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|
/* SPDX-License-Identifier: BSD-3-Clause
* Copyright 2016 6WIND S.A.
* Copyright 2016 Mellanox Technologies, Ltd
*/
#ifndef RTE_FLOW_H_
#define RTE_FLOW_H_
/**
* @file
* RTE generic flow API
*
* This interface provides the ability to program packet matching and
* associated actions in hardware through flow rules.
*/
#include <stddef.h>
#include <stdint.h>
#include <rte_arp.h>
#include <rte_common.h>
#include <rte_ether.h>
#include <rte_eth_ctrl.h>
#include <rte_icmp.h>
#include <rte_ip.h>
#include <rte_sctp.h>
#include <rte_tcp.h>
#include <rte_udp.h>
#include <rte_byteorder.h>
#include <rte_esp.h>
#ifdef __cplusplus
extern "C" {
#endif
/**
* Flow rule attributes.
*
* Priorities are set on a per rule based within groups.
*
* Lower values denote higher priority, the highest priority for a flow rule
* is 0, so that a flow that matches for than one rule, the rule with the
* lowest priority value will always be matched.
*
* Although optional, applications are encouraged to group similar rules as
* much as possible to fully take advantage of hardware capabilities
* (e.g. optimized matching) and work around limitations (e.g. a single
* pattern type possibly allowed in a given group). Applications should be
* aware that groups are not linked by default, and that they must be
* explicitly linked by the application using the JUMP action.
*
* Priority levels are arbitrary and up to the application, they
* do not need to be contiguous nor start from 0, however the maximum number
* varies between devices and may be affected by existing flow rules.
*
* If a packet is matched by several rules of a given group for a given
* priority level, the outcome is undefined. It can take any path, may be
* duplicated or even cause unrecoverable errors.
*
* Note that support for more than a single group and priority level is not
* guaranteed.
*
* Flow rules can apply to inbound and/or outbound traffic (ingress/egress).
*
* Several pattern items and actions are valid and can be used in both
* directions. Those valid for only one direction are described as such.
*
* At least one direction must be specified.
*
* Specifying both directions at once for a given rule is not recommended
* but may be valid in a few cases (e.g. shared counter).
*/
struct rte_flow_attr {
uint32_t group; /**< Priority group. */
uint32_t priority; /**< Rule priority level within group. */
uint32_t ingress:1; /**< Rule applies to ingress traffic. */
uint32_t egress:1; /**< Rule applies to egress traffic. */
/**
* Instead of simply matching the properties of traffic as it would
* appear on a given DPDK port ID, enabling this attribute transfers
* a flow rule to the lowest possible level of any device endpoints
* found in the pattern.
*
* When supported, this effectively enables an application to
* re-route traffic not necessarily intended for it (e.g. coming
* from or addressed to different physical ports, VFs or
* applications) at the device level.
*
* It complements the behavior of some pattern items such as
* RTE_FLOW_ITEM_TYPE_PHY_PORT and is meaningless without them.
*
* When transferring flow rules, ingress and egress attributes keep
* their original meaning, as if processing traffic emitted or
* received by the application.
*/
uint32_t transfer:1;
uint32_t reserved:29; /**< Reserved, must be zero. */
};
/**
* Matching pattern item types.
*
* Pattern items fall in two categories:
*
* - Matching protocol headers and packet data, usually associated with a
* specification structure. These must be stacked in the same order as the
* protocol layers to match inside packets, starting from the lowest.
*
* - Matching meta-data or affecting pattern processing, often without a
* specification structure. Since they do not match packet contents, their
* position in the list is usually not relevant.
*
* See the description of individual types for more information. Those
* marked with [META] fall into the second category.
*/
enum rte_flow_item_type {
/**
* [META]
*
* End marker for item lists. Prevents further processing of items,
* thereby ending the pattern.
*
* No associated specification structure.
*/
RTE_FLOW_ITEM_TYPE_END,
/**
* [META]
*
* Used as a placeholder for convenience. It is ignored and simply
* discarded by PMDs.
*
* No associated specification structure.
*/
RTE_FLOW_ITEM_TYPE_VOID,
/**
* [META]
*
* Inverted matching, i.e. process packets that do not match the
* pattern.
*
* No associated specification structure.
*/
RTE_FLOW_ITEM_TYPE_INVERT,
/**
* Matches any protocol in place of the current layer, a single ANY
* may also stand for several protocol layers.
*
* See struct rte_flow_item_any.
*/
RTE_FLOW_ITEM_TYPE_ANY,
/**
* [META]
*
* Matches traffic originating from (ingress) or going to (egress)
* the physical function of the current device.
*
* No associated specification structure.
*/
RTE_FLOW_ITEM_TYPE_PF,
/**
* [META]
*
* Matches traffic originating from (ingress) or going to (egress) a
* given virtual function of the current device.
*
* See struct rte_flow_item_vf.
*/
RTE_FLOW_ITEM_TYPE_VF,
/**
* [META]
*
* Matches traffic originating from (ingress) or going to (egress) a
* physical port of the underlying device.
*
* See struct rte_flow_item_phy_port.
*/
RTE_FLOW_ITEM_TYPE_PHY_PORT,
/**
* [META]
*
* Matches traffic originating from (ingress) or going to (egress) a
* given DPDK port ID.
*
* See struct rte_flow_item_port_id.
*/
RTE_FLOW_ITEM_TYPE_PORT_ID,
/**
* Matches a byte string of a given length at a given offset.
*
* See struct rte_flow_item_raw.
*/
RTE_FLOW_ITEM_TYPE_RAW,
/**
* Matches an Ethernet header.
*
* See struct rte_flow_item_eth.
*/
RTE_FLOW_ITEM_TYPE_ETH,
/**
* Matches an 802.1Q/ad VLAN tag.
*
* See struct rte_flow_item_vlan.
*/
RTE_FLOW_ITEM_TYPE_VLAN,
/**
* Matches an IPv4 header.
*
* See struct rte_flow_item_ipv4.
*/
RTE_FLOW_ITEM_TYPE_IPV4,
/**
* Matches an IPv6 header.
*
* See struct rte_flow_item_ipv6.
*/
RTE_FLOW_ITEM_TYPE_IPV6,
/**
* Matches an ICMP header.
*
* See struct rte_flow_item_icmp.
*/
RTE_FLOW_ITEM_TYPE_ICMP,
/**
* Matches a UDP header.
*
* See struct rte_flow_item_udp.
*/
RTE_FLOW_ITEM_TYPE_UDP,
/**
* Matches a TCP header.
*
* See struct rte_flow_item_tcp.
*/
RTE_FLOW_ITEM_TYPE_TCP,
/**
* Matches a SCTP header.
*
* See struct rte_flow_item_sctp.
*/
RTE_FLOW_ITEM_TYPE_SCTP,
/**
* Matches a VXLAN header.
*
* See struct rte_flow_item_vxlan.
*/
RTE_FLOW_ITEM_TYPE_VXLAN,
/**
* Matches a E_TAG header.
*
* See struct rte_flow_item_e_tag.
*/
RTE_FLOW_ITEM_TYPE_E_TAG,
/**
* Matches a NVGRE header.
*
* See struct rte_flow_item_nvgre.
*/
RTE_FLOW_ITEM_TYPE_NVGRE,
/**
* Matches a MPLS header.
*
* See struct rte_flow_item_mpls.
*/
RTE_FLOW_ITEM_TYPE_MPLS,
/**
* Matches a GRE header.
*
* See struct rte_flow_item_gre.
*/
RTE_FLOW_ITEM_TYPE_GRE,
/**
* [META]
*
* Fuzzy pattern match, expect faster than default.
*
* This is for device that support fuzzy matching option.
* Usually a fuzzy matching is fast but the cost is accuracy.
*
* See struct rte_flow_item_fuzzy.
*/
RTE_FLOW_ITEM_TYPE_FUZZY,
/**
* Matches a GTP header.
*
* Configure flow for GTP packets.
*
* See struct rte_flow_item_gtp.
*/
RTE_FLOW_ITEM_TYPE_GTP,
/**
* Matches a GTP header.
*
* Configure flow for GTP-C packets.
*
* See struct rte_flow_item_gtp.
*/
RTE_FLOW_ITEM_TYPE_GTPC,
/**
* Matches a GTP header.
*
* Configure flow for GTP-U packets.
*
* See struct rte_flow_item_gtp.
*/
RTE_FLOW_ITEM_TYPE_GTPU,
/**
* Matches a ESP header.
*
* See struct rte_flow_item_esp.
*/
RTE_FLOW_ITEM_TYPE_ESP,
/**
* Matches a GENEVE header.
*
* See struct rte_flow_item_geneve.
*/
RTE_FLOW_ITEM_TYPE_GENEVE,
/**
* Matches a VXLAN-GPE header.
*
* See struct rte_flow_item_vxlan_gpe.
*/
RTE_FLOW_ITEM_TYPE_VXLAN_GPE,
/**
* Matches an ARP header for Ethernet/IPv4.
*
* See struct rte_flow_item_arp_eth_ipv4.
*/
RTE_FLOW_ITEM_TYPE_ARP_ETH_IPV4,
/**
* Matches the presence of any IPv6 extension header.
*
* See struct rte_flow_item_ipv6_ext.
*/
RTE_FLOW_ITEM_TYPE_IPV6_EXT,
/**
* Matches any ICMPv6 header.
*
* See struct rte_flow_item_icmp6.
*/
RTE_FLOW_ITEM_TYPE_ICMP6,
/**
* Matches an ICMPv6 neighbor discovery solicitation.
*
* See struct rte_flow_item_icmp6_nd_ns.
*/
RTE_FLOW_ITEM_TYPE_ICMP6_ND_NS,
/**
* Matches an ICMPv6 neighbor discovery advertisement.
*
* See struct rte_flow_item_icmp6_nd_na.
*/
RTE_FLOW_ITEM_TYPE_ICMP6_ND_NA,
/**
* Matches the presence of any ICMPv6 neighbor discovery option.
*
* See struct rte_flow_item_icmp6_nd_opt.
*/
RTE_FLOW_ITEM_TYPE_ICMP6_ND_OPT,
/**
* Matches an ICMPv6 neighbor discovery source Ethernet link-layer
* address option.
*
* See struct rte_flow_item_icmp6_nd_opt_sla_eth.
*/
RTE_FLOW_ITEM_TYPE_ICMP6_ND_OPT_SLA_ETH,
/**
* Matches an ICMPv6 neighbor discovery target Ethernet link-layer
* address option.
*
* See struct rte_flow_item_icmp6_nd_opt_tla_eth.
