/* SPDX-License-Identifier: BSD-3-Clause
* Copyright 2016 6WIND S.A.
- * Copyright 2016 Mellanox.
+ * Copyright 2016 Mellanox Technologies, Ltd
*/
#include <stddef.h>
#include <sys/socket.h>
#include <rte_common.h>
+#include <rte_eth_ctrl.h>
#include <rte_ethdev.h>
#include <rte_byteorder.h>
#include <cmdline_parse.h>
PRIORITY,
INGRESS,
EGRESS,
+ TRANSFER,
/* Validate/create pattern. */
PATTERN,
ITEM_PF,
ITEM_VF,
ITEM_VF_ID,
- ITEM_PORT,
- ITEM_PORT_INDEX,
+ ITEM_PHY_PORT,
+ ITEM_PHY_PORT_INDEX,
+ ITEM_PORT_ID,
+ ITEM_PORT_ID_ID,
+ ITEM_MARK,
+ ITEM_MARK_ID,
ITEM_RAW,
ITEM_RAW_RELATIVE,
ITEM_RAW_SEARCH,
ITEM_ETH_SRC,
ITEM_ETH_TYPE,
ITEM_VLAN,
- ITEM_VLAN_TPID,
ITEM_VLAN_TCI,
ITEM_VLAN_PCP,
ITEM_VLAN_DEI,
ITEM_VLAN_VID,
+ ITEM_VLAN_INNER_TYPE,
ITEM_IPV4,
ITEM_IPV4_TOS,
ITEM_IPV4_TTL,
ITEM_GENEVE,
ITEM_GENEVE_VNI,
ITEM_GENEVE_PROTO,
+ ITEM_VXLAN_GPE,
+ ITEM_VXLAN_GPE_VNI,
+ ITEM_ARP_ETH_IPV4,
+ ITEM_ARP_ETH_IPV4_SHA,
+ ITEM_ARP_ETH_IPV4_SPA,
+ ITEM_ARP_ETH_IPV4_THA,
+ ITEM_ARP_ETH_IPV4_TPA,
+ ITEM_IPV6_EXT,
+ ITEM_IPV6_EXT_NEXT_HDR,
+ ITEM_ICMP6,
+ ITEM_ICMP6_TYPE,
+ ITEM_ICMP6_CODE,
+ ITEM_ICMP6_ND_NS,
+ ITEM_ICMP6_ND_NS_TARGET_ADDR,
+ ITEM_ICMP6_ND_NA,
+ ITEM_ICMP6_ND_NA_TARGET_ADDR,
+ ITEM_ICMP6_ND_OPT,
+ ITEM_ICMP6_ND_OPT_TYPE,
+ ITEM_ICMP6_ND_OPT_SLA_ETH,
+ ITEM_ICMP6_ND_OPT_SLA_ETH_SLA,
+ ITEM_ICMP6_ND_OPT_TLA_ETH,
+ ITEM_ICMP6_ND_OPT_TLA_ETH_TLA,
/* Validate/create actions. */
ACTIONS,
ACTION_END,
ACTION_VOID,
ACTION_PASSTHRU,
+ ACTION_JUMP,
+ ACTION_JUMP_GROUP,
ACTION_MARK,
ACTION_MARK_ID,
ACTION_FLAG,
ACTION_QUEUE_INDEX,
ACTION_DROP,
ACTION_COUNT,
- ACTION_DUP,
- ACTION_DUP_INDEX,
+ ACTION_COUNT_SHARED,
+ ACTION_COUNT_ID,
ACTION_RSS,
+ ACTION_RSS_FUNC,
+ ACTION_RSS_LEVEL,
+ ACTION_RSS_FUNC_DEFAULT,
+ ACTION_RSS_FUNC_TOEPLITZ,
+ ACTION_RSS_FUNC_SIMPLE_XOR,
+ ACTION_RSS_TYPES,
+ ACTION_RSS_TYPE,
+ ACTION_RSS_KEY,
+ ACTION_RSS_KEY_LEN,
ACTION_RSS_QUEUES,
ACTION_RSS_QUEUE,
ACTION_PF,
ACTION_VF,
ACTION_VF_ORIGINAL,
ACTION_VF_ID,
+ ACTION_PHY_PORT,
+ ACTION_PHY_PORT_ORIGINAL,
+ ACTION_PHY_PORT_INDEX,
+ ACTION_PORT_ID,
+ ACTION_PORT_ID_ORIGINAL,
+ ACTION_PORT_ID_ID,
ACTION_METER,
ACTION_METER_ID,
+ ACTION_OF_SET_MPLS_TTL,
+ ACTION_OF_SET_MPLS_TTL_MPLS_TTL,
+ ACTION_OF_DEC_MPLS_TTL,
+ ACTION_OF_SET_NW_TTL,
+ ACTION_OF_SET_NW_TTL_NW_TTL,
+ ACTION_OF_DEC_NW_TTL,
+ ACTION_OF_COPY_TTL_OUT,
+ ACTION_OF_COPY_TTL_IN,
+ ACTION_OF_POP_VLAN,
+ ACTION_OF_PUSH_VLAN,
+ ACTION_OF_PUSH_VLAN_ETHERTYPE,
+ ACTION_OF_SET_VLAN_VID,
+ ACTION_OF_SET_VLAN_VID_VLAN_VID,
+ ACTION_OF_SET_VLAN_PCP,
+ ACTION_OF_SET_VLAN_PCP_VLAN_PCP,
+ ACTION_OF_POP_MPLS,
+ ACTION_OF_POP_MPLS_ETHERTYPE,
+ ACTION_OF_PUSH_MPLS,
+ ACTION_OF_PUSH_MPLS_ETHERTYPE,
+ ACTION_VXLAN_ENCAP,
+ ACTION_VXLAN_DECAP,
+ ACTION_NVGRE_ENCAP,
+ ACTION_NVGRE_DECAP,
};
-/** Size of pattern[] field in struct rte_flow_item_raw. */
-#define ITEM_RAW_PATTERN_SIZE 36
+/** Maximum size for pattern in struct rte_flow_item_raw. */
+#define ITEM_RAW_PATTERN_SIZE 40
/** Storage size for struct rte_flow_item_raw including pattern. */
#define ITEM_RAW_SIZE \
- (offsetof(struct rte_flow_item_raw, pattern) + ITEM_RAW_PATTERN_SIZE)
+ (sizeof(struct rte_flow_item_raw) + ITEM_RAW_PATTERN_SIZE)
-/** Number of queue[] entries in struct rte_flow_action_rss. */
-#define ACTION_RSS_NUM 32
+/** Maximum number of queue indices in struct rte_flow_action_rss. */
+#define ACTION_RSS_QUEUE_NUM 32
-/** Storage size for struct rte_flow_action_rss including queues. */
-#define ACTION_RSS_SIZE \
- (offsetof(struct rte_flow_action_rss, queue) + \
- sizeof(*((struct rte_flow_action_rss *)0)->queue) * ACTION_RSS_NUM)
+/** Storage for struct rte_flow_action_rss including external data. */
+struct action_rss_data {
+ struct rte_flow_action_rss conf;
+ uint8_t key[RSS_HASH_KEY_LENGTH];
+ uint16_t queue[ACTION_RSS_QUEUE_NUM];
+};
+
+/** Maximum number of items in struct rte_flow_action_vxlan_encap. */
+#define ACTION_VXLAN_ENCAP_ITEMS_NUM 6
+
+/** Storage for struct rte_flow_action_vxlan_encap including external data. */
+struct action_vxlan_encap_data {
+ struct rte_flow_action_vxlan_encap conf;
+ struct rte_flow_item items[ACTION_VXLAN_ENCAP_ITEMS_NUM];
+ struct rte_flow_item_eth item_eth;
+ struct rte_flow_item_vlan item_vlan;
+ union {
+ struct rte_flow_item_ipv4 item_ipv4;
+ struct rte_flow_item_ipv6 item_ipv6;
+ };
+ struct rte_flow_item_udp item_udp;
+ struct rte_flow_item_vxlan item_vxlan;
+};
+
+/** Maximum number of items in struct rte_flow_action_nvgre_encap. */
+#define ACTION_NVGRE_ENCAP_ITEMS_NUM 5
+
+/** Storage for struct rte_flow_action_nvgre_encap including external data. */
+struct action_nvgre_encap_data {
+ struct rte_flow_action_nvgre_encap conf;
+ struct rte_flow_item items[ACTION_NVGRE_ENCAP_ITEMS_NUM];
+ struct rte_flow_item_eth item_eth;
+ struct rte_flow_item_vlan item_vlan;
+ union {
+ struct rte_flow_item_ipv4 item_ipv4;
+ struct rte_flow_item_ipv6 item_ipv6;
+ };
+ struct rte_flow_item_nvgre item_nvgre;
+};
/** Maximum number of subsequent tokens and arguments on the stack. */
#define CTX_STACK_SIZE 16
struct arg {
uint32_t hton:1; /**< Use network byte ordering. */
uint32_t sign:1; /**< Value is signed. */
+ uint32_t bounded:1; /**< Value is bounded. */
+ uintmax_t min; /**< Minimum value if bounded. */
+ uintmax_t max; /**< Maximum value if bounded. */
uint32_t offset; /**< Relative offset from ctx->object. */
uint32_t size; /**< Field size. */
const uint8_t *mask; /**< Bit-mask to use instead of offset/size. */
.size = sizeof(*((s *)0)->f), \
})
-/** Static initializer for ARGS() with arbitrary size. */
-#define ARGS_ENTRY_USZ(s, f, sz) \
+/** Static initializer for ARGS() with arbitrary offset and size. */
+#define ARGS_ENTRY_ARB(o, s) \
(&(const struct arg){ \
- .offset = offsetof(s, f), \
- .size = (sz), \
+ .offset = (o), \
+ .size = (s), \
+ })
+
+/** Same as ARGS_ENTRY_ARB() with bounded values. */
+#define ARGS_ENTRY_ARB_BOUNDED(o, s, i, a) \
+ (&(const struct arg){ \
+ .bounded = 1, \
+ .min = (i), \
+ .max = (a), \
+ .offset = (o), \
