#include <errno.h>
#include <ctype.h>
#include <string.h>
+#include <arpa/inet.h>
#include <rte_common.h>
#include <rte_ethdev.h>
#include <rte_byteorder.h>
#include <cmdline_parse.h>
+#include <cmdline_parse_etheraddr.h>
#include <rte_flow.h>
#include "testpmd.h"
INTEGER,
UNSIGNED,
PREFIX,
+ BOOLEAN,
+ STRING,
+ MAC_ADDR,
+ IPV4_ADDR,
+ IPV6_ADDR,
RULE_ID,
PORT_ID,
GROUP_ID,
ITEM_END,
ITEM_VOID,
ITEM_INVERT,
+ ITEM_ANY,
+ ITEM_ANY_NUM,
+ ITEM_PF,
+ ITEM_VF,
+ ITEM_VF_ID,
+ ITEM_PORT,
+ ITEM_PORT_INDEX,
+ ITEM_RAW,
+ ITEM_RAW_RELATIVE,
+ ITEM_RAW_SEARCH,
+ ITEM_RAW_OFFSET,
+ ITEM_RAW_LIMIT,
+ ITEM_RAW_PATTERN,
+ ITEM_ETH,
+ ITEM_ETH_DST,
+ ITEM_ETH_SRC,
+ ITEM_ETH_TYPE,
+ ITEM_VLAN,
+ ITEM_VLAN_TPID,
+ ITEM_VLAN_TCI,
+ ITEM_IPV4,
+ ITEM_IPV4_SRC,
+ ITEM_IPV4_DST,
+ ITEM_IPV6,
+ ITEM_IPV6_SRC,
+ ITEM_IPV6_DST,
+ ITEM_ICMP,
+ ITEM_ICMP_TYPE,
+ ITEM_ICMP_CODE,
+ ITEM_UDP,
+ ITEM_UDP_SRC,
+ ITEM_UDP_DST,
+ ITEM_TCP,
+ ITEM_TCP_SRC,
+ ITEM_TCP_DST,
+ ITEM_SCTP,
+ ITEM_SCTP_SRC,
+ ITEM_SCTP_DST,
+ ITEM_VXLAN,
+ ITEM_VXLAN_VNI,
/* Validate/create actions. */
ACTIONS,
ACTION_END,
ACTION_VOID,
ACTION_PASSTHRU,
+ ACTION_MARK,
+ ACTION_MARK_ID,
+ ACTION_FLAG,
+ ACTION_QUEUE,
+ ACTION_QUEUE_INDEX,
+ ACTION_DROP,
+ ACTION_COUNT,
+ ACTION_DUP,
+ ACTION_DUP_INDEX,
+ ACTION_RSS,
+ ACTION_RSS_QUEUES,
+ ACTION_RSS_QUEUE,
+ ACTION_PF,
+ ACTION_VF,
+ ACTION_VF_ORIGINAL,
+ ACTION_VF_ID,
};
+/** Size of pattern[] field in struct rte_flow_item_raw. */
+#define ITEM_RAW_PATTERN_SIZE 36
+
+/** 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)
+
+/** Number of queue[] entries in struct rte_flow_action_rss. */
+#define ACTION_RSS_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)
+
/** Maximum number of subsequent tokens and arguments on the stack. */
#define CTX_STACK_SIZE 16
uint32_t sign:1; /**< Value is signed. */
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. */
};
/** Parser token definition. */
.size = sizeof(((s *)0)->f), \
})
+/** Static initializer for ARGS() to target a bit-field. */
+#define ARGS_ENTRY_BF(s, f, b) \
+ (&(const struct arg){ \
+ .size = sizeof(s), \
+ .mask = (const void *)&(const s){ .f = (1 << (b)) - 1 }, \
+ })
+
/** Static initializer for ARGS() to target a pointer. */
#define ARGS_ENTRY_PTR(s, f) \
(&(const struct arg){ \
.size = sizeof(*((s *)0)->f), \
})
+/** Static initializer for ARGS() with arbitrary size. */
+#define ARGS_ENTRY_USZ(s, f, sz) \
+ (&(const struct arg){ \
+ .offset = offsetof(s, f), \
+ .size = (sz), \
+ })
+
+/** Same as ARGS_ENTRY() using network byte ordering. */
+#define ARGS_ENTRY_HTON(s, f) \
+ (&(const struct arg){ \
+ .hton = 1, \
+ .offset = offsetof(s, f), \
+ .size = sizeof(((s *)0)->f), \
+ })
+
/** Parser output buffer layout expected by cmd_flow_parsed(). */
struct buffer {
enum index command; /**< Flow command. */
ZERO,
};
-__rte_unused
static const enum index item_param[] = {
ITEM_PARAM_IS,
ITEM_PARAM_SPEC,
ITEM_END,
ITEM_VOID,
ITEM_INVERT,
+ ITEM_ANY,
+ ITEM_PF,
+ ITEM_VF,
+ ITEM_PORT,
+ ITEM_RAW,
+ ITEM_ETH,
+ ITEM_VLAN,
+ ITEM_IPV4,
+ ITEM_IPV6,
+ ITEM_ICMP,
+ ITEM_UDP,
+ ITEM_TCP,
+ ITEM_SCTP,
+ ITEM_VXLAN,
+ ZERO,
+};
+
+static const enum index item_any[] = {
+ ITEM_ANY_NUM,
+ ITEM_NEXT,
+ ZERO,
+};
+