*/
RTE_FLOW_ITEM_TYPE_ICMP6_ND_OPT_TLA_ETH,
/**
* Matches specified mark field.
*
* See struct rte_flow_item_mark.
*/
RTE_FLOW_ITEM_TYPE_MARK,
/**
* [META]
*
* Matches a metadata value specified in mbuf metadata field.
* See struct rte_flow_item_meta.
*/
RTE_FLOW_ITEM_TYPE_META,
};
/**
* RTE_FLOW_ITEM_TYPE_ANY
*
* Matches any protocol in place of the current layer, a single ANY may also
* stand for several protocol layers.
*
* This is usually specified as the first pattern item when looking for a
* protocol anywhere in a packet.
*
* A zeroed mask stands for any number of layers.
*/
struct rte_flow_item_any {
uint32_t num; /**< Number of layers covered. */
};
/** Default mask for RTE_FLOW_ITEM_TYPE_ANY. */
#ifndef __cplusplus
static const struct rte_flow_item_any rte_flow_item_any_mask = {
.num = 0x00000000,
};
#endif
/**
* RTE_FLOW_ITEM_TYPE_VF
*
* Matches traffic originating from (ingress) or going to (egress) a given
* virtual function of the current device.
*
* If supported, should work even if the virtual function is not managed by
* the application and thus not associated with a DPDK port ID.
*
* Note this pattern item does not match VF representors traffic which, as
* separate entities, should be addressed through their own DPDK port IDs.
*
* - Can be specified multiple times to match traffic addressed to several
* VF IDs.
* - Can be combined with a PF item to match both PF and VF traffic.
*
* A zeroed mask can be used to match any VF ID.
*/
struct rte_flow_item_vf {
uint32_t id; /**< VF ID. */
};
/** Default mask for RTE_FLOW_ITEM_TYPE_VF. */
#ifndef __cplusplus
static const struct rte_flow_item_vf rte_flow_item_vf_mask = {
.id = 0x00000000,
};
#endif
/**
* RTE_FLOW_ITEM_TYPE_PHY_PORT
*
* Matches traffic originating from (ingress) or going to (egress) a
* physical port of the underlying device.
*
* The first PHY_PORT item overrides the physical port normally associated
* with the specified DPDK input port (port_id). This item can be provided
* several times to match additional physical ports.
*
* Note that physical ports are not necessarily tied to DPDK input ports
* (port_id) when those are not under DPDK control. Possible values are
* specific to each device, they are not necessarily indexed from zero and
* may not be contiguous.
*
* As a device property, the list of allowed values as well as the value
* associated with a port_id should be retrieved by other means.
*
* A zeroed mask can be used to match any port index.
*/
struct rte_flow_item_phy_port {
uint32_t index; /**< Physical port index. */
};
/** Default mask for RTE_FLOW_ITEM_TYPE_PHY_PORT. */
#ifndef __cplusplus
static const struct rte_flow_item_phy_port rte_flow_item_phy_port_mask = {
.index = 0x00000000,
};
#endif
/**
* RTE_FLOW_ITEM_TYPE_PORT_ID
*
* Matches traffic originating from (ingress) or going to (egress) a given
* DPDK port ID.
*
* Normally only supported if the port ID in question is known by the
* underlying PMD and related to the device the flow rule is created
* against.
*
* This must not be confused with @p PHY_PORT which refers to the physical
* port of a device, whereas @p PORT_ID refers to a struct rte_eth_dev
* object on the application side (also known as "port representor"
* depending on the kind of underlying device).
*/
struct rte_flow_item_port_id {
uint32_t id; /**< DPDK port ID. */
};
/** Default mask for RTE_FLOW_ITEM_TYPE_PORT_ID. */
#ifndef __cplusplus
static const struct rte_flow_item_port_id rte_flow_item_port_id_mask = {
.id = 0xffffffff,
};
#endif
/**
* RTE_FLOW_ITEM_TYPE_RAW
*
* Matches a byte string of a given length at a given offset.
*
* Offset is either absolute (using the start of the packet) or relative to
* the end of the previous matched item in the stack, in which case negative
* values are allowed.
*
* If search is enabled, offset is used as the starting point. The search
* area can be delimited by setting limit to a nonzero value, which is the
* maximum number of bytes after offset where the pattern may start.
*
* Matching a zero-length pattern is allowed, doing so resets the relative
* offset for subsequent items.
*
* This type does not support ranges (struct rte_flow_item.last).
*/
struct rte_flow_item_raw {
uint32_t relative:1; /**< Look for pattern after the previous item. */
uint32_t search:1; /**< Search pattern from offset (see also limit). */
uint32_t reserved:30; /**< Reserved, must be set to zero. */
int32_t offset; /**< Absolute or relative offset for pattern. */
uint16_t limit; /**< Search area limit for start of pattern. */
uint16_t length; /**< Pattern length. */
const uint8_t *pattern; /**< Byte string to look for. */
};
/** Default mask for RTE_FLOW_ITEM_TYPE_RAW. */
#ifndef __cplusplus
static const struct rte_flow_item_raw rte_flow_item_raw_mask = {
.relative = 1,
.search = 1,
.reserved = 0x3fffffff,
.offset = 0xffffffff,
.limit = 0xffff,
.length = 0xffff,
.pattern = NULL,
};
#endif
/**
* RTE_FLOW_ITEM_TYPE_ETH
*
* Matches an Ethernet header.
*
* The @p type field either stands for "EtherType" or "TPID" when followed
* by so-called layer 2.5 pattern items such as RTE_FLOW_ITEM_TYPE_VLAN. In
* the latter case, @p type refers to that of the outer header, with the
* inner EtherType/TPID provided by the subsequent pattern item. This is the
* same order as on the wire.
*/
struct rte_flow_item_eth {
struct ether_addr dst; /**< Destination MAC. */
struct ether_addr src; /**< Source MAC. */
rte_be16_t type; /**< EtherType or TPID. */
};
/** Default mask for RTE_FLOW_ITEM_TYPE_ETH. */
#ifndef __cplusplus
static const struct rte_flow_item_eth rte_flow_item_eth_mask = {
.dst.addr_bytes = "\xff\xff\xff\xff\xff\xff",
.src.addr_bytes = "\xff\xff\xff\xff\xff\xff",
.type = RTE_BE16(0x0000),
};
#endif
/**
* RTE_FLOW_ITEM_TYPE_VLAN
*
* Matches an 802.1Q/ad VLAN tag.
*
* The corresponding standard outer EtherType (TPID) values are
* ETHER_TYPE_VLAN or ETHER_TYPE_QINQ. It can be overridden by the preceding
* pattern item.
*/
struct rte_flow_item_vlan {
rte_be16_t tci; /**< Tag control information. */
rte_be16_t inner_type; /**< Inner EtherType or TPID. */
};
/** Default mask for RTE_FLOW_ITEM_TYPE_VLAN. */
#ifndef __cplusplus
static const struct rte_flow_item_vlan rte_flow_item_vlan_mask = {
.tci = RTE_BE16(0x0fff),
.inner_type = RTE_BE16(0x0000),
};
#endif
/**
* RTE_FLOW_ITEM_TYPE_IPV4
*
* Matches an IPv4 header.
*
* Note: IPv4 options are handled by dedicated pattern items.
*/
struct rte_flow_item_ipv4 {
struct ipv4_hdr hdr; /**< IPv4 header definition. */
};
/** Default mask for RTE_FLOW_ITEM_TYPE_IPV4. */
#ifndef __cplusplus
static const struct rte_flow_item_ipv4 rte_flow_item_ipv4_mask = {
.hdr = {
.src_addr = RTE_BE32(0xffffffff),
.dst_addr = RTE_BE32(0xffffffff),
},
};
#endif
/**
* RTE_FLOW_ITEM_TYPE_IPV6.
*
* Matches an IPv6 header.
*
* Note: IPv6 options are handled by dedicated pattern items, see
* RTE_FLOW_ITEM_TYPE_IPV6_EXT.
*/
struct rte_flow_item_ipv6 {
struct ipv6_hdr hdr; /**< IPv6 header definition. */
};
/** Default mask for RTE_FLOW_ITEM_TYPE_IPV6. */
#ifndef __cplusplus
static const struct rte_flow_item_ipv6 rte_flow_item_ipv6_mask = {
.hdr = {
.src_addr =
"\xff\xff\xff\xff\xff\xff\xff\xff"
"\xff\xff\xff\xff\xff\xff\xff\xff",
.dst_addr =
"\xff\xff\xff\xff\xff\xff\xff\xff"
"\xff\xff\xff\xff\xff\xff\xff\xff",
},
};
#endif
/**
* RTE_FLOW_ITEM_TYPE_ICMP.
*
* Matches an ICMP header.
*/
struct rte_flow_item_icmp {
struct icmp_hdr hdr; /**< ICMP header definition. */
};
/** Default mask for RTE_FLOW_ITEM_TYPE_ICMP. */
#ifndef __cplusplus
static const struct rte_flow_item_icmp rte_flow_item_icmp_mask = {
.hdr = {
.icmp_type = 0xff,
.icmp_code = 0xff,
},
};
#endif
/**
* RTE_FLOW_ITEM_TYPE_UDP.
*
* Matches a UDP header.
*/
struct rte_flow_item_udp {
struct udp_hdr hdr; /**< UDP header definition. */
};
/** Default mask for RTE_FLOW_ITEM_TYPE_UDP. */
#ifndef __cplusplus
static const struct rte_flow_item_udp rte_flow_item_udp_mask = {
.hdr = {
.src_port = RTE_BE16(0xffff),
.dst_port = RTE_BE16(0xffff),
},
};
#endif
/**
* RTE_FLOW_ITEM_TYPE_TCP.
*
* Matches a TCP header.
*/
struct rte_flow_item_tcp {
struct tcp_hdr hdr; /**< TCP header definition. */
};
/** Default mask for RTE_FLOW_ITEM_TYPE_TCP. */
#ifndef __cplusplus
static const struct rte_flow_item_tcp rte_flow_item_tcp_mask = {
.hdr = {
.src_port = RTE_BE16(0xffff),
.dst_port = RTE_BE16(0xffff),
},
};
#endif
/**
* RTE_FLOW_ITEM_TYPE_SCTP.
*
* Matches a SCTP header.
*/
struct rte_flow_item_sctp {
struct sctp_hdr hdr; /**< SCTP header definition. */
};
/** Default mask for RTE_FLOW_ITEM_TYPE_SCTP. */
#ifndef __cplusplus
static const struct rte_flow_item_sctp rte_flow_item_sctp_mask = {
.hdr = {
.src_port = RTE_BE16(0xffff),
.dst_port = RTE_BE16(0xffff),
},
};
#endif
/**
* RTE_FLOW_ITEM_TYPE_VXLAN.
