kolibrios-fun/contrib/sdk/sources/newlib/libc/stdlib/__call_atexit.c
Sergey Semyonov (Serge) 7315bb05c0 newlib-2.1.0
git-svn-id: svn://kolibrios.org@4921 a494cfbc-eb01-0410-851d-a64ba20cac60
2014-05-10 22:12:19 +00:00

164 lines
4.0 KiB
C

/*
* COmmon routine to call call registered atexit-like routines.
*/
#include <stdlib.h>
#include <reent.h>
#include <sys/lock.h>
#include "atexit.h"
/* Make this a weak reference to avoid pulling in free. */
void free(void *) _ATTRIBUTE((__weak__));
__LOCK_INIT_RECURSIVE(, __atexit_lock);
#ifdef _REENT_GLOBAL_ATEXIT
struct _atexit *_global_atexit = _NULL;
#endif
#ifdef _WANT_REGISTER_FINI
/* If "__libc_fini" is defined, finalizers (either
"__libc_fini_array", or "_fini", as appropriate) will be run after
all user-specified atexit handlers. For example, you can define
"__libc_fini" to "_fini" in your linker script if you want the C
library, rather than startup code, to register finalizers. If you
do that, then your startup code need not contain references to
"atexit" or "exit". As a result, only applications that reference
"exit" explicitly will pull in finalization code.
The choice of whether to register finalizers from libc or from
startup code is deferred to link-time, rather than being a
configure-time option, so that the same C library binary can be
used with multiple BSPs, some of which register finalizers from
startup code, while others defer to the C library. */
extern char __libc_fini __attribute__((weak));
/* Register the application finalization function with atexit. These
finalizers should run last. Therefore, we want to call atexit as
soon as possible. */
static void
register_fini(void) __attribute__((constructor (0)));
static void
register_fini(void)
{
if (&__libc_fini) {
#ifdef HAVE_INITFINI_ARRAY
extern void __libc_fini_array (void);
atexit (__libc_fini_array);
#else
extern void _fini (void);
atexit (_fini);
#endif
}
}
#endif /* _WANT_REGISTER_FINI */
/*
* Call registered exit handlers. If D is null then all handlers are called,
* otherwise only the handlers from that DSO are called.
*/
void
_DEFUN (__call_exitprocs, (code, d),
int code _AND _PTR d)
{
register struct _atexit *p;
struct _atexit **lastp;
register struct _on_exit_args * args;
register int n;
int i;
void (*fn) (void);
#ifndef __SINGLE_THREAD__
__lock_acquire_recursive(__atexit_lock);
#endif
restart:
p = _GLOBAL_ATEXIT;
lastp = &_GLOBAL_ATEXIT;
while (p)
{
#ifdef _REENT_SMALL
args = p->_on_exit_args_ptr;
#else
args = &p->_on_exit_args;
#endif
for (n = p->_ind - 1; n >= 0; n--)
{
int ind;
i = 1 << n;
/* Skip functions not from this dso. */
if (d && (!args || args->_dso_handle[n] != d))
continue;
/* Remove the function now to protect against the
function calling exit recursively. */
fn = p->_fns[n];
if (n == p->_ind - 1)
p->_ind--;
else
p->_fns[n] = NULL;
/* Skip functions that have already been called. */
if (!fn)
continue;
ind = p->_ind;
/* Call the function. */
if (!args || (args->_fntypes & i) == 0)
fn ();
else if ((args->_is_cxa & i) == 0)
(*((void (*)(int, _PTR)) fn))(code, args->_fnargs[n]);
else
(*((void (*)(_PTR)) fn))(args->_fnargs[n]);
/* The function we called call atexit and registered another
function (or functions). Call these new functions before
continuing with the already registered functions. */
if (ind != p->_ind || *lastp != p)
goto restart;
}
#ifndef _ATEXIT_DYNAMIC_ALLOC
break;
#else
/* Don't dynamically free the atexit array if free is not
available. */
if (!free)
break;
/* Move to the next block. Free empty blocks except the last one,
which is part of _GLOBAL_REENT. */
if (p->_ind == 0 && p->_next)
{
/* Remove empty block from the list. */
*lastp = p->_next;
#ifdef _REENT_SMALL
if (args)
free (args);
#endif
free (p);
p = *lastp;
}
else
{
lastp = &p->_next;
p = p->_next;
}
#endif
}
#ifndef __SINGLE_THREAD__
__lock_release_recursive(__atexit_lock);
#endif
}