1 /* SPDX-License-Identifier: BSD-3-Clause
2 * Copyright(c) 2010-2017 Intel Corporation
8 #include <rte_common.h>
9 #include <rte_malloc.h>
12 #include "rte_table_hash.h"
14 #define KEYS_PER_BUCKET 4
21 uint16_t sig[KEYS_PER_BUCKET];
22 uint32_t key_pos[KEYS_PER_BUCKET];
25 #define BUCKET_NEXT(bucket) \
26 ((void *) ((bucket)->next & (~1LU)))
28 #define BUCKET_NEXT_VALID(bucket) \
29 ((bucket)->next & 1LU)
31 #define BUCKET_NEXT_SET(bucket, bucket_next) \
33 (bucket)->next = (((uintptr_t) ((void *) (bucket_next))) | 1LU);\
36 #define BUCKET_NEXT_SET_NULL(bucket) \
41 #define BUCKET_NEXT_COPY(bucket, bucket2) \
43 (bucket)->next = (bucket2)->next; \
46 #ifdef RTE_TABLE_STATS_COLLECT
48 #define RTE_TABLE_HASH_EXT_STATS_PKTS_IN_ADD(table, val) \
49 table->stats.n_pkts_in += val
50 #define RTE_TABLE_HASH_EXT_STATS_PKTS_LOOKUP_MISS(table, val) \
51 table->stats.n_pkts_lookup_miss += val
55 #define RTE_TABLE_HASH_EXT_STATS_PKTS_IN_ADD(table, val)
56 #define RTE_TABLE_HASH_EXT_STATS_PKTS_LOOKUP_MISS(table, val)
67 struct rte_table_hash {
68 struct rte_table_stats stats;
70 /* Input parameters */
75 uint32_t n_buckets_ext;
76 rte_table_hash_op_hash f_hash;
82 uint32_t key_size_shl;
83 uint32_t data_size_shl;
84 uint32_t key_stack_tos;
85 uint32_t bkt_ext_stack_tos;
88 struct grinder grinders[RTE_PORT_IN_BURST_SIZE_MAX];
92 struct bucket *buckets;
93 struct bucket *buckets_ext;
97 uint32_t *bkt_ext_stack;
100 uint8_t memory[0] __rte_cache_aligned;
104 keycmp(void *a, void *b, void *b_mask, uint32_t n_bytes)
106 uint64_t *a64 = a, *b64 = b, *b_mask64 = b_mask;
109 for (i = 0; i < n_bytes / sizeof(uint64_t); i++)
110 if (a64[i] != (b64[i] & b_mask64[i]))
117 keycpy(void *dst, void *src, void *src_mask, uint32_t n_bytes)
119 uint64_t *dst64 = dst, *src64 = src, *src_mask64 = src_mask;
122 for (i = 0; i < n_bytes / sizeof(uint64_t); i++)
123 dst64[i] = src64[i] & src_mask64[i];
127 check_params_create(struct rte_table_hash_params *params)
130 if (params->name == NULL) {
131 RTE_LOG(ERR, TABLE, "%s: name invalid value\n", __func__);
136 if ((params->key_size < sizeof(uint64_t)) ||
137 (!rte_is_power_of_2(params->key_size))) {
138 RTE_LOG(ERR, TABLE, "%s: key_size invalid value\n", __func__);
143 if (params->n_keys == 0) {
144 RTE_LOG(ERR, TABLE, "%s: n_keys invalid value\n", __func__);
149 if ((params->n_buckets == 0) ||
150 (!rte_is_power_of_2(params->n_buckets))) {
151 RTE_LOG(ERR, TABLE, "%s: n_buckets invalid value\n", __func__);
156 if (params->f_hash == NULL) {
157 RTE_LOG(ERR, TABLE, "%s: f_hash invalid value\n", __func__);
165 rte_table_hash_ext_create(void *params, int socket_id, uint32_t entry_size)
167 struct rte_table_hash_params *p = params;
168 struct rte_table_hash *t;
169 uint64_t table_meta_sz, key_mask_sz, bucket_sz, bucket_ext_sz, key_sz;
170 uint64_t key_stack_sz, bkt_ext_stack_sz, data_sz, total_size;
171 uint64_t key_mask_offset, bucket_offset, bucket_ext_offset, key_offset;
172 uint64_t key_stack_offset, bkt_ext_stack_offset, data_offset;
173 uint32_t n_buckets_ext, i;
175 /* Check input parameters */
176 if ((check_params_create(p) != 0) ||
177 (!rte_is_power_of_2(entry_size)) ||
178 ((sizeof(struct rte_table_hash) % RTE_CACHE_LINE_SIZE) != 0) ||
179 (sizeof(struct bucket) != (RTE_CACHE_LINE_SIZE / 2)))
185 * Objective: Pick the number of bucket extensions (n_buckets_ext) so that
186 * it is guaranteed that n_keys keys can be stored in the table at any time.