*
* Matches a VXLAN header (RFC 7348).
*/
struct rte_flow_item_vxlan {
uint8_t flags; /**< Normally 0x08 (I flag). */
uint8_t rsvd0[3]; /**< Reserved, normally 0x000000. */
uint8_t vni[3]; /**< VXLAN identifier. */
uint8_t rsvd1; /**< Reserved, normally 0x00. */
};
/** Default mask for RTE_FLOW_ITEM_TYPE_VXLAN. */
#ifndef __cplusplus
static const struct rte_flow_item_vxlan rte_flow_item_vxlan_mask = {
.vni = "\xff\xff\xff",
};
#endif
/**
* RTE_FLOW_ITEM_TYPE_E_TAG.
*
* Matches a E-tag header.
*
* The corresponding standard outer EtherType (TPID) value is
* ETHER_TYPE_ETAG. It can be overridden by the preceding pattern item.
*/
struct rte_flow_item_e_tag {
/**
* E-Tag control information (E-TCI).
* E-PCP (3b), E-DEI (1b), ingress E-CID base (12b).
*/
rte_be16_t epcp_edei_in_ecid_b;
/** Reserved (2b), GRP (2b), E-CID base (12b). */
rte_be16_t rsvd_grp_ecid_b;
uint8_t in_ecid_e; /**< Ingress E-CID ext. */
uint8_t ecid_e; /**< E-CID ext. */
rte_be16_t inner_type; /**< Inner EtherType or TPID. */
};
/** Default mask for RTE_FLOW_ITEM_TYPE_E_TAG. */
#ifndef __cplusplus
static const struct rte_flow_item_e_tag rte_flow_item_e_tag_mask = {
.rsvd_grp_ecid_b = RTE_BE16(0x3fff),
};
#endif
/**
* RTE_FLOW_ITEM_TYPE_NVGRE.
*
* Matches a NVGRE header.
*/
struct rte_flow_item_nvgre {
/**
* Checksum (1b), undefined (1b), key bit (1b), sequence number (1b),
* reserved 0 (9b), version (3b).
*
* c_k_s_rsvd0_ver must have value 0x2000 according to RFC 7637.
*/
rte_be16_t c_k_s_rsvd0_ver;
rte_be16_t protocol; /**< Protocol type (0x6558). */
uint8_t tni[3]; /**< Virtual subnet ID. */
uint8_t flow_id; /**< Flow ID. */
};
/** Default mask for RTE_FLOW_ITEM_TYPE_NVGRE. */
#ifndef __cplusplus
static const struct rte_flow_item_nvgre rte_flow_item_nvgre_mask = {
.tni = "\xff\xff\xff",
};
#endif
/**
* RTE_FLOW_ITEM_TYPE_MPLS.
*
* Matches a MPLS header.
*/
struct rte_flow_item_mpls {
/**
* Label (20b), TC (3b), Bottom of Stack (1b).
*/
uint8_t label_tc_s[3];
uint8_t ttl; /** Time-to-Live. */
};
/** Default mask for RTE_FLOW_ITEM_TYPE_MPLS. */
#ifndef __cplusplus
static const struct rte_flow_item_mpls rte_flow_item_mpls_mask = {
.label_tc_s = "\xff\xff\xf0",
};
#endif
/**
* RTE_FLOW_ITEM_TYPE_GRE.
*
* Matches a GRE header.
*/
struct rte_flow_item_gre {
/**
* Checksum (1b), reserved 0 (12b), version (3b).
* Refer to RFC 2784.
*/
rte_be16_t c_rsvd0_ver;
rte_be16_t protocol; /**< Protocol type. */
};
/** Default mask for RTE_FLOW_ITEM_TYPE_GRE. */
#ifndef __cplusplus
static const struct rte_flow_item_gre rte_flow_item_gre_mask = {
.protocol = RTE_BE16(0xffff),
};
#endif
/**
* RTE_FLOW_ITEM_TYPE_FUZZY
*
* Fuzzy pattern match, expect faster than default.
*
* This is for device that support fuzzy match option.
* Usually a fuzzy match is fast but the cost is accuracy.
* i.e. Signature Match only match pattern's hash value, but it is
* possible two different patterns have the same hash value.
*
* Matching accuracy level can be configure by threshold.
* Driver can divide the range of threshold and map to different
* accuracy levels that device support.
*
* Threshold 0 means perfect match (no fuzziness), while threshold
* 0xffffffff means fuzziest match.
*/
struct rte_flow_item_fuzzy {
uint32_t thresh; /**< Accuracy threshold. */
};
/** Default mask for RTE_FLOW_ITEM_TYPE_FUZZY. */
#ifndef __cplusplus
static const struct rte_flow_item_fuzzy rte_flow_item_fuzzy_mask = {
.thresh = 0xffffffff,
};
#endif
/**
* RTE_FLOW_ITEM_TYPE_GTP.
*
* Matches a GTPv1 header.
*/
struct rte_flow_item_gtp {
/**
* Version (3b), protocol type (1b), reserved (1b),
* Extension header flag (1b),
* Sequence number flag (1b),
* N-PDU number flag (1b).
*/
uint8_t v_pt_rsv_flags;
uint8_t msg_type; /**< Message type. */
rte_be16_t msg_len; /**< Message length. */
rte_be32_t teid; /**< Tunnel endpoint identifier. */
};
/** Default mask for RTE_FLOW_ITEM_TYPE_GTP. */
#ifndef __cplusplus
static const struct rte_flow_item_gtp rte_flow_item_gtp_mask = {
.teid = RTE_BE32(0xffffffff),
};
#endif
/**
* RTE_FLOW_ITEM_TYPE_ESP
*
* Matches an ESP header.
*/
struct rte_flow_item_esp {
struct esp_hdr hdr; /**< ESP header definition. */
};
/** Default mask for RTE_FLOW_ITEM_TYPE_ESP. */
#ifndef __cplusplus
static const struct rte_flow_item_esp rte_flow_item_esp_mask = {
.hdr = {
.spi = 0xffffffff,
},
};
#endif
/**
* RTE_FLOW_ITEM_TYPE_GENEVE.
*
* Matches a GENEVE header.
*/
struct rte_flow_item_geneve {
/**
* Version (2b), length of the options fields (6b), OAM packet (1b),
* critical options present (1b), reserved 0 (6b).
*/
rte_be16_t ver_opt_len_o_c_rsvd0;
rte_be16_t protocol; /**< Protocol type. */
uint8_t vni[3]; /**< Virtual Network Identifier. */
uint8_t rsvd1; /**< Reserved, normally 0x00. */
};
/** Default mask for RTE_FLOW_ITEM_TYPE_GENEVE. */
#ifndef __cplusplus
static const struct rte_flow_item_geneve rte_flow_item_geneve_mask = {
.vni = "\xff\xff\xff",
};
#endif
/**
* RTE_FLOW_ITEM_TYPE_VXLAN_GPE (draft-ietf-nvo3-vxlan-gpe-05).
*
* Matches a VXLAN-GPE header.
*/
struct rte_flow_item_vxlan_gpe {
uint8_t flags; /**< Normally 0x0c (I and P flags). */
uint8_t rsvd0[2]; /**< Reserved, normally 0x0000. */
uint8_t protocol; /**< Protocol type. */
uint8_t vni[3]; /**< VXLAN identifier. */
uint8_t rsvd1; /**< Reserved, normally 0x00. */
};
/** Default mask for RTE_FLOW_ITEM_TYPE_VXLAN_GPE. */
#ifndef __cplusplus
static const struct rte_flow_item_vxlan_gpe rte_flow_item_vxlan_gpe_mask = {
.vni = "\xff\xff\xff",
};
#endif
/**
* RTE_FLOW_ITEM_TYPE_ARP_ETH_IPV4
*
* Matches an ARP header for Ethernet/IPv4.
*/
struct rte_flow_item_arp_eth_ipv4 {
rte_be16_t hrd; /**< Hardware type, normally 1. */
rte_be16_t pro; /**< Protocol type, normally 0x0800. */
uint8_t hln; /**< Hardware address length, normally 6. */
uint8_t pln; /**< Protocol address length, normally 4. */
rte_be16_t op; /**< Opcode (1 for request, 2 for reply). */
struct ether_addr sha; /**< Sender hardware address. */
rte_be32_t spa; /**< Sender IPv4 address. */
struct ether_addr tha; /**< Target hardware address. */
rte_be32_t tpa; /**< Target IPv4 address. */
};
/** Default mask for RTE_FLOW_ITEM_TYPE_ARP_ETH_IPV4. */
#ifndef __cplusplus
static const struct rte_flow_item_arp_eth_ipv4
rte_flow_item_arp_eth_ipv4_mask = {
.sha.addr_bytes = "\xff\xff\xff\xff\xff\xff",
.spa = RTE_BE32(0xffffffff),
.tha.addr_bytes = "\xff\xff\xff\xff\xff\xff",
.tpa = RTE_BE32(0xffffffff),
};
#endif
/**
* RTE_FLOW_ITEM_TYPE_IPV6_EXT
*
* Matches the presence of any IPv6 extension header.
*
* Normally preceded by any of:
*
* - RTE_FLOW_ITEM_TYPE_IPV6
* - RTE_FLOW_ITEM_TYPE_IPV6_EXT
*/
struct rte_flow_item_ipv6_ext {
uint8_t next_hdr; /**< Next header. */
};
/** Default mask for RTE_FLOW_ITEM_TYPE_IPV6_EXT. */
#ifndef __cplusplus
static const
struct rte_flow_item_ipv6_ext rte_flow_item_ipv6_ext_mask = {
.next_hdr = 0xff,
};
#endif
/**
* RTE_FLOW_ITEM_TYPE_ICMP6
*
* Matches any ICMPv6 header.
*/
struct rte_flow_item_icmp6 {
uint8_t type; /**< ICMPv6 type. */
uint8_t code; /**< ICMPv6 code. */
uint16_t checksum; /**< ICMPv6 checksum. */
};
/** Default mask for RTE_FLOW_ITEM_TYPE_ICMP6. */
#ifndef __cplusplus
static const struct rte_flow_item_icmp6 rte_flow_item_icmp6_mask = {
.type = 0xff,
.code = 0xff,
};
#endif
/**
* RTE_FLOW_ITEM_TYPE_ICMP6_ND_NS
*
* Matches an ICMPv6 neighbor discovery solicitation.
