DPDK  20.05.0
rte_table_hash_func.h
1 /* SPDX-License-Identifier: BSD-3-Clause
2  * Copyright(c) 2010-2018 Intel Corporation
3  */
4 
5 #ifndef __INCLUDE_RTE_TABLE_HASH_FUNC_H__
6 #define __INCLUDE_RTE_TABLE_HASH_FUNC_H__
7 
8 #ifdef __cplusplus
9 extern "C" {
10 #endif
11 
12 #include <stdint.h>
13 
14 #include <rte_compat.h>
15 #include <rte_common.h>
16 
17 __rte_experimental
18 static inline uint64_t
19 rte_crc32_u64_generic(uint64_t crc, uint64_t value)
20 {
21  int i;
22 
23  crc = (crc & 0xFFFFFFFFLLU) ^ value;
24  for (i = 63; i >= 0; i--) {
25  uint64_t mask;
26 
27  mask = -(crc & 1LLU);
28  crc = (crc >> 1LLU) ^ (0x82F63B78LLU & mask);
29  }
30 
31  return crc;
32 }
33 
34 #if defined(RTE_ARCH_X86_64)
35 
36 #include <x86intrin.h>
37 
38 static inline uint64_t
39 rte_crc32_u64(uint64_t crc, uint64_t v)
40 {
41  return _mm_crc32_u64(crc, v);
42 }
43 
44 #elif defined(RTE_ARCH_ARM64) && defined(RTE_MACHINE_CPUFLAG_CRC32)
45 #include "rte_table_hash_func_arm64.h"
46 #else
47 
48 static inline uint64_t
49 rte_crc32_u64(uint64_t crc, uint64_t v)
50 {
51  return rte_crc32_u64_generic(crc, v);
52 }
53 
54 #endif
55 
56 __rte_experimental
57 static inline uint64_t
58 rte_table_hash_crc_key8(void *key, void *mask, __rte_unused uint32_t key_size,
59  uint64_t seed)
60 {
61  uint64_t *k = key;
62  uint64_t *m = mask;
63  uint64_t crc0;
64 
65  crc0 = rte_crc32_u64(seed, k[0] & m[0]);
66 
67  return crc0;
68 }
69 
70 __rte_experimental
71 static inline uint64_t
72 rte_table_hash_crc_key16(void *key, void *mask, __rte_unused uint32_t key_size,
73  uint64_t seed)
74 {
75  uint64_t *k = key;
76  uint64_t *m = mask;
77  uint64_t k0, crc0, crc1;
78 
79  k0 = k[0] & m[0];
80 
81  crc0 = rte_crc32_u64(k0, seed);
82  crc1 = rte_crc32_u64(k0 >> 32, k[1] & m[1]);
83 
84  crc0 ^= crc1;
85 
86  return crc0;
87 }
88 
89 __rte_experimental
90 static inline uint64_t
91 rte_table_hash_crc_key24(void *key, void *mask, __rte_unused uint32_t key_size,
92  uint64_t seed)
93 {
94  uint64_t *k = key;
95  uint64_t *m = mask;
96  uint64_t k0, k2, crc0, crc1;
97 
98  k0 = k[0] & m[0];
99  k2 = k[2] & m[2];
100 
101  crc0 = rte_crc32_u64(k0, seed);
102  crc1 = rte_crc32_u64(k0 >> 32, k[1] & m[1]);
103 
104  crc0 = rte_crc32_u64(crc0, k2);
105 
106  crc0 ^= crc1;
107 
108  return crc0;
109 }
110 
111 __rte_experimental
112 static inline uint64_t
113 rte_table_hash_crc_key32(void *key, void *mask, __rte_unused uint32_t key_size,
114  uint64_t seed)
115 {
116  uint64_t *k = key;
117  uint64_t *m = mask;
118  uint64_t k0, k2, crc0, crc1, crc2, crc3;
119 
120  k0 = k[0] & m[0];
121  k2 = k[2] & m[2];
122 
123  crc0 = rte_crc32_u64(k0, seed);
124  crc1 = rte_crc32_u64(k0 >> 32, k[1] & m[1]);
125 
126  crc2 = rte_crc32_u64(k2, k[3] & m[3]);
127  crc3 = k2 >> 32;
128 
129  crc0 = rte_crc32_u64(crc0, crc1);
130  crc1 = rte_crc32_u64(crc2, crc3);
131 
132  crc0 ^= crc1;
133 
134  return crc0;
135 }
136 
137 __rte_experimental
138 static inline uint64_t
