numam-dpdk/lib/librte_pipeline/rte_table_action.h

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/* SPDX-License-Identifier: BSD-3-Clause
* Copyright(c) 2018 Intel Corporation
*/
#ifndef __INCLUDE_RTE_TABLE_ACTION_H__
#define __INCLUDE_RTE_TABLE_ACTION_H__
/**
* @file
* RTE Pipeline Table Actions
*
* This API provides a common set of actions for pipeline tables to speed up
* application development.
*
* Each match-action rule added to a pipeline table has associated data that
* stores the action context. This data is input to the table action handler
* called for every input packet that hits the rule as part of the table lookup
* during the pipeline execution. The pipeline library allows the user to define
* his own table actions by providing customized table action handlers (table
* lookup) and complete freedom of setting the rules and their data (table rule
* add/delete). While the user can still follow this process, this API is
* intended to provide a quicker development alternative for a set of predefined
* actions.
*
* The typical steps to use this API are:
* - Define a table action profile. This is a configuration template that can
* potentially be shared by multiple tables from the same or different
* pipelines, with different tables from the same pipeline likely to use
* different action profiles. For every table using a given action profile,
* the profile defines the set of actions and the action configuration to be
* implemented for all the table rules. API functions:
* rte_table_action_profile_create(),
* rte_table_action_profile_action_register(),
* rte_table_action_profile_freeze().
*
* - Instantiate the table action profile to create table action objects. Each
* pipeline table has its own table action object. API functions:
* rte_table_action_create().
*
* - Use the table action object to generate the pipeline table action handlers
* (invoked by the pipeline table lookup operation). API functions:
* rte_table_action_table_params_get().
*
* - Use the table action object to generate the rule data (for the pipeline
* table rule add operation) based on given action parameters. API functions:
* rte_table_action_apply().
*
* - Use the table action object to read action data (e.g. stats counters) for
* any given rule. API functions: rte_table_action_XYZ_read().
*
* @warning
* @b EXPERIMENTAL: this API may change without prior notice
*/
#ifdef __cplusplus
extern "C" {
#endif
#include <stdint.h>
#include <rte_compat.h>
#include <rte_ether.h>
#include <rte_meter.h>
#include <rte_table_hash.h>
#include "rte_pipeline.h"
/** Table actions. */
enum rte_table_action_type {
/** Forward to next pipeline table, output port or drop. */
RTE_TABLE_ACTION_FWD = 0,
/** Load balance. */
RTE_TABLE_ACTION_LB,
/** Traffic Metering and Policing. */
RTE_TABLE_ACTION_MTR,
/** Traffic Management. */
RTE_TABLE_ACTION_TM,
/** Packet encapsulations. */
RTE_TABLE_ACTION_ENCAP,
/** Network Address Translation (NAT). */
RTE_TABLE_ACTION_NAT,
/** Time to Live (TTL) update. */
RTE_TABLE_ACTION_TTL,
/** Statistics. */
RTE_TABLE_ACTION_STATS,
/** Timestamp. */
RTE_TABLE_ACTION_TIME,
/** Crypto. */
RTE_TABLE_ACTION_SYM_CRYPTO,
/** Tag. */
RTE_TABLE_ACTION_TAG,
};
/** Common action configuration (per table action profile). */
struct rte_table_action_common_config {
/** Input packet Internet Protocol (IP) version. Non-zero for IPv4, zero
* for IPv6.
*/
int ip_version;
/** IP header offset within the input packet buffer. Offset 0 points to
* the first byte of the MBUF structure.
*/
uint32_t ip_offset;
};
/**
* RTE_TABLE_ACTION_FWD
*/
/** Forward action parameters (per table rule). */
struct rte_table_action_fwd_params {
/** Forward action. */
enum rte_pipeline_action action;
/** Pipeline table ID or output port ID. */
uint32_t id;
};
/**
* RTE_TABLE_ACTION_LB
*/
/** Load balance key size min (number of bytes). */
#define RTE_TABLE_ACTION_LB_KEY_SIZE_MIN 8
/** Load balance key size max (number of bytes). */
#define RTE_TABLE_ACTION_LB_KEY_SIZE_MAX 64
/** Load balance table size. */
#define RTE_TABLE_ACTION_LB_TABLE_SIZE 8
/** Load balance action configuration (per table action profile). */
struct rte_table_action_lb_config {
/** Key size (number of bytes). */
uint32_t key_size;
/** Key offset within the input packet buffer. Offset 0 points to the
* first byte of the MBUF structure.
