66440b7b22
Add the widlcard match/ACL table type for the SWX pipeline, which is used under the hood by the table instruction. Signed-off-by: Cristian Dumitrescu <cristian.dumitrescu@intel.com> Signed-off-by: Churchill Khangar <churchill.khangar@intel.com>
471 lines
9.6 KiB
C
471 lines
9.6 KiB
C
/* SPDX-License-Identifier: BSD-3-Clause
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* Copyright(c) 2020 Intel Corporation
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*/
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#include <stdlib.h>
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#include <string.h>
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#include <stdio.h>
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#include <errno.h>
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#include <rte_common.h>
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#include <rte_prefetch.h>
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#include <rte_cycles.h>
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#include <rte_acl.h>
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#include "rte_swx_table_wm.h"
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#ifndef RTE_SWX_TABLE_EM_USE_HUGE_PAGES
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#define RTE_SWX_TABLE_EM_USE_HUGE_PAGES 1
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#endif
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#if RTE_SWX_TABLE_EM_USE_HUGE_PAGES
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#include <rte_malloc.h>
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static void *
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env_malloc(size_t size, size_t alignment, int numa_node)
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{
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return rte_zmalloc_socket(NULL, size, alignment, numa_node);
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}
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static void
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env_free(void *start, size_t size __rte_unused)
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{
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rte_free(start);
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}
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#else
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#include <numa.h>
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static void *
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env_malloc(size_t size, size_t alignment __rte_unused, int numa_node)
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{
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return numa_alloc_onnode(size, numa_node);
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}
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static void
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env_free(void *start, size_t size)
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{
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numa_free(start, size);
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}
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#endif
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static char *get_unique_name(void)
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{
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char *name;
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uint64_t *tsc;
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name = calloc(7, 1);
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if (!name)
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return NULL;
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tsc = (uint64_t *) name;
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*tsc = rte_get_tsc_cycles();
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return name;
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}
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static uint32_t
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count_entries(struct rte_swx_table_entry_list *entries)
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{
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struct rte_swx_table_entry *entry;
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uint32_t n_entries = 0;
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if (!entries)
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return 0;
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TAILQ_FOREACH(entry, entries, node)
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n_entries++;
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return n_entries;
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}
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static int
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acl_table_cfg_get(struct rte_acl_config *cfg, struct rte_swx_table_params *p)
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{
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uint32_t byte_id = 0, field_id = 0;
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/* cfg->num_categories. */
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cfg->num_categories = 1;
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/* cfg->defs and cfg->num_fields. */
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for (byte_id = 0; byte_id < p->key_size; ) {
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uint32_t field_size = field_id ? 4 : 1;
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uint8_t byte = p->key_mask0 ? p->key_mask0[byte_id] : 0xFF;
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if (!byte) {
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byte_id++;
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continue;
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}
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if (field_id == RTE_ACL_MAX_FIELDS)
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return -1;
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cfg->defs[field_id].type = RTE_ACL_FIELD_TYPE_BITMASK;
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cfg->defs[field_id].size = field_size;
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cfg->defs[field_id].field_index = field_id;
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cfg->defs[field_id].input_index = field_id;
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cfg->defs[field_id].offset = p->key_offset + byte_id;
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field_id++;
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byte_id += field_size;
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}
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if (!field_id)
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return -1;
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cfg->num_fields = field_id;
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/* cfg->max_size. */
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cfg->max_size = 0;
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return 0;
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}
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static void
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acl_table_rule_field8(uint8_t *value,
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uint8_t *mask,
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uint8_t *key_mask0,
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uint8_t *key_mask,
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uint8_t *key,
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uint32_t offset)
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{
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uint8_t km0, km;
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km0 = key_mask0 ? key_mask0[offset] : 0xFF;
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km = key_mask ? key_mask[offset] : 0xFF;
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*value = key[offset];
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*mask = km0 & km;
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}
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static void
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acl_table_rule_field32(uint32_t *value,
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uint32_t *mask,
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uint8_t *key_mask0,
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uint8_t *key_mask,
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uint8_t *key,
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uint32_t key_size,
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uint32_t offset)
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{
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uint32_t km0[4], km[4], k[4];
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uint32_t byte_id;
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/* Byte 0 = MSB, byte 3 = LSB. */
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for (byte_id = 0; byte_id < 4; byte_id++) {
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if (offset + byte_id >= key_size) {
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km0[byte_id] = 0;
