libmudflap/mf-hooks1.c - gcc - Git at Google

 /* Mudflap: narrow-pointer bounds-checking by tree rewriting.
    Copyright (C) 2002, 2003, 2004, 2009 Free Software Foundation, Inc.
    Contributed by Frank Ch. Eigler <fche@redhat.com>
    and Graydon Hoare <graydon@redhat.com>

 This file is part of GCC.

 GCC is free software; you can redistribute it and/or modify it under
 the terms of the GNU General Public License as published by the Free
 Software Foundation; either version 3, or (at your option) any later
 version.

 GCC is distributed in the hope that it will be useful, but WITHOUT ANY
 WARRANTY; without even the implied warranty of MERCHANTABILITY or
 FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
 for more details.

 Under Section 7 of GPL version 3, you are granted additional
 permissions described in the GCC Runtime Library Exception, version
 3.1, as published by the Free Software Foundation.

 You should have received a copy of the GNU General Public License and
 a copy of the GCC Runtime Library Exception along with this program;
 see the files COPYING3 and COPYING.RUNTIME respectively.  If not, see
 <http://www.gnu.org/licenses/>.  */

 #include "config.h"

 #ifndef HAVE_SOCKLEN_T
 #define socklen_t int
 #endif


 /* These attempt to coax various unix flavours to declare all our
    needed tidbits in the system headers.  */
 #if !defined(__FreeBSD__)  && !defined(__APPLE__)
 #define _POSIX_SOURCE
 #endif /* Some BSDs break <sys/socket.h> if this is defined. */
 #define _GNU_SOURCE
 #define _XOPEN_SOURCE
 #define _BSD_TYPES
 #define __EXTENSIONS__
 #define _ALL_SOURCE
 #define _LARGE_FILE_API
 #define _XOPEN_SOURCE_EXTENDED 1

 #include <string.h>
 #include <stdio.h>
 #include <stdlib.h>
 #include <sys/time.h>
 #include <sys/types.h>
 #include <unistd.h>
 #include <assert.h>
 #include <errno.h>
 #include <limits.h>
 #include <time.h>

 #include "mf-runtime.h"
 #include "mf-impl.h"

 #ifdef _MUDFLAP
 #error "Do not compile this file with -fmudflap!"
 #endif


 /* Memory allocation related hook functions.  Some of these are
    intercepted via linker wrapping or symbol interposition.  Others
    use plain macros in mf-runtime.h.  */


 #if PIC

 enum { BS = 4096, NB=10 };
 static char __mf_0fn_bufs[NB][BS];
 static unsigned __mf_0fn_bufs_used[NB];


 /* A special bootstrap variant. */
 void *
 __mf_0fn_malloc (size_t c)
 {
   unsigned i;

   for (i=0; i<NB; i++)
     {
       if (! __mf_0fn_bufs_used[i] && c < BS)
 	{
 	  __mf_0fn_bufs_used[i] = 1;
 	  return & __mf_0fn_bufs[i][0];
 	}
     }
   return NULL;
 }
 #endif


 #undef malloc
 WRAPPER(void *, malloc, size_t c)
 {
   size_t size_with_crumple_zones;
   DECLARE(void *, malloc, size_t c);
   void *result;
   BEGIN_PROTECT (malloc, c);

   size_with_crumple_zones =
     CLAMPADD(c,CLAMPADD(__mf_opts.crumple_zone,
 			__mf_opts.crumple_zone));
   BEGIN_MALLOC_PROTECT ();
   result = (char *) CALL_REAL (malloc, size_with_crumple_zones);
   END_MALLOC_PROTECT ();

   if (LIKELY(result))
     {
       result += __mf_opts.crumple_zone;
       __mf_register (result, c, __MF_TYPE_HEAP, "malloc region");
       /* XXX: register __MF_TYPE_NOACCESS for crumple zones.  */
     }

   return result;
 }


 #ifdef PIC
 /* A special bootstrap variant. */
 void *
 __mf_0fn_calloc (size_t c, size_t n)
 {
   return __mf_0fn_malloc (c * n);
 }
 #endif


