/* SPDX-License-Identifier: GPL-2.0-or-later */ /* * ipmacsec.c "ip macsec". * * Authors: Sabrina Dubroca */ #include #include #include #include #include #include #include #include "rt_names.h" #include "utils.h" #include "ip_common.h" #include "ll_map.h" #include "libgenl.h" static const char * const validate_str[] = { [MACSEC_VALIDATE_DISABLED] = "disabled", [MACSEC_VALIDATE_CHECK] = "check", [MACSEC_VALIDATE_STRICT] = "strict", }; static const char * const offload_str[] = { [MACSEC_OFFLOAD_OFF] = "off", [MACSEC_OFFLOAD_PHY] = "phy", [MACSEC_OFFLOAD_MAC] = "mac", }; struct sci { __u64 sci; __u16 port; char abuf[6]; }; struct sa_desc { __u8 an; union { __u32 pn32; __u64 pn64; } pn; __u8 key_id[MACSEC_KEYID_LEN]; __u32 key_len; __u8 key[MACSEC_MAX_KEY_LEN]; __u8 active; __u8 salt[MACSEC_SALT_LEN]; __u32 ssci; bool xpn; bool salt_set; bool ssci_set; }; struct cipher_args { __u64 id; __u8 icv_len; }; struct txsc_desc { int ifindex; __u64 sci; __be16 port; struct cipher_args cipher; __u32 window; enum macsec_validation_type validate; __u8 encoding_sa; }; struct rxsc_desc { int ifindex; __u64 sci; __u8 active; }; #define MACSEC_BUFLEN 1024 /* netlink socket */ static struct rtnl_handle genl_rth; static int genl_family = -1; #define MACSEC_GENL_REQ(_req, _bufsiz, _cmd, _flags) \ GENL_REQUEST(_req, _bufsiz, genl_family, 0, MACSEC_GENL_VERSION, \ _cmd, _flags) static void ipmacsec_usage(void) { fprintf(stderr, "Usage: ip macsec add DEV tx sa { 0..3 } [ OPTS ] key ID KEY\n" " ip macsec set DEV tx sa { 0..3 } [ OPTS ]\n" " ip macsec del DEV tx sa { 0..3 }\n" " ip macsec add DEV rx SCI [ on | off ]\n" " ip macsec set DEV rx SCI [ on | off ]\n" " ip macsec del DEV rx SCI\n" " ip macsec add DEV rx SCI sa { 0..3 } [ OPTS ] key ID KEY\n" " ip macsec set DEV rx SCI sa { 0..3 } [ OPTS ]\n" " ip macsec del DEV rx SCI sa { 0..3 }\n" " ip macsec show\n" " ip macsec show DEV\n" " ip macsec offload DEV [ off | phy | mac ]\n" "where OPTS := [ pn | xpn ] [ salt SALT ] [ ssci ] [ on | off ]\n" " ID := 128-bit hex string\n" " KEY := 128-bit or 256-bit hex string\n" " SCI := { sci | port { 1..2^16-1 } address }\n" " SALT := 96-bit hex string\n"); exit(-1); } static bool ciphersuite_is_xpn(__u64 cid) { return (cid == MACSEC_CIPHER_ID_GCM_AES_XPN_128 || cid == MACSEC_CIPHER_ID_GCM_AES_XPN_256); } static int get_an(__u8 *val, const char *arg) { int ret = get_u8(val, arg, 0); if (ret) return ret; if (*val > 3) return -1; return 0; } static int get_sci(__u64 *sci, const char *arg) { return get_be64(sci, arg, 16); } static int get_ssci(__u32 *ssci, const char *arg) { return get_be32(ssci, arg, 16); } static int get_port(__be16 *port, const char *arg) { return get_be16(port, arg, 0); } #define _STR(a) #a #define STR(a) _STR(a) static void get_icvlen(__u8 *icvlen, char *arg) { int ret = get_u8(icvlen, arg, 10); if (ret) invarg("expected ICV length", arg); if (*icvlen < MACSEC_MIN_ICV_LEN || *icvlen > MACSEC_STD_ICV_LEN) invarg("ICV length must be in the range {" STR(MACSEC_MIN_ICV_LEN) ".." STR(MACSEC_STD_ICV_LEN) "}", arg); } static bool get_sa(int *argcp, char ***argvp, __u8 *an) { int argc = *argcp; char **argv = *argvp; int ret; if (argc <= 0 || strcmp(*argv, "sa") != 0) return false; NEXT_ARG(); ret = get_an(an, *argv); if (ret) invarg("expected an { 0..3 }", *argv); argc--; argv++; *argvp = argv; *argcp = argc; return true; } static int parse_sa_args(int *argcp, char ***argvp, struct sa_desc *sa) { int argc = *argcp; char **argv = *argvp; int ret; bool active_set = false; while (argc > 0) { if (strcmp(*argv, "pn") == 0) { if (sa->pn.pn64 != 0) duparg2("pn", "pn"); NEXT_ARG(); ret = get_u32(&sa->pn.pn32, *argv, 0); if (ret) invarg("expected pn", *argv); if (sa->pn.pn32 == 0) invarg("expected pn != 0", *argv); } else if (strcmp(*argv, "xpn") == 0) { if (sa->pn.pn64 != 0) duparg2("xpn", "xpn"); NEXT_ARG(); ret = get_u64(&sa->pn.pn64, *argv, 0); if (ret) invarg("expected pn", *argv); if (sa->pn.pn64 == 0) invarg("expected pn != 0", *argv); sa->xpn = true; } else if (strcmp(*argv, "salt") == 0) { unsigned int len; if (sa->salt_set) duparg2("salt", "salt"); NEXT_ARG(); if (!hexstring_a2n(*argv, sa->salt, MACSEC_SALT_LEN, &len)) invarg("expected salt", *argv); sa->salt_set = true; } else if (strcmp(*argv, "ssci") == 0) { if (sa->ssci_set) duparg2("ssci", "ssci"); NEXT_ARG(); ret = get_ssci(&sa->ssci, *argv); if (ret) invarg("expected ssci", *argv); sa->ssci_set = true; } else if (strcmp(*argv, "key") == 0) { unsigned int len; NEXT_ARG(); if (!hexstring_a2n(*argv, sa->key_id, MACSEC_KEYID_LEN, &len)) invarg("expected key id", *argv); NEXT_ARG(); if (!hexstring_a2n(*argv, sa->key, MACSEC_MAX_KEY_LEN, &sa->key_len)) invarg("expected key", *argv); } else if (strcmp(*argv, "on") == 0) { if (active_set) duparg2("on/off", "on"); sa->active = true; active_set = true; } else if (strcmp(*argv, "off") == 0) { if (active_set) duparg2("on/off", "off"); sa->active = false; active_set = true; } else { fprintf(stderr, "macsec: unknown command \"%s\"?