*/
uint32_t key_offset;
/** Key mask (*key_size* bytes are valid). */
uint8_t key_mask[RTE_TABLE_ACTION_LB_KEY_SIZE_MAX];
/** Hash function. */
rte_table_hash_op_hash f_hash;
/** Seed value for *f_hash*. */
uint64_t seed;
/** Output value offset within the input packet buffer. Offset 0 points
* to the first byte of the MBUF structure.
*/
uint32_t out_offset;
};
/** Load balance action parameters (per table rule). */
struct rte_table_action_lb_params {
/** Table defining the output values and their weights. The weights are
* set in 1/RTE_TABLE_ACTION_LB_TABLE_SIZE increments. To assign a
* weight of N/RTE_TABLE_ACTION_LB_TABLE_SIZE to a given output value
* (0 <= N <= RTE_TABLE_ACTION_LB_TABLE_SIZE), the same output value
* needs to show up exactly N times in this table.
*/
uint32_t out[RTE_TABLE_ACTION_LB_TABLE_SIZE];
};
/**
* RTE_TABLE_ACTION_MTR
*/
/** Max number of traffic classes (TCs). */
#define RTE_TABLE_ACTION_TC_MAX 4
/** Max number of queues per traffic class. */
#define RTE_TABLE_ACTION_TC_QUEUE_MAX 4
/** Differentiated Services Code Point (DSCP) translation table entry. */
struct rte_table_action_dscp_table_entry {
/** Traffic class. Used by the meter or the traffic management actions.
* Has to be strictly smaller than *RTE_TABLE_ACTION_TC_MAX*. Traffic
* class 0 is the highest priority.
*/
uint32_t tc_id;
/** Traffic class queue. Used by the traffic management action. Has to
* be strictly smaller than *RTE_TABLE_ACTION_TC_QUEUE_MAX*.
*/
uint32_t tc_queue_id;
/** Packet color. Used by the meter action as the packet input color
* for the color aware mode of the traffic metering algorithm.
*/
enum rte_meter_color color;
};
/** DSCP translation table. */
struct rte_table_action_dscp_table {
/** Array of DSCP table entries */
struct rte_table_action_dscp_table_entry entry[64];
};
/** Supported traffic metering algorithms. */
enum rte_table_action_meter_algorithm {
/** Single Rate Three Color Marker (srTCM) - IETF RFC 2697. */
RTE_TABLE_ACTION_METER_SRTCM,
/** Two Rate Three Color Marker (trTCM) - IETF RFC 2698. */
RTE_TABLE_ACTION_METER_TRTCM,
};
/** Traffic metering profile (configuration template). */
struct rte_table_action_meter_profile {
/** Traffic metering algorithm. */
enum rte_table_action_meter_algorithm alg;
RTE_STD_C11
union {
/** Only valid when *alg* is set to srTCM - IETF RFC 2697. */
struct rte_meter_srtcm_params srtcm;
/** Only valid when *alg* is set to trTCM - IETF RFC 2698. */
struct rte_meter_trtcm_params trtcm;
};
};
/** Policer actions. */
enum rte_table_action_policer {
/** Recolor the packet as green. */
RTE_TABLE_ACTION_POLICER_COLOR_GREEN = 0,
/** Recolor the packet as yellow. */
RTE_TABLE_ACTION_POLICER_COLOR_YELLOW,
/** Recolor the packet as red. */
RTE_TABLE_ACTION_POLICER_COLOR_RED,
/** Drop the packet. */
RTE_TABLE_ACTION_POLICER_DROP,
/** Number of policer actions. */
RTE_TABLE_ACTION_POLICER_MAX
};
/** Meter action configuration per traffic class. */
struct rte_table_action_mtr_tc_params {
/** Meter profile ID. */
uint32_t meter_profile_id;
/** Policer actions. */
enum rte_table_action_policer policer[e_RTE_METER_COLORS];
};
/** Meter action statistics counters per traffic class. */
struct rte_table_action_mtr_counters_tc {
/** Number of packets per color at the output of the traffic metering
* and before the policer actions are executed. Only valid when
* *n_packets_valid* is non-zero.