+ .size = (s), \
})
/** Same as ARGS_ENTRY() using network byte ordering. */
} destroy; /**< Destroy arguments. */
struct {
uint32_t rule;
- enum rte_flow_action_type action;
+ struct rte_flow_action action;
} query; /**< Query arguments. */
struct {
uint32_t *group;
PRIORITY,
INGRESS,
EGRESS,
+ TRANSFER,
PATTERN,
ZERO,
};
ITEM_ANY,
ITEM_PF,
ITEM_VF,
- ITEM_PORT,
+ ITEM_PHY_PORT,
+ ITEM_PORT_ID,
+ ITEM_MARK,
ITEM_RAW,
ITEM_ETH,
ITEM_VLAN,
ITEM_GTPC,
ITEM_GTPU,
ITEM_GENEVE,
+ ITEM_VXLAN_GPE,
+ ITEM_ARP_ETH_IPV4,
+ ITEM_IPV6_EXT,
+ ITEM_ICMP6,
+ ITEM_ICMP6_ND_NS,
+ ITEM_ICMP6_ND_NA,
+ ITEM_ICMP6_ND_OPT,
+ ITEM_ICMP6_ND_OPT_SLA_ETH,
+ ITEM_ICMP6_ND_OPT_TLA_ETH,
ZERO,
};
ZERO,
};
-static const enum index item_port[] = {
- ITEM_PORT_INDEX,
+static const enum index item_phy_port[] = {
+ ITEM_PHY_PORT_INDEX,
+ ITEM_NEXT,
+ ZERO,
+};
+
+static const enum index item_port_id[] = {
+ ITEM_PORT_ID_ID,
+ ITEM_NEXT,
+ ZERO,
+};
+
+static const enum index item_mark[] = {
+ ITEM_MARK_ID,
ITEM_NEXT,
ZERO,
};
};
static const enum index item_vlan[] = {
- ITEM_VLAN_TPID,
ITEM_VLAN_TCI,
ITEM_VLAN_PCP,
ITEM_VLAN_DEI,
ITEM_VLAN_VID,
+ ITEM_VLAN_INNER_TYPE,
ITEM_NEXT,
ZERO,
};
ZERO,
};
+static const enum index item_vxlan_gpe[] = {
+ ITEM_VXLAN_GPE_VNI,
+ ITEM_NEXT,
+ ZERO,
+};
+
+static const enum index item_arp_eth_ipv4[] = {
+ ITEM_ARP_ETH_IPV4_SHA,
+ ITEM_ARP_ETH_IPV4_SPA,
+ ITEM_ARP_ETH_IPV4_THA,
+ ITEM_ARP_ETH_IPV4_TPA,
+ ITEM_NEXT,
+ ZERO,
+};
+
+static const enum index item_ipv6_ext[] = {
+ ITEM_IPV6_EXT_NEXT_HDR,
+ ITEM_NEXT,
+ ZERO,
+};
+
+static const enum index item_icmp6[] = {
+ ITEM_ICMP6_TYPE,
+ ITEM_ICMP6_CODE,
+ ITEM_NEXT,
+ ZERO,
+};
+
+static const enum index item_icmp6_nd_ns[] = {
+ ITEM_ICMP6_ND_NS_TARGET_ADDR,
+ ITEM_NEXT,
+ ZERO,
+};
+
+static const enum index item_icmp6_nd_na[] = {
+ ITEM_ICMP6_ND_NA_TARGET_ADDR,
+ ITEM_NEXT,
+ ZERO,
+};
+
+static const enum index item_icmp6_nd_opt[] = {
+ ITEM_ICMP6_ND_OPT_TYPE,
+ ITEM_NEXT,
+ ZERO,
+};
+
+static const enum index item_icmp6_nd_opt_sla_eth[] = {
+ ITEM_ICMP6_ND_OPT_SLA_ETH_SLA,
+ ITEM_NEXT,
+ ZERO,
+};
+
+static const enum index item_icmp6_nd_opt_tla_eth[] = {
+ ITEM_ICMP6_ND_OPT_TLA_ETH_TLA,
+ ITEM_NEXT,
+ ZERO,
+};
+
static const enum index next_action[] = {
ACTION_END,
ACTION_VOID,
ACTION_PASSTHRU,
+ ACTION_JUMP,
ACTION_MARK,
ACTION_FLAG,
ACTION_QUEUE,
ACTION_DROP,
ACTION_COUNT,
- ACTION_DUP,
ACTION_RSS,
ACTION_PF,
ACTION_VF,
+ ACTION_PHY_PORT,
+ ACTION_PORT_ID,
ACTION_METER,
+ ACTION_OF_SET_MPLS_TTL,
+ ACTION_OF_DEC_MPLS_TTL,
+ ACTION_OF_SET_NW_TTL,
+ ACTION_OF_DEC_NW_TTL,
+ ACTION_OF_COPY_TTL_OUT,
+ ACTION_OF_COPY_TTL_IN,
+ ACTION_OF_POP_VLAN,
+ ACTION_OF_PUSH_VLAN,
+ ACTION_OF_SET_VLAN_VID,
+ ACTION_OF_SET_VLAN_PCP,
+ ACTION_OF_POP_MPLS,
+ ACTION_OF_PUSH_MPLS,
+ ACTION_VXLAN_ENCAP,
+ ACTION_VXLAN_DECAP,
+ ACTION_NVGRE_ENCAP,
+ ACTION_NVGRE_DECAP,
ZERO,
};
ZERO,
};
-static const enum index action_dup[] = {
- ACTION_DUP_INDEX,
+static const enum index action_count[] = {
+ ACTION_COUNT_ID,
+ ACTION_COUNT_SHARED,
ACTION_NEXT,
ZERO,
};
static const enum index action_rss[] = {
+ ACTION_RSS_FUNC,
+ ACTION_RSS_LEVEL,
+ ACTION_RSS_TYPES,
+ ACTION_RSS_KEY,
+ ACTION_RSS_KEY_LEN,
ACTION_RSS_QUEUES,
ACTION_NEXT,
ZERO,
ZERO,
};
+static const enum index action_phy_port[] = {
+ ACTION_PHY_PORT_ORIGINAL,
+ ACTION_PHY_PORT_INDEX,
+ ACTION_NEXT,
+ ZERO,
+};
+
+static const enum index action_port_id[] = {
+ ACTION_PORT_ID_ORIGINAL,
+ ACTION_PORT_ID_ID,
+ ACTION_NEXT,
+ ZERO,
+};
+
static const enum index action_meter[] = {
ACTION_METER_ID,
ACTION_NEXT,
ZERO,
};
+static const enum index action_of_set_mpls_ttl[] = {
+ ACTION_OF_SET_MPLS_TTL_MPLS_TTL,
+ ACTION_NEXT,
+ ZERO,
+};
+
+static const enum index action_of_set_nw_ttl[] = {
+ ACTION_OF_SET_NW_TTL_NW_TTL,
+ ACTION_NEXT,
+ ZERO,
+};
+
+static const enum index action_of_push_vlan[] = {
+ ACTION_OF_PUSH_VLAN_ETHERTYPE,
+ ACTION_NEXT,
+ ZERO,
+};
+
+static const enum index action_of_set_vlan_vid[] = {
+ ACTION_OF_SET_VLAN_VID_VLAN_VID,
+ ACTION_NEXT,
+ ZERO,
+};
+
+static const enum index action_of_set_vlan_pcp[] = {
+ ACTION_OF_SET_VLAN_PCP_VLAN_PCP,
+ ACTION_NEXT,
+ ZERO,
+};
+
+static const enum index action_of_pop_mpls[] = {
+ ACTION_OF_POP_MPLS_ETHERTYPE,
+ ACTION_NEXT,
+ ZERO,
+};
+
+static const enum index action_of_push_mpls[] = {
+ ACTION_OF_PUSH_MPLS_ETHERTYPE,
+ ACTION_NEXT,
+ ZERO,
+};
+
+static const enum index action_jump[] = {
+ ACTION_JUMP_GROUP,
+ ACTION_NEXT,
+ ZERO,
+};
+
static int parse_init(struct context *, const struct token *,
const char *, unsigned int,
void *, unsigned int);
const char *, unsigned int, void *, unsigned int);
static int parse_vc_conf(struct context *, const struct token *,
const char *, unsigned int, void *, unsigned int);
+static int parse_vc_action_rss(struct context *, const struct token *,
+ const char *, unsigned int, void *,
+ unsigned int);
+static int parse_vc_action_rss_func(struct context *, const struct token *,
+ const char *, unsigned int, void *,
+ unsigned int);
+static int parse_vc_action_rss_type(struct context *, const struct token *,
+ const char *, unsigned int, void *,
+ unsigned int);
static int parse_vc_action_rss_queue(struct context *, const struct token *,
const char *, unsigned int, void *,
unsigned int);
+static int parse_vc_action_vxlan_encap(struct context *, const struct token *,
+ const char *, unsigned int, void *,
+ unsigned int);
+static int parse_vc_action_nvgre_encap(struct context *, const struct token *,
+ const char *, unsigned int, void *,
+ unsigned int);
static int parse_destroy(struct context *, const struct token *,
const char *, unsigned int,
void *, unsigned int);
unsigned int, char *, unsigned int);
static int comp_rule_id(struct context *, const struct token *,
unsigned int, char *, unsigned int);
+static int comp_vc_action_rss_type(struct context *, const struct token *,
+ unsigned int, char *, unsigned int);
static int comp_vc_action_rss_queue(struct context *, const struct token *,
