1 /*
2  * xmlmemory.c:  libxml memory allocator wrapper.
3  *
4  * daniel@veillard.com
5  */
6 
7 #define IN_LIBXML
8 #include "libxml.h"
9 
10 #include <string.h>
11 
12 #ifdef HAVE_SYS_TYPES_H
13 #include <sys/types.h>
14 #endif
15 
16 #ifdef HAVE_TIME_H
17 #include <time.h>
18 #endif
19 
20 #ifdef HAVE_STDLIB_H
21 #include <stdlib.h>
22 #else
23 #ifdef HAVE_MALLOC_H
24 #include <malloc.h>
25 #endif
26 #endif
27 
28 #ifdef HAVE_CTYPE_H
29 #include <ctype.h>
30 #endif
31 
32 /* #define DEBUG_MEMORY */
33 
34 /**
35  * MEM_LIST:
36  *
37  * keep track of all allocated blocks for error reporting
38  * Always build the memory list !
39  */
40 #ifdef DEBUG_MEMORY_LOCATION
41 #ifndef MEM_LIST
42 #define MEM_LIST /* keep a list of all the allocated memory blocks */
43 #endif
44 #endif
45 
46 #include <libxml/globals.h>	/* must come before xmlmemory.h */
47 #include <libxml/xmlmemory.h>
48 #include <libxml/xmlerror.h>
49 #include <libxml/threads.h>
50 
51 static int xmlMemInitialized = 0;
52 static unsigned long  debugMemSize = 0;
53 static unsigned long  debugMemBlocks = 0;
54 static unsigned long  debugMaxMemSize = 0;
55 static xmlMutexPtr xmlMemMutex = NULL;
56 
57 void xmlMallocBreakpoint(void);
58 
59 /************************************************************************
60  *									*
61  *		Macros, variables and associated types			*
62  *									*
63  ************************************************************************/
64 
65 #if !defined(LIBXML_THREAD_ENABLED) && !defined(LIBXML_THREAD_ALLOC_ENABLED)
66 #ifdef xmlMalloc
67 #undef xmlMalloc
68 #endif
69 #ifdef xmlRealloc
70 #undef xmlRealloc
71 #endif
72 #ifdef xmlMemStrdup
73 #undef xmlMemStrdup
74 #endif
75 #endif
76 
77 /*
78  * Each of the blocks allocated begin with a header containing informations
79  */
80 
81 #define MEMTAG 0x5aa5
82 
83 #define MALLOC_TYPE 1
84 #define REALLOC_TYPE 2
85 #define STRDUP_TYPE 3
86 #define MALLOC_ATOMIC_TYPE 4
87 #define REALLOC_ATOMIC_TYPE 5
88 
89 typedef struct memnod {
90     unsigned int   mh_tag;
91     unsigned int   mh_type;
92     unsigned long  mh_number;
93     size_t         mh_size;
94 #ifdef MEM_LIST
95    struct memnod *mh_next;
96    struct memnod *mh_prev;
97 #endif
98    const char    *mh_file;
99    unsigned int   mh_line;
100 }  MEMHDR;
101 
102 
103 #ifdef SUN4
104 #define ALIGN_SIZE  16
105 #else
106 #define ALIGN_SIZE  sizeof(double)
107 #endif
108 #define HDR_SIZE    sizeof(MEMHDR)
109 #define RESERVE_SIZE (((HDR_SIZE + (ALIGN_SIZE-1)) \
110 		      / ALIGN_SIZE ) * ALIGN_SIZE)
111 
112 
113 #define CLIENT_2_HDR(a) ((MEMHDR *) (((char *) (a)) - RESERVE_SIZE))
114 #define HDR_2_CLIENT(a)    ((void *) (((char *) (a)) + RESERVE_SIZE))
115 
116 
117 static unsigned int block=0;
118 static unsigned int xmlMemStopAtBlock = 0;
119 static void *xmlMemTraceBlockAt = NULL;
120 #ifdef MEM_LIST
121 static MEMHDR *memlist = NULL;
122 #endif
123 
124 static void debugmem_tag_error(void *addr);
125 #ifdef MEM_LIST
126 static void  debugmem_list_add(MEMHDR *);
127 static void debugmem_list_delete(MEMHDR *);
128 #endif
129 #define Mem_Tag_Err(a) debugmem_tag_error(a);
130 
131 #ifndef TEST_POINT
132 #define TEST_POINT
133 #endif
134 
135 /**
136  * xmlMallocBreakpoint:
137  *
138  * Breakpoint to use in conjunction with xmlMemStopAtBlock. When the block
139  * number reaches the specified value this function is called. One need to add a breakpoint
140  * to it to get the context in which the given block is allocated.
141  */
142 
143 void
xmlMallocBreakpoint(void)144 xmlMallocBreakpoint(void) {
145     xmlGenericError(xmlGenericErrorContext,
146 	    "xmlMallocBreakpoint reached on block %d\n", xmlMemStopAtBlock);
147 }
148 
149 /**
150  * xmlMallocLoc:
151  * @size:  an int specifying the size in byte to allocate.
152  * @file:  the file name or NULL
153  * @line:  the line number
154  *
155  * a malloc() equivalent, with logging of the allocation info.
