ap/build/uClibc/libc/stdlib/_atexit.c - T106_DC - Gitiles

 /* Copyright (C) 1995,1996 Robert de Bath <rdebath@cix.compulink.co.uk>
  * This file is part of the Linux-8086 C library and is distributed
  * under the GNU Library General Public License.
  */

 /*
  * Dec 2000          Manuel Novoa III
  *
  *   Made atexit handling conform to standards... i.e. no args.
  *   Removed on_exit since it did not match gnu libc definition.
  *   Combined atexit and __do_exit into one object file.
  *
  * Feb 2001          Manuel Novoa III
  *
  *   Reworked file after addition of __uClibc_main.
  *   Changed name of __do_exit to atexit_handler.
  *   Changed name of __cleanup to __uClibc_cleanup.
  *   Moved declaration of __uClibc_cleanup to __uClibc_main
  *      where it is initialized with (possibly weak alias)
  *      _stdio_term.
  *
  * Jul 2001          Steve Thayer
  *
  *   Added an on_exit implementation (that now matches gnu libc definition.)
  *   Pulled atexit_handler out of the atexit object since it is now required by
  *   on_exit as well.  Renamed it to __exit_handler.
  *   Fixed a problem where exit functions stop getting called if one of
  *   them calls exit().
  *   As a side effect of these changes, abort() no longer calls the exit
  *   functions (it now matches the gnu libc definition).
  *
  * August 2002    Erik Andersen
  *   Added locking so atexit and friends can be thread safe
  *
  * August 2005    Stephen Warren
  *   Added __cxa_atexit and __cxa_finalize support
  *
  */

 #include <features.h>
 #include <unistd.h>
 #include <stdlib.h>
 #include <errno.h>
 #include <atomic.h>

 #include <bits/uClibc_mutex.h>
 __UCLIBC_MUTEX_EXTERN(__atexit_lock);


 typedef void (*aefuncp)(void);         /* atexit function pointer */
 typedef void (*oefuncp)(int, void *);  /* on_exit function pointer */
 typedef void (*cxaefuncp)(void *);     /* __cxa_atexit function pointer */
 typedef enum {
     ef_free,
     ef_in_use,
     ef_on_exit,
     ef_cxa_atexit
 } ef_type; /* exit function types */

 /* this is in the L_exit object */
 extern void (*__exit_cleanup)(int) attribute_hidden;

 /* these are in the L___do_exit object */
 extern int __exit_slots attribute_hidden;
 extern int __exit_count attribute_hidden;
 extern void __exit_handler(int) attribute_hidden;
 struct exit_function {
         /*
          * 'type' should be of type of the 'enum ef_type' above but since we
          * need this element in an atomic operation we have to use 'long int'.
          */
         long int type; /* enum ef_type */
 	union {
                 struct {
                         oefuncp func;
                         void *arg;
                 } on_exit;
                 struct {
                         cxaefuncp func;
                         void *arg;
                         void* dso_handle;
                 } cxa_atexit;
 	} funcs;
 };
 #ifdef __UCLIBC_DYNAMIC_ATEXIT__
 extern struct exit_function *__exit_function_table attribute_hidden;
 #else
 extern struct exit_function __exit_function_table[__UCLIBC_MAX_ATEXIT] attribute_hidden;
 #endif
 extern struct exit_function *__new_exitfn(void) attribute_hidden;

 /* this is in the L___cxa_atexit object */
 extern int __cxa_atexit(cxaefuncp, void *arg, void *dso_handle);


 /* remove old_atexit after 0.9.29 */
 #if defined(L_atexit) || defined(L_old_atexit)
 extern void *__dso_handle __attribute__ ((__weak__));

 /*
  * register a function to be called at normal program termination
  * (the registered function takes no arguments)
  */
 #ifdef L_atexit
 int attribute_hidden atexit(aefuncp func)
 #else
 int old_atexit(aefuncp func);
 int old_atexit(aefuncp func)
 #endif
 {
     /*
      * glibc casts aefuncp to cxaefuncp.
      * This seems dodgy, but I guess calling a function with more
      * parameters than it needs will work everywhere?
      */
     return __cxa_atexit((cxaefuncp)func, NULL,
                         &__dso_handle == NULL ? NULL : __dso_handle);
 }
 #ifndef L_atexit
 weak_alias(old_atexit,atexit)
 #endif
 #endif

