The original `nexus` derivation required `/run/sonatype-work/nexus3`
which explicitly depended on the NixOS path structure.
This would break `nexus` for everyone using `nixpkgs` on a non-NixOS
system, additionally the module never created `/run/sonatype-work`, so
the systemd unit created in `services.nexus` fails as well. The issue
wasn't actively known as the `nixos/nexus` test wasn't registered in
Hydra (see #40257).
This patch contains the following changes:
* Adds `tests.nexus` to `release.nix` to run the test on Hydra.
* Makes JVM parameters configurable: by default all JVM options were located
in `result/bin/nexus.vmoptions` which made it quite hard to patch
these parameters. Now it's possible to override all parameters by
running `VM_OPTS_FILE=custom-nexus.vmoptions ./result/bin/nexus run`
(after patching the `nexus` shell script), additionally it's possible
to override these parameters with `services.nexus.vmoptions`.
* Bumped Nexus from 3.5.1 to 3.11.0
* Run the `nexus` test on Hydra with `callTest` in `nixos/release.nix`,
furthermore the test checks if the UI is available on the specified
port.
* Added myself as maintainer for the NixOS test and the package to have
some more people in case of further breakage.
* Added sufficient disk space to the `nexus` test, otherwise the service
fails with the following errors:
```
com.orientechnologies.orient.core.exception.ODatabaseException: Cannot create database 'accesslog'
com.orientechnologies.orient.core.exception.OLowDiskSpaceException: Error occurred while executing
a write operation to database 'accesslog' due to limited free space on the disk (242 MB). The database
is now working in read-only mode. Please close the database (or stop OrientDB), make room on your hard
drive and then reopen the database. The minimal required space is 256 MB. Required space is now set to
256MB (you can change it by setting parameter storage.diskCache.diskFreeSpaceLimit) .
```
/cc @ironpinguin @xeji
This introduces an option that allows us to turn off stateful generation
of Diffie-Hellman parameters, which in some way is still "stateful" as
the generated DH params file is non-deterministic.
However what we can avoid with this is to have an increased surface for
failures during system startup, because generation of the parameters is
done during build-time.
Aside from adding a NixOS VM test it also restructures the type of the
security.dhparams.params option, so that it's a submodule.
A new defaultBitSize option is also there to allow users to set a
system-wide default.
I added a release notes entry that described what has changed and also
included a few notes for module developers using this module, as the
first usage already popped up in NixOS/nixpkgs#39507.
Thanks to @Ekleog and @abbradar for reviewing.
Some time ago I fixed the broken package `osquery` (see #39336).
I had to test the package manually by starting the daemon locally,
however this doesn't ensure that the module is still functional.
In order to cover the package *and* the integration with the NixOS
module I thought that adding a testcase might be the best idea.
The current testcase does the following things:
* Starts an `osqueryd` service in a test machine with customized logger
path and PID file
* Ensures that the `osqueryd.service` unit is running
* Checks if the customized flags (`pidfile`, `logger_path`) are applied
to `osquery`.
* Performs a simple test query against the `etc_hosts` database to check
if the basic funcitonality of `osquery` (storing system information into
a database) works fine.
We're going to make changes to the dhparams module so we really want to
make sure we don't break it, so having a NixOS VM test is to make sure
we don't blow things up and can iterate on it.
Signed-off-by: aszlig <aszlig@nix.build>
Cc: @Ekleog
These don't have affect the default Hydra setup (you need to pass
the relevant system in the supportedSystem list) but let's add it for
completeness and convenience.
This patch is heavily inspired by bd0d8ed807 which added
a setcap wrapper for `mtr` in order to allow running `mtr` without
`sudo`. The need for the capability `cap_net_raw` that can be registered using
`setcap` has been documented in the Arch Wiki: https://wiki.archlinux.org/index.php/Capabilities#iftop
A simple testcase has been added which starts two machines, one with a
setcap wrapper for `iftop`, one without. Both testcases monitor the
bandwidth usage of the machine using the options `-t -s 1` once, the
machine with setcap wrapper is expected to succeed, the `iftop` on the
machine without setcap wrapper is expected to return a non-zero exit
code.
* Fix reference CNI plugins
* The plugins were split out of the upstream cni repo around version
0.6.0
* Fix RBAC and DNS tests
* Fix broken apiVersion fields
* Change plugin linking to look in ${package}/bin rather than
${package.plugins}
* Initial work towards a working e2e test
* Test still fails, but at least the expression evaluates now
Continues @srhb's work in #37199Fixes#37199
Instead of intersecting system strings, we filter with the sort of
patterns used in `meta.platforms`.
Indicating this change `forTheseSystems` has been renamed to
`forMatchingSystems`, since the given list is now patterns to match, and
not the systems themselves. [Just as with `meta.platforms`, systems
strings are also supported for backwards compatibility.]
This is more flexible, and makes the `forMatchingSystems` and
packagePlatforms` cases more analogous.
Updated to the latest version of the nixos-v237 branch, which fixes two
things:
* Make sure that systemd looks in /etc for configuration files.
https://github.com/NixOS/systemd/pull/15
* Fix handling of the x-initrd.mount option.
https://github.com/NixOS/systemd/pull/16
I've added NixOS VM tests for both to ensure we won't run into
regressions. The newly added systemd test only tests for that and is by
no means exhaustive, but it's a start.
Personally I only wanted to fix the former issue, because that's the one
I've been debugging. After sending in a pull request for our systemd
fork (https://github.com/NixOS/systemd/pull/17) I got a notice from
@Mic92, that he already fixed this and his fix was even better as it's
even suitable for upstream (so we hopefully can drop that patch
someday).
