/*- * SPDX-License-Identifier: BSD-2-Clause * * Copyright (c) 2022 Alexander V. Chernikov * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #include #include "opt_inet.h" #include "opt_inet6.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /* scope deembedding */ #include #include #include #include #define DEBUG_MOD_NAME nl_iface #define DEBUG_MAX_LEVEL LOG_DEBUG3 #include _DECLARE_DEBUG(LOG_INFO); struct netlink_walkargs { struct nl_writer *nw; struct nlmsghdr hdr; struct nlpcb *so; struct ucred *cred; uint32_t fibnum; int family; int error; int count; int dumped; }; static eventhandler_tag ifdetach_event, ifattach_event, iflink_event, ifaddr_event; static SLIST_HEAD(, nl_cloner) nl_cloners = SLIST_HEAD_INITIALIZER(nl_cloners); static struct sx rtnl_cloner_lock; SX_SYSINIT(rtnl_cloner_lock, &rtnl_cloner_lock, "rtnl cloner lock"); /* These are external hooks for CARP. */ extern int (*carp_get_vhid_p)(struct ifaddr *); /* * RTM_GETLINK request * sendto(3, {{len=32, type=RTM_GETLINK, flags=NLM_F_REQUEST|NLM_F_DUMP, seq=1641940952, pid=0}, * {ifi_family=AF_INET, ifi_type=ARPHRD_NETROM, ifi_index=0, ifi_flags=0, ifi_change=0}}, 32, 0, NULL, 0) = 32 * * Reply: * {ifi_family=AF_UNSPEC, ifi_type=ARPHRD_ETHER, ifi_index=if_nametoindex("enp0s31f6"), ifi_flags=IFF_UP|IFF_BROADCAST|IFF_RUNNING|IFF_MULTICAST|IFF_LOWER_UP, ifi_change=0}, {{nla_len=10, nla_type=IFLA_ADDRESS}, "\xfe\x54\x00\x52\x3e\x90"} [ {{nla_len=14, nla_type=IFLA_IFNAME}, "enp0s31f6"}, {{nla_len=8, nla_type=IFLA_TXQLEN}, 1000}, {{nla_len=5, nla_type=IFLA_OPERSTATE}, 6}, {{nla_len=5, nla_type=IFLA_LINKMODE}, 0}, {{nla_len=8, nla_type=IFLA_MTU}, 1500}, {{nla_len=8, nla_type=IFLA_MIN_MTU}, 68}, {{nla_len=8, nla_type=IFLA_MAX_MTU}, 9000}, {{nla_len=8, nla_type=IFLA_GROUP}, 0}, {{nla_len=8, nla_type=IFLA_PROMISCUITY}, 0}, {{nla_len=8, nla_type=IFLA_NUM_TX_QUEUES}, 1}, {{nla_len=8, nla_type=IFLA_GSO_MAX_SEGS}, 65535}, {{nla_len=8, nla_type=IFLA_GSO_MAX_SIZE}, 65536}, {{nla_len=8, nla_type=IFLA_NUM_RX_QUEUES}, 1}, {{nla_len=5, nla_type=IFLA_CARRIER}, 1}, {{nla_len=13, nla_type=IFLA_QDISC}, "fq_codel"}, {{nla_len=8, nla_type=IFLA_CARRIER_CHANGES}, 2}, {{nla_len=5, nla_type=IFLA_PROTO_DOWN}, 0}, {{nla_len=8, nla_type=IFLA_CARRIER_UP_COUNT}, 1}, {{nla_len=8, nla_type=IFLA_CARRIER_DOWN_COUNT}, 1}, */ struct if_state { uint8_t ifla_operstate; uint8_t ifla_carrier; }; static void get_operstate_ether(if_t ifp, struct if_state *pstate) { struct ifmediareq ifmr = {}; int error; error = if_ioctl(ifp, SIOCGIFMEDIA, (void *)&ifmr); if (error != 0) { NL_LOG(LOG_DEBUG, "error calling SIOCGIFMEDIA on %s: %d", if_name(ifp), error); return; } switch (IFM_TYPE(ifmr.ifm_active)) { case IFM_ETHER: if (ifmr.ifm_status & IFM_ACTIVE) { pstate->ifla_carrier = 1; if (if_getflags(ifp) & IFF_MONITOR) pstate->ifla_operstate = IF_OPER_DORMANT; else pstate->ifla_operstate = IF_OPER_UP; } else pstate->ifla_operstate = IF_OPER_DOWN; } } static bool get_stats(struct nl_writer *nw, if_t ifp) { struct rtnl_link_stats64 *stats; int nla_len = sizeof(struct nlattr) + sizeof(*stats); struct nlattr *nla = nlmsg_reserve_data(nw, nla_len, struct nlattr); if (nla == NULL) return (false); nla->nla_type = IFLA_STATS64; nla->nla_len = nla_len; stats = (struct rtnl_link_stats64 *)(nla + 1); stats->rx_packets = if_getcounter(ifp, IFCOUNTER_IPACKETS); stats->tx_packets = if_getcounter(ifp, IFCOUNTER_OPACKETS); stats->rx_bytes = if_getcounter(ifp, IFCOUNTER_IBYTES); stats->tx_bytes = if_getcounter(ifp, IFCOUNTER_OBYTES); stats->rx_errors = if_getcounter(ifp, IFCOUNTER_IERRORS); stats->tx_errors = if_getcounter(ifp, IFCOUNTER_OERRORS); stats->rx_dropped = if_getcounter(ifp, IFCOUNTER_IQDROPS); stats->tx_dropped = if_getcounter(ifp, IFCOUNTER_OQDROPS); stats->multicast = if_getcounter(ifp, IFCOUNTER_IMCASTS); stats->rx_nohandler = if_getcounter(ifp, IFCOUNTER_NOPROTO); return (true); } static void get_operstate(if_t ifp, struct if_state *pstate) { pstate->ifla_operstate = IF_OPER_UNKNOWN; pstate->ifla_carrier = 0; /* no carrier */ switch (if_gettype(ifp)) { case IFT_ETHER: case IFT_L2VLAN: get_operstate_ether(ifp, pstate); break; default: /* Map admin state to the operstate */ if (if_getflags(ifp) & IFF_UP) { pstate->ifla_operstate = IF_OPER_UP; pstate->ifla_carrier = 1; } else pstate->ifla_operstate = IF_OPER_DOWN; break; } } static void get_hwaddr(struct nl_writer *nw, if_t ifp) { struct ifreq ifr = {}; if (if_gethwaddr(ifp, &ifr) == 0) { nlattr_add(nw, IFLAF_ORIG_HWADDR, if_getaddrlen(ifp), ifr.ifr_addr.sa_data); } } static unsigned ifp_flags_to_netlink(const if_t ifp) { return (if_getflags(ifp) | if_getdrvflags(ifp)); } #define LLADDR_CONST(s) ((const void *)((s)->sdl_data + (s)->sdl_nlen)) static bool dump_sa(struct nl_writer *nw, int attr, const struct sockaddr *sa) { uint32_t addr_len = 0; const void *addr_data = NULL; #ifdef INET6 struct in6_addr addr6; #endif if (sa == NULL) return (true); switch (sa->sa_family) { #ifdef INET case AF_INET: addr_len = sizeof(struct in_addr); addr_data = &((const struct sockaddr_in *)sa)->sin_addr; break; #endif #ifdef INET6 case AF_INET6: in6_splitscope(&((const struct sockaddr_in6 *)sa)->sin6_addr, &addr6, &addr_len); addr_len = sizeof(struct in6_addr); addr_data = &addr6; break; #endif case AF_LINK: addr_len = ((const struct sockaddr_dl *)sa)->sdl_alen; addr_data = LLADDR_CONST((const struct sockaddr_dl *)sa); break; case AF_UNSPEC: /* Ignore empty SAs without warning */ return (true); default: NL_LOG(LOG_DEBUG2, "unsupported family: %d, skipping", sa->sa_family); return (true); } return (nlattr_add(nw, attr, addr_len, addr_data)); } static bool dump_iface_caps(struct nl_writer *nw, struct ifnet *ifp) { int off = nlattr_add_nested(nw, IFLAF_CAPS); uint32_t active_caps[roundup2(IFCAP_B_SIZE, 32) / 32] = {}; uint32_t all_caps[roundup2(IFCAP_B_SIZE, 