*/
struct rte_flow_item_icmp6_nd_ns {
uint8_t type; /**< ICMPv6 type, normally 135. */
uint8_t code; /**< ICMPv6 code, normally 0. */
rte_be16_t checksum; /**< ICMPv6 checksum. */
rte_be32_t reserved; /**< Reserved, normally 0. */
uint8_t target_addr[16]; /**< Target address. */
};
/** Default mask for RTE_FLOW_ITEM_TYPE_ICMP6_ND_NS. */
#ifndef __cplusplus
static const
struct rte_flow_item_icmp6_nd_ns rte_flow_item_icmp6_nd_ns_mask = {
.target_addr =
"\xff\xff\xff\xff\xff\xff\xff\xff"
"\xff\xff\xff\xff\xff\xff\xff\xff",
};
#endif
/**
* RTE_FLOW_ITEM_TYPE_ICMP6_ND_NA
*
* Matches an ICMPv6 neighbor discovery advertisement.
*/
struct rte_flow_item_icmp6_nd_na {
uint8_t type; /**< ICMPv6 type, normally 136. */
uint8_t code; /**< ICMPv6 code, normally 0. */
rte_be16_t checksum; /**< ICMPv6 checksum. */
/**
* Route flag (1b), solicited flag (1b), override flag (1b),
* reserved (29b).
*/
rte_be32_t rso_reserved;
uint8_t target_addr[16]; /**< Target address. */
};
/** Default mask for RTE_FLOW_ITEM_TYPE_ICMP6_ND_NA. */
#ifndef __cplusplus
static const
struct rte_flow_item_icmp6_nd_na rte_flow_item_icmp6_nd_na_mask = {
.target_addr =
"\xff\xff\xff\xff\xff\xff\xff\xff"
"\xff\xff\xff\xff\xff\xff\xff\xff",
};
#endif
/**
* RTE_FLOW_ITEM_TYPE_ICMP6_ND_OPT
*
* Matches the presence of any ICMPv6 neighbor discovery option.
*
* Normally preceded by any of:
*
* - RTE_FLOW_ITEM_TYPE_ICMP6_ND_NA
* - RTE_FLOW_ITEM_TYPE_ICMP6_ND_NS
* - RTE_FLOW_ITEM_TYPE_ICMP6_ND_OPT
*/
struct rte_flow_item_icmp6_nd_opt {
uint8_t type; /**< ND option type. */
uint8_t length; /**< ND option length. */
};
/** Default mask for RTE_FLOW_ITEM_TYPE_ICMP6_ND_OPT. */
#ifndef __cplusplus
static const struct rte_flow_item_icmp6_nd_opt
rte_flow_item_icmp6_nd_opt_mask = {
.type = 0xff,
};
#endif
/**
* RTE_FLOW_ITEM_TYPE_ICMP6_ND_OPT_SLA_ETH
*
* Matches an ICMPv6 neighbor discovery source Ethernet link-layer address
* option.
*
* Normally preceded by any of:
*
* - RTE_FLOW_ITEM_TYPE_ICMP6_ND_NA
* - RTE_FLOW_ITEM_TYPE_ICMP6_ND_OPT
*/
struct rte_flow_item_icmp6_nd_opt_sla_eth {
uint8_t type; /**< ND option type, normally 1. */
uint8_t length; /**< ND option length, normally 1. */
struct ether_addr sla; /**< Source Ethernet LLA. */
};
/** Default mask for RTE_FLOW_ITEM_TYPE_ICMP6_ND_OPT_SLA_ETH. */
#ifndef __cplusplus
static const struct rte_flow_item_icmp6_nd_opt_sla_eth
rte_flow_item_icmp6_nd_opt_sla_eth_mask = {
.sla.addr_bytes = "\xff\xff\xff\xff\xff\xff",
};
#endif
/**
* RTE_FLOW_ITEM_TYPE_ICMP6_ND_OPT_TLA_ETH
*
* Matches an ICMPv6 neighbor discovery target Ethernet link-layer address
* option.
*
* Normally preceded by any of:
*
* - RTE_FLOW_ITEM_TYPE_ICMP6_ND_NS
* - RTE_FLOW_ITEM_TYPE_ICMP6_ND_OPT
*/
struct rte_flow_item_icmp6_nd_opt_tla_eth {
uint8_t type; /**< ND option type, normally 2. */
uint8_t length; /**< ND option length, normally 1. */
struct ether_addr tla; /**< Target Ethernet LLA. */
};
/** Default mask for RTE_FLOW_ITEM_TYPE_ICMP6_ND_OPT_TLA_ETH. */
#ifndef __cplusplus
static const struct rte_flow_item_icmp6_nd_opt_tla_eth
rte_flow_item_icmp6_nd_opt_tla_eth_mask = {
.tla.addr_bytes = "\xff\xff\xff\xff\xff\xff",
};
#endif
/**
* RTE_FLOW_ITEM_TYPE_META.
*
* Matches a specified metadata value.
*/
struct rte_flow_item_meta {
rte_be32_t data;
};
/** Default mask for RTE_FLOW_ITEM_TYPE_META. */
#ifndef __cplusplus
static const struct rte_flow_item_meta rte_flow_item_meta_mask = {
.data = RTE_BE32(UINT32_MAX),
};
#endif
/**
* @warning
* @b EXPERIMENTAL: this structure may change without prior notice
*
* RTE_FLOW_ITEM_TYPE_MARK
*
* Matches an arbitrary integer value which was set using the ``MARK`` action
* in a previously matched rule.
*
* This item can only be specified once as a match criteria as the ``MARK``
* action can only be specified once in a flow action.
*
* This value is arbitrary and application-defined. Maximum allowed value
* depends on the underlying implementation.
*
* Depending on the underlying implementation the MARK item may be supported on
* the physical device, with virtual groups in the PMD or not at all.
*/
struct rte_flow_item_mark {
uint32_t id; /**< Integer value to match against. */
};
/**
* Matching pattern item definition.
*
* A pattern is formed by stacking items starting from the lowest protocol
* layer to match. This stacking restriction does not apply to meta items
* which can be placed anywhere in the stack without affecting the meaning
* of the resulting pattern.
*
* Patterns are terminated by END items.
*
* The spec field should be a valid pointer to a structure of the related
* item type. It may remain unspecified (NULL) in many cases to request
* broad (nonspecific) matching. In such cases, last and mask must also be
* set to NULL.
*
* Optionally, last can point to a structure of the same type to define an
* inclusive range. This is mostly supported by integer and address fields,
* may cause errors otherwise. Fields that do not support ranges must be set
* to 0 or to the same value as the corresponding fields in spec.
*
* Only the fields defined to nonzero values in the default masks (see
* rte_flow_item_{name}_mask constants) are considered relevant by
* default. This can be overridden by providing a mask structure of the
* same type with applicable bits set to one. It can also be used to
* partially filter out specific fields (e.g. as an alternate mean to match
* ranges of IP addresses).
*
* Mask is a simple bit-mask applied before interpreting the contents of
* spec and last, which may yield unexpected results if not used
* carefully. For example, if for an IPv4 address field, spec provides
* 10.1.2.3, last provides 10.3.4.5 and mask provides 255.255.0.0, the
* effective range becomes 10.1.0.0 to 10.3.255.255.
*/
struct rte_flow_item {
enum rte_flow_item_type type; /**< Item type. */
const void *spec; /**< Pointer to item specification structure. */
const void *last; /**< Defines an inclusive range (spec to last). */
const void *mask; /**< Bit-mask applied to spec and last. */
};
/**
* Action types.
*
* Each possible action is represented by a type. Some have associated
* configuration structures. Several actions combined in a list can be
* assigned to a flow rule and are performed in order.
*
* They fall in three categories:
*
* - Actions that modify the fate of matching traffic, for instance by
* dropping or assigning it a specific destination.
*
* - Actions that modify matching traffic contents or its properties. This
* includes adding/removing encapsulation, encryption, compression and
* marks.
*
* - Actions related to the flow rule itself, such as updating counters or
* making it non-terminating.
*
* Flow rules being terminating by default, not specifying any action of the
* fate kind results in undefined behavior. This applies to both ingress and
* egress.
*
* PASSTHRU, when supported, makes a flow rule non-terminating.
*/
enum rte_flow_action_type {
/**
* End marker for action lists. Prevents further processing of
* actions, thereby ending the list.
*
* No associated configuration structure.
*/
RTE_FLOW_ACTION_TYPE_END,
/**
* Used as a placeholder for convenience. It is ignored and simply
* discarded by PMDs.
*
* No associated configuration structure.
*/
RTE_FLOW_ACTION_TYPE_VOID,
/**
* Leaves traffic up for additional processing by subsequent flow
* rules; makes a flow rule non-terminating.
*
* No associated configuration structure.
*/
RTE_FLOW_ACTION_TYPE_PASSTHRU,
/**
* RTE_FLOW_ACTION_TYPE_JUMP
*
* Redirects packets to a group on the current device.
*
* See struct rte_flow_action_jump.
*/
RTE_FLOW_ACTION_TYPE_JUMP,
/**
* Attaches an integer value to packets and sets PKT_RX_FDIR and
* PKT_RX_FDIR_ID mbuf flags.
*
* See struct rte_flow_action_mark.
*/
RTE_FLOW_ACTION_TYPE_MARK,
/**
* Flags packets. Similar to MARK without a specific value; only
* sets the PKT_RX_FDIR mbuf flag.
*
* No associated configuration structure.
*/
RTE_FLOW_ACTION_TYPE_FLAG,
/**
* Assigns packets to a given queue index.
*
* See struct rte_flow_action_queue.
*/
RTE_FLOW_ACTION_TYPE_QUEUE,
/**
* Drops packets.
*
* PASSTHRU overrides this action if both are specified.
*
* No associated configuration structure.
*/
RTE_FLOW_ACTION_TYPE_DROP,
/**
* Enables counters for this flow rule.
*
* These counters can be retrieved and reset through rte_flow_query(),
* see struct rte_flow_query_count.
*
* See struct rte_flow_action_count.
*/
RTE_FLOW_ACTION_TYPE_COUNT,
/**
* Similar to QUEUE, except RSS is additionally performed on packets
* to spread them among several queues according to the provided
* parameters.
*
* See struct rte_flow_action_rss.
*/
RTE_FLOW_ACTION_TYPE_RSS,
/**
* Directs matching traffic to the physical function (PF) of the
* current device.
*
* No associated configuration structure.
*/
RTE_FLOW_ACTION_TYPE_PF,
/**
* Directs matching traffic to a given virtual function of the
* current device.
*
* See struct rte_flow_action_vf.
*/
RTE_FLOW_ACTION_TYPE_VF,
/**
* Directs packets to a given physical port index of the underlying
* device.