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km[byte_id] = 0;
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k[byte_id] = 0;
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continue;
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}
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km0[byte_id] = key_mask0 ? key_mask0[offset + byte_id] : 0xFF;
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km[byte_id] = key_mask ? key_mask[offset + byte_id] : 0xFF;
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k[byte_id] = key[offset + byte_id];
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}
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*value = (k[0] << 24) |
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(k[1] << 16) |
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(k[2] << 8) |
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k[3];
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*mask = ((km[0] & km0[0]) << 24) |
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((km[1] & km0[1]) << 16) |
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((km[2] & km0[2]) << 8) |
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(km[3] & km0[3]);
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}
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RTE_ACL_RULE_DEF(acl_rule, RTE_ACL_MAX_FIELDS);
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static struct rte_acl_rule *
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acl_table_rules_get(struct rte_acl_config *acl_cfg,
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struct rte_swx_table_params *p,
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struct rte_swx_table_entry_list *entries,
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uint32_t n_entries)
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{
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struct rte_swx_table_entry *entry;
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uint8_t *memory;
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uint32_t acl_rule_size = RTE_ACL_RULE_SZ(acl_cfg->num_fields);
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uint32_t n_fields = acl_cfg->num_fields;
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uint32_t rule_id;
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if (!n_entries)
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return NULL;
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memory = malloc(n_entries * acl_rule_size);
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if (!memory)
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return NULL;
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rule_id = 0;
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TAILQ_FOREACH(entry, entries, node) {
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uint8_t *m = &memory[rule_id * acl_rule_size];
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struct acl_rule *acl_rule = (struct acl_rule *)m;
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uint32_t field_id;
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acl_rule->data.category_mask = 1;
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acl_rule->data.priority = RTE_ACL_MAX_PRIORITY -
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entry->key_priority;
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acl_rule->data.userdata = rule_id + 1;
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for (field_id = 0; field_id < n_fields; field_id++) {
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struct rte_acl_field *f = &acl_rule->field[field_id];
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uint32_t size = acl_cfg->defs[field_id].size;
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uint32_t offset = acl_cfg->defs[field_id].offset -
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p->key_offset;
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if (size == 1) {
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uint8_t value, mask;
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acl_table_rule_field8(&value,
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&mask,
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p->key_mask0,
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entry->key_mask,
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entry->key,
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offset);
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f->value.u8 = value;
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f->mask_range.u8 = mask;
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} else {
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uint32_t value, mask;
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acl_table_rule_field32(&value,
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&mask,
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p->key_mask0,
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entry->key_mask,
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entry->key,
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p->key_size,
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offset);
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f->value.u32 = value;
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f->mask_range.u32 = mask;
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}
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}
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rule_id++;
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}
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return (struct rte_acl_rule *)memory;
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}
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/* When the table to be created has no rules, the expected behavior is to always
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* get lookup miss for any input key. To achieve this, we add a single bogus
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* rule to the table with the rule user data set to 0, i.e. the value returned
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* when lookup miss takes place. Whether lookup hit (the bogus rule is hit) or
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* miss, a user data of 0 is returned, which for the ACL library is equivalent
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* to lookup miss.
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*/
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static struct rte_acl_rule *
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acl_table_rules_default_get(struct rte_acl_config *acl_cfg)
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{
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struct rte_acl_rule *acl_rule;
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uint32_t acl_rule_size = RTE_ACL_RULE_SZ(acl_cfg->num_fields);
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acl_rule = calloc(1, acl_rule_size);
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if (!acl_rule)
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return NULL;
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acl_rule->data.category_mask = 1;
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acl_rule->data.priority = RTE_ACL_MAX_PRIORITY;
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acl_rule->data.userdata = 0;
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memset(&acl_rule[1], 0xFF, acl_rule_size - sizeof(struct rte_acl_rule));
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return acl_rule;
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}
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static struct rte_acl_ctx *
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acl_table_create(struct rte_swx_table_params *params,
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struct rte_swx_table_entry_list *entries,
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uint32_t n_entries,
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int numa_node)
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{
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struct rte_acl_param acl_params = {0};
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struct rte_acl_config acl_cfg = {0};
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struct rte_acl_ctx *acl_ctx = NULL;
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struct rte_acl_rule *acl_rules = NULL;
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char *name = NULL;
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int status = 0;
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/* ACL config data structures. */
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name = get_unique_name();
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if (!name) {
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status = -1;
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goto free_resources;
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}
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status = acl_table_cfg_get(&acl_cfg, params);
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if (status)
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goto free_resources;
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acl_rules = n_entries ?