188 * The worst case scenario takes place when all the n_keys keys fall into
189 * the same bucket. Actually, due to the KEYS_PER_BUCKET scheme, the worst
190 * case takes place when (n_keys - KEYS_PER_BUCKET + 1) keys fall into the
191 * same bucket, while the remaining (KEYS_PER_BUCKET - 1) keys each fall
192 * into a different bucket. This case defeats the purpose of the hash table.
193 * It indicates unsuitable f_hash or n_keys to n_buckets ratio.
195 * n_buckets_ext = n_keys / KEYS_PER_BUCKET + KEYS_PER_BUCKET - 1
197 n_buckets_ext = p->n_keys / KEYS_PER_BUCKET + KEYS_PER_BUCKET - 1;
199 /* Memory allocation */
200 table_meta_sz = RTE_CACHE_LINE_ROUNDUP(sizeof(struct rte_table_hash));
201 key_mask_sz = RTE_CACHE_LINE_ROUNDUP(p->key_size);
202 bucket_sz = RTE_CACHE_LINE_ROUNDUP(p->n_buckets * sizeof(struct bucket));
204 RTE_CACHE_LINE_ROUNDUP(n_buckets_ext * sizeof(struct bucket));
205 key_sz = RTE_CACHE_LINE_ROUNDUP(p->n_keys * p->key_size);
206 key_stack_sz = RTE_CACHE_LINE_ROUNDUP(p->n_keys * sizeof(uint32_t));
208 RTE_CACHE_LINE_ROUNDUP(n_buckets_ext * sizeof(uint32_t));
209 data_sz = RTE_CACHE_LINE_ROUNDUP(p->n_keys * entry_size);
210 total_size = table_meta_sz + key_mask_sz + bucket_sz + bucket_ext_sz +
211 key_sz + key_stack_sz + bkt_ext_stack_sz + data_sz;
213 if (total_size > SIZE_MAX) {
214 RTE_LOG(ERR, TABLE, "%s: Cannot allocate %" PRIu64 " bytes"
215 " for hash table %s\n",
216 __func__, total_size, p->name);
220 t = rte_zmalloc_socket(p->name,
225 RTE_LOG(ERR, TABLE, "%s: Cannot allocate %" PRIu64 " bytes"
226 " for hash table %s\n",
227 __func__, total_size, p->name);
230 RTE_LOG(INFO, TABLE, "%s (%u-byte key): Hash table %s memory "
231 "footprint is %" PRIu64 " bytes\n",
232 __func__, p->key_size, p->name, total_size);
234 /* Memory initialization */
235 t->key_size = p->key_size;
236 t->entry_size = entry_size;
237 t->n_keys = p->n_keys;
238 t->n_buckets = p->n_buckets;
239 t->n_buckets_ext = n_buckets_ext;
240 t->f_hash = p->f_hash;
242 t->key_offset = p->key_offset;
245 t->bucket_mask = t->n_buckets - 1;
246 t->key_size_shl = __builtin_ctzl(p->key_size);
247 t->data_size_shl = __builtin_ctzl(entry_size);
251 bucket_offset = key_mask_offset + key_mask_sz;
252 bucket_ext_offset = bucket_offset + bucket_sz;
253 key_offset = bucket_ext_offset + bucket_ext_sz;
254 key_stack_offset = key_offset + key_sz;
255 bkt_ext_stack_offset = key_stack_offset + key_stack_sz;
256 data_offset = bkt_ext_stack_offset + bkt_ext_stack_sz;
258 t->key_mask = (uint64_t *) &t->memory[key_mask_offset];
259 t->buckets = (struct bucket *) &t->memory[bucket_offset];
260 t->buckets_ext = (struct bucket *) &t->memory[bucket_ext_offset];
261 t->key_mem = &t->memory[key_offset];
262 t->key_stack = (uint32_t *) &t->memory[key_stack_offset];
263 t->bkt_ext_stack = (uint32_t *) &t->memory[bkt_ext_stack_offset];
264 t->data_mem = &t->memory[data_offset];
267 if (p->key_mask == NULL)
268 memset(t->key_mask, 0xFF, p->key_size);
270 memcpy(t->key_mask, p->key_mask, p->key_size);
273 for (i = 0; i < t->n_keys; i++)
