Merge pull request 'Rework of Documentation' (#233) from Chewing_Bever/vieter:docs-rework into dev

Reviewed-on: vieter/vieter#233
main
Jef Roosens 2022-06-09 22:56:07 +02:00
commit 440d1753da
15 changed files with 398 additions and 268 deletions

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@ -22,13 +22,6 @@ a while now. I wanted a fast language that I could code while relaxing, without
having to exert too much mental effort & V seemed like the right choice for
that.
### Compiler
Vieter compiles with the standard Vlang compiler. However, I do maintain a
[mirror](https://git.rustybever.be/Chewing_Bever/v). This is to ensure my CI
does not break without reason, as I control when & how frequently the mirror is
updated to reflect the official repository.
## Features
* Arch repository server
@ -41,20 +34,24 @@ updated to reflect the official repository.
## Building
In order to build Vieter, you'll need a couple of libraries:
Besides a V installer, Vieter also requires the following libraries to work:
* An installation of V
* gc
* libarchive
* openssl
* sqlite3
**NOTE**: if you encounter any issues compiling Vieter using the absolute
latest version of V, it might be because my mirror is missing a specific commit
that causes issues. For this reason, the `make v` command exists which will
clone my compiler in the `v` directory & build it. Afterwards, you can use this
compiler with make by prepending all make commands with `V_PATH=v/v`. If you do
encounter this issue, please let me know so I can update my mirror & the
codebase to fix it!
### Compiler
Vieter compiles with the standard Vlang compiler. However, I do maintain a
[mirror](https://git.rustybever.be/vieter/v). This is to ensure my CI does not
break without reason, as I control when & how frequently the mirror is updated
to reflect the official repository.
If you encounter issues using the latest V compiler, try using my mirror
instead. `make v` will clone the repository & build the mirror. Afterwards,
prepending any make command with `V_PATH=v/v` tells make to use the locally
compiled mirror instead.
## Contributing
@ -70,7 +67,7 @@ If you wish to contribute to the project, please take note of the following:
The `docs` directory contains a Hugo site consisting of all user &
administrator documentation. `docs/api` on the other hand is a
[slate](https://github.com/slatedocs/slate) project describing the HTTP web
[Slate](https://github.com/slatedocs/slate) project describing the HTTP web
API.
To modify the Hugo documentation, you'll need to install Hugo. Afterwards, you
@ -81,8 +78,8 @@ can use the following commands inside the `docs` directory:
hugo
# Host an auto-refreshing web server with the documentation. Important to note
is that the files will be at `http://localhost:1313/docs/vieter` instead of
just `http://localhost:1313/docs/vieter`
# is that the files will be at `http://localhost:1313/docs/vieter` instead of
# just `http://localhost:1313/`
hugo server
```
@ -96,6 +93,6 @@ docker run \
-v $(pwd)/docs/api/source:/srv/slate/source slatedocs/slate serve
```
This'll make the slate docs available at http://localhost:4567. Sadly, this
This will make the Slate docs available at http://localhost:4567. Sadly, this
server doesn't auto-refresh, so you'll have to manually refresh your browser
every time you make a change.

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@ -112,7 +112,7 @@ Parameter | Description
url | URL of the Git repository.
branch | Branch of the Git repository.
repo | Vieter repository to publish built packages to.
schedule | Cron build schedule
schedule | Cron build schedule (syntax explained [here](https://rustybever.be/docs/vieter/usage/builds/schedule/))
arch | Comma-separated list of architectures to build package on.
## Modify a repo

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@ -1,11 +1,12 @@
# hugo server --minify --themesDir ... --baseURL=http://0.0.0.0:1313/theme/hugo-book/
baseURL = 'https://rustybever.be/docs/vieter/'
title = 'The Rusty Bever - Docs'
title = 'Vieter - Docs'
theme = 'hugo-book'
# Book configuration
disablePathToLower = true
# Doesn't work with docs as subdir
enableGitInfo = true
# Needed for mermaid/katex shortcodes
@ -28,16 +29,16 @@ enableGitInfo = true
[menu]
[[menu.after]]
name = "API Documentation"
url = "https://rustybever.be/docs/vieter/api"
name = "HTTP API Docs"
url = "https://rustybever.be/docs/vieter/api/"
weight = 10
[[menu.after]]
name = "Man Pages"
url = "https://rustybever.be/man/vieter/vieter.1.html"
weight = 20
[[menu.after]]
name = "Source"
url = "https://git.rustybever.be/Chewing_Bever/docs"
name = "Vieter"
url = "https://git.rustybever.be/vieter/vieter"
weight = 30
[[menu.after]]
name = "Hugo Theme"
