/* $USAGI: $ */ /* * Copyright (C)2004 USAGI/WIDE Project * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, see . */ /* * based on iproute.c */ /* * Authors: * Masahide NAKAMURA @USAGI */ #include #include #include #include #include "utils.h" #include "xfrm.h" #include "ip_common.h" //#define NLMSG_DELETEALL_BUF_SIZE (4096-512) #define NLMSG_DELETEALL_BUF_SIZE 8192 /* * Receiving buffer defines: * nlmsg * data = struct xfrm_usersa_info * rtattr * rtattr * ... (max count of rtattr is XFRM_MAX+1 * * each rtattr data = struct xfrm_algo(dynamic size) or xfrm_address_t */ #define NLMSG_BUF_SIZE 4096 #define RTA_BUF_SIZE 2048 #define XFRM_ALGO_KEY_BUF_SIZE 512 #define CTX_BUF_SIZE 256 static void usage(void) __attribute__((noreturn)); static void usage(void) { fprintf(stderr, "Usage: ip xfrm state { add | update } ID [ ALGO-LIST ] [ mode MODE ]\n"); fprintf(stderr, " [ mark MARK [ mask MASK ] ] [ reqid REQID ] [ seq SEQ ]\n"); fprintf(stderr, " [ replay-window SIZE ] [ replay-seq SEQ ] [ replay-oseq SEQ ]\n"); fprintf(stderr, " [ replay-seq-hi SEQ ] [ replay-oseq-hi SEQ ]\n"); fprintf(stderr, " [ flag FLAG-LIST ] [ sel SELECTOR ] [ LIMIT-LIST ] [ encap ENCAP ]\n"); fprintf(stderr, " [ coa ADDR[/PLEN] ] [ ctx CTX ] [ extra-flag EXTRA-FLAG-LIST ]\n"); fprintf(stderr, "Usage: ip xfrm state allocspi ID [ mode MODE ] [ mark MARK [ mask MASK ] ]\n"); fprintf(stderr, " [ reqid REQID ] [ seq SEQ ] [ min SPI max SPI ]\n"); fprintf(stderr, "Usage: ip xfrm state { delete | get } ID [ mark MARK [ mask MASK ] ]\n"); fprintf(stderr, "Usage: ip xfrm state { deleteall | list } [ ID ] [ mode MODE ] [ reqid REQID ]\n"); fprintf(stderr, " [ flag FLAG-LIST ]\n"); fprintf(stderr, "Usage: ip xfrm state flush [ proto XFRM-PROTO ]\n"); fprintf(stderr, "Usage: ip xfrm state count\n"); fprintf(stderr, "ID := [ src ADDR ] [ dst ADDR ] [ proto XFRM-PROTO ] [ spi SPI ]\n"); fprintf(stderr, "XFRM-PROTO := "); fprintf(stderr, "%s | ", strxf_xfrmproto(IPPROTO_ESP)); fprintf(stderr, "%s | ", strxf_xfrmproto(IPPROTO_AH)); fprintf(stderr, "%s | ", strxf_xfrmproto(IPPROTO_COMP)); fprintf(stderr, "%s | ", strxf_xfrmproto(IPPROTO_ROUTING)); fprintf(stderr, "%s\n", strxf_xfrmproto(IPPROTO_DSTOPTS)); fprintf(stderr, "ALGO-LIST := [ ALGO-LIST ] ALGO\n"); fprintf(stderr, "ALGO := { "); fprintf(stderr, "%s | ", strxf_algotype(XFRMA_ALG_CRYPT)); fprintf(stderr, "%s", strxf_algotype(XFRMA_ALG_AUTH)); fprintf(stderr, " } ALGO-NAME ALGO-KEYMAT |\n"); fprintf(stderr, " %s", strxf_algotype(XFRMA_ALG_AUTH_TRUNC)); fprintf(stderr, " ALGO-NAME ALGO-KEYMAT ALGO-TRUNC-LEN |\n"); fprintf(stderr, " %s", strxf_algotype(XFRMA_ALG_AEAD)); fprintf(stderr, " ALGO-NAME ALGO-KEYMAT ALGO-ICV-LEN |\n"); fprintf(stderr, " %s", strxf_algotype(XFRMA_ALG_COMP)); fprintf(stderr, " ALGO-NAME\n"); fprintf(stderr, "MODE := transport | tunnel | beet | ro | in_trigger\n"); fprintf(stderr, "FLAG-LIST := [ FLAG-LIST ] FLAG\n"); fprintf(stderr, "FLAG := noecn | decap-dscp | nopmtudisc | wildrecv | icmp | af-unspec | align4 | esn\n"); fprintf(stderr, "EXTRA-FLAG-LIST := [ EXTRA-FLAG-LIST ] EXTRA-FLAG\n"); fprintf(stderr, "EXTRA-FLAG := dont-encap-dscp\n"); fprintf(stderr, "SELECTOR := [ src ADDR[/PLEN] ] [ dst ADDR[/PLEN] ] [ dev DEV ] [ UPSPEC ]\n"); fprintf(stderr, "UPSPEC := proto { { "); fprintf(stderr, "%s | ", strxf_proto(IPPROTO_TCP)); fprintf(stderr, "%s | ", strxf_proto(IPPROTO_UDP)); fprintf(stderr, "%s | ", strxf_proto(IPPROTO_SCTP)); fprintf(stderr, "%s", strxf_proto(IPPROTO_DCCP)); fprintf(stderr, " } [ sport PORT ] [ dport PORT ] |\n"); fprintf(stderr, " { "); fprintf(stderr, "%s | ", strxf_proto(IPPROTO_ICMP)); fprintf(stderr, "%s | ", strxf_proto(IPPROTO_ICMPV6)); fprintf(stderr, "%s", strxf_proto(IPPROTO_MH)); fprintf(stderr, " } [ type NUMBER ] [ code NUMBER ] |\n"); fprintf(stderr, " %s", strxf_proto(IPPROTO_GRE)); fprintf(stderr, " [ key { DOTTED-QUAD | NUMBER } ] | PROTO }\n"); fprintf(stderr, "LIMIT-LIST := [ LIMIT-LIST ] limit LIMIT\n"); fprintf(stderr, "LIMIT := { time-soft | time-hard | time-use-soft | time-use-hard } SECONDS |\n"); fprintf(stderr, " { byte-soft | byte-hard } SIZE | { packet-soft | packet-hard } COUNT\n"); fprintf(stderr, "ENCAP := { espinudp | espinudp-nonike } SPORT DPORT OADDR\n"); exit(-1); } static int xfrm_algo_parse(struct xfrm_algo *alg, enum xfrm_attr_type_t type, char *name, char *key, char *buf, int max) { int len; int slen = strlen(key); #if 0 /* XXX: verifying both name and key is required! */ fprintf(stderr, "warning: ALGO-NAME/ALGO-KEYMAT values will be sent to the kernel promiscuously! (verifying them isn't implemented yet)\n"); #endif strncpy(alg->alg_name, name, sizeof(alg->alg_name)); if (slen > 2 && strncmp(key, "0x", 2) == 0) { /* split two chars "0x" from the top */ char *p = key + 2; int plen = slen - 2; int i; int j; /* Converting hexadecimal numbered string into real key; * Convert each two chars into one char(value). If number * of the length is odd, add zero on the top for rounding. */ /* calculate length of the converted values(real key) */ len = (plen + 1) / 2; if (len > max) invarg("ALGO-KEYMAT value makes buffer overflow\n", key); for (i = - (plen % 2), j = 0; j < len; i += 2, j++) { char vbuf[3]; __u8 val; vbuf[0] = i >= 0 ? p[i] : '0'; vbuf[1] = p[i + 1]; vbuf[2] = '\0'; if (get_u8(&val, vbuf, 16)) invarg("ALGO-KEYMAT value is invalid", key); buf[j] = val; } } else { len = slen; if (len > 0) { if (len > max) invarg("ALGO-KEYMAT value makes buffer overflow\n", key); memcpy(buf, key, len); } } alg->alg_key_len = len * 8; return 0; } static int xfrm_seq_parse(__u32 *seq, int *argcp, char ***argvp) { int argc = *argcp; char **argv = *argvp; if (get_u32(seq, *argv, 0)) invarg("SEQ value is invalid", *argv); *seq = htonl(*seq); *argcp = argc; *argvp = argv; return 0; } static int xfrm_state_flag_parse(__u8 *flags, int *argcp, char ***argvp) { int argc = *argcp; char **argv = *argvp; int len = strlen(*argv); if (len > 2 && strncmp(*argv, "0x", 2) == 0) { __u8 val = 0; if (get_u8(&val, *argv, 16)) invarg("FLAG value is invalid", *argv); *flags = val; } else { while (1) { if (strcmp(*argv, "noecn") == 0) *flags |= XFRM_STATE_NOECN; else if (strcmp(*argv, "decap-dscp") == 0) *flags |= XFRM_STATE_DECAP_DSCP; else if (strcmp(*argv, "nopmtudisc") == 0) *flags |= XFRM_STATE_NOPMTUDISC; else if (strcmp(*argv, "wildrecv") == 0) *flags |= XFRM_STATE_WILDRECV; else if (strcmp(*argv, "icmp") == 0) *flags |= XFRM_STATE_ICMP; else if (strcmp(*argv, "af-unspec") == 0) *flags |= XFRM_STATE_AF_UNSPEC; else if (strcmp(*argv, "align4") == 0) *flags |= XFRM_STATE_ALIGN4; else if (strcmp(*argv, "esn") == 0) *flags |= XFRM_STATE_ESN; else { PREV_ARG(); /* back track */ break; } if (!NEXT_ARG_OK()) break; NEXT_ARG(); } } *argcp = argc; *argvp = argv; return 0; } static int xfrm_state_extra_flag_parse(__u32 *extra_flags, int *argcp, char ***argvp) { int argc = *argcp; char **argv = *argvp; int len = strlen(*argv); if (len > 2 && strncmp(*argv, "0x", 2) == 0) { __u32 val = 0; if (get_u32(&val, *argv, 16)) invarg("\"EXTRA-FLAG\" is invalid", *argv); *extra_flags = val; } else { while (1) { if (strcmp(*argv, "dont-encap-dscp") == 0) *extra_flags |= XFRM_SA_XFLAG_DONT_ENCAP_DSCP; else { PREV_ARG(); /* back track */ break; } if (!NEXT_ARG_OK()) break; NEXT_ARG(); } } *argcp = argc; *argvp = argv; return 0; } static int xfrm_state_modify(int cmd, unsigned flags, int argc, char **argv) { struct rtnl_handle rth; struct { struct nlmsghdr n; struct xfrm_usersa_info xsinfo; char buf[RTA_BUF_SIZE]; } req; struct xfrm_replay_state replay; struct xfrm_replay_state_esn replay_esn; __u32 replay_window = 0; __u32 seq = 0, oseq = 0, seq_hi = 0, oseq_hi = 0; char *idp = NULL; char *aeadop = NULL; char *ealgop = NULL; char *aalgop = NULL; char *calgop = NULL; char *coap = NULL; char *sctxp = NULL; __u32 extra_flags = 0; struct xfrm_mark mark = {0, 0}; struct { struct xfrm_user_sec_ctx sctx; char str[CTX_BUF_SIZE]; } ctx; memset(&req, 0, sizeof(req)); memset(&replay, 0, sizeof(replay)); memset(&replay_esn, 0, sizeof(replay_esn)); memset(&ctx, 0, sizeof(ctx)); req.n.nlmsg_len = NLMSG_LENGTH(sizeof(req.xsinfo)); req.n.nlmsg_flags = NLM_F_REQUEST|flags; req.n.nlmsg_type = cmd; req.xsinfo.family = preferred_family; req.xsinfo.lft.soft_byte_limit = XFRM_INF; req.xsinfo.lft.hard_byte_limit = XFRM_INF; req.xsinfo.lft.soft_packet_limit = XFRM_INF; req.xsinfo.lft.hard_packet_limit = XFRM_INF; while (argc > 0) { if (strcmp(*argv, "mode") == 0) { NEXT_ARG(); xfrm_mode_parse(&req.xsinfo.mode, &argc, &argv); } else if (strcmp(*argv, "mark") == 0) { xfrm_parse_mark(&mark, &argc, &argv); } else if (strcmp(*argv, "reqid") == 0) { NEXT_ARG(); xfrm_reqid_parse(&req.xsinfo.reqid, &argc, &argv); } else if (strcmp(*argv, "seq") == 0) { NEXT_ARG(); xfrm_seq_parse(&req.xsinfo.seq, &argc, &argv); } else if (strcmp(*argv, "replay-window") == 0) { NEXT_ARG(); if (get_u32(&replay_window, *argv, 0)) invarg("value after \"replay-window\" is invalid", *argv); } else if (strcmp(*argv, "replay-seq") == 0) { NEXT_ARG(); if (get_u32(&seq, *argv, 0)) invarg("value after \"replay-seq\" is invalid", *argv); } else if (strcmp(*argv, "replay-seq-hi") == 0) { NEXT_ARG(); if (get_u32(&seq_hi, *argv, 0)) invarg("value after \"replay-seq-hi\" is invalid", *argv); } else if (strcmp(*argv, "replay-oseq") == 0) { NEXT_ARG(); if (get_u32(&oseq, *argv, 0)) invarg("value after \"replay-oseq\" is invalid", *argv); } else if (strcmp(*argv, "replay-oseq-hi") == 0) { NEXT_ARG(); if (get_u32(&oseq_hi, *argv, 0)) invarg("value after \"replay-oseq-hi\" is invalid", *argv); } else if (strcmp(*argv, "flag") == 0) { NEXT_ARG(); xfrm_state_flag_parse(&req.xsinfo.flags, &argc, &argv); } else if (strcmp(*argv, "extra-flag") == 0) { NEXT_ARG(); xfrm_state_extra_flag_parse(&extra_flags, &argc, &argv); } else if (strcmp(*argv, "sel") == 0) { NEXT_ARG(); preferred_family = AF_UNSPEC; xfrm_selector_parse(&req.xsinfo.sel, &argc, &argv); preferred_family = req.xsinfo.sel.family; } else if (strcmp(*argv, "limit") == 0) { NEXT_ARG(); xfrm_lifetime_cfg_parse(&req.xsinfo.lft, &argc, &argv); } else if (strcmp(*argv, "encap") == 0) { struct xfrm_encap_tmpl encap; inet_prefix oa; NEXT_ARG(); xfrm_encap_type_parse(&encap.encap_type, &argc, &argv); NEXT_ARG(); if (get_u16(&encap.encap_sport, *argv, 0)) invarg("SPORT value after \"encap\" is invalid", *argv); encap.encap_sport = htons(encap.encap_sport); NEXT_ARG(); if (get_u16(&encap.encap_dport, *argv, 0)) invarg("DPORT value after \"encap\" is invalid", *argv); encap.encap_dport = htons(encap.encap_dport); NEXT_ARG(); get_addr(&oa, *argv, AF_UNSPEC); memcpy(&encap.encap_oa, &oa.data, sizeof(encap.encap_oa)); addattr_l(&req.n, sizeof(req.buf), XFRMA_ENCAP, (void *)&encap, sizeof(encap)); } else if (strcmp(*argv, "coa") == 0) { inet_prefix coa; xfrm_address_t xcoa; if (coap) duparg("coa", *argv); coap = *argv; NEXT_ARG(); get_prefix(&coa, *argv, preferred_family); if (coa.family == AF_UNSPEC) invarg("value after \"coa\" has an unrecognized address family", *argv); if (coa.bytelen > sizeof(xcoa)) invarg("value after \"coa\" is too large", *argv); memset(&xcoa, 0, sizeof(xcoa)); memcpy(&xcoa, &coa.data, coa.bytelen); addattr_l(&req.n, sizeof(req.buf), XFRMA_COADDR, (void *)&xcoa, sizeof(xcoa)); } else if (strcmp(*argv, "ctx") == 0) { char *context; if (sctxp) duparg("ctx", *argv); sctxp = *argv; NEXT_ARG(); context = *argv; xfrm_sctx_parse((char *)&ctx.str, context, &ctx.sctx); addattr_l(&req.n, sizeof(req.buf), XFRMA_SEC_CTX, (void *)&ctx, ctx.sctx.len); } else { /* try to assume ALGO */ int type = xfrm_algotype_getbyname(*argv); switch (type) { case XFRMA_ALG_AEAD: case XFRMA_ALG_CRYPT: case XFRMA_ALG_AUTH: case XFRMA_ALG_AUTH_TRUNC: case XFRMA_ALG_COMP: { /* ALGO */ struct { union { struct xfrm_algo alg; struct xfrm_algo_aead aead; struct xfrm_algo_auth auth; } u; char buf[XFRM_ALGO_KEY_BUF_SIZE]; } alg = {}; int len; __u32 icvlen, trunclen; char *name; char *key = ""; char *buf; switch (type) { case XFRMA_ALG_AEAD: if (ealgop || aalgop || aeadop) duparg("ALGO-TYPE", *argv); aeadop = *argv; break; case XFRMA_ALG_CRYPT: if (ealgop || aeadop) duparg("ALGO-TYPE", *argv); ealgop = *argv; break; case XFRMA_ALG_AUTH: case XFRMA_ALG_AUTH_TRUNC: if (aalgop || aeadop) duparg("ALGO-TYPE", *argv); aalgop = *argv; break; case XFRMA_ALG_COMP: if (calgop) duparg("ALGO-TYPE", *argv); calgop = *argv; break; default: /* not reached */ invarg("ALGO-TYPE value is invalid\n", *argv); } if (!NEXT_ARG_OK()) missarg("ALGO-NAME"); NEXT_ARG(); name = *argv; switch (type) { case XFRMA_ALG_AEAD: case XFRMA_ALG_CRYPT: case XFRMA_ALG_AUTH: case XFRMA_ALG_AUTH_TRUNC: if (!NEXT_ARG_OK()) missarg("ALGO-KEYMAT"); NEXT_ARG(); key = *argv; break; } buf = alg.u.alg.alg_key; len = sizeof(alg.u.alg); switch (type) { case XFRMA_ALG_AEAD: if (!NEXT_ARG_OK()) missarg("ALGO-ICV-LEN"); NEXT_ARG(); if (get_u32(&icvlen, *argv, 0)) invarg("ALGO-ICV-LEN value is invalid", *argv); alg.u.aead.alg_icv_len = icvlen; buf = alg.u.aead.alg_key; len = sizeof(alg.u.aead); break; case XFRMA_ALG_AUTH_TRUNC: if (!NEXT_ARG_OK()) missarg("ALGO-TRUNC-LEN"); NEXT_ARG(); if (get_u32(&trunclen, *argv, 0)) invarg("ALGO-TRUNC-LEN value is invalid", *argv); alg.u.auth.alg_trunc_len = trunclen; buf = alg.u.auth.alg_key; len = sizeof(alg.u.auth); break; } xfrm_algo_parse((void *)&alg, type, name, key, buf, sizeof(alg.buf)); len += alg.u.alg.alg_key_len; addattr_l(&req.n, sizeof(req.buf), type, (void *)&alg, len); break; } default: /* try to assume ID */ if (idp) invarg("unknown", *argv); idp = *argv; /* ID */ xfrm_id_parse(&req.xsinfo.saddr, &req.xsinfo.id, &req.xsinfo.family, 0, &argc, &argv); if (preferred_family == AF_UNSPEC) preferred_family = req.xsinfo.family; } } argc--; argv++; } if (req.xsinfo.flags & XFRM_STATE_ESN && replay_window == 0) { fprintf(stderr, "Error: esn flag set without replay-window.\n"); exit(-1); } if (replay_window > XFRMA_REPLAY_ESN_MAX) { fprintf(stderr, "Error: replay-window (%u) > XFRMA_REPLAY_ESN_MAX (%u).\n", replay_window, XFRMA_REPLAY_ESN_MAX); exit(-1); } if (req.xsinfo.flags & XFRM_STATE_ESN || replay_window > (sizeof(replay.bitmap) * 8)) { replay_esn.seq = seq; replay_esn.oseq = oseq; replay_esn.seq_hi = seq_hi; replay_esn.oseq_hi = oseq_hi; replay_esn.replay_window = replay_window; replay_esn.bmp_len = (replay_window + sizeof(__u32) * 8 - 1) / (sizeof(__u32) * 8); addattr_l(&req.n, sizeof(req.buf), XFRMA_REPLAY_ESN_VAL, &replay_esn, sizeof(replay_esn)); } else { if (seq || oseq) { replay.seq = seq; replay.oseq = oseq; addattr_l(&req.n, sizeof(req.buf), XFRMA_REPLAY_VAL, &replay, sizeof(replay)); } req.xsinfo.replay_window = replay_window; } if (extra_flags) addattr32(&req.n, sizeof(req.buf), XFRMA_SA_EXTRA_FLAGS, extra_flags); if (!idp) { fprintf(stderr, "Not enough information: ID is required\n"); exit(1); } if (mark.m) { int r = addattr_l(&req.n, sizeof(req.buf), XFRMA_MARK, (void *)&mark, sizeof(mark)); if (r < 0) { fprintf(stderr, "XFRMA_MARK failed\n"); exit(1); } } if (xfrm_xfrmproto_is_ipsec(req.xsinfo.id.proto)) { switch (req.xsinfo.mode) { case XFRM_MODE_TRANSPORT: case XFRM_MODE_TUNNEL: break; case XFRM_MODE_BEET: if (req.xsinfo.id.proto == IPPROTO_ESP) break; default: fprintf(stderr, "MODE value is invalid with XFRM-PROTO value \"%s\"\n", strxf_xfrmproto(req.xsinfo.id.proto)); exit(1); } switch (req.xsinfo.id.proto) { case IPPROTO_ESP: if (calgop) { fprintf(stderr, "ALGO-TYPE value \"%s\" is invalid with XFRM-PROTO value \"%s\"\n", strxf_algotype(XFRMA_ALG_COMP), strxf_xfrmproto(req.xsinfo.id.proto)); exit(1); } if (!ealgop && !aeadop) { fprintf(stderr, "ALGO-TYPE value \"%s\" or \"%s\" is required with XFRM-PROTO value \"%s\"\n", strxf_algotype(XFRMA_ALG_CRYPT), strxf_algotype(XFRMA_ALG_AEAD), strxf_xfrmproto(req.xsinfo.id.proto)); exit(1); } break; case IPPROTO_AH: if (ealgop || aeadop || calgop) { fprintf(stderr, "ALGO-TYPE values \"%s\", \"%s\", and \"%s\" are invalid with XFRM-PROTO value \"%s\"\n", strxf_algotype(XFRMA_ALG_CRYPT), strxf_algotype(XFRMA_ALG_AEAD), strxf_algotype(XFRMA_ALG_COMP), strxf_xfrmproto(req.xsinfo.id.proto)); exit(1); } if (!aalgop) { fprintf(stderr, "ALGO-TYPE value \"%s\" or \"%s\" is required with XFRM-PROTO value \"%s\"\n", strxf_algotype(XFRMA_ALG_AUTH), strxf_algotype(XFRMA_ALG_AUTH_TRUNC), strxf_xfrmproto(req.xsinfo.id.proto)); exit(1); } break; case IPPROTO_COMP: if (ealgop || aalgop || aeadop) { fprintf(stderr, "ALGO-TYPE values \"%s\", \"%s\", \"%s\", and \"%s\" are invalid with XFRM-PROTO value \"%s\"\n", strxf_algotype(XFRMA_ALG_CRYPT), strxf_algotype(XFRMA_ALG_AUTH), strxf_algotype(XFRMA_ALG_AUTH_TRUNC), strxf_algotype(XFRMA_ALG_AEAD), strxf_xfrmproto(req.xsinfo.id.proto)); exit(1); } if (!calgop) { fprintf(stderr, "ALGO-TYPE value \"%s\" is required with XFRM-PROTO value \"%s\"\n", strxf_algotype(XFRMA_ALG_COMP), strxf_xfrmproto(req.xsinfo.id.proto)); exit(1); } break; } } else { if (ealgop || aalgop || aeadop || calgop) { fprintf(stderr, "ALGO is invalid with XFRM-PROTO value \"%s\"\n", strxf_xfrmproto(req.xsinfo.id.proto)); exit(1); } } if (xfrm_xfrmproto_is_ro(req.xsinfo.id.proto)) { switch (req.xsinfo.mode) { case XFRM_MODE_ROUTEOPTIMIZATION: case XFRM_MODE_IN_TRIGGER: break; case 0: fprintf(stderr, "\"mode\" is required with XFRM-PROTO value \"%s\"\n", strxf_xfrmproto(req.xsinfo.id.proto)); exit(1); default: fprintf(stderr, "MODE value is invalid with XFRM-PROTO value \"%s\"\n", strxf_xfrmproto(req.xsinfo.id.proto)); exit(1); } if (!coap) { fprintf(stderr, "\"coa\" is required with XFRM-PROTO value \"%s\"\n", strxf_xfrmproto(req.xsinfo.id.proto)); exit(1); } } else { if (coap) { fprintf(stderr, "\"coa\" is invalid with XFRM-PROTO value \"%s\"\n", strxf_xfrmproto(req.xsinfo.id.proto)); exit(1); } } if (rtnl_open_byproto(&rth, 0, NETLINK_XFRM) < 0) exit(1); if (req.xsinfo.family == AF_UNSPEC) req.xsinfo.family = AF_INET; if (rtnl_talk(&rth, &req.n, NULL, 0) < 0) exit(2); rtnl_close(&rth); return 0; } static int xfrm_state_allocspi(int argc, char **argv) { struct rtnl_handle rth; struct { struct nlmsghdr n; struct xfrm_userspi_info xspi; char buf[RTA_BUF_SIZE]; } req; char *idp = NULL; char *minp = NULL; char *maxp = NULL; struct xfrm_mark mark = {0, 0}; char res_buf[NLMSG_BUF_SIZE]; struct nlmsghdr *res_n = (struct nlmsghdr *)res_buf; memset(res_buf, 0, sizeof(res_buf)); memset(&req, 0, sizeof(req)); req.n.nlmsg_len = NLMSG_LENGTH(sizeof(req.xspi)); req.n.nlmsg_flags = NLM_F_REQUEST; req.n.nlmsg_type = XFRM_MSG_ALLOCSPI; req.xspi.info.family = preferred_family; #if 0 req.xsinfo.lft.soft_byte_limit = XFRM_INF; req.xsinfo.lft.hard_byte_limit = XFRM_INF; req.xsinfo.lft.soft_packet_limit = XFRM_INF; req.xsinfo.lft.hard_packet_limit = XFRM_INF; #endif while (argc > 0) { if (strcmp(*argv, "mode") == 0) { NEXT_ARG(); xfrm_mode_parse(&req.xspi.info.mode, &argc, &argv); } else if (strcmp(*argv, "mark") == 0) { xfrm_parse_mark(&mark, &argc, &argv); } else if (strcmp(*argv, "reqid") == 0) { NEXT_ARG(); xfrm_reqid_parse(&req.xspi.info.reqid, &argc, &argv); } else if (strcmp(*argv, "seq") == 0) { NEXT_ARG(); xfrm_seq_parse(&req.xspi.info.seq, &argc, &argv); } else if (strcmp(*argv, "min") == 0) { if (minp) duparg("min", *argv); minp = *argv; NEXT_ARG(); if (get_u32(&req.xspi.min, *argv, 0)) invarg("value after \"min\" is invalid", *argv); } else if (strcmp(*argv, "max") == 0) { if (maxp) duparg("max", *argv); maxp = *argv; NEXT_ARG(); if (get_u32(&req.xspi.max, *argv, 0)) invarg("value after \"max\" is invalid", *argv); } else { /* try to assume ID */ if (idp) invarg("unknown", *argv); idp = *argv; /* ID */ xfrm_id_parse(&req.xspi.info.saddr, &req.xspi.info.id, &req.xspi.info.family, 0, &argc, &argv); if (req.xspi.info.id.spi) { fprintf(stderr, "\"spi\" is invalid\n"); exit(1); } if (preferred_family == AF_UNSPEC) preferred_family = req.xspi.info.family; } argc--; argv++; } if (!idp) { fprintf(stderr, "Not enough information: ID is required\n"); exit(1); } if (minp) { if (!maxp) { fprintf(stderr, "\"max\" is missing\n"); exit(1); } if (req.xspi.min > req.xspi.max) { fprintf(stderr, "value after \"min\" is larger than value after \"max\"\n"); exit(1); } } else { if (maxp) { fprintf(stderr, "\"min\" is missing\n"); exit(1); } /* XXX: Default value defined in PF_KEY; * See kernel's net/key/af_key.c(pfkey_getspi). */ req.xspi.min = 0x100; req.xspi.max = 0x0fffffff; /* XXX: IPCOMP spi is 16-bits; * See kernel's net/xfrm/xfrm_user(verify_userspi_info). */ if (req.xspi.info.id.proto == IPPROTO_COMP) req.xspi.max = 0xffff; } if (mark.m & mark.v) { int r = addattr_l(&req.n, sizeof(req.buf), XFRMA_MARK, (void *)&mark, sizeof(mark)); if (r < 