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systemd/docs/CODING_STYLE.md
Zbigniew Jędrzejewski-Szmek bcef0f33cc docs: more markup
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---
title: Coding Style
category: Contributing
layout: default
---
# Coding Style
## Formatting
- 8ch indent, no tabs, except for files in `man/` which are 2ch indent, and
still no tabs, and shell scripts, which are 4ch indent, and no tabs either.
- We prefer `/* comments */` over `// comments` in code you commit,
please. This way `// comments` are left for developers to use for local,
temporary commenting of code for debug purposes (i.e. uncommittable stuff),
making such comments easily discernible from explanatory, documenting code
comments (i.e. committable stuff).
- Don't break code lines too eagerly. We do **not** force line breaks at 80ch,
all of today's screens should be much larger than that. But then again, don't
overdo it, ~109ch should be enough really. The `.editorconfig`, `.vimrc` and
`.dir-locals.el` files contained in the repository will set this limit up for
you automatically, if you let them (as well as a few other things). Please
note that emacs loads `.dir-locals.el` automatically, but vim needs to be
configured to load `.vimrc`, see that file for instructions.
- If you break a function declaration over multiple lines, do it like this:
```c
void some_function(
int foo,
bool bar,
char baz) {
int a, b, c;
```
(i.e. use double indentation — 16 spaces — for the parameter list.)
- Try to write this:
```c
void foo() {
}
```
instead of this:
```c
void foo()
{
}
```
- Single-line `if` blocks should not be enclosed in `{}`. Write this:
```c
if (foobar)
waldo();
```
instead of this:
```c
if (foobar) {
waldo();
}
```
- Do not write `foo ()`, write `foo()`.
## Code Organization and Semantics
- Please name structures in `PascalCase` (with exceptions, such as public API
structs), variables and functions in `snake_case`.
- Avoid static variables, except for caches and very few other cases. Think
about thread-safety! While most of our code is never used in threaded
environments, at least the library code should make sure it works correctly
in them. Instead of doing a lot of locking for that, we tend to prefer using
TLS to do per-thread caching (which only works for small, fixed-size cache
objects), or we disable caching for any thread that is not the main
thread. Use `is_main_thread()` to detect whether the calling thread is the
main thread.
- Do not write functions that clobber call-by-reference variables on
failure. Use temporary variables for these cases and change the passed in
variables only on success. The rule is: never clobber return parameters on
failure, always initialize return parameters on success.
- Typically, function parameters fit into three categories: input parameters,
mutable objects, and call-by-reference return parameters. Input parameters
should always carry suitable "const" declarators if they are pointers, to
indicate they are input-only and not changed by the function. Return
parameters are best prefixed with "ret_", to clarify they are return
parameters. (Conversely, please do not prefix parameters that aren't
output-only with "ret_", in particular not mutable parameters that are both
input as well as output). Example:
```c
static int foobar_frobnicate(
Foobar* object, /* the associated mutable object */
const char *input, /* immutable input parameter */
char **ret_frobnicated) { /* return parameter */
return 0;
}
```
- The order in which header files are included doesn't matter too
much. systemd-internal headers must not rely on an include order, so it is
safe to include them in any order possible. However, to not clutter global
includes, and to make sure internal definitions will not affect global
headers, please always include the headers of external components first
(these are all headers enclosed in <>), followed by our own exported headers
(usually everything that's prefixed by `sd-`), and then followed by internal
headers. Furthermore, in all three groups, order all includes alphabetically
so duplicate includes can easily be detected.
- Please avoid using global variables as much as you can. And if you do use
them make sure they are static at least, instead of exported. Especially in
library-like code it is important to avoid global variables. Why are global
variables bad? They usually hinder generic reusability of code (since they
break in threaded programs, and usually would require locking there), and as
the code using them has side-effects make programs non-transparent. That
said, there are many cases where they explicitly make a lot of sense, and are
OK to use. For example, the log level and target in `log.c` is stored in a
global variable, and that's OK and probably expected by most. Also in many
cases we cache data in global variables. If you add more caches like this,
please be careful however, and think about threading. Only use static
variables if you are sure that thread-safety doesn't matter in your
case. Alternatively, consider using TLS, which is pretty easy to use with
gcc's `thread_local` concept. It's also OK to store data that is inherently
global in global variables, for example data parsed from command lines, see
below.
