/*
+ Bacula® - The Network Backup Solution
- S M A R T A L L O C
- Smart Memory Allocator
+ Copyright (C) 2000-2011 Free Software Foundation Europe e.V.
- Evolved over several years, starting with the initial
- SMARTALLOC code for AutoSketch in 1986, guided by the Blind
- Watchbreaker, John Walker. Isolated in this general-purpose
- form in September of 1989. Updated with be more POSIX
- compliant and to include Web-friendly HTML documentation in
- October of 1998 by the same culprit. For additional
- information and the current version visit the Web page:
+ The main author of Bacula is Kern Sibbald, with contributions from
+ many others, a complete list can be found in the file AUTHORS.
+ This program is Free Software; you can redistribute it and/or
+ modify it under the terms of version three of the GNU Affero General Public
+ License as published by the Free Software Foundation and included
+ in the file LICENSE.
- http://www.fourmilab.ch/smartall/
+ 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.
-
- Version $Id$
+ You should have received a copy of the GNU Affero General Public License
+ along with this program; if not, write to the Free Software
+ Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
+ 02110-1301, USA.
+ Bacula® is a registered trademark of Kern Sibbald.
+ The licensor of Bacula is the Free Software Foundation Europe
+ (FSFE), Fiduciary Program, Sumatrastrasse 25, 8006 Zürich,
+ Switzerland, email:ftf@fsfeurope.org.
*/
-
/*
- Copyright (C) 2000-2003 Kern Sibbald and John Walker
- 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.
+ S M A R T A L L O C
+ Smart Memory Allocator
- 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.
+ Evolved over several years, starting with the initial
+ SMARTALLOC code for AutoSketch in 1986, guided by the Blind
+ Watchbreaker, John Walker. Isolated in this general-purpose
+ form in September of 1989. Updated with be more POSIX
+ compliant and to include Web-friendly HTML documentation in
+ October of 1998 by the same culprit. For additional
+ information and the current version visit the Web page:
- 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.
+ http://www.fourmilab.ch/smartall/
- */
+*/
+
+#define _LOCKMGR_COMPLIANT
#include "bacula.h"
/* Use the real routines here */
#undef calloc
#undef malloc
#undef free
-
+/* We normally turn off debugging here.
+ * If you want it, simply #ifdef all the
+ * following off.
+ */
+#ifdef no_debug_xxxxx
+#undef Dmsg1
+#undef Dmsg2
+#undef Dmsg3
+#undef Dmsg4
+#define Dmsg1(l,f,a1)
+#define Dmsg2(l,f,a1,a2)
+#define Dmsg3(l,f,a1,a2,a3)
+#define Dmsg4(l,f,a1,a2,a3,a4)
+#endif
+
+
+uint64_t sm_max_bytes = 0;
+uint64_t sm_bytes = 0;
+uint32_t sm_max_buffers = 0;
+uint32_t sm_buffers = 0;
#ifdef SMARTALLOC
static pthread_mutex_t mutex = PTHREAD_MUTEX_INITIALIZER;
-extern char my_name[]; /* daemon name */
-
-typedef unsigned short sm_ushort;
+extern char my_name[]; /* daemon name */
#define EOS '\0' /* End of string sentinel */
#define sm_min(a, b) ((a) < (b) ? (a) : (b))
/* Memory allocation control structures and storage. */
struct abufhead {
- struct b_queue abq; /* Links on allocated queue */
- unsigned ablen; /* Buffer length in bytes */
- char *abfname; /* File name pointer */
- sm_ushort ablineno; /* Line number of allocation */
+ struct b_queue abq; /* Links on allocated queue */
+ uint32_t ablen; /* Buffer length in bytes */
+ const char *abfname; /* File name pointer */
+ uint32_t ablineno; /* Line number of allocation */
+ bool abin_use; /* set when malloced and cleared when free */
};
static struct b_queue abqueue = { /* Allocated buffer queue */
- &abqueue, &abqueue
+ &abqueue, &abqueue
};
-static Boolean bufimode = False; /* Buffers not tracked when True */
+
+static bool bufimode = false; /* Buffers not tracked when True */
#define HEAD_SIZE BALIGN(sizeof(struct abufhead))
/* SMALLOC -- Allocate buffer, enqueing on the orphaned buffer
- tracking list. */
+ tracking list. */
-static void *smalloc(char *fname, int lineno, unsigned int nbytes)
+static void *smalloc(const char *fname, int lineno, unsigned int nbytes)
{
- char *buf;
-
- /* Note: Unix MALLOC actually permits a zero length to be
- passed and allocates a valid block with zero user bytes.
