numam-dpdk/lib/acl/acl.h

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/* SPDX-License-Identifier: BSD-3-Clause
* Copyright(c) 2010-2014 Intel Corporation
*/
#ifndef _ACL_H_
#define _ACL_H_
#ifdef __cplusplus
extern"C" {
#endif /* __cplusplus */
#define RTE_ACL_QUAD_MAX 5
#define RTE_ACL_QUAD_SIZE 4
#define RTE_ACL_QUAD_SINGLE UINT64_C(0x7f7f7f7f00000000)
#define RTE_ACL_SINGLE_TRIE_SIZE 2000
#define RTE_ACL_DFA_MAX UINT8_MAX
#define RTE_ACL_DFA_SIZE (UINT8_MAX + 1)
#define RTE_ACL_DFA_GR64_SIZE 64
#define RTE_ACL_DFA_GR64_NUM (RTE_ACL_DFA_SIZE / RTE_ACL_DFA_GR64_SIZE)
#define RTE_ACL_DFA_GR64_BIT \
(CHAR_BIT * sizeof(uint32_t) / RTE_ACL_DFA_GR64_NUM)
typedef int bits_t;
#define RTE_ACL_BIT_SET_SIZE ((UINT8_MAX + 1) / (sizeof(bits_t) * CHAR_BIT))
struct rte_acl_bitset {
bits_t bits[RTE_ACL_BIT_SET_SIZE];
};
#define RTE_ACL_NODE_DFA (0 << RTE_ACL_TYPE_SHIFT)
#define RTE_ACL_NODE_SINGLE (1U << RTE_ACL_TYPE_SHIFT)
#define RTE_ACL_NODE_QRANGE (3U << RTE_ACL_TYPE_SHIFT)
#define RTE_ACL_NODE_MATCH (4U << RTE_ACL_TYPE_SHIFT)
#define RTE_ACL_NODE_TYPE (7U << RTE_ACL_TYPE_SHIFT)
#define RTE_ACL_NODE_UNDEFINED UINT32_MAX
/*
* ACL RT structure is a set of multibit tries (with stride == 8)
* represented by an array of transitions. The next position is calculated
* based on the current position and the input byte.
* Each transition is 64 bit value with the following format:
* | node_type_specific : 32 | node_type : 3 | node_addr : 29 |
* For all node types except RTE_ACL_NODE_MATCH, node_addr is an index
* to the start of the node in the transitions array.
* Few different node types are used:
* RTE_ACL_NODE_MATCH:
* node_addr value is and index into an array that contains the return value
* and its priority for each category.
* Upper 32 bits of the transition value are not used for that node type.
* RTE_ACL_NODE_QRANGE:
* that node consist of up to 5 transitions.
* Upper 32 bits are interpreted as 4 signed character values which
* are ordered from smallest(INT8_MIN) to largest (INT8_MAX).
* These values define 5 ranges:
* INT8_MIN <= range[0] <= ((int8_t *)&transition)[4]
* ((int8_t *)&transition)[4] < range[1] <= ((int8_t *)&transition)[5]
* ((int8_t *)&transition)[5] < range[2] <= ((int8_t *)&transition)[6]
* ((int8_t *)&transition)[6] < range[3] <= ((int8_t *)&transition)[7]
* ((int8_t *)&transition)[7] < range[4] <= INT8_MAX
* So for input byte value within range[i] i-th transition within that node
* will be used.
* RTE_ACL_NODE_SINGLE:
* always transitions to the same node regardless of the input value.
* RTE_ACL_NODE_DFA:
* that node consists of up to 256 transitions.
* In attempt to conserve space all transitions are divided into 4 consecutive
* groups, by 64 transitions per group:
* group64[i] contains transitions[i * 64, .. i * 64 + 63].
* Upper 32 bits are interpreted as 4 unsigned character values one per group,
* which contain index to the start of the given group within the node.
* So to calculate transition index within the node for given input byte value:
* input_byte - ((uint8_t *)&transition)[4 + input_byte / 64].
*/
/*
* Each ACL RT contains an idle nomatch node:
* a SINGLE node at predefined position (RTE_ACL_DFA_SIZE)
* that points to itself.
*/
#define RTE_ACL_IDLE_NODE (RTE_ACL_DFA_SIZE | RTE_ACL_NODE_SINGLE)
/*
* Structure of a node is a set of ptrs and each ptr has a bit map
* of values associated with this transition.