 #undef calloc
 WRAPPER(void *, calloc, size_t c, size_t n)
 {
   size_t size_with_crumple_zones;
   DECLARE(void *, calloc, size_t, size_t);
   DECLARE(void *, malloc, size_t);
   DECLARE(void *, memset, void *, int, size_t);
   char *result;
   BEGIN_PROTECT (calloc, c, n);

   size_with_crumple_zones =
     CLAMPADD((c * n), /* XXX: CLAMPMUL */
 	     CLAMPADD(__mf_opts.crumple_zone,
 		      __mf_opts.crumple_zone));
   BEGIN_MALLOC_PROTECT ();
   result = (char *) CALL_REAL (malloc, size_with_crumple_zones);
   END_MALLOC_PROTECT ();

   if (LIKELY(result))
     memset (result, 0, size_with_crumple_zones);

   if (LIKELY(result))
     {
       result += __mf_opts.crumple_zone;
       __mf_register (result, c*n /* XXX: clamp */, __MF_TYPE_HEAP_I, "calloc region");
       /* XXX: register __MF_TYPE_NOACCESS for crumple zones.  */
     }

   return result;
 }


 #if PIC
 /* A special bootstrap variant. */
 void *
 __mf_0fn_realloc (void *buf, size_t c)
 {
   return NULL;
 }
 #endif


 #undef realloc
 WRAPPER(void *, realloc, void *buf, size_t c)
 {
   DECLARE(void * , realloc, void *, size_t);
   size_t size_with_crumple_zones;
   char *base = buf;
   unsigned saved_wipe_heap;
   char *result;
   BEGIN_PROTECT (realloc, buf, c);

   if (LIKELY(buf))
     base -= __mf_opts.crumple_zone;

   size_with_crumple_zones =
     CLAMPADD(c, CLAMPADD(__mf_opts.crumple_zone,
 			 __mf_opts.crumple_zone));
   BEGIN_MALLOC_PROTECT ();
   result = (char *) CALL_REAL (realloc, base, size_with_crumple_zones);
   END_MALLOC_PROTECT ();

   /* Ensure heap wiping doesn't occur during this peculiar
      unregister/reregister pair.  */
   LOCKTH ();
   __mf_set_state (reentrant);
   saved_wipe_heap = __mf_opts.wipe_heap;
   __mf_opts.wipe_heap = 0;

   if (LIKELY(buf))
     __mfu_unregister (buf, 0, __MF_TYPE_HEAP_I);
   /* NB: underlying region may have been __MF_TYPE_HEAP. */

   if (LIKELY(result))
     {
       result += __mf_opts.crumple_zone;
       __mfu_register (result, c, __MF_TYPE_HEAP_I, "realloc region");
       /* XXX: register __MF_TYPE_NOACCESS for crumple zones.  */
     }

   /* Restore previous setting.  */
   __mf_opts.wipe_heap = saved_wipe_heap;

   __mf_set_state (active);
   UNLOCKTH ();

   return result;
 }


 #if PIC
 /* A special bootstrap variant. */
 void
 __mf_0fn_free (void *buf)
 {
   return;
 }
 #endif

 #undef free
 WRAPPER(void, free, void *buf)
 {
   /* Use a circular queue to delay some number (__mf_opts.free_queue_length) of free()s.  */
   static void *free_queue [__MF_FREEQ_MAX];
   static unsigned free_ptr = 0;
   static int freeq_initialized = 0;
   DECLARE(void, free, void *);

   BEGIN_PROTECT (free, buf);

   if (UNLIKELY(buf == NULL))
     return;

