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source: zzuf/trunk/src/lib-mem.c @ 2272
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Last change on this file since 2272 was 1791, checked in by Sam Hocevar, 15 years ago
Added -p flag to cherry pick file descriptors that get fuzzed.
Property svn:keywords set to `Id`
File size: 10.0 KB

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1	/*
2	* zzuf - general purpose fuzzer
3	* Copyright (c) 2006,2007 Sam Hocevar <sam@zoy.org>
4	* All Rights Reserved
5	*
6	* $Id: lib-mem.c 1791 2007-07-06 13:40:55Z sam $
7	*
8	* This program is free software. It comes without any warranty, to
9	* the extent permitted by applicable law. You can redistribute it
10	* and/or modify it under the terms of the Do What The Fuck You Want
11	* To Public License, Version 2, as published by Sam Hocevar. See
12	* http://sam.zoy.org/wtfpl/COPYING for more details.
13	*/
14
15	/*
16	* load-mem.c: loaded memory handling functions
17	*/
18
19	#include "config.h"
20
21	/* Need this for RTLD_NEXT */
22	#define _GNU_SOURCE
23	/* Use this to get mmap64() on glibc systems */
24	#define _LARGEFILE64_SOURCE
25	/* Use this to get posix_memalign */
26	#if defined HAVE_POSIX_MEMALIGN
27	# define _XOPEN_SOURCE 600
28	#endif
29
30	#if defined HAVE_STDINT_H
31	# include <stdint.h>
32	#elif defined HAVE_INTTYPES_H
33	# include <inttypes.h>
34	#endif
35	#include <stdlib.h>
36	#include <string.h>
37	#include <errno.h>
38	#include <signal.h>
39
40	#if defined HAVE_MALLOC_H
41	# include <malloc.h>
42	#endif
43	#if defined HAVE_UNISTD_H
44	# include <unistd.h>
45	#endif
46	#if defined HAVE_SYS_MMAN_H
47	# include <sys/mman.h>
48	#endif
49	#if defined HAVE_LIBC_H
50	# include <libc.h>
51	#endif
52
53	#include "libzzuf.h"
54	#include "lib-load.h"
55	#include "debug.h"
56	#include "fuzz.h"
57	#include "fd.h"
58
59	#if !defined SIGKILL
60	# define SIGKILL 9
61	#endif
62
63	#if !defined MAP_ANONYMOUS
64	# define MAP_ANONYMOUS MAP_ANON
65	#endif
66
67	/* TODO: mremap, maybe brk/sbrk (haha) */
68
69	/* Library functions that we divert */
70	static void * (*ORIG(calloc)) (size_t nmemb, size_t size);
71	static void * (*ORIG(malloc)) (size_t size);
72	static void (ORIG(free)) (void ptr);
73	#if defined HAVE_VALLOC
74	static void * (*ORIG(valloc)) (size_t size);
75	#endif
76	#if defined HAVE_MEMALIGN
77	static void * (*ORIG(memalign)) (size_t boundary, size_t size);
78	#endif
79	#if defined HAVE_POSIX_MEMALIGN
80	static int (ORIG(posix_memalign)) (void *memptr, size_t alignment,
81	size_t size);
82	#endif
83	static void * (ORIG(realloc)) (void ptr, size_t size);
84
85	#if defined HAVE_MMAP
86	static void * (ORIG(mmap)) (void start, size_t length, int prot,
87	int flags, int fd, off_t offset);
88	#endif
89	#if defined HAVE_MMAP64
90	static void * (ORIG(mmap64)) (void start, size_t length, int prot,
91	int flags, int fd, off64_t offset);
92	#endif
93	#if defined HAVE_MUNMAP
94	static int (ORIG(munmap)) (void start, size_t length);
95	#endif
96	#if defined HAVE_MAP_FD
97	static kern_return_t (*ORIG(map_fd)) (int fd, vm_offset_t offset,
98	vm_offset_t *addr, boolean_t find_space,
99	vm_size_t numbytes);
100	#endif
101
102	/* We need a static memory buffer because some functions call memory
103	* allocation routines before our library is loaded. Hell, even dlsym()
104	* calls calloc(), so we need to do something about it */
105	#define DUMMY_BYTES 655360 /* 640 kB ought to be enough for anybody */