- You might wonder what kind of common code belongs in `src/shared/` and what
belongs in `src/basic/`. The split is like this: anything that is used to
implement the public shared object we provide (sd-bus, sd-login, sd-id128,
nss-systemd, nss-mymachines, nss-resolve, nss-myhostname, pam_systemd), must
be located in `src/basic` (those objects are not allowed to link to
libsystemd-shared.so). Conversely, anything which is shared between multiple
components and does not need to be in `src/basic/`, should be in
`src/shared/`.
To summarize:
`src/basic/`
- may be used by all code in the tree
- may not use any code outside of `src/basic/`
`src/libsystemd/`
- may be used by all code in the tree, except for code in `src/basic/`
- may not use any code outside of `src/basic/`, `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/basic/`, `src/libsystemd/`, `src/shared/`
- Our focus is on the GNU libc (glibc), not any other libcs. If other libcs are
incompatible with glibc it's on them. However, if there are equivalent POSIX
and Linux/GNU-specific APIs, we generally prefer the POSIX APIs. If there
aren't, we are happy to use GNU or Linux APIs, and expect non-GNU
implementations of libc to catch up with glibc.
## Using C Constructs
- Preferably allocate local variables on the top of the block:
```c
{
int a, b;
a = 5;
b = a;
}
```
- Do not mix function invocations with variable definitions in one line. Wrong:
```c
{
int a = foobar();
uint64_t x = 7;
}
```
Right:
```c
{
int a;
uint64_t x = 7;
a = foobar();
}
```
- Use `goto` for cleaning up, and only use it for that. i.e. you may only jump
to the end of a function, and little else. Never jump backwards!
- To minimize strict aliasing violations, we prefer unions over casting.
- Instead of using `memzero()`/`memset()` to initialize structs allocated on
the stack, please try to use c99 structure initializers. It's short, prettier
and actually even faster at execution. Hence:
```c
struct foobar t = {
.foo = 7,
.bar = "bazz",
};
```
instead of:
```c
struct foobar t;
zero(t);
t.foo = 7;
t.bar = "bazz";
```
- To implement an endless loop, use `for (;;)` rather than `while (1)`. The
latter is a bit ugly anyway, since you probably really meant `while
(true)`. To avoid the discussion what the right always-true expression for an
infinite while loop is, our recommendation is to simply write it without any
such expression by using `for (;;)`.
- To determine the length of a constant string `"foo"`, don't bother with
`sizeof("foo")-1`, please use `strlen()` instead (both gcc and clang optimize
the call away for fixed strings). The only exception is when declaring an
array. In that case use STRLEN, which evaluates to a static constant and
doesn't force the compiler to create a VLA.
- Please use C's downgrade-to-bool feature only for expressions that are
actually booleans (or "boolean-like"), and not for variables that are really
numeric. Specifically, if you have an `int b` and it's only used in a boolean
sense, by all means check its state with `if (b) …` — but if `b` can actually
have more than two semantic values, and you want to compare for non-zero,
then please write that explicitly with `if (b != 0) …`. This helps readability
as the value range and semantical behaviour is directly clear from the
condition check. As a special addition: when dealing with pointers which you
want to check for non-NULL-ness, you may also use downgrade-to-bool feature.
- Please do not use yoda comparisons, i.e. please prefer the more readable `if
(a == 7)` over the less readable `if (7 == a)`.
## Destructors
- The destructors always deregister the object from the next bigger object, not
the other way around.
- For robustness reasons, destructors should be able to destruct
half-initialized objects, too.
- When you define a destructor or `unref()` call for an object, please accept a
`NULL` object and simply treat this as NOP. This is similar to how libc
`free()` works, which accepts `NULL` pointers and becomes a NOP for them. By
following this scheme a lot of `if` checks can be removed before invoking
your destructor, which makes the code substantially more readable and robust.
- Related to this: when you define a destructor or `unref()` call for an
object, please make it return the same type it takes and always return `NULL`
from it. This allows writing code like this:
```c
p = foobar_unref(p);
```
which will always work regardless if `p` is initialized or not, and
guarantees that `p` is `NULL` afterwards, all in just one line.
## Error Handling
- Error codes are returned as negative `Exxx`. e.g. `return -EINVAL`. There are
some exceptions: for constructors, it is OK to return `NULL` on OOM. For
lookup functions, `NULL` is fine too for "not found".
Be strict with this. When you write a function that can fail due to more than
one cause, it *really* should have an `int` as the return value for the error
code.
- Do not bother with error checking whether writing to stdout/stderr worked.
- Do not log errors from "library" code, only do so from "main program"
code. (With one exception: it is OK to log with DEBUG level from any code,
with the exception of maybe inner loops).