@ -69,14 +70,14 @@ enableGitInfo = true
# Set source repository location.
# Used for 'Last Modified' and 'Edit this page' links.
BookRepo = 'https://git.rustybever.be/Chewing_Bever/docs'
BookRepo = 'https://git.rustybever.be/vieter/vieter'
# (Optional, default 'commit') Specifies commit portion of the link to the page's last modified
# commit hash for 'doc' page type.
# Requires 'BookRepo' param.
# Value used to construct a URL consisting of BookRepo/BookCommitPath/<commit-hash>
# Github uses 'commit', Bitbucket uses 'commits'
# BookCommitPath = 'commit'
BookCommitPath = 'src/commit'
# Enable "Edit this page" links for 'doc' page type.
# Disabled by default. Uncomment to enable. Requires 'BookRepo' param.

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@ -1,27 +0,0 @@
# Vieter CLI
I provide a simple CLI tool that currently only allows changing the Git
repository API. Its usage is quite simple.
First, you need to create a file in your home directory called `.vieterrc` with
the following content:
```toml
address = "https://example.com"
api_key = "your-api-key"
```
You can also use a different file or use environment variables, as described in
[Configuration](/configuration).
Now you're ready to use the CLI tool.
## Usage
* `vieter repos list` returns all repositories currently stored in the API.
* `vieter repos add url branch repo arch...` adds the repository with the given
URL, branch, repo & arch to the API.
* `vieter repos remove id` removes the repository with the given ID prefix.
You can always check `vieter -help` or `vieter repos -help` for more
information about the commands.

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@ -9,12 +9,9 @@ documentation might not be relevant anymore for the latest release.
## Overview
Vieter has a few main features:
* It's a simple & lightweight implementation of an Arch repository server
* It allows for uploading of built package archives
* It supports a basic build system to periodically re-build packages & upload
them to the server
Vieter consists of two main parts, namely an implementation of an Arch
repository server & a scheduling system to periodically build Pacman packages &
publish them to a repository.
{{< hint info >}}
**Note**
@ -26,12 +23,12 @@ well.
### Why?
Vieter is my personal solution for a problem I've been facing for months:
Vieter is my personal solution to a problem I've been facing for months:
extremely long AUR package build times. I run EndeavourOS on both my laptops,
one of which being a rather old MacBook Air. I really like being a beta-tester
for projects & run development builds for multiple packages (nheko,
newsflash...). The issue with this is that I have to regularly re-build these
packages in order to stay up to date with development & these builds can take a
newsflash...). Because of this, I have to regularly re-build these packages in
order to stay up to date with development. However, these builds can take a
really long time on the old MacBook. This project is a solution to that
problem: instead of building the packages locally, I can build them
automatically in the cloud & just download them whenever I update my system!

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@ -1,56 +0,0 @@
# Builder
Vieter supports a basic build system that allows you to build the packages
defined using the Git repositories API by running `vieter build`. For
configuration, see [here](/configuration#builder).
## How it works
The build system works in two stages. First it pulls down the
`archlinux:latest` image from Docker Hub, runs `pacman -Syu` & configures a
non-root build user. It then creates a new Docker image from this container.
This is to prevent each build having to fully update the container's
repositories. After the image has been created, each repository returned by
`/api/repos` is built sequentially by starting up a new container with the
previously created image as a base. Each container goes through the following steps:
1. The repository is cloned
2. `makepkg --nobuild --syncdeps --needed --noconfirm` is ran to update the `pkgver` variable inside
the `PKGBUILD` file
3. A HEAD request is sent to the Vieter server to check whether the specific
version of the package is already present. If it is, the container exits.
4. `makepkg` is ran with `MAKEFLAGS="-j\$(nproc)`
5. Each produced package archive is uploaded to the Vieter instance's
repository, as defined in the API for that specific Git repo.