*/
struct rte_acl_ptr_set {
struct rte_acl_bitset values; /* input values associated with ptr */
struct rte_acl_node *ptr; /* transition to next node */
};
struct rte_acl_classifier_results {
int results[RTE_ACL_MAX_CATEGORIES];
};
struct rte_acl_match_results {
uint32_t results[RTE_ACL_MAX_CATEGORIES];
int32_t priority[RTE_ACL_MAX_CATEGORIES];
};
struct rte_acl_node {
uint64_t node_index; /* index for this node */
uint32_t level; /* level 0-n in the trie */
uint32_t ref_count; /* ref count for this node */
struct rte_acl_bitset values;
/* set of all values that map to another node
* (union of bits in each transition.
*/
uint32_t num_ptrs; /* number of ptr_set in use */
uint32_t max_ptrs; /* number of allocated ptr_set */
uint32_t min_add; /* number of ptr_set per allocation */
struct rte_acl_ptr_set *ptrs; /* transitions array for this node */
int32_t match_flag;
int32_t match_index; /* index to match data */
uint32_t node_type;
int32_t fanout;
/* number of ranges (transitions w/ consecutive bits) */
int32_t id;
struct rte_acl_match_results *mrt; /* only valid when match_flag != 0 */
union {
char transitions[RTE_ACL_QUAD_SIZE];
/* boundaries for ranged node */
uint8_t dfa_gr64[RTE_ACL_DFA_GR64_NUM];
};
struct rte_acl_node *next;
/* free list link or pointer to duplicate node during merge */
struct rte_acl_node *prev;
/* points to node from which this node was duplicated */
};
/*
* Types of tries used to generate runtime structure(s)
*/
enum {
RTE_ACL_FULL_TRIE = 0,
RTE_ACL_NOSRC_TRIE = 1,
RTE_ACL_NODST_TRIE = 2,
RTE_ACL_NOPORTS_TRIE = 4,
RTE_ACL_NOVLAN_TRIE = 8,
RTE_ACL_UNUSED_TRIE = 0x80000000
};
/** MAX number of tries per one ACL context.*/
#define RTE_ACL_MAX_TRIES 8
/** Max number of characters in PM name.*/
#define RTE_ACL_NAMESIZE 32
struct rte_acl_trie {
uint32_t type;
uint32_t count;
uint32_t root_index;
const uint32_t *data_index;
uint32_t num_data_indexes;
};
struct rte_acl_bld_trie {
struct rte_acl_node *trie;
};
struct rte_acl_ctx {
char name[RTE_ACL_NAMESIZE];
/** Name of the ACL context. */
int32_t socket_id;
/** Socket ID to allocate memory from. */
enum rte_acl_classify_alg alg;
uint32_t first_load_sz;
void *rules;
uint32_t max_rules;
uint32_t rule_sz;
uint32_t num_rules;
uint32_t num_categories;
uint32_t num_tries;
uint32_t match_index;
uint64_t no_match;
uint64_t idle;
uint64_t *trans_table;
uint32_t *data_indexes;
struct rte_acl_trie trie[RTE_ACL_MAX_TRIES];
void *mem;
size_t mem_sz;
struct rte_acl_config config; /* copy of build config. */
};
int rte_acl_gen(struct rte_acl_ctx *ctx, struct rte_acl_trie *trie,
struct rte_acl_bld_trie *node_bld_trie, uint32_t num_tries,
uint32_t num_categories, uint32_t data_index_sz, size_t max_size);
typedef int (*rte_acl_classify_t)
(const struct rte_acl_ctx *, const uint8_t **, uint32_t *, uint32_t, uint32_t);
/*
* Different implementations of ACL classify.
*/
int
rte_acl_classify_scalar(const struct rte_acl_ctx *ctx, const uint8_t **data,
uint32_t *results, uint32_t num, uint32_t categories);
int
rte_acl_classify_sse(const struct rte_acl_ctx *ctx, const uint8_t **data,
uint32_t *results, uint32_t num, uint32_t categories);
int
rte_acl_classify_avx2(const struct rte_acl_ctx *ctx, const uint8_t **data,
uint32_t *results, uint32_t num, uint32_t categories);
int
rte_acl_classify_avx512x16(const struct rte_acl_ctx *ctx, const uint8_t **data,
uint32_t *results, uint32_t num, uint32_t categories);
int
rte_acl_classify_avx512x32(const struct rte_acl_ctx *ctx, const uint8_t **data,
uint32_t *results, uint32_t num, uint32_t categories);
int
rte_acl_classify_neon(const struct rte_acl_ctx *ctx, const uint8_t **data,
uint32_t *results, uint32_t num, uint32_t categories);
int
rte_acl_classify_altivec(const struct rte_acl_ctx *ctx, const uint8_t **data,
uint32_t *results, uint32_t num, uint32_t categories);
#ifdef __cplusplus
}
#endif /* __cplusplus */
#endif /* _ACL_H_ */