xref: /freebsd/lib/libc/string/memmem.c (revision faf25f48d601ae39f5752602f3020e2e92605625)
1 /*-
2  * SPDX-License-Identifier: MIT
3  *
4  * Copyright (c) 2005-2014 Rich Felker, et al.
5  *
6  * Permission is hereby granted, free of charge, to any person obtaining
7  * a copy of this software and associated documentation files (the
8  * "Software"), to deal in the Software without restriction, including
9  * without limitation the rights to use, copy, modify, merge, publish,
10  * distribute, sublicense, and/or sell copies of the Software, and to
11  * permit persons to whom the Software is furnished to do so, subject to
12  * the following conditions:
13  *
14  * The above copyright notice and this permission notice shall be
15  * included in all copies or substantial portions of the Software.
16  *
17  * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
18  * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
19  * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
20  * IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
21  * CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
22  * TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
23  * SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
24  */
25 #include <sys/cdefs.h>
26 __FBSDID("$FreeBSD$");
27 
28 #include <stdint.h>
29 #include <string.h>
30 
31 static char *
32 twobyte_memmem(const unsigned char *h, size_t k, const unsigned char *n)
33 {
34 	uint16_t nw = n[0] << 8 | n[1], hw = h[0] << 8 | h[1];
35 	for (h += 2, k -= 2; k; k--, hw = hw << 8 | *h++)
36 		if (hw == nw)
37 			return (char *)h - 2;
38 	return hw == nw ? (char *)h - 2 : 0;
39 }
40 
41 static char *
42 threebyte_memmem(const unsigned char *h, size_t k, const unsigned char *n)
43 {
44 	uint32_t nw = (uint32_t)n[0] << 24 | n[1] << 16 | n[2] << 8;
45 	uint32_t hw = (uint32_t)h[0] << 24 | h[1] << 16 | h[2] << 8;
46 	for (h += 3, k -= 3; k; k--, hw = (hw | *h++) << 8)
47 		if (hw == nw)
48 			return (char *)h - 3;
49 	return hw == nw ? (char *)h - 3 : 0;
50 }
51 
52 static char *
53 fourbyte_memmem(const unsigned char *h, size_t k, const unsigned char *n)
54 {
55 	uint32_t nw = (uint32_t)n[0] << 24 | n[1] << 16 | n[2] << 8 | n[3];
56 	uint32_t hw = (uint32_t)h[0] << 24 | h[1] << 16 | h[2] << 8 | h[3];
57 	for (h += 4, k -= 4; k; k--, hw = hw << 8 | *h++)
58 		if (hw == nw)
59 			return (char *)h - 4;
60 	return hw == nw ? (char *)h - 4 : 0;
61 }
62 
63 #define MAX(a, b) ((a) > (b) ? (a) : (b))
64 #define MIN(a, b) ((a) < (b) ? (a) : (b))
65 
66 #define BITOP(a, b, op) \
67 	((a)[(size_t)(b) / (8 * sizeof *(a))] op \
68 	    (size_t)1 << ((size_t)(b) % (8 * sizeof *(a))))
69 
70 /*
71  * Two Way string search algorithm, with a bad shift table applied to the last
72  * byte of the window. A bit array marks which entries in the shift table are
73  * initialized to avoid fully initializing a 1kb/2kb table.
74  *
75  * Reference: CROCHEMORE M., PERRIN D., 1991, Two-way string-matching,
76  * Journal of the ACM 38(3):651-675
77  */
78 static char *
79 twoway_memmem(const unsigned char *h, const unsigned char *z,
80     const unsigned char *n, size_t l)
81 {
82 	size_t i, ip, jp, k, p, ms, p0, mem, mem0;
83 	size_t byteset[32 / sizeof(size_t)] = { 0 };
84 	size_t shift[256];
85 
86 	/* Computing length of needle and fill shift table */
87 	for (i = 0; i < l; i++)
88 		BITOP(byteset, n[i], |=), shift[n[i]] = i + 1;
89 
90 	/* Compute maximal suffix */
91 	ip = -1;
92 	jp = 0;
93 	k = p = 1;
94 	while (jp + k < l) {
95 		if (n[ip + k] == n[jp + k]) {
96 			if (k == p) {
97 				jp += p;
98 				k = 1;
99 			} else
100 				k++;
101 		} else if (n[ip + k] > n[jp + k]) {
102 			jp += k;
103 			k = 1;
104 			p = jp - ip;
105 		} else {
106 			ip = jp++;
107 			k = p = 1;
108 		}
109 	}
110 	ms = ip;
111 	p0 = p;
112 
113 	/* And with the opposite comparison */
114 	ip = -1;
115 	jp = 0;
116 	k = p = 1;
117 	while (jp + k < l) {
118 		if (n[ip + k] == n[jp + k]) {
119 			if (k == p) {
120 				jp += p;
121 				k = 1;
122 			} else
123 				k++;
124 		} else if (n[ip + k] < n[jp + k]) {
125 			jp += k;
126 			k = 1;
127 			p = jp - ip;
128 		} else {
129 			ip = jp++;
130 			k = p = 1;
131 		}
132 	}
133 	if (ip + 1 > ms + 1)
134 		ms = ip;
135 	else
136 		p = p0;
137 
138 	/* Periodic needle? */
139 	if (memcmp(n, n + p, ms + 1)) {
140 		mem0 = 0;
141 		p = MAX(ms, l - ms - 1) + 1;
142 	} else
143 		mem0 = l - p;
144 	mem = 0;
145 
146 	/* Search loop */
147 	for (;;) {
148 		/* If remainder of haystack is shorter than needle, done */
149 		if (z - h < l)
150 			return 0;
151 
152 		/* Check last byte first; advance by shift on mismatch */
153 		if (BITOP(byteset, h[l - 1], &)) {
154 			k = l - shift[h[l - 1]];
155 			if (k) {
156 				if (k < mem)
157 					k = mem;
158 				h += k;
159 				mem = 0;
160 				continue;
161 			}
162 		} else {
163 			h += l;
164 			mem = 0;
165 			continue;
166 		}
167 
168 		/* Compare right half */
169 		for (k = MAX(ms + 1, mem); k < l && n[k] == h[k]; k++)
170 			;
171 		if (k < l) {
172 			h += k - ms;
173 			mem = 0;
174 			continue;
175 		}
176 		/* Compare left half */
177 		for (k = ms + 1; k > mem && n[k - 1] == h[k - 1]; k--)
178 			;
179 		if (k <= mem)
180 			return (char *)h;
181 		h += p;
182 		mem = mem0;
183 	}
184 }
185 
186 void *
187 memmem(const void *h0, size_t k, const void *n0, size_t l)
188 {
189 	const unsigned char *h = h0, *n = n0;
190 
191 	/* Return immediately on empty needle */
192 	if (!l)
193 		return (void *)h;
194 
195 	/* Return immediately when needle is longer than haystack */
196 	if (k < l)
197 		return 0;
198 
199 	/* Use faster algorithms for short needles */
200 	h = memchr(h0, *n, k);
201 	if (!h || l == 1)
202 		return (void *)h;
203 	k -= h - (const unsigned char *)h0;
204 	if (k < l)
205 		return 0;
206 	if (l == 2)
207 		return twobyte_memmem(h, k, n);
208 	if (l == 3)
209 		return threebyte_memmem(h, k, n);
210 	if (l == 4)
211 		return fourbyte_memmem(h, k, n);
212 
213 	return twoway_memmem(h, h + k, n, l);
214 }
215