 #if PIC
   /* Check whether the given buffer might have come from a
      __mf_0fn_malloc/calloc call that for whatever reason was not
      redirected back to __mf_0fn_free.  If so, we just ignore the
      call. */
   if (UNLIKELY((uintptr_t) buf >= (uintptr_t) __mf_0fn_bufs &&
                (uintptr_t) buf < ((uintptr_t) __mf_0fn_bufs + sizeof(__mf_0fn_bufs))))
   {
     VERBOSE_TRACE ("skipping free of boot (0fn) alloc buffer %p\n", buf);
     return;
   }
 #endif

   LOCKTH ();
   if (UNLIKELY(!freeq_initialized))
     {
       memset (free_queue, 0,
 		     __MF_FREEQ_MAX * sizeof (void *));
       freeq_initialized = 1;
     }
   UNLOCKTH ();

   __mf_unregister (buf, 0, __MF_TYPE_HEAP_I);
   /* NB: underlying region may have been __MF_TYPE_HEAP. */

   if (UNLIKELY(__mf_opts.free_queue_length > 0))
     {
       char *freeme = NULL;
       LOCKTH ();
       if (free_queue [free_ptr] != NULL)
 	{
 	  freeme = free_queue [free_ptr];
 	  freeme -= __mf_opts.crumple_zone;
 	}
       free_queue [free_ptr] = buf;
       free_ptr = (free_ptr == (__mf_opts.free_queue_length-1) ? 0 : free_ptr + 1);
       UNLOCKTH ();
       if (freeme)
 	{
 	  if (__mf_opts.trace_mf_calls)
 	    {
 	      VERBOSE_TRACE ("freeing deferred pointer %p (crumple %u)\n",
 			     (void *) freeme,
 			     __mf_opts.crumple_zone);
 	    }
 	  BEGIN_MALLOC_PROTECT ();
 	  CALL_REAL (free, freeme);
 	  END_MALLOC_PROTECT ();
 	}
     }
   else
     {
       /* back pointer up a bit to the beginning of crumple zone */
       char *base = (char *)buf;
       base -= __mf_opts.crumple_zone;
       if (__mf_opts.trace_mf_calls)
 	{
 	  VERBOSE_TRACE ("freeing pointer %p = %p - %u\n",
 			 (void *) base,
 			 (void *) buf,
 			 __mf_opts.crumple_zone);
 	}
       BEGIN_MALLOC_PROTECT ();
       CALL_REAL (free, base);
       END_MALLOC_PROTECT ();
     }
 }


 /* We can only wrap mmap if the target supports it.  Likewise for munmap.
    We assume we have both if we have mmap.  */
 #ifdef HAVE_MMAP

 #if PIC
 /* A special bootstrap variant. */
 void *
 __mf_0fn_mmap (void *start, size_t l, int prot, int f, int fd, off_t off)
 {
   return (void *) -1;
 }
 #endif


 #undef mmap
 WRAPPER(void *, mmap,
 	void  *start,  size_t length, int prot,
 	int flags, int fd, off_t offset)
 {
   DECLARE(void *, mmap, void *, size_t, int,
 			    int, int, off_t);
   void *result;
   BEGIN_PROTECT (mmap, start, length, prot, flags, fd, offset);

   result = CALL_REAL (mmap, start, length, prot,
 			flags, fd, offset);

   /*
   VERBOSE_TRACE ("mmap (%08lx, %08lx, ...) => %08lx\n",
 		 (uintptr_t) start, (uintptr_t) length,
 		 (uintptr_t) result);
   */

   if (result != (void *)-1)
     {
       /* Register each page as a heap object.  Why not register it all
 	 as a single segment?  That's so that a later munmap() call
 	 can unmap individual pages.  XXX: would __MF_TYPE_GUESS make
 	 this more automatic?  */
       size_t ps = getpagesize ();
       uintptr_t base = (uintptr_t) result;
       uintptr_t offset;

       for (offset=0; offset<length; offset+=ps)
 	{
 	  /* XXX: We could map PROT_NONE to __MF_TYPE_NOACCESS. */
 	  /* XXX: Unaccessed HEAP pages are reported as leaks.  Is this
 	     appropriate for unaccessed mmap pages? */
 	  __mf_register ((void *) CLAMPADD (base, offset), ps,
 			 __MF_TYPE_HEAP_I, "mmap page");
 	}
     }

   return result;
 }


 #if PIC
 /* A special bootstrap variant. */
 int
 __mf_0fn_munmap (void *start, size_t length)
 {
   return -1;
 }
 #endif


