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/* Copyright (C) 2000 MySQL AB
This program 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 2 of the License, or
(at your option) any later version.
This program 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.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */
/*
* Memory sub-system, written by Bjorn Benson
Fixed to use my_sys scheme by Michael Widenius
[This posting refers to an article entitled "oops, corrupted memory
again!" in net.lang.c. I am posting it here because it is source.]
My tool for approaching this problem is to build another level of data
abstraction on top of malloc() and free() that implements some checking.
This does a number of things for you:
- Checks for overruns and underruns on allocated data
- Keeps track of where in the program the memory was malloc'ed
- Reports on pieces of memory that were not free'ed
- Records some statistics such as maximum memory used
- Marks newly malloc'ed and newly free'ed memory with special values
You can use this scheme to:
- Find bugs such as overrun, underrun, etc because you know where
a piece of data was malloc'ed and where it was free'ed
- Find bugs where memory was not free'ed
- Find bugs where newly malloc'ed memory is used without initializing
- Find bugs where newly free'ed memory is still used
- Determine how much memory your program really uses
- and other things
To implement my scheme you must have a C compiler that has __LINE__ and
__FILE__ macros. If your compiler doesn't have these then (a) buy another:
compilers that do are available on UNIX 4.2bsd based systems and the PC,
and probably on other machines; or (b) change my scheme somehow. I have
recomendations on both these points if you would like them (e-mail please).
There are 4 functions in my package:
char *NEW( uSize ) Allocate memory of uSize bytes
(equivalent to malloc())
char *REA( pPtr, uSize) Allocate memory of uSize bytes, move data and
free pPtr.
(equivalent to realloc())
FREE( pPtr ) Free memory allocated by NEW
(equivalent to free())
TERMINATE(file) End system, report errors and stats on file
I personally use two more functions, but have not included them here:
char *STRSAVE( sPtr ) Save a copy of the string in dynamic memory
char *RENEW( pPtr, uSize )
(equivalent to realloc())
*/
#ifndef SAFEMALLOC
#define SAFEMALLOC /* Get protos from my_sys */
#endif
#include "mysys_priv.h"
#include <m_string.h>
#include "my_static.h"
#include "mysys_err.h"
ulonglong safemalloc_mem_limit = ~(ulonglong)0;
#define pNext tInt._pNext
#define pPrev tInt._pPrev
#define sFileName tInt._sFileName
#define uLineNum tInt._uLineNum
#define uDataSize tInt._uDataSize
#define lSpecialValue tInt._lSpecialValue
#ifndef PEDANTIC_SAFEMALLOC
/*
Set to 1 after TERMINATE() if we had to fiddle with cNewCount and
the linked list of blocks so that _sanity() will not fuss when it
is not supposed to
*/
static int sf_malloc_tampered = 0;
#endif
/* Static functions prototypes */
static int check_ptr(const char *where, byte *ptr, const char *sFile,
uint uLine);
static int _checkchunk(struct remember *pRec, const char *sFile, uint uLine);
/*
Note: both these refer to the NEW'ed data only. They do not include
malloc() roundoff or the extra space required by the remember
structures.
*/
/*
NEW'ed memory is filled with this value so that references to it will
end up being very strange.
*/
#define ALLOC_VAL (uchar) 0xA5
/*
FEEE'ed memory is filled with this value so that references to it will
end up being very strange.
*/
#define FREE_VAL (uchar) 0x8F
#define MAGICKEY 0x14235296 /* A magic value for underrun key */
/*
Warning: do not change the MAGICEND? values to something with the
high bit set. Various C compilers (like the 4.2bsd one) do not do
the sign extension right later on in this code and you will get
erroneous errors.