274 t->key_stack[i] = t->n_keys - 1 - i;
275 t->key_stack_tos = t->n_keys;
277 /* Bucket ext stack */
278 for (i = 0; i < t->n_buckets_ext; i++)
279 t->bkt_ext_stack[i] = t->n_buckets_ext - 1 - i;
280 t->bkt_ext_stack_tos = t->n_buckets_ext;
286 rte_table_hash_ext_free(void *table)
288 struct rte_table_hash *t = table;
290 /* Check input parameters */
299 rte_table_hash_ext_entry_add(void *table, void *key, void *entry,
300 int *key_found, void **entry_ptr)
302 struct rte_table_hash *t = table;
303 struct bucket *bkt0, *bkt, *bkt_prev;
305 uint32_t bkt_index, i;
307 sig = t->f_hash(key, t->key_mask, t->key_size, t->seed);
308 bkt_index = sig & t->bucket_mask;
309 bkt0 = &t->buckets[bkt_index];
310 sig = (sig >> 16) | 1LLU;
312 /* Key is present in the bucket */
313 for (bkt = bkt0; bkt != NULL; bkt = BUCKET_NEXT(bkt))
314 for (i = 0; i < KEYS_PER_BUCKET; i++) {
315 uint64_t bkt_sig = (uint64_t) bkt->sig[i];
316 uint32_t bkt_key_index = bkt->key_pos[i];
318 &t->key_mem[bkt_key_index << t->key_size_shl];
320 if ((sig == bkt_sig) && (keycmp(bkt_key, key, t->key_mask,
321 t->key_size) == 0)) {
322 uint8_t *data = &t->data_mem[bkt_key_index <<
325 memcpy(data, entry, t->entry_size);
327 *entry_ptr = (void *) data;
332 /* Key is not present in the bucket */
333 for (bkt_prev = NULL, bkt = bkt0; bkt != NULL; bkt_prev = bkt,
334 bkt = BUCKET_NEXT(bkt))
335 for (i = 0; i < KEYS_PER_BUCKET; i++) {
336 uint64_t bkt_sig = (uint64_t) bkt->sig[i];
339 uint32_t bkt_key_index;
340 uint8_t *bkt_key, *data;
342 /* Allocate new key */
343 if (t->key_stack_tos == 0) /* No free keys */
346 bkt_key_index = t->key_stack[
349 /* Install new key */
350 bkt_key = &t->key_mem[bkt_key_index <<
352 data = &t->data_mem[bkt_key_index <<
355 bkt->sig[i] = (uint16_t) sig;
356 bkt->key_pos[i] = bkt_key_index;
357 keycpy(bkt_key, key, t->key_mask, t->key_size);
358 memcpy(data, entry, t->entry_size);
361 *entry_ptr = (void *) data;
366 /* Bucket full: extend bucket */
367 if ((t->bkt_ext_stack_tos > 0) && (t->key_stack_tos > 0)) {
368 uint32_t bkt_key_index;
369 uint8_t *bkt_key, *data;
371 /* Allocate new bucket ext */
372 bkt_index = t->bkt_ext_stack[--t->bkt_ext_stack_tos];
373 bkt = &t->buckets_ext[bkt_index];
375 /* Chain the new bucket ext */
376 BUCKET_NEXT_SET(bkt_prev, bkt);
377 BUCKET_NEXT_SET_NULL(bkt);
379 /* Allocate new key */
380 bkt_key_index = t->key_stack[--t->key_stack_tos];
381 bkt_key = &t->key_mem[bkt_key_index << t->key_size_shl];
383 data = &t->data_mem[bkt_key_index << t->data_size_shl];
385 /* Install new key into bucket */
386 bkt->sig[0] = (uint16_t) sig;
387 bkt->key_pos[0] = bkt_key_index;
388 keycpy(bkt_key, key, t->key_mask, t->key_size);
389 memcpy(data, entry, t->entry_size);
392 *entry_ptr = (void *) data;
400 rte_table_hash_ext_entry_delete(void *table, void *key, int *key_found,
403 struct rte_table_hash *t = table;
404 struct bucket *bkt0, *bkt, *bkt_prev;
406 uint32_t bkt_index, i;
408 sig = t->f_hash(key, t->key_mask, t->key_size, t->seed);
409 bkt_index = sig & t->bucket_mask;