32) / 32] = {}; MPASS(sizeof(active_caps) >= 8); MPASS(sizeof(all_caps) >= 8); if (off == 0) return (false); active_caps[0] = (uint32_t)if_getcapabilities(ifp); all_caps[0] = (uint32_t)if_getcapenable(ifp); active_caps[1] = (uint32_t)if_getcapabilities2(ifp); all_caps[1] = (uint32_t)if_getcapenable2(ifp); nlattr_add_u32(nw, NLA_BITSET_SIZE, IFCAP_B_SIZE); nlattr_add(nw, NLA_BITSET_MASK, sizeof(all_caps), all_caps); nlattr_add(nw, NLA_BITSET_VALUE, sizeof(active_caps), active_caps); nlattr_set_len(nw, off); return (true); } /* * Dumps interface state, properties and metrics. * @nw: message writer * @ifp: target interface * @hdr: template header * @if_flags_mask: changed if_[drv]_flags bitmask * * This function is called without epoch and MAY sleep. */ static bool dump_iface(struct nl_writer *nw, if_t ifp, const struct nlmsghdr *hdr, int if_flags_mask) { struct epoch_tracker et; struct ifinfomsg *ifinfo; NL_LOG(LOG_DEBUG3, "dumping interface %s data", if_name(ifp)); if (!nlmsg_reply(nw, hdr, sizeof(struct ifinfomsg))) goto enomem; ifinfo = nlmsg_reserve_object(nw, struct ifinfomsg); ifinfo->ifi_family = AF_UNSPEC; ifinfo->__ifi_pad = 0; ifinfo->ifi_type = if_gettype(ifp); ifinfo->ifi_index = if_getindex(ifp); ifinfo->ifi_flags = ifp_flags_to_netlink(ifp); ifinfo->ifi_change = if_flags_mask; struct if_state ifs = {}; get_operstate(ifp, &ifs); if (ifs.ifla_operstate == IF_OPER_UP) ifinfo->ifi_flags |= IFF_LOWER_UP; nlattr_add_string(nw, IFLA_IFNAME, if_name(ifp)); nlattr_add_u8(nw, IFLA_OPERSTATE, ifs.ifla_operstate); nlattr_add_u8(nw, IFLA_CARRIER, ifs.ifla_carrier); /* nlattr_add_u8(nw, IFLA_PROTO_DOWN, val); nlattr_add_u8(nw, IFLA_LINKMODE, val); */ if (if_getaddrlen(ifp) != 0) { struct ifaddr *ifa; NET_EPOCH_ENTER(et); ifa = CK_STAILQ_FIRST(&ifp->if_addrhead); if (ifa != NULL) dump_sa(nw, IFLA_ADDRESS, ifa->ifa_addr); NET_EPOCH_EXIT(et); } if ((if_getbroadcastaddr(ifp) != NULL)) { nlattr_add(nw, IFLA_BROADCAST, if_getaddrlen(ifp), if_getbroadcastaddr(ifp)); } nlattr_add_u32(nw, IFLA_MTU, if_getmtu(ifp)); /* nlattr_add_u32(nw, IFLA_MIN_MTU, 60); nlattr_add_u32(nw, IFLA_MAX_MTU, 9000); nlattr_add_u32(nw, IFLA_GROUP, 0); */ if (if_getdescr(ifp) != NULL) nlattr_add_string(nw, IFLA_IFALIAS, if_getdescr(ifp)); /* Store FreeBSD-specific attributes */ int off = nlattr_add_nested(nw, IFLA_FREEBSD); if (off != 0) { get_hwaddr(nw, ifp); dump_iface_caps(nw, ifp); nlattr_set_len(nw, off); } get_stats(nw, ifp); uint32_t val = (if_getflags(ifp) & IFF_PROMISC) != 0; nlattr_add_u32(nw, IFLA_PROMISCUITY, val); ifc_dump_ifp_nl(ifp, nw); if (nlmsg_end(nw)) return (true); enomem: NL_LOG(LOG_DEBUG, "unable to dump interface %s state (ENOMEM)", if_name(ifp)); nlmsg_abort(nw); return (false); } static bool check_ifmsg(void *hdr, struct nl_pstate *npt) { struct ifinfomsg *ifm = hdr; if (ifm->__ifi_pad != 0 || ifm->ifi_type != 0 || ifm->ifi_flags != 0 || ifm->ifi_change != 