 #undef munmap
 WRAPPER(int , munmap, void *start, size_t length)
 {
   DECLARE(int, munmap, void *, size_t);
   int result;
   BEGIN_PROTECT (munmap, start, length);

   result = CALL_REAL (munmap, start, length);

   /*
   VERBOSE_TRACE ("munmap (%08lx, %08lx, ...) => %08lx\n",
 		 (uintptr_t) start, (uintptr_t) length,
 		 (uintptr_t) result);
   */

   if (result == 0)
     {
       /* Unregister each page as a heap object.  */
       size_t ps = getpagesize ();
       uintptr_t base = (uintptr_t) start & (~ (ps - 1)); /* page align */
       uintptr_t offset;

       for (offset=0; offset<length; offset+=ps)
 	__mf_unregister ((void *) CLAMPADD (base, offset), ps, __MF_TYPE_HEAP_I);
     }
   return result;
 }
 #endif /* HAVE_MMAP */


 /* This wrapper is a little different, as it's called indirectly from
    __mf_fini also to clean up pending allocations.  */
 void *
 __mf_wrap_alloca_indirect (size_t c)
 {
   DECLARE (void *, malloc, size_t);
   DECLARE (void, free, void *);

   /* This struct, a linked list, tracks alloca'd objects.  The newest
      object is at the head of the list.  If we detect that we've
      popped a few levels of stack, then the listed objects are freed
      as needed.  NB: The tracking struct is allocated with
      real_malloc; the user data with wrap_malloc.
   */
   struct alloca_tracking { void *ptr; void *stack; struct alloca_tracking* next; };
   static struct alloca_tracking *alloca_history = NULL;

   void *stack = __builtin_frame_address (0);
   void *result;
   struct alloca_tracking *track;

   TRACE ("%s\n", __PRETTY_FUNCTION__);
   VERBOSE_TRACE ("alloca stack level %p\n", (void *) stack);

   /* XXX: thread locking! */

   /* Free any previously alloca'd blocks that belong to deeper-nested functions,
      which must therefore have exited by now.  */

 #define DEEPER_THAN < /* XXX: for x86; steal find_stack_direction() from libiberty/alloca.c */

   while (alloca_history &&
 	 ((uintptr_t) alloca_history->stack DEEPER_THAN (uintptr_t) stack))
     {
       struct alloca_tracking *next = alloca_history->next;
       __mf_unregister (alloca_history->ptr, 0, __MF_TYPE_HEAP);
       BEGIN_MALLOC_PROTECT ();
       CALL_REAL (free, alloca_history->ptr);
       CALL_REAL (free, alloca_history);
       END_MALLOC_PROTECT ();
       alloca_history = next;
     }

   /* Allocate new block.  */
   result = NULL;
   if (LIKELY (c > 0)) /* alloca(0) causes no allocation.  */
     {
       BEGIN_MALLOC_PROTECT ();
       track = (struct alloca_tracking *) CALL_REAL (malloc,
 						    sizeof (struct alloca_tracking));
       END_MALLOC_PROTECT ();
       if (LIKELY (track != NULL))
 	{
 	  BEGIN_MALLOC_PROTECT ();
 	  result = CALL_REAL (malloc, c);
 	  END_MALLOC_PROTECT ();
 	  if (UNLIKELY (result == NULL))
 	    {
 	      BEGIN_MALLOC_PROTECT ();
 	      CALL_REAL (free, track);
 	      END_MALLOC_PROTECT ();
 	      /* Too bad.  XXX: What about errno?  */
 	    }
 	  else
 	    {
 	      __mf_register (result, c, __MF_TYPE_HEAP, "alloca region");
 	      track->ptr = result;
 	      track->stack = stack;
 	      track->next = alloca_history;
 	      alloca_history = track;
 	    }
 	}
     }

   return result;
 }


 #undef alloca
 WRAPPER(void *, alloca, size_t c)
 {
   return __mf_wrap_alloca_indirect (c);
 }
	/* Mudflap: narrow-pointer bounds-checking by tree rewriting.
	Copyright (C) 2002, 2003, 2004, 2009 Free Software Foundation, Inc.
	Contributed by Frank Ch. Eigler <fche@redhat.com>
	and Graydon Hoare <graydon@redhat.com>