410 bkt0 = &t->buckets[bkt_index];
411 sig = (sig >> 16) | 1LLU;
413 /* Key is present in the bucket */
414 for (bkt_prev = NULL, bkt = bkt0; bkt != NULL; bkt_prev = bkt,
415 bkt = BUCKET_NEXT(bkt))
416 for (i = 0; i < KEYS_PER_BUCKET; i++) {
417 uint64_t bkt_sig = (uint64_t) bkt->sig[i];
418 uint32_t bkt_key_index = bkt->key_pos[i];
419 uint8_t *bkt_key = &t->key_mem[bkt_key_index <<
422 if ((sig == bkt_sig) && (keycmp(bkt_key, key, t->key_mask,
423 t->key_size) == 0)) {
424 uint8_t *data = &t->data_mem[bkt_key_index <<
427 /* Uninstall key from bucket */
431 memcpy(entry, data, t->entry_size);
434 t->key_stack[t->key_stack_tos++] =
437 /*Check if bucket is unused */
438 if ((bkt_prev != NULL) &&
439 (bkt->sig[0] == 0) && (bkt->sig[1] == 0) &&
440 (bkt->sig[2] == 0) && (bkt->sig[3] == 0)) {
442 BUCKET_NEXT_COPY(bkt_prev, bkt);
445 memset(bkt, 0, sizeof(struct bucket));
447 /* Free bucket back to buckets ext */
448 bkt_index = bkt - t->buckets_ext;
449 t->bkt_ext_stack[t->bkt_ext_stack_tos++]
457 /* Key is not present in the bucket */
462 static int rte_table_hash_ext_lookup_unoptimized(
464 struct rte_mbuf **pkts,
466 uint64_t *lookup_hit_mask,
469 struct rte_table_hash *t = (struct rte_table_hash *) table;
470 uint64_t pkts_mask_out = 0;
472 __rte_unused uint32_t n_pkts_in = __builtin_popcountll(pkts_mask);
474 for ( ; pkts_mask; ) {
475 struct bucket *bkt0, *bkt;
476 struct rte_mbuf *pkt;
478 uint64_t pkt_mask, sig;
479 uint32_t pkt_index, bkt_index, i;
481 pkt_index = __builtin_ctzll(pkts_mask);
482 pkt_mask = 1LLU << pkt_index;
483 pkts_mask &= ~pkt_mask;
485 pkt = pkts[pkt_index];
486 key = RTE_MBUF_METADATA_UINT8_PTR(pkt, t->key_offset);
487 sig = (uint64_t) t->f_hash(key, t->key_mask, t->key_size, t->seed);
489 bkt_index = sig & t->bucket_mask;
490 bkt0 = &t->buckets[bkt_index];
491 sig = (sig >> 16) | 1LLU;
493 /* Key is present in the bucket */
494 for (bkt = bkt0; bkt != NULL; bkt = BUCKET_NEXT(bkt))
495 for (i = 0; i < KEYS_PER_BUCKET; i++) {
496 uint64_t bkt_sig = (uint64_t) bkt->sig[i];
497 uint32_t bkt_key_index = bkt->key_pos[i];
498 uint8_t *bkt_key = &t->key_mem[bkt_key_index <<
501 if ((sig == bkt_sig) && (keycmp(bkt_key, key,
502 t->key_mask, t->key_size) == 0)) {
503 uint8_t *data = &t->data_mem[
504 bkt_key_index << t->data_size_shl];
506 pkts_mask_out |= pkt_mask;
507 entries[pkt_index] = (void *) data;
513 *lookup_hit_mask = pkts_mask_out;
519 * mask = match bitmask
520 * match = at least one match
521 * match_many = more than one match
522 * match_pos = position of first match
524 *----------------------------------------
525 * mask match match_many match_pos
526 *----------------------------------------
531 *----------------------------------------
536 *----------------------------------------
541 *----------------------------------------
546 *----------------------------------------
548 * match = 1111_1111_1111_1110
549 * match_many = 1111_1110_1110_1000
550 * match_pos = 0001_0010_0001_0011__0001_0010_0001_0000
553 * match_many = 0xFEE8LLU
554 * match_pos = 0x12131210LLU
