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1 #ifndef JEMALLOC_INTERNAL_HASH_H
2 #define JEMALLOC_INTERNAL_HASH_H
3 
4 #include "jemalloc/internal/assert.h"
5 
6 /*
7  * The following hash function is based on MurmurHash3, placed into the public
8  * domain by Austin Appleby.  See https://github.com/aappleby/smhasher for
9  * details.
10  */
11 
12 /******************************************************************************/
13 /* Internal implementation. */
14 static inline uint32_t
hash_rotl_32(uint32_t x,int8_t r)15 hash_rotl_32(uint32_t x, int8_t r) {
16 	return ((x << r) | (x >> (32 - r)));
17 }
18 
19 static inline uint64_t
hash_rotl_64(uint64_t x,int8_t r)20 hash_rotl_64(uint64_t x, int8_t r) {
21 	return ((x << r) | (x >> (64 - r)));
22 }
23 
24 static inline uint32_t
hash_get_block_32(const uint32_t * p,int i)25 hash_get_block_32(const uint32_t *p, int i) {
26 	/* Handle unaligned read. */
27 	if (unlikely((uintptr_t)p & (sizeof(uint32_t)-1)) != 0) {
28 		uint32_t ret;
29 
30 		memcpy(&ret, (uint8_t *)(p + i), sizeof(uint32_t));
31 		return ret;
32 	}
33 
34 	return p[i];
35 }
36 
37 static inline uint64_t
hash_get_block_64(const uint64_t * p,int i)38 hash_get_block_64(const uint64_t *p, int i) {
39 	/* Handle unaligned read. */
40 	if (unlikely((uintptr_t)p & (sizeof(uint64_t)-1)) != 0) {
41 		uint64_t ret;
42 
43 		memcpy(&ret, (uint8_t *)(p + i), sizeof(uint64_t));
44 		return ret;
45 	}
46 
47 	return p[i];
48 }
49 
50 static inline uint32_t
hash_fmix_32(uint32_t h)51 hash_fmix_32(uint32_t h) {
52 	h ^= h >> 16;
53 	h *= 0x85ebca6b;
54 	h ^= h >> 13;
55 	h *= 0xc2b2ae35;
56 	h ^= h >> 16;
57 
58 	return h;
59 }
60 
61 static inline uint64_t
hash_fmix_64(uint64_t k)62 hash_fmix_64(uint64_t k) {
63 	k ^= k >> 33;
64 	k *= KQU(0xff51afd7ed558ccd);
65 	k ^= k >> 33;
66 	k *= KQU(0xc4ceb9fe1a85ec53);
67 	k ^= k >> 33;
68 
69 	return k;
70 }
71 
72 static inline uint32_t
hash_x86_32(const void * key,int len,uint32_t seed)73 hash_x86_32(const void *key, int len, uint32_t seed) {
74 	const uint8_t *data = (const uint8_t *) key;
75 	const int nblocks = len / 4;
76 
77 	uint32_t h1 = seed;
78 
79 	const uint32_t c1 = 0xcc9e2d51;
80 	const uint32_t c2 = 0x1b873593;
81 
82 	/* body */
83 	{
84 		const uint32_t *blocks = (const uint32_t *) (data + nblocks*4);
85 		int i;
86 
87 		for (i = -nblocks; i; i++) {
88 			uint32_t k1 = hash_get_block_32(blocks, i);
89 
90 			k1 *= c1;
91 			k1 = hash_rotl_32(k1, 15);
92 			k1 *= c2;
93 
94 			h1 ^= k1;
95 			h1 = hash_rotl_32(h1, 13);
96 			h1 = h1*5 + 0xe6546b64;
97 		}
98 	}
99 
100 	/* tail */
101 	{
102 		const uint8_t *tail = (const uint8_t *) (data + nblocks*4);
103 
104 		uint32_t k1 = 0;
105 
106 		switch (len & 3) {
107 		case 3: k1 ^= tail[2] << 16;
108 		case 2: k1 ^= tail[1] << 8;
109 		case 1: k1 ^= tail[0]; k1 *= c1; k1 = hash_rotl_32(k1, 15);
110 			k1 *= c2; h1 ^= k1;
111 		}
112 	}
113 
114 	/* finalization */
115 	h1 ^= len;
116 
117 	h1 = hash_fmix_32(h1);
118 
119 	return h1;
120 }
121 
122 UNUSED static inline void
hash_x86_128(const void * key,const int len,uint32_t seed,uint64_t r_out[2])123 hash_x86_128(const void *key, const int len, uint32_t seed,
