numam-dpdk/lib/acl/acl_run_avx512.c

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/* SPDX-License-Identifier: BSD-3-Clause
* Copyright(c) 2020 Intel Corporation
*/
#include "acl_run_sse.h"
/*sizeof(uint32_t) << ACL_MATCH_LOG == sizeof(struct rte_acl_match_results)*/
#define ACL_MATCH_LOG 5
struct acl_flow_avx512 {
uint32_t num_packets; /* number of packets processed */
uint32_t total_packets; /* max number of packets to process */
uint32_t root_index; /* current root index */
uint32_t first_load_sz; /* first load size for new packet */
const uint64_t *trans; /* transition table */
const uint32_t *data_index; /* input data indexes */
const uint8_t **idata; /* input data */
uint32_t *matches; /* match indexes */
};
static inline void
acl_set_flow_avx512(struct acl_flow_avx512 *flow, const struct rte_acl_ctx *ctx,
uint32_t trie, const uint8_t *data[], uint32_t *matches,
uint32_t total_packets)
{
flow->num_packets = 0;
flow->total_packets = total_packets;
flow->first_load_sz = ctx->first_load_sz;
flow->root_index = ctx->trie[trie].root_index;
flow->trans = ctx->trans_table;
flow->data_index = ctx->trie[trie].data_index;
flow->idata = data;
flow->matches = matches;
}
/*
* Update flow and result masks based on the number of unprocessed flows.
*/
static inline uint32_t
update_flow_mask(const struct acl_flow_avx512 *flow, uint32_t *fmsk,
uint32_t *rmsk)
{
uint32_t i, j, k, m, n;
fmsk[0] ^= rmsk[0];
m = rmsk[0];
k = __builtin_popcount(m);
n = flow->total_packets - flow->num_packets;
if (n < k) {
/* reduce mask */
for (i = k - n; i != 0; i--) {
j = sizeof(m) * CHAR_BIT - 1 - __builtin_clz(m);
m ^= 1 << j;
}
} else
n = k;
rmsk[0] = m;
fmsk[0] |= rmsk[0];
return n;
}
/*
* Resolve matches for multiple categories (LE 8, use 128b instructions/regs)
*/
static inline void
resolve_mcle8_avx512x1(uint32_t result[],
const struct rte_acl_match_results pr[], const uint32_t match[],
uint32_t nb_pkt, uint32_t nb_cat, uint32_t nb_trie)
{
const int32_t *pri;
const uint32_t *pm, *res;
uint32_t i, j, k, mi, mn;
__mmask8 msk;
xmm_t cp, cr, np, nr;
res = pr->results;
pri = pr->priority;
for (k = 0; k != nb_pkt; k++, result += nb_cat) {
mi = match[k] << ACL_MATCH_LOG;
for (j = 0; j != nb_cat; j += RTE_ACL_RESULTS_MULTIPLIER) {
cr = _mm_loadu_si128((const xmm_t *)(res + mi + j));
cp = _mm_loadu_si128((const xmm_t *)(pri + mi + j));
for (i = 1, pm = match + nb_pkt; i != nb_trie;
i++, pm += nb_pkt) {
mn = j + (pm[k] << ACL_MATCH_LOG);
nr = _mm_loadu_si128((const xmm_t *)(res + mn));
np = _mm_loadu_si128((const xmm_t *)(pri + mn));
msk = _mm_cmpgt_epi32_mask(cp, np);
cr = _mm_mask_mov_epi32(nr, msk, cr);
cp = _mm_mask_mov_epi32(np, msk, cp);
}
_mm_storeu_si128((xmm_t *)(result + j), cr);
}
}
}
#include "acl_run_avx512x8.h"
int
rte_acl_classify_avx512x16(const struct rte_acl_ctx *ctx, const uint8_t **data,
uint32_t *results, uint32_t num, uint32_t categories)
{
const uint32_t max_iter = MAX_SEARCHES_AVX16 * MAX_SEARCHES_AVX16;
/* split huge lookup (gt 256) into series of fixed size ones */
while (num > max_iter) {
search_avx512x8x2(ctx, data, results, max_iter, categories);
data += max_iter;
results += max_iter * categories;
num -= max_iter;
}
/* select classify method based on number of remaining requests */
if (num >= MAX_SEARCHES_AVX16)
return search_avx512x8x2(ctx, data, results, num, categories);
if (num >= MAX_SEARCHES_SSE8)
return search_sse_8(ctx, data, results, num, categories);
if (num >= MAX_SEARCHES_SSE4)
return search_sse_4(ctx, data, results, num, categories);
return rte_acl_classify_scalar(ctx, data, results, num, categories);
}
#include "acl_run_avx512x16.h"
int
rte_acl_classify_avx512x32(const struct rte_acl_ctx *ctx, const uint8_t **data,
uint32_t *results, uint32_t num, uint32_t categories)
{
const uint32_t max_iter = MAX_SEARCHES_AVX16 * MAX_SEARCHES_AVX16;
/* split huge lookup (gt 256) into series of fixed size ones */
while (num > max_iter) {
search_avx512x16x2(ctx, data, results, max_iter, categories);
data += max_iter;
results += max_iter * categories;
num -= max_iter;
}
/* select classify method based on number of remaining requests */
if (num >= 2 * MAX_SEARCHES_AVX16)
return search_avx512x16x2(ctx, data, results, num, categories);
if (num >= MAX_SEARCHES_AVX16)
return search_avx512x8x2(ctx, data, results, num, categories);
if (num >= MAX_SEARCHES_SSE8)
return search_sse_8(ctx, data, results, num, categories);
if (num >= MAX_SEARCHES_SSE4)
return search_sse_4(ctx, data, results, num, categories);
return rte_acl_classify_scalar(ctx, data, results, num, categories);
}