156  *
157  * Returns a pointer to the allocated area or NULL in case of lack of memory.
158  */
159 
160 void *
xmlMallocLoc(size_t size,const char * file,int line)161 xmlMallocLoc(size_t size, const char * file, int line)
162 {
163     MEMHDR *p;
164     void *ret;
165 
166     if (!xmlMemInitialized) xmlInitMemory();
167 #ifdef DEBUG_MEMORY
168     xmlGenericError(xmlGenericErrorContext,
169 	    "Malloc(%d)\n",size);
170 #endif
171 
172     TEST_POINT
173 
174     p = (MEMHDR *) malloc(RESERVE_SIZE+size);
175 
176     if (!p) {
177 	xmlGenericError(xmlGenericErrorContext,
178 		"xmlMallocLoc : Out of free space\n");
179 	xmlMemoryDump();
180 	return(NULL);
181     }
182     p->mh_tag = MEMTAG;
183     p->mh_size = size;
184     p->mh_type = MALLOC_TYPE;
185     p->mh_file = file;
186     p->mh_line = line;
187     xmlMutexLock(xmlMemMutex);
188     p->mh_number = ++block;
189     debugMemSize += size;
190     debugMemBlocks++;
191     if (debugMemSize > debugMaxMemSize) debugMaxMemSize = debugMemSize;
192 #ifdef MEM_LIST
193     debugmem_list_add(p);
194 #endif
195     xmlMutexUnlock(xmlMemMutex);
196 
197 #ifdef DEBUG_MEMORY
198     xmlGenericError(xmlGenericErrorContext,
199 	    "Malloc(%d) Ok\n",size);
200 #endif
201 
202     if (xmlMemStopAtBlock == p->mh_number) xmlMallocBreakpoint();
203 
204     ret = HDR_2_CLIENT(p);
205 
206     if (xmlMemTraceBlockAt == ret) {
207 	xmlGenericError(xmlGenericErrorContext,
208 			"%p : Malloc(%lu) Ok\n", xmlMemTraceBlockAt,
209 			(long unsigned)size);
210 	xmlMallocBreakpoint();
211     }
212 
213     TEST_POINT
214 
215     return(ret);
216 }
217 
218 /**
219  * xmlMallocAtomicLoc:
220  * @size:  an int specifying the size in byte to allocate.
221  * @file:  the file name or NULL
222  * @line:  the line number
223  *
224  * a malloc() equivalent, with logging of the allocation info.
225  *
226  * Returns a pointer to the allocated area or NULL in case of lack of memory.
227  */
228 
229 void *
xmlMallocAtomicLoc(size_t size,const char * file,int line)230 xmlMallocAtomicLoc(size_t size, const char * file, int line)
231 {
232     MEMHDR *p;
233     void *ret;
234 
235     if (!xmlMemInitialized) xmlInitMemory();
236 #ifdef DEBUG_MEMORY
237     xmlGenericError(xmlGenericErrorContext,
238 	    "Malloc(%d)\n",size);
239 #endif
240 
241     TEST_POINT
242 
243     p = (MEMHDR *) malloc(RESERVE_SIZE+size);
244 
245     if (!p) {
246 	xmlGenericError(xmlGenericErrorContext,
247 		"xmlMallocLoc : Out of free space\n");
248 	xmlMemoryDump();
249 	return(NULL);
250     }
251     p->mh_tag = MEMTAG;
252     p->mh_size = size;
253     p->mh_type = MALLOC_ATOMIC_TYPE;
254     p->mh_file = file;
255     p->mh_line = line;
256     xmlMutexLock(xmlMemMutex);
257     p->mh_number = ++block;
258     debugMemSize += size;
259     debugMemBlocks++;
260     if (debugMemSize > debugMaxMemSize) debugMaxMemSize = debugMemSize;
261 #ifdef MEM_LIST
262     debugmem_list_add(p);
263 #endif
264     xmlMutexUnlock(xmlMemMutex);
265 
266 #ifdef DEBUG_MEMORY
267     xmlGenericError(xmlGenericErrorContext,
268 	    "Malloc(%d) Ok\n",size);
269 #endif
270 
271     if (xmlMemStopAtBlock == p->mh_number) xmlMallocBreakpoint();
272 
273     ret = HDR_2_CLIENT(p);
274 
275     if (xmlMemTraceBlockAt == ret) {
276 	xmlGenericError(xmlGenericErrorContext,
277 			"%p : Malloc(%lu) Ok\n", xmlMemTraceBlockAt,
278 			(long unsigned)size);
279 	xmlMallocBreakpoint();
280     }
281 
282     TEST_POINT
283 
284     return(ret);
285 }
286 /**
287  * xmlMemMalloc:
288  * @size:  an int specifying the size in byte to allocate.
289  *
290  * a malloc() equivalent, with logging of the allocation info.
291  *
292  * Returns a pointer to the allocated area or NULL in case of lack of memory.
293  */
294 
295 void *
xmlMemMalloc(size_t size)296 xmlMemMalloc(size_t size)
297 {
298     return(xmlMallocLoc(size, "none", 0));
299 }
300 
301 /**
302  * xmlReallocLoc:
303  * @ptr:  the initial memory block pointer
304  * @size:  an int specifying the size in byte to allocate.
