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systemd/docs/ARCHITECTURE.md

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---
title: systemd Repository Architecture
category: Contributing
layout: default
SPDX-License-Identifier: LGPL-2.1-or-later
---
# The systemd Repository Architecture
## Code Map
This document provides a high-level overview of the various components of the
systemd repository.
## Source Code
Directories in `src/` provide the implementation of all daemons, libraries and
command-line tools shipped by the project. There are many, and more are
constantly added, so we will not enumerate them all here — the directory
names are self-explanatory.
### Shared Code
The code that is shared between components is split into a few directories,
each with a different purpose:
- `src/basic/` and `src/fundamental/` — those directories contain code
primitives that are used by all other code. `src/fundamental/` is stricter,
because it used for EFI and user-space code, while `src/basic/` is only used
for user-space code. The code in `src/fundamental/` cannot depend on any
other code in the tree, and `src/basic/` can depend only on itself and
`src/fundamental/`. For user-space, a static library is built from this code
and linked statically in various places.
- `src/libsystemd/` implements the `libsystemd.so` shared library (also
available as static `libsystemd.a`). This code may use anything in
`src/basic/` or `src/fundamental/`.
- `src/shared/` provides various utilities and code shared between other
components that is exposed as the `libsystemd-shared-<nnn>.so` shared library.
The other subdirectories implement individual components. They may depend only
on `src/fundamental/` + `src/basic/`, or also on `src/libsystemd/`, or also on
`src/shared/`.
You might wonder what kind of code belongs where. In general, the rule is that
code should linked as few times as possible, ideally only once. Thus code that
is used by "higher-level" components (e.g. our binaries which are linked to
`libsystemd-shared-<nnn>.so`), would go to a subdirectory specific to that
component if it is only used there. If the code is to be shared between
components, it'd go to `src/shared/`. Shared code that that is used by multiple
components that do not link to `libsystemd-shared-<nnn>.so` may live either in
`src/libsystemd/`, `src/basic/`, or `src/fundamental/`. Any code that is used
only for EFI goes under `src/boot/efi/`, and `src/fundamental/` if is shared
with non-EFI compoenents.
To summarize:
`src/fundamental/`
- may be used by all code in the tree
- may not use any code outside of `src/fundamental/`
`src/basic/`
- may be used by all code in the tree
- may not use any code outside of `src/fundamental/` and `src/basic/`
`src/libsystemd/`
- may be used by all code in the tree that links to `libsystem.so`
- may not use any code outside of `src/fundamental/`, `src/basic/`, and
`src/libsystemd/`
`src/shared/`
- may be used by all code in the tree, except for code in `src/basic/`,
`src/libsystemd/`, `src/nss-*`, `src/login/pam_systemd.*`, and files under
`src/journal/` that end up in `libjournal-client.a` convenience library.
- may not use any code outside of `src/fundamental/`, `src/basic/`,
`src/libsystemd/`, `src/shared/`
### PID 1
Code located in `src/core/` implements the main logic of the systemd system (and user)
service manager.
BPF helpers written in C and used by PID 1 can be found under `src/core/bpf/`.
#### Implementing Unit Settings
The system and session manager supports a large number of unit settings. These can generally
be configured in three ways:
1. Via textual, INI-style configuration files called *unit* *files*
2. Via D-Bus messages to the manager
3. Via the `systemd-run` and `systemctl set-property` commands
From a user's perspective, the third is a wrapper for the second. To implement a new unit
setting, it is necessary to support all three input methods:
1. *unit* *files* are parsed in `src/core/load-fragment.c`, with many simple and fixed-type
unit settings being parsed by common helpers, with the definition in the generator file
`src/core/load-fragment-gperf.gperf.in`
2. D-Bus messages are defined and parsed in `src/core/dbus-*.c`
3. `systemd-run` and `systemctl set-property` do client-side parsing and translating into
D-Bus messages in `src/shared/bus-unit-util.c`
So that they are exercised by the fuzzing CI, new unit settings should also be listed in the
text files under `test/fuzz/fuzz-unit-file/`.