- In public API calls, you **must** validate all your input arguments for
programming error with `assert_return()` and return a sensible return
code. In all other calls, it is recommended to check for programming errors
with a more brutal `assert()`. We are more forgiving to public users than for
ourselves! Note that `assert()` and `assert_return()` really only should be
used for detecting programming errors, not for runtime errors. `assert()` and
`assert_return()` by usage of `_likely_()` inform the compiler that he should
not expect these checks to fail, and they inform fellow programmers about the
expected validity and range of parameters.
- When you invoke certain calls like `unlink()`, or `mkdir_p()` and you know it
is safe to ignore the error it might return (because a later call would
detect the failure anyway, or because the error is in an error path and you
thus couldn't do anything about it anyway), then make this clear by casting
the invocation explicitly to `(void)`. Code checks like Coverity understand
that, and will not complain about ignored error codes. Hence, please use
this:
```c
(void) unlink("/foo/bar/baz");
```
instead of just this:
```c
unlink("/foo/bar/baz");
```
When returning from a `void` function, you may also want to shorten the error
path boilerplate by returning a function invocation cast to `(void)` like so:
```c
if (condition_not_met)
return (void) log_tests_skipped("Cannot run ...");
```
Don't cast function calls to `(void)` that return no error
conditions. Specifically, the various `xyz_unref()` calls that return a
`NULL` object shouldn't be cast to `(void)`, since not using the return value
does not hide any errors.
- When returning a return code from `main()`, please preferably use
`EXIT_FAILURE` and `EXIT_SUCCESS` as defined by libc.
## Logging
- For every function you add, think about whether it is a "logging" function or
a "non-logging" function. "Logging" functions do (non-debug) logging on their
own, "non-logging" function never log on their own (except at debug level)
and expect their callers to log. All functions in "library" code, i.e. in
`src/shared/` and suchlike must be "non-logging". Every time a "logging"
function calls a "non-logging" function, it should log about the resulting
errors. If a "logging" function calls another "logging" function, then it
should not generate log messages, so that log messages are not generated
twice for the same errors. (Note that debug level logging — at syslog level
`LOG_DEBUG` — is not considered logging in this context, debug logging is
generally always fine and welcome.)
- If possible, do a combined log & return operation:
```c
r = operation(...);
if (r < 0)
return log_(error|warning|notice|...)_errno(r, "Failed to ...: %m");
```
If the error value is "synthetic", i.e. it was not received from
the called function, use `SYNTHETIC_ERRNO` wrapper to tell the logging
system to not log the errno value, but still return it:
```c
n = read(..., s, sizeof s);
if (n != sizeof s)
return log_error_errno(SYNTHETIC_ERRNO(EIO), "Failed to read ...");
```
## Memory Allocation
- Always check OOM. There is no excuse. In program code, you can use
`log_oom()` for then printing a short message, but not in "library" code.
- Avoid fixed-size string buffers, unless you really know the maximum size and
that maximum size is small. They are a source of errors, since they possibly
result in truncated strings. It is often nicer to use dynamic memory,
`alloca()` or VLAs. If you do allocate fixed-size strings on the stack, then
it is probably only OK if you either use a maximum size such as `LINE_MAX`,
or count in detail the maximum size a string can have. (`DECIMAL_STR_MAX` and
`DECIMAL_STR_WIDTH` macros are your friends for this!)
Or in other words, if you use `char buf[256]` then you are likely doing
something wrong!
- Make use of `_cleanup_free_` and friends. It makes your code much nicer to
read (and shorter)!
- Use `alloca()`, but never forget that it is not OK to invoke `alloca()`
within a loop or within function call parameters. `alloca()` memory is
released at the end of a function, and not at the end of a `{}` block. Thus,
if you invoke it in a loop, you keep increasing the stack pointer without
ever releasing memory again. (VLAs have better behavior in this case, so
consider using them as an alternative.) Regarding not using `alloca()`
within function parameters, see the BUGS section of the `alloca(3)` man page.
- If you want to concatenate two or more strings, consider using `strjoina()`
or `strjoin()` rather than `asprintf()`, as the latter is a lot slower. This
matters particularly in inner loops (but note that `strjoina()` cannot be
used there).
## Runtime Behaviour
- Avoid leaving long-running child processes around, i.e. `fork()`s that are
not followed quickly by an `execv()` in the child. Resource management is
unclear in this case, and memory CoW will result in unexpected penalties in
the parent much, much later on.