unsigned int, char *, unsigned int);
.next = NEXT(NEXT_ENTRY(QUERY_ACTION),
NEXT_ENTRY(RULE_ID),
NEXT_ENTRY(PORT_ID)),
- .args = ARGS(ARGS_ENTRY(struct buffer, args.query.action),
+ .args = ARGS(ARGS_ENTRY(struct buffer, args.query.action.type),
ARGS_ENTRY(struct buffer, args.query.rule),
ARGS_ENTRY(struct buffer, port)),
.call = parse_query,
.next = NEXT(next_vc_attr),
.call = parse_vc,
},
+ [TRANSFER] = {
+ .name = "transfer",
+ .help = "apply rule directly to endpoints found in pattern",
+ .next = NEXT(next_vc_attr),
+ .call = parse_vc,
+ },
/* Validate/create pattern. */
[PATTERN] = {
.name = "pattern",
},
[ITEM_PF] = {
.name = "pf",
- .help = "match packets addressed to the physical function",
+ .help = "match traffic from/to the physical function",
.priv = PRIV_ITEM(PF, 0),
.next = NEXT(NEXT_ENTRY(ITEM_NEXT)),
.call = parse_vc,
},
[ITEM_VF] = {
.name = "vf",
- .help = "match packets addressed to a virtual function ID",
+ .help = "match traffic from/to a virtual function ID",
.priv = PRIV_ITEM(VF, sizeof(struct rte_flow_item_vf)),
.next = NEXT(item_vf),
.call = parse_vc,
},
[ITEM_VF_ID] = {
.name = "id",
- .help = "destination VF ID",
+ .help = "VF ID",
.next = NEXT(item_vf, NEXT_ENTRY(UNSIGNED), item_param),
.args = ARGS(ARGS_ENTRY(struct rte_flow_item_vf, id)),
},
- [ITEM_PORT] = {
- .name = "port",
- .help = "device-specific physical port index to use",
- .priv = PRIV_ITEM(PORT, sizeof(struct rte_flow_item_port)),
- .next = NEXT(item_port),
+ [ITEM_PHY_PORT] = {
+ .name = "phy_port",
+ .help = "match traffic from/to a specific physical port",
+ .priv = PRIV_ITEM(PHY_PORT,
+ sizeof(struct rte_flow_item_phy_port)),
+ .next = NEXT(item_phy_port),
.call = parse_vc,
},
- [ITEM_PORT_INDEX] = {
+ [ITEM_PHY_PORT_INDEX] = {
.name = "index",
.help = "physical port index",
- .next = NEXT(item_port, NEXT_ENTRY(UNSIGNED), item_param),
- .args = ARGS(ARGS_ENTRY(struct rte_flow_item_port, index)),
+ .next = NEXT(item_phy_port, NEXT_ENTRY(UNSIGNED), item_param),
+ .args = ARGS(ARGS_ENTRY(struct rte_flow_item_phy_port, index)),
+ },
+ [ITEM_PORT_ID] = {
+ .name = "port_id",
+ .help = "match traffic from/to a given DPDK port ID",
+ .priv = PRIV_ITEM(PORT_ID,
+ sizeof(struct rte_flow_item_port_id)),
+ .next = NEXT(item_port_id),
+ .call = parse_vc,
+ },
+ [ITEM_PORT_ID_ID] = {
+ .name = "id",
+ .help = "DPDK port ID",
+ .next = NEXT(item_port_id, NEXT_ENTRY(UNSIGNED), item_param),
+ .args = ARGS(ARGS_ENTRY(struct rte_flow_item_port_id, id)),
+ },
+ [ITEM_MARK] = {
+ .name = "mark",
+ .help = "match traffic against value set in previously matched rule",
+ .priv = PRIV_ITEM(MARK, sizeof(struct rte_flow_item_mark)),
+ .next = NEXT(item_mark),
+ .call = parse_vc,
+ },
+ [ITEM_MARK_ID] = {
+ .name = "id",
+ .help = "Integer value to match against",
+ .next = NEXT(item_mark, NEXT_ENTRY(UNSIGNED), item_param),
+ .args = ARGS(ARGS_ENTRY(struct rte_flow_item_mark, id)),
},
[ITEM_RAW] = {
.name = "raw",
NEXT_ENTRY(ITEM_PARAM_IS,
ITEM_PARAM_SPEC,
ITEM_PARAM_MASK)),
- .args = ARGS(ARGS_ENTRY(struct rte_flow_item_raw, length),
- ARGS_ENTRY_USZ(struct rte_flow_item_raw,
- pattern,
+ .args = ARGS(ARGS_ENTRY(struct rte_flow_item_raw, pattern),
+ ARGS_ENTRY(struct rte_flow_item_raw, length),
+ ARGS_ENTRY_ARB(sizeof(struct rte_flow_item_raw),
ITEM_RAW_PATTERN_SIZE)),
},
[ITEM_ETH] = {
.next = NEXT(item_vlan),
.call = parse_vc,
},
- [ITEM_VLAN_TPID] = {
- .name = "tpid",
- .help = "tag protocol identifier",
- .next = NEXT(item_vlan, NEXT_ENTRY(UNSIGNED), item_param),
- .args = ARGS(ARGS_ENTRY_HTON(struct rte_flow_item_vlan, tpid)),
- },
[ITEM_VLAN_TCI] = {
.name = "tci",
.help = "tag control information",
.args = ARGS(ARGS_ENTRY_MASK_HTON(struct rte_flow_item_vlan,
tci, "\x0f\xff")),
},
+ [ITEM_VLAN_INNER_TYPE] = {
+ .name = "inner_type",
+ .help = "inner EtherType",
+ .next = NEXT(item_vlan, NEXT_ENTRY(UNSIGNED), item_param),
+ .args = ARGS(ARGS_ENTRY_HTON(struct rte_flow_item_vlan,
+ inner_type)),
+ },
[ITEM_IPV4] = {
.name = "ipv4",
.help = "match IPv4 header",
.args = ARGS(ARGS_ENTRY_HTON(struct rte_flow_item_geneve,
protocol)),
},
+ [ITEM_VXLAN_GPE] = {
+ .name = "vxlan-gpe",
+ .help = "match VXLAN-GPE header",
+ .priv = PRIV_ITEM(VXLAN_GPE,
+ sizeof(struct rte_flow_item_vxlan_gpe)),
+ .next = NEXT(item_vxlan_gpe),
+ .call = parse_vc,
+ },
+ [ITEM_VXLAN_GPE_VNI] = {
+ .name = "vni",
+ .help = "VXLAN-GPE identifier",
+ .next = NEXT(item_vxlan_gpe, NEXT_ENTRY(UNSIGNED), item_param),
+ .args = ARGS(ARGS_ENTRY_HTON(struct rte_flow_item_vxlan_gpe,
+ vni)),
+ },
+ [ITEM_ARP_ETH_IPV4] = {
+ .name = "arp_eth_ipv4",
+ .help = "match ARP header for Ethernet/IPv4",
+ .priv = PRIV_ITEM(ARP_ETH_IPV4,
+ sizeof(struct rte_flow_item_arp_eth_ipv4)),
+ .next = NEXT(item_arp_eth_ipv4),
+ .call = parse_vc,
+ },
+ [ITEM_ARP_ETH_IPV4_SHA] = {
+ .name = "sha",
+ .help = "sender hardware address",
+ .next = NEXT(item_arp_eth_ipv4, NEXT_ENTRY(MAC_ADDR),
+ item_param),
+ .args = ARGS(ARGS_ENTRY_HTON(struct rte_flow_item_arp_eth_ipv4,
+ sha)),
+ },
+ [ITEM_ARP_ETH_IPV4_SPA] = {
+ .name = "spa",
+ .help = "sender IPv4 address",
+ .next = NEXT(item_arp_eth_ipv4, NEXT_ENTRY(IPV4_ADDR),
+ item_param),
+ .args = ARGS(ARGS_ENTRY_HTON(struct rte_flow_item_arp_eth_ipv4,
+ spa)),
+ },
+ [ITEM_ARP_ETH_IPV4_THA] = {
+ .name = "tha",
+ .help = "target hardware address",
+ .next = NEXT(item_arp_eth_ipv4, NEXT_ENTRY(MAC_ADDR),
+ item_param),
+ .args = ARGS(ARGS_ENTRY_HTON(struct rte_flow_item_arp_eth_ipv4,
+ tha)),
+ },
+ [ITEM_ARP_ETH_IPV4_TPA] = {
+ .name = "tpa",
+ .help = "target IPv4 address",
+ .next = NEXT(item_arp_eth_ipv4, NEXT_ENTRY(IPV4_ADDR),
+ item_param),
+ .args = ARGS(ARGS_ENTRY_HTON(struct rte_flow_item_arp_eth_ipv4,
+ tpa)),
+ },
+ [ITEM_IPV6_EXT] = {
+ .name = "ipv6_ext",
+ .help = "match presence of any IPv6 extension header",
+ .priv = PRIV_ITEM(IPV6_EXT,
+ sizeof(struct rte_flow_item_ipv6_ext)),
+ .next = NEXT(item_ipv6_ext),
+ .call = parse_vc,
+ },
+ [ITEM_IPV6_EXT_NEXT_HDR] = {
+ .name = "next_hdr",