\n", *argv); ipmacsec_usage(); } argv++; argc--; } *argvp = argv; *argcp = argc; return 0; } static __u64 make_sci(char *addr, __be16 port) { __u64 sci; memcpy(&sci, addr, ETH_ALEN); memcpy(((char *)&sci) + ETH_ALEN, &port, sizeof(port)); return sci; } static bool sci_complete(bool sci, bool port, bool addr, bool port_only) { return sci || (port && (addr || port_only)); } static int get_sci_portaddr(struct sci *sci, int *argcp, char ***argvp, bool port_only, bool optional) { int argc = *argcp; char **argv = *argvp; int ret; bool p = false, a = false, s = false; while (argc > 0) { if (strcmp(*argv, "sci") == 0) { if (p) invarg("expected address", *argv); if (a) invarg("expected port", *argv); NEXT_ARG(); ret = get_sci(&sci->sci, *argv); if (ret) invarg("expected sci", *argv); s = true; } else if (strcmp(*argv, "port") == 0) { NEXT_ARG(); ret = get_port(&sci->port, *argv); if (ret) invarg("expected port", *argv); if (sci->port == 0) invarg("expected port != 0", *argv); p = true; } else if (strcmp(*argv, "address") == 0) { NEXT_ARG(); ret = ll_addr_a2n(sci->abuf, sizeof(sci->abuf), *argv); if (ret < 0) invarg("expected lladdr", *argv); a = true; } else if (optional) { break; } else { invarg("expected sci, port, or address", *argv); } argv++; argc--; if (sci_complete(s, p, a, port_only)) break; } if (!optional && !sci_complete(s, p, a, port_only)) return -1; if (p && a) sci->sci = make_sci(sci->abuf, sci->port); *argvp = argv; *argcp = argc; return p || a || s; } static bool parse_rxsci(int *argcp, char ***argvp, struct rxsc_desc *rxsc, struct sa_desc *rxsa) { struct sci sci = { 0 }; if (*argcp == 0 || get_sci_portaddr(&sci, argcp, argvp, false, false) < 0) { fprintf(stderr, "expected sci\n"); ipmacsec_usage(); } rxsc->sci = sci.sci; return get_sa(argcp, argvp, &rxsa->an); } static int parse_rxsci_args(int *argcp, char ***argvp, struct rxsc_desc *rxsc) { int argc = *argcp; char **argv = *argvp; bool active_set = false; while (argc > 0) { if (strcmp(*argv, "on") == 0) { if (active_set) duparg2("on/off", "on"); rxsc->active = true; active_set = true; } else if (strcmp(*argv, "off") == 0) { if (active_set) duparg2("on/off", "off"); rxsc->active = false; active_set = true; } else { fprintf(stderr, "macsec: unknown command \"%s\"?\n", *argv); ipmacsec_usage(); } argv++; argc--; } *argvp = argv; *argcp = argc; return 0; } enum cmd { CMD_ADD, CMD_DEL, CMD_UPD, CMD_OFFLOAD, __CMD_MAX }; static const enum macsec_nl_commands macsec_commands[__CMD_MAX][2][2] = { [CMD_ADD] = { [0] = {-1, MACSEC_CMD_ADD_RXSC}, [1] = {MACSEC_CMD_ADD_TXSA, MACSEC_CMD_ADD_RXSA}, }, [CMD_UPD] = { [0] = {-1, MACSEC_CMD_UPD_RXSC}, [1] = {MACSEC_CMD_UPD_TXSA, MACSEC_CMD_UPD_RXSA}, }, [CMD_DEL] = { [0] = {-1, MACSEC_CMD_DEL_RXSC}, [1] = {MACSEC_CMD_DEL_TXSA, MACSEC_CMD_DEL_RXSA}, }, [CMD_OFFLOAD] = { [0] = {-1, MACSEC_CMD_UPD_OFFLOAD }, }, }; static int do_modify_nl(enum cmd c, enum macsec_nl_commands cmd, int ifindex, struct rxsc_desc *rxsc, struct sa_desc *sa) { struct rtattr *attr_sa; MACSEC_GENL_REQ(req, MACSEC_BUFLEN, cmd, NLM_F_REQUEST); addattr32(&req.n, MACSEC_BUFLEN, MACSEC_ATTR_IFINDEX, ifindex); if (rxsc) { struct rtattr *attr_rxsc; attr_rxsc = addattr_nest(&req.n, MACSEC_BUFLEN, MACSEC_ATTR_RXSC_CONFIG); addattr64(&req.n, MACSEC_BUFLEN, MACSEC_RXSC_ATTR_SCI, rxsc->sci); if (c != CMD_DEL && rxsc->active != 0xff) addattr8(&req.n, MACSEC_BUFLEN, MACSEC_RXSC_ATTR_ACTIVE, rxsc->active); addattr_nest_end(&req.n, attr_rxsc); } if (sa->an == 0xff) goto talk; attr_sa = addattr_nest(&req.n, MACSEC_BUFLEN, MACSEC_ATTR_SA_CONFIG); addattr8(&req.n, MACSEC_BUFLEN, MACSEC_SA_ATTR_AN, sa->an); if (c != CMD_DEL) { if (sa->xpn) { if (sa->pn.pn64) addattr64(&req.n, MACSEC_BUFLEN, MACSEC_SA_ATTR_PN, sa->pn.pn64); if (sa->salt_set) addattr_l(&req.n, MACSEC_BUFLEN, MACSEC_SA_ATTR_SALT, sa->salt, MACSEC_SALT_LEN); if (sa->ssci_set) addattr32(&req.n, MACSEC_BUFLEN, MACSEC_SA_ATTR_SSCI, sa->ssci); } else { if (sa->pn.pn32) addattr32(&req.n, MACSEC_BUFLEN, MACSEC_SA_ATTR_PN, sa->pn.pn32); } if (sa->key_len) { addattr_l(&req.n, MACSEC_BUFLEN, MACSEC_SA_ATTR_KEYID, sa->key_id, MACSEC_KEYID_LEN); addattr_l(&req.n, MACSEC_BUFLEN, MACSEC_SA_ATTR_KEY, sa->key, sa->key_len); } if (sa->active != 0xff) { addattr8(&req.n, MACSEC_BUFLEN, MACSEC_SA_ATTR_ACTIVE, sa->active); } } addattr_nest_end(&req.n, attr_sa); talk: if (rtnl_talk(&genl_rth, &req.n, NULL) < 0) return -2; return 0; } static bool check_sa_args(enum cmd c, struct sa_desc *sa) { if (c == CMD_ADD) { if (!sa->key_len) { fprintf(stderr, "cannot create SA without key\n"); return -1; } if (sa->pn.pn64 == 0) { fprintf(stderr, "must specify a packet number != 0\n"); return -1; } } else if (c == CMD_UPD) { if (sa->key_len) { fprintf(stderr, "cannot change key on SA\n"); return -1; } } return 0; } static int do_modify_txsa(enum cmd c, int argc, char **argv, int ifindex) { struct sa_desc txsa = {0}; enum macsec_nl_commands cmd; txsa.an = 0xff; txsa.active = 0xff; if (argc == 0 || !get_sa(&argc, &argv, &txsa.an)) ipmacsec_usage(); if (c == CMD_DEL) goto modify; if (parse_sa_args(&argc, &argv, &txsa)) return -1; if (check_sa_args(c, &txsa)) return -1; modify: cmd = macsec_commands[c][1][0]; return do_modify_nl(c, cmd, ifindex, NULL, &txsa); } static int do_modify_rxsci(enum cmd c, int argc, char **argv, int ifindex) { struct rxsc_desc rxsc = {0}; struct sa_desc rxsa = {0}; bool sa_set; enum macsec_nl_commands cmd; rxsc.ifindex = ifindex; rxsc.active = 0xff; rxsa.an = 0xff; rxsa.active = 0xff; sa_set = parse_rxsci(&argc, &argv, &rxsc, &rxsa); if (c == CMD_DEL) goto modify; if (sa_set && (parse_sa_args(&argc, &argv, &rxsa) || check_sa_args(c, &rxsa))) return -1; if (!sa_set && parse_rxsci_args(&argc, &argv, &rxsc)) return -1; modify: cmd = macsec_commands[c][sa_set][1]; return do_modify_nl(c, cmd, rxsc.ifindex, &rxsc, &rxsa); } static int do_modify(enum cmd c, int argc, char **argv) { int ifindex; if (argc == 0) ipmacsec_usage(); ifindex = ll_name_to_index(*argv); if (!ifindex) { fprintf(stderr, "Device \"%s\" does not exist.\n", *argv); return -1; } argc--; argv++; if (argc == 0) ipmacsec_usage(); if (strcmp(*argv, "tx") == 0) return do_modify_txsa(c, argc-1, argv+1, ifindex); if (strcmp(*argv, "rx") == 0) return do_modify_rxsci(c, argc-1, argv+1, ifindex); ipmacsec_usage(); return -1; } static int do_offload(enum cmd c, int argc, char **argv) { enum macsec_offload offload; struct rtattr *attr; int ifindex, ret; if (argc == 0) ipmacsec_usage(); ifindex = ll_name_to_index(*argv); if (!ifindex) { fprintf(stderr, "Device \"%s\" does not exist.\n", *argv); return -1; } argc--; argv++; if (argc == 0) ipmacsec_usage(); offload = parse_one_of("offload", *argv, offload_str, ARRAY_SIZE(offload_str), &ret); if (ret) ipmacsec_usage(); MACSEC_GENL_REQ(req, MACSEC_BUFLEN, macsec_commands[c][0][1], NLM_F_REQUEST); addattr32(&req.n, MACSEC_BUFLEN, MACSEC_ATTR_IFINDEX, ifindex); attr = addattr_nest(&req.n, MACSEC_BUFLEN, MACSEC_ATTR_OFFLOAD); addattr8(&req.n, MACSEC_BUFLEN, MACSEC_OFFLOAD_ATTR_TYPE, offload); addattr_nest_end(&req.n, attr); if (rtnl_talk(&genl_rth, &req.n, NULL) < 0) return -2; return 0; } /* dump/show */ static struct { int ifindex; __u64 sci; } filter; static int validate_dump(struct rtattr **attrs) { return attrs[MACSEC_ATTR_IFINDEX] && attrs[MACSEC_ATTR_SECY] && attrs[MACSEC_ATTR_TXSA_LIST] && attrs[MACSEC_ATTR_RXSC_LIST] && attrs[MACSEC_ATTR_TXSC_STATS] && attrs[MACSEC_ATTR_SECY_STATS]; } static int validate_secy_dump(struct rtattr **attrs) { return attrs[MACSEC_SECY_ATTR_SCI] && attrs[MACSEC_SECY_ATTR_ENCODING_SA] && attrs[MACSEC_SECY_ATTR_CIPHER_SUITE] && attrs[MACSEC_SECY_ATTR_ICV_LEN] && attrs[MACSEC_SECY_ATTR_PROTECT] && attrs[MACSEC_SECY_ATTR_REPLAY] && attrs[MACSEC_SECY_ATTR_OPER] && attrs[MACSEC_SECY_ATTR_VALIDATE] && attrs[MACSEC_SECY_ATTR_ENCRYPT] && attrs[MACSEC_SECY_ATTR_INC_SCI] && attrs[MACSEC_SECY_ATTR_ES] && attrs[MACSEC_SECY_ATTR_SCB]; } static void print_flag(struct rtattr *attrs[], const char *desc, int field) { __u8 flag; if (!attrs[field]) return; flag = rta_getattr_u8(attrs[field]); if (is_json_context()) print_bool(PRINT_JSON, desc, NULL, flag); else { print_string(PRINT_FP, NULL, "%s ", desc); print_string(PRINT_FP, NULL, "%s ", flag ? "on" : "off"); } } static void print_key(struct rtattr *key) { SPRINT_BUF(keyid); print_string(PRINT_ANY, "key", " key %s\n", hexstring_n2a(RTA_DATA(key), RTA_PAYLOAD(key), keyid, sizeof(keyid))); } #define CIPHER_NAME_GCM_AES_128 "GCM-AES-128" #define CIPHER_NAME_GCM_AES_256 "GCM-AES-256" #define CIPHER_NAME_GCM_AES_XPN_128 "GCM-AES-XPN-128" #define CIPHER_NAME_GCM_AES_XPN_256 "GCM-AES-XPN-256" #define DEFAULT_CIPHER_NAME CIPHER_NAME_GCM_AES_128 static const char *cs_id_to_name(__u64 cid) { switch (cid) { case MACSEC_DEFAULT_CIPHER_ID: return DEFAULT_CIPHER_NAME; case MACSEC_CIPHER_ID_GCM_AES_128: /* MACSEC_DEFAULT_CIPHER_ALT: */ return CIPHER_NAME_GCM_AES_128; case MACSEC_CIPHER_ID_GCM_AES_256: return CIPHER_NAME_GCM_AES_256; case MACSEC_CIPHER_ID_GCM_AES_XPN_128: return CIPHER_NAME_GCM_AES_XPN_128; case MACSEC_CIPHER_ID_GCM_AES_XPN_256: return CIPHER_NAME_GCM_AES_XPN_256; default: return "(unknown)"; } } static const char *validate_to_str(__u8 validate) { if (validate >= ARRAY_SIZE(validate_str)) return "(unknown)"; return validate_str[validate]; } static const char *offload_to_str(__u8 offload) { if (offload >= ARRAY_SIZE(offload_str)) return "(unknown)"; return offload_str[offload]; } static void print_attrs(struct rtattr *attrs[]) { print_flag(attrs, "protect", MACSEC_SECY_ATTR_PROTECT); if (attrs[MACSEC_SECY_ATTR_VALIDATE]) { __u8 val = rta_getattr_u8(attrs[MACSEC_SECY_ATTR_VALIDATE]); print_string(PRINT_ANY, "validate", "validate %s ", validate_to_str(val)); } print_flag(attrs, "sc", MACSEC_RXSC_ATTR_ACTIVE); print_flag(attrs, "sa", MACSEC_SA_ATTR_ACTIVE); print_flag(attrs, "encrypt", MACSEC_SECY_ATTR_ENCRYPT); print_flag(attrs, "send_sci", MACSEC_SECY_ATTR_INC_SCI); print_flag(attrs, "end_station", MACSEC_SECY_ATTR_ES); print_flag(attrs, "scb", MACSEC_SECY_ATTR_SCB); print_flag(attrs, "replay", MACSEC_SECY_ATTR_REPLAY); if (attrs[MACSEC_SECY_ATTR_WINDOW]) { __u32 win = rta_getattr_u32(attrs[MACSEC_SECY_ATTR_WINDOW]); print_uint(PRINT_ANY, "window", "window %u ", win); } if (attrs[MACSEC_SECY_ATTR_CIPHER_SUITE]) { __u64 cid = rta_getattr_u64(attrs[MACSEC_SECY_ATTR_CIPHER_SUITE]); print_nl(); print_string(PRINT_ANY, "cipher_suite", " cipher suite: %s,", cs_id_to_name(cid)); } if (attrs[MACSEC_SECY_ATTR_ICV_LEN]) { __u8 icv_len = rta_getattr_u8(attrs[MACSEC_SECY_ATTR_ICV_LEN]); print_uint(PRINT_ANY, "icv_length", " using ICV length %u\n", icv_len); } } static __u64 getattr_u64(const struct rtattr *stat) { size_t len = RTA_PAYLOAD(stat); switch (len) { case sizeof(__u64): return rta_getattr_u64(stat); case sizeof(__u32): return rta_getattr_u32(stat); case sizeof(__u16): return rta_getattr_u16(stat); case sizeof(__u8): return rta_getattr_u8(stat); default: fprintf(stderr, "invalid attribute length %zu\n", len); exit(-1); } } static void print_fp_stats(const char *prefix, const char *names[], unsigned int num, struct rtattr *stats[]) { unsigned int i; int pad; printf("%sstats:", prefix); for (i = 1; i < num; i++) { if (!names[i]) continue; printf(" %s", names[i]); } printf("\n%s ", prefix); for (i = 1; i < num; i++) { if (!names[i]) continue; pad = strlen(names[i]) + 1; if (stats[i]) printf("%*llu", pad, getattr_u64(stats[i])); else printf("%*c", pad, '-'); } printf("\n"); } static void print_json_stats(const char *names[], unsigned int num, struct rtattr *stats[]) { unsigned int i; for (i = 1; i < num; i++) { if (!names[i] || !stats[i]) continue; print_u64(PRINT_JSON, names[i], NULL, getattr_u64(stats[i])); } } static void print_stats(const char *prefix, const char *names[], unsigned int num, struct rtattr *stats[]) { if (is_json_context()) print_json_stats(names, num, stats); else print_fp_stats(prefix, names, num, stats); } static const char *txsc_stats_names[NUM_MACSEC_TXSC_STATS_ATTR] = { [MACSEC_TXSC_STATS_ATTR_OUT_PKTS_PROTECTED] = "OutPktsProtected", [MACSEC_TXSC_STATS_ATTR_OUT_PKTS_ENCRYPTED] = "OutPktsEncrypted", [MACSEC_TXSC_STATS_ATTR_OUT_OCTETS_PROTECTED] = "OutOctetsProtected", [MACSEC_TXSC_STATS_ATTR_OUT_OCTETS_ENCRYPTED] = "OutOctetsEncrypted", }; static void print_txsc_stats(const char *prefix, struct rtattr *attr) { struct rtattr *stats[MACSEC_TXSC_STATS_ATTR_MAX + 1]; if (!attr || show_stats == 0) return; parse_rtattr_nested(stats, MACSEC_TXSC_STATS_ATTR_MAX, attr); print_stats(prefix, txsc_stats_names, NUM_MACSEC_TXSC_STATS_ATTR, stats); } static const char *secy_stats_names[NUM_MACSEC_SECY_STATS_ATTR] = { [MACSEC_SECY_STATS_ATTR_OUT_PKTS_UNTAGGED] = "OutPktsUntagged", [MACSEC_SECY_STATS_ATTR_IN_PKTS_UNTAGGED] = "InPktsUntagged", [MACSEC_SECY_STATS_ATTR_OUT_PKTS_TOO_LONG] = "OutPktsTooLong", [MACSEC_SECY_STATS_ATTR_IN_PKTS_NO_TAG] = "InPktsNoTag", [MACSEC_SECY_STATS_ATTR_IN_PKTS_BAD_TAG] = "InPktsBadTag", [MACSEC_SECY_STATS_ATTR_IN_PKTS_UNKNOWN_SCI] = "InPktsUnknownSCI", [MACSEC_SECY_STATS_ATTR_IN_PKTS_NO_SCI] = "InPktsNoSCI", [MACSEC_SECY_STATS_ATTR_IN_PKTS_OVERRUN] = "InPktsOverrun", }; static void print_secy_stats(const char *prefix, struct rtattr *attr) { struct rtattr *stats[MACSEC_SECY_STATS_ATTR_MAX + 1]; if (!attr || show_stats == 0) return; parse_rtattr_nested(stats, MACSEC_SECY_STATS_ATTR_MAX, attr); print_stats(prefix, secy_stats_names, NUM_MACSEC_SECY_STATS_ATTR, stats); } static const char *rxsa_stats_names[NUM_MACSEC_SA_STATS_ATTR] = { [MACSEC_SA_STATS_ATTR_IN_PKTS_OK] = "InPktsOK", [MACSEC_SA_STATS_ATTR_IN_PKTS_INVALID] = "InPktsInvalid", [MACSEC_SA_STATS_ATTR_IN_PKTS_NOT_VALID] = "InPktsNotValid", [MACSEC_SA_STATS_ATTR_IN_PKTS_NOT_USING_SA] = "InPktsNotUsingSA", [MACSEC_SA_STATS_ATTR_IN_PKTS_UNUSED_SA] = "InPktsUnusedSA", }; static void print_rxsa_stats(const char *prefix, struct rtattr *attr) { struct rtattr *stats[MACSEC_SA_STATS_ATTR_MAX + 1]; if (!attr || show_stats == 0) return; parse_rtattr_nested(stats, MACSEC_SA_STATS_ATTR_MAX, attr); print_stats(prefix, rxsa_stats_names, NUM_MACSEC_SA_STATS_ATTR, stats); } static const char *txsa_stats_names[NUM_MACSEC_SA_STATS_ATTR] = { [MACSEC_SA_STATS_ATTR_OUT_PKTS_PROTECTED] = "OutPktsProtected", [MACSEC_SA_STATS_ATTR_OUT_PKTS_ENCRYPTED] = "OutPktsEncrypted", }; static void print_txsa_stats(const char *prefix, struct rtattr *attr) { struct rtattr *stats[MACSEC_SA_STATS_ATTR_MAX + 1]; if (!attr || show_stats == 0) return; parse_rtattr_nested(stats, MACSEC_SA_STATS_ATTR_MAX, attr); print_stats(prefix, txsa_stats_names, NUM_MACSEC_SA_STATS_ATTR, stats); } static void print_tx_sc(const char *prefix, __u64 sci, __u8 encoding_sa, bool is_xpn, struct rtattr *txsc_stats, struct rtattr *secy_stats, struct rtattr *sa) { struct rtattr *sa_attr[MACSEC_SA_ATTR_MAX + 1]; struct rtattr *a; int rem; print_string(PRINT_FP, NULL, "%s", prefix); print_0xhex(PRINT_ANY, "sci", "TXSC: %016llx", ntohll(sci)); print_uint(PRINT_ANY, "encoding_sa", " on SA %d\n", encoding_sa); print_secy_stats(prefix, secy_stats); print_txsc_stats(prefix, txsc_stats); open_json_array(PRINT_JSON, "sa_list"); rem = RTA_PAYLOAD(sa); for (a = RTA_DATA(sa); RTA_OK(a, rem); a = RTA_NEXT(a, rem)) { bool state; open_json_object(NULL); parse_rtattr_nested(sa_attr, MACSEC_SA_ATTR_MAX, a); state = rta_getattr_u8(sa_attr[MACSEC_SA_ATTR_ACTIVE]); print_string(PRINT_FP, NULL, "%s", prefix); print_string(PRINT_FP, NULL, "%s", prefix); print_uint(PRINT_ANY, "an", "%d:", rta_getattr_u8(sa_attr[MACSEC_SA_ATTR_AN])); if (is_xpn) { print_lluint(PRINT_ANY, "pn", " PN %llu,", rta_getattr_u64(sa_attr[MACSEC_SA_ATTR_PN])); print_0xhex(PRINT_ANY, "ssci", "SSCI %08x", ntohl(rta_getattr_u32(sa_attr[MACSEC_SA_ATTR_SSCI]))); } else { print_uint(PRINT_ANY, "pn", " PN %u,", rta_getattr_u32(sa_attr[MACSEC_SA_ATTR_PN])); } print_bool(PRINT_JSON, "active", NULL, state); print_string(PRINT_FP, NULL, " state %s,", state ? "on" : "off"); print_key(sa_attr[MACSEC_SA_ATTR_KEYID]); print_txsa_stats(prefix, sa_attr[MACSEC_SA_ATTR_STATS]); close_json_object(); } close_json_array(PRINT_JSON, NULL); } static const char *rxsc_stats_names[NUM_MACSEC_RXSC_STATS_ATTR] = { [MACSEC_RXSC_STATS_ATTR_IN_OCTETS_VALIDATED] = "InOctetsValidated", [MACSEC_RXSC_STATS_ATTR_IN_OCTETS_DECRYPTED] = "InOctetsDecrypted", [MACSEC_RXSC_STATS_ATTR_IN_PKTS_UNCHECKED] = "InPktsUnchecked", [MACSEC_RXSC_STATS_ATTR_IN_PKTS_DELAYED] = "InPktsDelayed", [MACSEC_RXSC_STATS_ATTR_IN_PKTS_OK] = "InPktsOK", [MACSEC_RXSC_STATS_ATTR_IN_PKTS_INVALID] = "InPktsInvalid", [MACSEC_RXSC_STATS_ATTR_IN_PKTS_LATE] = "InPktsLate", [MACSEC_RXSC_STATS_ATTR_IN_PKTS_NOT_VALID] = "InPktsNotValid", [MACSEC_RXSC_STATS_ATTR_IN_PKTS_NOT_USING_SA] = "InPktsNotUsingSA", [MACSEC_RXSC_STATS_ATTR_IN_PKTS_UNUSED_SA] = "InPktsUnusedSA", }; static void print_rxsc_stats(const char *prefix, struct rtattr *attr) { struct rtattr *stats[MACSEC_RXSC_STATS_ATTR_MAX + 1]; if (!attr || show_stats == 0) return; parse_rtattr_nested(stats, MACSEC_RXSC_STATS_ATTR_MAX, attr); print_stats(prefix, rxsc_stats_names, NUM_MACSEC_RXSC_STATS_ATTR, stats); } static