*/
uint64_t n_packets[e_RTE_METER_COLORS];
/** Number of packet bytes per color at the output of the traffic
* metering and before the policer actions are executed. Only valid when
* *n_bytes_valid* is non-zero.
*/
uint64_t n_bytes[e_RTE_METER_COLORS];
/** When non-zero, the *n_packets* field is valid. */
int n_packets_valid;
/** When non-zero, the *n_bytes* field is valid. */
int n_bytes_valid;
};
/** Meter action configuration (per table action profile). */
struct rte_table_action_mtr_config {
/** Meter algorithm. */
enum rte_table_action_meter_algorithm alg;
/** Number of traffic classes. Each traffic class has its own traffic
* meter and policer instances. Needs to be equal to either 1 or to
* *RTE_TABLE_ACTION_TC_MAX*.
*/
uint32_t n_tc;
/** When non-zero, the *n_packets* meter stats counter is enabled,
* otherwise it is disabled.
*
* @see struct rte_table_action_mtr_counters_tc
*/
int n_packets_enabled;
/** When non-zero, the *n_bytes* meter stats counter is enabled,
* otherwise it is disabled.
*
* @see struct rte_table_action_mtr_counters_tc
*/
int n_bytes_enabled;
};
/** Meter action parameters (per table rule). */
struct rte_table_action_mtr_params {
/** Traffic meter and policer parameters for each of the *tc_mask*
* traffic classes.
*/
struct rte_table_action_mtr_tc_params mtr[RTE_TABLE_ACTION_TC_MAX];
/** Bit mask defining which traffic class parameters are valid in *mtr*.
* If bit N is set in *tc_mask*, then parameters for traffic class N are
* valid in *mtr*.
*/
uint32_t tc_mask;
};
/** Meter action statistics counters (per table rule). */
struct rte_table_action_mtr_counters {
/** Stats counters for each of the *tc_mask* traffic classes. */
struct rte_table_action_mtr_counters_tc stats[RTE_TABLE_ACTION_TC_MAX];
/** Bit mask defining which traffic class parameters are valid in *mtr*.
* If bit N is set in *tc_mask*, then parameters for traffic class N are
* valid in *mtr*.
*/
uint32_t tc_mask;
};
/**
* RTE_TABLE_ACTION_TM
*/
/** Traffic management action configuration (per table action profile). */
struct rte_table_action_tm_config {
/** Number of subports per port. */
uint32_t n_subports_per_port;
/** Number of pipes per subport. */
uint32_t n_pipes_per_subport;
};
/** Traffic management action parameters (per table rule). */
struct rte_table_action_tm_params {
/** Subport ID. */
uint32_t subport_id;
/** Pipe ID. */
uint32_t pipe_id;
};
/**
* RTE_TABLE_ACTION_ENCAP
*/
/** Supported packet encapsulation types. */
enum rte_table_action_encap_type {
/** IP -> { Ether | IP } */
RTE_TABLE_ACTION_ENCAP_ETHER = 0,
/** IP -> { Ether | VLAN | IP } */
RTE_TABLE_ACTION_ENCAP_VLAN,
/** IP -> { Ether | S-VLAN | C-VLAN | IP } */
RTE_TABLE_ACTION_ENCAP_QINQ,
/** IP -> { Ether | MPLS | IP } */
RTE_TABLE_ACTION_ENCAP_MPLS,
/** IP -> { Ether | PPPoE | PPP | IP } */
RTE_TABLE_ACTION_ENCAP_PPPOE,
/** Ether -> { Ether | IP | UDP | VXLAN | Ether }
* Ether -> { Ether | VLAN | IP | UDP | VXLAN | Ether }
*/
RTE_TABLE_ACTION_ENCAP_VXLAN,
};
/** Pre-computed Ethernet header fields for encapsulation action. */
struct rte_table_action_ether_hdr {
struct ether_addr da; /**< Destination address. */
struct ether_addr sa; /**< Source address. */
};
/** Pre-computed VLAN header fields for encapsulation action. */
struct rte_table_action_vlan_hdr {
uint8_t pcp; /**< Priority Code Point (PCP). */
uint8_t dei; /**< Drop Eligibility Indicator (DEI). */
uint16_t vid; /**< VLAN Identifier (VID). */
};
