tests/common/malloc_wrappers.c - third_party/github/nanopb/nanopb - Git at Google

 /* The wrapper functions in this file work like regular malloc() and free(),
  * but store check values before and after the allocation. This helps to catch
  * any buffer overrun errors in the test cases.
  */

 #include "malloc_wrappers.h"
 #include <stdint.h>
 #include <stdio.h>
 #include <assert.h>
 #include <string.h>

 #define GUARD_SIZE (sizeof(size_t)*3)
 #define PREFIX_SIZE (sizeof(size_t)*2)
 #define CHECK1 ((size_t)0xDEADBEEF)
 #define CHECK2 ((size_t)0x600DCAFE)

 #ifndef MAX_ALLOC_BYTES
 #define MAX_ALLOC_BYTES 16*1024*1024
 #endif

 #ifndef DEBUG_MALLOC
 #define DEBUG_MALLOC 0
 #endif

 static size_t g_alloc_count = 0;
 static size_t g_alloc_bytes = 0;
 static size_t g_max_alloc_bytes = MAX_ALLOC_BYTES;

 #ifdef LLVMFUZZER
 /* LLVM libsanitizer has a realloc() implementation that always copies
  * the whole memory block, even if there would be space to expand it in
  * place. This gets pretty slow when fuzzing, so this wrapper limits the
  * realloc() calls by rounding allocation size upwards. Real world
  * realloc() implementations are hopefully smarter. */
 static size_t round_blocksize(size_t size)
 {
     if (size < 256)
     {
         return size;
     }
     else
     {
         return (size + 1023) / 1024 * 1024;
     }
 }
 #else
 static size_t round_blocksize(size_t size)
 {
     return size;
 }
 #endif

 /* Allocate memory and place check values before and after. */
 void* malloc_with_check(size_t size)
 {
     char *buf = NULL;

     if (size <= g_max_alloc_bytes - g_alloc_bytes)
     {
         buf = malloc(round_blocksize(size + GUARD_SIZE));
     }

     if (buf)
     {
         ((size_t*)buf)[0] = size;
         ((size_t*)buf)[1] = CHECK1;
         ((size_t*)(buf + size))[2] = CHECK2;
         g_alloc_count++;
         g_alloc_bytes += size;
         if (DEBUG_MALLOC) fprintf(stderr, "Alloc 0x%04x/%u\n", (unsigned)(uintptr_t)(buf + PREFIX_SIZE), (unsigned)size);
         return buf + PREFIX_SIZE;
     }
     else
     {
         if (DEBUG_MALLOC) fprintf(stderr, "malloc(%u) failed\n", (unsigned)size);
         return NULL;
     }
 }

 /* Free memory allocated with malloc_with_check() and do the checks. */
 void free_with_check(void *mem)
 {
     if (mem)
     {
         char *buf = (char*)mem - PREFIX_SIZE;
         size_t size = ((size_t*)buf)[0];
         if (DEBUG_MALLOC) fprintf(stderr, "Release 0x%04x/%u\n", (unsigned)(uintptr_t)mem, (unsigned)size);
         assert(((size_t*)buf)[1] == CHECK1);
         assert(((size_t*)(buf + size))[2] == CHECK2);
         assert(g_alloc_count > 0);
         assert(g_alloc_bytes >= size);
         ((size_t*)buf)[1] = 0;
         ((size_t*)(buf + size))[2] = 0;
         g_alloc_count--;
         g_alloc_bytes -= size;
         free(buf);
     }
 }

 /* Reallocate block and check / write guard values */
 void* realloc_with_check(void *ptr, size_t size)
 {
     if (!ptr && size)
     {
         /* Allocate new block and write guard values */
         return malloc_with_check(size);
     }
     else if (ptr && size)
     {
         /* Change block size */
         char *buf = (char*)ptr - PREFIX_SIZE;
         size_t oldsize = ((size_t*)buf)[0];
         assert(((size_t*)buf)[1] == CHECK1);
         assert(((size_t*)(buf + oldsize))[2] == CHECK2);
         assert(g_alloc_count > 0);
         assert(g_alloc_bytes >= oldsize);