## Cron image
The Vieter Docker image contains crond & a cron config that runs `vieter build`
every night at 3AM. This value is currently hardcoded, but I wish to change
that down the line (work is in progress). There's also some other caveats you
should be aware of, namely that the image should be run as root & that the
healthcheck will always fail, so you might have to disable it. This boils down
to the following docker-compose file:
```yaml
version: '3'
services:
cron:
image: 'chewingbever/vieter:dev'
command: crond -f
user: root
healthcheck:
disable: true
environment:
- 'VIETER_API_KEY=some-key'
- 'VIETER_ADDRESS=https://example.com'
volumes:
- '/var/run/docker.sock:/var/run/docker.sock'
```
Important to note is that the container also requires the host's Docker socket
to be mounted as this is how it spawns the necessary containers, as well as a
change to the container's command.

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@ -3,7 +3,7 @@ weight: 20
---
# Configuration
All vieter operations by default try to read in the TOML file `~/.vieterrc` for
By default, all vieter commands try to read in the TOML file `~/.vieterrc` for
configuration. The location of this file can be changed by using the `-f` flag.
If the above file doesn't exist or you wish to override some of its settings,
@ -19,53 +19,80 @@ the value in the environment variable is used.
{{< hint info >}}
**Note**
All environment variables can also be provided from a file by appending them
with `_FILE`. This for example allows you to provide the API key from a docker
with `_FILE`. This for example allows you to provide the API key from a Docker
secrets file.
{{< /hint >}}
## Modes
## Commands
The vieter binary can run in several "modes", indicated by the first argument
passed to them. Each mode requires a different configuration.
The first argument passed to Vieter determines which command you wish to use.
Each of these can contain subcommands (e.g. `vieter repos list`), but all
subcommands will use the same configuration. Below you can find the
configuration variable required for each command.
### Server
### `vieter server`
* `log_level`: defines how much logs to show. Valid values are one of `FATAL`,
`ERROR`, `WARN`, `INFO` or `DEBUG`. Defaults to `WARN`
* `log_file`: log file to write logs to. Defaults to `vieter.log` in the
current directory.
* `log_level`: log verbosity level. Value should be one of `FATAL`, `ERROR`,
`WARN`, `INFO` or `DEBUG`.
* Default: `WARN`
* `log_file`: log file to write logs to.
* Default: `vieter.log` (in the current directory)
* `pkg_dir`: where Vieter should store the actual package archives.
* `data_dir`: where Vieter stores the repositories, log file & database.
* `api_key`: the API key to use when authenticating requests.
* `default_arch`: architecture to always add packages of arch `any` to.
* `default_arch`: this setting serves two main purposes:
* Packages with architecture `any` are always added to this architecture.
This prevents the server from being confused when an `any` package is
published as the very first package for a repository.
* Git repositories added without an `arch` value use this value instead.
### Builder
### `vieter cron`
* `log_level`: log verbosity level. Value should be one of `FATAL`, `ERROR`,
`WARN`, `INFO` or `DEBUG`.
* Default: `WARN`
* `log_file`: log file to write logs to.
* Default: `vieter.log` (in `data_dir`)
* `address`: *public* URL of the Vieter repository server to build for. From
this server the list of Git repositories is retrieved. All built packages are
published to this server.
* `api_key`: API key of the above server.
* `data_dir`: directory to store log file in.
* `base_image`: Docker image to use when building a package. Any Pacman-based
distro image should work, as long as `/etc/pacman.conf` is used &
`base-devel` exists in the repositories. Make sure that the image supports
the architecture of your cron daemon.
* Default: `archlinux:base-devel` (only works on `x86_64`). If you require
`aarch64` support, consider using
[`menci/archlinuxarm:base-devel`](https://hub.docker.com/r/menci/archlinuxarm)
([GitHub](https://github.com/Menci/docker-archlinuxarm)). This is the image
used for the Vieter CI builds.
* `max_concurrent_builds`: how many builds to run at the same time.
* Default: `1`
* `api_update_frequency`: how frequently (in minutes) to poll the Vieter
repository server for a new list of Git repositories to build.