- Such a block can later be expanded with realloc(). We
- disallow this based on the belief that it's better to make
- a special case and allocate one byte in the rare case this
- is desired than to miss all the erroneous occurrences where
- buffer length calculation code results in a zero. */
-
- ASSERT(nbytes > 0);
-
- nbytes += HEAD_SIZE + 1;
- if ((buf = (char *)malloc(nbytes)) != NULL) {
- P(mutex);
- /* Enqueue buffer on allocated list */
- qinsert(&abqueue, (struct b_queue *) buf);
- ((struct abufhead *) buf)->ablen = nbytes;
- ((struct abufhead *) buf)->abfname = bufimode ? NULL : fname;
- ((struct abufhead *) buf)->ablineno = (sm_ushort) lineno;
- /* Emplace end-clobber detector at end of buffer */
- buf[nbytes - 1] = (((long) buf) & 0xFF) ^ 0xC5;
- buf += HEAD_SIZE; /* Increment to user data start */
- V(mutex);
- }
- Dmsg4(1150, "smalloc %d at %x from %s:%d\n", nbytes, buf, fname, lineno);
- return (void *)buf;
+ char *buf;
+
+ /* Note: Unix MALLOC actually permits a zero length to be
+ passed and allocates a valid block with zero user bytes.
+ Such a block can later be expanded with realloc(). We
+ disallow this based on the belief that it's better to make
+ a special case and allocate one byte in the rare case this
+ is desired than to miss all the erroneous occurrences where
+ buffer length calculation code results in a zero. */
+
+ ASSERT(nbytes > 0);
+
+ nbytes += HEAD_SIZE + 1;
+ if ((buf = (char *)malloc(nbytes)) != NULL) {
+ struct abufhead *head = (struct abufhead *)buf;
+ P(mutex);
+ /* Enqueue buffer on allocated list */
+ qinsert(&abqueue, (struct b_queue *) buf);
+ head->ablen = nbytes;
+ head->abfname = bufimode ? NULL : fname;
+ head->ablineno = (uint32_t)lineno;
+ head->abin_use = true;
+ /* Emplace end-clobber detector at end of buffer */
+ buf[nbytes - 1] = (uint8_t)((((intptr_t) buf) & 0xFF) ^ 0xC5);
+ buf += HEAD_SIZE; /* Increment to user data start */
+ if (++sm_buffers > sm_max_buffers) {
+ sm_max_buffers = sm_buffers;
+ }
+ sm_bytes += nbytes;
+ if (sm_bytes > sm_max_bytes) {
+ sm_max_bytes = sm_bytes;
+ }
+ V(mutex);
+ } else {
+ Emsg0(M_ABORT, 0, _("Out of memory\n"));
+ }
+ Dmsg4(1150, "smalloc %d at %p from %s:%d\n", nbytes, buf, fname, lineno);
+#if SMALLOC_SANITY_CHECK > 0
+ if (sm_bytes > SMALLOC_SANITY_CHECK) {
+ Emsg0(M_ABORT, 0, _("Too much memory used."));
+ }
+#endif
+ return (void *)buf;
}
/* SM_NEW_OWNER -- Update the File and line number for a buffer
- This is to accomodate mem_pool. */
+ This is to accomodate mem_pool. */
-void sm_new_owner(char *fname, int lineno, char *buf)
+void sm_new_owner(const char *fname, int lineno, char *buf)
{
- buf -= HEAD_SIZE; /* Decrement to header */
- ((struct abufhead *)buf)->abfname = bufimode ? NULL : fname;
- ((struct abufhead *)buf)->ablineno = (sm_ushort) lineno;
- return;
+ buf -= HEAD_SIZE; /* Decrement to header */
+ ((struct abufhead *)buf)->abfname = bufimode ? NULL : fname;
+ ((struct abufhead *)buf)->ablineno = (uint32_t) lineno;
+ ((struct abufhead *)buf)->abin_use = true;
+ return;
}
/* SM_FREE -- Update free pool availability. FREE is never called
- except through this interface or by actuallyfree().