558 #define LUT_MATCH 0xFFFELLU
559 #define LUT_MATCH_MANY 0xFEE8LLU
560 #define LUT_MATCH_POS 0x12131210LLU
562 #define lookup_cmp_sig(mbuf_sig, bucket, match, match_many, match_pos) \
564 uint64_t bucket_sig[4], mask[4], mask_all; \
566 bucket_sig[0] = bucket->sig[0]; \
567 bucket_sig[1] = bucket->sig[1]; \
568 bucket_sig[2] = bucket->sig[2]; \
569 bucket_sig[3] = bucket->sig[3]; \
571 bucket_sig[0] ^= mbuf_sig; \
572 bucket_sig[1] ^= mbuf_sig; \
573 bucket_sig[2] ^= mbuf_sig; \
574 bucket_sig[3] ^= mbuf_sig; \
581 if (bucket_sig[0] == 0) \
583 if (bucket_sig[1] == 0) \
585 if (bucket_sig[2] == 0) \
587 if (bucket_sig[3] == 0) \
590 mask_all = (mask[0] | mask[1]) | (mask[2] | mask[3]); \
592 match = (LUT_MATCH >> mask_all) & 1; \
593 match_many = (LUT_MATCH_MANY >> mask_all) & 1; \
594 match_pos = (LUT_MATCH_POS >> (mask_all << 1)) & 3; \
597 #define lookup_cmp_key(mbuf, key, match_key, f) \
599 uint64_t *pkt_key = RTE_MBUF_METADATA_UINT64_PTR(mbuf, f->key_offset);\
600 uint64_t *bkt_key = (uint64_t *) key; \
601 uint64_t *key_mask = f->key_mask; \
603 switch (f->key_size) { \
606 uint64_t xor = (pkt_key[0] & key_mask[0]) ^ bkt_key[0]; \
615 uint64_t xor[2], or; \
617 xor[0] = (pkt_key[0] & key_mask[0]) ^ bkt_key[0]; \
618 xor[1] = (pkt_key[1] & key_mask[1]) ^ bkt_key[1]; \
619 or = xor[0] | xor[1]; \
628 uint64_t xor[4], or; \
630 xor[0] = (pkt_key[0] & key_mask[0]) ^ bkt_key[0]; \
631 xor[1] = (pkt_key[1] & key_mask[1]) ^ bkt_key[1]; \
632 xor[2] = (pkt_key[2] & key_mask[2]) ^ bkt_key[2]; \
633 xor[3] = (pkt_key[3] & key_mask[3]) ^ bkt_key[3]; \
634 or = xor[0] | xor[1] | xor[2] | xor[3]; \
643 uint64_t xor[8], or; \
645 xor[0] = (pkt_key[0] & key_mask[0]) ^ bkt_key[0]; \
646 xor[1] = (pkt_key[1] & key_mask[1]) ^ bkt_key[1]; \
647 xor[2] = (pkt_key[2] & key_mask[2]) ^ bkt_key[2]; \
648 xor[3] = (pkt_key[3] & key_mask[3]) ^ bkt_key[3]; \
649 xor[4] = (pkt_key[4] & key_mask[4]) ^ bkt_key[4]; \
650 xor[5] = (pkt_key[5] & key_mask[5]) ^ bkt_key[5]; \
651 xor[6] = (pkt_key[6] & key_mask[6]) ^ bkt_key[6]; \
652 xor[7] = (pkt_key[7] & key_mask[7]) ^ bkt_key[7]; \
653 or = xor[0] | xor[1] | xor[2] | xor[3] | \
654 xor[4] | xor[5] | xor[6] | xor[7]; \
663 if (keycmp(bkt_key, pkt_key, key_mask, f->key_size) == 0) \
668 #define lookup2_stage0(t, g, pkts, pkts_mask, pkt00_index, pkt01_index) \
670 uint64_t pkt00_mask, pkt01_mask; \
671 struct rte_mbuf *mbuf00, *mbuf01; \
672 uint32_t key_offset = t->key_offset; \
674 pkt00_index = __builtin_ctzll(pkts_mask); \
675 pkt00_mask = 1LLU << pkt00_index; \
676 pkts_mask &= ~pkt00_mask; \
677 mbuf00 = pkts[pkt00_index]; \
679 pkt01_index = __builtin_ctzll(pkts_mask); \
680 pkt01_mask = 1LLU << pkt01_index; \
681 pkts_mask &= ~pkt01_mask; \
682 mbuf01 = pkts[pkt01_index]; \
684 rte_prefetch0(RTE_MBUF_METADATA_UINT8_PTR(mbuf00, key_offset));\
685 rte_prefetch0(RTE_MBUF_METADATA_UINT8_PTR(mbuf01, key_offset));\
688 #define lookup2_stage0_with_odd_support(t, g, pkts, pkts_mask, pkt00_index, \
691 uint64_t pkt00_mask, pkt01_mask; \
