Getting started

Hello, this describes how to get started with Lago.

Installation

In order to install the framework, you’ll need to build RPMs or acquire them from a repository.

Latest lago RPMs are built by jenkins job and you can find them in the ci jobs:

http://jenkins.ovirt.org/search/?q=lago_master_build-artifacts

Choose one of the results in this list according to your preferred distribution.

Or you can use the yum repo (it’s updated often right now, and a bit unstable), you can add it as a repository creating a file under /etc/yum.repos.d/lago.repo with the following content:

For Fedora:

[lago]
baseurl=http://resources.ovirt.org/repos/lago/stable/0.0/rpm/fc$releasever
name=Lago
enabled=1
gpgcheck=0

For EL distros (such as CentOS, RHEL, etc.):

[lago]
baseurl=http://resources.ovirt.org/repos/lago/stable/0.0/rpm/el$releasever
name=Lago
enabled=1
gpgcheck=0

TODO: point to the release rpm once it’s implemented, and use gpgcheck=1

Once you have them, install the following packages:

$ yum install python-lago lago python-lago-ovirt lago-ovirt

This will install all the needed packages.

TODO:explain each package contents and goals

Machine set-up

Virtualization and nested virtualization support

  1. Make sure that virtualization extension is enabled on the CPU, otherwise, you might need to enable it in the BIOS. Generally, if virtualization extension is disabled, dmesg log would contain a line similar to:

    kvm: disabled by BIOS
    

    NOTE: you can wait until everyithing is setup to reboot and change the bios, to make sure that everyithing will persist after reboot

  2. To make sure that nested virtualization is enabled, run:

    $ cat /sys/module/kvm_intel/parameters/nested
    

    This command should print Y if nested virtualization is enabled, otherwise, enable it the following way:

  3. Edit /etc/modprobe.d/kvm-intel.conf and add the following line:

    options kvm-intel nested=y
    
  4. Reboot, and make sure nested virtualization is enabled.

libvirt

Make sure libvirt is configured to run:

$ systemctl enable libvirtd
$ systemctl start libvirtd

SELinux

At the moment, this framework might encounter problems running while SELinux policy is enforced.

To disable SELinux on the running system, run:

$ setenforce 0

To disable SELinux from start-up, edit /etc/selinux/config and set:

SELINUX=permissive

User setup

Running lago requires certain permissions, so the user running it should be part of certain groups.

Add yourself to lago and qemu groups:

$ usermod -a -G lago USERNAME
$ usermod -a -G qemu USERNAME

It is also advised to add qemu user to your group (to be able to store VM files in home directory):

$ usermod -a -G USERNAME qemu

For the group changes to take place, you’ll need to re-login to the shell. Make sure running id returns all the aforementioned groups.

Make sure that the qemu user has execution rights to the dir where you will be creating the prefixes, you can try it out with:

$ sudo -u qemu ls /path/to/the/destination/dir

If it can’t access it, make sure that all the dirs in the path have your user or qemu groups and execution rights for the group, or execution rights for other (highly recommended to use the group instead, if the dir did not have execution rights for others already)

It’s very common for the user home directory to not have group execution rights, to make sure you can just run:

$ chmod g+x $HOME

And, just to be sure, let’s refresh libvirtd service to ensure that it refreshes it’s permissions and picks up any newly created users:

$ sudo service libvirtd restart

NOTE: if you just added your user, make sure to restart libvirtd service

Preparing the workspace

Create a directory where you’ll be working, make sure qemu user can access it.

We will be using the example configurations of lago, for a custom setup you might want to create your own.

Running lago

This tests require that you have at least 36GB of free space under the /var/lib/lago directory and an extra 200MB wherever you are running them.