- free(x) is defined to generate a call to this
- routine. */
+ except through this interface or by actuallyfree().
+ free(x) is defined to generate a call to this
+ routine. */
-void sm_free(char *file, int line, void *fp)
+void sm_free(const char *file, int line, void *fp)
{
- char *cp = (char *) fp;
- struct b_queue *qp;
-
- if (cp == NULL) {
- Emsg2(M_ABORT, 0, "Attempt to free NULL called from %s:%d\n", file, line);
- }
-
- cp -= HEAD_SIZE;
- qp = (struct b_queue *) cp;
-
- P(mutex);
- Dmsg4(1150, "sm_free %d at %x from %s:%d\n",
- ((struct abufhead *)cp)->ablen, fp,
- ((struct abufhead *)cp)->abfname, ((struct abufhead *)cp)->ablineno);
-
- /* The following assertions will catch virtually every release
- of an address which isn't an allocated buffer. */
- if (qp->qnext->qprev != qp) {
- V(mutex);
- Emsg2(M_ABORT, 0, "qp->qnext->qprev != qp called from %s:%d\n", file, line);
- }
- if (qp->qprev->qnext != qp) {
- V(mutex);
- Emsg2(M_ABORT, 0, "qp->qprev->qnext != qp called from %s:%d\n", file, line);
- }
-
- /* The following assertion detects storing off the end of the
- allocated space in the buffer by comparing the end of buffer
- checksum with the address of the buffer. */
-
- if (((unsigned char *) cp)[((struct abufhead *) cp)->ablen - 1] !=
- ((((long) cp) & 0xFF) ^ 0xC5)) {
- V(mutex);
- Emsg2(M_ABORT, 0, "Buffer overrun called from %s:%d\n", file, line);
- }
-
-
- qdchain(qp);
- V(mutex);
-
- /* Now we wipe the contents of the just-released buffer with
- "designer garbage" (Duff Kurland's phrase) of alternating
- bits. This is intended to ruin the day for any miscreant who
- attempts to access data through a pointer into storage that's
- been previously released. */
-
- memset(cp, 0xAA, (int) ((struct abufhead *) cp)->ablen);
-
- free(cp);
+ char *cp = (char *) fp;
+ struct b_queue *qp;
+ uint32_t lineno = line;
+
+ if (cp == NULL) {
+ Emsg2(M_ABORT, 0, _("Attempt to free NULL called from %s:%d\n"), file, lineno);
+ }
+
+ cp -= HEAD_SIZE;
+ qp = (struct b_queue *)cp;
+ struct abufhead *head = (struct abufhead *)cp;
+
+ P(mutex);
+ Dmsg4(1150, "sm_free %d at %p from %s:%d\n",
+ head->ablen, fp,
+ get_basename(head->abfname), head->ablineno);
+
+ if (!head->abin_use) {
+ V(mutex);
+ Emsg2(M_ABORT, 0, _("double free from %s:%d\n"), file, lineno);
+ }
+ head->abin_use = false;
+
+ /* The following assertions will catch virtually every release
+ of an address which isn't an allocated buffer. */
+ if (qp->qnext->qprev != qp) {
+ V(mutex);
+ Emsg2(M_ABORT, 0, _("qp->qnext->qprev != qp called from %s:%d\n"), file, lineno);
+ }
+ if (qp->qprev->qnext != qp) {
+ V(mutex);
+ Emsg2(M_ABORT, 0, _("qp->qprev->qnext != qp called from %s:%d\n"), file, lineno);
+ }
+
+ /* The following assertion detects storing off the end of the
+ allocated space in the buffer by comparing the end of buffer
+ checksum with the address of the buffer. */
+
+ if (((unsigned char *)cp)[head->ablen - 1] != ((((intptr_t) cp) & 0xFF) ^ 0xC5)) {
+ V(mutex);
+ Emsg6(M_ABORT, 0, _("Overrun buffer: len=%d addr=%p allocated: %s:%d called from %s:%d\n"),
+ head->ablen, fp, get_basename(head->abfname), head->ablineno, file, line);
+ }
+ if (sm_buffers > 0) {
+ sm_buffers--;
+ sm_bytes -= head->ablen;
+ }
+
+ qdchain(qp);
+ V(mutex);
+
+ /* Now we wipe the contents of the just-released buffer with
+ "designer garbage" (Duff Kurland's phrase) of alternating
+ bits. This is intended to ruin the day for any miscreant who
+ attempts to access data through a pointer into storage that's
+ been previously released.