+ .help = "next header",
+ .next = NEXT(item_ipv6_ext, NEXT_ENTRY(UNSIGNED), item_param),
+ .args = ARGS(ARGS_ENTRY_HTON(struct rte_flow_item_ipv6_ext,
+ next_hdr)),
+ },
+ [ITEM_ICMP6] = {
+ .name = "icmp6",
+ .help = "match any ICMPv6 header",
+ .priv = PRIV_ITEM(ICMP6, sizeof(struct rte_flow_item_icmp6)),
+ .next = NEXT(item_icmp6),
+ .call = parse_vc,
+ },
+ [ITEM_ICMP6_TYPE] = {
+ .name = "type",
+ .help = "ICMPv6 type",
+ .next = NEXT(item_icmp6, NEXT_ENTRY(UNSIGNED), item_param),
+ .args = ARGS(ARGS_ENTRY_HTON(struct rte_flow_item_icmp6,
+ type)),
+ },
+ [ITEM_ICMP6_CODE] = {
+ .name = "code",
+ .help = "ICMPv6 code",
+ .next = NEXT(item_icmp6, NEXT_ENTRY(UNSIGNED), item_param),
+ .args = ARGS(ARGS_ENTRY_HTON(struct rte_flow_item_icmp6,
+ code)),
+ },
+ [ITEM_ICMP6_ND_NS] = {
+ .name = "icmp6_nd_ns",
+ .help = "match ICMPv6 neighbor discovery solicitation",
+ .priv = PRIV_ITEM(ICMP6_ND_NS,
+ sizeof(struct rte_flow_item_icmp6_nd_ns)),
+ .next = NEXT(item_icmp6_nd_ns),
+ .call = parse_vc,
+ },
+ [ITEM_ICMP6_ND_NS_TARGET_ADDR] = {
+ .name = "target_addr",
+ .help = "target address",
+ .next = NEXT(item_icmp6_nd_ns, NEXT_ENTRY(IPV6_ADDR),
+ item_param),
+ .args = ARGS(ARGS_ENTRY_HTON(struct rte_flow_item_icmp6_nd_ns,
+ target_addr)),
+ },
+ [ITEM_ICMP6_ND_NA] = {
+ .name = "icmp6_nd_na",
+ .help = "match ICMPv6 neighbor discovery advertisement",
+ .priv = PRIV_ITEM(ICMP6_ND_NA,
+ sizeof(struct rte_flow_item_icmp6_nd_na)),
+ .next = NEXT(item_icmp6_nd_na),
+ .call = parse_vc,
+ },
+ [ITEM_ICMP6_ND_NA_TARGET_ADDR] = {
+ .name = "target_addr",
+ .help = "target address",
+ .next = NEXT(item_icmp6_nd_na, NEXT_ENTRY(IPV6_ADDR),
+ item_param),
+ .args = ARGS(ARGS_ENTRY_HTON(struct rte_flow_item_icmp6_nd_na,
+ target_addr)),
+ },
+ [ITEM_ICMP6_ND_OPT] = {
+ .name = "icmp6_nd_opt",
+ .help = "match presence of any ICMPv6 neighbor discovery"
+ " option",
+ .priv = PRIV_ITEM(ICMP6_ND_OPT,
+ sizeof(struct rte_flow_item_icmp6_nd_opt)),
+ .next = NEXT(item_icmp6_nd_opt),
+ .call = parse_vc,
+ },
+ [ITEM_ICMP6_ND_OPT_TYPE] = {
+ .name = "type",
+ .help = "ND option type",
+ .next = NEXT(item_icmp6_nd_opt, NEXT_ENTRY(UNSIGNED),
+ item_param),
+ .args = ARGS(ARGS_ENTRY_HTON(struct rte_flow_item_icmp6_nd_opt,
+ type)),
+ },
+ [ITEM_ICMP6_ND_OPT_SLA_ETH] = {
+ .name = "icmp6_nd_opt_sla_eth",
+ .help = "match ICMPv6 neighbor discovery source Ethernet"
+ " link-layer address option",
+ .priv = PRIV_ITEM
+ (ICMP6_ND_OPT_SLA_ETH,
+ sizeof(struct rte_flow_item_icmp6_nd_opt_sla_eth)),
+ .next = NEXT(item_icmp6_nd_opt_sla_eth),
+ .call = parse_vc,
+ },
+ [ITEM_ICMP6_ND_OPT_SLA_ETH_SLA] = {
+ .name = "sla",
+ .help = "source Ethernet LLA",
+ .next = NEXT(item_icmp6_nd_opt_sla_eth, NEXT_ENTRY(MAC_ADDR),
+ item_param),
+ .args = ARGS(ARGS_ENTRY_HTON
+ (struct rte_flow_item_icmp6_nd_opt_sla_eth, sla)),
+ },
+ [ITEM_ICMP6_ND_OPT_TLA_ETH] = {
+ .name = "icmp6_nd_opt_tla_eth",
+ .help = "match ICMPv6 neighbor discovery target Ethernet"
+ " link-layer address option",
+ .priv = PRIV_ITEM
+ (ICMP6_ND_OPT_TLA_ETH,
+ sizeof(struct rte_flow_item_icmp6_nd_opt_tla_eth)),
+ .next = NEXT(item_icmp6_nd_opt_tla_eth),
+ .call = parse_vc,
+ },
+ [ITEM_ICMP6_ND_OPT_TLA_ETH_TLA] = {
+ .name = "tla",
+ .help = "target Ethernet LLA",
+ .next = NEXT(item_icmp6_nd_opt_tla_eth, NEXT_ENTRY(MAC_ADDR),
+ item_param),
+ .args = ARGS(ARGS_ENTRY_HTON
+ (struct rte_flow_item_icmp6_nd_opt_tla_eth, tla)),
+ },
/* Validate/create actions. */
[ACTIONS] = {
.next = NEXT(NEXT_ENTRY(ACTION_NEXT)),
.call = parse_vc,
},
+ [ACTION_JUMP] = {
+ .name = "jump",
+ .help = "redirect traffic to a given group",
+ .priv = PRIV_ACTION(JUMP, sizeof(struct rte_flow_action_jump)),
+ .next = NEXT(action_jump),
+ .call = parse_vc,
+ },
+ [ACTION_JUMP_GROUP] = {
+ .name = "group",
+ .help = "group to redirect traffic to",
+ .next = NEXT(action_jump, NEXT_ENTRY(UNSIGNED)),
+ .args = ARGS(ARGS_ENTRY(struct rte_flow_action_jump, group)),
+ .call = parse_vc_conf,
+ },
[ACTION_MARK] = {
.name = "mark",
.help = "attach 32 bit value to packets",
[ACTION_COUNT] = {
.name = "count",
.help = "enable counters for this rule",
- .priv = PRIV_ACTION(COUNT, 0),
- .next = NEXT(NEXT_ENTRY(ACTION_NEXT)),
+ .priv = PRIV_ACTION(COUNT,
+ sizeof(struct rte_flow_action_count)),
+ .next = NEXT(action_count),
.call = parse_vc,
},
- [ACTION_DUP] = {
- .name = "dup",
- .help = "duplicate packets to a given queue index",
- .priv = PRIV_ACTION(DUP, sizeof(struct rte_flow_action_dup)),
- .next = NEXT(action_dup),
- .call = parse_vc,
+ [ACTION_COUNT_ID] = {
+ .name = "identifier",
+ .help = "counter identifier to use",
+ .next = NEXT(action_count, NEXT_ENTRY(UNSIGNED)),
+ .args = ARGS(ARGS_ENTRY(struct rte_flow_action_count, id)),
+ .call = parse_vc_conf,
},
- [ACTION_DUP_INDEX] = {
- .name = "index",
- .help = "queue index to duplicate packets to",
- .next = NEXT(action_dup, NEXT_ENTRY(UNSIGNED)),
- .args = ARGS(ARGS_ENTRY(struct rte_flow_action_dup, index)),
+ [ACTION_COUNT_SHARED] = {
+ .name = "shared",
+ .help = "shared counter",
+ .next = NEXT(action_count, NEXT_ENTRY(BOOLEAN)),
+ .args = ARGS(ARGS_ENTRY_BF(struct rte_flow_action_count,
+ shared, 1)),
.call = parse_vc_conf,
},
[ACTION_RSS] = {
.name = "rss",
.help = "spread packets among several queues",
- .priv = PRIV_ACTION(RSS, ACTION_RSS_SIZE),
+ .priv = PRIV_ACTION(RSS, sizeof(struct action_rss_data)),
.next = NEXT(action_rss),
- .call = parse_vc,
+ .call = parse_vc_action_rss,
+ },
+ [ACTION_RSS_FUNC] = {
+ .name = "func",
+ .help = "RSS hash function to apply",
+ .next = NEXT(action_rss,
+ NEXT_ENTRY(ACTION_RSS_FUNC_DEFAULT,
+ ACTION_RSS_FUNC_TOEPLITZ,
+ ACTION_RSS_FUNC_SIMPLE_XOR)),
+ },
+ [ACTION_RSS_FUNC_DEFAULT] = {
+ .name = "default",
+ .help = "default hash function",
+ .call = parse_vc_action_rss_func,
+ },
+ [ACTION_RSS_FUNC_TOEPLITZ] = {
+ .name = "toeplitz",
+ .help = "Toeplitz hash function",
+ .call = parse_vc_action_rss_func,
+ },
+ [ACTION_RSS_FUNC_SIMPLE_XOR] = {
+ .name = "simple_xor",
+ .help = "simple XOR hash function",