0) { nlmsg_report_err_msg(npt, "strict checking: non-zero values in ifinfomsg header"); return (false); } return (true); } #define _IN(_field) offsetof(struct ifinfomsg, _field) #define _OUT(_field) offsetof(struct nl_parsed_link, _field) static const struct nlfield_parser nlf_p_if[] = { { .off_in = _IN(ifi_type), .off_out = _OUT(ifi_type), .cb = nlf_get_u16 }, { .off_in = _IN(ifi_index), .off_out = _OUT(ifi_index), .cb = nlf_get_u32 }, { .off_in = _IN(ifi_flags), .off_out = _OUT(ifi_flags), .cb = nlf_get_u32 }, { .off_in = _IN(ifi_change), .off_out = _OUT(ifi_change), .cb = nlf_get_u32 }, }; static const struct nlattr_parser nla_p_linfo[] = { { .type = IFLA_INFO_KIND, .off = _OUT(ifla_cloner), .cb = nlattr_get_stringn }, { .type = IFLA_INFO_DATA, .off = _OUT(ifla_idata), .cb = nlattr_get_nla }, }; NL_DECLARE_ATTR_PARSER(linfo_parser, nla_p_linfo); static const struct nlattr_parser nla_p_if[] = { { .type = IFLA_IFNAME, .off = _OUT(ifla_ifname), .cb = nlattr_get_string }, { .type = IFLA_MTU, .off = _OUT(ifla_mtu), .cb = nlattr_get_uint32 }, { .type = IFLA_LINK, .off = _OUT(ifla_link), .cb = nlattr_get_uint32 }, { .type = IFLA_LINKINFO, .arg = &linfo_parser, .cb = nlattr_get_nested }, { .type = IFLA_IFALIAS, .off = _OUT(ifla_ifalias), .cb = nlattr_get_string }, { .type = IFLA_GROUP, .off = _OUT(ifla_group), .cb = nlattr_get_string }, { .type = IFLA_ALT_IFNAME, .off = _OUT(ifla_ifname), .cb = nlattr_get_string }, }; #undef _IN #undef _OUT NL_DECLARE_STRICT_PARSER(ifmsg_parser, struct ifinfomsg, check_ifmsg, nlf_p_if, nla_p_if); static bool match_iface(if_t ifp, void *_arg) { struct nl_parsed_link *attrs = (struct nl_parsed_link *)_arg; if (attrs->ifi_index != 0 && attrs->ifi_index != if_getindex(ifp)) return (false); if (attrs->ifi_type != 0 && attrs->ifi_index != if_gettype(ifp)) return (false); if (attrs->ifla_ifname != NULL && strcmp(attrs->ifla_ifname, if_name(ifp))) return (false); /* TODO: add group match */ return (true); } static int dump_cb(if_t ifp, void *_arg) { struct netlink_walkargs *wa = (struct netlink_walkargs *)_arg; if (!dump_iface(wa->nw, ifp, &wa->hdr, 0)) return (ENOMEM); return (0); } /* * {nlmsg_len=52, nlmsg_type=RTM_GETLINK, nlmsg_flags=NLM_F_REQUEST, nlmsg_seq=1662842818, nlmsg_pid=0}, * {ifi_family=AF_PACKET, ifi_type=ARPHRD_NETROM, ifi_index=0, ifi_flags=0, ifi_change=0}, * [ * [{nla_len=10, nla_type=IFLA_IFNAME}, "vnet9"], * [{nla_len=8, nla_type=IFLA_EXT_MASK}, RTEXT_FILTER_VF] * ] */ static int rtnl_handle_getlink(struct nlmsghdr *hdr, struct nlpcb *nlp, struct nl_pstate *npt) { struct epoch_tracker et; if_t ifp; int error = 0; struct nl_parsed_link attrs = {}; error = nl_parse_nlmsg(hdr, &ifmsg_parser, npt, &attrs); if (error != 0) return (error); struct netlink_walkargs wa = { .so = nlp, .nw = npt->nw, .hdr.nlmsg_pid = hdr->nlmsg_pid, .hdr.nlmsg_seq = hdr->nlmsg_seq, .hdr.nlmsg_flags = hdr->nlmsg_flags, .hdr.nlmsg_type = NL_RTM_NEWLINK, }; /* Fast track for an interface w/ explicit name or index match */ if ((attrs.ifi_index != 0) || (attrs.ifla_ifname != NULL)) { if (attrs.ifi_index != 0) { NLP_LOG(LOG_DEBUG3, nlp, "fast track -> searching index %u", attrs.ifi_index); NET_EPOCH_ENTER(et); ifp = ifnet_byindex_ref(attrs.ifi_index); NET_EPOCH_EXIT(et); } else { NLP_LOG(LOG_DEBUG3, nlp, "fast track -> searching name %s", attrs.ifla_ifname); ifp = ifunit_ref(attrs.ifla_ifname); } if (ifp != NULL) { if (match_iface(ifp, &attrs)) { if (!dump_iface(wa.nw, ifp, &wa.hdr, 0)) error = ENOMEM; } else error = ENODEV; if_rele(ifp); } else error = ENODEV; return (error); } /* Always treat non-direct-match as a multipart message */ wa.hdr.nlmsg_flags |= NLM_F_MULTI; /* * Fetching some link properties require performing ioctl's that may be blocking. * Address it by saving referenced pointers of the matching links, * exiting from epoch and going through the list one-by-one. */ NL_LOG(LOG_DEBUG2, "Start dump"); if_foreach_sleep(match_iface, &attrs, dump_cb, &wa); NL_LOG(LOG_DEBUG2, "End dump, iterated %d dumped %d", wa.count, wa.dumped); if (!nlmsg_end_dump(wa.nw, error, &wa.hdr)) { NL_LOG(LOG_DEBUG, "Unable to finalize the dump"); return (ENOMEM); } return (error); } /* * sendmsg(3, {msg_name={sa_family=AF_NETLINK, nl_pid=0, nl_groups=00000000}, msg_namelen=12, msg_iov=[{iov_base=[ * {nlmsg_len=60, nlmsg_type=RTM_NEWLINK, nlmsg_flags=NLM_F_REQUEST|NLM_F_ACK|NLM_F_EXCL|NLM_F_CREATE, nlmsg_seq=1662715618, nlmsg_pid=0}, * {ifi_family=AF_UNSPEC, ifi_type=ARPHRD_NETROM, ifi_index=0, ifi_flags=0, ifi_change=0}, * {nla_len=11, nla_type=IFLA_IFNAME}, "dummy0"], * [ * {nla_len=16, nla_type=IFLA_LINKINFO}, * [ * {nla_len=9, nla_type=IFLA_INFO_KIND}, "dummy"... * ] * ] */ static int rtnl_handle_dellink(struct nlmsghdr *hdr, struct nlpcb *nlp, struct nl_pstate *npt) { struct epoch_tracker et; if_t ifp; int error; struct nl_parsed_link attrs = {}; error = nl_parse_nlmsg(hdr, &ifmsg_parser, npt, &attrs); if (error != 0) return (error); NET_EPOCH_ENTER(et); ifp = ifnet_byindex_ref(attrs.ifi_index); NET_EPOCH_EXIT(et); if (ifp == NULL) { NLP_LOG(LOG_DEBUG, nlp, "unable to find interface %u", attrs.ifi_index); return (ENOENT); } NLP_LOG(LOG_DEBUG3, nlp, "mapped ifindex %u to %s", attrs.ifi_index, if_name(ifp)); sx_xlock(&ifnet_detach_sxlock); error = if_clone_destroy(if_name(ifp)); sx_xunlock(&ifnet_detach_sxlock); NLP_LOG(LOG_DEBUG2, nlp, "deleting interface %s returned %d", if_name(ifp), error); if_rele(ifp); return (error); } /* * New link: * type=RTM_NEWLINK, flags=NLM_F_REQUEST|NLM_F_ACK|NLM_F_EXCL|NLM_F_CREATE, seq=1668185590, pid=0}, * {ifi_family=AF_UNSPEC, ifi_type=ARPHRD_NETROM, ifi_index=0, ifi_flags=0, ifi_change=0} * [ * {{nla_len=8, nla_type=IFLA_MTU}, 123}, * {{nla_len=10, nla_type=IFLA_IFNAME}, "vlan1"}, * {{nla_len=24, nla_type=IFLA_LINKINFO}, * [ * {{nla_len=8, nla_type=IFLA_INFO_KIND}, "vlan"...