305  * @file:  the file name or NULL
306  * @line:  the line number
307  *
308  * a realloc() equivalent, with logging of the allocation info.
309  *
310  * Returns a pointer to the allocated area or NULL in case of lack of memory.
311  */
312 
313 void *
xmlReallocLoc(void * ptr,size_t size,const char * file,int line)314 xmlReallocLoc(void *ptr,size_t size, const char * file, int line)
315 {
316     MEMHDR *p, *tmp;
317     unsigned long number;
318 #ifdef DEBUG_MEMORY
319     size_t oldsize;
320 #endif
321 
322     if (ptr == NULL)
323         return(xmlMallocLoc(size, file, line));
324 
325     if (!xmlMemInitialized) xmlInitMemory();
326     TEST_POINT
327 
328     p = CLIENT_2_HDR(ptr);
329     number = p->mh_number;
330     if (xmlMemStopAtBlock == number) xmlMallocBreakpoint();
331     if (p->mh_tag != MEMTAG) {
332        Mem_Tag_Err(p);
333 	 goto error;
334     }
335     p->mh_tag = ~MEMTAG;
336     xmlMutexLock(xmlMemMutex);
337     debugMemSize -= p->mh_size;
338     debugMemBlocks--;
339 #ifdef DEBUG_MEMORY
340     oldsize = p->mh_size;
341 #endif
342 #ifdef MEM_LIST
343     debugmem_list_delete(p);
344 #endif
345     xmlMutexUnlock(xmlMemMutex);
346 
347     tmp = (MEMHDR *) realloc(p,RESERVE_SIZE+size);
348     if (!tmp) {
349 	 free(p);
350 	 goto error;
351     }
352     p = tmp;
353     if (xmlMemTraceBlockAt == ptr) {
354 	xmlGenericError(xmlGenericErrorContext,
355 			"%p : Realloced(%lu -> %lu) Ok\n",
356 			xmlMemTraceBlockAt, (long unsigned)p->mh_size,
357 			(long unsigned)size);
358 	xmlMallocBreakpoint();
359     }
360     p->mh_tag = MEMTAG;
361     p->mh_number = number;
362     p->mh_type = REALLOC_TYPE;
363     p->mh_size = size;
364     p->mh_file = file;
365     p->mh_line = line;
366     xmlMutexLock(xmlMemMutex);
367     debugMemSize += size;
368     debugMemBlocks++;
369     if (debugMemSize > debugMaxMemSize) debugMaxMemSize = debugMemSize;
370 #ifdef MEM_LIST
371     debugmem_list_add(p);
372 #endif
373     xmlMutexUnlock(xmlMemMutex);
374 
375     TEST_POINT
376 
377 #ifdef DEBUG_MEMORY
378     xmlGenericError(xmlGenericErrorContext,
379 	    "Realloced(%d to %d) Ok\n", oldsize, size);
380 #endif
381     return(HDR_2_CLIENT(p));
382 
383 error:
384     return(NULL);
385 }
386 
387 /**
388  * xmlMemRealloc:
389  * @ptr:  the initial memory block pointer
390  * @size:  an int specifying the size in byte to allocate.
391  *
392  * a realloc() equivalent, with logging of the allocation info.
393  *
394  * Returns a pointer to the allocated area or NULL in case of lack of memory.
395  */
396 
397 void *
xmlMemRealloc(void * ptr,size_t size)398 xmlMemRealloc(void *ptr,size_t size) {
399     return(xmlReallocLoc(ptr, size, "none", 0));
400 }
401 
402 /**
403  * xmlMemFree:
404  * @ptr:  the memory block pointer
405  *
406  * a free() equivalent, with error checking.
407  */
408 void
xmlMemFree(void * ptr)409 xmlMemFree(void *ptr)
410 {
411     MEMHDR *p;
412     char *target;
413 #ifdef DEBUG_MEMORY
414     size_t size;
415 #endif
416 
417     if (ptr == NULL)
418 	return;
419 
420     if (ptr == (void *) -1) {
421 	xmlGenericError(xmlGenericErrorContext,
422 	    "trying to free pointer from freed area\n");
423         goto error;
424     }
425 
426     if (xmlMemTraceBlockAt == ptr) {
427 	xmlGenericError(xmlGenericErrorContext,
428 			"%p : Freed()\n", xmlMemTraceBlockAt);
429 	xmlMallocBreakpoint();
430     }
431 
432     TEST_POINT
433 
434     target = (char *) ptr;
435 
436     p = CLIENT_2_HDR(ptr);
437     if (p->mh_tag != MEMTAG) {
438         Mem_Tag_Err(p);
439         goto error;
440     }
441     if (xmlMemStopAtBlock == p->mh_number) xmlMallocBreakpoint();
442     p->mh_tag = ~MEMTAG;
443     memset(target, -1, p->mh_size);
444     xmlMutexLock(xmlMemMutex);
445     debugMemSize -= p->mh_size;
446     debugMemBlocks--;
447 #ifdef DEBUG_MEMORY
448     size = p->mh_size;
449 #endif
450 #ifdef MEM_LIST
451     debugmem_list_delete(p);
452 #endif
453     xmlMutexUnlock(xmlMemMutex);
454 
455     free(p);
456 
457     TEST_POINT
458 
459 #ifdef DEBUG_MEMORY
460     xmlGenericError(xmlGenericErrorContext,
461 	    "Freed(%d) Ok\n", size);
462 #endif
463 
464     return;
465 
466 error:
467     xmlGenericError(xmlGenericErrorContext,
468 	    "xmlMemFree(%lX) error\n", (unsigned long) ptr);
469     xmlMallocBreakpoint();
470     return;
471 }
472 
473 /**
474  * xmlMemStrdupLoc:
475  * @str:  the initial string pointer
476  * @file:  the file name or NULL
477  * @line:  the line number
478  *
479  * a strdup() equivalent, with logging of the allocation info.