	This file is part of GCC.

	GCC is free software; you can redistribute it and/or modify it under
	the terms of the GNU General Public License as published by the Free
	Software Foundation; either version 3, or (at your option) any later
	version.

	GCC is distributed in the hope that it will be useful, but WITHOUT ANY
	WARRANTY; without even the implied warranty of MERCHANTABILITY or
	FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
	for more details.

	Under Section 7 of GPL version 3, you are granted additional
	permissions described in the GCC Runtime Library Exception, version
	3.1, as published by the Free Software Foundation.

	You should have received a copy of the GNU General Public License and
	a copy of the GCC Runtime Library Exception along with this program;
	see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
	<http://www.gnu.org/licenses/>. */

	#include "config.h"

	#ifndef HAVE_SOCKLEN_T
	#define socklen_t int
	#endif


	/* These attempt to coax various unix flavours to declare all our
	needed tidbits in the system headers. */
	#if !defined(__FreeBSD__) && !defined(__APPLE__)
	#define _POSIX_SOURCE
	#endif /* Some BSDs break <sys/socket.h> if this is defined. */
	#define _GNU_SOURCE
	#define _XOPEN_SOURCE
	#define _BSD_TYPES
	#define __EXTENSIONS__
	#define _ALL_SOURCE
	#define _LARGE_FILE_API
	#define _XOPEN_SOURCE_EXTENDED 1

	#include <string.h>
	#include <stdio.h>
	#include <stdlib.h>
	#include <sys/time.h>
	#include <sys/types.h>
	#include <unistd.h>
	#include <assert.h>
	#include <errno.h>
	#include <limits.h>
	#include <time.h>

	#include "mf-runtime.h"
	#include "mf-impl.h"

	#ifdef _MUDFLAP
	#error "Do not compile this file with -fmudflap!"
	#endif


	/* Memory allocation related hook functions. Some of these are
	intercepted via linker wrapping or symbol interposition. Others
	use plain macros in mf-runtime.h. */


	#if PIC

	enum { BS = 4096, NB=10 };
	static char __mf_0fn_bufs[NB][BS];
	static unsigned __mf_0fn_bufs_used[NB];


	/* A special bootstrap variant. */
	void *
	__mf_0fn_malloc (size_t c)
	{
	unsigned i;

	for (i=0; i<NB; i++)
	{
	if (! __mf_0fn_bufs_used[i] && c < BS)
	{
	__mf_0fn_bufs_used[i] = 1;
	return & __mf_0fn_bufs[i][0];
	}
	}
	return NULL;
	}
	#endif


	#undef malloc
	WRAPPER(void *, malloc, size_t c)
	{
	size_t size_with_crumple_zones;
	DECLARE(void *, malloc, size_t c);
	void *result;
	BEGIN_PROTECT (malloc, c);

	size_with_crumple_zones =
	CLAMPADD(c,CLAMPADD(__mf_opts.crumple_zone,
	__mf_opts.crumple_zone));
	BEGIN_MALLOC_PROTECT ();
	result = (char *) CALL_REAL (malloc, size_with_crumple_zones);
	END_MALLOC_PROTECT ();

	if (LIKELY(result))
	{
	result += __mf_opts.crumple_zone;
	__mf_register (result, c, __MF_TYPE_HEAP, "malloc region");
	/* XXX: register __MF_TYPE_NOACCESS for crumple zones. */
	}

	return result;
	}


	#ifdef PIC
	/* A special bootstrap variant. */
	void *
	__mf_0fn_calloc (size_t c, size_t n)
	{
	return __mf_0fn_malloc (c * n);
	}
	#endif