- Don't block execution for arbitrary amounts of time using `usleep()` or a
similar call, unless you really know what you do. Just "giving something some
time", or so is a lazy excuse. Always wait for the proper event, instead of
doing time-based poll loops.
- Whenever installing a signal handler, make sure to set `SA_RESTART` for it,
so that interrupted system calls are automatically restarted, and we minimize
hassles with handling `EINTR` (in particular as `EINTR` handling is pretty
broken on Linux).
- When applying C-style unescaping as well as specifier expansion on the same
string, always apply the C-style unescaping first, followed by the specifier
expansion. When doing the reverse, make sure to escape `%` in specifier-style
first (i.e. `%` `%%`), and then do C-style escaping where necessary.
- Be exceptionally careful when formatting and parsing floating point
numbers. Their syntax is locale dependent (i.e. `5.000` in en_US is generally
understood as 5, while in de_DE as 5000.).
- Make sure to enforce limits on every user controllable resource. If the user
can allocate resources in your code, your code must enforce some form of
limits after which it will refuse operation. It's fine if it is hard-coded
(at least initially), but it needs to be there. This is particularly
important for objects that unprivileged users may allocate, but also matters
for everything else any user may allocated.
## Types
- Think about the types you use. If a value cannot sensibly be negative, do not
use `int`, but use `unsigned`.
- Use `char` only for actual characters. Use `uint8_t` or `int8_t` when you
actually mean a byte-sized signed or unsigned integers. When referring to a
generic byte, we generally prefer the unsigned variant `uint8_t`. Do not use
types based on `short`. They *never* make sense. Use `int`, `long`, `long
long`, all in unsigned and signed fashion, and the fixed-size types
`uint8_t`, `uint16_t`, `uint32_t`, `uint64_t`, `int8_t`, `int16_t`, `int32_t`
and so on, as well as `size_t`, but nothing else. Do not use kernel types
like `u32` and so on, leave that to the kernel.
- Stay uniform. For example, always use `usec_t` for time values. Do not mix
`usec` and `msec`, and `usec` and whatnot.
- Never use the `off_t` type, and particularly avoid it in public APIs. It's
really weirdly defined, as it usually is 64-bit and we don't support it any
other way, but it could in theory also be 32-bit. Which one it is depends on
a compiler switch chosen by the compiled program, which hence corrupts APIs
using it unless they can also follow the program's choice. Moreover, in
systemd we should parse values the same way on all architectures and cannot
expose `off_t` values over D-Bus. To avoid any confusion regarding conversion
and ABIs, always use simply `uint64_t` directly.
- Unless you allocate an array, `double` is always a better choice than
`float`. Processors speak `double` natively anyway, so there is no speed
benefit, and on calls like `printf()` `float`s get promoted to `double`s
anyway, so there is no point.
- Use the bool type for booleans, not integers. One exception: in public
headers (i.e those in `src/systemd/sd-*.h`) use integers after all, as `bool`
is C99 and in our public APIs we try to stick to C89 (with a few extension).
## Deadlocks
- Do not issue NSS requests (that includes user name and hostname lookups)
from PID 1 as this might trigger deadlocks when those lookups involve
synchronously talking to services that we would need to start up.
- Do not synchronously talk to any other service from PID 1, due to risk of
deadlocks.
## File Descriptors
- When you allocate a file descriptor, it should be made `O_CLOEXEC` right from
the beginning, as none of our files should leak to forked binaries by
default. Hence, whenever you open a file, `O_CLOEXEC` must be specified,
right from the beginning. This also applies to sockets. Effectively, this
means that all invocations to:
- `open()` must get `O_CLOEXEC` passed,
- `socket()` and `socketpair()` must get `SOCK_CLOEXEC` passed,
- `recvmsg()` must get `MSG_CMSG_CLOEXEC` set,
- `F_DUPFD_CLOEXEC` should be used instead of `F_DUPFD`, and so on,
- invocations of `fopen()` should take `e`.
- It's a good idea to use `O_NONBLOCK` when opening 'foreign' regular files,
i.e. file system objects that are supposed to be regular files whose paths
where specified by the user and hence might actually refer to other types of
file system objects. This is a good idea so that we don't end up blocking on
'strange' file nodes, for example if the user pointed us to a FIFO or device
node which may block when opening. Moreover even for actual regular files
`O_NONBLOCK` has a benefit: it bypasses any mandatory lock that might be in
effect on the regular file. If in doubt consider turning off `O_NONBLOCK`
again after opening.