480  *
481  * Returns a pointer to the new string or NULL if allocation error occurred.
482  */
483 
484 char *
xmlMemStrdupLoc(const char * str,const char * file,int line)485 xmlMemStrdupLoc(const char *str, const char *file, int line)
486 {
487     char *s;
488     size_t size = strlen(str) + 1;
489     MEMHDR *p;
490 
491     if (!xmlMemInitialized) xmlInitMemory();
492     TEST_POINT
493 
494     p = (MEMHDR *) malloc(RESERVE_SIZE+size);
495     if (!p) {
496       goto error;
497     }
498     p->mh_tag = MEMTAG;
499     p->mh_size = size;
500     p->mh_type = STRDUP_TYPE;
501     p->mh_file = file;
502     p->mh_line = line;
503     xmlMutexLock(xmlMemMutex);
504     p->mh_number = ++block;
505     debugMemSize += size;
506     debugMemBlocks++;
507     if (debugMemSize > debugMaxMemSize) debugMaxMemSize = debugMemSize;
508 #ifdef MEM_LIST
509     debugmem_list_add(p);
510 #endif
511     xmlMutexUnlock(xmlMemMutex);
512 
513     s = (char *) HDR_2_CLIENT(p);
514 
515     if (xmlMemStopAtBlock == p->mh_number) xmlMallocBreakpoint();
516 
517     strcpy(s,str);
518 
519     TEST_POINT
520 
521     if (xmlMemTraceBlockAt == s) {
522 	xmlGenericError(xmlGenericErrorContext,
523 			"%p : Strdup() Ok\n", xmlMemTraceBlockAt);
524 	xmlMallocBreakpoint();
525     }
526 
527     return(s);
528 
529 error:
530     return(NULL);
531 }
532 
533 /**
534  * xmlMemoryStrdup:
535  * @str:  the initial string pointer
536  *
537  * a strdup() equivalent, with logging of the allocation info.
538  *
539  * Returns a pointer to the new string or NULL if allocation error occurred.
540  */
541 
542 char *
xmlMemoryStrdup(const char * str)543 xmlMemoryStrdup(const char *str) {
544     return(xmlMemStrdupLoc(str, "none", 0));
545 }
546 
547 /**
548  * xmlMemUsed:
549  *
550  * Provides the amount of memory currently allocated
551  *
552  * Returns an int representing the amount of memory allocated.
553  */
554 
555 int
xmlMemUsed(void)556 xmlMemUsed(void) {
557      return(debugMemSize);
558 }
559 
560 /**
561  * xmlMemBlocks:
562  *
563  * Provides the number of memory areas currently allocated
564  *
565  * Returns an int representing the number of blocks
566  */
567 
568 int
xmlMemBlocks(void)569 xmlMemBlocks(void) {
570      return(debugMemBlocks);
571 }
572 
573 #ifdef MEM_LIST
574 /**
575  * xmlMemContentShow:
576  * @fp:  a FILE descriptor used as the output file
577  * @p:  a memory block header
578  *
579  * tries to show some content from the memory block
580  */
581 
582 static void
xmlMemContentShow(FILE * fp,MEMHDR * p)583 xmlMemContentShow(FILE *fp, MEMHDR *p)
584 {
585     int i,j,k,len;
586     const char *buf;
587 
588     if (p == NULL) {
589 	fprintf(fp, " NULL");
590 	return;
591     }
592     len = p->mh_size;
593     buf = (const char *) HDR_2_CLIENT(p);
594 
595     for (i = 0;i < len;i++) {
596         if (buf[i] == 0) break;
597 	if (!isprint((unsigned char) buf[i])) break;
598     }
599     if ((i < 4) && ((buf[i] != 0) || (i == 0))) {
600         if (len >= 4) {
601 	    MEMHDR *q;
602 	    void *cur;
603 
604             for (j = 0;(j < len -3) && (j < 40);j += 4) {
605 		cur = *((void **) &buf[j]);
606 		q = CLIENT_2_HDR(cur);
607 		p = memlist;
608 		k = 0;
609 		while (p != NULL) {
610 		    if (p == q) break;
611 		    p = p->mh_next;
612 		    if (k++ > 100) break;
613 		}
614 		if ((p != NULL) && (p == q)) {
615 		    fprintf(fp, " pointer to #%lu at index %d",
616 		            p->mh_number, j);
617 		    return;
618 		}
619 	    }
620 	}
621     } else if ((i == 0) && (buf[i] == 0)) {
622         fprintf(fp," null");
623     } else {
624         if (buf[i] == 0) fprintf(fp," \"%.25s\"", buf);
625 	else {
626             fprintf(fp," [");
627 	    for (j = 0;j < i;j++)
628                 fprintf(fp,"%c", buf[j]);
629             fprintf(fp,"]");
630 	}
631     }
632 }
633 #endif
634 
635 /**
636  * xmlMemDisplayLast:
637  * @fp:  a FILE descriptor used as the output file, if NULL, the result is
638  *       written to the file .memorylist
639  * @nbBytes: the amount of memory to dump
640  *
641  * the last nbBytes of memory allocated and not freed, useful for dumping
642  * the memory left allocated between two places at runtime.