	#undef calloc
	WRAPPER(void *, calloc, size_t c, size_t n)
	{
	size_t size_with_crumple_zones;
	DECLARE(void *, calloc, size_t, size_t);
	DECLARE(void *, malloc, size_t);
	DECLARE(void , memset, void , int, size_t);
	char *result;
	BEGIN_PROTECT (calloc, c, n);

	size_with_crumple_zones =
	CLAMPADD((c * n), /* XXX: CLAMPMUL */
	CLAMPADD(__mf_opts.crumple_zone,
	__mf_opts.crumple_zone));
	BEGIN_MALLOC_PROTECT ();
	result = (char *) CALL_REAL (malloc, size_with_crumple_zones);
	END_MALLOC_PROTECT ();

	if (LIKELY(result))
	memset (result, 0, size_with_crumple_zones);

	if (LIKELY(result))
	{
	result += __mf_opts.crumple_zone;
	__mf_register (result, cn / XXX: clamp */, __MF_TYPE_HEAP_I, "calloc region");
	/* XXX: register __MF_TYPE_NOACCESS for crumple zones. */
	}

	return result;
	}


	#if PIC
	/* A special bootstrap variant. */
	void *
	__mf_0fn_realloc (void *buf, size_t c)
	{
	return NULL;
	}
	#endif


	#undef realloc
	WRAPPER(void , realloc, void buf, size_t c)
	{
	DECLARE(void * , realloc, void *, size_t);
	size_t size_with_crumple_zones;
	char *base = buf;
	unsigned saved_wipe_heap;
	char *result;
	BEGIN_PROTECT (realloc, buf, c);

	if (LIKELY(buf))
	base -= __mf_opts.crumple_zone;

	size_with_crumple_zones =
	CLAMPADD(c, CLAMPADD(__mf_opts.crumple_zone,
	__mf_opts.crumple_zone));
	BEGIN_MALLOC_PROTECT ();
	result = (char *) CALL_REAL (realloc, base, size_with_crumple_zones);
	END_MALLOC_PROTECT ();

	/* Ensure heap wiping doesn't occur during this peculiar
	unregister/reregister pair. */
	LOCKTH ();
	__mf_set_state (reentrant);
	saved_wipe_heap = __mf_opts.wipe_heap;
	__mf_opts.wipe_heap = 0;

	if (LIKELY(buf))
	__mfu_unregister (buf, 0, __MF_TYPE_HEAP_I);
	/* NB: underlying region may have been __MF_TYPE_HEAP. */

	if (LIKELY(result))
	{
	result += __mf_opts.crumple_zone;
	__mfu_register (result, c, __MF_TYPE_HEAP_I, "realloc region");
	/* XXX: register __MF_TYPE_NOACCESS for crumple zones. */
	}

	/* Restore previous setting. */
	__mf_opts.wipe_heap = saved_wipe_heap;

	__mf_set_state (active);
	UNLOCKTH ();

	return result;
	}


	#if PIC
	/* A special bootstrap variant. */
	void
	__mf_0fn_free (void *buf)
	{
	return;
	}
	#endif

	#undef free
	WRAPPER(void, free, void *buf)
	{
	/* Use a circular queue to delay some number (__mf_opts.free_queue_length) of free()s. */
	static void *free_queue [__MF_FREEQ_MAX];
	static unsigned free_ptr = 0;
	static int freeq_initialized = 0;
	DECLARE(void, free, void *);

	BEGIN_PROTECT (free, buf);

	if (UNLIKELY(buf == NULL))
	return;