+ .call = parse_vc_action_rss_func,
+ },
+ [ACTION_RSS_LEVEL] = {
+ .name = "level",
+ .help = "encapsulation level for \"types\"",
+ .next = NEXT(action_rss, NEXT_ENTRY(UNSIGNED)),
+ .args = ARGS(ARGS_ENTRY_ARB
+ (offsetof(struct action_rss_data, conf) +
+ offsetof(struct rte_flow_action_rss, level),
+ sizeof(((struct rte_flow_action_rss *)0)->
+ level))),
+ },
+ [ACTION_RSS_TYPES] = {
+ .name = "types",
+ .help = "specific RSS hash types",
+ .next = NEXT(action_rss, NEXT_ENTRY(ACTION_RSS_TYPE)),
+ },
+ [ACTION_RSS_TYPE] = {
+ .name = "{type}",
+ .help = "RSS hash type",
+ .call = parse_vc_action_rss_type,
+ .comp = comp_vc_action_rss_type,
+ },
+ [ACTION_RSS_KEY] = {
+ .name = "key",
+ .help = "RSS hash key",
+ .next = NEXT(action_rss, NEXT_ENTRY(STRING)),
+ .args = ARGS(ARGS_ENTRY_ARB(0, 0),
+ ARGS_ENTRY_ARB
+ (offsetof(struct action_rss_data, conf) +
+ offsetof(struct rte_flow_action_rss, key_len),
+ sizeof(((struct rte_flow_action_rss *)0)->
+ key_len)),
+ ARGS_ENTRY(struct action_rss_data, key)),
+ },
+ [ACTION_RSS_KEY_LEN] = {
+ .name = "key_len",
+ .help = "RSS hash key length in bytes",
+ .next = NEXT(action_rss, NEXT_ENTRY(UNSIGNED)),
+ .args = ARGS(ARGS_ENTRY_ARB_BOUNDED
+ (offsetof(struct action_rss_data, conf) +
+ offsetof(struct rte_flow_action_rss, key_len),
+ sizeof(((struct rte_flow_action_rss *)0)->
+ key_len),
+ 0,
+ RSS_HASH_KEY_LENGTH)),
},
[ACTION_RSS_QUEUES] = {
.name = "queues",
},
[ACTION_PF] = {
.name = "pf",
- .help = "redirect packets to physical device function",
+ .help = "direct traffic to physical function",
.priv = PRIV_ACTION(PF, 0),
.next = NEXT(NEXT_ENTRY(ACTION_NEXT)),
.call = parse_vc,
},
[ACTION_VF] = {
.name = "vf",
- .help = "redirect packets to virtual device function",
+ .help = "direct traffic to a virtual function ID",
.priv = PRIV_ACTION(VF, sizeof(struct rte_flow_action_vf)),
.next = NEXT(action_vf),
.call = parse_vc,
},
[ACTION_VF_ID] = {
.name = "id",
- .help = "VF ID to redirect packets to",
+ .help = "VF ID",
.next = NEXT(action_vf, NEXT_ENTRY(UNSIGNED)),
.args = ARGS(ARGS_ENTRY(struct rte_flow_action_vf, id)),
.call = parse_vc_conf,
},
+ [ACTION_PHY_PORT] = {
+ .name = "phy_port",
+ .help = "direct packets to physical port index",
+ .priv = PRIV_ACTION(PHY_PORT,
+ sizeof(struct rte_flow_action_phy_port)),
+ .next = NEXT(action_phy_port),
+ .call = parse_vc,
+ },
+ [ACTION_PHY_PORT_ORIGINAL] = {
+ .name = "original",
+ .help = "use original port index if possible",
+ .next = NEXT(action_phy_port, NEXT_ENTRY(BOOLEAN)),
+ .args = ARGS(ARGS_ENTRY_BF(struct rte_flow_action_phy_port,
+ original, 1)),
+ .call = parse_vc_conf,
+ },
+ [ACTION_PHY_PORT_INDEX] = {
+ .name = "index",
+ .help = "physical port index",
+ .next = NEXT(action_phy_port, NEXT_ENTRY(UNSIGNED)),
+ .args = ARGS(ARGS_ENTRY(struct rte_flow_action_phy_port,
+ index)),
+ .call = parse_vc_conf,
+ },
+ [ACTION_PORT_ID] = {
+ .name = "port_id",
+ .help = "direct matching traffic to a given DPDK port ID",
+ .priv = PRIV_ACTION(PORT_ID,
+ sizeof(struct rte_flow_action_port_id)),
+ .next = NEXT(action_port_id),
+ .call = parse_vc,
+ },
+ [ACTION_PORT_ID_ORIGINAL] = {
+ .name = "original",
+ .help = "use original DPDK port ID if possible",
+ .next = NEXT(action_port_id, NEXT_ENTRY(BOOLEAN)),
+ .args = ARGS(ARGS_ENTRY_BF(struct rte_flow_action_port_id,
+ original, 1)),
+ .call = parse_vc_conf,
+ },
+ [ACTION_PORT_ID_ID] = {
+ .name = "id",
+ .help = "DPDK port ID",
+ .next = NEXT(action_port_id, NEXT_ENTRY(UNSIGNED)),
+ .args = ARGS(ARGS_ENTRY(struct rte_flow_action_port_id, id)),
+ .call = parse_vc_conf,
+ },
[ACTION_METER] = {
.name = "meter",
.help = "meter the directed packets at given id",
.args = ARGS(ARGS_ENTRY(struct rte_flow_action_meter, mtr_id)),
.call = parse_vc_conf,
},
+ [ACTION_OF_SET_MPLS_TTL] = {
+ .name = "of_set_mpls_ttl",
+ .help = "OpenFlow's OFPAT_SET_MPLS_TTL",
+ .priv = PRIV_ACTION
+ (OF_SET_MPLS_TTL,
+ sizeof(struct rte_flow_action_of_set_mpls_ttl)),
+ .next = NEXT(action_of_set_mpls_ttl),
+ .call = parse_vc,
+ },
+ [ACTION_OF_SET_MPLS_TTL_MPLS_TTL] = {
+ .name = "mpls_ttl",
+ .help = "MPLS TTL",
+ .next = NEXT(action_of_set_mpls_ttl, NEXT_ENTRY(UNSIGNED)),
+ .args = ARGS(ARGS_ENTRY(struct rte_flow_action_of_set_mpls_ttl,
+ mpls_ttl)),
+ .call = parse_vc_conf,
+ },
+ [ACTION_OF_DEC_MPLS_TTL] = {
+ .name = "of_dec_mpls_ttl",
+ .help = "OpenFlow's OFPAT_DEC_MPLS_TTL",
+ .priv = PRIV_ACTION(OF_DEC_MPLS_TTL, 0),
+ .next = NEXT(NEXT_ENTRY(ACTION_NEXT)),
+ .call = parse_vc,
+ },
+ [ACTION_OF_SET_NW_TTL] = {
+ .name = "of_set_nw_ttl",
+ .help = "OpenFlow's OFPAT_SET_NW_TTL",
+ .priv = PRIV_ACTION
+ (OF_SET_NW_TTL,
+ sizeof(struct rte_flow_action_of_set_nw_ttl)),
+ .next = NEXT(action_of_set_nw_ttl),
+ .call = parse_vc,
+ },
+ [ACTION_OF_SET_NW_TTL_NW_TTL] = {
+ .name = "nw_ttl",
+ .help = "IP TTL",
+ .next = NEXT(action_of_set_nw_ttl, NEXT_ENTRY(UNSIGNED)),
+ .args = ARGS(ARGS_ENTRY(struct rte_flow_action_of_set_nw_ttl,
+ nw_ttl)),
+ .call = parse_vc_conf,
+ },
+ [ACTION_OF_DEC_NW_TTL] = {
+ .name = "of_dec_nw_ttl",
+ .help = "OpenFlow's OFPAT_DEC_NW_TTL",
+ .priv = PRIV_ACTION(OF_DEC_NW_TTL, 0),
+ .next = NEXT(NEXT_ENTRY(ACTION_NEXT)),
+ .call = parse_vc,
+ },
+ [ACTION_OF_COPY_TTL_OUT] = {
+ .name = "of_copy_ttl_out",
+ .help = "OpenFlow's OFPAT_COPY_TTL_OUT",
+ .priv = PRIV_ACTION(OF_COPY_TTL_OUT, 0),
+ .next = NEXT(NEXT_ENTRY(ACTION_NEXT)),
+ .call = parse_vc,
+ },
+ [ACTION_OF_COPY_TTL_IN] = {
+ .name = "of_copy_ttl_in",
+ .help = "OpenFlow's OFPAT_COPY_TTL_IN",
+ .priv = PRIV_ACTION(OF_COPY_TTL_IN, 0),
+ .next = NEXT(NEXT_ENTRY(ACTION_NEXT)),
+ .call = parse_vc,
+ },
+ [ACTION_OF_POP_VLAN] = {
+ .name = "of_pop_vlan",
+ .help = "OpenFlow's OFPAT_POP_VLAN",
+ .priv = PRIV_ACTION(OF_POP_VLAN, 0),
+ .next = NEXT(NEXT_ENTRY(ACTION_NEXT)),
+ .call = parse_vc,
+ },
+ [ACTION_OF_PUSH_VLAN] = {
+ .name = "of_push_vlan",
+ .help = "OpenFlow's OFPAT_PUSH_VLAN",
+ .priv = PRIV_ACTION
+ (OF_PUSH_VLAN,
+ sizeof(struct rte_flow_action_of_push_vlan)),
