This section covers some of the most commonly encountered problems and attempts to resolve them.
Various parts of MAAS rely on OAuth to negotiate a connection to nodes. If the current time reported by the hardware clock on your node differs significantly from that on the MAAS server, the connection will not be made.
SOLUTION: Check that the hardware clocks are consistent, and if necessary, adjust them. This can usually be done from within the system BIOS, without needing to install an OS.
Sometimes the hardware can boot from PXE, but fail to load correct drivers when booting the received image. This is sometimes the case when no open source drivers are available for the network hardware.
SOLUTION: The best fix for this problem is to install a Linux-friendly network adapter. It is theoretically possible to modify the boot image to include proprietary drivers, but it is not a straightforward task.
When deployment fails the Rescue mode action can be used to boot ephemerally into the node, followed by an investigation.
As an example, an improperly configured PPA was added to MAAS which caused
nodes to fail deployment. After entering Rescue mode and connecting via SSH,
the following was discovered in file
2016-11-28 18:21:48,982 - cc_apt_configure.py[ERROR]: failed to add apt GPG Key to apt keyring Traceback (most recent call last): File "/usr/lib/python3/dist-packages/cloudinit/config/cc_apt_configure.py", line 540, in add_apt_key_raw util.subp(['apt-key', 'add', '-'], data=key.encode(), target=target) File "/usr/lib/python3/dist-packages/cloudinit/util.py", line 1836, in subp cmd=args) cloudinit.util.ProcessExecutionError: Unexpected error while running command. Command: ['apt-key', 'add', '-'] Exit code: 2 Reason: - Stdout: '' Stderr: 'gpg: no valid OpenPGP data found.\n'
In this instance, the GPG fingerprint was used instead of the GPG key. After rectifying this oversight, nodes were again able to successfully deploy.
Some virtual machine setups include emulation of network hardware that does not support PXE booting, and in most setups, you will need to explicitly set the VM to boot via PXE.
SOLUTION: Consult the VM docs for details on PXE booting.
If you are using MAAS in a setup with an existing DHCP, DO NOT SET UP THE MAAS DHCP SERVER as this will cause no end of confusion to the rest of your network and most likely won't discover any nodes either.
SOLUTION: You will need to configure your existing DHCP server to point to the MAAS server.
Sometimes you may wish to log in directly to a node on your system. If you have set up Juju and MAAS, the node will automatically have SSH authentication enabled (and public keys installed) allowing you to log in. There is also an option in the MAAS web interface to add new SSH keys to the nodes (via Preferences in the drop down menu which appears when clicking your username in the top-right of the page).
As long as you have sudo privileges the
maas command can be used to change the password for a MAAS administrator on the MAAS
sudo maas changepassword $PROFILE
where $PROFILE is the name of the user.
If you made a mistake during setup or you just need to reconfigure your MAAS server, you can simply run the setup again:
sudo dpkg-reconfigure maas-region-controller
By default, the web UI is located at
http://<hostname>:5240/MAAS/. If you can't
access it, there are a few things to try:
- Check that the webserver is running - By default the web interface uses
Apache, which runs under the service name apache2. To check it, on the
MAAS server box you can run
sudo /etc/init.d/apache2 status.
- Check that the hostname is correct - It may seem obvious, but check that
the hostname is being resolved properly. Try running a browser (even a
text mode one like
elinks) on the same box as the MAAS server and navigating to the page. If that doesn't work, try
http://127.0.0.1:5240/MAAS/, which will always point at the local server.
- If you are still getting "404 - Page not found" errors, check that the
MAAS web interface has been installed in the right place. There should
be a file present called
Ephemeral images are used by MAAS to boot nodes during commissioning, as well as during deployment. By design, these images are not built to be edited or tampered with, instead they're used to probe the hardware and launch cloud-init.
However, if you find yourself with no other way to access a node, especially if a node fails during commissioning, Linux-based ephemeral images can be modified to enable a backdoor that adds or resets a user's password. You can then login to check the cloud-init logs, for example, and troubleshoot the problem.
As images are constantly updated and refreshed, the backdoor will only ever be temporary, but it should help you login to see what may be going wrong with your node.
First, download the cloud image that corresponds to the architecture of your node. The Images page of the web UI lists the images currently being cached by MAAS:
Images can be downloaded from https://cloud-images.ubuntu.com/daily/server.
With the image downloaded, extract its contents so that the shadow password file can be edited:
mkdir xenial sudo tar -C xenial -xpSf xenial-server-cloudimg-amd64-root.tar.gz --numeric-owner --xattrs "--xattrs-include=*"
sudo is required when extracting the image filesystem and when making changes to the files extracted from the image filesystem.
Now generate a hashed password. Use the following Python 3 command, replacing ubuntu with the password you wish to use:
python3 -c 'import crypt; print(crypt.crypt("ubuntu", crypt.mksalt(crypt.METHOD_SHA512)))'
Output from the previous command looks like the following:
xenial/etc/shadow file extracted from the image with a text editor and
insert the password hash into the root user line of
etc/shadow, between the
first and second colons:
Save the file and exit the text editor.
Recent versions of MAAS use SquashFS to hold the ephemeral image filesystem.
The final step is to use the following command to create a SquashFS file called
xenial-customized.squashfs that contains the modified shadow file:
sudo mksquashfs xenial/ xenial-customized.squashfs -xattrs -comp xz
The output should look like the following:
Parallel mksquashfs: Using 2 processors Creating 4.0 filesystem on xenial-customized.squashfs, block size 131072. [=======] 2516/26975 9%
You now have an ephemeral image with a working root login that can replace an image locally cached by MAAS.
Images are synchronised by the region controller and stored on the rack
/var/lib/maas/boot-resources/, with the current directory
linking to the latest synchronised images.
For example, the latest low-latency Ubuntu 16.04 image can be found in the following directory:
To replace the original, substitute the squashfs file with the custom image generated earlier, making sure the new owner is maas:
mv squashfs squashfs_original cp /home/ubuntu/xenial-customized.squashfs . chown maas:maas squashfs
You can now use this image to commission or deploy a node and access the root account with the backdoor password, such as by deploying the same specific image from the web UI to the node you wish to troubleshoot.