We want it for global variables, which LLVM supports and GCC currently
does not (GCC does support it for functions, but we care about global
variables here).
Why is this relevant? When asan is used global variables are padded with
hotzones before and after. But we can't have that for the registration
variables we place in special ELF sections: we want them tightly packed
so that we can iterate through them.
Note that for gcc this isn't an issue, as it will pack stuff in
non-standard sections anyway, even if asan is used.
This cleans up a bit how we set up things for the ELF section magic:
1. Let's always use our gcc macros, instead of __attribute__ directly
2. Align our structures to sizeof(void*), i.e. the pointer size, rather
than a fixed 8 or __BIGGEST_ALIGNMENT__. The former is unnecessarily
high for 32bit systems, the latter too high for 64bit systems. gcc
seems to use ptr alignment for static variables itself, hence this
should be good enough for us too. Moreover, the Linux kernel also
uses pointer alginment for all its ELF section registration magic,
hence this should be good enough for us too.
3. Let's always prefix the sections we create ourself with SYSTEMD_,
just to make clear where they come from.
4. Always align the pointer we start from when iterating through these
lists. This should be unnecessary, but makes things nicely
systematic, as we'll align all pointers we use to access these
sections properly.
We follow no general rule, but in most cases we do not place a space
outside of macro.h. Hence let's stick to that, and adapt macro.h too,
and follow the rule systematically that there shall not be a space
between __attribute__ and ((...
Yes, this does not matter at all, and is purely OCD cosmetics. But then
again, the uses of __attribute__ are very local only, hence the changes
cleaning this up are small and are unlikely to have to be repeated too
often...
This splits out a bunch of functions from fileio.c that have to do with
temporary files. Simply to make the header files a bit shorter, and to
group things more nicely.
No code changes, just some rearranging of source files.
We are pretty careful to reject abstract sockets that are too long to fit in
the address structure as a NUL-terminated string. And since we parse sockets as
strings, it is not possible to embed a NUL in the the address either. But we
might receive an external socket (abstract or not), and we want to be able to
print its address in all cases. We would call socket_address_verify() and
refuse to print various sockets that the kernel considers legit.
Let's do the strict verification only in case of socket addresses we parse and
open ourselves, and do less strict verification when printing addresses of
existing sockets, and use c-escaping to print embedded NULs and such.
More tests are added.
This should make LGTM happier because on FIXME comment is removed.
It's pretty useful to allow parse_boolean() to take a NULL argument and
return an error in that case, rather than abort. i.e. making this a
runtime rather than programming error allows us to shorten code
elsewhere.
device_path_make_{major_minor|canonical) generate device node paths
given a mode_t and a dev_t. We have similar code all over the place,
let's unify this in one place. The former will generate a "/dev/char/"
or "/dev/block" path, and never go to disk. The latter then goes to disk
and resolves that path to the actual path of the device node.
device_path_parse_major_minor() reverses device_path_make_major_minor(),
also withozut going to disk.
We have similar code doing something like this at various places, let's
unify this in a single set of functions. This also allows us to teach
them special tricks, for example handling of the
/run/systemd/inaccessible/{blk|chr} device nodes, which we use for
masking device nodes, and which do not exist in /dev/char/* and
/dev/block/*
We should probably drop path_join() entirely in the long run (and
then rename path_join_many() to it?), but for now let's make one a
wrapper for the other.