643  */
644 
645 void
xmlMemDisplayLast(FILE * fp,long nbBytes)646 xmlMemDisplayLast(FILE *fp, long nbBytes)
647 {
648 #ifdef MEM_LIST
649     MEMHDR *p;
650     unsigned idx;
651     int     nb = 0;
652 #endif
653     FILE *old_fp = fp;
654 
655     if (nbBytes <= 0)
656         return;
657 
658     if (fp == NULL) {
659 	fp = fopen(".memorylist", "w");
660 	if (fp == NULL)
661 	    return;
662     }
663 
664 #ifdef MEM_LIST
665     fprintf(fp,"   Last %li MEMORY ALLOCATED : %lu, MAX was %lu\n",
666             nbBytes, debugMemSize, debugMaxMemSize);
667     fprintf(fp,"BLOCK  NUMBER   SIZE  TYPE\n");
668     idx = 0;
669     xmlMutexLock(xmlMemMutex);
670     p = memlist;
671     while ((p) && (nbBytes > 0)) {
672 	  fprintf(fp,"%-5u  %6lu %6lu ",idx++,p->mh_number,
673 		  (unsigned long)p->mh_size);
674         switch (p->mh_type) {
675            case STRDUP_TYPE:fprintf(fp,"strdup()  in ");break;
676            case MALLOC_TYPE:fprintf(fp,"malloc()  in ");break;
677            case REALLOC_TYPE:fprintf(fp,"realloc() in ");break;
678            case MALLOC_ATOMIC_TYPE:fprintf(fp,"atomicmalloc()  in ");break;
679            case REALLOC_ATOMIC_TYPE:fprintf(fp,"atomicrealloc() in ");break;
680            default:
681 	        fprintf(fp,"Unknown memory block, may be corrupted");
682 		xmlMutexUnlock(xmlMemMutex);
683 		if (old_fp == NULL)
684 		    fclose(fp);
685 		return;
686         }
687 	if (p->mh_file != NULL) fprintf(fp,"%s(%u)", p->mh_file, p->mh_line);
688         if (p->mh_tag != MEMTAG)
689 	      fprintf(fp,"  INVALID");
690         nb++;
691 	if (nb < 100)
692 	    xmlMemContentShow(fp, p);
693 	else
694 	    fprintf(fp," skip");
695 
696         fprintf(fp,"\n");
697 	nbBytes -= (unsigned long)p->mh_size;
698         p = p->mh_next;
699     }
700     xmlMutexUnlock(xmlMemMutex);
701 #else
702     fprintf(fp,"Memory list not compiled (MEM_LIST not defined !)\n");
703 #endif
704     if (old_fp == NULL)
705 	fclose(fp);
706 }
707 
708 /**
709  * xmlMemDisplay:
710  * @fp:  a FILE descriptor used as the output file, if NULL, the result is
711  *       written to the file .memorylist
712  *
713  * show in-extenso the memory blocks allocated
714  */
715 
716 void
xmlMemDisplay(FILE * fp)717 xmlMemDisplay(FILE *fp)
718 {
719 #ifdef MEM_LIST
720     MEMHDR *p;
721     unsigned idx;
722     int     nb = 0;
723 #if defined(HAVE_LOCALTIME) && defined(HAVE_STRFTIME)
724     time_t currentTime;
725     char buf[500];
726     struct tm * tstruct;
727 #endif
728 #endif
729     FILE *old_fp = fp;
730 
731     if (fp == NULL) {
732 	fp = fopen(".memorylist", "w");
733 	if (fp == NULL)
734 	    return;
735     }
736 
737 #ifdef MEM_LIST
738 #if defined(HAVE_LOCALTIME) && defined(HAVE_STRFTIME)
739     currentTime = time(NULL);
740     tstruct = localtime(&currentTime);
741     strftime(buf, sizeof(buf) - 1, "%I:%M:%S %p", tstruct);
742     fprintf(fp,"      %s\n\n", buf);
743 #endif
744 
745 
746     fprintf(fp,"      MEMORY ALLOCATED : %lu, MAX was %lu\n",
747             debugMemSize, debugMaxMemSize);
748     fprintf(fp,"BLOCK  NUMBER   SIZE  TYPE\n");
749     idx = 0;
750     xmlMutexLock(xmlMemMutex);
751     p = memlist;
752     while (p) {
753 	  fprintf(fp,"%-5u  %6lu %6lu ",idx++,p->mh_number,
754 		  (unsigned long)p->mh_size);
755         switch (p->mh_type) {
756            case STRDUP_TYPE:fprintf(fp,"strdup()  in ");break;
757            case MALLOC_TYPE:fprintf(fp,"malloc()  in ");break;
758            case REALLOC_TYPE:fprintf(fp,"realloc() in ");break;
759            case MALLOC_ATOMIC_TYPE:fprintf(fp,"atomicmalloc()  in ");break;
760            case REALLOC_ATOMIC_TYPE:fprintf(fp,"atomicrealloc() in ");break;
761            default:
762 	        fprintf(fp,"Unknown memory block, may be corrupted");
763 		xmlMutexUnlock(xmlMemMutex);
764 		if (old_fp == NULL)
765 		    fclose(fp);
766 		return;
767         }
768 	if (p->mh_file != NULL) fprintf(fp,"%s(%u)", p->mh_file, p->mh_line);
769         if (p->mh_tag != MEMTAG)