+ .next = NEXT(action_of_push_vlan),
+ .call = parse_vc,
+ },
+ [ACTION_OF_PUSH_VLAN_ETHERTYPE] = {
+ .name = "ethertype",
+ .help = "EtherType",
+ .next = NEXT(action_of_push_vlan, NEXT_ENTRY(UNSIGNED)),
+ .args = ARGS(ARGS_ENTRY_HTON
+ (struct rte_flow_action_of_push_vlan,
+ ethertype)),
+ .call = parse_vc_conf,
+ },
+ [ACTION_OF_SET_VLAN_VID] = {
+ .name = "of_set_vlan_vid",
+ .help = "OpenFlow's OFPAT_SET_VLAN_VID",
+ .priv = PRIV_ACTION
+ (OF_SET_VLAN_VID,
+ sizeof(struct rte_flow_action_of_set_vlan_vid)),
+ .next = NEXT(action_of_set_vlan_vid),
+ .call = parse_vc,
+ },
+ [ACTION_OF_SET_VLAN_VID_VLAN_VID] = {
+ .name = "vlan_vid",
+ .help = "VLAN id",
+ .next = NEXT(action_of_set_vlan_vid, NEXT_ENTRY(UNSIGNED)),
+ .args = ARGS(ARGS_ENTRY_HTON
+ (struct rte_flow_action_of_set_vlan_vid,
+ vlan_vid)),
+ .call = parse_vc_conf,
+ },
+ [ACTION_OF_SET_VLAN_PCP] = {
+ .name = "of_set_vlan_pcp",
+ .help = "OpenFlow's OFPAT_SET_VLAN_PCP",
+ .priv = PRIV_ACTION
+ (OF_SET_VLAN_PCP,
+ sizeof(struct rte_flow_action_of_set_vlan_pcp)),
+ .next = NEXT(action_of_set_vlan_pcp),
+ .call = parse_vc,
+ },
+ [ACTION_OF_SET_VLAN_PCP_VLAN_PCP] = {
+ .name = "vlan_pcp",
+ .help = "VLAN priority",
+ .next = NEXT(action_of_set_vlan_pcp, NEXT_ENTRY(UNSIGNED)),
+ .args = ARGS(ARGS_ENTRY_HTON
+ (struct rte_flow_action_of_set_vlan_pcp,
+ vlan_pcp)),
+ .call = parse_vc_conf,
+ },
+ [ACTION_OF_POP_MPLS] = {
+ .name = "of_pop_mpls",
+ .help = "OpenFlow's OFPAT_POP_MPLS",
+ .priv = PRIV_ACTION(OF_POP_MPLS,
+ sizeof(struct rte_flow_action_of_pop_mpls)),
+ .next = NEXT(action_of_pop_mpls),
+ .call = parse_vc,
+ },
+ [ACTION_OF_POP_MPLS_ETHERTYPE] = {
+ .name = "ethertype",
+ .help = "EtherType",
+ .next = NEXT(action_of_pop_mpls, NEXT_ENTRY(UNSIGNED)),
+ .args = ARGS(ARGS_ENTRY_HTON
+ (struct rte_flow_action_of_pop_mpls,
+ ethertype)),
+ .call = parse_vc_conf,
+ },
+ [ACTION_OF_PUSH_MPLS] = {
+ .name = "of_push_mpls",
+ .help = "OpenFlow's OFPAT_PUSH_MPLS",
+ .priv = PRIV_ACTION
+ (OF_PUSH_MPLS,
+ sizeof(struct rte_flow_action_of_push_mpls)),
+ .next = NEXT(action_of_push_mpls),
+ .call = parse_vc,
+ },
+ [ACTION_OF_PUSH_MPLS_ETHERTYPE] = {
+ .name = "ethertype",
+ .help = "EtherType",
+ .next = NEXT(action_of_push_mpls, NEXT_ENTRY(UNSIGNED)),
+ .args = ARGS(ARGS_ENTRY_HTON
+ (struct rte_flow_action_of_push_mpls,
+ ethertype)),
+ .call = parse_vc_conf,
+ },
+ [ACTION_VXLAN_ENCAP] = {
+ .name = "vxlan_encap",
+ .help = "VXLAN encapsulation, uses configuration set by \"set"
+ " vxlan\"",
+ .priv = PRIV_ACTION(VXLAN_ENCAP,
+ sizeof(struct action_vxlan_encap_data)),
+ .next = NEXT(NEXT_ENTRY(ACTION_NEXT)),
+ .call = parse_vc_action_vxlan_encap,
+ },
+ [ACTION_VXLAN_DECAP] = {
+ .name = "vxlan_decap",
+ .help = "Performs a decapsulation action by stripping all"
+ " headers of the VXLAN tunnel network overlay from the"
+ " matched flow.",
+ .priv = PRIV_ACTION(VXLAN_DECAP, 0),
+ .next = NEXT(NEXT_ENTRY(ACTION_NEXT)),
+ .call = parse_vc,
+ },
+ [ACTION_NVGRE_ENCAP] = {
+ .name = "nvgre_encap",
+ .help = "NVGRE encapsulation, uses configuration set by \"set"
+ " nvgre\"",
+ .priv = PRIV_ACTION(NVGRE_ENCAP,
+ sizeof(struct action_nvgre_encap_data)),
+ .next = NEXT(NEXT_ENTRY(ACTION_NEXT)),
+ .call = parse_vc_action_nvgre_encap,
+ },
+ [ACTION_NVGRE_DECAP] = {
+ .name = "nvgre_decap",
+ .help = "Performs a decapsulation action by stripping all"
+ " headers of the NVGRE tunnel network overlay from the"
+ " matched flow.",
+ .priv = PRIV_ACTION(NVGRE_DECAP, 0),
+ .next = NEXT(NEXT_ENTRY(ACTION_NEXT)),
+ .call = parse_vc,
+ },
};
/** Remove and return last entry from argument stack. */
case EGRESS:
out->args.vc.attr.egress = 1;
return len;
+ case TRANSFER:
+ out->args.vc.attr.transfer = 1;
+ return len;
case PATTERN:
out->args.vc.pattern =
(void *)RTE_ALIGN_CEIL((uintptr_t)(out + 1),
return -1;
*action = (struct rte_flow_action){
.type = priv->type,
+ .conf = data_size ? data : NULL,
};
++out->args.vc.actions_n;
ctx->object = action;
void *buf, unsigned int size)
{
struct buffer *out = buf;
- struct rte_flow_action *action;
(void)size;
/* Token name must match. */
/* Nothing else to do if there is no buffer. */
if (!out)
return len;
+ /* Point to selected object. */
+ ctx->object = out->args.vc.data;
+ ctx->objmask = NULL;
+ return len;
+}
+
+/** Parse RSS action. */
+static int
+parse_vc_action_rss(struct context *ctx, const struct token *token,
+ const char *str, unsigned int len,
+ void *buf, unsigned int size)
+{
+ struct buffer *out = buf;
+ struct rte_flow_action *action;
+ struct action_rss_data *action_rss_data;
+ unsigned int i;
+ int ret;
+
+ ret = parse_vc(ctx, token, str, len, buf, size);
+ if (ret < 0)
+ return ret;
+ /* Nothing else to do if there is no buffer. */
+ if (!out)
+ return ret;
if (!out->args.vc.actions_n)
return -1;
action = &out->args.vc.actions[out->args.vc.actions_n - 1];
/* Point to selected object. */
ctx->object = out->args.vc.data;
ctx->objmask = NULL;
- /* Update configuration pointer. */
- action->conf = ctx->object;
+ /* Set up default configuration. */
+ action_rss_data = ctx->object;
+ *action_rss_data = (struct action_rss_data){
+ .conf = (struct rte_flow_action_rss){
+ .func = RTE_ETH_HASH_FUNCTION_DEFAULT,
+ .level = 0,
+ .types = rss_hf,
+ .key_len = sizeof(action_rss_data->key),
+ .queue_num = RTE_MIN(nb_rxq, ACTION_RSS_QUEUE_NUM),
+ .key = action_rss_data->key,
+ .queue = action_rss_data->queue,
+ },
+ .key = "testpmd's default RSS hash key, "
+ "override it for better balancing",
+ .queue = { 0 },
+ };
+ for (i = 0; i < action_rss_data->conf.queue_num; ++i)
+ action_rss_data->queue[i] = i;
+ if (!port_id_is_invalid(ctx->port, DISABLED_WARN) &&
+ ctx->port != (portid_t)RTE_PORT_ALL) {
+ struct rte_eth_dev_info info;
+
+ rte_eth_dev_info_get(ctx->port, &info);
+ action_rss_data->conf.key_len =
+ RTE_MIN(sizeof(action_rss_data->key),
+ info.hash_key_size);
+ }
+ action->conf = &action_rss_data->conf;
+ return ret;
+}
+
+/**
+ * Parse func field for RSS action.
