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systemd-stable/CODING_STYLE
Lennart Poettering c170f3a41b analyze: various cleanups
Update systemd-analyze to follow the coding style of the other tools
more closely. Also, update the CODING_STYLE to document this for future
additions.

Changes:

- Always use usec_t for time units, so that we always use the same types
  everywhere, and format times the same way as everywhere else.

- Add "static" to global variables

- Make sure we can always distuingish OOM and other errors: ensure we
  always return useful error codes from all functions.

- Always free unit_times array
2013-03-08 18:58:08 +01:00

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- 8ch indent, no tabs
- Variables and functions *must* be static, unless they have a
protoype, and are supposed to be exported.
- structs in MixedCase, variables + functions in lower_case
- The destructors always unregister the object from the next bigger
object, not the other way around
- To minimize strict aliasing violations we prefer unions over casting
- For robustness reasons destructors should be able to destruct
half-initialized objects, too
- Error codes are returned as negative Exxx. i.e. return -EINVAL. There
are some exceptions: for constructors its 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 "int" as return value
for the error code.
- Don't bother with error checking if writing to stdout/stderr worked.
- Do not log errors from "library" code, only do so from "main
program" code.
- Always check OOM. There's no excuse. In program code you can use
"log_oom()" for then printing a short message.
- Do not issue NSS requests (that includes user name and host name
lookups) from the main daemon as this might trigger deadlocks when
those lookups involve synchronously talking to services that we
would need to start up
- Don't synchronously talk to any other service, due to risk of
deadlocks
- Avoid fixed sized string buffers, unless you really know the maximum
size and that maximum size is small. They are a source of errors,
since they result in strings to be truncated. Often it is nicer to
use dynamic memory, or alloca(). If you do allocate fixed size
strings on the stack, then it's 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. Or in other words, if you use "char buf[256]" then
you are likely doing something wrong!
- Stay uniform. For example, always use "usec_t" for time
values. Don't usec mix msec, and usec and whatnot.
- Make use of _cleanup_free_ and friends. It makes your code much
nicer to read!
- 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 on de_DE as 5000.).
- Try to use this:
void foo() {
}
instead of this:
void foo()
{
}
But it's OK if you don't.
- Don't write "foo ()", write "foo()".
- Please use streq() and strneq() instead of strcmp(), strncmp() where applicable.
- Please do not allocate variables on the stack in the middle of code,
even if C99 allows it. Wrong:
{
a = 5;
int b;
b = a;
}
Right:
{
int b;
a = 5;
b = a;
}
- Unless you allocate an array, "double" is always the better choice
than "float". Processors speak "double" natively anyway, so this is
no speed benefit, and on calls like printf() "float"s get upgraded
to "double"s anyway, so there is no point.
- Don't invoke functions when you allocate variables on the stack. Wrong:
{
int a = foobar();
uint64_t x = 7;
}
Right:
{
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.
- Think about the types you use. If a value cannot sensibly be
negative don't use "int", but use "unsigned".
- Don't use types like "short". They *never* make sense. Use ints,
longs, long longs, all in unsigned+signed fashion, and the fixed
size types uint32_t and so on, but nothing else.