770 	      fprintf(fp,"  INVALID");
771         nb++;
772 	if (nb < 100)
773 	    xmlMemContentShow(fp, p);
774 	else
775 	    fprintf(fp," skip");
776 
777         fprintf(fp,"\n");
778         p = p->mh_next;
779     }
780     xmlMutexUnlock(xmlMemMutex);
781 #else
782     fprintf(fp,"Memory list not compiled (MEM_LIST not defined !)\n");
783 #endif
784     if (old_fp == NULL)
785 	fclose(fp);
786 }
787 
788 #ifdef MEM_LIST
789 
debugmem_list_add(MEMHDR * p)790 static void debugmem_list_add(MEMHDR *p)
791 {
792      p->mh_next = memlist;
793      p->mh_prev = NULL;
794      if (memlist) memlist->mh_prev = p;
795      memlist = p;
796 #ifdef MEM_LIST_DEBUG
797      if (stderr)
798      Mem_Display(stderr);
799 #endif
800 }
801 
debugmem_list_delete(MEMHDR * p)802 static void debugmem_list_delete(MEMHDR *p)
803 {
804      if (p->mh_next)
805      p->mh_next->mh_prev = p->mh_prev;
806      if (p->mh_prev)
807      p->mh_prev->mh_next = p->mh_next;
808      else memlist = p->mh_next;
809 #ifdef MEM_LIST_DEBUG
810      if (stderr)
811      Mem_Display(stderr);
812 #endif
813 }
814 
815 #endif
816 
817 /*
818  * debugmem_tag_error:
819  *
820  * internal error function.
821  */
822 
debugmem_tag_error(void * p)823 static void debugmem_tag_error(void *p)
824 {
825      xmlGenericError(xmlGenericErrorContext,
826 	     "Memory tag error occurs :%p \n\t bye\n", p);
827 #ifdef MEM_LIST
828      if (stderr)
829      xmlMemDisplay(stderr);
830 #endif
831 }
832 
833 #ifdef MEM_LIST
834 static FILE *xmlMemoryDumpFile = NULL;
835 #endif
836 
837 /**
838  * xmlMemShow:
839  * @fp:  a FILE descriptor used as the output file
840  * @nr:  number of entries to dump
841  *
842  * show a show display of the memory allocated, and dump
843  * the @nr last allocated areas which were not freed
844  */
845 
846 void
xmlMemShow(FILE * fp,int nr ATTRIBUTE_UNUSED)847 xmlMemShow(FILE *fp, int nr ATTRIBUTE_UNUSED)
848 {
849 #ifdef MEM_LIST
850     MEMHDR *p;
851 #endif
852 
853     if (fp != NULL)
854 	fprintf(fp,"      MEMORY ALLOCATED : %lu, MAX was %lu\n",
855 		debugMemSize, debugMaxMemSize);
856 #ifdef MEM_LIST
857     xmlMutexLock(xmlMemMutex);
858     if (nr > 0) {
859 	fprintf(fp,"NUMBER   SIZE  TYPE   WHERE\n");
860 	p = memlist;
861 	while ((p) && nr > 0) {
862 	      fprintf(fp,"%6lu %6lu ",p->mh_number,(unsigned long)p->mh_size);
863 	    switch (p->mh_type) {
864 	       case STRDUP_TYPE:fprintf(fp,"strdup()  in ");break;
865 	       case MALLOC_TYPE:fprintf(fp,"malloc()  in ");break;
866 	       case MALLOC_ATOMIC_TYPE:fprintf(fp,"atomicmalloc()  in ");break;
867 	      case REALLOC_TYPE:fprintf(fp,"realloc() in ");break;
868 	      case REALLOC_ATOMIC_TYPE:fprintf(fp,"atomicrealloc() in ");break;
869 		default:fprintf(fp,"   ???    in ");break;
870 	    }
871 	    if (p->mh_file != NULL)
872 	        fprintf(fp,"%s(%u)", p->mh_file, p->mh_line);
873 	    if (p->mh_tag != MEMTAG)
874 		fprintf(fp,"  INVALID");
875 	    xmlMemContentShow(fp, p);
876 	    fprintf(fp,"\n");
877 	    nr--;
878 	    p = p->mh_next;
879 	}
880     }
881     xmlMutexUnlock(xmlMemMutex);
882 #endif /* MEM_LIST */
883 }
884 
885 /**
886  * xmlMemoryDump:
887  *
888  * Dump in-extenso the memory blocks allocated to the file .memorylist
889  */
890 
891 void
xmlMemoryDump(void)892 xmlMemoryDump(void)
893 {
894 #ifdef MEM_LIST
895     FILE *dump;
896 
897     if (debugMaxMemSize == 0)
898 	return;
899     dump = fopen(".memdump", "w");
900     if (dump == NULL)
901 	xmlMemoryDumpFile = stderr;
902     else xmlMemoryDumpFile = dump;
903 
904     xmlMemDisplay(xmlMemoryDumpFile);
905 
906     if (dump != NULL) fclose(dump);
907 #endif /* MEM_LIST */
908 }
909 
910 
911 /****************************************************************
912  *								*
913  *		Initialization Routines				*
914  *								*
915  ****************************************************************/
916 
917 /**
918  * xmlInitMemory:
919  *
920  * Initialize the memory layer.