### systemd-udev
Sources for the udev daemon and command-line tool (single binary) can be found under
`src/udev/`.
### Unit Tests
Source files found under `src/test/` implement unit-level testing, mostly for
modules found in `src/basic/` and `src/shared/`, but not exclusively. Each test
file is compiled in a standalone binary that can be run to exercise the
corresponding module. While most of the tests can be run by any user, some
require privileges, and will attempt to clearly log about what they need
(mostly in the form of effective capabilities). These tests are self-contained,
and generally safe to run on the host without side effects.
Ideally, every module in `src/basic/` and `src/shared/` should have a
corresponding unit test under `src/test/`, exercising every helper function.
### Fuzzing
Fuzzers are a type of unit tests that execute code on an externally-supplied
input sample. Fuzzers are called `fuzz-*`. Fuzzers for `src/basic/` and
`src/shared` live under `src/fuzz/`, and those for other parts of the codebase
should be located next to the code they test.
Files under `test/fuzz/` contain input data for fuzzers, one subdirectory for
each fuzzer. Some of the files are "seed corpora", i.e. files that contain
lists of settings and input values intended to generate initial coverage, and
other files are samples saved by the fuzzing engines when they find an issue.
When adding new input samples under `test/fuzz/*/`, please use some
short-but-meaningful names. Names of meson tests include the input file name
and output looks awkward if they are too long.
Fuzzers are invoked primarily in three ways: firstly, each fuzzer is compiled
as a normal executable and executed for each of the input samples under
`test/fuzz/` as part of the test suite. Secondly, fuzzers may be instrumented
with sanitizers and invoked as part of the test suite (if `-Dfuzz-tests=true`
is configured). Thirdly, fuzzers are executed through fuzzing engines that try
to find new "interesting" inputs through coverage feedback and massive
parallelization; see the links for oss-fuzz in [Code quality](CODE_QUALITY.md).
For testing and debugging, fuzzers can be executed as any other program,
including under `valgrind` or `gdb`.
## Integration Tests
Sources in `test/TEST-*` implement system-level testing for executables,
libraries and daemons that are shipped by the project. They require privileges
to run, and are not safe to execute directly on a host. By default they will
build an image and run the test under it via `qemu` or `systemd-nspawn`.
Most of those tests should be able to run via `systemd-nspawn`, which is
orders-of-magnitude faster than `qemu`, but some tests require privileged
operations like using `dm-crypt` or `loopdev`. They are clearly marked if that
is the case.
See `test/README.testsuite` for more specific details.
## hwdb
Rules built in the static hardware database shipped by the project can be found
under `hwdb.d/`. Some of these files are updated automatically, some are filled
by contributors.
## Documentation
### systemd.io
Markdown files found under `docs/` are automatically published on the
[systemd.io](https://systemd.io) website using Github Pages. A minimal unit test
to ensure the formatting doesn't have errors is included in the
`meson test -C build/ github-pages` run as part of the CI.
### Man pages
Manpages for binaries and libraries, and the DBUS interfaces, can be found under
`man/` and should ideally be kept in sync with changes to the corresponding
binaries and libraries.
### Translations
Translations files for binaries and daemons, provided by volunteers, can be found
under `po/` in the usual format. They are kept up to date by contributors and by
automated tools.
## System Configuration files and presets
Presets (or templates from which they are generated) for various daemons and tools
can be found under various directories such as `factory/`, `modprobe.d/`, `network/`,
`presets/`, `rules.d/`, `shell-completion/`, `sysctl.d/`, `sysusers.d/`, `tmpfiles.d/`.
## Utilities for Developers
`tools/`, `coccinelle/`, `.github/`, `.semaphore/`, `.mkosi/` host various
utilities and scripts that are used by maintainers and developers. They are not
shipped or installed.