106	static uint64_t dummy_buffer[DUMMY_BYTES / 8];
107	static int64_t dummy_offset = 0;
108	#define DUMMY_START ((uintptr_t)dummy_buffer)
109	#define DUMMY_STOP ((uintptr_t)dummy_buffer + DUMMY_BYTES)
110
111	void _zz_mem_init(void)
112	{
113	LOADSYM(calloc);
114	LOADSYM(malloc);
115	LOADSYM(realloc);
116	}
117
118	void *NEW(calloc)(size_t nmemb, size_t size)
119	{
120	void *ret;
121	if(!ORIG(calloc))
122	{
123	ret = dummy_buffer + dummy_offset;
124	memset(ret, 0, (nmemb * size + 7) / 8);
125	dummy_offset += (nmemb * size + 7) / 8;
126	debug("%s(%li, %li) = %p", __func__,
127	(long int)nmemb, (long int)size, ret);
128	return ret;
129	}
130	ret = ORIG(calloc)(nmemb, size);
131	if(ret == NULL && _zz_memory && errno == ENOMEM)
132	raise(SIGKILL);
133	return ret;
134	}
135
136	void *NEW(malloc)(size_t size)
137	{
138	void *ret;
139	if(!ORIG(malloc))
140	{
141	ret = dummy_buffer + dummy_offset;
142	dummy_offset += (size + 7) / 8;
143	debug("%s(%li) = %p", __func__, (long int)size, ret);
144	return ret;
145	}
146	ret = ORIG(malloc)(size);
147	if(ret == NULL && _zz_memory && errno == ENOMEM)
148	raise(SIGKILL);
149	return ret;
150	}
151
152	void NEW(free)(void *ptr)
153	{
154	if((uintptr_t)ptr >= DUMMY_START && (uintptr_t)ptr < DUMMY_STOP)
155	{
156	debug("%s(%p)", __func__, ptr);
157	return;
158	}
159	LOADSYM(free);
160	ORIG(free)(ptr);
161	}
162
163	void NEW(realloc)(void ptr, size_t size)
164	{
165	void *ret;
166	if(!ORIG(realloc)
167	\|\| ((uintptr_t)ptr >= DUMMY_START && (uintptr_t)ptr < DUMMY_STOP))
168	{
169	ret = dummy_buffer + dummy_offset;
170	memcpy(ret, ptr, size);
171	dummy_offset += (size + 7) * 8;
172	debug("%s(%p, %li) = %p", __func__, ptr, (long int)size, ret);
173	return ret;
174	}
175	LOADSYM(realloc);
176	ret = ORIG(realloc)(ptr, size);
177	if(ret == NULL && _zz_memory && errno == ENOMEM)
178	raise(SIGKILL);
179	return ret;
180	}
181
182	#if defined HAVE_VALLOC
183	void *NEW(valloc)(size_t size)
184	{
185	void *ret;
186	LOADSYM(valloc);
187	ret = ORIG(valloc)(size);
188	if(ret == NULL && _zz_memory && errno == ENOMEM)
189	raise(SIGKILL);
190	return ret;
191	}
192	#endif
193
194	#if defined HAVE_MEMALIGN
195	void *NEW(memalign)(size_t boundary, size_t size)
196	{
197	void *ret;
198	LOADSYM(memalign);
199	ret = ORIG(memalign)(boundary, size);
200	if(ret == NULL && _zz_memory && errno == ENOMEM)
201	raise(SIGKILL);
202	return ret;
203	}
204	#endif
205
206	#if defined HAVE_POSIX_MEMALIGN
207	int NEW(posix_memalign)(void **memptr, size_t alignment, size_t size)
208	{
209	int ret;
210	LOADSYM(posix_memalign);
211	ret = ORIG(posix_memalign)(memptr, alignment, size);
212	if(ret == ENOMEM && _zz_memory)
213	raise(SIGKILL);
214	return ret;
215	}
216	#endif
217
218	/* Table used for mmap() and munmap() */
219	void **maps = NULL;
220	int nbmaps = 0;
221
222	#define MMAP(fn, off_t) \
223	do { \
224	char *b = MAP_FAILED; \
225	LOADSYM(fn); \
226	if(!_zz_ready \|\| !_zz_iswatched(fd) \|\| _zz_islocked(fd) \
227	\|\| !_zz_isactive(fd)) \
228	return ORIG(fn)(start, length, prot, flags, fd, offset); \
229	ret = ORIG(fn)(NULL, length, prot, flags, fd, offset); \
230	if(ret != MAP_FAILED && length) \
231	{ \
232	b = ORIG(fn)(start, length, PROT_READ \| PROT_WRITE, \
233	MAP_PRIVATE \| MAP_ANONYMOUS, -1, 0); \
234	if(b == MAP_FAILED) \
235	{ \
236	munmap(ret, length); \
237	ret = MAP_FAILED; \
238	} \
239	} \
240	if(b != MAP_FAILED) \