*
* See struct rte_flow_action_phy_port.
*/
RTE_FLOW_ACTION_TYPE_PHY_PORT,
/**
* Directs matching traffic to a given DPDK port ID.
*
* See struct rte_flow_action_port_id.
*/
RTE_FLOW_ACTION_TYPE_PORT_ID,
/**
* Traffic metering and policing (MTR).
*
* See struct rte_flow_action_meter.
* See file rte_mtr.h for MTR object configuration.
*/
RTE_FLOW_ACTION_TYPE_METER,
/**
* Redirects packets to security engine of current device for security
* processing as specified by security session.
*
* See struct rte_flow_action_security.
*/
RTE_FLOW_ACTION_TYPE_SECURITY,
/**
* Implements OFPAT_SET_MPLS_TTL ("MPLS TTL") as defined by the
* OpenFlow Switch Specification.
*
* See struct rte_flow_action_of_set_mpls_ttl.
*/
RTE_FLOW_ACTION_TYPE_OF_SET_MPLS_TTL,
/**
* Implements OFPAT_DEC_MPLS_TTL ("decrement MPLS TTL") as defined
* by the OpenFlow Switch Specification.
*
* No associated configuration structure.
*/
RTE_FLOW_ACTION_TYPE_OF_DEC_MPLS_TTL,
/**
* Implements OFPAT_SET_NW_TTL ("IP TTL") as defined by the OpenFlow
* Switch Specification.
*
* See struct rte_flow_action_of_set_nw_ttl.
*/
RTE_FLOW_ACTION_TYPE_OF_SET_NW_TTL,
/**
* Implements OFPAT_DEC_NW_TTL ("decrement IP TTL") as defined by
* the OpenFlow Switch Specification.
*
* No associated configuration structure.
*/
RTE_FLOW_ACTION_TYPE_OF_DEC_NW_TTL,
/**
* Implements OFPAT_COPY_TTL_OUT ("copy TTL "outwards" -- from
* next-to-outermost to outermost") as defined by the OpenFlow
* Switch Specification.
*
* No associated configuration structure.
*/
RTE_FLOW_ACTION_TYPE_OF_COPY_TTL_OUT,
/**
* Implements OFPAT_COPY_TTL_IN ("copy TTL "inwards" -- from
* outermost to next-to-outermost") as defined by the OpenFlow
* Switch Specification.
*
* No associated configuration structure.
*/
RTE_FLOW_ACTION_TYPE_OF_COPY_TTL_IN,
/**
* Implements OFPAT_POP_VLAN ("pop the outer VLAN tag") as defined
* by the OpenFlow Switch Specification.
*
* No associated configuration structure.
*/
RTE_FLOW_ACTION_TYPE_OF_POP_VLAN,
/**
* Implements OFPAT_PUSH_VLAN ("push a new VLAN tag") as defined by
* the OpenFlow Switch Specification.
*
* See struct rte_flow_action_of_push_vlan.
*/
RTE_FLOW_ACTION_TYPE_OF_PUSH_VLAN,
/**
* Implements OFPAT_SET_VLAN_VID ("set the 802.1q VLAN id") as
* defined by the OpenFlow Switch Specification.
*
* See struct rte_flow_action_of_set_vlan_vid.
*/
RTE_FLOW_ACTION_TYPE_OF_SET_VLAN_VID,
/**
* Implements OFPAT_SET_LAN_PCP ("set the 802.1q priority") as
* defined by the OpenFlow Switch Specification.
*
* See struct rte_flow_action_of_set_vlan_pcp.
*/
RTE_FLOW_ACTION_TYPE_OF_SET_VLAN_PCP,
/**
* Implements OFPAT_POP_MPLS ("pop the outer MPLS tag") as defined
* by the OpenFlow Switch Specification.
*
* See struct rte_flow_action_of_pop_mpls.
*/
RTE_FLOW_ACTION_TYPE_OF_POP_MPLS,
/**
* Implements OFPAT_PUSH_MPLS ("push a new MPLS tag") as defined by
* the OpenFlow Switch Specification.
*
* See struct rte_flow_action_of_push_mpls.
*/
RTE_FLOW_ACTION_TYPE_OF_PUSH_MPLS,
/**
* Encapsulate flow in VXLAN tunnel as defined in
* rte_flow_action_vxlan_encap action structure.
*
* See struct rte_flow_action_vxlan_encap.
*/
RTE_FLOW_ACTION_TYPE_VXLAN_ENCAP,
/**
* Decapsulate outer most VXLAN tunnel from matched flow.
*
* If flow pattern does not define a valid VXLAN tunnel (as specified by
* RFC7348) then the PMD should return a RTE_FLOW_ERROR_TYPE_ACTION
* error.
*/
RTE_FLOW_ACTION_TYPE_VXLAN_DECAP,
/**
* Encapsulate flow in NVGRE tunnel defined in the
* rte_flow_action_nvgre_encap action structure.
*
* See struct rte_flow_action_nvgre_encap.
*/
RTE_FLOW_ACTION_TYPE_NVGRE_ENCAP,
/**
* Decapsulate outer most NVGRE tunnel from matched flow.
*
* If flow pattern does not define a valid NVGRE tunnel (as specified by
* RFC7637) then the PMD should return a RTE_FLOW_ERROR_TYPE_ACTION
* error.
*/
RTE_FLOW_ACTION_TYPE_NVGRE_DECAP,
/**
* Add outer header whose template is provided in its data buffer
*
* See struct rte_flow_action_raw_encap.
*/
RTE_FLOW_ACTION_TYPE_RAW_ENCAP,
/**
* Remove outer header whose template is provided in its data buffer.
*
* See struct rte_flow_action_raw_decap
*/
RTE_FLOW_ACTION_TYPE_RAW_DECAP,
/**
* Modify IPv4 source address in the outermost IPv4 header.
*
* If flow pattern does not define a valid RTE_FLOW_ITEM_TYPE_IPV4,
* then the PMD should return a RTE_FLOW_ERROR_TYPE_ACTION error.
*
* See struct rte_flow_action_set_ipv4.
*/
RTE_FLOW_ACTION_TYPE_SET_IPV4_SRC,
/**
* Modify IPv4 destination address in the outermost IPv4 header.
*
* If flow pattern does not define a valid RTE_FLOW_ITEM_TYPE_IPV4,
* then the PMD should return a RTE_FLOW_ERROR_TYPE_ACTION error.
*
* See struct rte_flow_action_set_ipv4.
*/
RTE_FLOW_ACTION_TYPE_SET_IPV4_DST,
/**
* Modify IPv6 source address in the outermost IPv6 header.
*
* If flow pattern does not define a valid RTE_FLOW_ITEM_TYPE_IPV6,
* then the PMD should return a RTE_FLOW_ERROR_TYPE_ACTION error.
*
* See struct rte_flow_action_set_ipv6.
*/
RTE_FLOW_ACTION_TYPE_SET_IPV6_SRC,
/**
* Modify IPv6 destination address in the outermost IPv6 header.
*
* If flow pattern does not define a valid RTE_FLOW_ITEM_TYPE_IPV6,
* then the PMD should return a RTE_FLOW_ERROR_TYPE_ACTION error.
*
* See struct rte_flow_action_set_ipv6.
*/
RTE_FLOW_ACTION_TYPE_SET_IPV6_DST,
/**
* Modify source port number in the outermost TCP/UDP header.
*
* If flow pattern does not define a valid RTE_FLOW_ITEM_TYPE_TCP
* or RTE_FLOW_ITEM_TYPE_UDP, then the PMD should return a
* RTE_FLOW_ERROR_TYPE_ACTION error.
*
* See struct rte_flow_action_set_tp.
*/
RTE_FLOW_ACTION_TYPE_SET_TP_SRC,
/**
* Modify destination port number in the outermost TCP/UDP header.
*
* If flow pattern does not define a valid RTE_FLOW_ITEM_TYPE_TCP
* or RTE_FLOW_ITEM_TYPE_UDP, then the PMD should return a
* RTE_FLOW_ERROR_TYPE_ACTION error.
*
* See struct rte_flow_action_set_tp.
*/
RTE_FLOW_ACTION_TYPE_SET_TP_DST,
/**
* Swap the source and destination MAC addresses in the outermost
* Ethernet header.
*
* If flow pattern does not define a valid RTE_FLOW_ITEM_TYPE_ETH,
* then the PMD should return a RTE_FLOW_ERROR_TYPE_ACTION error.
*
* No associated configuration structure.
*/
RTE_FLOW_ACTION_TYPE_MAC_SWAP,
/**
* Decrease TTL value directly
*
* No associated configuration structure.
*/
RTE_FLOW_ACTION_TYPE_DEC_TTL,
/**
* Set TTL value
*
* See struct rte_flow_action_set_ttl
*/
RTE_FLOW_ACTION_TYPE_SET_TTL,
/**
* Set source MAC address from matched flow.
*
* If flow pattern does not define a valid RTE_FLOW_ITEM_TYPE_ETH,
* the PMD should return a RTE_FLOW_ERROR_TYPE_ACTION error.
*
* See struct rte_flow_action_set_mac.
*/
RTE_FLOW_ACTION_TYPE_SET_MAC_SRC,
/**
* Set destination MAC address from matched flow.
*
* If flow pattern does not define a valid RTE_FLOW_ITEM_TYPE_ETH,
* the PMD should return a RTE_FLOW_ERROR_TYPE_ACTION error.
*
* See struct rte_flow_action_set_mac.
*/
RTE_FLOW_ACTION_TYPE_SET_MAC_DST,
};
/**
* RTE_FLOW_ACTION_TYPE_MARK
*
* Attaches an integer value to packets and sets PKT_RX_FDIR and
* PKT_RX_FDIR_ID mbuf flags.
*
* This value is arbitrary and application-defined. Maximum allowed value
* depends on the underlying implementation. It is returned in the
* hash.fdir.hi mbuf field.
*/
struct rte_flow_action_mark {
uint32_t id; /**< Integer value to return with packets. */
};
/**
* @warning
* @b EXPERIMENTAL: this structure may change without prior notice
*
* RTE_FLOW_ACTION_TYPE_JUMP
*
* Redirects packets to a group on the current device.
*
* In a hierarchy of groups, which can be used to represent physical or logical
* flow tables on the device, this action allows the action to be a redirect to
* a group on that device.
*/
struct rte_flow_action_jump {
uint32_t group;
};
/**
* RTE_FLOW_ACTION_TYPE_QUEUE
*
* Assign packets to a given queue index.