* Default: `15`
* `image_rebuild_frequency`: Vieter periodically builds a builder image using
the configured base image. This makes sure build containers do not have to
download a lot of packages when updating their system. This setting defines
how frequently (in minutes) to rebuild this builder image.
* Default: `1440` (every 24 hours)
* `global_schedule`: build schedule for any Git repository that does not have a
schedule defined. For information about this syntax, see
[here](/usage/builds/schedule).
* Default: `0 3` (3AM every night)
### `vieter logs`
* `api_key`: the API key to use when authenticating requests.
* `address`: Base your URL of your Vieter instance, e.g. https://example.com
* `base_image`: image to use when building a package. It should be an Archlinux
image. The default if not configured is `archlinux:base-devel`, but this
image only supports arm64. If you require aarch64 support as well, consider
using
[`menci/archlinuxarm:base-devel`](https://hub.docker.com/r/menci/archlinuxarm)
([GH](https://github.com/Menci/docker-archlinuxarm))
* `address`: Base URL of your Vieter instance, e.g. https://example.com
### Repos
### `vieter repos`
* `api_key`: the API key to use when authenticating requests.
* `address`: Base your URL of your Vieter instance, e.g. https://example.com
* `address`: Base URL of your Vieter instance, e.g. https://example.com
* `base_image`: image to use when building a package using `vieter repos
build`.
* Default: `archlinux:base-devel`
### Cron
* `log_level`: defines how much logs to show. Valid values are one of `FATAL`,
`ERROR`, `WARN`, `INFO` or `DEBUG`. Defaults to `WARN`
* `api_key`: the API key to use when authenticating requests.
* `address`: Base your URL of your Vieter instance, e.g. https://example.com.
This *must* be the publicly facing URL of your Vieter instance.
* `data_dir`: where Vieter stores the log file.
* `base_image`: Docker image from which to create the builder images.
* `max_concurrent_builds`: amount of builds to run at once.
* `api_update_frequency`: how frequenty to check for changes in the repo list.
* `image_rebuild+frequency`: how frequently to rebuild the builder image
* `global_schedule`: cron schedule to use for any repo without an individual
schedule

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@ -3,76 +3,100 @@ weight: 10
---
# Installation
Vieter consists of a single binary, akin to busybox. The binary's behavior is
determined by its CLI arguments, e.g. `vieter server` starts the repository
server.
All installation solutions can be configured the same way,
as described [here](/configuration).
## Docker
Docker is the recommended way to install vieter. The images can be pulled from
[`chewingbever/vieter`](https://hub.docker.com/r/chewingbever/vieter). You can
either pull a release tag (e.g. `chewingbever/vieter:0.1.0-rc1`), or pull the
`chewingbever/vieter:dev` tag. The latter is updated every time a new commit is
pushed to the development branch. This branch will be the most up to date, but
does not give any guarantees about stability, so beware!
Docker images are published to the
[`chewingbever/vieter`](https://hub.docker.com/r/chewingbever/vieter) Docker
Hub repository. You can either pull a release tag (e.g.
`chewingbever/vieter:0.1.0-rc1`), or pull the `chewingbever/vieter:dev` tag.
The latter is updated every time a new commit is pushed to the development
branch. This branch will be the most up to date, but does not give any
guarantees about stability, so beware!
The simplest way to run the Docker image is using a plain Docker command:
Thanks to the single-binary design of Vieter, this image can be used both for
the repository server & the cron daemon.
```sh
docker run \
--rm \
-d \
-v /path/to/data:/data \
-e VIETER_API_KEY=changeme \
-e VIETER_DEFAULT_ARCH=x86_64 \
-p 8000:8000 \
chewingbever/vieter:dev
Below is an example compose file to set up both the repository server & the
cron daemon:
```yaml
version: '3'
services:
server:
image: 'chewingbever/vieter:dev'
restart: 'always'
environment:
- 'VIETER_API_KEY=secret'
- 'VIETER_DEFAULT_ARCH=x86_64'
volumes:
- 'data:/data'
cron:
image: 'chewingbever/vieter:dev'
restart: 'always'
user: root
command: 'vieter cron'
environment:
- 'VIETER_API_KEY=secret'
# MUST be public URL of Vieter repository
- 'VIETER_ADDRESS=https://example.com'
- 'VIETER_DEFAULT_ARCH=x86_64'
- 'VIETER_MAX_CONCURRENT_BUILDS=2'
- 'VIETER_GLOBAL_SCHEDULE=0 3'
volumes:
- '/var/run/docker.sock:/var/run/docker.sock'
volumes:
data:
```
Here, you should change `/path/to/data` to the path on your host where you want
vieter to store its files.