124     uint64_t r_out[2]) {
125 	const uint8_t * data = (const uint8_t *) key;
126 	const int nblocks = len / 16;
127 
128 	uint32_t h1 = seed;
129 	uint32_t h2 = seed;
130 	uint32_t h3 = seed;
131 	uint32_t h4 = seed;
132 
133 	const uint32_t c1 = 0x239b961b;
134 	const uint32_t c2 = 0xab0e9789;
135 	const uint32_t c3 = 0x38b34ae5;
136 	const uint32_t c4 = 0xa1e38b93;
137 
138 	/* body */
139 	{
140 		const uint32_t *blocks = (const uint32_t *) (data + nblocks*16);
141 		int i;
142 
143 		for (i = -nblocks; i; i++) {
144 			uint32_t k1 = hash_get_block_32(blocks, i*4 + 0);
145 			uint32_t k2 = hash_get_block_32(blocks, i*4 + 1);
146 			uint32_t k3 = hash_get_block_32(blocks, i*4 + 2);
147 			uint32_t k4 = hash_get_block_32(blocks, i*4 + 3);
148 
149 			k1 *= c1; k1 = hash_rotl_32(k1, 15); k1 *= c2; h1 ^= k1;
150 
151 			h1 = hash_rotl_32(h1, 19); h1 += h2;
152 			h1 = h1*5 + 0x561ccd1b;
153 
154 			k2 *= c2; k2 = hash_rotl_32(k2, 16); k2 *= c3; h2 ^= k2;
155 
156 			h2 = hash_rotl_32(h2, 17); h2 += h3;
157 			h2 = h2*5 + 0x0bcaa747;
158 
159 			k3 *= c3; k3 = hash_rotl_32(k3, 17); k3 *= c4; h3 ^= k3;
160 
161 			h3 = hash_rotl_32(h3, 15); h3 += h4;
162 			h3 = h3*5 + 0x96cd1c35;
163 
164 			k4 *= c4; k4 = hash_rotl_32(k4, 18); k4 *= c1; h4 ^= k4;
165 
166 			h4 = hash_rotl_32(h4, 13); h4 += h1;
167 			h4 = h4*5 + 0x32ac3b17;
168 		}
169 	}
170 
171 	/* tail */
172 	{
173 		const uint8_t *tail = (const uint8_t *) (data + nblocks*16);
174 		uint32_t k1 = 0;
175 		uint32_t k2 = 0;
176 		uint32_t k3 = 0;
177 		uint32_t k4 = 0;
178 
179 		switch (len & 15) {
180 		case 15: k4 ^= tail[14] << 16;
181 		case 14: k4 ^= tail[13] << 8;
182 		case 13: k4 ^= tail[12] << 0;
183 			k4 *= c4; k4 = hash_rotl_32(k4, 18); k4 *= c1; h4 ^= k4;
184 
185 		case 12: k3 ^= tail[11] << 24;
186 		case 11: k3 ^= tail[10] << 16;
187 		case 10: k3 ^= tail[ 9] << 8;
188 		case  9: k3 ^= tail[ 8] << 0;
189 		     k3 *= c3; k3 = hash_rotl_32(k3, 17); k3 *= c4; h3 ^= k3;
190 
191 		case  8: k2 ^= tail[ 7] << 24;
192 		case  7: k2 ^= tail[ 6] << 16;
193 		case  6: k2 ^= tail[ 5] << 8;
194 		case  5: k2 ^= tail[ 4] << 0;
195 			k2 *= c2; k2 = hash_rotl_32(k2, 16); k2 *= c3; h2 ^= k2;
196 
197 		case  4: k1 ^= tail[ 3] << 24;
198 		case  3: k1 ^= tail[ 2] << 16;
199 		case  2: k1 ^= tail[ 1] << 8;
200 		case  1: k1 ^= tail[ 0] << 0;
201 			k1 *= c1; k1 = hash_rotl_32(k1, 15); k1 *= c2; h1 ^= k1;
202 		}
203 	}
204 
205 	/* finalization */
206 	h1 ^= len; h2 ^= len; h3 ^= len; h4 ^= len;
207 
208 	h1 += h2; h1 += h3; h1 += h4;
209 	h2 += h1; h3 += h1; h4 += h1;
210 
211 	h1 = hash_fmix_32(h1);
212 	h2 = hash_fmix_32(h2);
213 	h3 = hash_fmix_32(h3);
214 	h4 = hash_fmix_32(h4);
215 
216 	h1 += h2; h1 += h3; h1 += h4;
217 	h2 += h1; h3 += h1; h4 += h1;
218 
219 	r_out[0] = (((uint64_t) h2) << 32) | h1;
220 	r_out[1] = (((uint64_t) h4) << 32) | h3;
221 }
222 
223 UNUSED static inline void
hash_x64_128(const void * key,const int len,const uint32_t seed,uint64_t r_out[2])224 hash_x64_128(const void *key, const int len, const uint32_t seed,
225     uint64_t r_out[2]) {