+static const enum index item_vf[] = {
+ ITEM_VF_ID,
+ ITEM_NEXT,
+ ZERO,
+};
+
+static const enum index item_port[] = {
+ ITEM_PORT_INDEX,
+ ITEM_NEXT,
+ ZERO,
+};
+
+static const enum index item_raw[] = {
+ ITEM_RAW_RELATIVE,
+ ITEM_RAW_SEARCH,
+ ITEM_RAW_OFFSET,
+ ITEM_RAW_LIMIT,
+ ITEM_RAW_PATTERN,
+ ITEM_NEXT,
+ ZERO,
+};
+
+static const enum index item_eth[] = {
+ ITEM_ETH_DST,
+ ITEM_ETH_SRC,
+ ITEM_ETH_TYPE,
+ ITEM_NEXT,
+ ZERO,
+};
+
+static const enum index item_vlan[] = {
+ ITEM_VLAN_TPID,
+ ITEM_VLAN_TCI,
+ ITEM_NEXT,
+ ZERO,
+};
+
+static const enum index item_ipv4[] = {
+ ITEM_IPV4_SRC,
+ ITEM_IPV4_DST,
+ ITEM_NEXT,
+ ZERO,
+};
+
+static const enum index item_ipv6[] = {
+ ITEM_IPV6_SRC,
+ ITEM_IPV6_DST,
+ ITEM_NEXT,
+ ZERO,
+};
+
+static const enum index item_icmp[] = {
+ ITEM_ICMP_TYPE,
+ ITEM_ICMP_CODE,
+ ITEM_NEXT,
+ ZERO,
+};
+
+static const enum index item_udp[] = {
+ ITEM_UDP_SRC,
+ ITEM_UDP_DST,
+ ITEM_NEXT,
+ ZERO,
+};
+
+static const enum index item_tcp[] = {
+ ITEM_TCP_SRC,
+ ITEM_TCP_DST,
+ ITEM_NEXT,
+ ZERO,
+};
+
+static const enum index item_sctp[] = {
+ ITEM_SCTP_SRC,
+ ITEM_SCTP_DST,
+ ITEM_NEXT,
+ ZERO,
+};
+
+static const enum index item_vxlan[] = {
+ ITEM_VXLAN_VNI,
+ ITEM_NEXT,
ZERO,
};
ACTION_END,
ACTION_VOID,
ACTION_PASSTHRU,
+ ACTION_MARK,
+ ACTION_FLAG,
+ ACTION_QUEUE,
+ ACTION_DROP,
+ ACTION_COUNT,
+ ACTION_DUP,
+ ACTION_RSS,
+ ACTION_PF,
+ ACTION_VF,
+ ZERO,
+};
+
+static const enum index action_mark[] = {
+ ACTION_MARK_ID,
+ ACTION_NEXT,
+ ZERO,
+};
+
+static const enum index action_queue[] = {
+ ACTION_QUEUE_INDEX,
+ ACTION_NEXT,
+ ZERO,
+};
+
+static const enum index action_dup[] = {
+ ACTION_DUP_INDEX,
+ ACTION_NEXT,
+ ZERO,
+};
+
+static const enum index action_rss[] = {
+ ACTION_RSS_QUEUES,
+ ACTION_NEXT,
+ ZERO,
+};
+
+static const enum index action_vf[] = {
+ ACTION_VF_ORIGINAL,
+ ACTION_VF_ID,
+ ACTION_NEXT,
ZERO,
};
void *, unsigned int);
static int parse_vc_spec(struct context *, const struct token *,
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_queue(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);
static int parse_prefix(struct context *, const struct token *,
const char *, unsigned int,
void *, unsigned int);
+static int parse_boolean(struct context *, const struct token *,
+ const char *, unsigned int,
+ void *, unsigned int);
+static int parse_string(struct context *, const struct token *,
+ const char *, unsigned int,
+ void *, unsigned int);
+static int parse_mac_addr(struct context *, const struct token *,
+ const char *, unsigned int,
+ void *, unsigned int);
+static int parse_ipv4_addr(struct context *, const struct token *,
+ const char *, unsigned int,
+ void *, unsigned int);
+static int parse_ipv6_addr(struct context *, const struct token *,
+ const char *, unsigned int,
+ void *, unsigned int);
static int parse_port(struct context *, const struct token *,
const char *, unsigned int,
void *, unsigned int);
static int comp_none(struct context *, const struct token *,
unsigned int, char *, unsigned int);
+static int comp_boolean(struct context *, const struct token *,
+ unsigned int, char *, unsigned int);
static int comp_action(struct context *, const struct token *,
unsigned int, char *, unsigned int);