*/
#define MAGICEND0 0x68 /* Magic values for overrun keys */
#define MAGICEND1 0x34 /* " */
#define MAGICEND2 0x7A /* " */
#define MAGICEND3 0x15 /* " */
/* Allocate some memory. */
gptr _mymalloc (uint uSize, const char *sFile, uint uLine, myf MyFlags)
{
struct remember *pTmp;
DBUG_ENTER("_mymalloc");
DBUG_PRINT("enter",("Size: %u",uSize));
if (!sf_malloc_quick)
(void) _sanity (sFile, uLine);
if (uSize + lCurMemory > safemalloc_mem_limit)
pTmp = 0;
else
{
/* Allocate the physical memory */
pTmp = (struct remember *) malloc (
ALIGN_SIZE(sizeof(struct irem)) /* remember data */
+ sf_malloc_prehunc
+ uSize /* size requested */
+ 4 /* overrun mark */
+ sf_malloc_endhunc
);
}
/* Check if there isn't anymore memory avaiable */
if (pTmp == NULL)
{
if (MyFlags & MY_FAE)
error_handler_hook=fatal_error_handler_hook;
if (MyFlags & (MY_FAE+MY_WME))
{
char buff[SC_MAXWIDTH];
my_errno=errno;
sprintf(buff,"Out of memory at line %d, '%s'", uLine, sFile);
my_message(EE_OUTOFMEMORY,buff,MYF(ME_BELL+ME_WAITTANG));
sprintf(buff,"needed %d byte (%ldk), memory in use: %ld bytes (%ldk)",
uSize, (uSize + 1023L) / 1024L,
lMaxMemory, (lMaxMemory + 1023L) / 1024L);
my_message(EE_OUTOFMEMORY,buff,MYF(ME_BELL+ME_WAITTANG));
}
DBUG_PRINT("error",("Out of memory, in use: %ld at line %d, '%s'",
lMaxMemory,uLine, sFile));
if (MyFlags & MY_FAE)
exit(1);
DBUG_RETURN ((gptr) NULL);
}
/* Fill up the structure */
*((long*) ((char*) &pTmp -> lSpecialValue+sf_malloc_prehunc)) = MAGICKEY;
pTmp -> aData[uSize + sf_malloc_prehunc+0] = MAGICEND0;
pTmp -> aData[uSize + sf_malloc_prehunc+1] = MAGICEND1;
pTmp -> aData[uSize + sf_malloc_prehunc+2] = MAGICEND2;
pTmp -> aData[uSize + sf_malloc_prehunc+3] = MAGICEND3;
pTmp -> sFileName = (my_string) sFile;
pTmp -> uLineNum = uLine;
pTmp -> uDataSize = uSize;
pTmp -> pPrev = NULL;
/* Add this remember structure to the linked list */
pthread_mutex_lock(&THR_LOCK_malloc);
if ((pTmp->pNext=pRememberRoot))
{
pRememberRoot -> pPrev = pTmp;
}
pRememberRoot = pTmp;
/* Keep the statistics */
lCurMemory += uSize;
if (lCurMemory > lMaxMemory) {
lMaxMemory = lCurMemory;
}
cNewCount++;
pthread_mutex_unlock(&THR_LOCK_malloc);
/* Set the memory to the aribtrary wierd value */
if ((MyFlags & MY_ZEROFILL) || !sf_malloc_quick)
bfill(&pTmp -> aData[sf_malloc_prehunc],uSize,
(char) (MyFlags & MY_ZEROFILL ? 0 : ALLOC_VAL));
/* Return a pointer to the real data */
DBUG_PRINT("exit",("ptr: %lx",&(pTmp -> aData[sf_malloc_prehunc])));
if (sf_min_adress > &(pTmp -> aData[sf_malloc_prehunc]))
sf_min_adress = &(pTmp -> aData[sf_malloc_prehunc]);
if (sf_max_adress < &(pTmp -> aData[sf_malloc_prehunc]))
sf_max_adress = &(pTmp -> aData[sf_malloc_prehunc]);
DBUG_RETURN ((gptr) &(pTmp -> aData[sf_malloc_prehunc]));
}
/*
Allocate some new memory and move old memoryblock there.