If you don’t have enough disk space on /var (for e.g, a default fedora install only has 20G), you can change the default path for downloading the images and repos on the lago.conf file. You can change the default values from:

$ cat /etc/lago.d/lago.conf
[lago]
log_level = debug
template_store = /var/lib/lago/store
template_repos = /var/lib/lago/repos
default_root_password = 123456

to use your homedir, for e.g:

$ vim /etc/lago.d/lago.conf
[lago]
log_level = debug
template_store = /home/USERNAME/lago/store
template_repos = /home/USERNAME/lago/repos
default_root_password = 123456

As an example, we will use the basic suite of the ovirt tests, so we have to download them, you can run the following to get a copy of the repository:

$ git clone git://gerrit.ovirt.org/ovirt-system-tests

As the tests that we are going to run are for ovirt-engine 3.5, we have to add the oVirt 3.5 release repository to our system so it will pull in the sdk package, the following works for any centos/fedora distro:

$ yum install -y http://resources.ovirt.org/pub/yum-repo/ovirt-release35.rpm

Once you have the code and the repo, you can run the run_suite.sh script to run any of the suites available (right now, only 3.5 and 3.6 basic_suites are fully working):

$ cd ovirt-system-tests
$ ./run_suite.sh basic_suite_3.5

NOTE: this will download a lot of vm images the first time it runs, check the section “template-repo.json: Sources for templates” on how to use local mirrors if available.

Remember that you don’t need root access to run it, if you have permission issues, make sure you followed the guidelines in the section “user setup” above

This will take a while, as first time execution downloads a lot of stuff, like downloading OS templates, where each one takes at least 1G of data. If you are still worried that its stuck, please refer to the FAQ to see if the issue you’re seeing is documented.

Once it is done, you will get the results in the directory deployment-basic_suite_3.5, that will include an initialized prefix with a 3.5 engine vm with all the hosts and storages added.

To access it, log in to the web-ui at

  • URL: https://192.168.200.2/
  • Username: admin@internal
  • Password: 123

If you’re running the framework on a remote machine, you can tunnel a local port directly to the destination machine:

$ ssh -L 8443:192.168.200.2:443 remote-user@remote-ip
        ---- =================             ~~~~~~~~~
        (*)   (**)                         (***)

(*)   - The port on localhost that the tunnel will be available at.
(**)  - The destination where the remote machine will connect when local machine
        connects to the local end of the tunnel.
(***) - Remote machine through which we'll connect to the remote end of the
        tunnel.

After creating the tunnel, web-ui will be available at https://localhost:8443/

Poke around in the env

You can now open a shell to any of the vms, start/stop them all, etc.:

$ cd deployment-basic_suite_3.5
$ lagocli shell engine
[root@engine ~]# exit

$ lagocli stop
2015-11-03 12:11:52,746 - root - INFO - Destroying VM engine
2015-11-03 12:11:52,957 - root - INFO - Destroying VM storage-iscsi
2015-11-03 12:11:53,167 - root - INFO - Destroying VM storage-nfs
2015-11-03 12:11:53,376 - root - INFO - Destroying VM host3
2015-11-03 12:11:53,585 - root - INFO - Destroying VM host2
2015-11-03 12:11:53,793 - root - INFO - Destroying VM host1
2015-11-03 12:11:54,002 - root - INFO - Destroying VM host0
2015-11-03 12:11:54,210 - root - INFO - Destroying network lago

$ lagocli start
2015-11-03 12:11:46,377 - root - INFO - Creating network lago
2015-11-03 12:11:46,712 - root - INFO - Starting VM engine
2015-11-03 12:11:47,261 - root - INFO - Starting VM storage-iscsi
2015-11-03 12:11:47,726 - root - INFO - Starting VM storage-nfs
2015-11-03 12:11:48,115 - root - INFO - Starting VM host3
2015-11-03 12:11:48,573 - root - INFO - Starting VM host2
2015-11-03 12:11:48,937 - root - INFO - Starting VM host1
2015-11-03 12:11:49,296 - root - INFO - Starting VM host0

Cleanup

Once you’re done with the environment, run:

$ cd deployment-basic_suite_3.5
$ lagocli cleanup

That will stop any running vms and remove the lago metadata in the prefix, it will not remove any other files (like disk images) or anything though, so you can play with them for further investigation if needed, but once executed, it’s safe to fully remove the prefix dir if you want to.