static int comp_port(struct context *, const struct token *,
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_queue(struct context *, const struct token *,
+ unsigned int, char *, unsigned int);
/** Token definitions. */
static const struct token token_list[] = {
.call = parse_prefix,
.comp = comp_none,
},
+ [BOOLEAN] = {
+ .name = "{boolean}",
+ .type = "BOOLEAN",
+ .help = "any boolean value",
+ .call = parse_boolean,
+ .comp = comp_boolean,
+ },
+ [STRING] = {
+ .name = "{string}",
+ .type = "STRING",
+ .help = "fixed string",
+ .call = parse_string,
+ .comp = comp_none,
+ },
+ [MAC_ADDR] = {
+ .name = "{MAC address}",
+ .type = "MAC-48",
+ .help = "standard MAC address notation",
+ .call = parse_mac_addr,
+ .comp = comp_none,
+ },
+ [IPV4_ADDR] = {
+ .name = "{IPv4 address}",
+ .type = "IPV4 ADDRESS",
+ .help = "standard IPv4 address notation",
+ .call = parse_ipv4_addr,
+ .comp = comp_none,
+ },
+ [IPV6_ADDR] = {
+ .name = "{IPv6 address}",
+ .type = "IPV6 ADDRESS",
+ .help = "standard IPv6 address notation",
+ .call = parse_ipv6_addr,
+ .comp = comp_none,
+ },
[RULE_ID] = {
.name = "{rule id}",
.type = "RULE ID",
.next = NEXT(NEXT_ENTRY(ITEM_NEXT)),
.call = parse_vc,
},
+ [ITEM_ANY] = {
+ .name = "any",
+ .help = "match any protocol for the current layer",
+ .priv = PRIV_ITEM(ANY, sizeof(struct rte_flow_item_any)),
+ .next = NEXT(item_any),
+ .call = parse_vc,
+ },
+ [ITEM_ANY_NUM] = {
+ .name = "num",
+ .help = "number of layers covered",
+ .next = NEXT(item_any, NEXT_ENTRY(UNSIGNED), item_param),
+ .args = ARGS(ARGS_ENTRY(struct rte_flow_item_any, num)),
+ },
+ [ITEM_PF] = {
+ .name = "pf",
+ .help = "match packets addressed 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",
+ .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",
+ .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),
+ .call = parse_vc,
+ },
+ [ITEM_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)),
+ },
+ [ITEM_RAW] = {
+ .name = "raw",
+ .help = "match an arbitrary byte string",
+ .priv = PRIV_ITEM(RAW, ITEM_RAW_SIZE),
+ .next = NEXT(item_raw),
+ .call = parse_vc,
+ },
+ [ITEM_RAW_RELATIVE] = {
+ .name = "relative",
+ .help = "look for pattern after the previous item",
+ .next = NEXT(item_raw, NEXT_ENTRY(BOOLEAN), item_param),
+ .args = ARGS(ARGS_ENTRY_BF(struct rte_flow_item_raw,
+ relative, 1)),
+ },
+ [ITEM_RAW_SEARCH] = {
+ .name = "search",
+ .help = "search pattern from offset (see also limit)",
+ .next = NEXT(item_raw, NEXT_ENTRY(BOOLEAN), item_param),
+ .args = ARGS(ARGS_ENTRY_BF(struct rte_flow_item_raw,
+ search, 1)),
+ },
+ [ITEM_RAW_OFFSET] = {
+ .name = "offset",
+ .help = "absolute or relative offset for pattern",
+ .next = NEXT(item_raw, NEXT_ENTRY(INTEGER), item_param),
+ .args = ARGS(ARGS_ENTRY(struct rte_flow_item_raw, offset)),
+ },
+ [ITEM_RAW_LIMIT] = {
+ .name = "limit",
+ .help = "search area limit for start of pattern",
+ .next = NEXT(item_raw, NEXT_ENTRY(UNSIGNED), item_param),
+ .args = ARGS(ARGS_ENTRY(struct rte_flow_item_raw, limit)),
+ },
+ [ITEM_RAW_PATTERN] = {
+ .name = "pattern",
+ .help = "byte string to look for",
+ .next = NEXT(item_raw,
+ NEXT_ENTRY(STRING),
+ 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,
+ ITEM_RAW_PATTERN_SIZE)),
+ },
+ [ITEM_ETH] = {
