The 'toolbox run' command has one downside: all newlines contain
a carriage return (CR). This is caused by the unconditional use of the
--tty option in `podman exec`[0]. In these particular tests this can be
worked around by not printing a newline at all.
Another quirk around partial is to check the last line of the output.
[0] https://github.com/containers/podman/issues/9718https://github.com/containers/toolbox/pull/843
The output of `podman build` has changed a bit. Each line of log
describing the build is now in the format of:
- STEP i/n: msg
instead of:
- STEP i: msg
where i is the current step and n the maximum number of steps.
The exact format is not important for the purpose of testing Toolbox, so
we may fallback to partial string testing.
Also the latest step ("COMMIT") seems to no longer be considered a step,
so just check for the word.
https://github.com/containers/toolbox/pull/846
This makes 'toolbox', without any commands specified, behave a lot like
'toolbox enter'. When there aren't any toolbox containers, it will
offer to create a new container matching the same parameters passed to
the command. If there's just one toolbox container available, then it
will fall back to it.
This makes the command line interface a lot similar to that of
github.com/coreos/toolbox, which makes things easier for those
switching over from it.
Some changes by Debarshi Ray.
https://github.com/containers/toolbox/pull/811
Some people create images manually. If such created images are recognize
as toolbox images (they have the proper labels) but do not have
a name/tag then 'toolbox list' will panic due to index being out of
range.
https://github.com/containers/toolbox/pull/800
Not having the corresponding image for UBI toolbox containers show up
in 'toolbox list' is a rough edge. However, the whole UBI feature is
a bit experimental. It's about a gratis RHEL environment getting
created in a jiffy on any host, which is something that hasn't been
done before, and those containers also suffer from various shortcomings
because of the limited package set of UBI.
So it's not that big of a problem if it takes a release or two to
hammer out the details. Especially since it's likely that there will
be a special Toolbox-specific image that's created out of the UBI RPM
repositories, which will likely have the com.github.containers.toolbox
label.
There's also the issue that 0.1.0 needs to be finished, and for that
the the churn needs to be kept down. Changing the labels can very
likely lead to compatibility issues in the future, because of which it
either can't be removed for a while or the wrong images start to get
listed. Some of the older labels have finally been removed, so it's
better not to add more to the list.
In short, this problem will likely fix itself in the coming months, so
it's wise not to create complications trying to rush through a fix.
This reverts commits 1df36591d0 and
e09de9f3e5.
https://github.com/containers/toolbox/issues/753
UBI[0] does not have the recommend Toolbox labels used to track whether
an image/container is truly a toolbox image/container. Thankfully, they
have a number of labels to choose from that we can use to identify the
image. The "com.redhat.component=ubi8-container" seems to be ideal.
The approach of using the UBI8 label introduces one problem though. If
we were to use only one set of labels for both images and containers,
containers created with Podman and not Toolbox from UBI8 would also be
marked as toolbox containers. This is not desired and therefore there
are now two sets of labels. Ones for images where the new label has been
added and other for containers that stays the same.
Since the rewrite of the system test suite[0] we've relied on the Zuul
playbooks for taking care of caching images using Skopeo for increasing
the reliability of the tests (in the past the instability of the Fedora
registry caused problems). This state is problematic if we want to use
the tests in other environments than the Zuul CI. This moves the caching
from Zuul into the system tests.
Currently, Bats does not support officially suite-wide setup and
teardown functions. The solution I chose was to add two new test files
that are executed before and after all tests. This may complicate the
execution of cherry-picked tests but that is not a very common use case
anyway.
The tests are now to some extent capable of adjusting to the host
environment. This is meant in the sense of: I'm running on RHEL, the
"default image" is UBI; I'm running on Fedora, the "default image" is
fedora-toolbox. This mechanism relies on os-release, which is the same
as what Toolbox itself uses.
[0] https://github.com/containers/toolbox/pull/517https://github.com/containers/toolbox/pull/774
The fedora-toolbox:32 image is the first of images in the renamed
toolbox image repository[0]. With the change we can drop the
pull_image_old() function because it was kept only for the old image.
Seems like newer version of ShellCheck checks the validity of variable
names (SC2153). This caused a false positive, so I silenced it.
[0] https://github.com/containers/toolbox/pull/615https://github.com/containers/toolbox/pull/780
The system test refactor[0] replaced the 'run_toolbox' helper function
with 'run toolbox', which is a normal invocation of Toolbox. This makes
it impossible to override Toolbox used during the tests using env var.