 #ifdef L_on_exit
 /*
  * register a function to be called at normal program termination
  * the registered function takes two arguments:
  *     status - the exit status that was passed to the exit() function
  *     arg - generic argument
  */
 int on_exit(oefuncp func, void *arg)
 {
     struct exit_function *efp;

     if (func == NULL) {
         return 0;
     }

     efp = __new_exitfn();
     if (efp == NULL) {
         return -1;
     }

     efp->funcs.on_exit.func = func;
     efp->funcs.on_exit.arg = arg;
     /* assign last for thread safety, since we're now unlocked */
     efp->type = ef_on_exit;

     return 0;
 }
 #endif

 #ifdef L___cxa_atexit
 libc_hidden_proto(__cxa_atexit)
 int __cxa_atexit(cxaefuncp func, void *arg, void *dso_handle)
 {
     struct exit_function *efp;

     if (func == NULL) {
         return 0;
     }

     efp = __new_exitfn();
     if (efp == NULL) {
         return -1;
     }

     efp->funcs.cxa_atexit.func = func;
     efp->funcs.cxa_atexit.arg = arg;
     efp->funcs.cxa_atexit.dso_handle = dso_handle;
     /* assign last for thread safety, since we're now unlocked */
     efp->type = ef_cxa_atexit;

     return 0;
 }
 libc_hidden_def(__cxa_atexit)
 #endif

 #ifdef L___cxa_finalize
 /*
  * If D is non-NULL, call all functions registered with `__cxa_atexit'
  *  with the same dso handle.  Otherwise, if D is NULL, call all of the
  *  registered handlers.
  */
 void __cxa_finalize(void *dso_handle);
 void __cxa_finalize(void *dso_handle)
 {
     struct exit_function *efp;
     int exit_count_snapshot = __exit_count;

     /* In reverse order */
     while (exit_count_snapshot) {
         efp = &__exit_function_table[--exit_count_snapshot];

         /*
          * We check dso_handle match before we verify the type of the union entry.
          * However, the atomic_exchange will validate that we were really "allowed"
          * to read dso_handle...
          */
         if ((dso_handle == NULL || dso_handle == efp->funcs.cxa_atexit.dso_handle)
             /* We don't want to run this cleanup more than once. */
             && !atomic_compare_and_exchange_bool_acq(&efp->type, ef_free, ef_cxa_atexit)
            ) {
             /* glibc passes status (0) too, but that's not in the prototype */
             (*efp->funcs.cxa_atexit.func)(efp->funcs.cxa_atexit.arg);
         }
     }

 #if 0 /* haven't looked into this yet... */
     /*
      * Remove the registered fork handlers. We do not have to
      * unregister anything if the program is going to terminate anyway.
      */
 #ifdef UNREGISTER_ATFORK
     if (d != NULL) {
         UNREGISTER_ATFORK(d);
     }
 #endif
 #endif
 }
 #endif

 #ifdef L___exit_handler
 int __exit_count = 0; /* Number of registered exit functions */
 #ifdef __UCLIBC_DYNAMIC_ATEXIT__
 struct exit_function *__exit_function_table = NULL;
 int __exit_slots = 0; /* Size of __exit_function_table */
 #else
 struct exit_function __exit_function_table[__UCLIBC_MAX_ATEXIT];
 #endif

 /*
  * Find and return a new exit_function pointer, for atexit,
  * onexit and __cxa_atexit to initialize
  */
 struct exit_function attribute_hidden *__new_exitfn(void)
 {
     struct exit_function *efp;

     __UCLIBC_MUTEX_LOCK(__atexit_lock);

 #ifdef __UCLIBC_DYNAMIC_ATEXIT__
     /* If we are out of function table slots, make some more */
     if (__exit_slots < __exit_count+1) {
         efp = realloc(__exit_function_table,
                     (__exit_slots+20)*sizeof(struct exit_function));
         if (efp == NULL) {
             __set_errno(ENOMEM);
 	    goto DONE;
         }
         __exit_function_table = efp;
         __exit_slots += 20;
     }
 #else
     if (__exit_count >= __UCLIBC_MAX_ATEXIT) {
         __set_errno(ENOMEM);
 	efp = NULL;
 	goto DONE;
     }
 #endif

     __exit_cleanup = __exit_handler; /* enable cleanup */
     efp = &__exit_function_table[__exit_count++];
     efp->type = ef_in_use;

 DONE:
     __UCLIBC_MUTEX_UNLOCK(__atexit_lock);
     return efp;
 }

 /*
  * Handle the work of executing the registered exit functions
  * This is called while we are locked, so no additional locking
  * is needed...
  */
 void __exit_handler(int status)
 {
 	struct exit_function *efp;