         if (size <= g_max_alloc_bytes - (g_alloc_bytes - oldsize))
         {
             size_t new_rounded = round_blocksize(size + GUARD_SIZE);
             size_t old_rounded = round_blocksize(oldsize + GUARD_SIZE);

             if (new_rounded != old_rounded)
             {
                 buf = realloc(buf, new_rounded);
             }
         }
         else
         {
             buf = NULL;
         }

         if (!buf)
         {
             if (DEBUG_MALLOC) fprintf(stderr, "Realloc 0x%04x/%u to %u failed\n", (unsigned)(uintptr_t)ptr, (unsigned)oldsize, (unsigned)size);
             return NULL;
         }

         ((size_t*)buf)[0] = size;
         ((size_t*)buf)[1] = CHECK1;
         ((size_t*)(buf + size))[2] = CHECK2;
         g_alloc_bytes -= oldsize;
         g_alloc_bytes += size;

         if (DEBUG_MALLOC) fprintf(stderr, "Realloc 0x%04x/%u to 0x%04x/%u\n", (unsigned)(uintptr_t)ptr, (unsigned)oldsize, (unsigned)(uintptr_t)(buf + PREFIX_SIZE), (unsigned)size);
         return buf + PREFIX_SIZE;
     }
     else if (ptr && !size)
     {
         /* Deallocate */
         free_with_check(ptr);
         return NULL;
     }
     else
     {
         /* No action */
         return NULL;
     }
 }

 /* Return total number of allocations not yet released */
 size_t get_alloc_count()
 {
     return g_alloc_count;
 }

 /* Return allocated size for a pointer returned from malloc(). */
 size_t get_allocation_size(const void *mem)
 {
     char *buf = (char*)mem - PREFIX_SIZE;
     return ((size_t*)buf)[0];
 }

 /* Get total number of allocated bytes */
 size_t get_alloc_bytes()
 {
     return g_alloc_bytes;
 }

 /* Set limit for allocation size */
 void set_max_alloc_bytes(size_t max_bytes)
 {
     g_max_alloc_bytes = max_bytes;
 }

 size_t get_max_alloc_bytes()
 {
     return g_max_alloc_bytes;
 }
	/* The wrapper functions in this file work like regular malloc() and free(),
	* but store check values before and after the allocation. This helps to catch
	* any buffer overrun errors in the test cases.
	*/

	#include "malloc_wrappers.h"
	#include <stdint.h>
	#include <stdio.h>
	#include <assert.h>
	#include <string.h>

	#define GUARD_SIZE (sizeof(size_t)*3)
	#define PREFIX_SIZE (sizeof(size_t)*2)
	#define CHECK1 ((size_t)0xDEADBEEF)
	#define CHECK2 ((size_t)0x600DCAFE)

	#ifndef MAX_ALLOC_BYTES
	#define MAX_ALLOC_BYTES 1610241024
	#endif

	#ifndef DEBUG_MALLOC
	#define DEBUG_MALLOC 0
	#endif

	static size_t g_alloc_count = 0;
	static size_t g_alloc_bytes = 0;
	static size_t g_max_alloc_bytes = MAX_ALLOC_BYTES;

	#ifdef LLVMFUZZER
	/* LLVM libsanitizer has a realloc() implementation that always copies
	* the whole memory block, even if there would be space to expand it in
	* place. This gets pretty slow when fuzzing, so this wrapper limits the
	* realloc() calls by rounding allocation size upwards. Real world
	* realloc() implementations are hopefully smarter. */
	static size_t round_blocksize(size_t size)
	{
	if (size < 256)
	{
	return size;
	}
	else
	{
	return (size + 1023) / 1024 * 1024;
	}
	}
	#else
	static size_t round_blocksize(size_t size)
	{
	return size;
	}
	#endif