+
+ Modified, kes May, 2007 to not zap the header. This allows us
+ to check the in_use bit and detect doubly freed buffers.
+ */
+
+ memset(cp+HEAD_SIZE, 0xAA, (int)(head->ablen - HEAD_SIZE));
+
+ free(cp);
}
/* SM_MALLOC -- Allocate buffer. NULL is returned if no memory
- was available. */
+ was available. */
-void *sm_malloc(char *fname, int lineno, unsigned int nbytes)
+void *sm_malloc(const char *fname, int lineno, unsigned int nbytes)
{
- void *buf;
+ void *buf;
- if ((buf = smalloc(fname, lineno, nbytes)) != NULL) {
+ if ((buf = smalloc(fname, lineno, nbytes)) != NULL) {
- /* To catch sloppy code that assumes buffers obtained from
- malloc() are zeroed, we preset the buffer contents to
- "designer garbage" consisting of alternating bits. */
+ /* To catch sloppy code that assumes buffers obtained from
+ malloc() are zeroed, we preset the buffer contents to
+ "designer garbage" consisting of alternating bits. */
- memset(buf, 0x55, (int) nbytes);
- }
- return buf;
+ memset(buf, 0x55, (int) nbytes);
+ } else {
+ Emsg0(M_ABORT, 0, _("Out of memory\n"));
+ }
+ return buf;
}
/* SM_CALLOC -- Allocate an array and clear it to zero. */
-void *sm_calloc(char *fname, int lineno,
- unsigned int nelem, unsigned int elsize)
+void *sm_calloc(const char *fname, int lineno,
+ unsigned int nelem, unsigned int elsize)
{
- void *buf;
-
- if ((buf = smalloc(fname, lineno, nelem * elsize)) != NULL) {
- memset(buf, 0, (int) (nelem * elsize));
- }
- return buf;
+ void *buf;
+
+ if ((buf = smalloc(fname, lineno, nelem * elsize)) != NULL) {
+ memset(buf, 0, (int) (nelem * elsize));
+ } else {
+ Emsg0(M_ABORT, 0, _("Out of memory\n"));
+ }
+ return buf;
}
-/* SM_REALLOC -- Adjust the size of a previously allocated buffer.
+/* SM_REALLOC -- Adjust the size of a previously allocated buffer.
Note that the trick of "resurrecting" a previously
- freed buffer with realloc() is NOT supported by this
- function. Further, because of the need to maintain
- our control storage, SM_REALLOC must always allocate
- a new block and copy the data in the old block.
- This may result in programs which make heavy use of
- realloc() running much slower than normally. */
-
-void *sm_realloc(char *fname, int lineno, void *ptr, unsigned int size)
+ freed buffer with realloc() is NOT supported by this
+ function. Further, because of the need to maintain
+ our control storage, SM_REALLOC must always allocate
+ a new block and copy the data in the old block.