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acl_table_rules_get(&acl_cfg, params, entries, n_entries) :
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acl_table_rules_default_get(&acl_cfg);
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if (!acl_rules) {
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status = -1;
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goto free_resources;
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}
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n_entries = n_entries ? n_entries : 1;
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/* ACL create. */
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acl_params.name = name;
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acl_params.socket_id = numa_node;
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acl_params.rule_size = RTE_ACL_RULE_SZ(acl_cfg.num_fields);
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acl_params.max_rule_num = n_entries;
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acl_ctx = rte_acl_create(&acl_params);
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if (!acl_ctx) {
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status = -1;
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goto free_resources;
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}
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/* ACL add rules. */
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status = rte_acl_add_rules(acl_ctx, acl_rules, n_entries);
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if (status)
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goto free_resources;
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/* ACL build. */
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status = rte_acl_build(acl_ctx, &acl_cfg);
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free_resources:
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if (status && acl_ctx)
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rte_acl_free(acl_ctx);
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free(acl_rules);
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free(name);
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return status ? NULL : acl_ctx;
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}
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static void
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entry_data_copy(uint8_t *data,
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struct rte_swx_table_entry_list *entries,
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uint32_t n_entries,
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uint32_t entry_data_size)
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{
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struct rte_swx_table_entry *entry;
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uint32_t i = 0;
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if (!n_entries)
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return;
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TAILQ_FOREACH(entry, entries, node) {
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uint64_t *d = (uint64_t *)&data[i * entry_data_size];
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d[0] = entry->action_id;
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memcpy(&d[1], entry->action_data, entry_data_size - 8);
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i++;
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}
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}
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struct table {
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struct rte_acl_ctx *acl_ctx;
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uint8_t *data;
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size_t total_size;
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uint32_t entry_data_size;
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};
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static void
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table_free(void *table)
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{
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struct table *t = table;
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if (!t)
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return;
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if (t->acl_ctx)
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rte_acl_free(t->acl_ctx);
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env_free(t, t->total_size);
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}
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static void *
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table_create(struct rte_swx_table_params *params,
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struct rte_swx_table_entry_list *entries,
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const char *args __rte_unused,
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int numa_node)
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{
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struct table *t = NULL;
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size_t meta_sz, data_sz, total_size;
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uint32_t entry_data_size;
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uint32_t n_entries = count_entries(entries);
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/* Check input arguments. */
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if (!params || !params->key_size)
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goto error;
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/* Memory allocation and initialization. */
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entry_data_size = 8 + params->action_data_size;
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meta_sz = sizeof(struct table);
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data_sz = n_entries * entry_data_size;
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total_size = meta_sz + data_sz;
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t = env_malloc(total_size, RTE_CACHE_LINE_SIZE, numa_node);
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if (!t)
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goto error;
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memset(t, 0, total_size);
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t->entry_data_size = entry_data_size;
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t->total_size = total_size;
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t->data = (uint8_t *)&t[1];
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t->acl_ctx = acl_table_create(params, entries, n_entries, numa_node);
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if (!t->acl_ctx)
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goto error;
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entry_data_copy(t->data, entries, n_entries, entry_data_size);
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return t;
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error:
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table_free(t);
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return NULL;
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}
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struct mailbox {
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};
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static uint64_t
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table_mailbox_size_get(void)
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{
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return sizeof(struct mailbox);
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}
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static int
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table_lookup(void *table,
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void *mailbox __rte_unused,
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const uint8_t **key,
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uint64_t *action_id,
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uint8_t **action_data,
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int *hit)
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{
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struct table *t = table;
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uint8_t *data;
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uint32_t user_data;
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rte_acl_classify(t->acl_ctx, key, &user_data, 1, 1);
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if (!user_data) {
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*hit = 0;
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return 1;
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}
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data = &t->data[(user_data - 1) * t->entry_data_size];
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*action_id = ((uint64_t *)data)[0];
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*action_data = &data[8];
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*hit = 1;
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return 1;
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}
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struct rte_swx_table_ops rte_swx_table_wildcard_match_ops = {
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.footprint_get = NULL,
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.mailbox_size_get = table_mailbox_size_get,
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.create = table_create,
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.add = NULL,
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.del = NULL,
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.lkp = (rte_swx_table_lookup_t)table_lookup,
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.free = table_free,
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};
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