921  *
922  * Returns 0 on success
923  */
924 int
xmlInitMemory(void)925 xmlInitMemory(void)
926 {
927 #ifdef HAVE_STDLIB_H
928      char *breakpoint;
929 #endif
930 #ifdef DEBUG_MEMORY
931      xmlGenericError(xmlGenericErrorContext,
932 	     "xmlInitMemory()\n");
933 #endif
934     /*
935      This is really not good code (see Bug 130419).  Suggestions for
936      improvement will be welcome!
937     */
938      if (xmlMemInitialized) return(-1);
939      xmlMemInitialized = 1;
940      xmlMemMutex = xmlNewMutex();
941 
942 #ifdef HAVE_STDLIB_H
943      breakpoint = getenv("XML_MEM_BREAKPOINT");
944      if (breakpoint != NULL) {
945          sscanf(breakpoint, "%ud", &xmlMemStopAtBlock);
946      }
947 #endif
948 #ifdef HAVE_STDLIB_H
949      breakpoint = getenv("XML_MEM_TRACE");
950      if (breakpoint != NULL) {
951          sscanf(breakpoint, "%p", &xmlMemTraceBlockAt);
952      }
953 #endif
954 
955 #ifdef DEBUG_MEMORY
956      xmlGenericError(xmlGenericErrorContext,
957 	     "xmlInitMemory() Ok\n");
958 #endif
959      return(0);
960 }
961 
962 /**
963  * xmlCleanupMemory:
964  *
965  * Free up all the memory allocated by the library for its own
966  * use. This should not be called by user level code.
967  */
968 void
xmlCleanupMemory(void)969 xmlCleanupMemory(void) {
970 #ifdef DEBUG_MEMORY
971      xmlGenericError(xmlGenericErrorContext,
972 	     "xmlCleanupMemory()\n");
973 #endif
974     if (xmlMemInitialized == 0)
975         return;
976 
977     xmlFreeMutex(xmlMemMutex);
978     xmlMemMutex = NULL;
979     xmlMemInitialized = 0;
980 #ifdef DEBUG_MEMORY
981      xmlGenericError(xmlGenericErrorContext,
982 	     "xmlCleanupMemory() Ok\n");
983 #endif
984 }
985 
986 /**
987  * xmlMemSetup:
988  * @freeFunc: the free() function to use
989  * @mallocFunc: the malloc() function to use
990  * @reallocFunc: the realloc() function to use
991  * @strdupFunc: the strdup() function to use
992  *
993  * Override the default memory access functions with a new set
994  * This has to be called before any other libxml routines !
995  *
996  * Should this be blocked if there was already some allocations
997  * done ?