Free then old memoryblock
*/
gptr _myrealloc (register gptr pPtr, register uint uSize,
const char *sFile, uint uLine, myf MyFlags)
{
struct remember *pRec;
gptr ptr;
DBUG_ENTER("_myrealloc");
if (!pPtr && (MyFlags & MY_ALLOW_ZERO_PTR))
DBUG_RETURN(_mymalloc(uSize,sFile,uLine,MyFlags));
if (!sf_malloc_quick)
(void) _sanity (sFile, uLine);
if (check_ptr("Reallocating",(byte*) pPtr,sFile,uLine))
DBUG_RETURN((gptr) NULL);
pRec = (struct remember *) ((char*) pPtr - ALIGN_SIZE(sizeof(struct irem))-
sf_malloc_prehunc);
if (*((long*) ((char*) &pRec -> lSpecialValue+sf_malloc_prehunc))
!= MAGICKEY)
{
fprintf(stderr, "Error: Reallocating unallocated data at line %d, '%s'\n",
uLine, sFile);
DBUG_PRINT("safe",("Reallocating unallocated data at line %d, '%s'",
uLine, sFile));
(void) fflush(stderr);
DBUG_RETURN((gptr) NULL);
}
if ((ptr=_mymalloc(uSize,sFile,uLine,MyFlags))) /* Allocate new area */
{
uSize=min(uSize,pRec-> uDataSize); /* Move as much as possibly */
memcpy((byte*) ptr,pPtr,(size_t) uSize); /* Copy old data */
_myfree(pPtr,sFile,uLine,0); /* Free not needed area */
}
else
{
if (MyFlags & MY_HOLD_ON_ERROR)
DBUG_RETURN(pPtr);
if (MyFlags & MY_FREE_ON_ERROR)
_myfree(pPtr,sFile,uLine,0);
}
DBUG_RETURN(ptr);
} /* _myrealloc */
/* Deallocate some memory. */
void _myfree (gptr pPtr, const char *sFile, uint uLine, myf myflags)
{
struct remember *pRec;
DBUG_ENTER("_myfree");
DBUG_PRINT("enter",("ptr: %lx",pPtr));
if (!sf_malloc_quick)
(void) _sanity (sFile, uLine);
if ((!pPtr && (myflags & MY_ALLOW_ZERO_PTR)) ||
check_ptr("Freeing",(byte*) pPtr,sFile,uLine))
DBUG_VOID_RETURN;
/* Calculate the address of the remember structure */
pRec = (struct remember *) ((byte*) pPtr- ALIGN_SIZE(sizeof(struct irem))-
sf_malloc_prehunc);
/*
Check to make sure that we have a real remember structure.