Step by step now

As the above script has become a bit complicated, and it’s not (yet) part of lago itself, this section will do the same as the script, but step by step with lago only command to give you a better idea of what you have to do in a usual project.

So, let’s get back to the root of the ovirt-system-tests repo, and cd into the basic_suite_3.5 dir:

cd ovirt-system-tests/basic_suite_3.5

Let’s take a look to what is in there:

$ tree
.
├── control.sh
├── deploy-scripts
│   ├── add_local_repo.sh
│   ├── bz_1195882_libvirt_workaround.sh
│   ├── setup_container_host.sh
│   ├── setup_engine.sh
│   ├── setup_host.sh
│   ├── setup_storage_iscsi.sh
│   └── setup_storage_nfs.sh
├── engine-answer-file.conf
├── init.json.in
├── reposync-config.repo
├── template-repo.json
└── test-scenarios
    ├── 001_initialize_engine.py
    ├── 002_bootstrap.py
    ├── 003_create_clean_snapshot.py
    └── 004_basic_sanity.py

We can ignore the control.sh script, as it’s used by the run_suite.sh and we don’t care about that in this readme.

init.json.in: The heart of lago, virt configurations

This init.json.in file, is where we will describe all the virtual elements of our test environment, usually, vms and networks.

In this case, as the file is shared between suites, it’s actually a template and we will have to change the @SUITE@ string inside it by the path to the current suite:

$ suite_path=$PWD
$ sed -e "s/@SUITE@/$suite_path/g" init.json.in > init.json

Now we have a full init.json file :), but we have to talk about another file before being able to create the prefix:

Note that lago supports json and yaml formats for that file.

template-repo.json: Sources for templates

This file contains information about the available disk templates and repositories to get them from, we can use it as it is, but if you are in Red Hat office in Israel, you might want to use the Red Hat internal mirrors there, for that use the common/template-repos/office.json file instead, see next for the full command line.

NOTE: You can use any other template repo if you specify your own json file there

TODO: document the repo store json file format

Initializing the prefix

Now we have seen all the files needed to initialize our test prefix (aka, the directory that will contain our env). To do so we have to run this:

$ lagocli init \
    --template-repo-path=template-repo.json \
    deployment-basic_suite_3.5 \
    init.json

Remember that if you are in the Red Hat office, you might want to use the repo mirror that’s hosted there, if so, run this command instead:

$ lagocli init \
    --template-repo-path=common/template-repos/office.json \
    deployment-basic_suite_3.5 \
    init.json

This will create the deployment-basic_suite_3.5 directory and populate it with all the disks defined in the init.json file, and some other info (network info, uuid... not relevant now).

This will take a while the first time, but the next time it will use locally cached images and will take only a few seconds!

If you are using run_suite.sh

To use an alternate repository template file when running run_suite.sh, you’ll have to edit it for now, search for the init command invocation and modify it there, at the time of writing this, if you want to use the Red Hat Israel office mirror, you have to change this:

38 env_init () {
39     $CLI init \
40         $PREFIX \
41         $SUITE/init.json \
42         --template-repo-path $SUITE/template-repo.json
43 }

by:

env_init () {
    $CLI init \
        $PREFIX \
        $SUITE/init.json \
        --template-repo-path common/template-repos/office.json
}

reposync-config.repo: yum repositories to make available to the vms

This file contains a valid yum repos definition, it’s the list of all the yum repos that will be enabled on the vms to pull from. If you want to use any custom repos just add the yum repo entry of your choice there and it will be make accessible to the vms.

The internal repository is built from one or several ‘sources’, there are 2 types of sources:

  • External RPM repositories:

    A yum .repo file can be passed to the verb, and all the included repositories will be downloaded using ‘reposync’ and added to the internal repo.

