The `platform` field is pointless nesting: it's just stuff that happens
to be defined together, and that should be an implementation detail.
This instead makes `linux-kernel` and `gcc` top level fields in platform
configs. They join `rustc` there [all are optional], which was put there
and not in `platform` in anticipation of a change like this.
`linux-kernel.arch` in particular also becomes `linuxArch`, to match the
other `*Arch`es.
The next step after is this to combine the *specific* machines from
`lib.systems.platforms` with `lib.systems.examples`, keeping just the
"multiplatform" ones for defaulting.
Declaring them as lists enables the concatenation, supporting
lib.mkBefore, lib.mkOrder, etc.
This is useful when you need to extend a service with a pre-start
script that needs to run as root.
Judging from `"${pkgs.element-web}/config.sample.json"`,
this needs be a URL starting with `https://`; without it one gets:
Your Element is misconfigured
Invalid base_url for m.homeserver
Use new command-line flags of release 0.3.0 and always answer with the
expected XML in the VM test instead of using a test-specific fixed path.
Co-authored-by: ajs124 <git@ajs124.de>
In the default configuration we have timers for creating and deleting
snapper snapshots, and it looks like if we just create configs with
correct mountpoints we will get automatic snapshots (which either
used to be true, or seems to be only true on Archlinux according to
their wiki). In default snapper configuration TIMELINE_CREATE and
TIMELINE_CLEANUP are set to "no", so just providing configs won't
be enough for having automatic backups, which are the main usecase
for snapper. In other linux distributions you would use `snapper
create-config` to generate configs for partitions and you'd have a
chance to notice that TIMELINE_CREATE is set to no. Also, my guess is
that it might be set to no by default for safety reasons in regular distros,
so that the config won't be actioned upon until the user finishes
customizing it.
If the machine is powered off when the zpool-trim timer is supposed to
trigger (usually around midnight) then the timer will be skipped
outright in favor of the next instance.
For desktop systems which are usually powered off at this time, zpool
trimming will never be run which can degrade SSD performance.
By marking the timer as `Persistent = yes` we ensure that it will run at
the first possible opportunity after the trigger date is reached.
Minimal ISO:
1m21 -> 2m25
625M -> 617M
Plasma5 ISO:
2m45 -> 5m18
1.4G -> 1.3G
Decompression speed stays about the same. It's just a few seconds for the whole
image anyways and, with that kind of speed, you're going to be bottlenecked by
IO long before the CPU.
The socketActivation option was removed, but later on socket activation
was added back without the option to disable it. The description now reflects
that socket activation is used unconditionally in the current setup.
Added JWT_SECRET and INTERNAL_TOKEN to be persistent, like SECRET_KEY and LFS_JWT_SECRET do. Also renamed some vars belonging to SECRET_KEY and LFS_JWT_SECRET to get a consistent naming scheme over all secrets.