[0] https://github.com/containers/toolbox/pull/693
Since commit b27795a03e, each section of the test suite starts
and ends with a clean Podman state. This includes removing all images
from the local containers storage. Therefore, the images get downloaded
multiple times during the course of the test suite.
This commit restores the earlier behaviour where the images would get
downloaded only once, by copying them to separate directories outside
the local containers storage and then restoring them when the tests
are run.
https://github.com/containers/toolbox/pull/517https://github.com/containers/toolbox/pull/704
The bats-support[0] and bats-assert[1] libraries extend the
capabilities of bats[2]. Mainly, bats-assert is very useful for clean
checking of values/outputs/return codes.
Apart from updating the cases to use the libraries, the test cases have
been restructured in a way that they don't depend on each other anymore.
This required major changes in the helpers.bats file.
Overall, the tests are cleaner to read and easier to extend due to the
test cases being independent.
Some slight changes were made to the test cases themselves. Should not
alter their final behaviour.
There will be a follow up commit that will take care of downloading of
the tested images locally and caching them using Skopeo to speedup the
tests and try to resolve network problems when pulling the images that
we experienced in the past.
[0] https://github.com/bats-core/bats-support
[1] https://github.com/bats-core/bats-assert
[2] https://github.com/bats-core/bats-core
regexp.MatchString() only returns an error if the pattern can't be
parsed. In this case, the pattern is a constant string literal, so
unless there's a programming mistake, the pattern should always be
parsable and there should never be an error.
What really needs to be checked is whether the 'containerName' matched
the pattern or not. That's indicated by the bool return value
'matched'.
https://github.com/containers/toolbox/pull/639
... by running updatedb(8) on start-up and then at 24 hour intervals
from there on.
This isn't as nice as using a systemd.timer(5) because the current
timer goes away when the toolbox container is stopped and is rearmed
when it's started. Therefore, repeatedly restarting a container will
also run updatedb(8) again and again.
Fortunately, this isn't so bad with updatedb(5) implementations that
are able to incrementally update the database [1], which is what Fedora
uses.
The 24 hour interval was chosen based on the systemd.timer(5) settings
used by Fedora's mlocate RPM.
[1] https://pagure.io/mlocatehttps://github.com/containers/toolbox/issues/391
This is one more step towards enabling toolbox(1) to be run as root.
When invoked as 'sudo toolbox ...' there's no user or session D-Bus
instance available for the root user, which prevents the use of D-Bus
services like org.freedesktop.Flatpak.SessionHelper.
The code is forgiving to runtime errors when reacting to file system
events because it's not worth abruptly terminating the entry point
because of what might be a passing error. However, it's a lot stricter
when initially configuring the container because the failure mode isn't
as surprising for the user and it's worth starting from a valid state.
https://github.com/containers/toolbox/issues/267
When I added the test that looked at the logs of a toolbox, I did not
realize that the startup of a toolbox takes some time. That caused the
CI to flake even more than usual.
The solution I used was inspired by a helper function in Podman's test
suite (WaitContainerReady()).
https://github.com/containers/toolbox/pull/594
For some reason running 'toolbox run echo Hello World' in the tests in
the environment of Zuul is causing problems. Bats saves the output of
ran command to $output that can be then checked if it contains the right
output. This variable sometimes holds in this case the right output
("Hello World") but more often it is blank, causing the tests to fail.
I don't know the culprit, so for now I'm commenting out the checks to
make the CI pass again.
https://github.com/containers/toolbox/issues/410
In the Go implementation, when the 'rm' and 'rmi' commands fail to
remove a container or image, they don't use a non-zero exit code.
There's currently no nice fix for this. So, the tests have been
adjusted as a temporary measure.
https://github.com/containers/toolbox/pull/507
The tests introduced by commit b5cdc57ae3 have proven to be
rather unstable due to mistakes in their design. The tests were quite
chaotically structured, and because of that images were deleted and
pulled too often, causing several false positives [1, 2].
This changes the structure of the tests in a major way. The tests
(resp. commands) are now run in a manner that better simulates the way
Toolbox is actually used. From a clean state, through creating
containers, using them and in the end deleting them. This should
reduce the strain on the bandwidth and possibly even speed up the
tests themselves.
[1] https://github.com/containers/toolbox/pull/372
[2] https://github.com/containers/toolbox/pull/374https://github.com/containers/toolbox/pull/375
These tests are written using BATS (Bash Automated Testing System). I
used a very helpful helpers.bash script from the libpod project (Thank
you!) that I tweaked slightly.
https://github.com/containers/toolbox/issues/68