	/* Allocate memory and place check values before and after. */
	void* malloc_with_check(size_t size)
	{
	char *buf = NULL;

	if (size <= g_max_alloc_bytes - g_alloc_bytes)
	{
	buf = malloc(round_blocksize(size + GUARD_SIZE));
	}

	if (buf)
	{
	((size_t*)buf)[0] = size;
	((size_t*)buf)[1] = CHECK1;
	((size_t*)(buf + size))[2] = CHECK2;
	g_alloc_count++;
	g_alloc_bytes += size;
	if (DEBUG_MALLOC) fprintf(stderr, "Alloc 0x%04x/%u\n", (unsigned)(uintptr_t)(buf + PREFIX_SIZE), (unsigned)size);
	return buf + PREFIX_SIZE;
	}
	else
	{
	if (DEBUG_MALLOC) fprintf(stderr, "malloc(%u) failed\n", (unsigned)size);
	return NULL;
	}
	}

	/* Free memory allocated with malloc_with_check() and do the checks. */
	void free_with_check(void *mem)
	{
	if (mem)
	{
	char buf = (char)mem - PREFIX_SIZE;
	size_t size = ((size_t*)buf)[0];
	if (DEBUG_MALLOC) fprintf(stderr, "Release 0x%04x/%u\n", (unsigned)(uintptr_t)mem, (unsigned)size);
	assert(((size_t*)buf)[1] == CHECK1);
	assert(((size_t*)(buf + size))[2] == CHECK2);
	assert(g_alloc_count > 0);
	assert(g_alloc_bytes >= size);
	((size_t*)buf)[1] = 0;
	((size_t*)(buf + size))[2] = 0;
	g_alloc_count--;
	g_alloc_bytes -= size;
	free(buf);
	}
	}

	/* Reallocate block and check / write guard values */
	void* realloc_with_check(void *ptr, size_t size)
	{
	if (!ptr && size)
	{
	/* Allocate new block and write guard values */
	return malloc_with_check(size);
	}
	else if (ptr && size)
	{
	/* Change block size */
	char buf = (char)ptr - PREFIX_SIZE;
	size_t oldsize = ((size_t*)buf)[0];
	assert(((size_t*)buf)[1] == CHECK1);
	assert(((size_t*)(buf + oldsize))[2] == CHECK2);
	assert(g_alloc_count > 0);
	assert(g_alloc_bytes >= oldsize);

	if (size <= g_max_alloc_bytes - (g_alloc_bytes - oldsize))
	{
	size_t new_rounded = round_blocksize(size + GUARD_SIZE);
	size_t old_rounded = round_blocksize(oldsize + GUARD_SIZE);

	if (new_rounded != old_rounded)
	{
	buf = realloc(buf, new_rounded);
	}
	}
	else
	{
	buf = NULL;
	}

	if (!buf)
	{
	if (DEBUG_MALLOC) fprintf(stderr, "Realloc 0x%04x/%u to %u failed\n", (unsigned)(uintptr_t)ptr, (unsigned)oldsize, (unsigned)size);
	return NULL;
	}

	((size_t*)buf)[0] = size;
	((size_t*)buf)[1] = CHECK1;
	((size_t*)(buf + size))[2] = CHECK2;
	g_alloc_bytes -= oldsize;
	g_alloc_bytes += size;

	if (DEBUG_MALLOC) fprintf(stderr, "Realloc 0x%04x/%u to 0x%04x/%u\n", (unsigned)(uintptr_t)ptr, (unsigned)oldsize, (unsigned)(uintptr_t)(buf + PREFIX_SIZE), (unsigned)size);
	return buf + PREFIX_SIZE;
	}
	else if (ptr && !size)
	{
	/* Deallocate */
	free_with_check(ptr);
	return NULL;
	}
	else
	{
	/* No action */
	return NULL;
	}
	}

	/* Return total number of allocations not yet released */
	size_t get_alloc_count()
	{
	return g_alloc_count;
	}

	/* Return allocated size for a pointer returned from malloc(). */
	size_t get_allocation_size(const void *mem)
	{
	char buf = (char)mem - PREFIX_SIZE;
	return ((size_t*)buf)[0];
	}

	/* Get total number of allocated bytes */
	size_t get_alloc_bytes()
	{
	return g_alloc_bytes;
	}

	/* Set limit for allocation size */
	void set_max_alloc_bytes(size_t max_bytes)
	{
	g_max_alloc_bytes = max_bytes;
	}

	size_t get_max_alloc_bytes()
	{
	return g_max_alloc_bytes;
	}