/** Pre-computed MPLS header fields for encapsulation action. */
struct rte_table_action_mpls_hdr {
uint32_t label; /**< Label. */
uint8_t tc; /**< Traffic Class (TC). */
uint8_t ttl; /**< Time to Live (TTL). */
};
/** Pre-computed PPPoE header fields for encapsulation action. */
struct rte_table_action_pppoe_hdr {
uint16_t session_id; /**< Session ID. */
};
/** Pre-computed IPv4 header fields for encapsulation action. */
struct rte_table_action_ipv4_header {
uint32_t sa; /**< Source address. */
uint32_t da; /**< Destination address. */
uint8_t dscp; /**< DiffServ Code Point (DSCP). */
uint8_t ttl; /**< Time To Live (TTL). */
};
/** Pre-computed IPv6 header fields for encapsulation action. */
struct rte_table_action_ipv6_header {
uint8_t sa[16]; /**< Source address. */
uint8_t da[16]; /**< Destination address. */
uint32_t flow_label; /**< Flow label. */
uint8_t dscp; /**< DiffServ Code Point (DSCP). */
uint8_t hop_limit; /**< Hop Limit (HL). */
};
/** Pre-computed UDP header fields for encapsulation action. */
struct rte_table_action_udp_header {
uint16_t sp; /**< Source port. */
uint16_t dp; /**< Destination port. */
};
/** Pre-computed VXLAN header fields for encapsulation action. */
struct rte_table_action_vxlan_hdr {
uint32_t vni; /**< VXLAN Network Identifier (VNI). */
};
/** Ether encap parameters. */
struct rte_table_action_encap_ether_params {
struct rte_table_action_ether_hdr ether; /**< Ethernet header. */
};
/** VLAN encap parameters. */
struct rte_table_action_encap_vlan_params {
struct rte_table_action_ether_hdr ether; /**< Ethernet header. */
struct rte_table_action_vlan_hdr vlan; /**< VLAN header. */
};
/** QinQ encap parameters. */
struct rte_table_action_encap_qinq_params {
struct rte_table_action_ether_hdr ether; /**< Ethernet header. */
struct rte_table_action_vlan_hdr svlan; /**< Service VLAN header. */
struct rte_table_action_vlan_hdr cvlan; /**< Customer VLAN header. */
};
/** Max number of MPLS labels per output packet for MPLS encapsulation. */
#ifndef RTE_TABLE_ACTION_MPLS_LABELS_MAX
#define RTE_TABLE_ACTION_MPLS_LABELS_MAX 4
#endif
/** MPLS encap parameters. */
struct rte_table_action_encap_mpls_params {
/** Ethernet header. */
struct rte_table_action_ether_hdr ether;
/** MPLS header. */
struct rte_table_action_mpls_hdr mpls[RTE_TABLE_ACTION_MPLS_LABELS_MAX];
/** Number of MPLS labels in MPLS header. */
uint32_t mpls_count;
/** Non-zero for MPLS unicast, zero for MPLS multicast. */
int unicast;
};
/** PPPoE encap parameters. */
struct rte_table_action_encap_pppoe_params {
struct rte_table_action_ether_hdr ether; /**< Ethernet header. */
struct rte_table_action_pppoe_hdr pppoe; /**< PPPoE/PPP headers. */
};
/** VXLAN encap parameters. */
struct rte_table_action_encap_vxlan_params {
struct rte_table_action_ether_hdr ether; /**< Ethernet header. */
struct rte_table_action_vlan_hdr vlan; /**< VLAN header. */
RTE_STD_C11
union {
struct rte_table_action_ipv4_header ipv4; /**< IPv4 header. */
struct rte_table_action_ipv6_header ipv6; /**< IPv6 header. */
};
struct rte_table_action_udp_header udp; /**< UDP header. */
struct rte_table_action_vxlan_hdr vxlan; /**< VXLAN header. */
};
/** Encap action configuration (per table action profile). */
struct rte_table_action_encap_config {
/** Bit mask defining the set of packet encapsulations enabled for the
* current table action profile. If bit (1 << N) is set in *encap_mask*,
* then packet encapsulation N is enabled, otherwise it is disabled.
