Kirk application is a fork of runltp-ng and it aims to merge multiple Linux testing frameworks in one tool, providing support for remote testing via Qemu, SSH, LTX, parallel execution and much more.
Host information
System: Linux
Node: susy
Kernel Release: 5.14.21-150400.24.60-default
Kernel Version: #1 SMP PREEMPT_DYNAMIC Wed Apr 12 12:13:32 UTC 2023 (93dbe2e)
Machine Architecture: x86_64
Processor: x86_64
Temporary directory: /tmp/kirk.acer/tmpz49sip95
Connecting to SUT: host
Starting suite: math
abs01: pass | tainted (0.001s)
atof01: pass | tainted (0.002s)
float_bessel: pass | tainted (0.673s)
float_exp_log: pass | tainted (0.667s)
float_iperb: pass | tainted (0.252s)
float_power: pass | tainted (0.562s)
float_trigo: pass | tainted (0.646s)
fptest01: pass | tainted (0.002s)
fptest02: pass | tainted (0.003s)
nextafter01: pass | tainted (0.002s)
Suite Name: math
Total Run: 10
Elapsed Time: 3.039s
Passed Tests: 22
Failed Tests: 0
Skipped Tests: 0
Broken Tests: 0
Warnings: 0
Kernel Version: Linux 5.14.21-150400.24.60-default #1 SMP PREEMPT_DYNAMIC Wed Apr 12 12:13:32 UTC 2023 (93dbe2e)
CPU: x86_64
Machine Architecture: x86_64
RAM: 15569424 kB
Swap memory: 2095424 kB
Distro: opensuse-leap
Distro Version: 15.4
Disconnecting from SUT: host
The tool works out of the box by running kirk script.
Minimum python requirement is 3.6+ and optional dependences are the following:
kirk will detect if dependences are installed and activate the corresponding
support. If no dependences are provided by the OS's package manager,
virtualenv can be used to install them:
# download source code
git clone git@github.com:acerv/kirk.git
cd kirk
# create your virtual environment (python-3.6+)
virtualenv .venv
# activate virtualenv
source .venv/bin/activate
# SSH support
pip install asyncssh
# LTX support
pip install msgpack
# run kirk
./kirk --help
Some basic commands are the following:
# run LTP syscalls testing suite on host
./kirk --framework ltp --run-suite syscalls
# run LTP syscalls testing suite on qemu VM
./kirk --framework ltp \
--sut qemu:image=folder/image.qcow2:user=root:password=root \
--run-suite syscalls
# run LTP syscalls testing suite via SSH
./kirk --framework ltp \
--sut=ssh:host myhost.com:user=root:key_file=myhost_id_rsa \
--run-suite syscalls
# run LTP syscalls testing suite in parallel on host using 16 workers
./kirk --framework ltp --run-suite syscalls --workers 16
# run LTP syscalls testing suite in parallel via SSH using 16 workers
./kirk --framework ltp \
--sut=ssh:host myhost.com:user=root:key_file=myhost_id_rsa \
--run-suite syscalls --workers 16
It's possible to run a single command before running testing suites using
--run-command option as following:
./kirk --framework ltp \
--run-command /mnt/setup.sh \
--sut qemu:image=folder/image.qcow2:virtfs=/home/user/tests:user=root:password=root \
--run-suite syscalls
Every session has a temporary directory that can be found in
/<TMPDIR>/kirk.<username>. Inside this folder there's a symlink
called latest, pointing to the latest session's temporary directory.
In certain cases, kirk sessions can be restored. This can be really helpful
when we need to restore the last session after a system crash:
# restore the latest session
./kirk --framework ltp \
--restore /tmp/kirk.<username>/latest \
--run-suite syscalls
To enable console on a tty device for a VM do:
- open
/etc/default/grub - add
console=$tty_name, console=tty0toGRUB_CMDLINE_LINUX - run
grub-mkconfig -o /boot/grub/grub.cfg
Where $tty_name should be ttyS0, unless virtio serial type is used (i.e.
if you set the serial=virtio backend option, then use hvc0)
Sometimes we need to cover complex testing scenarios, where the SUT uses particular protocols and infrastructures, in order to communicate with our host machine and to execute tests binaries.
For this reason, kirk provides a plugin system to recognize custom SUT
class implementations inside the libkirk folder. Please check host.py
or ssh.py implementations for more details.
Once a new SUT class is implemented and placed inside the libkirk folder,
kirk -s help command can be used to see if application correctly
recognise it.
Every testing framework has it's own setup, defining tests folders, data and
variables. For this reason, Framework class provides a generic API that, once
implemented, permits to define a specific testing framework. The class
implementation must be included inside the libkirk folder and it will be
used as an abstraction layer between kirk scheduler and the specific testing
framework.
The application is validated using pytest and pylint.
To run unittests:
pytest
To run linting checks:
pylint --rcfile=pylint.ini ./libkirk