998  *
999  * Returns 0 on success
1000  */
1001 int
xmlMemSetup(xmlFreeFunc freeFunc,xmlMallocFunc mallocFunc,xmlReallocFunc reallocFunc,xmlStrdupFunc strdupFunc)1002 xmlMemSetup(xmlFreeFunc freeFunc, xmlMallocFunc mallocFunc,
1003             xmlReallocFunc reallocFunc, xmlStrdupFunc strdupFunc) {
1004 #ifdef DEBUG_MEMORY
1005      xmlGenericError(xmlGenericErrorContext,
1006 	     "xmlMemSetup()\n");
1007 #endif
1008     if (freeFunc == NULL)
1009 	return(-1);
1010     if (mallocFunc == NULL)
1011 	return(-1);
1012     if (reallocFunc == NULL)
1013 	return(-1);
1014     if (strdupFunc == NULL)
1015 	return(-1);
1016     xmlFree = freeFunc;
1017     xmlMalloc = mallocFunc;
1018     xmlMallocAtomic = mallocFunc;
1019     xmlRealloc = reallocFunc;
1020     xmlMemStrdup = strdupFunc;
1021 #ifdef DEBUG_MEMORY
1022      xmlGenericError(xmlGenericErrorContext,
1023 	     "xmlMemSetup() Ok\n");
1024 #endif
1025     return(0);
1026 }
1027 
1028 /**
1029  * xmlMemGet:
1030  * @freeFunc: place to save the free() function in use
1031  * @mallocFunc: place to save the malloc() function in use
1032  * @reallocFunc: place to save the realloc() function in use
1033  * @strdupFunc: place to save the strdup() function in use
1034  *
1035  * Provides the memory access functions set currently in use
1036  *
1037  * Returns 0 on success
1038  */
1039 int
xmlMemGet(xmlFreeFunc * freeFunc,xmlMallocFunc * mallocFunc,xmlReallocFunc * reallocFunc,xmlStrdupFunc * strdupFunc)1040 xmlMemGet(xmlFreeFunc *freeFunc, xmlMallocFunc *mallocFunc,
1041 	  xmlReallocFunc *reallocFunc, xmlStrdupFunc *strdupFunc) {
1042     if (freeFunc != NULL) *freeFunc = xmlFree;
1043     if (mallocFunc != NULL) *mallocFunc = xmlMalloc;
1044     if (reallocFunc != NULL) *reallocFunc = xmlRealloc;
1045     if (strdupFunc != NULL) *strdupFunc = xmlMemStrdup;
1046     return(0);
1047 }
1048 
1049 /**
1050  * xmlGcMemSetup:
1051  * @freeFunc: the free() function to use
1052  * @mallocFunc: the malloc() function to use
1053  * @mallocAtomicFunc: the malloc() function to use for atomic allocations
1054  * @reallocFunc: the realloc() function to use
1055  * @strdupFunc: the strdup() function to use
1056  *
1057  * Override the default memory access functions with a new set
1058  * This has to be called before any other libxml routines !
1059  * The mallocAtomicFunc is specialized for atomic block
1060  * allocations (i.e. of areas  useful for garbage collected memory allocators
1061  *
1062  * Should this be blocked if there was already some allocations
1063  * done ?
1064  *
1065  * Returns 0 on success
1066  */
1067 int
xmlGcMemSetup(xmlFreeFunc freeFunc,xmlMallocFunc mallocFunc,xmlMallocFunc mallocAtomicFunc,xmlReallocFunc reallocFunc,xmlStrdupFunc strdupFunc)1068 xmlGcMemSetup(xmlFreeFunc freeFunc, xmlMallocFunc mallocFunc,
1069               xmlMallocFunc mallocAtomicFunc, xmlReallocFunc reallocFunc,
1070 	      xmlStrdupFunc strdupFunc) {
1071 #ifdef DEBUG_MEMORY
1072      xmlGenericError(xmlGenericErrorContext,
1073 	     "xmlGcMemSetup()\n");
1074 #endif
1075     if (freeFunc == NULL)
1076 	return(-1);
1077     if (mallocFunc == NULL)
1078 	return(-1);
1079     if (mallocAtomicFunc == NULL)
1080 	return(-1);
1081     if (reallocFunc == NULL)
1082 	return(-1);
1083     if (strdupFunc == NULL)
1084 	return(-1);
1085     xmlFree = freeFunc;
1086     xmlMalloc = mallocFunc;
1087     xmlMallocAtomic = mallocAtomicFunc;
1088     xmlRealloc = reallocFunc;
1089     xmlMemStrdup = strdupFunc;
1090 #ifdef DEBUG_MEMORY
1091      xmlGenericError(xmlGenericErrorContext,
1092 	     "xmlGcMemSetup() Ok\n");
1093 #endif
1094     return(0);
1095 }
1096 
1097 /**
1098  * xmlGcMemGet:
1099  * @freeFunc: place to save the free() function in use
1100  * @mallocFunc: place to save the malloc() function in use
1101  * @mallocAtomicFunc: place to save the atomic malloc() function in use
1102  * @reallocFunc: place to save the realloc() function in use
1103  * @strdupFunc: place to save the strdup() function in use
1104  *
1105  * Provides the memory access functions set currently in use
1106  * The mallocAtomicFunc is specialized for atomic block
1107  * allocations (i.e. of areas  useful for garbage collected memory allocators
1108  *
1109  * Returns 0 on success
1110  */
1111 int
xmlGcMemGet(xmlFreeFunc * freeFunc,xmlMallocFunc * mallocFunc,xmlMallocFunc * mallocAtomicFunc,xmlReallocFunc * reallocFunc,xmlStrdupFunc * strdupFunc)1112 xmlGcMemGet(xmlFreeFunc *freeFunc, xmlMallocFunc *mallocFunc,
1113             xmlMallocFunc *mallocAtomicFunc, xmlReallocFunc *reallocFunc,
1114 	    xmlStrdupFunc *strdupFunc) {
1115     if (freeFunc != NULL) *freeFunc = xmlFree;
1116     if (mallocFunc != NULL) *mallocFunc = xmlMalloc;
1117     if (mallocAtomicFunc != NULL) *mallocAtomicFunc = xmlMallocAtomic;
1118     if (reallocFunc != NULL) *reallocFunc = xmlRealloc;
1119     if (strdupFunc != NULL) *strdupFunc = xmlMemStrdup;
1120     return(0);
1121 }
1122 
1123 #define bottom_xmlmemory
1124 #include "elfgcchack.h"
1125