Note: this test could fail for four reasons:
(1) The memory was already free'ed
(2) The memory was never new'ed
(3) There was an underrun
(4) A stray pointer hit this location
*/
if (*((long*) ((char*) &pRec -> lSpecialValue+sf_malloc_prehunc))
!= MAGICKEY)
{
fprintf(stderr, "Error: Freeing unallocated data at line %d, '%s'\n",
uLine, sFile);
DBUG_PRINT("safe",("Unallocated data at line %d, '%s'",uLine,sFile));
(void) fflush(stderr);
DBUG_VOID_RETURN;
}
/* Remove this structure from the linked list */
pthread_mutex_lock(&THR_LOCK_malloc);
if (pRec -> pPrev) {
pRec -> pPrev -> pNext = pRec -> pNext;
} else {
pRememberRoot = pRec -> pNext;
}
if (pRec -> pNext) {
pRec -> pNext -> pPrev = pRec -> pPrev;
}
/* Handle the statistics */
lCurMemory -= pRec -> uDataSize;
cNewCount--;
pthread_mutex_unlock(&THR_LOCK_malloc);
#ifndef HAVE_purify
/* Mark this data as free'ed */
if (!sf_malloc_quick)
bfill(&pRec->aData[sf_malloc_prehunc],pRec->uDataSize,(pchar) FREE_VAL);
#endif
*((long*) ((char*) &pRec -> lSpecialValue+sf_malloc_prehunc)) = ~MAGICKEY;
/* Actually free the memory */
free ((my_string ) pRec);
DBUG_VOID_RETURN;
}
/* Check if we have a wrong pointer */
static int check_ptr(const char *where, byte *ptr, const char *sFile,
uint uLine)
{
if (!ptr)
{
fprintf(stderr, "Error: %s NULL pointer at line %d, '%s'\n",
where,uLine, sFile);
DBUG_PRINT("safe",("Null pointer at line %d '%s'", uLine, sFile));
(void) fflush(stderr);
return 1;
}
#ifndef _MSC_VER
if ((long) ptr & (ALIGN_SIZE(1)-1))
{
fprintf(stderr, "Error: %s wrong aligned pointer at line %d, '%s'\n",
where,uLine, sFile);
DBUG_PRINT("safe",("Wrong aligned pointer at line %d, '%s'",
uLine,sFile));
(void) fflush(stderr);
return 1;
}
#endif
if (ptr < sf_min_adress || ptr > sf_max_adress)
{
fprintf(stderr, "Error: %s pointer out of range at line %d, '%s'\n",
where,uLine, sFile);
DBUG_PRINT("safe",("Pointer out of range at line %d '%s'",
uLine,sFile));
(void) fflush(stderr);
return 1;
}
return 0;
}
/*
TERMINATE(FILE *file)
Report on all the memory pieces that have not been
free'ed as well as the statistics.
*/
void TERMINATE (FILE *file)
{
struct remember *pPtr;
DBUG_ENTER("TERMINATE");
pthread_mutex_lock(&THR_LOCK_malloc);
/*
Report the difference between number of calls to
NEW and the number of calls to FREE. >0 means more
NEWs than FREEs. <0, etc.
*/
if (cNewCount)
{
if (file)
{
fprintf(file, "Warning: Not freed memory segments: %d\n", cNewCount);
(void) fflush(file);
}
DBUG_PRINT("safe",("cNewCount: %d",cNewCount));
}
/*
Report on all the memory that was allocated with NEW
but not free'ed with FREE.
*/
if ((pPtr=pRememberRoot))
{
if (file)
{
fprintf(file, "Warning: Memory that was not free'ed (%ld bytes):\n",lCurMemory);
(void) fflush(file);
}
DBUG_PRINT("safe",("Memory that was not free'ed (%ld bytes):",lCurMemory));
while (pPtr)
{
if (file)
{
fprintf(file,
"\t%6u bytes at 0x%09lx, allocated at line %4u in '%s'",
pPtr -> uDataSize,
(ulong) &(pPtr -> aData[sf_malloc_prehunc]),
pPtr -> uLineNum, pPtr -> sFileName);
fprintf(file, "\n");
(void) fflush(file);
}
DBUG_PRINT("safe",
("%6u bytes at 0x%09lx, allocated at line %4d in '%s'",
pPtr -> uDataSize, &(pPtr -> aData[sf_malloc_prehunc]),