+ This may result in programs which make heavy use of
+ realloc() running much slower than normally. */
+
+void *sm_realloc(const char *fname, int lineno, void *ptr, unsigned int size)
{
- unsigned osize;
- void *buf;
- char *cp = (char *) ptr;
-
- Dmsg4(400, "sm_realloc %s:%d 0x%x %d\n", fname, lineno, ptr, size);
- if (size <= 0) {
- e_msg(fname, lineno, M_ABORT, 0, "sm_realloc size: %d\n", size);
- }
-
- /* If the old block pointer is NULL, treat realloc() as a
- malloc(). SVID is silent on this, but many C libraries
- permit this. */
-
- if (ptr == NULL)
- return sm_malloc(fname, lineno, size);
-
- /* If the old and new sizes are the same, be a nice guy and just
- return the buffer passed in. */
-
- cp -= HEAD_SIZE;
- osize = ((struct abufhead *) cp)->ablen - (HEAD_SIZE + 1);
- if (size == osize) {
- return ptr;
- }
-
- /* Sizes differ. Allocate a new buffer of the requested size.
- If we can't obtain such a buffer, act as defined in SVID:
- return NULL from realloc() and leave the buffer in PTR
- intact. */
-
- if ((buf = smalloc(fname, lineno, size)) != NULL) {
- memcpy(buf, ptr, (int) sm_min(size, osize));
- /* If the new buffer is larger than the old, fill the balance
- of it with "designer garbage". */
- if (size > osize) {
- memset(((char *) buf) + osize, 0x55, (int) (size - osize));
- }
-
- /* All done. Free and dechain the original buffer. */
-
- sm_free(__FILE__, __LINE__, ptr);
- }
- Dmsg4(150, "sm_realloc %d at %x from %s:%d\n", size, buf, fname, lineno);
- return buf;
+ unsigned osize;
+ void *buf;
+ char *cp = (char *) ptr;
+
+ Dmsg4(1400, "sm_realloc %s:%d %p %d\n", get_basename(fname), (uint32_t)lineno, ptr, size);
+ if (size <= 0) {
+ e_msg(fname, lineno, M_ABORT, 0, _("sm_realloc size: %d\n"), size);
+ }
+
+ /* If the old block pointer is NULL, treat realloc() as a
+ malloc(). SVID is silent on this, but many C libraries
+ permit this. */
+ if (ptr == NULL) {
+ return sm_malloc(fname, lineno, size);
+ }
+
+ /* If the old and new sizes are the same, be a nice guy and just
+ return the buffer passed in. */
+ cp -= HEAD_SIZE;
+ struct abufhead *head = (struct abufhead *)cp;
+ osize = head->ablen - (HEAD_SIZE + 1);
+ if (size == osize) {
+ return ptr;
+ }
+
+ /* Sizes differ. Allocate a new buffer of the requested size.
+ If we can't obtain such a buffer, act as defined in SVID:
+ return NULL from realloc() and leave the buffer in PTR
+ intact. */
+
+// sm_buffers--;
+// sm_bytes -= head->ablen;
+
+ if ((buf = smalloc(fname, lineno, size)) != NULL) {
+ memcpy(buf, ptr, (int)sm_min(size, osize));
+ /* If the new buffer is larger than the old, fill the balance
+ of it with "designer garbage". */
+ if (size > osize) {
+ memset(((char *) buf) + osize, 0x55, (int) (size - osize));
+ }
+
+ /* All done. Free and dechain the original buffer. */
+ sm_free(fname, lineno, ptr);
+ }
+ Dmsg4(4150, _("sm_realloc %d at %p from %s:%d\n"), size, buf, get_basename(fname), (uint32_t)lineno);
+ return buf;
}
-/* ACTUALLYMALLOC -- Call the system malloc() function to obtain
- storage which will eventually be released
- by system or library routines not compiled
- using SMARTALLOC. */
+/* ACTUALLYMALLOC -- Call the system malloc() function to obtain
+ storage which will eventually be released
+ by system or library routines not compiled
+ using SMARTALLOC. */
void *actuallymalloc(unsigned int size)
{
- return malloc(size);
+ return malloc(size);
}
-/* ACTUALLYCALLOC -- Call the system calloc() function to obtain
- storage which will eventually be released
- by system or library routines not compiled
- using SMARTALLOC. */
+/* ACTUALLYCALLOC -- Call the system calloc() function to obtain
+ storage which will eventually be released
+ by system or library routines not compiled
+ using SMARTALLOC. */
void *actuallycalloc(unsigned int nelem, unsigned int elsize)
{
- return calloc(nelem, elsize);
+ return calloc(nelem, elsize);
}
/* ACTUALLYREALLOC -- Call the system realloc() function to obtain
- storage which will eventually be released
- by system or library routines not compiled
- using SMARTALLOC. */
+ storage which will eventually be released
+ by system or library routines not compiled
+ using SMARTALLOC. */
void *actuallyrealloc(void *ptr, unsigned int size)
{
- Dmsg2(400, "Actuallyrealloc 0x%x %d\n", ptr, size);
- return realloc(ptr, size);
+ Dmsg2(1400, "Actuallyrealloc %p %d\n", ptr, size);
+ return realloc(ptr, size);
}
/* ACTUALLYFREE -- Interface to system free() function to release
- buffers allocated by low-level routines. */
+ buffers allocated by low-level routines. */
void actuallyfree(void *cp)
{
- free(cp);
+ free(cp);
}
/* SM_DUMP -- Print orphaned buffers (and dump them if BUFDUMP is
- * True).