+ .name = "eth",
+ .help = "match Ethernet header",
+ .priv = PRIV_ITEM(ETH, sizeof(struct rte_flow_item_eth)),
+ .next = NEXT(item_eth),
+ .call = parse_vc,
+ },
+ [ITEM_ETH_DST] = {
+ .name = "dst",
+ .help = "destination MAC",
+ .next = NEXT(item_eth, NEXT_ENTRY(MAC_ADDR), item_param),
+ .args = ARGS(ARGS_ENTRY(struct rte_flow_item_eth, dst)),
+ },
+ [ITEM_ETH_SRC] = {
+ .name = "src",
+ .help = "source MAC",
+ .next = NEXT(item_eth, NEXT_ENTRY(MAC_ADDR), item_param),
+ .args = ARGS(ARGS_ENTRY(struct rte_flow_item_eth, src)),
+ },
+ [ITEM_ETH_TYPE] = {
+ .name = "type",
+ .help = "EtherType",
+ .next = NEXT(item_eth, NEXT_ENTRY(UNSIGNED), item_param),
+ .args = ARGS(ARGS_ENTRY_HTON(struct rte_flow_item_eth, type)),
+ },
+ [ITEM_VLAN] = {
+ .name = "vlan",
+ .help = "match 802.1Q/ad VLAN tag",
+ .priv = PRIV_ITEM(VLAN, sizeof(struct rte_flow_item_vlan)),
+ .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",
+ .next = NEXT(item_vlan, NEXT_ENTRY(UNSIGNED), item_param),
+ .args = ARGS(ARGS_ENTRY_HTON(struct rte_flow_item_vlan, tci)),
+ },
+ [ITEM_IPV4] = {
+ .name = "ipv4",
+ .help = "match IPv4 header",
+ .priv = PRIV_ITEM(IPV4, sizeof(struct rte_flow_item_ipv4)),
+ .next = NEXT(item_ipv4),
+ .call = parse_vc,
+ },
+ [ITEM_IPV4_SRC] = {
+ .name = "src",
+ .help = "source address",
+ .next = NEXT(item_ipv4, NEXT_ENTRY(IPV4_ADDR), item_param),
+ .args = ARGS(ARGS_ENTRY_HTON(struct rte_flow_item_ipv4,
+ hdr.src_addr)),
+ },
+ [ITEM_IPV4_DST] = {
+ .name = "dst",
+ .help = "destination address",
+ .next = NEXT(item_ipv4, NEXT_ENTRY(IPV4_ADDR), item_param),
+ .args = ARGS(ARGS_ENTRY_HTON(struct rte_flow_item_ipv4,
+ hdr.dst_addr)),
+ },
+ [ITEM_IPV6] = {
+ .name = "ipv6",
+ .help = "match IPv6 header",
+ .priv = PRIV_ITEM(IPV6, sizeof(struct rte_flow_item_ipv6)),
+ .next = NEXT(item_ipv6),
+ .call = parse_vc,
+ },
+ [ITEM_IPV6_SRC] = {
+ .name = "src",
+ .help = "source address",
+ .next = NEXT(item_ipv6, NEXT_ENTRY(IPV6_ADDR), item_param),
+ .args = ARGS(ARGS_ENTRY_HTON(struct rte_flow_item_ipv6,
+ hdr.src_addr)),
+ },
+ [ITEM_IPV6_DST] = {
+ .name = "dst",
+ .help = "destination address",
+ .next = NEXT(item_ipv6, NEXT_ENTRY(IPV6_ADDR), item_param),
+ .args = ARGS(ARGS_ENTRY_HTON(struct rte_flow_item_ipv6,
+ hdr.dst_addr)),
+ },
+ [ITEM_ICMP] = {
+ .name = "icmp",
+ .help = "match ICMP header",
+ .priv = PRIV_ITEM(ICMP, sizeof(struct rte_flow_item_icmp)),
+ .next = NEXT(item_icmp),
+ .call = parse_vc,
+ },
+ [ITEM_ICMP_TYPE] = {
+ .name = "type",
+ .help = "ICMP packet type",
+ .next = NEXT(item_icmp, NEXT_ENTRY(UNSIGNED), item_param),
+ .args = ARGS(ARGS_ENTRY_HTON(struct rte_flow_item_icmp,
+ hdr.icmp_type)),
+ },
+ [ITEM_ICMP_CODE] = {
+ .name = "code",
+ .help = "ICMP packet code",
+ .next = NEXT(item_icmp, NEXT_ENTRY(UNSIGNED), item_param),
+ .args = ARGS(ARGS_ENTRY_HTON(struct rte_flow_item_icmp,
+ hdr.icmp_code)),
+ },
+ [ITEM_UDP] = {
+ .name = "udp",
+ .help = "match UDP header",
+ .priv = PRIV_ITEM(UDP, sizeof(struct rte_flow_item_udp)),
+ .next = NEXT(item_udp),
+ .call = parse_vc,
+ },
+ [ITEM_UDP_SRC] = {
+ .name = "src",
+ .help = "UDP source port",
+ .next = NEXT(item_udp, NEXT_ENTRY(UNSIGNED), item_param),
+ .args = ARGS(ARGS_ENTRY_HTON(struct rte_flow_item_udp,