0) { fprintf(stderr, "XFRMA_MARK failed\n"); exit(1); } } if (rtnl_open_byproto(&rth, 0, NETLINK_XFRM) < 0) exit(1); if (req.xspi.info.family == AF_UNSPEC) req.xspi.info.family = AF_INET; if (rtnl_talk(&rth, &req.n, res_n, sizeof(res_buf)) < 0) exit(2); if (xfrm_state_print(NULL, res_n, (void*)stdout) < 0) { fprintf(stderr, "An error :-)\n"); exit(1); } rtnl_close(&rth); return 0; } static int xfrm_state_filter_match(struct xfrm_usersa_info *xsinfo) { if (!filter.use) return 1; if (filter.id_src_mask) if (xfrm_addr_match(&xsinfo->saddr, &filter.xsinfo.saddr, filter.id_src_mask)) return 0; if (filter.id_dst_mask) if (xfrm_addr_match(&xsinfo->id.daddr, &filter.xsinfo.id.daddr, filter.id_dst_mask)) return 0; if ((xsinfo->id.proto^filter.xsinfo.id.proto)&filter.id_proto_mask) return 0; if ((xsinfo->id.spi^filter.xsinfo.id.spi)&filter.id_spi_mask) return 0; if ((xsinfo->mode^filter.xsinfo.mode)&filter.mode_mask) return 0; if ((xsinfo->reqid^filter.xsinfo.reqid)&filter.reqid_mask) return 0; if (filter.state_flags_mask) if ((xsinfo->flags & filter.xsinfo.flags) == 0) return 0; return 1; } int xfrm_state_print(const struct sockaddr_nl *who, struct nlmsghdr *n, void *arg) { FILE *fp = (FILE*)arg; struct rtattr * tb[XFRMA_MAX+1]; struct rtattr * rta; struct xfrm_usersa_info *xsinfo = NULL; struct xfrm_user_expire *xexp = NULL; struct xfrm_usersa_id *xsid = NULL; int len = n->nlmsg_len; if (n->nlmsg_type != XFRM_MSG_NEWSA && n->nlmsg_type != XFRM_MSG_DELSA && n->nlmsg_type != XFRM_MSG_UPDSA && n->nlmsg_type != XFRM_MSG_EXPIRE) { fprintf(stderr, "Not a state: %08x %08x %08x\n", n->nlmsg_len, n->nlmsg_type, n->nlmsg_flags); return 0; } if (n->nlmsg_type == XFRM_MSG_DELSA) { /* Dont blame me for this .. Herbert made me do it */ xsid = NLMSG_DATA(n); len -= NLMSG_SPACE(sizeof(*xsid)); } else if (n->nlmsg_type == XFRM_MSG_EXPIRE) { xexp = NLMSG_DATA(n); xsinfo = &xexp->state; len -= NLMSG_SPACE(sizeof(*xexp)); } else { xexp = NULL; xsinfo = NLMSG_DATA(n); len -= NLMSG_SPACE(sizeof(*xsinfo)); } if (len < 0) { fprintf(stderr, "BUG: wrong nlmsg len %d\n", len); return -1; } if (xsinfo && !xfrm_state_filter_match(xsinfo)) return 0; if (n->nlmsg_type == XFRM_MSG_DELSA) fprintf(fp, "Deleted "); else if (n->nlmsg_type == XFRM_MSG_UPDSA) fprintf(fp, "Updated "); else if (n->nlmsg_type == XFRM_MSG_EXPIRE) fprintf(fp, "Expired "); if (n->nlmsg_type == XFRM_MSG_DELSA) rta = XFRMSID_RTA(xsid); else if (n->nlmsg_type == XFRM_MSG_EXPIRE) rta = XFRMEXP_RTA(xexp); else rta = XFRMS_RTA(xsinfo); parse_rtattr(tb, XFRMA_MAX, rta, len); if (n->nlmsg_type == XFRM_MSG_DELSA) { //xfrm_policy_id_print(); if (!tb[XFRMA_SA]) { fprintf(stderr, "Buggy XFRM_MSG_DELSA: no XFRMA_SA\n"); return -1; } if (RTA_PAYLOAD(tb[XFRMA_SA]) < sizeof(*xsinfo)) { fprintf(stderr, "Buggy XFRM_MSG_DELPOLICY: too short XFRMA_POLICY len\n"); return -1; } xsinfo = RTA_DATA(tb[XFRMA_SA]); } xfrm_state_info_print(xsinfo, tb, fp, NULL, NULL); if (n->nlmsg_type == XFRM_MSG_EXPIRE) { fprintf(fp, "\t"); fprintf(fp, "hard %u", xexp->hard); fprintf(fp, "%s", _SL_); } if (oneline) fprintf(fp, "\n"); fflush(fp); return 0; } static int xfrm_state_get_or_delete(int argc, char **argv, int delete) { struct rtnl_handle rth; struct { struct nlmsghdr n; struct xfrm_usersa_id xsid; char buf[RTA_BUF_SIZE]; } req; struct xfrm_id id; char *idp = NULL; struct xfrm_mark mark = {0, 0}; memset(&req, 0, sizeof(req)); req.n.nlmsg_len = NLMSG_LENGTH(sizeof(req.xsid)); req.n.nlmsg_flags = NLM_F_REQUEST; req.n.nlmsg_type = delete ? XFRM_MSG_DELSA : XFRM_MSG_GETSA; req.xsid.family = preferred_family; while (argc > 0) { xfrm_address_t saddr; if (strcmp(*argv, "mark") == 0) { xfrm_parse_mark(&mark, &argc, &argv); } else { if (idp) invarg("unknown", *argv); idp = *argv; /* ID */ memset(&id, 0, sizeof(id)); memset(&saddr, 0, sizeof(saddr)); xfrm_id_parse(&saddr, &id, &req.xsid.family, 0, &argc, &argv); memcpy(&req.xsid.daddr, &id.daddr, sizeof(req.xsid.daddr)); req.xsid.spi = id.spi; req.xsid.proto = id.proto; addattr_l(&req.n, sizeof(req.buf), XFRMA_SRCADDR, (void *)&saddr, sizeof(saddr)); } argc--; argv++; } if (mark.m & mark.v) { int r = addattr_l(&req.n, sizeof(req.buf), XFRMA_MARK, (void *)&mark, sizeof(mark)); if (r < 0) { fprintf(stderr, "XFRMA_MARK failed\n"); exit(1); } } if (rtnl_open_byproto(&rth, 0, NETLINK_XFRM) < 0) exit(1); if (req.xsid.family == AF_UNSPEC) req.xsid.family = AF_INET; if (delete) { if (rtnl_talk(&rth, &req.n, NULL, 0) < 0) exit(2); } else { char buf[NLMSG_BUF_SIZE]; struct nlmsghdr *res_n = (struct nlmsghdr *)buf; memset(buf, 0, sizeof(buf)); if (rtnl_talk(&rth, &req.n, res_n, sizeof(req)) < 0) exit(2); if (xfrm_state_print(NULL, res_n, (void*)stdout) < 0) { fprintf(stderr, "An error :-)\n"); exit(1); } } rtnl_close(&rth); return 0; } /* * With an existing state of nlmsg, make new nlmsg for deleting the state * and store it to buffer. */ static int xfrm_state_keep(const struct sockaddr_nl *who, struct nlmsghdr *n, void *arg) { struct xfrm_buffer *xb = (struct xfrm_buffer *)arg; struct rtnl_handle *rth = xb->rth; struct xfrm_usersa_info *xsinfo = NLMSG_DATA(n); int len = n->nlmsg_len; struct nlmsghdr *new_n; struct xfrm_usersa_id *xsid; if (n->nlmsg_type != XFRM_MSG_NEWSA) { fprintf(stderr, "Not a state: %08x %08x %08x\n", n->nlmsg_len, n->nlmsg_type, n->nlmsg_flags); return 0; } len -= NLMSG_LENGTH(sizeof(*xsinfo)); if (len < 0) { fprintf(stderr, "BUG: wrong nlmsg len %d\n", len); return -1; } if (!xfrm_state_filter_match(xsinfo)) return 0; if (xb->offset > xb->size) { fprintf(stderr, "State buffer overflow\n"); return -1; } new_n = (struct nlmsghdr *)(xb->buf + xb->offset); new_n->nlmsg_len = NLMSG_LENGTH(sizeof(*xsid)); new_n->nlmsg_flags = NLM_F_REQUEST; new_n->nlmsg_type = XFRM_MSG_DELSA; new_n->nlmsg_seq = ++rth->seq; xsid = NLMSG_DATA(new_n); xsid->family = xsinfo->family; memcpy(&xsid->daddr, &xsinfo->id.daddr, sizeof(xsid->daddr)); xsid->spi = xsinfo->id.spi; xsid->proto = xsinfo->id.proto; addattr_l(new_n, xb->size, XFRMA_SRCADDR, &xsinfo->saddr, sizeof(xsid->daddr)); xb->offset += new_n->nlmsg_len; xb->nlmsg_count ++; return 0; } static int xfrm_state_list_or_deleteall(int argc, char **argv, int deleteall) { char *idp = NULL; struct rtnl_handle rth; if(argc > 0) filter.use = 1; filter.xsinfo.family = preferred_family; while (argc > 0) { if (strcmp(*argv, "mode") == 0) { NEXT_ARG(); xfrm_mode_parse(&filter.xsinfo.mode, &argc, &argv); filter.mode_mask = XFRM_FILTER_MASK_FULL; } else if (strcmp(*argv, "reqid") == 0) { NEXT_ARG(); xfrm_reqid_parse(&filter.xsinfo.reqid, &argc, &argv); filter.reqid_mask = XFRM_FILTER_MASK_FULL; } else if (strcmp(*argv, "flag") == 0) { NEXT_ARG(); xfrm_state_flag_parse(&filter.xsinfo.flags, &argc, &argv); filter.state_flags_mask = XFRM_FILTER_MASK_FULL; } else { if (idp) invarg("unknown", *argv); idp = *argv; /* ID */ xfrm_id_parse(&filter.xsinfo.saddr, &filter.xsinfo.id, &filter.xsinfo.family, 1, &argc, &argv); if (preferred_family == AF_UNSPEC) preferred_family = filter.xsinfo.family; } argc--; argv++; } if (rtnl_open_byproto(&rth, 0, NETLINK_XFRM) < 0) exit(1); if (deleteall) { struct xfrm_buffer xb; char buf[NLMSG_DELETEALL_BUF_SIZE]; int i; xb.buf = buf; xb.size = sizeof(buf); xb.rth = &rth; for (i = 0; ; i++) { struct { struct nlmsghdr n; char buf[NLMSG_BUF_SIZE]; } req = { .n.nlmsg_len = NLMSG_HDRLEN, .n.nlmsg_flags = NLM_F_DUMP | NLM_F_REQUEST, .n.nlmsg_type = XFRM_MSG_GETSA, .n.nlmsg_seq = rth.dump = ++rth.seq, }; xb.offset = 0; xb.nlmsg_count = 0; if (show_stats > 1) fprintf(stderr, "Delete-all round = %d\n", i); if (rtnl_send(&rth, (void *)&req, req.n.nlmsg_len) < 0) { perror("Cannot send dump request"); exit(1); } if (rtnl_dump_filter(&rth, xfrm_state_keep, &xb) < 0) { fprintf(stderr, "Delete-all terminated\n"); exit(1); } if (xb.nlmsg_count == 0) { if (show_stats > 1) fprintf(stderr, "Delete-all completed\n"); break; } if (rtnl_send_check(&rth, xb.buf, xb.offset) < 0) { perror("Failed to send delete-all request\n"); exit(1); } if (show_stats > 1) fprintf(stderr, "Delete-all nlmsg count = %d\n", xb.nlmsg_count); xb.offset = 0; xb.nlmsg_count = 0; } } else { struct xfrm_address_filter addrfilter = { .saddr = filter.xsinfo.saddr, .daddr = filter.xsinfo.id.daddr, .family = filter.xsinfo.family, .splen = filter.id_src_mask, .dplen = filter.id_dst_mask, }; struct { struct nlmsghdr n; char buf[NLMSG_BUF_SIZE]; } req = { .n.nlmsg_len = NLMSG_HDRLEN, .n.nlmsg_flags = NLM_F_DUMP | NLM_F_REQUEST, .n.nlmsg_type = XFRM_MSG_GETSA, .n.nlmsg_seq = rth.dump = ++rth.seq, }; if (filter.xsinfo.id.proto) addattr8(&req.n, sizeof(req), XFRMA_PROTO, filter.xsinfo.id.proto); addattr_l(&req.n, sizeof(req), XFRMA_ADDRESS_FILTER, &addrfilter, sizeof(addrfilter)); if (rtnl_send(&rth, (void *)&req, req.n.nlmsg_len) < 0) { perror("Cannot send dump request"); exit(1); } if (rtnl_dump_filter(&rth, xfrm_state_print, stdout) < 0) { fprintf(stderr, "Dump terminated\n"); exit(1); } } rtnl_close(&rth); exit(0); } static int print_sadinfo(struct nlmsghdr *n, void *arg) { FILE *fp = (FILE*)arg; __u32 *f = NLMSG_DATA(n); struct rtattr *tb[XFRMA_SAD_MAX+1]; struct rtattr *rta; __u32 *cnt; int len = n->nlmsg_len; len -= NLMSG_LENGTH(sizeof(__u32)); if (len < 0) { fprintf(stderr, "SADinfo: Wrong len %d\n", len); return -1; } rta = XFRMSAPD_RTA(f); parse_rtattr(tb, XFRMA_SAD_MAX, rta, len); if (tb[XFRMA_SAD_CNT]) { fprintf(fp,"\t SAD"); cnt = (__u32 *)RTA_DATA(tb[XFRMA_SAD_CNT]); fprintf(fp," count %d", *cnt); } else { fprintf(fp,"BAD SAD info returned\n"); return -1; } if (show_stats) { if (tb[XFRMA_SAD_HINFO]) { struct xfrmu_sadhinfo *si; if (RTA_PAYLOAD(tb[XFRMA_SAD_HINFO]) < sizeof(*si)) { fprintf(fp,"BAD SAD length returned\n"); return -1; } si = RTA_DATA(tb[XFRMA_SAD_HINFO]); fprintf(fp," (buckets "); fprintf(fp,"count %d", si->sadhcnt); fprintf(fp," Max %d", si->sadhmcnt); fprintf(fp,")"); } } fprintf(fp,"\n"); return 0; } static int xfrm_sad_getinfo(int argc, char **argv) { struct rtnl_handle rth; struct { struct nlmsghdr n; __u32 flags; char ans[64]; } req; memset(&req, 0, sizeof(req)); req.n.nlmsg_len = NLMSG_LENGTH(sizeof(req.flags)); req.n.nlmsg_flags = NLM_F_REQUEST; req.n.nlmsg_type = XFRM_MSG_GETSADINFO; req.flags = 0XFFFFFFFF; if (rtnl_open_byproto(&rth, 0, NETLINK_XFRM) < 0) exit(1); if (rtnl_talk(&rth, &req.n, &req.n, sizeof(req)) < 0) exit(2); print_sadinfo(&req.n, (void*)stdout); rtnl_close(&rth); return 0; } static int xfrm_state_flush(int argc, char **argv) { struct rtnl_handle rth; struct { struct nlmsghdr n; struct xfrm_usersa_flush xsf; } req; char *protop = NULL; memset(&req, 0, sizeof(req)); req.n.nlmsg_len = NLMSG_LENGTH(sizeof(req.xsf)); req.n.nlmsg_flags = NLM_F_REQUEST; req.n.nlmsg_type = XFRM_MSG_FLUSHSA; req.xsf.proto = 0; while (argc > 0) { if (strcmp(*argv, "proto") == 0) { int ret; if (protop) duparg("proto", *argv); protop = *argv; NEXT_ARG(); ret = xfrm_xfrmproto_getbyname(*argv); if (ret < 0) invarg("XFRM-PROTO value is invalid", *argv); req.xsf.proto = (__u8)ret; } else invarg("unknown", *argv); argc--; argv++; } if (rtnl_open_byproto(&rth, 0, NETLINK_XFRM) < 0) exit(1); if (show_stats > 1) fprintf(stderr, "Flush state with XFRM-PROTO value \"%s\"\n", strxf_xfrmproto(req.xsf.proto)); if (rtnl_talk(&rth, &req.n, NULL, 0) < 0) exit(2); rtnl_close(&rth); return 0; } int do_xfrm_state(int argc, char **argv) { if (argc < 1) return xfrm_state_list_or_deleteall(0, NULL, 0); if (matches(*argv, "add") == 0) return xfrm_state_modify(XFRM_MSG_NEWSA, 0, argc-1, argv+1); if (matches(*argv, "update") == 0) return xfrm_state_modify(XFRM_MSG_UPDSA, 0, argc-1, argv+1); if (matches(*argv, "allocspi") == 0) return xfrm_state_allocspi(argc-1, argv+1); if (matches(*argv, "delete") == 0) return xfrm_state_get_or_delete(argc-1, argv+1, 1); if (matches(*argv, "deleteall") == 0 || matches(*argv, "delall") == 0) return xfrm_state_list_or_deleteall(argc-1, argv+1, 1); if (matches(*argv, "list") == 0 || matches(*argv, "show") == 0 || matches(*argv, "lst") == 0) return xfrm_state_list_or_deleteall(argc-1, argv+1, 0); if (matches(*argv, "get") == 0) return xfrm_state_get_or_delete(argc-1, argv+1, 0); if (matches(*argv, "flush") == 0) return xfrm_state_flush(argc-1, argv+1); if (matches(*argv, "count") == 0) { return xfrm_sad_getinfo(argc, argv); } if (matches(*argv, "help") == 0) usage(); fprintf(stderr, "Command \"%s\" is unknown, try \"ip xfrm state help\".\n", *argv); exit(-1); }