- * N.B. DO NOT USE any Bacula print routines (Dmsg, Jmsg, Emsg, ...)
- * as they have all been shut down at this point.
+ * True).
*/
-void sm_dump(Boolean bufdump)
+void sm_dump(bool bufdump, bool in_use)
{
- struct abufhead *ap;
-
- P(mutex);
-
- ap = (struct abufhead *)abqueue.qnext;
-
- while (ap != (struct abufhead *) &abqueue) {
-
- if ((ap == NULL) ||
- (ap->abq.qnext->qprev != (struct b_queue *) ap) ||
- (ap->abq.qprev->qnext != (struct b_queue *) ap)) {
- fprintf(stderr,
- "\nOrphaned buffers exist. Dump terminated following\n");
- fprintf(stderr,
- " discovery of bad links in chain of orphaned buffers.\n");
- fprintf(stderr,
- " Buffer address with bad links: %lx\n", (long) ap);
- break;
- }
-
- if (ap->abfname != NULL) {
- unsigned memsize = ap->ablen - (HEAD_SIZE + 1);
- char errmsg[80];
-
- sprintf(errmsg,
- "Orphaned buffer: %6u bytes allocated at line %d of %s %s\n",
- memsize, ap->ablineno, my_name, ap->abfname
- );
- fprintf(stderr, "%s", errmsg);
- if (bufdump) {
- unsigned llen = 0;
- char *cp = ((char *) ap) + HEAD_SIZE;
-
- errmsg[0] = EOS;
- while (memsize) {
- if (llen >= 16) {
- strcat(errmsg, "\n");
- llen = 0;
- fprintf(stderr, "%s", errmsg);
- errmsg[0] = EOS;
- }
- sprintf(errmsg + strlen(errmsg), " %02X",
- (*cp++) & 0xFF);
- llen++;
- memsize--;
- }
- fprintf(stderr, "%s\n", errmsg);
- }
- }
- ap = (struct abufhead *) ap->abq.qnext;
- }
- V(mutex);
+ struct abufhead *ap;
+
+ P(mutex);
+
+ ap = (struct abufhead *)abqueue.qnext;
+
+ while (ap != (struct abufhead *) &abqueue) {
+
+ if ((ap == NULL) ||
+ (ap->abq.qnext->qprev != (struct b_queue *) ap) ||
+ (ap->abq.qprev->qnext != (struct b_queue *) ap)) {
+ Pmsg1(0, _(
+ "\nOrphaned buffers exist. Dump terminated following\n"
+ " discovery of bad links in chain of orphaned buffers.\n"
+ " Buffer address with bad links: %p\n"), ap);
+ break;
+ }
+
+ if (ap->abfname != NULL) {
+ char errmsg[500];
+ uint32_t memsize = ap->ablen - (HEAD_SIZE + 1);
+ char *cp = ((char *)ap) + HEAD_SIZE;
+
+ Pmsg6(0, "%s buffer: %s %d bytes at %p from %s:%d\n",
+ in_use?"In use":"Orphaned",
+ my_name, memsize, cp, get_basename(ap->abfname), ap->ablineno);
+ if (bufdump) {
+ char buf[20];
+ unsigned llen = 0;
+
+ errmsg[0] = EOS;
+ while (memsize) {
+ if (llen >= 16) {
+ bstrncat(errmsg, "\n", sizeof(errmsg));
+ llen = 0;
+ Pmsg1(0, "%s", errmsg);
+ errmsg[0] = EOS;
+ }
+ bsnprintf(buf, sizeof(buf), " %02X",
+ (*cp++) & 0xFF);
+ bstrncat(errmsg, buf, sizeof(errmsg));
+ llen++;
+ memsize--;
+ }
+ Pmsg1(0, "%s\n", errmsg);
+ }
+ }
+ ap = (struct abufhead *) ap->abq.qnext;
+ }
+ V(mutex);
}