+ hdr.src_port)),
+ },
+ [ITEM_UDP_DST] = {
+ .name = "dst",
+ .help = "UDP destination port",
+ .next = NEXT(item_udp, NEXT_ENTRY(UNSIGNED), item_param),
+ .args = ARGS(ARGS_ENTRY_HTON(struct rte_flow_item_udp,
+ hdr.dst_port)),
+ },
+ [ITEM_TCP] = {
+ .name = "tcp",
+ .help = "match TCP header",
+ .priv = PRIV_ITEM(TCP, sizeof(struct rte_flow_item_tcp)),
+ .next = NEXT(item_tcp),
+ .call = parse_vc,
+ },
+ [ITEM_TCP_SRC] = {
+ .name = "src",
+ .help = "TCP source port",
+ .next = NEXT(item_tcp, NEXT_ENTRY(UNSIGNED), item_param),
+ .args = ARGS(ARGS_ENTRY_HTON(struct rte_flow_item_tcp,
+ hdr.src_port)),
+ },
+ [ITEM_TCP_DST] = {
+ .name = "dst",
+ .help = "TCP destination port",
+ .next = NEXT(item_tcp, NEXT_ENTRY(UNSIGNED), item_param),
+ .args = ARGS(ARGS_ENTRY_HTON(struct rte_flow_item_tcp,
+ hdr.dst_port)),
+ },
+ [ITEM_SCTP] = {
+ .name = "sctp",
+ .help = "match SCTP header",
+ .priv = PRIV_ITEM(SCTP, sizeof(struct rte_flow_item_sctp)),
+ .next = NEXT(item_sctp),
+ .call = parse_vc,
+ },
+ [ITEM_SCTP_SRC] = {
+ .name = "src",
+ .help = "SCTP source port",
+ .next = NEXT(item_sctp, NEXT_ENTRY(UNSIGNED), item_param),
+ .args = ARGS(ARGS_ENTRY_HTON(struct rte_flow_item_sctp,
+ hdr.src_port)),
+ },
+ [ITEM_SCTP_DST] = {
+ .name = "dst",
+ .help = "SCTP destination port",
+ .next = NEXT(item_sctp, NEXT_ENTRY(UNSIGNED), item_param),
+ .args = ARGS(ARGS_ENTRY_HTON(struct rte_flow_item_sctp,
+ hdr.dst_port)),
+ },
+ [ITEM_VXLAN] = {
+ .name = "vxlan",
+ .help = "match VXLAN header",
+ .priv = PRIV_ITEM(VXLAN, sizeof(struct rte_flow_item_vxlan)),
+ .next = NEXT(item_vxlan),
+ .call = parse_vc,
+ },
+ [ITEM_VXLAN_VNI] = {
+ .name = "vni",
+ .help = "VXLAN identifier",
+ .next = NEXT(item_vxlan, NEXT_ENTRY(UNSIGNED), item_param),
+ .args = ARGS(ARGS_ENTRY_HTON(struct rte_flow_item_vxlan, vni)),
+ },
/* Validate/create actions. */
[ACTIONS] = {
.name = "actions",
.next = NEXT(NEXT_ENTRY(ACTION_NEXT)),
.call = parse_vc,
},
+ [ACTION_MARK] = {
+ .name = "mark",
+ .help = "attach 32 bit value to packets",
+ .priv = PRIV_ACTION(MARK, sizeof(struct rte_flow_action_mark)),
+ .next = NEXT(action_mark),
+ .call = parse_vc,
+ },
+ [ACTION_MARK_ID] = {
+ .name = "id",
+ .help = "32 bit value to return with packets",
+ .next = NEXT(action_mark, NEXT_ENTRY(UNSIGNED)),
+ .args = ARGS(ARGS_ENTRY(struct rte_flow_action_mark, id)),
+ .call = parse_vc_conf,
+ },
+ [ACTION_FLAG] = {
+ .name = "flag",
+ .help = "flag packets",
+ .priv = PRIV_ACTION(FLAG, 0),
+ .next = NEXT(NEXT_ENTRY(ACTION_NEXT)),
+ .call = parse_vc,
+ },
+ [ACTION_QUEUE] = {
+ .name = "queue",
+ .help = "assign packets to a given queue index",
+ .priv = PRIV_ACTION(QUEUE,
+ sizeof(struct rte_flow_action_queue)),
+ .next = NEXT(action_queue),
+ .call = parse_vc,
+ },
+ [ACTION_QUEUE_INDEX] = {
+ .name = "index",
+ .help = "queue index to use",
+ .next = NEXT(action_queue, NEXT_ENTRY(UNSIGNED)),
+ .args = ARGS(ARGS_ENTRY(struct rte_flow_action_queue, index)),
+ .call = parse_vc_conf,
+ },
+ [ACTION_DROP] = {
+ .name = "drop",
+ .help = "drop packets (note: passthru has priority)",
+ .priv = PRIV_ACTION(DROP, 0),
+ .next = NEXT(NEXT_ENTRY(ACTION_NEXT)),
+ .call = parse_vc,
+ },
+ [ACTION_COUNT] = {
+ .name = "count",