This is used by the ovirt reposetup verb. To prefetch and generate the local repo, we have to run it:

$ lagocli ovirt reposetup --reposync-yum-config="reposync-config.repo"

This might take a while the first time too, as it has to fetch a few rpms from a few repos, next time it will also use a cache to speed things up considerably.

NOTE: From now on, all the lagocli command will be run inside the prefix, so cd to it:

$ cd deployment-basic_suite_3.5

Bring up the virtual resources

We are ready to start powering up vms!

# make sure you are in the prefix
$ pwd
/path/to/ovirt-system-tests/deployment-basic_suite_3.5
$ lagocli start

This starts all resources (VMs, bridges), at any time, you can use the stop verb to stop all active resources.

Run oVirt initial setup scripts

Once all of our vms and network are up and running, we have to run any setup scripts that will configure oVirt in the machines, as we already described in the init.json what scripts should be executed, the only thing left is to trigger it:

$ lagocli ovirt deploy

This should be relatively fast, around a minute or two, for everything to get installed and configured

Running the tests

Okok, so now we have our environment ready for the tests!! \o/

Lets get it on, remember that they should be executed in order:

$ lagocli ovirt runtest 001_initialize_engine.py
...
$ lagocli ovirt runtest 002_bootstrap.py
...
$ lagocli ovirt runtest 003_create_clean_snapshot.py
...
$ lagocli ovirt runtest 004_basic_sanity.py
...

This tests run a simple test suite on the environment:

  • Create a new DC and cluster
  • Deploy all the hosts
  • Add storage domains
  • Import templates

The tests are written in python and interact with the environment using the python SDK.

Collect the logs

So now we want to collect all the logs from the vms, to troubleshoot and debug if needed (or just to see if they show what we expect). To do so, you can just:

$ lagocli ovirt collect \
    --output "test_logs"

We can run that command anytime, you can run it in between the tests also, specifying different output directories if you want to see the logs during the process or compare later with the logs once the tests finish.

You can see all the logs now in the dir we specified:

$ tree test_logs
test_logs/
├── engine
│   └── _var_log_ovirt-engine
│       ├── boot.log
│       ├── console.log
│       ├── dump
│       ├── engine.log
│       ├── host-deploy
│       ├── notifier
│       ├── ovirt-image-uploader
│       ├── ovirt-iso-uploader
│       ├── server.log
│       └── setup
│           └── ovirt-engine-setup-20151029122052-7g9q2k.log
├── host0
│   └── _var_log_vdsm
│       ├── backup
│       ├── connectivity.log
│       ├── mom.log
│       ├── supervdsm.log
│       ├── upgrade.log
│       └── vdsm.log
├── host1
│   └── _var_log_vdsm
│       ├── backup
│       ├── connectivity.log
│       ├── mom.log
│       ├── supervdsm.log
│       ├── upgrade.log
│       └── vdsm.log
├── host2
│   └── _var_log_vdsm
│       ├── backup
│       ├── connectivity.log
│       ├── mom.log
│       ├── supervdsm.log
│       ├── upgrade.log
│       └── vdsm.log
├── host3
│   └── _var_log_vdsm
│       ├── backup
│       ├── connectivity.log
│       ├── mom.log
│       ├── supervdsm.log
│       ├── upgrade.log
│       └── vdsm.log
├── storage-iscsi
└── storage-nfs

Cleaning up

As before, once you have finished playing with the prefix, you will want to clean it up (remember to play around!), to do so just:

$ lagocli cleanup

FAQ

  1. How do I know if the run_suite.sh is stuck or still running?

    Sometimes the script is downloading very big files which might Seem to someone as the script is stuck. One hacky way of making sure the script is still working is to check the size and content of the store dir:

    $ ls -la /var/lib/lago/store
    

    This will show any templates being downloaded and file size changes.