Commit 9a5b5d9fe8 added Haskell
dependencies (GHC and packages) to the xmonad binary's environment even
if xmonad had been preconfigured (via the "config" option). The intent
was to enable one-off recompiling using a local config file (e.g.
~/.config/xmonad/xmonad.hs), so the user can get quick feedback while
developing their config.
While this works, it may not be a common use-case, and it requires some
careful crafting in xmonad.hs itself. On top of that, it significantly
increases the size of the closure.
Given all that, commit b69d9d3c23 removed
GHC and packages from the binary's environment.
But there are still those among us who want to be able to recompile from
a preconfigured xmonad, so let's provide a way to opt-into configured
recompilation.
network.target is reached earlier, but with much fewer services
available. DNS is likely to be not functional before
network-online.target, so waiting for that seems better for that reason
alone. the existing backends for network-online.target all seem to do
reasonable things (wait until all links are in *some* stable state), so
we shouldn't lose anything from waiting.
This removes `/run/nixos/activation-reload-list` (which we will need in
the future when reworking the reload logic) and makes
`/run/nixos/activation-restart-list` honor `restartIfChanged` and
`reloadIfChanged`. This way activation scripts don't have to bother with
choosing between reloading and restarting.
Instead of referencing all library functions through `lib.` and
builtins through `builtins.` at every invocation, inherit them into
the appropriate scope.
The tsm-client needs a tsm-server to do anything useful.
Without a server, automated tests can just
check diagnostic outputs for plausibility.
The commit at hand adds two tests:
1.
The command line interface `dsmc` is called,
then it is verified that the program does
* report the correct client version,
* find its configuration file,
* report a connection error.
2.
To check the GUI (and the tsm-client nixos module), we add a
vm test which uses the module to install `tsm-client-withGui`.
To verify that the GUI's basic functionality is present,
we skip over all connection failure related error
messages and open the "Connection Information"
dialog from the main application window.
This dialog presents the node name and the client version;
both are verified by the test.
Note: Our `tsm-client` build recipe consists of two packages:
The "unwrapped" package and the final package.
This commit puts the unwrapped one into the final
package's `passthru` so that tests can access
the original version string that is needed to check
the client version reported by the application.
The module option type `nonEmptyStr` was introduced in commit
a3c5f0cba8
The tsm modules previously simply used
`strMatching ".+"` to prevent empty option strings,
but the new type is more thorough as
it also catches space-only strings.
This enables some systemd sandboxing
options for the `tsm-backup.service`.
Those settings have been determined by expermentation.
This commit tries hard to protect the filesystem from
write access, but not to hide anything from read access,
so users can backup all files they choose to backup.
An exception are API filesystems (`/dev`, `/proc`, `/sys`):
As their "files" are not stored on persistent storage,
they are sandboxed away as much as possible.
Note that the service still has to run with root
privileges to reach files with limited access permissions.
The obvious alternative to use a dedicated user account and
the `CAP_DAC_READ_SEARCH` capability to permit system-wide
read access while blocking write access does not work.
Experiments have shown that `dsmc` verifies access permissions
for each file before attempting to open it for reading.
Hence `dsmc` refuses to copy files where the file permission
mode blocks read access -- even if process capabilities
would allow it to proceed irrespective of permissions.
Use systemd's LoadCredential mechanism to make the secret files
available to the service.
This gets rid of the privileged part of the ExecPreStart script which
only served to copy these files and assign the correct
permissions. There's been issues with this approach when used in
combination with DynamicUser, where sometimes the user isn't created
before the ExecPreStart script runs, causing the error
install: invalid user ‘keycloak’
This should fix that issue.
Unfortunately, all of the ExecPreStart script had to be moved to
ExecStart, since credentials aren't provided to ExecPreStart. See
https://github.com/systemd/systemd/issues/19604.
Without this option `DefaultSearchProviderSearchURL` and
`DefaultSearchProviderSuggestURL` are really wastefull as it does not
set search engine, at least for me.
Co-authored-by: Sandro <sandro.jaeckel@gmail.com>
This together with extraConfig:
{
"subsystem=undertow"."server=default-server"."http-listener=default"."proxy-address-forwarding" = true;
"subsystem=undertow"."server=default-server"."https-listener=https"."proxy-address-forwarding" = true;
}
Allows to run Keycloak behind a reverse proxy that provides
X-Forwarded-* headers.
Allow update commands in the script to be ordered using `mkOrder`.
If we encounter ordered sub-objects we sort them by priority.
To implement this we now explicitly pass current node in `recurse`,
which also allows us to clean up edge case for top-level node.
Also refactor `recurse` to avoid passing result text argument; we
weren't tail recursive before anyway.
Still actively developed and yet stuck on python2. Also marked as
vulnerable and their issue tracker contains yet another security issue
reported in 2021/10 that the upstream hasn't acknowledged yet.
Mind blown.
Closes: #135543, #97274, #97275
Why the f*** would anyone ever add generated stuff to a git repository,
where the sources for the generated stuff AND the scripts to generate
them are in the repository?