*/
struct rte_flow_action_queue {
uint16_t index; /**< Queue index to use. */
};
/**
* @warning
* @b EXPERIMENTAL: this structure may change without prior notice
*
* RTE_FLOW_ACTION_TYPE_COUNT
*
* Adds a counter action to a matched flow.
*
* If more than one count action is specified in a single flow rule, then each
* action must specify a unique id.
*
* Counters can be retrieved and reset through ``rte_flow_query()``, see
* ``struct rte_flow_query_count``.
*
* The shared flag indicates whether the counter is unique to the flow rule the
* action is specified with, or whether it is a shared counter.
*
* For a count action with the shared flag set, then then a global device
* namespace is assumed for the counter id, so that any matched flow rules using
* a count action with the same counter id on the same port will contribute to
* that counter.
*
* For ports within the same switch domain then the counter id namespace extends
* to all ports within that switch domain.
*/
struct rte_flow_action_count {
uint32_t shared:1; /**< Share counter ID with other flow rules. */
uint32_t reserved:31; /**< Reserved, must be zero. */
uint32_t id; /**< Counter ID. */
};
/**
* RTE_FLOW_ACTION_TYPE_COUNT (query)
*
* Query structure to retrieve and reset flow rule counters.
*/
struct rte_flow_query_count {
uint32_t reset:1; /**< Reset counters after query [in]. */
uint32_t hits_set:1; /**< hits field is set [out]. */
uint32_t bytes_set:1; /**< bytes field is set [out]. */
uint32_t reserved:29; /**< Reserved, must be zero [in, out]. */
uint64_t hits; /**< Number of hits for this rule [out]. */
uint64_t bytes; /**< Number of bytes through this rule [out]. */
};
/**
* RTE_FLOW_ACTION_TYPE_RSS
*
* Similar to QUEUE, except RSS is additionally performed on packets to
* spread them among several queues according to the provided parameters.
*
* Unlike global RSS settings used by other DPDK APIs, unsetting the
* @p types field does not disable RSS in a flow rule. Doing so instead
* requests safe unspecified "best-effort" settings from the underlying PMD,
* which depending on the flow rule, may result in anything ranging from
* empty (single queue) to all-inclusive RSS.
*
* Note: RSS hash result is stored in the hash.rss mbuf field which overlaps
* hash.fdir.lo. Since the MARK action sets the hash.fdir.hi field only,
* both can be requested simultaneously.
*/
struct rte_flow_action_rss {
enum rte_eth_hash_function func; /**< RSS hash function to apply. */
/**
* Packet encapsulation level RSS hash @p types apply to.
*
* - @p 0 requests the default behavior. Depending on the packet
* type, it can mean outermost, innermost, anything in between or
* even no RSS.
*
* It basically stands for the innermost encapsulation level RSS
* can be performed on according to PMD and device capabilities.
*
* - @p 1 requests RSS to be performed on the outermost packet
* encapsulation level.
*
* - @p 2 and subsequent values request RSS to be performed on the
* specified inner packet encapsulation level, from outermost to
* innermost (lower to higher values).
*
* Values other than @p 0 are not necessarily supported.
*
* Requesting a specific RSS level on unrecognized traffic results
* in undefined behavior. For predictable results, it is recommended
* to make the flow rule pattern match packet headers up to the
* requested encapsulation level so that only matching traffic goes
* through.
*/
uint32_t level;
uint64_t types; /**< Specific RSS hash types (see ETH_RSS_*). */
uint32_t key_len; /**< Hash key length in bytes. */
uint32_t queue_num; /**< Number of entries in @p queue. */
const uint8_t *key; /**< Hash key. */
const uint16_t *queue; /**< Queue indices to use. */
};
/**
* RTE_FLOW_ACTION_TYPE_VF
*
* Directs matching traffic to a given virtual function of the current
* device.
*
* Packets matched by a VF pattern item can be redirected to their original
* VF ID instead of the specified one. This parameter may not be available
* and is not guaranteed to work properly if the VF part is matched by a
* prior flow rule or if packets are not addressed to a VF in the first
* place.
*/
struct rte_flow_action_vf {
uint32_t original:1; /**< Use original VF ID if possible. */
uint32_t reserved:31; /**< Reserved, must be zero. */
uint32_t id; /**< VF ID. */
};
/**
* RTE_FLOW_ACTION_TYPE_PHY_PORT
*
* Directs packets to a given physical port index of the underlying
* device.
*
* @see RTE_FLOW_ITEM_TYPE_PHY_PORT
*/
struct rte_flow_action_phy_port {
uint32_t original:1; /**< Use original port index if possible. */
uint32_t reserved:31; /**< Reserved, must be zero. */
uint32_t index; /**< Physical port index. */
};
/**
* RTE_FLOW_ACTION_TYPE_PORT_ID
*
* Directs matching traffic to a given DPDK port ID.
*
* @see RTE_FLOW_ITEM_TYPE_PORT_ID
*/
struct rte_flow_action_port_id {
uint32_t original:1; /**< Use original DPDK port ID if possible. */
uint32_t reserved:31; /**< Reserved, must be zero. */
uint32_t id; /**< DPDK port ID. */
};
/**
* RTE_FLOW_ACTION_TYPE_METER
*
* Traffic metering and policing (MTR).
*
* Packets matched by items of this type can be either dropped or passed to the
* next item with their color set by the MTR object.
*/
struct rte_flow_action_meter {
uint32_t mtr_id; /**< MTR object ID created with rte_mtr_create(). */
};
/**
* RTE_FLOW_ACTION_TYPE_SECURITY
*
* Perform the security action on flows matched by the pattern items
* according to the configuration of the security session.
*
* This action modifies the payload of matched flows. For INLINE_CRYPTO, the
* security protocol headers and IV are fully provided by the application as
* specified in the flow pattern. The payload of matching packets is
* encrypted on egress, and decrypted and authenticated on ingress.
* For INLINE_PROTOCOL, the security protocol is fully offloaded to HW,
* providing full encapsulation and decapsulation of packets in security
* protocols. The flow pattern specifies both the outer security header fields
* and the inner packet fields. The security session specified in the action
* must match the pattern parameters.
*
* The security session specified in the action must be created on the same
* port as the flow action that is being specified.
*
* The ingress/egress flow attribute should match that specified in the
* security session if the security session supports the definition of the
* direction.
*
* Multiple flows can be configured to use the same security session.
*/
struct rte_flow_action_security {
void *security_session; /**< Pointer to security session structure. */
};
/**
* RTE_FLOW_ACTION_TYPE_OF_SET_MPLS_TTL
*
* Implements OFPAT_SET_MPLS_TTL ("MPLS TTL") as defined by the OpenFlow
* Switch Specification.
*/
struct rte_flow_action_of_set_mpls_ttl {
uint8_t mpls_ttl; /**< MPLS TTL. */
};
/**
* RTE_FLOW_ACTION_TYPE_OF_SET_NW_TTL
*
* Implements OFPAT_SET_NW_TTL ("IP TTL") as defined by the OpenFlow Switch
* Specification.
*/
struct rte_flow_action_of_set_nw_ttl {
uint8_t nw_ttl; /**< IP TTL. */
};
/**
* RTE_FLOW_ACTION_TYPE_OF_PUSH_VLAN
*
* Implements OFPAT_PUSH_VLAN ("push a new VLAN tag") as defined by the
* OpenFlow Switch Specification.
*/
struct rte_flow_action_of_push_vlan {
rte_be16_t ethertype; /**< EtherType. */
};
/**
* RTE_FLOW_ACTION_TYPE_OF_SET_VLAN_VID
*
* Implements OFPAT_SET_VLAN_VID ("set the 802.1q VLAN id") as defined by
* the OpenFlow Switch Specification.
*/
struct rte_flow_action_of_set_vlan_vid {
rte_be16_t vlan_vid; /**< VLAN id. */
};
/**
* RTE_FLOW_ACTION_TYPE_OF_SET_VLAN_PCP
*
* Implements OFPAT_SET_LAN_PCP ("set the 802.1q priority") as defined by
* the OpenFlow Switch Specification.
*/
struct rte_flow_action_of_set_vlan_pcp {
uint8_t vlan_pcp; /**< VLAN priority. */
};
/**
* RTE_FLOW_ACTION_TYPE_OF_POP_MPLS
*
* Implements OFPAT_POP_MPLS ("pop the outer MPLS tag") as defined by the
* OpenFlow Switch Specification.
*/
struct rte_flow_action_of_pop_mpls {
rte_be16_t ethertype; /**< EtherType. */
};
/**
* RTE_FLOW_ACTION_TYPE_OF_PUSH_MPLS
*
* Implements OFPAT_PUSH_MPLS ("push a new MPLS tag") as defined by the
* OpenFlow Switch Specification.
*/
struct rte_flow_action_of_push_mpls {
rte_be16_t ethertype; /**< EtherType. */
};
/**
* @warning
* @b EXPERIMENTAL: this structure may change without prior notice
*
* RTE_FLOW_ACTION_TYPE_VXLAN_ENCAP
*
* VXLAN tunnel end-point encapsulation data definition
*
* The tunnel definition is provided through the flow item pattern, the
* provided pattern must conform to RFC7348 for the tunnel specified. The flow
* definition must be provided in order from the RTE_FLOW_ITEM_TYPE_ETH
* definition up the end item which is specified by RTE_FLOW_ITEM_TYPE_END.
*
* The mask field allows user to specify which fields in the flow item
* definitions can be ignored and which have valid data and can be used
* verbatim.
*
* Note: the last field is not used in the definition of a tunnel and can be
* ignored.
*
* Valid flow definition for RTE_FLOW_ACTION_TYPE_VXLAN_ENCAP include:
*
* - ETH / IPV4 / UDP / VXLAN / END
* - ETH / IPV6 / UDP / VXLAN / END
* - ETH / VLAN / IPV4 / UDP / VXLAN / END
*
*/
struct rte_flow_action_vxlan_encap {
/**
* Encapsulating vxlan tunnel definition
* (terminated by the END pattern item).
*/
struct rte_flow_item *definition;
};
/**
* @warning
* @b EXPERIMENTAL: this structure may change without prior notice
*
* RTE_FLOW_ACTION_TYPE_NVGRE_ENCAP
*
* NVGRE tunnel end-point encapsulation data definition
*
* The tunnel definition is provided through the flow item pattern the
* provided pattern must conform with RFC7637. The flow definition must be
* provided in order from the RTE_FLOW_ITEM_TYPE_ETH definition up the end item
* which is specified by RTE_FLOW_ITEM_TYPE_END.
*
* The mask field allows user to specify which fields in the flow item
* definitions can be ignored and which have valid data and can be used
* verbatim.