	#if PIC
	/* Check whether the given buffer might have come from a
	__mf_0fn_malloc/calloc call that for whatever reason was not
	redirected back to __mf_0fn_free. If so, we just ignore the
	call. */
	if (UNLIKELY((uintptr_t) buf >= (uintptr_t) __mf_0fn_bufs &&
	(uintptr_t) buf < ((uintptr_t) __mf_0fn_bufs + sizeof(__mf_0fn_bufs))))
	{
	VERBOSE_TRACE ("skipping free of boot (0fn) alloc buffer %p\n", buf);
	return;
	}
	#endif

	LOCKTH ();
	if (UNLIKELY(!freeq_initialized))
	{
	memset (free_queue, 0,
	__MF_FREEQ_MAX * sizeof (void *));
	freeq_initialized = 1;
	}
	UNLOCKTH ();

	__mf_unregister (buf, 0, __MF_TYPE_HEAP_I);
	/* NB: underlying region may have been __MF_TYPE_HEAP. */

	if (UNLIKELY(__mf_opts.free_queue_length > 0))
	{
	char *freeme = NULL;
	LOCKTH ();
	if (free_queue [free_ptr] != NULL)
	{
	freeme = free_queue [free_ptr];
	freeme -= __mf_opts.crumple_zone;
	}
	free_queue [free_ptr] = buf;
	free_ptr = (free_ptr == (__mf_opts.free_queue_length-1) ? 0 : free_ptr + 1);
	UNLOCKTH ();
	if (freeme)
	{
	if (__mf_opts.trace_mf_calls)
	{
	VERBOSE_TRACE ("freeing deferred pointer %p (crumple %u)\n",
	(void *) freeme,
	__mf_opts.crumple_zone);
	}
	BEGIN_MALLOC_PROTECT ();
	CALL_REAL (free, freeme);
	END_MALLOC_PROTECT ();
	}
	}
	else
	{
	/* back pointer up a bit to the beginning of crumple zone */
	char base = (char )buf;
	base -= __mf_opts.crumple_zone;
	if (__mf_opts.trace_mf_calls)
	{
	VERBOSE_TRACE ("freeing pointer %p = %p - %u\n",
	(void *) base,
	(void *) buf,
	__mf_opts.crumple_zone);
	}
	BEGIN_MALLOC_PROTECT ();
	CALL_REAL (free, base);
	END_MALLOC_PROTECT ();
	}
	}


	/* We can only wrap mmap if the target supports it. Likewise for munmap.
	We assume we have both if we have mmap. */
	#ifdef HAVE_MMAP

	#if PIC
	/* A special bootstrap variant. */
	void *
	__mf_0fn_mmap (void *start, size_t l, int prot, int f, int fd, off_t off)
	{
	return (void *) -1;
	}
	#endif


	#undef mmap
	WRAPPER(void *, mmap,
	void *start, size_t length, int prot,
	int flags, int fd, off_t offset)
	{
	DECLARE(void , mmap, void , size_t, int,
	int, int, off_t);
	void *result;
	BEGIN_PROTECT (mmap, start, length, prot, flags, fd, offset);

	result = CALL_REAL (mmap, start, length, prot,
	flags, fd, offset);

	/*
	VERBOSE_TRACE ("mmap (%08lx, %08lx, ...) => %08lx\n",
	(uintptr_t) start, (uintptr_t) length,
	(uintptr_t) result);
	*/

	if (result != (void *)-1)
	{
	/* Register each page as a heap object. Why not register it all
	as a single segment? That's so that a later munmap() call
	can unmap individual pages. XXX: would __MF_TYPE_GUESS make
	this more automatic? */
	size_t ps = getpagesize ();
	uintptr_t base = (uintptr_t) result;
	uintptr_t offset;

	for (offset=0; offset<length; offset+=ps)
	{
	/* XXX: We could map PROT_NONE to __MF_TYPE_NOACCESS. */
	/* XXX: Unaccessed HEAP pages are reported as leaks. Is this
	appropriate for unaccessed mmap pages? */
	__mf_register ((void *) CLAMPADD (base, offset), ps,
	__MF_TYPE_HEAP_I, "mmap page");
	}
	}

	return result;
	}


	#if PIC
	/* A special bootstrap variant. */
	int
	__mf_0fn_munmap (void *start, size_t length)
	{
	return -1;
	}
	#endif