241	{ \
242	int i, oldpos; \
243	for(i = 0; i < nbmaps; i += 2) \
244	if(maps[i] == NULL) \
245	break; \
246	if(i == nbmaps) \
247	{ \
248	nbmaps += 2; \
249	maps = realloc(maps, nbmaps * sizeof(void *)); \
250	} \
251	maps[i] = b; \
252	maps[i + 1] = ret; \
253	oldpos = _zz_getpos(fd); \
254	_zz_setpos(fd, offset); /* mmap() maps the fd at offset 0 */ \
255	memcpy(b, ret, length); /* FIXME: get rid of this */ \
256	_zz_fuzz(fd, (uint8_t *)b, length); \
257	_zz_setpos(fd, oldpos); \
258	ret = b; \
259	if(length >= 4) \
260	debug("%s(%p, %li, %i, %i, %i, %lli) = %p \"%c%c%c%c...", \
261	__func__, start, (long int)length, prot, flags, fd, \
262	(long long int)offset, ret, b[0], b[1], b[2], b[3]); \
263	else \
264	debug("%s(%p, %li, %i, %i, %i, %lli) = %p \"%c...", \
265	__func__, start, (long int)length, prot, flags, fd, \
266	(long long int)offset, ret, b[0]); \
267	} \
268	else \
269	debug("%s(%p, %li, %i, %i, %i, %lli) = %p", \
270	__func__, start, (long int)length, prot, flags, fd, \
271	(long long int)offset, ret); \
272	} while(0)
273
274	#if defined HAVE_MMAP
275	void NEW(mmap)(void start, size_t length, int prot, int flags,
276	int fd, off_t offset)
277	{
278	void *ret; MMAP(mmap, off_t); return ret;
279	}
280	#endif
281
282	#if defined HAVE_MMAP64
283	void NEW(mmap64)(void start, size_t length, int prot, int flags,
284	int fd, off64_t offset)
285	{
286	void *ret; MMAP(mmap64, off64_t); return ret;
287	}
288	#endif
289
290	#if defined HAVE_MUNMAP
291	int NEW(munmap)(void *start, size_t length)
292	{
293	int ret, i;
294
295	LOADSYM(munmap);
296	for(i = 0; i < nbmaps; i++)
297	{
298	if(maps[i] != start)
299	continue;
300
301	ORIG(munmap)(start, length);
302	ret = ORIG(munmap)(maps[i + 1], length);
303	maps[i] = NULL;
304	maps[i + 1] = NULL;
305	debug("%s(%p, %li) = %i", __func__, start, (long int)length, ret);
306	return ret;
307	}
308
309	return ORIG(munmap)(start, length);
310	}
311	#endif
312
313	#if defined HAVE_MAP_FD
314	kern_return_t NEW(map_fd)(int fd, vm_offset_t offset, vm_offset_t *addr,
315	boolean_t find_space, vm_size_t numbytes)
316	{
317	kern_return_t ret;
318
319	LOADSYM(map_fd);
320	ret = ORIG(map_fd)(fd, offset, addr, find_space, numbytes);
321	if(!_zz_ready \|\| !_zz_iswatched(fd) \|\| _zz_islocked(fd)
322	\|\| !_zz_isactive(fd))
323	return ret;
324
325	if(ret == 0 && numbytes)
326	{
327	/* FIXME: do we also have to rewind the filedescriptor like in mmap? */
328	char *b = malloc(numbytes);
329	memcpy(b, (void )addr, numbytes);
330	_zz_fuzz(fd, (void *)b, numbytes);
331	*addr = (vm_offset_t)b;
332	/* FIXME: the map is never freed; there is no such thing as unmap_fd,
333	* but I suppose that kind of map should go when the filedescriptor is
334	* closed (unlike mmap, which returns a persistent buffer). */
335
336	if(numbytes >= 4)
337	debug("%s(%i, %lli, &%p, %i, %lli) = %i \"%c%c%c%c", __func__,
338	fd, (long long int)offset, (void )addr, (int)find_space,
339	(long long int)numbytes, ret, b[0], b[1], b[2], b[3]);
340	else
341	debug("%s(%i, %lli, &%p, %i, %lli) = %i \"%c", __func__, fd,
342	(long long int)offset, (void )addr, (int)find_space,
343	(long long int)numbytes, ret, b[0]);
344	}
345	else
346	debug("%s(%i, %lli, &%p, %i, %lli) = %i", __func__, fd,
347	(long long int)offset, (void )addr, (int)find_space,
348	(long long int)numbytes, ret);
349
350	return ret;
351	}
352	#endif
353

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