*
* Note: the last field is not used in the definition of a tunnel and can be
* ignored.
*
* Valid flow definition for RTE_FLOW_ACTION_TYPE_NVGRE_ENCAP include:
*
* - ETH / IPV4 / NVGRE / END
* - ETH / VLAN / IPV6 / NVGRE / END
*
*/
struct rte_flow_action_nvgre_encap {
/**
* Encapsulating vxlan tunnel definition
* (terminated by the END pattern item).
*/
struct rte_flow_item *definition;
};
/**
* @warning
* @b EXPERIMENTAL: this structure may change without prior notice
*
* RTE_FLOW_ACTION_TYPE_RAW_ENCAP
*
* Raw tunnel end-point encapsulation data definition.
*
* The data holds the headers definitions to be applied on the packet.
* The data must start with ETH header up to the tunnel item header itself.
* When used right after RAW_DECAP (for decapsulating L3 tunnel type for
* example MPLSoGRE) the data will just hold layer 2 header.
*
* The preserve parameter holds which bits in the packet the PMD is not allowed
* to change, this parameter can also be NULL and then the PMD is allowed
* to update any field.
*
* size holds the number of bytes in @p data and @p preserve.
*/
struct rte_flow_action_raw_encap {
uint8_t *data; /**< Encapsulation data. */
uint8_t *preserve; /**< Bit-mask of @p data to preserve on output. */
size_t size; /**< Size of @p data and @p preserve. */
};
/**
* @warning
* @b EXPERIMENTAL: this structure may change without prior notice
*
* RTE_FLOW_ACTION_TYPE_RAW_DECAP
*
* Raw tunnel end-point decapsulation data definition.
*
* The data holds the headers definitions to be removed from the packet.
* The data must start with ETH header up to the tunnel item header itself.
* When used right before RAW_DECAP (for encapsulating L3 tunnel type for
* example MPLSoGRE) the data will just hold layer 2 header.
*
* size holds the number of bytes in @p data.
*/
struct rte_flow_action_raw_decap {
uint8_t *data; /**< Encapsulation data. */
size_t size; /**< Size of @p data and @p preserve. */
};
/**
* @warning
* @b EXPERIMENTAL: this structure may change without prior notice
*
* RTE_FLOW_ACTION_TYPE_SET_IPV4_SRC
* RTE_FLOW_ACTION_TYPE_SET_IPV4_DST
*
* Allows modification of IPv4 source (RTE_FLOW_ACTION_TYPE_SET_IPV4_SRC)
* and destination address (RTE_FLOW_ACTION_TYPE_SET_IPV4_DST) in the
* specified outermost IPv4 header.
*/
struct rte_flow_action_set_ipv4 {
rte_be32_t ipv4_addr;
};
/**
* @warning
* @b EXPERIMENTAL: this structure may change without prior notice
*
* RTE_FLOW_ACTION_TYPE_SET_IPV6_SRC
* RTE_FLOW_ACTION_TYPE_SET_IPV6_DST
*
* Allows modification of IPv6 source (RTE_FLOW_ACTION_TYPE_SET_IPV6_SRC)
* and destination address (RTE_FLOW_ACTION_TYPE_SET_IPV6_DST) in the
* specified outermost IPv6 header.
*/
struct rte_flow_action_set_ipv6 {
uint8_t ipv6_addr[16];
};
/**
* @warning
* @b EXPERIMENTAL: this structure may change without prior notice
*
* RTE_FLOW_ACTION_TYPE_SET_TP_SRC
* RTE_FLOW_ACTION_TYPE_SET_TP_DST
*
* Allows modification of source (RTE_FLOW_ACTION_TYPE_SET_TP_SRC)
* and destination (RTE_FLOW_ACTION_TYPE_SET_TP_DST) port numbers
* in the specified outermost TCP/UDP header.
*/
struct rte_flow_action_set_tp {
rte_be16_t port;
};
/**
* RTE_FLOW_ACTION_TYPE_SET_TTL
*
* Set the TTL value directly for IPv4 or IPv6
*/
struct rte_flow_action_set_ttl {
uint8_t ttl_value;
};
/**
* RTE_FLOW_ACTION_TYPE_SET_MAC
*
* Set MAC address from the matched flow
*/
struct rte_flow_action_set_mac {
uint8_t mac_addr[ETHER_ADDR_LEN];
};
/*
* Definition of a single action.
*
* A list of actions is terminated by a END action.
*
* For simple actions without a configuration structure, conf remains NULL.
*/
struct rte_flow_action {
enum rte_flow_action_type type; /**< Action type. */
const void *conf; /**< Pointer to action configuration structure. */
};
/**
* Opaque type returned after successfully creating a flow.
*
* This handle can be used to manage and query the related flow (e.g. to
* destroy it or retrieve counters).
*/
struct rte_flow;
/**
* Verbose error types.
*
* Most of them provide the type of the object referenced by struct
* rte_flow_error.cause.
*/
enum rte_flow_error_type {
RTE_FLOW_ERROR_TYPE_NONE, /**< No error. */
RTE_FLOW_ERROR_TYPE_UNSPECIFIED, /**< Cause unspecified. */
RTE_FLOW_ERROR_TYPE_HANDLE, /**< Flow rule (handle). */
RTE_FLOW_ERROR_TYPE_ATTR_GROUP, /**< Group field. */
RTE_FLOW_ERROR_TYPE_ATTR_PRIORITY, /**< Priority field. */
RTE_FLOW_ERROR_TYPE_ATTR_INGRESS, /**< Ingress field. */
RTE_FLOW_ERROR_TYPE_ATTR_EGRESS, /**< Egress field. */
RTE_FLOW_ERROR_TYPE_ATTR_TRANSFER, /**< Transfer field. */
RTE_FLOW_ERROR_TYPE_ATTR, /**< Attributes structure. */
RTE_FLOW_ERROR_TYPE_ITEM_NUM, /**< Pattern length. */
RTE_FLOW_ERROR_TYPE_ITEM_SPEC, /**< Item specification. */
RTE_FLOW_ERROR_TYPE_ITEM_LAST, /**< Item specification range. */
RTE_FLOW_ERROR_TYPE_ITEM_MASK, /**< Item specification mask. */
RTE_FLOW_ERROR_TYPE_ITEM, /**< Specific pattern item. */
RTE_FLOW_ERROR_TYPE_ACTION_NUM, /**< Number of actions. */
RTE_FLOW_ERROR_TYPE_ACTION_CONF, /**< Action configuration. */
RTE_FLOW_ERROR_TYPE_ACTION, /**< Specific action. */
};
/**
* Verbose error structure definition.
*
* This object is normally allocated by applications and set by PMDs, the
* message points to a constant string which does not need to be freed by
* the application, however its pointer can be considered valid only as long
* as its associated DPDK port remains configured. Closing the underlying
* device or unloading the PMD invalidates it.
*
* Both cause and message may be NULL regardless of the error type.
*/
struct rte_flow_error {
enum rte_flow_error_type type; /**< Cause field and error types. */
const void *cause; /**< Object responsible for the error. */
const char *message; /**< Human-readable error message. */
};
/**
* Complete flow rule description.
*
* This object type is used when converting a flow rule description.
*
* @see RTE_FLOW_CONV_OP_RULE
* @see rte_flow_conv()
*/
RTE_STD_C11
struct rte_flow_conv_rule {
union {
const struct rte_flow_attr *attr_ro; /**< RO attributes. */
struct rte_flow_attr *attr; /**< Attributes. */
};
union {
const struct rte_flow_item *pattern_ro; /**< RO pattern. */
struct rte_flow_item *pattern; /**< Pattern items. */
};
union {
const struct rte_flow_action *actions_ro; /**< RO actions. */
struct rte_flow_action *actions; /**< List of actions. */
};
};
/**
* Conversion operations for flow API objects.
*
* @see rte_flow_conv()
*/
enum rte_flow_conv_op {
/**
* No operation to perform.
*
* rte_flow_conv() simply returns 0.
*/
RTE_FLOW_CONV_OP_NONE,
/**
* Convert attributes structure.
*
* This is a basic copy of an attributes structure.
*
* - @p src type:
* @code const struct rte_flow_attr * @endcode
* - @p dst type:
* @code struct rte_flow_attr * @endcode
*/
RTE_FLOW_CONV_OP_ATTR,
/**
* Convert a single item.
*
* Duplicates @p spec, @p last and @p mask but not outside objects.
*
* - @p src type:
* @code const struct rte_flow_item * @endcode
* - @p dst type:
* @code struct rte_flow_item * @endcode
*/
RTE_FLOW_CONV_OP_ITEM,
/**
* Convert a single action.
*
* Duplicates @p conf but not outside objects.
*
* - @p src type:
* @code const struct rte_flow_action * @endcode
* - @p dst type:
* @code struct rte_flow_action * @endcode
*/
RTE_FLOW_CONV_OP_ACTION,
/**
* Convert an entire pattern.
*
* Duplicates all pattern items at once with the same constraints as
* RTE_FLOW_CONV_OP_ITEM.
*
* - @p src type:
* @code const struct rte_flow_item * @endcode
* - @p dst type:
* @code struct rte_flow_item * @endcode
*/
RTE_FLOW_CONV_OP_PATTERN,
/**
* Convert a list of actions.
*
* Duplicates the entire list of actions at once with the same
* constraints as RTE_FLOW_CONV_OP_ACTION.
*
* - @p src type:
* @code const struct rte_flow_action * @endcode
* - @p dst type:
* @code struct rte_flow_action * @endcode
*/
RTE_FLOW_CONV_OP_ACTIONS,
/**
* Convert a complete flow rule description.
*
* Comprises attributes, pattern and actions together at once with
* the usual constraints.
*
* - @p src type:
* @code const struct rte_flow_conv_rule * @endcode
* - @p dst type:
* @code struct rte_flow_conv_rule * @endcode
*/
RTE_FLOW_CONV_OP_RULE,
/**
* Convert item type to its name string.
*
* Writes a NUL-terminated string to @p dst. Like snprintf(), the
* returned value excludes the terminator which is always written
* nonetheless.
*
* - @p src type:
* @code (const void *)enum rte_flow_item_type @endcode
* - @p dst type:
* @code char * @endcode
**/
RTE_FLOW_CONV_OP_ITEM_NAME,
/**
* Convert action type to its name string.
*
* Writes a NUL-terminated string to @p dst. Like snprintf(), the
* returned value excludes the terminator which is always written
* nonetheless.
*
* - @p src type:
* @code (const void *)enum rte_flow_action_type @endcode
* - @p dst type:
* @code char * @endcode
**/
RTE_FLOW_CONV_OP_ACTION_NAME,
/**
* Convert item type to pointer to item name.