139 rte_table_hash_crc_key40(void *key, void *mask, __rte_unused uint32_t key_size,
140  uint64_t seed)
141 {
142  uint64_t *k = key;
143  uint64_t *m = mask;
144  uint64_t k0, k2, crc0, crc1, crc2, crc3;
145 
146  k0 = k[0] & m[0];
147  k2 = k[2] & m[2];
148 
149  crc0 = rte_crc32_u64(k0, seed);
150  crc1 = rte_crc32_u64(k0 >> 32, k[1] & m[1]);
151 
152  crc2 = rte_crc32_u64(k2, k[3] & m[3]);
153  crc3 = rte_crc32_u64(k2 >> 32, k[4] & m[4]);
154 
155  crc0 = rte_crc32_u64(crc0, crc1);
156  crc1 = rte_crc32_u64(crc2, crc3);
157 
158  crc0 ^= crc1;
159 
160  return crc0;
161 }
162 
163 __rte_experimental
164 static inline uint64_t
165 rte_table_hash_crc_key48(void *key, void *mask, __rte_unused uint32_t key_size,
166  uint64_t seed)
167 {
168  uint64_t *k = key;
169  uint64_t *m = mask;
170  uint64_t k0, k2, k5, crc0, crc1, crc2, crc3;
171 
172  k0 = k[0] & m[0];
173  k2 = k[2] & m[2];
174  k5 = k[5] & m[5];
175 
176  crc0 = rte_crc32_u64(k0, seed);
177  crc1 = rte_crc32_u64(k0 >> 32, k[1] & m[1]);
178 
179  crc2 = rte_crc32_u64(k2, k[3] & m[3]);
180  crc3 = rte_crc32_u64(k2 >> 32, k[4] & m[4]);
181 
182  crc0 = rte_crc32_u64(crc0, (crc1 << 32) ^ crc2);
183  crc1 = rte_crc32_u64(crc3, k5);
184 
185  crc0 ^= crc1;
186 
187  return crc0;
188 }
189 
190 __rte_experimental
191 static inline uint64_t
192 rte_table_hash_crc_key56(void *key, void *mask, __rte_unused uint32_t key_size,
193  uint64_t seed)
194 {
195  uint64_t *k = key;
196  uint64_t *m = mask;
197  uint64_t k0, k2, k5, crc0, crc1, crc2, crc3, crc4, crc5;
198 
199  k0 = k[0] & m[0];
200  k2 = k[2] & m[2];
201  k5 = k[5] & m[5];
202 
203  crc0 = rte_crc32_u64(k0, seed);
204  crc1 = rte_crc32_u64(k0 >> 32, k[1] & m[1]);
205 
206  crc2 = rte_crc32_u64(k2, k[3] & m[3]);
207  crc3 = rte_crc32_u64(k2 >> 32, k[4] & m[4]);
208 
209  crc4 = rte_crc32_u64(k5, k[6] & m[6]);
210  crc5 = k5 >> 32;
211 
212  crc0 = rte_crc32_u64(crc0, (crc1 << 32) ^ crc2);
213  crc1 = rte_crc32_u64(crc3, (crc4 << 32) ^ crc5);
214 
215  crc0 ^= crc1;
216 
217  return crc0;
218 }
219 
220 __rte_experimental
221 static inline uint64_t
222 rte_table_hash_crc_key64(void *key, void *mask, __rte_unused uint32_t key_size,
223  uint64_t seed)
224 {
225  uint64_t *k = key;
226  uint64_t *m = mask;
227  uint64_t k0, k2, k5, crc0, crc1, crc2, crc3, crc4, crc5;
228 
229  k0 = k[0] & m[0];
230  k2 = k[2] & m[2];
231  k5 = k[5] & m[5];
232 
233  crc0 = rte_crc32_u64(k0, seed);
234  crc1 = rte_crc32_u64(k0 >> 32, k[1] & m[1]);
235 
236  crc2 = rte_crc32_u64(k2, k[3] & m[3]);
237  crc3 = rte_crc32_u64(k2 >> 32, k[4] & m[4]);
238 
239  crc4 = rte_crc32_u64(k5, k[6] & m[6]);
240  crc5 = rte_crc32_u64(k5 >> 32, k[7] & m[7]);
241 
242  crc0 = rte_crc32_u64(crc0, (crc1 << 32) ^ crc2);
243  crc1 = rte_crc32_u64(crc3, (crc4 << 32) ^ crc5);
244 
245  crc0 ^= crc1;
246 
247  return crc0;
248 }
249 
250 #ifdef __cplusplus
251 }
252 #endif
253 
254 #endif
#define __rte_unused
Definition: rte_common.h:104