*
* @see enum rte_table_action_encap_type
*/
uint64_t encap_mask;
/** Encapsulation type specific configuration. */
RTE_STD_C11
union {
struct {
/** Input packet to be encapsulated: offset within the
* input packet buffer to the start of the Ethernet
* frame to be encapsulated. Offset 0 points to the
* first byte of the MBUF structure.
*/
uint32_t data_offset;
/** Encapsulation header: non-zero when encapsulation
* header includes a VLAN tag, zero otherwise.
*/
int vlan;
/** Encapsulation header: IP version of the IP header
* within the encapsulation header. Non-zero for IPv4,
* zero for IPv6.
*/
int ip_version;
} vxlan; /**< VXLAN specific configuration. */
};
};
/** Encap action parameters (per table rule). */
struct rte_table_action_encap_params {
/** Encapsulation type. */
enum rte_table_action_encap_type type;
RTE_STD_C11
union {
/** Only valid when *type* is set to Ether. */
struct rte_table_action_encap_ether_params ether;
/** Only valid when *type* is set to VLAN. */
struct rte_table_action_encap_vlan_params vlan;
/** Only valid when *type* is set to QinQ. */
struct rte_table_action_encap_qinq_params qinq;
/** Only valid when *type* is set to MPLS. */
struct rte_table_action_encap_mpls_params mpls;
/** Only valid when *type* is set to PPPoE. */
struct rte_table_action_encap_pppoe_params pppoe;
/** Only valid when *type* is set to VXLAN. */
struct rte_table_action_encap_vxlan_params vxlan;
};
};
/**
* RTE_TABLE_ACTION_NAT
*/
/** NAT action configuration (per table action profile). */
struct rte_table_action_nat_config {
/** When non-zero, the IP source address and L4 protocol source port are
* translated. When zero, the IP destination address and L4 protocol
* destination port are translated.
*/
int source_nat;
/** Layer 4 protocol, for example TCP (0x06) or UDP (0x11). The checksum
* field is computed differently and placed at different header offset
* by each layer 4 protocol.
*/
uint8_t proto;
};
/** NAT action parameters (per table rule). */
struct rte_table_action_nat_params {
/** IP version for *addr*: non-zero for IPv4, zero for IPv6. */
int ip_version;
/** IP address. */
union {
/** IPv4 address; only valid when *ip_version* is non-zero. */
uint32_t ipv4;
/** IPv6 address; only valid when *ip_version* is set to 0. */
uint8_t ipv6[16];
} addr;
/** Port. */
uint16_t port;
};
/**
* RTE_TABLE_ACTION_TTL
*/
/** TTL action configuration (per table action profile). */
struct rte_table_action_ttl_config {
/** When non-zero, the input packets whose updated IPv4 Time to Live
* (TTL) field or IPv6 Hop Limit (HL) field is zero are dropped.
* When zero, the input packets whose updated IPv4 TTL field or IPv6 HL
* field is zero are forwarded as usual (typically for debugging
* purpose).
*/
int drop;
/** When non-zero, the *n_packets* stats counter for TTL action is
* enabled, otherwise disabled.
*
* @see struct rte_table_action_ttl_counters
*/
int n_packets_enabled;
};
/** TTL action parameters (per table rule). */
struct rte_table_action_ttl_params {
/** When non-zero, decrement the IPv4 TTL field and update the checksum
* field, or decrement the IPv6 HL field. When zero, the IPv4 TTL field
* or the IPv6 HL field is not changed.
*/
int decrement;
};
/** TTL action statistics packets (per table rule). */
struct rte_table_action_ttl_counters {
/** Number of IPv4 packets whose updated TTL field is zero or IPv6
* packets whose updated HL field is zero.
*/
uint64_t n_packets;
};
/**
* RTE_TABLE_ACTION_STATS
*/
/** Stats action configuration (per table action profile). */
struct rte_table_action_stats_config {
/** When non-zero, the *n_packets* stats counter is enabled, otherwise
* disabled.
*
* @see struct rte_table_action_stats_counters
*/
int n_packets_enabled;
/** When non-zero, the *n_bytes* stats counter is enabled, otherwise
* disabled.
*
* @see struct rte_table_action_stats_counters
*/
int n_bytes_enabled;
};
/** Stats action parameters (per table rule). */
struct rte_table_action_stats_params {
/** Initial value for the *n_packets* stats counter. Typically set to 0.