 	/* In reverse order */
 	while (__exit_count) {
 		efp = &__exit_function_table[--__exit_count];
 		switch (efp->type) {
 		case ef_on_exit:
 			if (efp->funcs.on_exit.func) {
 				(efp->funcs.on_exit.func)(status, efp->funcs.on_exit.arg);
 			}
 			break;
                 case ef_cxa_atexit:
                         if (efp->funcs.cxa_atexit.func) {
                                 /* glibc passes status too, but that's not in the prototype */
                                 (efp->funcs.cxa_atexit.func)(efp->funcs.cxa_atexit.arg);
                         }
                         break;
 		}
 	}
 #ifdef __UCLIBC_DYNAMIC_ATEXIT__
 	/* Free up memory used by the __exit_function_table structure */
 	free(__exit_function_table);
 #endif
 }
 #endif

 #ifdef L_exit
 /* Defeat compiler optimization which assumes function addresses are never NULL */
 static __always_inline int not_null_ptr(const void *p)
 {
 	const void *q;
 	__asm__ (""
 		: "=r" (q) /* output */
 		: "0" (p) /* input */
 	);
 	return q != 0;
 }

 extern void weak_function _stdio_term(void) attribute_hidden;
 attribute_hidden void (*__exit_cleanup)(int) = 0;
 __UCLIBC_MUTEX_INIT(__atexit_lock, PTHREAD_RECURSIVE_MUTEX_INITIALIZER_NP);

 extern void __uClibc_fini(void);
 libc_hidden_proto(__uClibc_fini)

 /*
  * Normal program termination
  */
 void exit(int rv)
 {
 	/* Perform exit-specific cleanup (atexit and on_exit) */
 	__UCLIBC_MUTEX_LOCK(__atexit_lock);
 	if (not_null_ptr(__exit_cleanup)) {
 		__exit_cleanup(rv);
 	}
 	__UCLIBC_MUTEX_UNLOCK(__atexit_lock);

 	__uClibc_fini();

 	/* If we are using stdio, try to shut it down.  At the very least,
 	 * this will attempt to commit all buffered writes.  It may also
 	 * unbuffer all writable files, or close them outright.
 	 * Check the stdio routines for details. */
 	if (not_null_ptr(_stdio_term))
 		_stdio_term();

 	_exit(rv);
 }
 libc_hidden_def(exit)
 #endif
	/* Copyright (C) 1995,1996 Robert de Bath <rdebath@cix.compulink.co.uk>
	* This file is part of the Linux-8086 C library and is distributed
	* under the GNU Library General Public License.
	*/

	/*
	* Dec 2000 Manuel Novoa III
	*
	* Made atexit handling conform to standards... i.e. no args.
	* Removed on_exit since it did not match gnu libc definition.
	* Combined atexit and __do_exit into one object file.
	*
	* Feb 2001 Manuel Novoa III
	*
	* Reworked file after addition of __uClibc_main.
	* Changed name of __do_exit to atexit_handler.
	* Changed name of __cleanup to __uClibc_cleanup.
	* Moved declaration of __uClibc_cleanup to __uClibc_main
	* where it is initialized with (possibly weak alias)
	* _stdio_term.
	*
	* Jul 2001 Steve Thayer
	*
	* Added an on_exit implementation (that now matches gnu libc definition.)
	* Pulled atexit_handler out of the atexit object since it is now required by
	* on_exit as well. Renamed it to __exit_handler.
	* Fixed a problem where exit functions stop getting called if one of
	* them calls exit().
	* As a side effect of these changes, abort() no longer calls the exit
	* functions (it now matches the gnu libc definition).
	*
	* August 2002 Erik Andersen
	* Added locking so atexit and friends can be thread safe
	*
	* August 2005 Stephen Warren
	* Added __cxa_atexit and __cxa_finalize support
	*
	*/

	#include <features.h>
	#include <unistd.h>
	#include <stdlib.h>
	#include <errno.h>
	#include <atomic.h>

	#include <bits/uClibc_mutex.h>
	__UCLIBC_MUTEX_EXTERN(__atexit_lock);



	typedef void (aefuncp)(void); / atexit function pointer */
	typedef void (oefuncp)(int, void ); /* on_exit function pointer */
	typedef void (cxaefuncp)(void ); /* __cxa_atexit function pointer */
	typedef enum {
	ef_free,
	ef_in_use,
	ef_on_exit,
	ef_cxa_atexit
	} ef_type; /* exit function types */