+ .help = "enable counters for this rule",
+ .priv = PRIV_ACTION(COUNT, 0),
+ .next = NEXT(NEXT_ENTRY(ACTION_NEXT)),
+ .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_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)),
+ .call = parse_vc_conf,
+ },
+ [ACTION_RSS] = {
+ .name = "rss",
+ .help = "spread packets among several queues",
+ .priv = PRIV_ACTION(RSS, ACTION_RSS_SIZE),
+ .next = NEXT(action_rss),
+ .call = parse_vc,
+ },
+ [ACTION_RSS_QUEUES] = {
+ .name = "queues",
+ .help = "queue indices to use",
+ .next = NEXT(action_rss, NEXT_ENTRY(ACTION_RSS_QUEUE)),
+ .call = parse_vc_conf,
+ },
+ [ACTION_RSS_QUEUE] = {
+ .name = "{queue}",
+ .help = "queue index",
+ .call = parse_vc_action_rss_queue,
+ .comp = comp_vc_action_rss_queue,
+ },
+ [ACTION_PF] = {
+ .name = "pf",
+ .help = "redirect packets to physical device 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",
+ .priv = PRIV_ACTION(VF, sizeof(struct rte_flow_action_vf)),
+ .next = NEXT(action_vf),
+ .call = parse_vc,
+ },
+ [ACTION_VF_ORIGINAL] = {
+ .name = "original",
+ .help = "use original VF ID if possible",
+ .next = NEXT(action_vf, NEXT_ENTRY(BOOLEAN)),
+ .args = ARGS(ARGS_ENTRY_BF(struct rte_flow_action_vf,
+ original, 1)),
+ .call = parse_vc_conf,
+ },
+ [ACTION_VF_ID] = {
+ .name = "id",
+ .help = "VF ID to redirect packets to",
+ .next = NEXT(action_vf, NEXT_ENTRY(UNSIGNED)),
+ .args = ARGS(ARGS_ENTRY(struct rte_flow_action_vf, id)),
+ .call = parse_vc_conf,
+ },
};
/** Remove and return last entry from argument stack. */
return 0;
}
+/** Spread value into buffer according to bit-mask. */
+static size_t
+arg_entry_bf_fill(void *dst, uintmax_t val, const struct arg *arg)
+{
+ uint32_t i = arg->size;
+ uint32_t end = 0;
+ int sub = 1;
+ int add = 0;
+ size_t len = 0;
+
+ if (!arg->mask)
+ return 0;
+#if RTE_BYTE_ORDER == RTE_LITTLE_ENDIAN
+ if (!arg->hton) {
+ i = 0;
+ end = arg->size;
+ sub = 0;
+ add = 1;
+ }
+#endif
+ while (i != end) {
+ unsigned int shift = 0;
+ uint8_t *buf = (uint8_t *)dst + arg->offset + (i -= sub);
+
+ for (shift = 0; arg->mask[i] >> shift; ++shift) {
+ if (!(arg->mask[i] & (1 << shift)))
+ continue;
+ ++len;
+ if (!dst)
+ continue;
+ *buf &= ~(1 << shift);
+ *buf |= (val & 1) << shift;
+ val >>= 1;
+ }
+ i += add;
+ }
+ return len;
+}
+
/**
* Parse a prefix length and generate a bit-mask.
*
u = strtoumax(str, &end, 0);
if (errno || (size_t)(end - str) != len)
goto error;
+ if (arg->mask) {
+ uintmax_t v = 0;
+
+ extra = arg_entry_bf_fill(NULL, 0, arg);
+ if (u > extra)
+ goto error;
+ if (!ctx->object)
+ return len;
+ extra -= u;
+ while (u--)
+ (v <<= 1, v |= 1);
+ v <<= extra;
+ if (!arg_entry_bf_fill(ctx->object, v, arg) ||
+ !arg_entry_bf_fill(ctx->objmask, -1, arg))
+ goto error;
+ return len;
+ }
bytes = u / 8;
extra = u % 8;
size = arg->size;
return len;
}
+/** Parse action configuration field. */
+static int
+parse_vc_conf(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;
+
+ (void)size;
+ /* Token name must match. */
+ if (parse_default(ctx, token, str, len, NULL, 0) < 0)
+ return -1;
+ /* Nothing else to do if there is no buffer. */
+ if (!out)
+ return len;
+ 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;
+ return len;
+}
+
+/**
+ * Parse queue field for RSS action.