*
* @see struct rte_table_action_stats_counters
*/
uint64_t n_packets;
/** Initial value for the *n_bytes* stats counter. Typically set to 0.
*
* @see struct rte_table_action_stats_counters
*/
uint64_t n_bytes;
};
/** Stats action counters (per table rule). */
struct rte_table_action_stats_counters {
/** Number of packets. Valid only when *n_packets_valid* is non-zero. */
uint64_t n_packets;
/** Number of bytes. Valid only when *n_bytes_valid* is non-zero. */
uint64_t n_bytes;
/** When non-zero, the *n_packets* field is valid, otherwise invalid. */
int n_packets_valid;
/** When non-zero, the *n_bytes* field is valid, otherwise invalid. */
int n_bytes_valid;
};
/**
* RTE_TABLE_ACTION_TIME
*/
/** Timestamp action parameters (per table rule). */
struct rte_table_action_time_params {
/** Initial timestamp value. Typically set to current time. */
uint64_t time;
};
/**
* RTE_TABLE_ACTION_CRYPTO
*/
#ifndef RTE_TABLE_ACTION_SYM_CRYPTO_IV_SIZE_MAX
#define RTE_TABLE_ACTION_SYM_CRYPTO_IV_SIZE_MAX (16)
#endif
#ifndef RTE_TABLE_ACTION_SYM_CRYPTO_AAD_SIZE_MAX
#define RTE_TABLE_ACTION_SYM_CRYPTO_AAD_SIZE_MAX (16)
#endif
#ifndef RTE_TABLE_ACTION_SYM_CRYPTO_IV_OFFSET
#define RTE_TABLE_ACTION_SYM_CRYPTO_IV_OFFSET \
(sizeof(struct rte_crypto_op) + sizeof(struct rte_crypto_sym_op))
#endif
/** Common action structure to store the data's value, length, and offset */
struct rte_table_action_vlo {
uint8_t *val;
uint32_t length;
uint32_t offset;
};
/** Symmetric crypto action configuration (per table action profile). */
struct rte_table_action_sym_crypto_config {
/** Target Cryptodev ID. */
uint8_t cryptodev_id;
/**
* Offset to rte_crypto_op structure within the input packet buffer.
* Offset 0 points to the first byte of the MBUF structure.
*/
uint32_t op_offset;
/** The mempool for creating cryptodev sessions. */
struct rte_mempool *mp_create;
/** The mempool for initializing cryptodev sessions. */
struct rte_mempool *mp_init;
};
/** Symmetric Crypto action parameters (per table rule). */
struct rte_table_action_sym_crypto_params {
/** Xform pointer contains all relevant information */
struct rte_crypto_sym_xform *xform;
/**
* Offset within the input packet buffer to the first byte of data
* to be processed by the crypto unit. Offset 0 points to the first
* byte of the MBUF structure.
*/
uint32_t data_offset;
union {
struct {
/** Cipher iv data. */
struct rte_table_action_vlo cipher_iv;
/** Cipher iv data. */
struct rte_table_action_vlo cipher_iv_update;
/** Auth iv data. */
struct rte_table_action_vlo auth_iv;
/** Auth iv data. */
struct rte_table_action_vlo auth_iv_update;
} cipher_auth;
struct {
/** AEAD AAD data. */
struct rte_table_action_vlo aad;
/** AEAD iv data. */
struct rte_table_action_vlo iv;
/** AEAD AAD data. */
struct rte_table_action_vlo aad_update;
/** AEAD iv data. */
struct rte_table_action_vlo iv_update;
} aead;
};
};
/**
* RTE_TABLE_ACTION_TAG
*/
/** Tag action parameters (per table rule). */
struct rte_table_action_tag_params {
/** Tag to be attached to the input packet. */
uint32_t tag;
};
/**
* Table action profile.
*/
struct rte_table_action_profile;
/**
* Table action profile create.
*
* @param[in] common
* Common action configuration.
* @return
* Table action profile handle on success, NULL otherwise.
*/
struct rte_table_action_profile * __rte_experimental
rte_table_action_profile_create(struct rte_table_action_common_config *common);
/**
* Table action profile free.
*
* @param[in] profile
* Table profile action handle (needs to be valid).
