that is available through ADB. If we could launch the inbound agent through Dalvik, we would be able to use the Dalvik VM while using Termux, to keep the best of both worlds (Android & Linux-like).
Another solution would be to create a library from the agent.jar file and integrate it into an Android app. That part could work but then the resulting agent would be even more limited. There wouldn’t be a shell available, as the app is sandboxed. We would have an agent able to do almost nothing…
I’d like to know more nonetheless, so I’ll write down my thoughts about that in another article, once I’ve done my homework.