+ *
+ * Valid tokens are queue indices and the "end" token.
+ */
+static int
+parse_vc_action_rss_queue(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_QUEUE);
+ int ret;
+ int i;
+
+ (void)token;
+ (void)buf;
+ (void)size;
+ if (ctx->curr != ACTION_RSS_QUEUE)
+ return -1;
+ i = ctx->objdata >> 16;
+ if (!strncmp(str, "end", len)) {
+ ctx->objdata &= 0xffff;
+ return len;
+ }
+ if (i >= ACTION_RSS_NUM)
+ return -1;
+ if (push_args(ctx, ARGS_ENTRY(struct rte_flow_action_rss, queue[i])))
+ return -1;
+ ret = parse_int(ctx, token, str, len, NULL, 0);
+ if (ret < 0) {
+ pop_args(ctx);
+ return -1;
+ }
+ ++i;
+ ctx->objdata = i << 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;
+ ((struct rte_flow_action_rss *)ctx->object)->num = i;
+ return len;
+}
+
/** Parse tokens for destroy command. */
static int
parse_destroy(struct context *ctx, const struct token *token,
goto error;
if (!ctx->object)
return len;
+ if (arg->mask) {
+ if (!arg_entry_bf_fill(ctx->object, u, arg) ||
+ !arg_entry_bf_fill(ctx->objmask, -1, arg))
+ goto error;
+ return len;
+ }
buf = (uint8_t *)ctx->object + arg->offset;
size = arg->size;
objmask:
case sizeof(uint16_t):
*(uint16_t *)buf = arg->hton ? rte_cpu_to_be_16(u) : u;
break;
+ case sizeof(uint8_t [3]):
+#if RTE_BYTE_ORDER == RTE_LITTLE_ENDIAN
+ if (!arg->hton) {
+ ((uint8_t *)buf)[0] = u;
+ ((uint8_t *)buf)[1] = u >> 8;
+ ((uint8_t *)buf)[2] = u >> 16;
+ break;
+ }
+#endif
+ ((uint8_t *)buf)[0] = u >> 16;
+ ((uint8_t *)buf)[1] = u >> 8;
+ ((uint8_t *)buf)[2] = u;
+ break;
case sizeof(uint32_t):
*(uint32_t *)buf = arg->hton ? rte_cpu_to_be_32(u) : u;
break;
return -1;
}
+/**
+ * Parse a string.
+ *
+ * Two arguments (ctx->args) are retrieved from the stack to store data and
+ * its length (in that order).
+ */
+static int
+parse_string(struct context *ctx, const struct token *token,
+ const char *str, unsigned int len,
+ void *buf, unsigned int size)
+{
+ const struct arg *arg_data = pop_args(ctx);
+ const struct arg *arg_len = pop_args(ctx);
+ char tmp[16]; /* Ought to be enough. */
+ int ret;
+
+ /* Arguments are expected. */
+ if (!arg_data)
+ return -1;
+ if (!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)
+ goto error;
+ if (!ctx->object)
+ return len;
+ /* Let parse_int() fill length information first. */
+ ret = snprintf(tmp, sizeof(tmp), "%u", len);
+ if (ret < 0)
+ goto error;
+ push_args(ctx, arg_len);
+ ret = parse_int(ctx, token, tmp, ret, NULL, 0);
+ if (ret < 0) {
+ pop_args(ctx);
+ goto error;
+ }
+ 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);
+ if (ctx->objmask)
+ memset((uint8_t *)ctx->objmask + arg_data->offset, 0xff, len);
+ return len;
+error:
+ push_args(ctx, arg_len);
+ push_args(ctx, arg_data);
+ return -1;
+}
+
+/**
+ * Parse a MAC address.
+ *
+ * Last argument (ctx->args) is retrieved to determine storage size and
+ * location.
+ */
+static int
+parse_mac_addr(struct context *ctx, const struct token *token,
+ const char *str, unsigned int len,
+ void *buf, unsigned int size)
+{
+ const struct arg *arg = pop_args(ctx);
+ struct ether_addr tmp;
+ int ret;
+
+ (void)token;
+ /* Argument is expected. */
+ if (!arg)
+ return -1;
+ size = arg->size;
+ /* Bit-mask fill is not supported. */
+ if (arg->mask || size != sizeof(tmp))
+ goto error;
+ ret = cmdline_parse_etheraddr(NULL, str, &tmp, size);
+ if (ret < 0 || (unsigned int)ret != len)
+ goto error;
+ if (!ctx->object)
+ return len;
+ buf = (uint8_t *)ctx->object + arg->offset;
+ memcpy(buf, &tmp, size);
+ if (ctx->objmask)
+ memset((uint8_t *)ctx->objmask + arg->offset, 0xff, size);
+ return len;
+error:
+ push_args(ctx, arg);
+ return -1;
+}
+
+/**
+ * Parse an IPv4 address.