*
* Retrieves item name pointer from its type. The string itself is
* not copied; instead, a unique pointer to an internal static
* constant storage is written to @p dst.
*
* - @p src type:
* @code (const void *)enum rte_flow_item_type @endcode
* - @p dst type:
* @code const char ** @endcode
*/
RTE_FLOW_CONV_OP_ITEM_NAME_PTR,
/**
* Convert action type to pointer to action name.
*
* Retrieves action name pointer from its type. The string itself is
* not copied; instead, a unique pointer to an internal static
* constant storage is written to @p dst.
*
* - @p src type:
* @code (const void *)enum rte_flow_action_type @endcode
* - @p dst type:
* @code const char ** @endcode
*/
RTE_FLOW_CONV_OP_ACTION_NAME_PTR,
};
/**
* Check whether a flow rule can be created on a given port.
*
* The flow rule is validated for correctness and whether it could be accepted
* by the device given sufficient resources. The rule is checked against the
* current device mode and queue configuration. The flow rule may also
* optionally be validated against existing flow rules and device resources.
* This function has no effect on the target device.
*
* The returned value is guaranteed to remain valid only as long as no
* successful calls to rte_flow_create() or rte_flow_destroy() are made in
* the meantime and no device parameter affecting flow rules in any way are
* modified, due to possible collisions or resource limitations (although in
* such cases EINVAL should not be returned).
*
* @param port_id
* Port identifier of Ethernet device.
* @param[in] attr
* Flow rule attributes.
* @param[in] pattern
* Pattern specification (list terminated by the END pattern item).
* @param[in] actions
* Associated actions (list terminated by the END action).
* @param[out] error
* Perform verbose error reporting if not NULL. PMDs initialize this
* structure in case of error only.
*
* @return
* 0 if flow rule is valid and can be created. A negative errno value
* otherwise (rte_errno is also set), the following errors are defined:
*
* -ENOSYS: underlying device does not support this functionality.
*
* -EIO: underlying device is removed.
*
* -EINVAL: unknown or invalid rule specification.
*
* -ENOTSUP: valid but unsupported rule specification (e.g. partial
* bit-masks are unsupported).
*
* -EEXIST: collision with an existing rule. Only returned if device
* supports flow rule collision checking and there was a flow rule
* collision. Not receiving this return code is no guarantee that creating
* the rule will not fail due to a collision.
*
* -ENOMEM: not enough memory to execute the function, or if the device
* supports resource validation, resource limitation on the device.
*
* -EBUSY: action cannot be performed due to busy device resources, may
* succeed if the affected queues or even the entire port are in a stopped
* state (see rte_eth_dev_rx_queue_stop() and rte_eth_dev_stop()).
*/
int
rte_flow_validate(uint16_t port_id,
const struct rte_flow_attr *attr,
const struct rte_flow_item pattern[],
const struct rte_flow_action actions[],
struct rte_flow_error *error);
/**
* Create a flow rule on a given port.
*
* @param port_id
* Port identifier of Ethernet device.
* @param[in] attr
* Flow rule attributes.
* @param[in] pattern
* Pattern specification (list terminated by the END pattern item).
* @param[in] actions
* Associated actions (list terminated by the END action).
* @param[out] error
* Perform verbose error reporting if not NULL. PMDs initialize this
* structure in case of error only.
*
* @return
* A valid handle in case of success, NULL otherwise and rte_errno is set
* to the positive version of one of the error codes defined for
* rte_flow_validate().
*/
struct rte_flow *
rte_flow_create(uint16_t port_id,
const struct rte_flow_attr *attr,
const struct rte_flow_item pattern[],
const struct rte_flow_action actions[],
struct rte_flow_error *error);
/**
* Destroy a flow rule on a given port.
*
* Failure to destroy a flow rule handle may occur when other flow rules
* depend on it, and destroying it would result in an inconsistent state.
*
* This function is only guaranteed to succeed if handles are destroyed in
* reverse order of their creation.
*
* @param port_id
* Port identifier of Ethernet device.
* @param flow
* Flow rule handle to destroy.
* @param[out] error
* Perform verbose error reporting if not NULL. PMDs initialize this
* structure in case of error only.
*
* @return
* 0 on success, a negative errno value otherwise and rte_errno is set.
*/
int
rte_flow_destroy(uint16_t port_id,
struct rte_flow *flow,
struct rte_flow_error *error);
/**
* Destroy all flow rules associated with a port.
*
* In the unlikely event of failure, handles are still considered destroyed
* and no longer valid but the port must be assumed to be in an inconsistent
* state.
*
* @param port_id
* Port identifier of Ethernet device.
* @param[out] error
* Perform verbose error reporting if not NULL. PMDs initialize this
* structure in case of error only.
*
* @return
* 0 on success, a negative errno value otherwise and rte_errno is set.
*/
int
rte_flow_flush(uint16_t port_id,
struct rte_flow_error *error);
/**
* Query an existing flow rule.
*
* This function allows retrieving flow-specific data such as counters.
* Data is gathered by special actions which must be present in the flow
* rule definition.
*
* \see RTE_FLOW_ACTION_TYPE_COUNT
*
* @param port_id
* Port identifier of Ethernet device.
* @param flow
* Flow rule handle to query.
* @param action
* Action definition as defined in original flow rule.
* @param[in, out] data
* Pointer to storage for the associated query data type.
* @param[out] error
* Perform verbose error reporting if not NULL. PMDs initialize this
* structure in case of error only.
*
* @return
* 0 on success, a negative errno value otherwise and rte_errno is set.
*/
int
rte_flow_query(uint16_t port_id,
struct rte_flow *flow,
const struct rte_flow_action *action,
void *data,
struct rte_flow_error *error);
/**
* Restrict ingress traffic to the defined flow rules.
*
* Isolated mode guarantees that all ingress traffic comes from defined flow
* rules only (current and future).
*
* Besides making ingress more deterministic, it allows PMDs to safely reuse
* resources otherwise assigned to handle the remaining traffic, such as
* global RSS configuration settings, VLAN filters, MAC address entries,
* legacy filter API rules and so on in order to expand the set of possible
* flow rule types.
*
* Calling this function as soon as possible after device initialization,
* ideally before the first call to rte_eth_dev_configure(), is recommended
* to avoid possible failures due to conflicting settings.
*
* Once effective, leaving isolated mode may not be possible depending on
* PMD implementation.
*
* Additionally, the following functionality has no effect on the underlying
* port and may return errors such as ENOTSUP ("not supported"):
*
* - Toggling promiscuous mode.
* - Toggling allmulticast mode.
* - Configuring MAC addresses.
* - Configuring multicast addresses.
* - Configuring VLAN filters.
* - Configuring Rx filters through the legacy API (e.g. FDIR).
* - Configuring global RSS settings.
*
* @param port_id
* Port identifier of Ethernet device.
* @param set
* Nonzero to enter isolated mode, attempt to leave it otherwise.
* @param[out] error
* Perform verbose error reporting if not NULL. PMDs initialize this
* structure in case of error only.
*
* @return
* 0 on success, a negative errno value otherwise and rte_errno is set.
*/
int
rte_flow_isolate(uint16_t port_id, int set, struct rte_flow_error *error);
/**
* Initialize flow error structure.
*
* @param[out] error
* Pointer to flow error structure (may be NULL).
* @param code
* Related error code (rte_errno).
* @param type
* Cause field and error types.
* @param cause
* Object responsible for the error.
* @param message
* Human-readable error message.
*
* @return
* Negative error code (errno value) and rte_errno is set.
*/
int
rte_flow_error_set(struct rte_flow_error *error,
int code,
enum rte_flow_error_type type,
const void *cause,
const char *message);
/**
* @deprecated
* @see rte_flow_copy()
*/
struct rte_flow_desc {
size_t size; /**< Allocated space including data[]. */
struct rte_flow_attr attr; /**< Attributes. */
struct rte_flow_item *items; /**< Items. */
struct rte_flow_action *actions; /**< Actions. */
uint8_t data[]; /**< Storage for items/actions. */
};
/**
* @deprecated
* Copy an rte_flow rule description.
*
* This interface is kept for compatibility with older applications but is
* implemented as a wrapper to rte_flow_conv(). It is deprecated due to its
* lack of flexibility and reliance on a type unusable with C++ programs
* (struct rte_flow_desc).
*
* @param[in] fd
* Flow rule description.
* @param[in] len
* Total size of allocated data for the flow description.
* @param[in] attr
* Flow rule attributes.
* @param[in] items
* Pattern specification (list terminated by the END pattern item).
* @param[in] actions
* Associated actions (list terminated by the END action).
*
* @return
* If len is greater or equal to the size of the flow, the total size of the
* flow description and its data.
* If len is lower than the size of the flow, the number of bytes that would
* have been written to desc had it been sufficient. Nothing is written.
*/
__rte_deprecated
size_t
rte_flow_copy(struct rte_flow_desc *fd, size_t len,
const struct rte_flow_attr *attr,
const struct rte_flow_item *items,
const struct rte_flow_action *actions);
/**
* Flow object conversion helper.
*
* This function performs conversion of various flow API objects to a
* pre-allocated destination buffer. See enum rte_flow_conv_op for possible
* operations and details about each of them.
*
* Since destination buffer must be large enough, it works in a manner
* reminiscent of snprintf():
*
* - If @p size is 0, @p dst may be a NULL pointer, otherwise @p dst must be
* non-NULL.
* - If positive, the returned value represents the number of bytes needed
* to store the conversion of @p src to @p dst according to @p op
* regardless of the @p size parameter.
* - Since no more than @p size bytes can be written to @p dst, output is
* truncated and may be inconsistent when the returned value is larger
* than that.
* - In case of conversion error, a negative error code is returned and
* @p dst contents are unspecified.
*
* @param op
* Operation to perform, related to the object type of @p dst.
* @param[out] dst
* Destination buffer address. Must be suitably aligned by the caller.
* @param size
* Destination buffer size in bytes.
* @param[in] src
* Source object to copy. Depending on @p op, its type may differ from
* that of @p dst.
* @param[out] error
* Perform verbose error reporting if not NULL. Initialized in case of
* error only.
*
* @return
* The number of bytes required to convert @p src to @p dst on success, a
* negative errno value otherwise and rte_errno is set.
*
* @see rte_flow_conv_op
*/
__rte_experimental
int
rte_flow_conv(enum rte_flow_conv_op op,
void *dst,
size_t size,
const void *src,
struct rte_flow_error *error);
#ifdef __cplusplus
}
#endif
#endif /* RTE_FLOW_H_ */
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