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numam-dpdk/lib/acl/acl.h
Bruce Richardson 99a2dd955f lib: remove librte_ prefix from directory names 
There is no reason for the DPDK libraries to all have 'librte_' prefix on
the directory names. This prefix makes the directory names longer and also
makes it awkward to add features referring to individual libraries in the
build - should the lib names be specified with or without the prefix.
Therefore, we can just remove the library prefix and use the library's
unique name as the directory name, i.e. 'eal' rather than 'librte_eal'

Signed-off-by: Bruce Richardson <bruce.richardson@intel.com>
2021-04-21 14:04:09 +02:00

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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 transtions 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 consits 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_ */
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