The reason why the second one came in was simply because it has been
merged before the former, but I thought it would be a good idea to have
tests for that as well.
In addition I've removed the sysconfdir=$out/etc entry to make sure the
default (/etc) is used. Installing is still done to $out, because those
directories that were previously into sysconfdir now get into
factoryconfdir.
Quote from commit NixOS/systemd@98067cc806:
By default systemd should read all its configuration from /etc.
Therefore we rely on -Dsysconfdir=/etc in meson as default value.
Unfortunately this would also lead to installation of systemd's own
configuration files to `/etc` whereas we are limited to /nix/store. To
counter that this commit introduces two new configuration variables
`factoryconfdir` and `factorypkgconfdir` to install systemd's own
configuration into nix store again, while having executables looking
up files in /etc.
Tested this change against all of the NixOS VM tests we have in
nixos/release.nix. Between this change and its parent no new tests were
failing (although a lot of them were flaky).
Signed-off-by: aszlig <aszlig@nix.build>
Cc: @Mic92, @tk-ecotelecom, @edolstra, @fpletz
Fixes: #35415Fixes: #35268
All 5 daemon types can be enabled and configured through the module and the module both creates the ceph.conf required but also creates and enables specific services for each daemon, based on the systemd service files that upstream provides.
The strongswan-swanctl systemd service starts charon-systemd. This implements a IKE daemon
very similar to charon, but it's specifically designed for use with systemd. It uses the
systemd libraries for a native integration.
Instead of using starter and an ipsec.conf based configuration, the daemon is directly
managed by systemd and configured with the swanctl configuration backend.
See: https://wiki.strongswan.org/projects/strongswan/wiki/Charon-systemd
Note that the strongswan.conf and swantctl.conf configuration files are automatically
generated based on NixOS options under services.strongswan-swanctl.strongswan and
services.strongswan-swanctl.swanctl respectively.
- split outputs (doc, man, out)
- a new runtime dependency on getconf
- fix up SCRIPTS_DIR in wrapper
- clean output folder of stray doc files
- add license & maintainer
Tested with `nixos/tests/rabbitmq.nix`, inside a docker image and manually.
novacom and novacomd build on aarch64, but the daemon
fails to start with something like:
novacomd[547]: unhandled level 2 translation fault (11) at 0x00000000, esr 0x92000046
So, uh, nevermind that then.
This is unlikely to break and is a cheap test.
I'd like to be notified if it stops working.
If this ever blocks anything and I've been notified
you have my blessing to remove this as I doubt
many folks depend on it.
Currently, when building NixOS from a git clone, Nix has to copy
the entire repo at >1GB into the store by default. That is not
necessary and causes a dumping large path message.
If you need the old behaviour for some reason, you will have to
specify it by passing the path to your repo explicitly as the
nixpkgs argument like this:
--arg nixpkgs '{outPath = ./.; revCount = 56789; shortRev = "gfedcba"; }'
We had problems to get borg's own test suite running.
This test is intended to perform a quick smoke test to see whether we
have missed not any important dependency necessary to create backups
with borg.
tested with:
$ nix-build nixos/release.nix -A tests.borgbackup.x86_64-linux
The existing callSubTests seems to already have special-cased code to
allow enabling subtests on a single specific system by looking at the
`system` attribute in the test arguments. Replace it with a new version
similar to the callTestOnTheseSystems because:
- It's consistent with the existing functions for creating
system-specific tests (though admittedly, the callSubTests special
case for `system` predates them)
- This approach allows limiting to multiple system types, the previous
one inherently allows only one system type.
- This also fixes the problem that if you pass in e.g.
supportedSystems = [ "aarch64-linux" ], you end up with a
tests.chromium job that silently runs on x86_64-linux.
- Finally, this causes renames of the jobs like:
tests.chromium -> tests.chromium.x86_64-linux to be consistent with
the rest of the tests.
Currently, even if you pass supportedSystems = [ "aarch64-linux" ] you
end up with e.g. `nixos.tests.docker` which actually silently runs on
x86_64-linux. Using the new callTestOnTheseSystems fixes that.
As a side-effect, this also causes a rename of
`nixos.tests.docker` -> `nixos.tests.docker.x86_64-linux`, which is IMHO
a good thing since it's makes them consistent with the rest of the
tests.
Currently, even if you pass `supportedSystems = [ "aarch64-linux" ]` you
end up with e.g. `nixos.iso_graphical.x86_64-linux` job. Using
forTheseSystems from release-lib avoids that.
This shouldn't affect the usual x86 trunk-combined jobset.
To make the configuration of `yabar` more pleasant and easier to
validate, a NixOS module will be quite helpful.
An example config could look like this:
```
{
programs.yabar = {
enable = true;
bars.top.indicators.exec = "YA_DATE";
};
}
```
The module adds a user-controlled systemd service which runs `yabar` after
starting up X.
apps.plugin requires capabilities for full process monitoring. with
1.9.0, netdata allows multiple directories to search for plugins and the
setuid directory can be specified here.
the module is backwards compatible with older configs. a test is
included that verifies data gathering for the elevated privileges. one
additional attribute is added to make configuration more generic than
including configuration in string form.
This change adds a simple integration test exercising the fetchdocker
Nix code and hocker utilities for the simple `hello-world` docker
container. We exercise:
- Fetching the docker image configuration json
- Fetching the docker image layers
- Building a compositor script
- Loading the `hello-world` docker image into docker using the
compositor script and `docker load`
- Running that loaded container