	/* this is in the L_exit object */
	extern void (*__exit_cleanup)(int) attribute_hidden;

	/* these are in the L___do_exit object */
	extern int __exit_slots attribute_hidden;
	extern int __exit_count attribute_hidden;
	extern void __exit_handler(int) attribute_hidden;
	struct exit_function {
	/*
	* 'type' should be of type of the 'enum ef_type' above but since we
	* need this element in an atomic operation we have to use 'long int'.
	*/
	long int type; /* enum ef_type */
	union {
	struct {
	oefuncp func;
	void *arg;
	} on_exit;
	struct {
	cxaefuncp func;
	void *arg;
	void* dso_handle;
	} cxa_atexit;
	} funcs;
	};
	#ifdef __UCLIBC_DYNAMIC_ATEXIT__
	extern struct exit_function *__exit_function_table attribute_hidden;
	#else
	extern struct exit_function __exit_function_table[__UCLIBC_MAX_ATEXIT] attribute_hidden;
	#endif
	extern struct exit_function *__new_exitfn(void) attribute_hidden;

	/* this is in the L___cxa_atexit object */
	extern int __cxa_atexit(cxaefuncp, void arg, void dso_handle);


	/* remove old_atexit after 0.9.29 */
	#if defined(L_atexit) \|\| defined(L_old_atexit)
	extern void *__dso_handle __attribute__ ((__weak__));

	/*
	* register a function to be called at normal program termination
	* (the registered function takes no arguments)
	*/
	#ifdef L_atexit
	int attribute_hidden atexit(aefuncp func)
	#else
	int old_atexit(aefuncp func);
	int old_atexit(aefuncp func)
	#endif
	{
	/*
	* glibc casts aefuncp to cxaefuncp.
	* This seems dodgy, but I guess calling a function with more
	* parameters than it needs will work everywhere?
	*/
	return __cxa_atexit((cxaefuncp)func, NULL,
	&__dso_handle == NULL ? NULL : __dso_handle);
	}
	#ifndef L_atexit
	weak_alias(old_atexit,atexit)
	#endif
	#endif

	#ifdef L_on_exit
	/*
	* register a function to be called at normal program termination
	* the registered function takes two arguments:
	* status - the exit status that was passed to the exit() function
	* arg - generic argument
	*/
	int on_exit(oefuncp func, void *arg)
	{
	struct exit_function *efp;

	if (func == NULL) {
	return 0;
	}

	efp = __new_exitfn();
	if (efp == NULL) {
	return -1;
	}

	efp->funcs.on_exit.func = func;
	efp->funcs.on_exit.arg = arg;
	/* assign last for thread safety, since we're now unlocked */
	efp->type = ef_on_exit;

	return 0;
	}
	#endif

	#ifdef L___cxa_atexit
	libc_hidden_proto(__cxa_atexit)
	int __cxa_atexit(cxaefuncp func, void arg, void dso_handle)
	{
	struct exit_function *efp;

	if (func == NULL) {
	return 0;
	}

	efp = __new_exitfn();
	if (efp == NULL) {
	return -1;
	}

	efp->funcs.cxa_atexit.func = func;
	efp->funcs.cxa_atexit.arg = arg;
	efp->funcs.cxa_atexit.dso_handle = dso_handle;
	/* assign last for thread safety, since we're now unlocked */
	efp->type = ef_cxa_atexit;

	return 0;
	}
	libc_hidden_def(__cxa_atexit)
	#endif

	#ifdef L___cxa_finalize
	/*
	* If D is non-NULL, call all functions registered with `__cxa_atexit'
	* with the same dso handle. Otherwise, if D is NULL, call all of the
	* registered handlers.
	*/
	void __cxa_finalize(void *dso_handle);
	void __cxa_finalize(void *dso_handle)
	{
	struct exit_function *efp;
	int exit_count_snapshot = __exit_count;

	/* In reverse order */
	while (exit_count_snapshot) {
	efp = &__exit_function_table[--exit_count_snapshot];

	/*
	* We check dso_handle match before we verify the type of the union entry.
	* However, the atomic_exchange will validate that we were really "allowed"
	* to read dso_handle...
	*/
	if ((dso_handle == NULL \|\| dso_handle == efp->funcs.cxa_atexit.dso_handle)
	/* We don't want to run this cleanup more than once. */
	&& !atomic_compare_and_exchange_bool_acq(&efp->type, ef_free, ef_cxa_atexit)
	) {
	/* glibc passes status (0) too, but that's not in the prototype */
	(*efp->funcs.cxa_atexit.func)(efp->funcs.cxa_atexit.arg);
	}
	}