+ *
+ * Last argument (ctx->args) is retrieved to determine storage size and
+ * location.
+ */
+static int
+parse_ipv4_addr(struct context *ctx, const struct token *token,
+ const char *str, unsigned int len,
+ void *buf, unsigned int size)
+{
+ const struct arg *arg = pop_args(ctx);
+ char str2[len + 1];
+ struct in_addr tmp;
+ int ret;
+
+ /* Argument is expected. */
+ if (!arg)
+ return -1;
+ size = arg->size;
+ /* Bit-mask fill is not supported. */
+ if (arg->mask || size != sizeof(tmp))
+ goto error;
+ /* Only network endian is supported. */
+ if (!arg->hton)
+ goto error;
+ memcpy(str2, str, len);
+ str2[len] = '\0';
+ ret = inet_pton(AF_INET, str2, &tmp);
+ if (ret != 1) {
+ /* Attempt integer parsing. */
+ push_args(ctx, arg);
+ return parse_int(ctx, token, str, len, buf, size);
+ }
+ if (!ctx->object)
+ return len;
+ buf = (uint8_t *)ctx->object + arg->offset;
+ memcpy(buf, &tmp, size);
+ if (ctx->objmask)
+ memset((uint8_t *)ctx->objmask + arg->offset, 0xff, size);
+ return len;
+error:
+ push_args(ctx, arg);
+ return -1;
+}
+
+/**
+ * Parse an IPv6 address.
+ *
+ * Last argument (ctx->args) is retrieved to determine storage size and
+ * location.
+ */
+static int
+parse_ipv6_addr(struct context *ctx, const struct token *token,
+ const char *str, unsigned int len,
+ void *buf, unsigned int size)
+{
+ const struct arg *arg = pop_args(ctx);
+ char str2[len + 1];
+ struct in6_addr tmp;
+ int ret;
+
+ (void)token;
+ /* Argument is expected. */
+ if (!arg)
+ return -1;
+ size = arg->size;
+ /* Bit-mask fill is not supported. */
+ if (arg->mask || size != sizeof(tmp))
+ goto error;
+ /* Only network endian is supported. */
+ if (!arg->hton)
+ goto error;
+ memcpy(str2, str, len);
+ str2[len] = '\0';
+ ret = inet_pton(AF_INET6, str2, &tmp);
+ if (ret != 1)
+ goto error;
+ if (!ctx->object)
+ return len;
+ buf = (uint8_t *)ctx->object + arg->offset;
+ memcpy(buf, &tmp, size);
+ if (ctx->objmask)
+ memset((uint8_t *)ctx->objmask + arg->offset, 0xff, size);
+ return len;
+error:
+ push_args(ctx, arg);
+ return -1;
+}
+
+/** Boolean values (even indices stand for false). */
+static const char *const boolean_name[] = {
+ "0", "1",
+ "false", "true",
+ "no", "yes",
+ "N", "Y",
+ NULL,
+};
+
+/**
+ * Parse a boolean value.
+ *
+ * Last argument (ctx->args) is retrieved to determine storage size and
+ * location.
+ */
+static int
+parse_boolean(struct context *ctx, const struct token *token,
+ const char *str, unsigned int len,
+ void *buf, unsigned int size)
+{
+ const struct arg *arg = pop_args(ctx);
+ unsigned int i;
+ int ret;
+
+ /* Argument is expected. */
+ if (!arg)
+ return -1;
+ for (i = 0; boolean_name[i]; ++i)
+ if (!strncmp(str, boolean_name[i], len))
+ break;
+ /* Process token as integer. */
+ if (boolean_name[i])
+ str = i & 1 ? "1" : "0";
+ push_args(ctx, arg);
+ ret = parse_int(ctx, token, str, strlen(str), buf, size);
+ return ret > 0 ? (int)len : ret;
+}
+
/** Parse port and update context. */
static int
parse_port(struct context *ctx, const struct token *token,
return 0;
}
+/** Complete boolean values. */
+static int
+comp_boolean(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; boolean_name[i]; ++i)
+ if (buf && i == ent)
+ return snprintf(buf, size, "%s", boolean_name[i]);
+ if (buf)
+ return -1;
+ return i;
+}
+
/** Complete action names. */
static int
comp_action(struct context *ctx, const struct token *token,
return i;
}
+/** 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;
+}
+
/** Internal context. */
static struct context cmd_flow_context;