If you do not require the build system, the repository server can be used
independently as well.
The default configuration will store everything inside the `/data` directory.
Inside the container, the Vieter server runs on port 8000. This port should be
exposed to the public accordingely.
For an overview of how to configure vieter & which environment variables can be
used, see the [Configuration](/configuration) page.
{{< hint info >}}
**Note**
Builds are executed on the cron daemon's system using the host's Docker daemon.
A cron daemon on a specific architecture will only build packages for that
specific architecture. Therefore, if you wish to build packages for both
`x86_64` & `aarch64`, you'll have to deploy two cron daemons, one on each
architecture. Afterwards, any Git repositories enabled for those two
architectures will build on both.
{{< /hint >}}
## Binary
On the [releases](https://git.rustybever.be/Chewing_Bever/vieter/releases)
page, you can find statically compiled binaries for all released versions. You
can download the binary for your host's architecture & run it that way.
On the
[releases](https://git.rustybever.be/vieter/vieter/releases)
page, you can find statically compiled binaries for all
released versions. This is the same binary as used inside
the Docker images.
For more information about configuring the binary, check out the
[Configuration](/configuration) page.
## Arch
I publish both development & release versions of Vieter to my personal
repository, https://arch.r8r.be. Packages are available for `x86_64` &
`aarch64`. To use the repository, add the following to your `pacman.conf`:
```
[vieter]
Server = https://arch.r8r.be/$repo/$arch
SigLevel = Optional
```
Afterwards, you can update your system & install the `vieter` package for the
latest official release or `vieter-git` for the latest development release.
## Building from source
Because the project is still in heavy development, it might be useful to build
from source instead. Luckily, this process is very easy. You'll need make,
libarchive & openssl; all of which should be present on an every-day Arch
install. Then, after cloning the repository, you can use the following commands:
```sh
# Builds the compiler; should usually only be ran once. Vieter compiles using
# the default compiler, but I maintain my own mirror to ensure nothing breaks
# without me knowing.
make v
# Build vieter
# Alternatively, use `make prod` to build the production build.
make
```
{{< hint info >}}
**Note**
My version of the V compiler is also available on my Vieter instance,
https://arch.r8r.be. It's in the `vieter` repository, with the package being
named `vieter-v`. The compiler is available for both x86_64 & aarch64.
{{< /hint >}}
## My Vieter instance
Besides uploading development Docker images, my CI also publishes x86_64 &
aarch64 packages to my personal Vieter instance, https://arch.r8r.be. If you'd
like, you can use this repository as well by adding it to your Pacman
configuration as described [here](/usage#configuring-pacman). Both the
repository & the package are called `vieter`.
The project [README](https://git.rustybever.be/vieter/vieter#building) contains
instructions for building Vieter from source.

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# Builds In-depth
For those interested, this page describes how the build system works
internally.
## Builder image
Every cron daemon perodically creates a builder image that is then used as a
base for all builds. This is done to prevent build containers having to pull
down a bunch of updates when they update their system.
The build container is created by running the following commands inside a
container started from the image defined in `base_image`:
```sh
# Update repos & install required packages
pacman -Syu --needed --noconfirm base-devel git
# Add a non-root user to run makepkg
groupadd -g 1000 builder
useradd -mg builder builder
# Make sure they can use sudo without a password
echo 'builder ALL=(ALL) NOPASSWD: ALL' >> /etc/sudoers
# Create the directory for the builds & make it writeable for the
# build user
mkdir /build
chown -R builder:builder /build
```
This script updates the packages to their latest versions & creates a non-root
user to use when running `makepkg`.
This script is base64-encoded & passed to the container as an environment
variable. The container's entrypoint is set to `/bin/sh -c` & its command
argument to `echo $BUILD_SCRIPT | base64 -d | /bin/sh -e`, with the
`BUILD_SCRIPT` environment variable containing the base64-encoded script.