#undef sm_check
/* SM_CHECK -- Check the buffers and dump if any damage exists. */
-void sm_check(char *fname, int lineno, Boolean bufdump)
+void sm_check(const char *fname, int lineno, bool bufdump)
{
- if (!sm_check_rtn(fname, lineno, bufdump)) {
- Emsg2(M_ABORT, 0, "Damaged buffer found. Called from %s:%d\n",
- fname, lineno);
- }
+ if (!sm_check_rtn(fname, lineno, bufdump)) {
+ Emsg2(M_ABORT, 0, _("Damaged buffer found. Called from %s:%d\n"),
+ get_basename(fname), (uint32_t)lineno);
+ }
}
#undef sm_check_rtn
/* SM_CHECK_RTN -- Check the buffers and return 1 if OK otherwise 0 */
-int sm_check_rtn(char *fname, int lineno, Boolean bufdump)
+int sm_check_rtn(const char *fname, int lineno, bool bufdump)
{
- struct abufhead *ap;
- int bad, badbuf = 0;
-
- P(mutex);
- ap = (struct abufhead *) abqueue.qnext;
- while (ap != (struct abufhead *) &abqueue) {
- bad = 0;
- if ((ap == NULL) ||
- (ap->abq.qnext->qprev != (struct b_queue *) ap)) {
- bad = 0x1;
- }
- if (ap->abq.qprev->qnext != (struct b_queue *) ap) {
- bad |= 0x2;
- }
- if (((unsigned char *) ap)[((struct abufhead *) ap)->ablen - 1] !=
- ((((long) ap) & 0xFF) ^ 0xC5)) {
- bad |= 0x4;
- }
- badbuf |= bad;
- if (bad) {
- fprintf(stderr,
- "\nDamaged buffers found at %s:%d\n", fname, lineno);
-
- if (bad & 0x1) {
- fprintf(stderr, " discovery of bad prev link.\n");
- }
- if (bad & 0x2) {
- fprintf(stderr, " discovery of bad next link.\n");
- }
- if (bad & 0x4) {
- fprintf(stderr, " discovery of data overrun.\n");
- }
-
- fprintf(stderr, " Buffer address: %lx\n", (long) ap);
-
- if (ap->abfname != NULL) {
- unsigned memsize = ap->ablen - (HEAD_SIZE + 1);
- char errmsg[80];
-
- fprintf(stderr,
- "Damaged buffer: %6u bytes allocated at line %d of %s %s\n",
- memsize, ap->ablineno, my_name, ap->abfname
- );
- if (bufdump) {
- unsigned llen = 0;
- char *cp = ((char *) ap) + HEAD_SIZE;
-
- errmsg[0] = EOS;
- while (memsize) {
- if (llen >= 16) {
- strcat(errmsg, "\n");
- llen = 0;
- fprintf(stderr, "%s", errmsg);
- errmsg[0] = EOS;
- }
- if (*cp < 0x20) {
- sprintf(errmsg + strlen(errmsg), " %02X",
- (*cp++) & 0xFF);
- } else {
- sprintf(errmsg + strlen(errmsg), " %c ",
- (*cp++) & 0xFF);
- }
- llen++;
- memsize--;
- }
- fprintf(stderr, "%s\n", errmsg);
- }
- }
- }
- ap = (struct abufhead *) ap->abq.qnext;
- }
- V(mutex);
- return badbuf ? 0 : 1;
+ struct abufhead *ap;
+ int bad, badbuf = 0;
+
+ P(mutex);
+ ap = (struct abufhead *) abqueue.qnext;
+ while (ap != (struct abufhead *)&abqueue) {
+ bad = 0;
+ if (ap != NULL) {
+ if (ap->abq.qnext->qprev != (struct b_queue *)ap) {
+ bad = 0x1;
+ }