+ *
+ * The RTE_ETH_HASH_FUNCTION_* value to assign is derived from the
+ * ACTION_RSS_FUNC_* index that called this function.
+ */
+static int
+parse_vc_action_rss_func(struct context *ctx, const struct token *token,
+ const char *str, unsigned int len,
+ void *buf, unsigned int size)
+{
+ struct action_rss_data *action_rss_data;
+ enum rte_eth_hash_function func;
+
+ (void)buf;
+ (void)size;
+ /* Token name must match. */
+ if (parse_default(ctx, token, str, len, NULL, 0) < 0)
+ return -1;
+ switch (ctx->curr) {
+ case ACTION_RSS_FUNC_DEFAULT:
+ func = RTE_ETH_HASH_FUNCTION_DEFAULT;
+ break;
+ case ACTION_RSS_FUNC_TOEPLITZ:
+ func = RTE_ETH_HASH_FUNCTION_TOEPLITZ;
+ break;
+ case ACTION_RSS_FUNC_SIMPLE_XOR:
+ func = RTE_ETH_HASH_FUNCTION_SIMPLE_XOR;
+ break;
+ default:
+ return -1;
+ }
+ if (!ctx->object)
+ return len;
+ action_rss_data = ctx->object;
+ action_rss_data->conf.func = func;
+ return len;
+}
+
+/**
+ * Parse type field for RSS action.
+ *
+ * Valid tokens are type field names and the "end" token.
+ */
+static int
+parse_vc_action_rss_type(struct context *ctx, const struct token *token,
+ const char *str, unsigned int len,
+ void *buf, unsigned int size)
+{
+ static const enum index next[] = NEXT_ENTRY(ACTION_RSS_TYPE);
+ struct action_rss_data *action_rss_data;
+ unsigned int i;
+
+ (void)token;
+ (void)buf;
+ (void)size;
+ if (ctx->curr != ACTION_RSS_TYPE)
+ return -1;
+ if (!(ctx->objdata >> 16) && ctx->object) {
+ action_rss_data = ctx->object;
+ action_rss_data->conf.types = 0;
+ }
+ if (!strcmp_partial("end", str, len)) {
+ ctx->objdata &= 0xffff;
+ return len;
+ }
+ for (i = 0; rss_type_table[i].str; ++i)
+ if (!strcmp_partial(rss_type_table[i].str, str, len))
+ break;
+ if (!rss_type_table[i].str)
+ return -1;
+ ctx->objdata = 1 << 16 | (ctx->objdata & 0xffff);
+ /* Repeat token. */
+ if (ctx->next_num == RTE_DIM(ctx->next))
+ return -1;
+ ctx->next[ctx->next_num++] = next;
+ if (!ctx->object)
+ return len;
+ action_rss_data = ctx->object;
+ action_rss_data->conf.types |= rss_type_table[i].rss_type;
return len;
}
void *buf, unsigned int size)
{
static const enum index next[] = NEXT_ENTRY(ACTION_RSS_QUEUE);
+ struct action_rss_data *action_rss_data;
int ret;
int i;
i = ctx->objdata >> 16;
if (!strcmp_partial("end", str, len)) {
ctx->objdata &= 0xffff;
- return len;
+ goto end;
}
- if (i >= ACTION_RSS_NUM)
+ if (i >= ACTION_RSS_QUEUE_NUM)
return -1;
- if (push_args(ctx, ARGS_ENTRY(struct rte_flow_action_rss, queue[i])))
+ if (push_args(ctx,
+ ARGS_ENTRY_ARB(offsetof(struct action_rss_data, queue) +
+ i * sizeof(action_rss_data->queue[i]),
+ sizeof(action_rss_data->queue[i]))))
return -1;
ret = parse_int(ctx, token, str, len, NULL, 0);
if (ret < 0) {
if (ctx->next_num == RTE_DIM(ctx->next))
return -1;
ctx->next[ctx->next_num++] = next;
+end:
if (!ctx->object)
return len;
- ((struct rte_flow_action_rss *)ctx->object)->num = i;
+ action_rss_data = ctx->object;
+ action_rss_data->conf.queue_num = i;
+ action_rss_data->conf.queue = i ? action_rss_data->queue : NULL;
return len;
}
+/** Parse VXLAN encap action. */
+static int
+parse_vc_action_vxlan_encap(struct context *ctx, const struct token *token,
+ const char *str, unsigned int len,
+ void *buf, unsigned int size)
+{
+ struct buffer *out = buf;
+ struct rte_flow_action *action;
+ struct action_vxlan_encap_data *action_vxlan_encap_data;
+ int ret;
+
+ ret = parse_vc(ctx, token, str, len, buf, size);
+ if (ret < 0)
+ return ret;
+ /* Nothing else to do if there is no buffer. */
+ if (!out)
+ return ret;
+ if (!out->args.vc.actions_n)
+ return -1;
+ action = &out->args.vc.actions[out->args.vc.actions_n - 1];
+ /* Point to selected object. */
+ ctx->object = out->args.vc.data;
+ ctx->objmask = NULL;
+ /* Set up default configuration. */
+ action_vxlan_encap_data = ctx->object;
+ *action_vxlan_encap_data = (struct action_vxlan_encap_data){
+ .conf = (struct rte_flow_action_vxlan_encap){
+ .definition = action_vxlan_encap_data->items,
+ },
+ .items = {
+ {
+ .type = RTE_FLOW_ITEM_TYPE_ETH,
+ .spec = &action_vxlan_encap_data->item_eth,
+ .mask = &rte_flow_item_eth_mask,
+ },
+ {
+ .type = RTE_FLOW_ITEM_TYPE_VLAN,
+ .spec = &action_vxlan_encap_data->item_vlan,
+ .mask = &rte_flow_item_vlan_mask,
+ },
+ {
+ .type = RTE_FLOW_ITEM_TYPE_IPV4,
+ .spec = &action_vxlan_encap_data->item_ipv4,
+ .mask = &rte_flow_item_ipv4_mask,
+ },
+ {
+ .type = RTE_FLOW_ITEM_TYPE_UDP,
+ .spec = &action_vxlan_encap_data->item_udp,
+ .mask = &rte_flow_item_udp_mask,
+ },
+ {
+ .type = RTE_FLOW_ITEM_TYPE_VXLAN,
+ .spec = &action_vxlan_encap_data->item_vxlan,
+ .mask = &rte_flow_item_vxlan_mask,
+ },
+ {
+ .type = RTE_FLOW_ITEM_TYPE_END,
+ },
+ },
+ .item_eth.type = 0,
+ .item_vlan = {
+ .tci = vxlan_encap_conf.vlan_tci,
+ .inner_type = 0,
+ },
+ .item_ipv4.hdr = {
+ .src_addr = vxlan_encap_conf.ipv4_src,
+ .dst_addr = vxlan_encap_conf.ipv4_dst,
+ },
+ .item_udp.hdr = {
+ .src_port = vxlan_encap_conf.udp_src,
+ .dst_port = vxlan_encap_conf.udp_dst,
+ },
+ .item_vxlan.flags = 0,
+ };
+ memcpy(action_vxlan_encap_data->item_eth.dst.addr_bytes,
+ vxlan_encap_conf.eth_dst, ETHER_ADDR_LEN);
+ memcpy(action_vxlan_encap_data->item_eth.src.addr_bytes,
+ vxlan_encap_conf.eth_src, ETHER_ADDR_LEN);
+ if (!vxlan_encap_conf.select_ipv4) {
+ memcpy(&action_vxlan_encap_data->item_ipv6.hdr.src_addr,
+ &vxlan_encap_conf.ipv6_src,
+ sizeof(vxlan_encap_conf.ipv6_src));
+ memcpy(&action_vxlan_encap_data->item_ipv6.hdr.dst_addr,
+ &vxlan_encap_conf.ipv6_dst,
+ sizeof(vxlan_encap_conf.ipv6_dst));
+ action_vxlan_encap_data->items[2] = (struct rte_flow_item){
+ .type = RTE_FLOW_ITEM_TYPE_IPV6,
+ .spec = &action_vxlan_encap_data->item_ipv6,
+ .mask = &rte_flow_item_ipv6_mask,
+ };
+ }
+ if (!vxlan_encap_conf.select_vlan)
+ action_vxlan_encap_data->items[1].type =
+ RTE_FLOW_ITEM_TYPE_VOID;
+ memcpy(action_vxlan_encap_data->item_vxlan.vni, vxlan_encap_conf.vni,
+ RTE_DIM(vxlan_encap_conf.vni));
+ action->conf = &action_vxlan_encap_data->conf;
+ return ret;
+}
+