void print_rx_sc(const char *prefix, __be64 sci, __u8 active, bool is_xpn, struct rtattr *rxsc_stats, struct rtattr *sa) { struct rtattr *sa_attr[MACSEC_SA_ATTR_MAX + 1]; struct rtattr *a; int rem; print_string(PRINT_FP, NULL, "%s", prefix); print_0xhex(PRINT_ANY, "sci", "RXSC: %016llx,", ntohll(sci)); print_bool(PRINT_JSON, "active", NULL, active); print_string(PRINT_FP, NULL, " state %s\n", active ? "on" : "off"); print_rxsc_stats(prefix, rxsc_stats); open_json_array(PRINT_JSON, "sa_list"); rem = RTA_PAYLOAD(sa); for (a = RTA_DATA(sa); RTA_OK(a, rem); a = RTA_NEXT(a, rem)) { bool state; open_json_object(NULL); parse_rtattr_nested(sa_attr, MACSEC_SA_ATTR_MAX, a); state = rta_getattr_u8(sa_attr[MACSEC_SA_ATTR_ACTIVE]); print_string(PRINT_FP, NULL, "%s", prefix); print_string(PRINT_FP, NULL, "%s", prefix); print_uint(PRINT_ANY, "an", "%u:", rta_getattr_u8(sa_attr[MACSEC_SA_ATTR_AN])); if (is_xpn) { print_lluint(PRINT_ANY, "pn", " PN %llu,", rta_getattr_u64(sa_attr[MACSEC_SA_ATTR_PN])); print_0xhex(PRINT_ANY, "ssci", "SSCI %08x", ntohl(rta_getattr_u32(sa_attr[MACSEC_SA_ATTR_SSCI]))); } else { print_uint(PRINT_ANY, "pn", " PN %u,", rta_getattr_u32(sa_attr[MACSEC_SA_ATTR_PN])); } print_bool(PRINT_JSON, "active", NULL, state); print_string(PRINT_FP, NULL, " state %s,", state ? "on" : "off"); print_key(sa_attr[MACSEC_SA_ATTR_KEYID]); print_rxsa_stats(prefix, sa_attr[MACSEC_SA_ATTR_STATS]); close_json_object(); } close_json_array(PRINT_JSON, NULL); } static void print_rxsc_list(struct rtattr *sc, bool is_xpn) { int rem = RTA_PAYLOAD(sc); struct rtattr *c; open_json_array(PRINT_JSON, "rx_sc"); for (c = RTA_DATA(sc); RTA_OK(c, rem); c = RTA_NEXT(c, rem)) { struct rtattr *sc_attr[MACSEC_RXSC_ATTR_MAX + 1]; open_json_object(NULL); parse_rtattr_nested(sc_attr, MACSEC_RXSC_ATTR_MAX, c); print_rx_sc(" ", rta_getattr_u64(sc_attr[MACSEC_RXSC_ATTR_SCI]), rta_getattr_u32(sc_attr[MACSEC_RXSC_ATTR_ACTIVE]), is_xpn, sc_attr[MACSEC_RXSC_ATTR_STATS], sc_attr[MACSEC_RXSC_ATTR_SA_LIST]); close_json_object(); } close_json_array(PRINT_JSON, NULL); } static int process(struct nlmsghdr *n, void *arg) { struct genlmsghdr *ghdr; struct rtattr *attrs[MACSEC_ATTR_MAX + 1]; struct rtattr *attrs_secy[MACSEC_SECY_ATTR_MAX + 1]; int len = n->nlmsg_len; int ifindex; __u64 sci; __u8 encoding_sa; __u64 cid; bool is_xpn = false; if (n->nlmsg_type != genl_family) return -1; len -= NLMSG_LENGTH(GENL_HDRLEN); if (len < 0) return -1; ghdr = NLMSG_DATA(n); if (ghdr->cmd != MACSEC_CMD_GET_TXSC) return 0; parse_rtattr(attrs, MACSEC_ATTR_MAX, (void *) ghdr + GENL_HDRLEN, len); if (!validate_dump(attrs)) { fprintf(stderr, "incomplete dump message\n"); return -1; } ifindex = rta_getattr_u32(attrs[MACSEC_ATTR_IFINDEX]); parse_rtattr_nested(attrs_secy, MACSEC_SECY_ATTR_MAX, attrs[MACSEC_ATTR_SECY]); if (!validate_secy_dump(attrs_secy)) { fprintf(stderr, "incomplete dump message\n"); return -1; } sci = rta_getattr_u64(attrs_secy[MACSEC_SECY_ATTR_SCI]); encoding_sa = rta_getattr_u8(attrs_secy[MACSEC_SECY_ATTR_ENCODING_SA]); if (filter.ifindex && ifindex != filter.ifindex) return 0; if (filter.sci && sci != filter.sci) return 0; open_json_object(NULL); print_uint(PRINT_ANY, "ifindex", "%u: ", ifindex); print_color_string(PRINT_ANY, COLOR_IFNAME, "ifname", "%s: ", ll_index_to_name(ifindex)); print_attrs(attrs_secy); cid = rta_getattr_u64(attrs_secy[MACSEC_SECY_ATTR_CIPHER_SUITE]); is_xpn = ciphersuite_is_xpn(cid); print_tx_sc(" ", sci, encoding_sa, is_xpn, attrs[MACSEC_ATTR_TXSC_STATS], attrs[MACSEC_ATTR_SECY_STATS], attrs[MACSEC_ATTR_TXSA_LIST]); if (attrs[MACSEC_ATTR_RXSC_LIST]) print_rxsc_list(attrs[MACSEC_ATTR_RXSC_LIST], is_xpn); if (attrs[MACSEC_ATTR_OFFLOAD]) { struct rtattr *attrs_offload[MACSEC_OFFLOAD_ATTR_MAX + 1]; __u8 offload; parse_rtattr_nested(attrs_offload, MACSEC_OFFLOAD_ATTR_MAX, attrs[MACSEC_ATTR_OFFLOAD]); offload = rta_getattr_u8(attrs_offload[MACSEC_OFFLOAD_ATTR_TYPE]); print_string(PRINT_ANY, "offload", " offload: %s ", offload_to_str(offload)); print_nl(); } close_json_object(); return 0; } static int do_dump(int ifindex) { MACSEC_GENL_REQ(req, MACSEC_BUFLEN, MACSEC_CMD_GET_TXSC, NLM_F_REQUEST | NLM_F_DUMP); memset(&filter, 0, sizeof(filter)); filter.ifindex = ifindex; req.n.nlmsg_seq = genl_rth.dump = ++genl_rth.seq; if (rtnl_send(&genl_rth, &req, req.n.nlmsg_len) < 0) { perror("Failed to send dump request"); exit(1); } new_json_obj(json); if (rtnl_dump_filter(&genl_rth, process, stdout) < 0) { delete_json_obj(); fprintf(stderr, "Dump terminated\n"); exit(1); } delete_json_obj(); return 0; } static int do_show(int argc, char **argv) { int ifindex; if (argc == 0) return do_dump(0); ifindex = ll_name_to_index(*argv); if (ifindex == 0) { fprintf(stderr, "Device \"%s\" does not exist.