Signed-off-by: Matthias Beyer <mail@beyermatthias.de>
The test has been broken for some time and the test errors are
non-obvious. None of the current maintainers know how to fix it so it is
better to get rid of it then to keep a continously failing test.
I was confused why I couldn't find a mention of udev.log_priority in
systemd-udevd.service(8). It turns out that it was renamed[1] to
udev.log_level. The old name is still accepted, but it'll avoid
further confusion if we use the new name in our documentation.
[1]: 64a3494c3d
The programs.ssh.knownHosts.*.publicKeyFile is broken, because it's
scoped to a set of host names, but to insert those host names on each
line of the file we'd have to parse out blank lines and comments, so
only the first line works. It would be much easier all round if users
just provided known hosts files in the normal format, and we pointed
ssh directly to them. This way, it would be possible to have multiple
keys for a single host (which is extremely common due to multiple
algorithms being commonplace).
We add an option for this instead of relying on extraConfig, because
we need to make sure /etc/ssh/ssh_known_hosts is always included to
ensure programs.ssh.knownHosts keeps working.
/etc/ssh/ssh_known_hosts2 is another OpenSSH default that seems a bit
weird, but there's no real reason to change that so we'll leave it.
The Intel SGX DCAP driver makes the SGX application enclave device and
the SGX provisioning enclave available below the path `/dev/sgx/`. Since
Linux 5.11, a derivation of the DCAP driver is part of the kernel and
available through the X86_SGX config option; NixOS enables this option
by default.
In contrast to the out-of-tree DCAP driver, the in-tree SGX driver uses
a flat hierarchy for the SGX devices resulting in the paths
`/dev/sgx_enclave` for the application enclave device and
`/dev/sgx_provison` for the provisioning enclave device.
As of this commit, even the latest version of the Intel SGX PSW
libraries still tries to open the (legacy) DCAP paths only. This means
that SGX software currently cannot find the required SGX devices even if
the system actually supports SGX through the in-tree driver. Intel wants
to change this behavior in an upcoming release of intel/linux-sgx.
Having said that, SGX software assuming the SGX devices below
`/dev/sgx/` will prevail. Therefore, this commit introduces the NixOS
configuration option `hardware.cpu.intel.sgx.enableDcapCompat` which
creates the necessary symlinks to support existing SGX software. The
option defaults to true as it is currently the only way to support SGX
software. Also, enabling the SGX AESM service enables the option.
The permissions of the devices `/dev/sgx_enclave` and
`/dev/sgx_provison` remain the same, i.e., are not affected regardless
of having the new option enabled or not.
This option makes the complete netdata configuration directory available for
modification. The default configuration is merged with changes
defined in the configDir option.
Co-authored-by: Michael Raitza <spacefrogg-github@meterriblecrew.net>
We take the idris2 projects version of the derivation. Originally,
Idris2 did not maintain their own nix derivation, so we created our
own. Now they maintain their own derivation, so we should try to
keep ours as close to theirs.
This change comes with the following differences:
* support files are in its own output, instead of packaged with idris2
- This makes it necessary to provide --package for contrib and network
!!! This is a breaking change !!!
* IDIRS2_PREFIX is set to ~/.idris2 instead of pointing to nix-store
- This makes --install work as expected for the user
* Properly set IDRIS2_PACKAGE_PATH
* non-linux platform uses chez-racket instead of chez
During working on #150837 I discovered that `google-oslogin` test
started failing, and so did some of my development machines. Turns out
it was because nscd doesn't start by default; rather it's wanted by
NSS lookup targets, which are not always fired up.
To quote from section on systemd.special(7) on `nss-user-lookup.target`:
> All services which provide parts of the user/group database should be
> ordered before this target, and pull it in.
Following this advice and comparing our unit to official `sssd.service`
unit (which is a similar service), we now pull NSS lookup targets from
the service, while starting it with `multi-user.target`.
This renames our `firmwareLinuxNonfree` package to `linux-firmware`.
There is prior art for this in multiple other distros[1][2][3].
Besides making the package more discoverable by those searching for the
usual name, this also brings it in-line with the `kebab-case` we
normally see in `nixpkgs` pnames, and removes the `Nonfree` information
from the name, which I consider redundant given it's present in
`meta.license`.
The corresponding alias has been added, so this shouldn't break
anything.
[1]: https://archlinux.org/packages/core/any/linux-firmware/
[2]: https://src.fedoraproject.org/rpms/linux-firmware
[3]: https://packages.gentoo.org/packages/sys-kernel/linux-firmware
This is a useful utility for monitoring network performance over time
using a combination of MTR and Prometheus. Also adding a service definition.
Signed-off-by: Jakub Sokołowski <jakub@status.im>
Previously we allocated subuids automatically for all normal users.
Make this explicitly configurable, so that one can use this for system
users too (or explicitly disable for normal users). Also don't allocate
automatically by default if a user already has ranges specified statically.
When startWhenNeeded is enabled, a brute force attack on sshd will cause
systemd to shut down the socket, locking out all SSH access to the machine.
Setting TriggerLimitIntervalSec to 0 disables this behavior.