+/** Parse NVGRE encap action. */
+static int
+parse_vc_action_nvgre_encap(struct context *ctx, const struct token *token,
+ const char *str, unsigned int len,
+ void *buf, unsigned int size)
+{
+ struct buffer *out = buf;
+ struct rte_flow_action *action;
+ struct action_nvgre_encap_data *action_nvgre_encap_data;
+ int ret;
+
+ ret = parse_vc(ctx, token, str, len, buf, size);
+ if (ret < 0)
+ return ret;
+ /* Nothing else to do if there is no buffer. */
+ if (!out)
+ return ret;
+ if (!out->args.vc.actions_n)
+ return -1;
+ action = &out->args.vc.actions[out->args.vc.actions_n - 1];
+ /* Point to selected object. */
+ ctx->object = out->args.vc.data;
+ ctx->objmask = NULL;
+ /* Set up default configuration. */
+ action_nvgre_encap_data = ctx->object;
+ *action_nvgre_encap_data = (struct action_nvgre_encap_data){
+ .conf = (struct rte_flow_action_nvgre_encap){
+ .definition = action_nvgre_encap_data->items,
+ },
+ .items = {
+ {
+ .type = RTE_FLOW_ITEM_TYPE_ETH,
+ .spec = &action_nvgre_encap_data->item_eth,
+ .mask = &rte_flow_item_eth_mask,
+ },
+ {
+ .type = RTE_FLOW_ITEM_TYPE_VLAN,
+ .spec = &action_nvgre_encap_data->item_vlan,
+ .mask = &rte_flow_item_vlan_mask,
+ },
+ {
+ .type = RTE_FLOW_ITEM_TYPE_IPV4,
+ .spec = &action_nvgre_encap_data->item_ipv4,
+ .mask = &rte_flow_item_ipv4_mask,
+ },
+ {
+ .type = RTE_FLOW_ITEM_TYPE_NVGRE,
+ .spec = &action_nvgre_encap_data->item_nvgre,
+ .mask = &rte_flow_item_nvgre_mask,
+ },
+ {
+ .type = RTE_FLOW_ITEM_TYPE_END,
+ },
+ },
+ .item_eth.type = 0,
+ .item_vlan = {
+ .tci = nvgre_encap_conf.vlan_tci,
+ .inner_type = 0,
+ },
+ .item_ipv4.hdr = {
+ .src_addr = nvgre_encap_conf.ipv4_src,
+ .dst_addr = nvgre_encap_conf.ipv4_dst,
+ },
+ .item_nvgre.flow_id = 0,
+ };
+ memcpy(action_nvgre_encap_data->item_eth.dst.addr_bytes,
+ nvgre_encap_conf.eth_dst, ETHER_ADDR_LEN);
+ memcpy(action_nvgre_encap_data->item_eth.src.addr_bytes,
+ nvgre_encap_conf.eth_src, ETHER_ADDR_LEN);
+ if (!nvgre_encap_conf.select_ipv4) {
+ memcpy(&action_nvgre_encap_data->item_ipv6.hdr.src_addr,
+ &nvgre_encap_conf.ipv6_src,
+ sizeof(nvgre_encap_conf.ipv6_src));
+ memcpy(&action_nvgre_encap_data->item_ipv6.hdr.dst_addr,
+ &nvgre_encap_conf.ipv6_dst,
+ sizeof(nvgre_encap_conf.ipv6_dst));
+ action_nvgre_encap_data->items[2] = (struct rte_flow_item){
+ .type = RTE_FLOW_ITEM_TYPE_IPV6,
+ .spec = &action_nvgre_encap_data->item_ipv6,
+ .mask = &rte_flow_item_ipv6_mask,
+ };
+ }
+ if (!nvgre_encap_conf.select_vlan)
+ action_nvgre_encap_data->items[1].type =
+ RTE_FLOW_ITEM_TYPE_VOID;
+ memcpy(action_nvgre_encap_data->item_nvgre.tni, nvgre_encap_conf.tni,
+ RTE_DIM(nvgre_encap_conf.tni));
+ action->conf = &action_nvgre_encap_data->conf;
+ return ret;
+}
+
/** Parse tokens for destroy command. */
static int
parse_destroy(struct context *ctx, const struct token *token,
strtoumax(str, &end, 0);
if (errno || (size_t)(end - str) != len)
goto error;
+ if (arg->bounded &&
+ ((arg->sign && ((intmax_t)u < (intmax_t)arg->min ||
+ (intmax_t)u > (intmax_t)arg->max)) ||
+ (!arg->sign && (u < arg->min || u > arg->max))))
+ goto error;
if (!ctx->object)
return len;
if (arg->mask) {
/**
* Parse a string.
*
- * Two arguments (ctx->args) are retrieved from the stack to store data and
- * its length (in that order).
+ * Three arguments (ctx->args) are retrieved from the stack to store data,
+ * its actual length and address (in that order).
*/
static int
parse_string(struct context *ctx, const struct token *token,
{
const struct arg *arg_data = pop_args(ctx);
const struct arg *arg_len = pop_args(ctx);
+ const struct arg *arg_addr = pop_args(ctx);
char tmp[16]; /* Ought to be enough. */
int ret;
push_args(ctx, arg_data);
return -1;
}
+ if (!arg_addr) {
+ push_args(ctx, arg_len);
+ push_args(ctx, arg_data);
+ return -1;
+ }
size = arg_data->size;
/* Bit-mask fill is not supported. */
if (arg_data->mask || size < len)
buf = (uint8_t *)ctx->object + arg_data->offset;
/* Output buffer is not necessarily NUL-terminated. */
memcpy(buf, str, len);
- memset((uint8_t *)buf + len, 0x55, size - len);
+ memset((uint8_t *)buf + len, 0x00, size - len);
if (ctx->objmask)
memset((uint8_t *)ctx->objmask + arg_data->offset, 0xff, len);
+ /* Save address if requested. */
+ if (arg_addr->size) {
+ memcpy((uint8_t *)ctx->object + arg_addr->offset,
+ (void *[]){
+ (uint8_t *)ctx->object + arg_data->offset
+ },
+ arg_addr->size);
+ if (ctx->objmask)
+ memcpy((uint8_t *)ctx->objmask + arg_addr->offset,
+ (void *[]){
+ (uint8_t *)ctx->objmask + arg_data->offset
+ },
+ arg_addr->size);
+ }
return len;
error:
+ push_args(ctx, arg_addr);
push_args(ctx, arg_len);
push_args(ctx, arg_data);
return -1;
"false", "true",
"no", "yes",
"N", "Y",
+ "off", "on",
NULL,
};
return i;
}
+/** Complete type field for RSS action. */
+static int
+comp_vc_action_rss_type(struct context *ctx, const struct token *token,
+ unsigned int ent, char *buf, unsigned int size)
+{
+ unsigned int i;
+
+ (void)ctx;
+ (void)token;
+ for (i = 0; rss_type_table[i].str; ++i)
+ ;
+ if (!buf)
+ return i + 1;
+ if (ent < i)
+ return snprintf(buf, size, "%s", rss_type_table[ent].str);
+ if (ent == i)
+ return snprintf(buf, size, "end");
+ return -1;
+}
+
/** Complete queue field for RSS action. */
static int
comp_vc_action_rss_queue(struct context *ctx, const struct token *token,
unsigned int ent, char *buf, unsigned int size)
{
- static const char *const str[] = { "", "end", NULL };
- unsigned int i;
-
(void)ctx;
(void)token;
- for (i = 0; str[i] != NULL; ++i)
- if (buf && i == ent)
- return snprintf(buf, size, "%s", str[i]);
- if (buf)
- return -1;
- return i;
+ if (!buf)
+ return nb_rxq + 1;
+ if (ent < nb_rxq)
+ return snprintf(buf, size, "%u", ent);
+ if (ent == nb_rxq)
+ return snprintf(buf, size, "end");
+ return -1;
}
/** Internal context. */
break;
case QUERY:
port_flow_query(in->port, in->args.query.rule,
- in->args.query.action);
+ &in->args.query.action);
break;
case LIST:
port_flow_list(in->port, in->args.list.group_n,
Code Review / deb_dpdk.git / blobdiff