Once the container exits, a new Docker image is created from it. This image is
then used as the base for any builds.
## Running builds
Each build has its own Docker container, using the builder image as its base.
The same base64-based technique as above is used, just with a different script.
To make the build logs more clear, each command is appended by an echo command
printing the next command to stdout.
Given the Git repository URL is `https://examplerepo.com` with branch `main`,
the URL of the Vieter server is `https://example.com` and `vieter` is the
repository we wish to publish to, we get the following script:
```sh
echo -e '+ echo -e '\''[vieter]\\nServer = https://example.com/$repo/$arch\\nSigLevel = Optional'\'' >> /etc/pacman.conf'
echo -e '[vieter]\nServer = https://example.com/$repo/$arch\nSigLevel = Optional' >> /etc/pacman.conf
echo -e '+ pacman -Syu --needed --noconfirm'
pacman -Syu --needed --noconfirm
echo -e '+ su builder'
su builder
echo -e '+ git clone --single-branch --depth 1 --branch main https://examplerepo.com repo'
git clone --single-branch --depth 1 --branch main https://examplerepo.com repo
echo -e '+ cd repo'
cd repo
echo -e '+ makepkg --nobuild --syncdeps --needed --noconfirm'
makepkg --nobuild --syncdeps --needed --noconfirm
echo -e '+ source PKGBUILD'
source PKGBUILD
echo -e '+ curl -s --head --fail https://example.com/vieter/x86_64/$pkgname-$pkgver-$pkgrel && exit 0'
curl -s --head --fail https://example.com/vieter/x86_64/$pkgname-$pkgver-$pkgrel && exit 0
echo -e '+ [ "$(id -u)" == 0 ] && exit 0'
[ "$(id -u)" == 0 ] && exit 0
echo -e '+ MAKEFLAGS="-j$(nproc)" makepkg -s --noconfirm --needed && for pkg in $(ls -1 *.pkg*); do curl -XPOST -T "$pkg" -H "X-API-KEY: $API_KEY" https://example.com/vieter/publish; done'
MAKEFLAGS="-j$(nproc)" makepkg -s --noconfirm --needed && for pkg in $(ls -1 *.pkg*); do curl -XPOST -T "$pkg" -H "X-API-KEY: $API_KEY" https://example.com/vieter/publish; done
```
This script:
1. Adds the target repository as a repository in the build container
2. Updates mirrors & packages
3. Clones the Git repository
4. Runs `makepkg` without building to calculate `pkgver`
5. Checks whether the package version is already present on the server
6. If not, run `makepkg` & publish any generated package archives to the server

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weight: 30
---
# Usage
## Starting the server
To start a server, either install it using Docker (see
[Installation](/installation)) or run it locally by executing `vieter
server`. See [Configuration](/configuration) for more information about
configuring the binary.
## Multiple repositories
Vieter works with multiple repositories. This means that a single Vieter server
can serve multiple repositories in Pacman. It also automatically divides files
with specific architectures among arch-repos. Arch-repos are the actual
repositories you add to your `/etc/pacman.conf` file. See [Configuring
Pacman](/usage#configuring-pacman) below for more info.
## Adding packages
Using Vieter is currently very simple. If you wish to add a package to Vieter,
build it using makepkg & POST that file to the `/<repo>/publish` endpoint of
your server. This will add the package to the repository. Authentification
requires you to add the API key as the `X-Api-Key` header.
All of this can be combined into a simple cURL call:
```
curl -XPOST -H "X-API-KEY: your-key" -T some-package.pkg.tar.zst https://example.com/somerepo/publish
```
`somerepo` is automatically created if it doesn't exist yet.
## Configuring Pacman
Configuring Pacman to use a Vieter instance is very simple. In your
`/etc/pacman.conf` file, add the following lines:
```
[vieter]
Server = https://example.com/$repo/$arch
SigLevel = Optional
```
Here, you see two important placeholder variables. `$repo` is replaced by the
name within the square brackets, which in this case would be `vieter`. `$arch`
is replaced by the output of `uname -m`. Because Vieter supports multiple
repositories & architectures per repository, using this notation makes sure you
always use the correct endpoint for fetching files.
I recommend placing this below all other repository entries, as the order
decides which repository should be used if there's ever a naming conflict.