	#undef munmap
	WRAPPER(int , munmap, void *start, size_t length)
	{
	DECLARE(int, munmap, void *, size_t);
	int result;
	BEGIN_PROTECT (munmap, start, length);

	result = CALL_REAL (munmap, start, length);

	/*
	VERBOSE_TRACE ("munmap (%08lx, %08lx, ...) => %08lx\n",
	(uintptr_t) start, (uintptr_t) length,
	(uintptr_t) result);
	*/

	if (result == 0)
	{
	/* Unregister each page as a heap object. */
	size_t ps = getpagesize ();
	uintptr_t base = (uintptr_t) start & (~ (ps - 1)); /* page align */
	uintptr_t offset;

	for (offset=0; offset<length; offset+=ps)
	__mf_unregister ((void *) CLAMPADD (base, offset), ps, __MF_TYPE_HEAP_I);
	}
	return result;
	}
	#endif /* HAVE_MMAP */


	/* This wrapper is a little different, as it's called indirectly from
	__mf_fini also to clean up pending allocations. */
	void *
	__mf_wrap_alloca_indirect (size_t c)
	{
	DECLARE (void *, malloc, size_t);
	DECLARE (void, free, void *);

	/* This struct, a linked list, tracks alloca'd objects. The newest
	object is at the head of the list. If we detect that we've
	popped a few levels of stack, then the listed objects are freed
	as needed. NB: The tracking struct is allocated with
	real_malloc; the user data with wrap_malloc.
	*/
	struct alloca_tracking { void ptr; void stack; struct alloca_tracking* next; };
	static struct alloca_tracking *alloca_history = NULL;

	void *stack = __builtin_frame_address (0);
	void *result;
	struct alloca_tracking *track;

	TRACE ("%s\n", __PRETTY_FUNCTION__);
	VERBOSE_TRACE ("alloca stack level %p\n", (void *) stack);

	/* XXX: thread locking! */

	/* Free any previously alloca'd blocks that belong to deeper-nested functions,
	which must therefore have exited by now. */

	#define DEEPER_THAN < /* XXX: for x86; steal find_stack_direction() from libiberty/alloca.c */

	while (alloca_history &&
	((uintptr_t) alloca_history->stack DEEPER_THAN (uintptr_t) stack))
	{
	struct alloca_tracking *next = alloca_history->next;
	__mf_unregister (alloca_history->ptr, 0, __MF_TYPE_HEAP);
	BEGIN_MALLOC_PROTECT ();
	CALL_REAL (free, alloca_history->ptr);
	CALL_REAL (free, alloca_history);
	END_MALLOC_PROTECT ();
	alloca_history = next;
	}

	/* Allocate new block. */
	result = NULL;
	if (LIKELY (c > 0)) /* alloca(0) causes no allocation. */
	{
	BEGIN_MALLOC_PROTECT ();
	track = (struct alloca_tracking *) CALL_REAL (malloc,
	sizeof (struct alloca_tracking));
	END_MALLOC_PROTECT ();
	if (LIKELY (track != NULL))
	{
	BEGIN_MALLOC_PROTECT ();
	result = CALL_REAL (malloc, c);
	END_MALLOC_PROTECT ();
	if (UNLIKELY (result == NULL))
	{
	BEGIN_MALLOC_PROTECT ();
	CALL_REAL (free, track);
	END_MALLOC_PROTECT ();
	/* Too bad. XXX: What about errno? */
	}
	else
	{
	__mf_register (result, c, __MF_TYPE_HEAP, "alloca region");
	track->ptr = result;
	track->stack = stack;
	track->next = alloca_history;
	alloca_history = track;
	}
	}
	}

	return result;
	}


	#undef alloca
	WRAPPER(void *, alloca, size_t c)
	{
	return __mf_wrap_alloca_indirect (c);
	}