226 	const uint8_t *data = (const uint8_t *) key;
227 	const int nblocks = len / 16;
228 
229 	uint64_t h1 = seed;
230 	uint64_t h2 = seed;
231 
232 	const uint64_t c1 = KQU(0x87c37b91114253d5);
233 	const uint64_t c2 = KQU(0x4cf5ad432745937f);
234 
235 	/* body */
236 	{
237 		const uint64_t *blocks = (const uint64_t *) (data);
238 		int i;
239 
240 		for (i = 0; i < nblocks; i++) {
241 			uint64_t k1 = hash_get_block_64(blocks, i*2 + 0);
242 			uint64_t k2 = hash_get_block_64(blocks, i*2 + 1);
243 
244 			k1 *= c1; k1 = hash_rotl_64(k1, 31); k1 *= c2; h1 ^= k1;
245 
246 			h1 = hash_rotl_64(h1, 27); h1 += h2;
247 			h1 = h1*5 + 0x52dce729;
248 
249 			k2 *= c2; k2 = hash_rotl_64(k2, 33); k2 *= c1; h2 ^= k2;
250 
251 			h2 = hash_rotl_64(h2, 31); h2 += h1;
252 			h2 = h2*5 + 0x38495ab5;
253 		}
254 	}
255 
256 	/* tail */
257 	{
258 		const uint8_t *tail = (const uint8_t*)(data + nblocks*16);
259 		uint64_t k1 = 0;
260 		uint64_t k2 = 0;
261 
262 		switch (len & 15) {
263 		case 15: k2 ^= ((uint64_t)(tail[14])) << 48; /* falls through */
264 		case 14: k2 ^= ((uint64_t)(tail[13])) << 40; /* falls through */
265 		case 13: k2 ^= ((uint64_t)(tail[12])) << 32; /* falls through */
266 		case 12: k2 ^= ((uint64_t)(tail[11])) << 24; /* falls through */
267 		case 11: k2 ^= ((uint64_t)(tail[10])) << 16; /* falls through */
268 		case 10: k2 ^= ((uint64_t)(tail[ 9])) << 8;  /* falls through */
269 		case  9: k2 ^= ((uint64_t)(tail[ 8])) << 0;
270 			k2 *= c2; k2 = hash_rotl_64(k2, 33); k2 *= c1; h2 ^= k2;
271 			/* falls through */
272 		case  8: k1 ^= ((uint64_t)(tail[ 7])) << 56; /* falls through */
273 		case  7: k1 ^= ((uint64_t)(tail[ 6])) << 48; /* falls through */
274 		case  6: k1 ^= ((uint64_t)(tail[ 5])) << 40; /* falls through */
275 		case  5: k1 ^= ((uint64_t)(tail[ 4])) << 32; /* falls through */
276 		case  4: k1 ^= ((uint64_t)(tail[ 3])) << 24; /* falls through */
277 		case  3: k1 ^= ((uint64_t)(tail[ 2])) << 16; /* falls through */
278 		case  2: k1 ^= ((uint64_t)(tail[ 1])) << 8;  /* falls through */
279 		case  1: k1 ^= ((uint64_t)(tail[ 0])) << 0;
280 			k1 *= c1; k1 = hash_rotl_64(k1, 31); k1 *= c2; h1 ^= k1;
281 		}
282 	}
283 
284 	/* finalization */
285 	h1 ^= len; h2 ^= len;
286 
287 	h1 += h2;
288 	h2 += h1;
289 
290 	h1 = hash_fmix_64(h1);
291 	h2 = hash_fmix_64(h2);
292 
293 	h1 += h2;
294 	h2 += h1;
295 
296 	r_out[0] = h1;
297 	r_out[1] = h2;
298 }
299 
300 /******************************************************************************/
301 /* API. */
302 static inline void
hash(const void * key,size_t len,const uint32_t seed,size_t r_hash[2])303 hash(const void *key, size_t len, const uint32_t seed, size_t r_hash[2]) {
304 	assert(len <= INT_MAX); /* Unfortunate implementation limitation. */
305 
306 #if (LG_SIZEOF_PTR == 3 && !defined(JEMALLOC_BIG_ENDIAN))
307 	hash_x64_128(key, (int)len, seed, (uint64_t *)r_hash);
308 #else
309 	{
310 		uint64_t hashes[2];
311 		hash_x86_128(key, (int)len, seed, hashes);
312 		r_hash[0] = (size_t)hashes[0];
313 		r_hash[1] = (size_t)hashes[1];
314 	}
315 #endif
316 }
317 
318 #endif /* JEMALLOC_INTERNAL_HASH_H */
319