692 struct rte_mbuf *mbuf00, *mbuf01; \
693 uint32_t key_offset = t->key_offset; \
695 pkt00_index = __builtin_ctzll(pkts_mask); \
696 pkt00_mask = 1LLU << pkt00_index; \
697 pkts_mask &= ~pkt00_mask; \
698 mbuf00 = pkts[pkt00_index]; \
700 pkt01_index = __builtin_ctzll(pkts_mask); \
701 if (pkts_mask == 0) \
702 pkt01_index = pkt00_index; \
703 pkt01_mask = 1LLU << pkt01_index; \
704 pkts_mask &= ~pkt01_mask; \
705 mbuf01 = pkts[pkt01_index]; \
707 rte_prefetch0(RTE_MBUF_METADATA_UINT8_PTR(mbuf00, key_offset));\
708 rte_prefetch0(RTE_MBUF_METADATA_UINT8_PTR(mbuf01, key_offset));\
711 #define lookup2_stage1(t, g, pkts, pkt10_index, pkt11_index) \
713 struct grinder *g10, *g11; \
714 uint64_t sig10, sig11, bkt10_index, bkt11_index; \
715 struct rte_mbuf *mbuf10, *mbuf11; \
716 struct bucket *bkt10, *bkt11, *buckets = t->buckets; \
717 uint8_t *key10, *key11; \
718 uint64_t bucket_mask = t->bucket_mask; \
719 rte_table_hash_op_hash f_hash = t->f_hash; \
720 uint64_t seed = t->seed; \
721 uint32_t key_size = t->key_size; \
722 uint32_t key_offset = t->key_offset; \
724 mbuf10 = pkts[pkt10_index]; \
725 key10 = RTE_MBUF_METADATA_UINT8_PTR(mbuf10, key_offset); \
726 sig10 = (uint64_t) f_hash(key10, t->key_mask, key_size, seed); \
727 bkt10_index = sig10 & bucket_mask; \
728 bkt10 = &buckets[bkt10_index]; \
730 mbuf11 = pkts[pkt11_index]; \
731 key11 = RTE_MBUF_METADATA_UINT8_PTR(mbuf11, key_offset); \
732 sig11 = (uint64_t) f_hash(key11, t->key_mask, key_size, seed); \
733 bkt11_index = sig11 & bucket_mask; \
734 bkt11 = &buckets[bkt11_index]; \
736 rte_prefetch0(bkt10); \
737 rte_prefetch0(bkt11); \
739 g10 = &g[pkt10_index]; \
743 g11 = &g[pkt11_index]; \
748 #define lookup2_stage2(t, g, pkt20_index, pkt21_index, pkts_mask_match_many)\
750 struct grinder *g20, *g21; \
751 uint64_t sig20, sig21; \
752 struct bucket *bkt20, *bkt21; \
753 uint8_t *key20, *key21, *key_mem = t->key_mem; \
754 uint64_t match20, match21, match_many20, match_many21; \
755 uint64_t match_pos20, match_pos21; \
756 uint32_t key20_index, key21_index, key_size_shl = t->key_size_shl;\
758 g20 = &g[pkt20_index]; \
761 sig20 = (sig20 >> 16) | 1LLU; \
762 lookup_cmp_sig(sig20, bkt20, match20, match_many20, match_pos20);\
763 match20 <<= pkt20_index; \
764 match_many20 |= BUCKET_NEXT_VALID(bkt20); \
765 match_many20 <<= pkt20_index; \
766 key20_index = bkt20->key_pos[match_pos20]; \
767 key20 = &key_mem[key20_index << key_size_shl]; \
769 g21 = &g[pkt21_index]; \
772 sig21 = (sig21 >> 16) | 1LLU; \
773 lookup_cmp_sig(sig21, bkt21, match21, match_many21, match_pos21);\
774 match21 <<= pkt21_index; \
775 match_many21 |= BUCKET_NEXT_VALID(bkt21); \
776 match_many21 <<= pkt21_index; \
777 key21_index = bkt21->key_pos[match_pos21]; \
778 key21 = &key_mem[key21_index << key_size_shl]; \
780 rte_prefetch0(key20); \
781 rte_prefetch0(key21); \
783 pkts_mask_match_many |= match_many20 | match_many21; \
785 g20->match = match20; \
786 g20->key_index = key20_index; \
788 g21->match = match21; \
789 g21->key_index = key21_index; \