	#if 0 /* haven't looked into this yet... */
	/*
	* Remove the registered fork handlers. We do not have to
	* unregister anything if the program is going to terminate anyway.
	*/
	#ifdef UNREGISTER_ATFORK
	if (d != NULL) {
	UNREGISTER_ATFORK(d);
	}
	#endif
	#endif
	}
	#endif

	#ifdef L___exit_handler
	int __exit_count = 0; /* Number of registered exit functions */
	#ifdef __UCLIBC_DYNAMIC_ATEXIT__
	struct exit_function *__exit_function_table = NULL;
	int __exit_slots = 0; /* Size of __exit_function_table */
	#else
	struct exit_function __exit_function_table[__UCLIBC_MAX_ATEXIT];
	#endif

	/*
	* Find and return a new exit_function pointer, for atexit,
	* onexit and __cxa_atexit to initialize
	*/
	struct exit_function attribute_hidden *__new_exitfn(void)
	{
	struct exit_function *efp;

	__UCLIBC_MUTEX_LOCK(__atexit_lock);

	#ifdef __UCLIBC_DYNAMIC_ATEXIT__
	/* If we are out of function table slots, make some more */
	if (__exit_slots < __exit_count+1) {
	efp = realloc(__exit_function_table,
	(__exit_slots+20)*sizeof(struct exit_function));
	if (efp == NULL) {
	__set_errno(ENOMEM);
	goto DONE;
	}
	__exit_function_table = efp;
	__exit_slots += 20;
	}
	#else
	if (__exit_count >= __UCLIBC_MAX_ATEXIT) {
	__set_errno(ENOMEM);
	efp = NULL;
	goto DONE;
	}
	#endif

	__exit_cleanup = __exit_handler; /* enable cleanup */
	efp = &__exit_function_table[__exit_count++];
	efp->type = ef_in_use;

	DONE:
	__UCLIBC_MUTEX_UNLOCK(__atexit_lock);
	return efp;
	}

	/*
	* Handle the work of executing the registered exit functions
	* This is called while we are locked, so no additional locking
	* is needed...
	*/
	void __exit_handler(int status)
	{
	struct exit_function *efp;

	/* In reverse order */
	while (__exit_count) {
	efp = &__exit_function_table[--__exit_count];
	switch (efp->type) {
	case ef_on_exit:
	if (efp->funcs.on_exit.func) {
	(efp->funcs.on_exit.func)(status, efp->funcs.on_exit.arg);
	}
	break;
	case ef_cxa_atexit:
	if (efp->funcs.cxa_atexit.func) {
	/* glibc passes status too, but that's not in the prototype */
	(efp->funcs.cxa_atexit.func)(efp->funcs.cxa_atexit.arg);
	}
	break;
	}
	}
	#ifdef __UCLIBC_DYNAMIC_ATEXIT__
	/* Free up memory used by the __exit_function_table structure */
	free(__exit_function_table);
	#endif
	}
	#endif

	#ifdef L_exit
	/* Defeat compiler optimization which assumes function addresses are never NULL */
	static __always_inline int not_null_ptr(const void *p)
	{
	const void *q;
	__asm__ (""
	: "=r" (q) /* output */
	: "0" (p) /* input */
	);
	return q != 0;
	}

	extern void weak_function _stdio_term(void) attribute_hidden;
	attribute_hidden void (*__exit_cleanup)(int) = 0;
	__UCLIBC_MUTEX_INIT(__atexit_lock, PTHREAD_RECURSIVE_MUTEX_INITIALIZER_NP);

	extern void __uClibc_fini(void);
	libc_hidden_proto(__uClibc_fini)

	/*
	* Normal program termination
	*/
	void exit(int rv)
	{
	/* Perform exit-specific cleanup (atexit and on_exit) */
	__UCLIBC_MUTEX_LOCK(__atexit_lock);
	if (not_null_ptr(__exit_cleanup)) {
	__exit_cleanup(rv);
	}
	__UCLIBC_MUTEX_UNLOCK(__atexit_lock);

	__uClibc_fini();

	/* If we are using stdio, try to shut it down. At the very least,
	* this will attempt to commit all buffered writes. It may also
	* unbuffer all writable files, or close them outright.
	* Check the stdio routines for details. */
	if (not_null_ptr(_stdio_term))
	_stdio_term();

	_exit(rv);
	}
	libc_hidden_def(exit)
	#endif