* @return
* Zero on success, non-zero error code otherwise.
*/
int __rte_experimental
rte_table_action_profile_free(struct rte_table_action_profile *profile);
/**
* Table action profile action register.
*
* @param[in] profile
* Table profile action handle (needs to be valid and not in frozen state).
* @param[in] type
* Specific table action to be registered for *profile*.
* @param[in] action_config
* Configuration for the *type* action.
* If struct rte_table_action_*type*_config is defined by the Table Action
* API, it needs to point to a valid instance of this structure, otherwise it
* needs to be set to NULL.
* @return
* Zero on success, non-zero error code otherwise.
*/
int __rte_experimental
rte_table_action_profile_action_register(struct rte_table_action_profile *profile,
enum rte_table_action_type type,
void *action_config);
/**
* Table action profile freeze.
*
* Once this function is called successfully, the given profile enters the
* frozen state with the following immediate effects: no more actions can be
* registered for this profile, so the profile can be instantiated to create
* table action objects.
*
* @param[in] profile
* Table profile action handle (needs to be valid and not in frozen state).
* @return
* Zero on success, non-zero error code otherwise.
*
* @see rte_table_action_create()
*/
int __rte_experimental
rte_table_action_profile_freeze(struct rte_table_action_profile *profile);
/**
* Table action.
*/
struct rte_table_action;
/**
* Table action create.
*
* Instantiates the given table action profile to create a table action object.
*
* @param[in] profile
* Table profile action handle (needs to be valid and in frozen state).
* @param[in] socket_id
* CPU socket ID where the internal data structures required by the new table
* action object should be allocated.
* @return
* Handle to table action object on success, NULL on error.
*
* @see rte_table_action_create()
*/
struct rte_table_action * __rte_experimental
rte_table_action_create(struct rte_table_action_profile *profile,
uint32_t socket_id);
/**
* Table action free.
*
* @param[in] action
* Handle to table action object (needs to be valid).
* @return
* Zero on success, non-zero error code otherwise.
*/
int __rte_experimental
rte_table_action_free(struct rte_table_action *action);
/**
* Table action table params get.
*
* @param[in] action
* Handle to table action object (needs to be valid).
* @param[inout] params
* Pipeline table parameters (needs to be pre-allocated).
* @return
* Zero on success, non-zero error code otherwise.
*/
int __rte_experimental
rte_table_action_table_params_get(struct rte_table_action *action,
struct rte_pipeline_table_params *params);
/**
* Table action apply.
*
* @param[in] action
* Handle to table action object (needs to be valid).
* @param[in] data
* Data byte array (typically table rule data) to apply action *type* on.
* @param[in] type
* Specific table action previously registered for the table action profile of
* the *action* object.
* @param[in] action_params
* Parameters for the *type* action.
* If struct rte_table_action_*type*_params is defined by the Table Action
* API, it needs to point to a valid instance of this structure, otherwise it
* needs to be set to NULL.
* @return
* Zero on success, non-zero error code otherwise.
*/
int __rte_experimental
rte_table_action_apply(struct rte_table_action *action,
void *data,
enum rte_table_action_type type,
void *action_params);
/**
* Table action DSCP table update.
*
* @param[in] action
* Handle to table action object (needs to be valid).
* @param[in] dscp_mask
* 64-bit mask defining the DSCP table entries to be updated. If bit N is set
* in this bit mask, then DSCP table entry N is to be updated, otherwise not.
* @param[in] table
* DSCP table.
* @return
* Zero on success, non-zero error code otherwise.
*/
int __rte_experimental
rte_table_action_dscp_table_update(struct rte_table_action *action,
uint64_t dscp_mask,
struct rte_table_action_dscp_table *table);
/**
* Table action meter profile add.
*
* @param[in] action
* Handle to table action object (needs to be valid).
* @param[in] meter_profile_id
* Meter profile ID to be used for the *profile* once it is successfully added
* to the *action* object (needs to be unused by the set of meter profiles
* currently registered for the *action* object).
* @param[in] profile
* Meter profile to be added.
* @return
* Zero on success, non-zero error code otherwise.
*/
int __rte_experimental
rte_table_action_meter_profile_add(struct rte_table_action *action,
uint32_t meter_profile_id,
struct rte_table_action_meter_profile *profile);
/**
* Table action meter profile delete.
