Marty Oehme
e5414cbadf
Flashfocus did not start up correctly since it was not required for the `default.target` which is the only (?) valid target when systemd operates in user-mode. Instead of overwriting just part of the flashfocus service file, and subsequently having it enabled for default.target and a non-existent graphical.target user environment, we overwrite the whole file and set it to `default.target`. Additionally, the service should be restarted when it fails and slow down on its restart attempts (I kept 5 seconds for this one, since it is not as time critical as others -- no one cares if windows only flash 5 seconds after starting the machine.) Added (wishful) After components to many service units, in case I figure out one day how to make a useful target for the systemd user mode. |
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.config/systemd/user | ||
.local/share/services | ||
README.md |
User services
This module uses systemd
to provide various services for the user running the dotfiles.
The services will get moved into the correct .config
directory for systemd
to pick them up as user services.
They are, for now, automatically enabled when installing the dotfiles. This is pending changes.
They can be enabled or disabled as needed by invoking systemctl --user enable|disable [service]
.
Be aware that, for the services to work correctly out of the box all the following applications have to exist on the system:
an2linuxserver
, dunst
, greenclip
, keybase
, redshift
.
If they are not found, their service will fail silently (well, with a systemd error log, but who checks those first thing...)
Lastly, the directory ~/documents/notes/uni
will begin to be synced with git
, so will need a) git
installed, b) the directory to exist as a git
directory, c) to be disabled if you do not want this directory to be continually synced.
Look into the sections below to see what else is assumed (e.g. a rigid notes and records directory structure). Some of this may change over time -- ideally I would prefer flexible variables instead of hard-coded paths, but it is what it is for now. In other words: you will very likely not just want to install and activate this module in general but be picky about what to do with it, since it conforms to a highly opinionated set of installed applications and directory structures.
Why systemd
There are two reasons for the service module making use of systemd
to manage its services:
The machine(s) these dotfiles are currently targeting are both archlinux-based.
That means, pragmatically, I will adhere to using systemd
since it is what arch uses as init manager.
I am eye-ing alternatives like Artix Linux but adopting it is, if it happens at all, still a way out due to my current time constraints.
Secondly, I am using this opportunity to learn more about systemd
.
There are various arcane-seeming invocations in systemd
which are beginning to make more sense to me as time goes on
(looking at you, journalctl
).
I do not want to dismiss a program without having given it a fair shake (especially if it enjoys such widespread adoption).
Additionally, process watching and automatic maintenance, as well as the entire .timer
system that it can provide for services are pretty fantastic, even if their syntax takes some getting used to for me.
That said, there are also many moments where I am envious of the simplicity and straightforward nature of something like runit.
So what that essentially means: this service module uses systemd
for now.
It might change to something else in the future.
It might also not be written very well, since I am using it to adopt a mental mapping of systemd
at the same time.
Drop-in Changes to services
There are, for now, small changes to the services that get installed by default with their arch packages: greenclip
and redshift
.
Both need a running X server for their program to start successfully, and both are repeatedly run way too fast by systemd by default and would crash.
I have not yet created a new target solely for X having started
(and by default you can not access system-wide systemd targets from a user-wide service),
so in the meantime these changes simply make the programs wait longer before trying to restart.
This generally gives ample time for the services to start correctly by themselves.
Commit Notes service
This service uni-notes-sync.service
keeps my university note directory in sync with a remote origin.
The script behind it (git-sync
) can be used more generally to keep any git directory in sync.
The idea behind the services is: commit asap, push when finished.
It basically runs on two different timers, every x seconds (120 by default, can be changed with GS_TIME_TO_COMMIT
env var) it will commit whatever changes took place in the directory.
After x runs of the commit timer without changes (30 by default, can be changed with GS_UNCHANGED_RUNS_TO_PUSH
) it will push the git index to its default remote.
In effect this means, using the default values, the service will commit any changes made every two minutes and when no changes were made for an hour (±2minutes), it will push it to remote.
The two cycles can be changed independently from each other via the environment variables mentioned above so that, for example, the repository can be pushed every single time a commit takes place, or commits can be checked for on faster or shorter intervals.
As another example, if you want to check for changes every 30 seconds but still push every hour, you would do GS_TIME_TO_COMMIT=30
and GS_UNCHANGED_RUNS_TO_PUSH=120
.
Dropdown services
The dropdown-terminal.service
is very simple, and always keeps a (alacritty
) terminal window running.
The program is started with a scratchpad
class, which is picked up by i3
and automatically hidden.
You can then show/hide the terminal as a floating overlay as you need, mimicking a floating terminal
(by default with super + shift + return
, though this may change).
When you close the window in any way, systemd automatically restarts it in the background.
The dropdown-todo.service
is similar but instead of an empty (alacritty
) terminal window,
it starts up a nvim
instance which hides most of its interface and shows a to-do list.
The list, by default, is situated in ~/documents/records/todo.md
and can be displayed with super + t
.