\n", *argv); return -1; } argc--, argv++; if (argc == 0) return do_dump(ifindex); ipmacsec_usage(); return -1; } int do_ipmacsec(int argc, char **argv) { if (argc < 1) ipmacsec_usage(); if (matches(*argv, "help") == 0) ipmacsec_usage(); if (genl_init_handle(&genl_rth, MACSEC_GENL_NAME, &genl_family)) exit(1); if (matches(*argv, "show") == 0) return do_show(argc-1, argv+1); if (matches(*argv, "add") == 0) return do_modify(CMD_ADD, argc-1, argv+1); if (matches(*argv, "set") == 0) return do_modify(CMD_UPD, argc-1, argv+1); if (matches(*argv, "delete") == 0) return do_modify(CMD_DEL, argc-1, argv+1); if (matches(*argv, "offload") == 0) return do_offload(CMD_OFFLOAD, argc-1, argv+1); fprintf(stderr, "Command \"%s\" is unknown, try \"ip macsec help\".\n", *argv); exit(-1); } /* device creation */ static void macsec_print_opt(struct link_util *lu, FILE *f, struct rtattr *tb[]) { if (!tb) return; if (tb[IFLA_MACSEC_SCI]) { if (is_json_context()) { SPRINT_BUF(b1); snprintf(b1, sizeof(b1), "%016llx", ntohll(rta_getattr_u64(tb[IFLA_MACSEC_SCI]))); print_string(PRINT_JSON, "sci", NULL, b1); } else { fprintf(f, "sci %016llx ", ntohll(rta_getattr_u64(tb[IFLA_MACSEC_SCI]))); } } print_flag(tb, "protect", IFLA_MACSEC_PROTECT); if (tb[IFLA_MACSEC_CIPHER_SUITE]) { __u64 csid = rta_getattr_u64(tb[IFLA_MACSEC_CIPHER_SUITE]); print_string(PRINT_ANY, "cipher_suite", "cipher %s ", cs_id_to_name(csid)); } if (tb[IFLA_MACSEC_ICV_LEN]) { if (is_json_context()) { char b2[4]; snprintf(b2, sizeof(b2), "%hhu", rta_getattr_u8(tb[IFLA_MACSEC_ICV_LEN])); print_uint(PRINT_JSON, "icv_len", NULL, atoi(b2)); } else { fprintf(f, "icvlen %hhu ", rta_getattr_u8(tb[IFLA_MACSEC_ICV_LEN])); } } if (tb[IFLA_MACSEC_ENCODING_SA]) { if (is_json_context()) { char b2[4]; snprintf(b2, sizeof(b2), "%hhu", rta_getattr_u8(tb[IFLA_MACSEC_ENCODING_SA])); print_uint(PRINT_JSON, "encoding_sa", NULL, atoi(b2)); } else { fprintf(f, "encodingsa %hhu ", rta_getattr_u8(tb[IFLA_MACSEC_ENCODING_SA])); } } if (tb[IFLA_MACSEC_VALIDATION]) { __u8 val = rta_getattr_u8(tb[IFLA_MACSEC_VALIDATION]); print_string(PRINT_ANY, "validation", "validate %s ", validate_to_str(val)); } if (tb[IFLA_MACSEC_OFFLOAD]) { __u8 val = rta_getattr_u8(tb[IFLA_MACSEC_OFFLOAD]); print_string(PRINT_ANY, "offload", "offload %s ", offload_to_str(val)); } const char *inc_sci, *es, *replay; if (is_json_context()) { inc_sci = "inc_sci"; replay = "replay_protect"; es = "es"; } else { inc_sci = "send_sci"; es = "end_station"; replay = "replay"; } print_flag(tb, "encrypt", IFLA_MACSEC_ENCRYPT); print_flag(tb, inc_sci, IFLA_MACSEC_INC_SCI); print_flag(tb, es, IFLA_MACSEC_ES); print_flag(tb, "scb", IFLA_MACSEC_SCB); print_flag(tb, replay, IFLA_MACSEC_REPLAY_PROTECT); if (tb[IFLA_MACSEC_WINDOW]) print_int(PRINT_ANY, "window", "window %d ", rta_getattr_u32(tb[IFLA_MACSEC_WINDOW])); } static bool check_txsc_flags(bool es, bool scb, bool sci) { if (sci && (es || scb)) return false; if (es && scb) return false; return true; } static void usage(FILE *f) { fprintf(f, "Usage: ... macsec [ [ address ] port { 1..2^16-1 } | sci ]\n" " [ cipher { default | gcm-aes-128 | gcm-aes-256 | gcm-aes-xpn-128 | gcm-aes-xpn-256 } ]\n" " [ icvlen { 8..16 } ]\n" " [ encrypt { on | off } ]\n" " [ send_sci { on | off } ]\n" " [ end_station { on | off } ]\n" " [ scb { on | off } ]\n" " [ protect { on | off } ]\n" " [ replay { on | off} window { 0..2^32-1 } ]\n" " [ validate { strict | check | disabled } ]\n" " [ encodingsa { 0..3 } ]\n" " [ offload { mac | phy | off } ]\n" ); } static int macsec_parse_opt(struct link_util *lu, int argc, char **argv, struct nlmsghdr *n) { int ret; __u8 encoding_sa = 0xff; __u32 window = -1; enum macsec_offload offload; struct cipher_args cipher = {0}; enum macsec_validation_type validate; bool es = false, scb = false, send_sci = false; int replay_protect = -1; struct sci sci = { 0 }; ret = get_sci_portaddr(&sci, &argc, &argv, true, true); if (ret < 0) { fprintf(stderr, "expected sci\n"); return -1; } if (ret > 0) { if (sci.sci) addattr_l(n, MACSEC_BUFLEN, IFLA_MACSEC_SCI, &sci.sci, sizeof(sci.sci)); else addattr_l(n, MACSEC_BUFLEN, IFLA_MACSEC_PORT, &sci.port, sizeof(sci.port)); } while (argc > 0) { if (strcmp(*argv, "cipher") == 0) { NEXT_ARG(); if (cipher.id) duparg("cipher", *argv); if (strcmp(*argv, "default") == 0) cipher.id = MACSEC_DEFAULT_CIPHER_ID; else if (strcmp(*argv, "gcm-aes-128") == 0 || strcmp(*argv, "GCM-AES-128") == 0) cipher.id = MACSEC_CIPHER_ID_GCM_AES_128; else if (strcmp(*argv, "gcm-aes-256") == 0 || strcmp(*argv, "GCM-AES-256") == 0) cipher.id = MACSEC_CIPHER_ID_GCM_AES_256; else if (strcmp(*argv, "gcm-aes-xpn-128") == 0 || strcmp(*argv, "GCM-AES-XPN-128") == 0) cipher.id = MACSEC_CIPHER_ID_GCM_AES_XPN_128; else if (strcmp(*argv, "gcm-aes-xpn-256") == 0 || strcmp(*argv, "GCM-AES-XPN-256") == 0) cipher.id = MACSEC_CIPHER_ID_GCM_AES_XPN_256; else invarg("expected: default, gcm-aes-128, gcm-aes-256," " gcm-aes-xpn-128 or gcm-aes-xpn-256", *argv); } else if (strcmp(*argv, "icvlen") == 0) { NEXT_ARG(); if (cipher.icv_len) duparg("icvlen", *argv); get_icvlen(&cipher.icv_len, *argv); } else if (strcmp(*argv, "encrypt") == 0) { NEXT_ARG(); int i; i = parse_on_off("encrypt", *argv, &ret); if (ret != 0) return ret; addattr8(n, MACSEC_BUFLEN, IFLA_MACSEC_ENCRYPT, i); } else if (strcmp(*argv, "send_sci") == 0) { NEXT_ARG(); int i; i = parse_on_off("send_sci", *argv, &ret); if (ret != 0) return ret; send_sci = i; addattr8(n, MACSEC_BUFLEN, IFLA_MACSEC_INC_SCI, send_sci); } else if (strcmp(*argv, "end_station") == 0) { NEXT_ARG(); int i; i = parse_on_off("end_station", *argv, &ret); if (ret != 0) return ret; es = i; addattr8(n, MACSEC_BUFLEN, IFLA_MACSEC_ES, es); } else if (strcmp(*argv, "scb") == 0) { NEXT_ARG(); int i; i = parse_on_off("scb", *argv, &ret); if (ret != 0) return ret; scb = i; addattr8(n, MACSEC_BUFLEN, IFLA_MACSEC_SCB, scb); } else if (strcmp(*argv, "protect") == 0) { NEXT_ARG(); int i; i = parse_on_off("protect", *argv, &ret); if (ret != 0) return ret; addattr8(n, MACSEC_BUFLEN, IFLA_MACSEC_PROTECT, i); } else if (strcmp(*argv, "replay") == 0) { NEXT_ARG(); int i; i = parse_on_off("replay", *argv, &ret); if (ret != 0) return ret; replay_protect = !!i; } else if (strcmp(*argv, "window") == 0) { NEXT_ARG(); ret = get_u32(&window, *argv, 0); if (ret) invarg("expected replay window size", *argv); } else if (strcmp(*argv, "validate") == 0) { NEXT_ARG(); validate = parse_one_of_deprecated("validate", *argv, validate_str, ARRAY_SIZE(validate_str), &ret); if (ret != 0) return ret; addattr8(n, MACSEC_BUFLEN, IFLA_MACSEC_VALIDATION, validate); } else if (strcmp(*argv, "encodingsa") == 0) { if (encoding_sa != 0xff) duparg2("encodingsa", "encodingsa"); NEXT_ARG(); ret = get_an(&encoding_sa, *argv); if (ret) invarg("expected an { 0..3 }", *argv); } else if (strcmp(*argv, "offload") == 0) { NEXT_ARG(); offload = parse_one_of("offload", *argv, offload_str, ARRAY_SIZE(offload_str), &ret); if (ret != 0) return ret; addattr8(n, MACSEC_BUFLEN, IFLA_MACSEC_OFFLOAD, offload); } else { fprintf(stderr, "macsec: unknown command \"%s\"?\n", *argv); usage(stderr); return -1; } argv++; argc--; } if (!check_txsc_flags(es, scb, send_sci)) { fprintf(stderr, "invalid combination of send_sci/end_station/scb\n"); return -1; } if (window != -1 && replay_protect == -1) { fprintf(stderr, "replay window set, but replay protection not enabled. did you mean 'replay on window %u'?\n", window); return -1; } else if (window == -1 && replay_protect == 1) { fprintf(stderr, "replay protection enabled, but no window set. did you mean 'replay on window VALUE'?\n"); return -1; } if (cipher.id) addattr_l(n, MACSEC_BUFLEN, IFLA_MACSEC_CIPHER_SUITE, &cipher.id, sizeof(cipher.id)); if (cipher.icv_len) addattr_l(n, MACSEC_BUFLEN, IFLA_MACSEC_ICV_LEN, &cipher.icv_len, sizeof(cipher.icv_len)); if (replay_protect != -1) { if (replay_protect) addattr32(n, MACSEC_BUFLEN, IFLA_MACSEC_WINDOW, window); addattr8(n, MACSEC_BUFLEN, IFLA_MACSEC_REPLAY_PROTECT, replay_protect); } if (encoding_sa != 0xff) { addattr_l(n, MACSEC_BUFLEN, IFLA_MACSEC_ENCODING_SA, &encoding_sa, sizeof(encoding_sa)); } return 0; } static void macsec_print_help(struct link_util *lu, int argc, char **argv, FILE *f) { usage(f); } struct link_util macsec_link_util = { .id = "macsec", .maxattr = IFLA_MACSEC_MAX, .parse_opt = macsec_parse_opt, .print_help = macsec_print_help, .print_opt = macsec_print_opt, };