Annotation of embedaddon/libiconv/srclib/malloca.c, revision 1.1.1.1
1.1 misho 1: /* Safe automatic memory allocation.
2: Copyright (C) 2003, 2006-2007 Free Software Foundation, Inc.
3: Written by Bruno Haible <bruno@clisp.org>, 2003.
4:
5: This program is free software; you can redistribute it and/or modify
6: it under the terms of the GNU General Public License as published by
7: the Free Software Foundation; either version 3, or (at your option)
8: any later version.
9:
10: This program is distributed in the hope that it will be useful,
11: but WITHOUT ANY WARRANTY; without even the implied warranty of
12: MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13: GNU General Public License for more details.
14:
15: You should have received a copy of the GNU General Public License
16: along with this program; if not, write to the Free Software Foundation,
17: Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */
18:
19: #include <config.h>
20:
21: /* Specification. */
22: #include "malloca.h"
23:
24: /* The speed critical point in this file is freea() applied to an alloca()
25: result: it must be fast, to match the speed of alloca(). The speed of
26: mmalloca() and freea() in the other case are not critical, because they
27: are only invoked for big memory sizes. */
28:
29: #if HAVE_ALLOCA
30:
31: /* Store the mmalloca() results in a hash table. This is needed to reliably
32: distinguish a mmalloca() result and an alloca() result.
33:
34: Although it is possible that the same pointer is returned by alloca() and
35: by mmalloca() at different times in the same application, it does not lead
36: to a bug in freea(), because:
37: - Before a pointer returned by alloca() can point into malloc()ed memory,
38: the function must return, and once this has happened the programmer must
39: not call freea() on it anyway.
40: - Before a pointer returned by mmalloca() can point into the stack, it
41: must be freed. The only function that can free it is freea(), and
42: when freea() frees it, it also removes it from the hash table. */
43:
44: #define MAGIC_NUMBER 0x1415fb4a
45: #define MAGIC_SIZE sizeof (int)
46: /* This is how the header info would look like without any alignment
47: considerations. */
48: struct preliminary_header { void *next; char room[MAGIC_SIZE]; };
49: /* But the header's size must be a multiple of sa_alignment_max. */
50: #define HEADER_SIZE \
51: (((sizeof (struct preliminary_header) + sa_alignment_max - 1) / sa_alignment_max) * sa_alignment_max)
52: struct header { void *next; char room[HEADER_SIZE - sizeof (struct preliminary_header) + MAGIC_SIZE]; };
53: /* Verify that HEADER_SIZE == sizeof (struct header). */
54: typedef int verify1[2 * (HEADER_SIZE == sizeof (struct header)) - 1];
55: /* We make the hash table quite big, so that during lookups the probability
56: of empty hash buckets is quite high. There is no need to make the hash
57: table resizable, because when the hash table gets filled so much that the
58: lookup becomes slow, it means that the application has memory leaks. */
59: #define HASH_TABLE_SIZE 257
60: static void * mmalloca_results[HASH_TABLE_SIZE];
61:
62: #endif
63:
64: void *
65: mmalloca (size_t n)
66: {
67: #if HAVE_ALLOCA
68: /* Allocate one more word, that serves as an indicator for malloc()ed
69: memory, so that freea() of an alloca() result is fast. */
70: size_t nplus = n + HEADER_SIZE;
71:
72: if (nplus >= n)
73: {
74: char *p = (char *) malloc (nplus);
75:
76: if (p != NULL)
77: {
78: size_t slot;
79:
80: p += HEADER_SIZE;
81:
82: /* Put a magic number into the indicator word. */
83: ((int *) p)[-1] = MAGIC_NUMBER;
84:
85: /* Enter p into the hash table. */
86: slot = (unsigned long) p % HASH_TABLE_SIZE;
87: ((struct header *) (p - HEADER_SIZE))->next = mmalloca_results[slot];
88: mmalloca_results[slot] = p;
89:
90: return p;
91: }
92: }
93: /* Out of memory. */
94: return NULL;
95: #else
96: # if !MALLOC_0_IS_NONNULL
97: if (n == 0)
98: n = 1;
99: # endif
100: return malloc (n);
101: #endif
102: }
103:
104: #if HAVE_ALLOCA
105: void
106: freea (void *p)
107: {
108: /* mmalloca() may have returned NULL. */
109: if (p != NULL)
110: {
111: /* Attempt to quickly distinguish the mmalloca() result - which has
112: a magic indicator word - and the alloca() result - which has an
113: uninitialized indicator word. It is for this test that sa_increment
114: additional bytes are allocated in the alloca() case. */
115: if (((int *) p)[-1] == MAGIC_NUMBER)
116: {
117: /* Looks like a mmalloca() result. To see whether it really is one,
118: perform a lookup in the hash table. */
119: size_t slot = (unsigned long) p % HASH_TABLE_SIZE;
120: void **chain = &mmalloca_results[slot];
121: for (; *chain != NULL;)
122: {
123: if (*chain == p)
124: {
125: /* Found it. Remove it from the hash table and free it. */
126: char *p_begin = (char *) p - HEADER_SIZE;
127: *chain = ((struct header *) p_begin)->next;
128: free (p_begin);
129: return;
130: }
131: chain = &((struct header *) ((char *) *chain - HEADER_SIZE))->next;
132: }
133: }
134: /* At this point, we know it was not a mmalloca() result. */
135: }
136: }
137: #endif
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