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# Building packages
The automatic build system is what makes Vieter very useful as a replacement
for an AUR helper. It can perodically build packages & publish them to your
personal Vieter repository server, removing the need to build the packages
locally.
## Adding builds
Before the cron system can start building your package, you need to add its
info to the system. The Vieter repository server exposes an HTTP API for this
(see the [HTTP API Docs](https://rustybever.be/docs/vieter/api/) for more
info). For ease of use, the Vieter binary contains a CLI interface for
interacting with this API (see [Configuration](/configuration) for
configuration details). The [man
pages](https://rustybever.be/man/vieter/vieter-repos.1.html) describe this in
greater detail, but the basic usage is as follows:
```
vieter repos add some-url some-branch some-repository
```
Here, `some-url` is the URL of the Git repository containing the PKGBUILD. This
URL is passed to `git clone`, meaning the repository should be public. Vieter
expects the same format as an AUR Git repository, so you can directly use AUR
URLs here.
`some-branch` is the branch of the Git repository the build should check out.
If you're using an AUR package, this should be `master`.
Finally, `some-repo` is the repository to which the built package archives
should be published.
The above command intentionally leaves out a few parameters to make the CLI
more useable. For information on how to modify all parameters using the CLI,
see
[vieter-repos-edit(1)](https://rustybever.be/man/vieter/vieter-repos-edit.1.html).
## Reading logs
The logs of each build are uploaded to the Vieter repository server, along with
information about the exit code of the build container, when the build
started/ended etc. These logs can then be accessed using the [HTTP
API](https://rustybever.be/docs/vieter/api/).
For ease of use, the logs are also available using some CLI commands; see
[vieter-logs(1)](https://rustybever.be/man/vieter/vieter-logs.1.html) for more
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# Cron schedule syntax
The Vieter cron daemon uses a subset of the cron expression syntax to schedule
builds.
## Format
`a b c d`
* `a`: minutes
* `b`: hours
* `c`: days
* `d`: months
An expression consists of two to four sections. If less than four sections are
provided, the parser will append `*` until there are four sections. This means
that `0 3` is the same as `0 3 * *`.
Each section consists of one or more parts, separated by a comma. Each of these
parts, in turn, can be one of the following (any letters are integers):
* `*`: allow all possible values.
* `a`: only this value is allowed.
* `*/n`: allow every n-th value.
* `a/n`: allow every n-th value, starting at a in the list.
* `a-b`: allow every value between a and b, bounds included.
* `a-b/n`: allow every n-th value inside the list of values between a and b,
bounds included.
Each section can consist of as many of these parts as necessary.
## Examples
* `0 3`: every day at 03:00AM.
* `0 0 */7`: every 7th day of the month, at midnight.
## CLI tool
The Vieter binary contains a command that shows you the next matching times for
a given expression. This can be useful to understand the syntax. For more
information, see
[vieter-schedule(1)](https://rustybever.be/man/vieter/vieter-schedule.1.html).

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# Pacman repository
The part of Vieter that users will interact with the most is the Pacman
repository aka `vieter server`.
## Design overview
A Vieter repository server has support for multiple repositories, with each
repository containing packages for multiple architectures.
If you wish to use these repositories on your system, add the following to
`/etc/pacman.conf` for each repository you wish to use:
```
[repo-name]
Server = https://example.com/$repo/$arch
SigLevel = Optional
```
Here, `$repo` and `$arch` are not variables you have to fill in yourself.
Rather, Pacman will substitute these when reading the config file. `$repo` is
replaced by the name between the square brackets (in this case `repo-name`),
and `$arch` is replaced by your system's architecture, e.g. `x86_64`. Of
course, you can also fill in these values manually yourself, e.g. if you wish
to use a different name inside the square brackets.
Important to note is that, when two repositories contain a package with the
same name, Pacman will choose the one from the repository that's highest up in
the `pacman.conf` file. Therefore, if you know your repository has packages
with the same name as ones from the official repositories, it might be better
to place the repository below the official repositories to avoid overwriting
official packages.
## Publishing packages
Packages can be easily published using a single HTTP POST request. Check out
the [HTTP API docs](https://rustybever.be/docs/vieter/api/) for more info on
these routes, including example cURL commands.