pPtr -> uLineNum, pPtr -> sFileName));
pPtr = pPtr -> pNext;
}
}
/* Report the memory usage statistics */
if (file)
{
fprintf(file, "Maximum memory usage: %ld bytes (%ldk)\n",
lMaxMemory, (lMaxMemory + 1023L) / 1024L);
(void) fflush(file);
}
DBUG_PRINT("safe",("Maximum memory usage: %ld bytes (%ldk)",
lMaxMemory, (lMaxMemory + 1023L) / 1024L));
pthread_mutex_unlock(&THR_LOCK_malloc);
DBUG_VOID_RETURN;
}
/* Returns 0 if chunk is ok */
static int _checkchunk (register struct remember *pRec, const char *sFile,
uint uLine)
{
reg1 uint uSize;
reg2 my_string magicp;
reg3 int flag=0;
/* Check for a possible underrun */
if (*((long*) ((char*) &pRec -> lSpecialValue+sf_malloc_prehunc))
!= MAGICKEY)
{
fprintf(stderr, "Error: Memory allocated at %s:%d was underrun,",
pRec -> sFileName, pRec -> uLineNum);
fprintf(stderr, " discovered at %s:%d\n", sFile, uLine);
(void) fflush(stderr);
DBUG_PRINT("safe",("Underrun at %lx, allocated at %s:%d",
&(pRec -> aData[sf_malloc_prehunc]),
pRec -> sFileName,
pRec -> uLineNum));
flag=1;
}
/* Check for a possible overrun */
uSize = pRec -> uDataSize;
magicp = &(pRec -> aData[uSize+sf_malloc_prehunc]);
if (*magicp++ != MAGICEND0 ||
*magicp++ != MAGICEND1 ||
*magicp++ != MAGICEND2 ||
*magicp++ != MAGICEND3)
{
fprintf(stderr, "Error: Memory allocated at %s:%d was overrun,",
pRec -> sFileName, pRec -> uLineNum);
fprintf(stderr, " discovered at '%s:%d'\n", sFile, uLine);
(void) fflush(stderr);
DBUG_PRINT("safe",("Overrun at %lx, allocated at %s:%d",
&(pRec -> aData[sf_malloc_prehunc]),
pRec -> sFileName,
pRec -> uLineNum));
flag=1;
}
return(flag);
}
/* Returns how many wrong chunks */
int _sanity (const char *sFile, uint uLine)
{
reg1 struct remember *pTmp;
reg2 int flag=0;
uint count=0;
pthread_mutex_lock(&THR_LOCK_malloc);
#ifndef PEDANTIC_SAFEMALLOC
if (sf_malloc_tampered && cNewCount < 0)
cNewCount=0;
#endif
count=cNewCount;
for (pTmp = pRememberRoot; pTmp != NULL && count-- ; pTmp = pTmp -> pNext)
flag+=_checkchunk (pTmp, sFile, uLine);
pthread_mutex_unlock(&THR_LOCK_malloc);
if (count || pTmp)
{
const char *format="Error: Safemalloc link list destroyed, discovered at '%s:%d'";
fprintf(stderr, format, sFile, uLine); fputc('\n',stderr);
fprintf(stderr, "root=%p,count=%d,pTmp=%p\n", pRememberRoot,count,pTmp);
(void) fflush(stderr);
DBUG_PRINT("safe",(format, sFile, uLine));
flag=1;
}
return flag;
} /* _sanity */
/* malloc and copy */
gptr _my_memdup(const byte *from, uint length, const char *sFile, uint uLine,
myf MyFlags)
{
gptr ptr;
if ((ptr=_mymalloc(length,sFile,uLine,MyFlags)) != 0)
memcpy((byte*) ptr, (byte*) from,(size_t) length);
return(ptr);
} /*_my_memdup */
char *_my_strdup(const char *from, const char *sFile, uint uLine,
myf MyFlags)
{
gptr ptr;
uint length=(uint) strlen(from)+1;
if ((ptr=_mymalloc(length,sFile,uLine,MyFlags)) != 0)
memcpy((byte*) ptr, (byte*) from,(size_t) length);
return((char*) ptr);
} /* _my_strdup */
char *_my_strdup_with_length(const byte *from, uint length,
const char *sFile, uint uLine,
myf MyFlags)
{
gptr ptr;
if ((ptr=_mymalloc(length+1,sFile,uLine,MyFlags)) != 0)
{
memcpy((byte*) ptr, (byte*) from,(size_t) length);
ptr[length]=0;
}
return((char *) ptr);
}
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