*
* @param[in] action
* Handle to table action object (needs to be valid).
* @param[in] meter_profile_id
* Meter profile ID of the meter profile to be deleted from the *action*
* object (needs to be valid for the *action* object).
* @return
* Zero on success, non-zero error code otherwise.
*/
int __rte_experimental
rte_table_action_meter_profile_delete(struct rte_table_action *action,
uint32_t meter_profile_id);
/**
* Table action meter read.
*
* @param[in] action
* Handle to table action object (needs to be valid).
* @param[in] data
* Data byte array (typically table rule data) with meter action previously
* applied on it.
* @param[in] tc_mask
* Bit mask defining which traffic classes should have the meter stats
* counters read from *data* and stored into *stats*. If bit N is set in this
* bit mask, then traffic class N is part of this operation, otherwise it is
* not. If bit N is set in this bit mask, then traffic class N must be one of
* the traffic classes that are enabled for the meter action in the table
* action profile used by the *action* object.
* @param[inout] stats
* When non-NULL, it points to the area where the meter stats counters read
* from *data* are saved. Only the meter stats counters for the *tc_mask*
* traffic classes are read and stored to *stats*.
* @param[in] clear
* When non-zero, the meter stats counters are cleared (i.e. set to zero),
* otherwise the counters are not modified. When the read operation is enabled
* (*stats* is non-NULL), the clear operation is performed after the read
* operation is completed.
* @return
* Zero on success, non-zero error code otherwise.
*/
int __rte_experimental
rte_table_action_meter_read(struct rte_table_action *action,
void *data,
uint32_t tc_mask,
struct rte_table_action_mtr_counters *stats,
int clear);
/**
* Table action TTL read.
*
* @param[in] action
* Handle to table action object (needs to be valid).
* @param[in] data
* Data byte array (typically table rule data) with TTL action previously
* applied on it.
* @param[inout] stats
* When non-NULL, it points to the area where the TTL stats counters read from
* *data* are saved.
* @param[in] clear
* When non-zero, the TTL stats counters are cleared (i.e. set to zero),
* otherwise the counters are not modified. When the read operation is enabled
* (*stats* is non-NULL), the clear operation is performed after the read
* operation is completed.
* @return
* Zero on success, non-zero error code otherwise.
*/
int __rte_experimental
rte_table_action_ttl_read(struct rte_table_action *action,
void *data,
struct rte_table_action_ttl_counters *stats,
int clear);
/**
* Table action stats read.
*
* @param[in] action
* Handle to table action object (needs to be valid).
* @param[in] data
* Data byte array (typically table rule data) with stats action previously
* applied on it.
* @param[inout] stats
* When non-NULL, it points to the area where the stats counters read from
* *data* are saved.
* @param[in] clear
* When non-zero, the stats counters are cleared (i.e. set to zero), otherwise
* the counters are not modified. When the read operation is enabled (*stats*
* is non-NULL), the clear operation is performed after the read operation is
* completed.
* @return
* Zero on success, non-zero error code otherwise.
*/
int __rte_experimental
rte_table_action_stats_read(struct rte_table_action *action,
void *data,
struct rte_table_action_stats_counters *stats,
int clear);
/**
* Table action timestamp read.
*
* @param[in] action
* Handle to table action object (needs to be valid).
* @param[in] data
* Data byte array (typically table rule data) with timestamp action
* previously applied on it.
* @param[inout] timestamp
* Pre-allocated memory where the timestamp read from *data* is saved (has to
* be non-NULL).
* @return
* Zero on success, non-zero error code otherwise.
*/
int __rte_experimental
rte_table_action_time_read(struct rte_table_action *action,
void *data,
uint64_t *timestamp);
/**
* Table action cryptodev symmetric session get.
*
* @param[in] action
* Handle to table action object (needs to be valid).
* @param[in] data
* Data byte array (typically table rule data) with sym crypto action.
* @return
* The pointer to the session on success, NULL otherwise.
*/
struct rte_cryptodev_sym_session *__rte_experimental
rte_table_action_crypto_sym_session_get(struct rte_table_action *action,
void *data);
#ifdef __cplusplus
}
#endif
#endif /* __INCLUDE_RTE_TABLE_ACTION_H__ */