792 #define lookup2_stage3(t, g, pkts, pkt30_index, pkt31_index, pkts_mask_out, \
795 struct grinder *g30, *g31; \
796 struct rte_mbuf *mbuf30, *mbuf31; \
797 uint8_t *key30, *key31, *key_mem = t->key_mem; \
798 uint8_t *data30, *data31, *data_mem = t->data_mem; \
799 uint64_t match30, match31, match_key30, match_key31, match_keys;\
800 uint32_t key30_index, key31_index; \
801 uint32_t key_size_shl = t->key_size_shl; \
802 uint32_t data_size_shl = t->data_size_shl; \
804 mbuf30 = pkts[pkt30_index]; \
805 g30 = &g[pkt30_index]; \
806 match30 = g30->match; \
807 key30_index = g30->key_index; \
808 key30 = &key_mem[key30_index << key_size_shl]; \
809 lookup_cmp_key(mbuf30, key30, match_key30, t); \
810 match_key30 <<= pkt30_index; \
811 match_key30 &= match30; \
812 data30 = &data_mem[key30_index << data_size_shl]; \
813 entries[pkt30_index] = data30; \
815 mbuf31 = pkts[pkt31_index]; \
816 g31 = &g[pkt31_index]; \
817 match31 = g31->match; \
818 key31_index = g31->key_index; \
819 key31 = &key_mem[key31_index << key_size_shl]; \
820 lookup_cmp_key(mbuf31, key31, match_key31, t); \
821 match_key31 <<= pkt31_index; \
822 match_key31 &= match31; \
823 data31 = &data_mem[key31_index << data_size_shl]; \
824 entries[pkt31_index] = data31; \
826 rte_prefetch0(data30); \
827 rte_prefetch0(data31); \
829 match_keys = match_key30 | match_key31; \
830 pkts_mask_out |= match_keys; \
834 * The lookup function implements a 4-stage pipeline, with each stage processing
835 * two different packets. The purpose of pipelined implementation is to hide the
836 * latency of prefetching the data structures and loosen the data dependency
837 * between instructions.
839 * p00 _______ p10 _______ p20 _______ p30 _______
840 *----->| |----->| |----->| |----->| |----->
841 * | 0 | | 1 | | 2 | | 3 |
842 *----->|_______|----->|_______|----->|_______|----->|_______|----->
845 * The naming convention is:
846 * pXY = packet Y of stage X, X = 0 .. 3, Y = 0 .. 1
849 static int rte_table_hash_ext_lookup(
851 struct rte_mbuf **pkts,
853 uint64_t *lookup_hit_mask,
856 struct rte_table_hash *t = (struct rte_table_hash *) table;
857 struct grinder *g = t->grinders;
858 uint64_t pkt00_index, pkt01_index, pkt10_index, pkt11_index;
859 uint64_t pkt20_index, pkt21_index, pkt30_index, pkt31_index;
860 uint64_t pkts_mask_out = 0, pkts_mask_match_many = 0;
863 __rte_unused uint32_t n_pkts_in = __builtin_popcountll(pkts_mask);
864 RTE_TABLE_HASH_EXT_STATS_PKTS_IN_ADD(t, n_pkts_in);
866 /* Cannot run the pipeline with less than 7 packets */
867 if (__builtin_popcountll(pkts_mask) < 7) {
868 status = rte_table_hash_ext_lookup_unoptimized(table, pkts,
869 pkts_mask, lookup_hit_mask, entries);
870 RTE_TABLE_HASH_EXT_STATS_PKTS_LOOKUP_MISS(t, n_pkts_in -
871 __builtin_popcountll(*lookup_hit_mask));
875 /* Pipeline stage 0 */
876 lookup2_stage0(t, g, pkts, pkts_mask, pkt00_index, pkt01_index);
879 pkt10_index = pkt00_index;
880 pkt11_index = pkt01_index;
882 /* Pipeline stage 0 */
883 lookup2_stage0(t, g, pkts, pkts_mask, pkt00_index, pkt01_index);
885 /* Pipeline stage 1 */