+ if (ap->abq.qprev->qnext != (struct b_queue *)ap) {
+ bad |= 0x2;
+ }
+ if (((unsigned char *) ap)[((struct abufhead *)ap)->ablen - 1] !=
+ ((((intptr_t) ap) & 0xFF) ^ 0xC5)) {
+ bad |= 0x4;
+ }
+ } else {
+ bad = 0x8;
+ }
+ badbuf |= bad;
+ if (bad) {
+ Pmsg2(0,
+ _("\nDamaged buffers found at %s:%d\n"), get_basename(fname), (uint32_t)lineno);
+
+ if (bad & 0x1) {
+ Pmsg0(0, _(" discovery of bad prev link.\n"));
+ }
+ if (bad & 0x2) {
+ Pmsg0(0, _(" discovery of bad next link.\n"));
+ }
+ if (bad & 0x4) {
+ Pmsg0(0, _(" discovery of data overrun.\n"));
+ }
+ if (bad & 0x8) {
+ Pmsg0(0, _(" NULL pointer.\n"));
+ }
+
+ if (!ap) {
+ goto get_out;
+ }
+ Pmsg1(0, _(" Buffer address: %p\n"), ap);
+
+ if (ap->abfname != NULL) {
+ uint32_t memsize = ap->ablen - (HEAD_SIZE + 1);
+ char errmsg[80];
+
+ Pmsg4(0,
+ _("Damaged buffer: %6u bytes allocated at line %d of %s %s\n"),
+ memsize, ap->ablineno, my_name, get_basename(ap->abfname)
+ );
+ if (bufdump) {
+ unsigned llen = 0;
+ char *cp = ((char *) ap) + HEAD_SIZE;
+
+ errmsg[0] = EOS;
+ while (memsize) {
+ if (llen >= 16) {
+ strcat(errmsg, "\n");
+ llen = 0;
+ Pmsg1(0, "%s", errmsg);
+ errmsg[0] = EOS;
+ }
+ if (*cp < 0x20) {
+ sprintf(errmsg + strlen(errmsg), " %02X",
+ (*cp++) & 0xFF);
+ } else {
+ sprintf(errmsg + strlen(errmsg), " %c ",
+ (*cp++) & 0xFF);
+ }
+ llen++;
+ memsize--;
+ }
+ Pmsg1(0, "%s\n", errmsg);
+ }
+ }
+ }
+ ap = (struct abufhead *)ap->abq.qnext;
+ }
+get_out:
+ V(mutex);
+ return badbuf ? 0 : 1;
}
/* SM_STATIC -- Orphaned buffer detection can be disabled (for such
- items as buffers allocated during initialisation) by
- calling sm_static(1). Normal orphaned buffer
- detection can be re-enabled with sm_static(0). Note
- that all the other safeguards still apply to buffers
- allocated when sm_static(1) mode is in effect. */
+ items as buffers allocated during initialisation) by
+ calling sm_static(1). Normal orphaned buffer
+ detection can be re-enabled with sm_static(0). Note
+ that all the other safeguards still apply to buffers
+ allocated when sm_static(1) mode is in effect. */
-void sm_static(int mode)
+void sm_static(bool mode)
{
- bufimode = (Boolean) (mode != 0);
+ bufimode = mode;
}
+/*
+ * Here we overload C++'s global new and delete operators
+ * so that the memory is allocated through smartalloc.
+ */
+
+#ifdef xxx
+void * operator new(size_t size)
+{
+// Dmsg1(000, "new called %d\n", size);
+ return sm_malloc(__FILE__, __LINE__, size);
+}
+
+void operator delete(void *buf)
+{
+// Dmsg1(000, "free called %p\n", buf);
+ sm_free(__FILE__, __LINE__, buf);
+}
+#endif
+
#endif