## Command Line
- If you parse a command line, and want to store the parsed parameters in
global variables, please consider prefixing their names with `arg_`. We have
been following this naming rule in most of our tools, and we should continue
to do so, as it makes it easy to identify command line parameter variables,
and makes it clear why it is OK that they are global variables.
- Command line option parsing:
- Do not print full `help()` on error, be specific about the error.
- Do not print messages to stdout on error.
- Do not POSIX_ME_HARDER unless necessary, i.e. avoid `+` in option string.
## Exporting Symbols
- Variables and functions **must** be static, unless they have a prototype, and
are supposed to be exported.
- Public API calls (i.e. functions exported by our shared libraries)
must be marked `_public_` and need to be prefixed with `sd_`. No
other functions should be prefixed like that.
- When exposing public C APIs, be careful what function parameters you make
`const`. For example, a parameter taking a context object should probably not
be `const`, even if you are writing an otherwise read-only accessor function
for it. The reason is that making it `const` fixates the contract that your
call won't alter the object ever, as part of the API. However, that's often
quite a promise, given that this even prohibits object-internal caching or
lazy initialization of object variables. Moreover, it's usually not too
useful for client applications. Hence, please be careful and avoid `const` on
object parameters, unless you are very sure `const` is appropriate.
## Referencing Concepts
- When referring to a configuration file option in the documentation and such,
please always suffix it with `=`, to indicate that it is a configuration file
setting.
- When referring to a command line option in the documentation and such, please
always prefix with `--` or `-` (as appropriate), to indicate that it is a
command line option.
- When referring to a file system path that is a directory, please always
suffix it with `/`, to indicate that it is a directory, not a regular file
(or other file system object).
## Functions to Avoid
- Use `memzero()` or even better `zero()` instead of `memset(..., 0, ...)`
- Please use `streq()` and `strneq()` instead of `strcmp()`, `strncmp()` where
applicable (i.e. wherever you just care about equality/inequality, not about
the sorting order).
- Never use `strtol()`, `atoi()` and similar calls. Use `safe_atoli()`,
`safe_atou32()` and suchlike instead. They are much nicer to use in most
cases and correctly check for parsing errors.
- `htonl()`/`ntohl()` and `htons()`/`ntohs()` are weird. Please use `htobe32()`
and `htobe16()` instead, it's much more descriptive, and actually says what
really is happening, after all `htonl()` and `htons()` don't operate on
`long`s and `short`s as their name would suggest, but on `uint32_t` and
`uint16_t`. Also, "network byte order" is just a weird name for "big endian",
hence we might want to call it "big endian" right-away.
- Please never use `dup()`. Use `fcntl(fd, F_DUPFD_CLOEXEC, 3)` instead. For
two reasons: first, you want `O_CLOEXEC` set on the new `fd` (see
above). Second, `dup()` will happily duplicate your `fd` as 0, 1, 2,
i.e. stdin, stdout, stderr, should those `fd`s be closed. Given the special
semantics of those `fd`s, it's probably a good idea to avoid
them. `F_DUPFD_CLOEXEC` with `3` as parameter avoids them.
- Don't use `fgets()`, it's too hard to properly handle errors such as overly
long lines. Use `read_line()` instead, which is our own function that handles
this much more nicely.
- Don't invoke `exit()`, ever. It is not replacement for proper error
handling. Please escalate errors up your call chain, and use normal `return`
to exit from the main function of a process. If you `fork()`ed off a child
process, please use `_exit()` instead of `exit()`, so that the exit handlers
are not run.
- We never use the POSIX version of `basename()` (which glibc defines it in
`libgen.h`), only the GNU version (which glibc defines in `string.h`). The
only reason to include `libgen.h` is because `dirname()` is needed. Every
time you need that please immediately undefine `basename()`, and add a
comment about it, so that no code ever ends up using the POSIX version!
- Never use `FILENAME_MAX`. Use `PATH_MAX` instead (for checking maximum size
of paths) and `NAME_MAX` (for checking maximum size of filenames).
`FILENAME_MAX` is not POSIX, and is a confusingly named alias for `PATH_MAX`
on Linux. Note the `NAME_MAX` does not include space for a trailing `NUL`,
but `PATH_MAX` does. UNIX FTW!
## Committing to git
- Commit message subject lines should be prefixed with an appropriate component
name of some kind. For example "journal: ", "nspawn: " and so on.
- Do not use "Signed-Off-By:" in your commit messages. That's a kernel thing we
don't do in the systemd project.