886 lookup2_stage1(t, g, pkts, pkt10_index, pkt11_index);
889 pkt20_index = pkt10_index;
890 pkt21_index = pkt11_index;
891 pkt10_index = pkt00_index;
892 pkt11_index = pkt01_index;
894 /* Pipeline stage 0 */
895 lookup2_stage0(t, g, pkts, pkts_mask, pkt00_index, pkt01_index);
897 /* Pipeline stage 1 */
898 lookup2_stage1(t, g, pkts, pkt10_index, pkt11_index);
900 /* Pipeline stage 2 */
901 lookup2_stage2(t, g, pkt20_index, pkt21_index, pkts_mask_match_many);
907 for ( ; pkts_mask; ) {
909 pkt30_index = pkt20_index;
910 pkt31_index = pkt21_index;
911 pkt20_index = pkt10_index;
912 pkt21_index = pkt11_index;
913 pkt10_index = pkt00_index;
914 pkt11_index = pkt01_index;
916 /* Pipeline stage 0 */
917 lookup2_stage0_with_odd_support(t, g, pkts, pkts_mask,
918 pkt00_index, pkt01_index);
920 /* Pipeline stage 1 */
921 lookup2_stage1(t, g, pkts, pkt10_index, pkt11_index);
923 /* Pipeline stage 2 */
924 lookup2_stage2(t, g, pkt20_index, pkt21_index,
925 pkts_mask_match_many);
927 /* Pipeline stage 3 */
928 lookup2_stage3(t, g, pkts, pkt30_index, pkt31_index,
929 pkts_mask_out, entries);
933 pkt30_index = pkt20_index;
934 pkt31_index = pkt21_index;
935 pkt20_index = pkt10_index;
936 pkt21_index = pkt11_index;
937 pkt10_index = pkt00_index;
938 pkt11_index = pkt01_index;
940 /* Pipeline stage 1 */
941 lookup2_stage1(t, g, pkts, pkt10_index, pkt11_index);
943 /* Pipeline stage 2 */
944 lookup2_stage2(t, g, pkt20_index, pkt21_index, pkts_mask_match_many);
946 /* Pipeline stage 3 */
947 lookup2_stage3(t, g, pkts, pkt30_index, pkt31_index, pkts_mask_out,
951 pkt30_index = pkt20_index;
952 pkt31_index = pkt21_index;
953 pkt20_index = pkt10_index;
954 pkt21_index = pkt11_index;
956 /* Pipeline stage 2 */
957 lookup2_stage2(t, g, pkt20_index, pkt21_index, pkts_mask_match_many);
959 /* Pipeline stage 3 */
960 lookup2_stage3(t, g, pkts, pkt30_index, pkt31_index, pkts_mask_out,
964 pkt30_index = pkt20_index;
965 pkt31_index = pkt21_index;
967 /* Pipeline stage 3 */
968 lookup2_stage3(t, g, pkts, pkt30_index, pkt31_index, pkts_mask_out,
972 pkts_mask_match_many &= ~pkts_mask_out;
973 if (pkts_mask_match_many) {
974 uint64_t pkts_mask_out_slow = 0;
976 status = rte_table_hash_ext_lookup_unoptimized(table, pkts,
977 pkts_mask_match_many, &pkts_mask_out_slow, entries);
978 pkts_mask_out |= pkts_mask_out_slow;
981 *lookup_hit_mask = pkts_mask_out;
982 RTE_TABLE_HASH_EXT_STATS_PKTS_LOOKUP_MISS(t, n_pkts_in - __builtin_popcountll(pkts_mask_out));
987 rte_table_hash_ext_stats_read(void *table, struct rte_table_stats *stats, int clear)
989 struct rte_table_hash *t = table;
992 memcpy(stats, &t->stats, sizeof(t->stats));
995 memset(&t->stats, 0, sizeof(t->stats));
1000 struct rte_table_ops rte_table_hash_ext_ops = {
1001 .f_create = rte_table_hash_ext_create,
1002 .f_free = rte_table_hash_ext_free,
1003 .f_add = rte_table_hash_ext_entry_add,
1004 .f_delete = rte_table_hash_ext_entry_delete,
1006 .f_delete_bulk = NULL,
1007 .f_lookup = rte_table_hash_ext_lookup,
1008 .f_stats = rte_table_hash_ext_stats_read,