}, * {{nla_len=12, nla_type=IFLA_INFO_DATA}, "\x06\x00\x01\x00\x7b\x00\x00\x00"}]}]} * * Update link: * type=RTM_NEWLINK, flags=NLM_F_REQUEST|NLM_F_ACK, seq=1668185923, pid=0}, * {ifi_family=AF_UNSPEC, ifi_type=ARPHRD_NETROM, ifi_index=if_nametoindex("lo"), ifi_flags=0, ifi_change=0}, * {{nla_len=8, nla_type=IFLA_MTU}, 123}} * * * Check command availability: * type=RTM_NEWLINK, flags=NLM_F_REQUEST|NLM_F_ACK, seq=0, pid=0}, * {ifi_family=AF_UNSPEC, ifi_type=ARPHRD_NETROM, ifi_index=0, ifi_flags=0, ifi_change=0} */ static int create_link(struct nlmsghdr *hdr, struct nl_parsed_link *lattrs, struct nlattr_bmask *bm, struct nlpcb *nlp, struct nl_pstate *npt) { if (lattrs->ifla_ifname == NULL || strlen(lattrs->ifla_ifname) == 0) { NLMSG_REPORT_ERR_MSG(npt, "empty IFLA_IFNAME attribute"); return (EINVAL); } if (lattrs->ifla_cloner == NULL || strlen(lattrs->ifla_cloner) == 0) { NLMSG_REPORT_ERR_MSG(npt, "empty IFLA_INFO_KIND attribute"); return (EINVAL); } struct ifc_data_nl ifd = { .flags = IFC_F_CREATE, .lattrs = lattrs, .bm = bm, .npt = npt, }; if (ifc_create_ifp_nl(lattrs->ifla_ifname, &ifd) && ifd.error == 0) nl_store_ifp_cookie(npt, ifd.ifp); return (ifd.error); } static int modify_link(struct nlmsghdr *hdr, struct nl_parsed_link *lattrs, struct nlattr_bmask *bm, struct nlpcb *nlp, struct nl_pstate *npt) { if_t ifp = NULL; struct epoch_tracker et; if (lattrs->ifi_index == 0 && lattrs->ifla_ifname == NULL) { /* * Applications like ip(8) verify RTM_NEWLINK command * existence by calling it with empty arguments. Always * return "innocent" error in that case. */ NLMSG_REPORT_ERR_MSG(npt, "empty ifi_index field"); return (EPERM); } if (lattrs->ifi_index != 0) { NET_EPOCH_ENTER(et); ifp = ifnet_byindex_ref(lattrs->ifi_index); NET_EPOCH_EXIT(et); if (ifp == NULL) { NLMSG_REPORT_ERR_MSG(npt, "unable to find interface #%u", lattrs->ifi_index); return (ENOENT); } } if (ifp == NULL && lattrs->ifla_ifname != NULL) { ifp = ifunit_ref(lattrs->ifla_ifname); if (ifp == NULL) { NLMSG_REPORT_ERR_MSG(npt, "unable to find interface %s", lattrs->ifla_ifname); return (ENOENT); } } MPASS(ifp != NULL); /* * Modification request can address either * 1) cloned interface, in which case we call the cloner-specific * modification routine * or * 2) non-cloned (e.g. "physical") interface, in which case we call * generic modification routine */ struct ifc_data_nl ifd = { .lattrs = lattrs, .bm = bm, .npt = npt }; if (!ifc_modify_ifp_nl(ifp, &ifd)) ifd.error = nl_modify_ifp_generic(ifp, lattrs, bm, npt); if_rele(ifp); return (ifd.error); } static int rtnl_handle_newlink(struct nlmsghdr *hdr, struct nlpcb *nlp, struct nl_pstate *npt) { struct nlattr_bmask bm; int error; struct nl_parsed_link attrs = {}; error = nl_parse_nlmsg(hdr, &ifmsg_parser, npt, &attrs); if (error != 0) return (error); nl_get_attrs_bmask_nlmsg(hdr, &ifmsg_parser, &bm); if (hdr->nlmsg_flags & NLM_F_CREATE) return (create_link(hdr, &attrs, &bm, nlp, npt)); else return (modify_link(hdr, &attrs, &bm, nlp, npt)); } static void set_scope6(struct sockaddr *sa, uint32_t ifindex) { #ifdef INET6 if (sa != NULL && sa->sa_family == AF_INET6) { struct sockaddr_in6 *sa6 = (struct sockaddr_in6 *)sa; if (IN6_IS_ADDR_LINKLOCAL(&sa6->sin6_addr)) in6_set_unicast_scopeid(&sa6->sin6_addr, ifindex); } #endif } static bool check_sa_family(const struct sockaddr *sa, int family, const char *attr_name, struct nl_pstate *npt) { if (sa == NULL || sa->sa_family == family) return (true); nlmsg_report_err_msg(npt, "wrong family for %s attribute: %d != %d", attr_name, family, sa->sa_family); return (false); } struct nl_parsed_ifa { uint8_t ifa_family; uint8_t ifa_prefixlen; uint8_t ifa_scope; uint32_t ifa_index; uint32_t ifa_flags; uint32_t ifaf_vhid; uint32_t ifaf_flags; struct sockaddr *ifa_address; struct sockaddr *ifa_local; struct sockaddr *ifa_broadcast; struct ifa_cacheinfo *ifa_cacheinfo; struct sockaddr *f_ifa_addr; struct sockaddr *f_ifa_dst; }; static int nlattr_get_cinfo(struct nlattr *nla, struct nl_pstate *npt, const void *arg __unused, void *target) { if (__predict_false(NLA_DATA_LEN(nla) != sizeof(struct ifa_cacheinfo))) { NLMSG_REPORT_ERR_MSG(npt, "nla type %d size(%u) is not ifa_cacheinfo", nla->nla_type, NLA_DATA_LEN(nla)); return (EINVAL); } *((struct ifa_cacheinfo **)target) = (struct ifa_cacheinfo *)NL_RTA_DATA(nla); return (0); } #define _IN(_field) offsetof(struct ifaddrmsg, _field) #define _OUT(_field) offsetof(struct nl_parsed_ifa, _field) static const struct nlfield_parser nlf_p_ifa[] = { { .off_in = _IN(ifa_family), .off_out = _OUT(ifa_family), .cb = nlf_get_u8 }, { .off_in = _IN(ifa_prefixlen), .off_out = _OUT(ifa_prefixlen), .cb = nlf_get_u8 }, { .off_in = _IN(ifa_scope), .off_out = _OUT(ifa_scope), .cb = nlf_get_u8 }, { .off_in = _IN(ifa_flags), .off_out = _OUT(ifa_flags), .cb = nlf_get_u8_u32 }, { .off_in = _IN(ifa_index), .off_out = _OUT(ifa_index), .cb = nlf_get_u32 }, }; static const struct nlattr_parser nla_p_ifa_fbsd[] = { { .type = IFAF_VHID, .off = _OUT(ifaf_vhid), .cb = nlattr_get_uint32 }, { .type = IFAF_FLAGS, .off = _OUT(ifaf_flags), .cb = nlattr_get_uint32 }, }; NL_DECLARE_ATTR_PARSER(ifa_fbsd_parser, nla_p_ifa_fbsd); static const struct nlattr_parser nla_p_ifa[] = { { .type = IFA_ADDRESS, .off = _OUT(ifa_address), .cb = nlattr_get_ip }, { .type = IFA_LOCAL, .off = _OUT(ifa_local), .cb = nlattr_get_ip }, { .type = IFA_BROADCAST, .off = _OUT(ifa_broadcast), .cb = nlattr_get_ip }, { .type = IFA_CACHEINFO, .off = _OUT(ifa_cacheinfo), .cb = nlattr_get_cinfo }, { .type = IFA_FLAGS, .off = _OUT(ifa_flags), .cb = nlattr_get_uint32 }, { .type = IFA_FREEBSD, .arg = &ifa_fbsd_parser, .cb = nlattr_get_nested }, }; #undef _IN #undef _OUT static bool post_p_ifa(void *_attrs, struct nl_pstate *npt) { struct nl_parsed_ifa *attrs = (struct nl_parsed_ifa *)_attrs; if (!check_sa_family(attrs->ifa_address, attrs->ifa_family, "IFA_ADDRESS", npt)) return (false); if (!check_sa_family(attrs->ifa_local, attrs->ifa_family, "IFA_LOCAL", npt)) return (false); if (!check_sa_family(attrs->ifa_broadcast, attrs->ifa_family, "IFA_BROADADDR", npt)) return (false); set_scope6(attrs->ifa_address, attrs->ifa_index); set_scope6(attrs->ifa_local, attrs->ifa_index); return (true); } NL_DECLARE_PARSER_EXT(ifa_parser, struct ifaddrmsg, NULL, nlf_p_ifa, nla_p_ifa, post_p_ifa); /* {ifa_family=AF_INET, ifa_prefixlen=8, ifa_flags=IFA_F_PERMANENT, ifa_scope=RT_SCOPE_HOST, ifa_index=if_nametoindex("lo")}, [ {{nla_len=8, nla_type=IFA_ADDRESS}, inet_addr("127.0.0.1")}, {{nla_len=8, nla_type=IFA_LOCAL}, inet_addr("127.0.0.1")}, {{nla_len=7, nla_type=IFA_LABEL}, "lo"}, {{nla_len=8, nla_type=IFA_FLAGS}, IFA_F_PERMANENT}, {{nla_len=20, nla_type=IFA_CACHEINFO}, {ifa_prefered=4294967295, ifa_valid=4294967295, cstamp=3619, tstamp=3619}}]}, --- {{len=72, type=RTM_NEWADDR, flags=NLM_F_MULTI, seq=1642191126, pid=566735}, {ifa_family=AF_INET6, ifa_prefixlen=96, ifa_flags=IFA_F_PERMANENT, ifa_scope=RT_SCOPE_UNIVERSE, ifa_index=if_nametoindex("virbr0")}, [ {{nla_len=20, nla_type=IFA_ADDRESS}, inet_pton(AF_INET6, "2a01:4f8:13a:70c:ffff::1")}, {{nla_len=20, nla_type=IFA_CACHEINFO}, {ifa_prefered=4294967295, ifa_valid=4294967295, cstamp=4283, tstamp=4283}}, {{nla_len=8, nla_type=IFA_FLAGS}, IFA_F_PERMANENT}]}, */ static uint8_t ifa_get_scope(const struct ifaddr *ifa) { const struct sockaddr *sa; uint8_t addr_scope = RT_SCOPE_UNIVERSE; sa = ifa->ifa_addr; switch (sa->sa_family) { #ifdef INET case AF_INET: { struct in_addr addr; addr = ((const struct sockaddr_in *)sa)->sin_addr; if (IN_LOOPBACK(addr.s_addr)) addr_scope = RT_SCOPE_HOST; else if (IN_LINKLOCAL(addr.s_addr)) addr_scope = RT_SCOPE_LINK; break; } #endif #ifdef INET6 case AF_INET6: { const struct in6_addr *addr; addr = &((const struct sockaddr_in6 *)sa)->sin6_addr; if (IN6_IS_ADDR_LOOPBACK(addr)) addr_scope = RT_SCOPE_HOST; else if (IN6_IS_ADDR_LINKLOCAL(addr)) addr_scope = RT_SCOPE_LINK; break; } #endif } return (addr_scope); } #ifdef INET6 static uint8_t inet6_get_plen(const struct in6_addr *addr) { return (bitcount32(addr->s6_addr32[0]) + bitcount32(addr->s6_addr32[1]) + bitcount32(addr->s6_addr32[2]) + bitcount32(addr->s6_addr32[3])); } #endif static uint8_t get_sa_plen(const struct sockaddr *sa) { #ifdef INET const struct in_addr *paddr; #endif #ifdef INET6 const struct in6_addr *paddr6; #endif switch (sa->sa_family) { #ifdef INET case AF_INET: paddr = &(((const struct sockaddr_in *)sa)->sin_addr); return bitcount32(paddr->s_addr); #endif #ifdef INET6 case AF_INET6: paddr6 = &(((const struct sockaddr_in6 *)sa)->sin6_addr); return inet6_get_plen(paddr6); #endif } return (0); } #ifdef INET6 static uint32_t in6_flags_to_nl(uint32_t flags) { uint32_t nl_flags = 0; if (flags & IN6_IFF_TEMPORARY) nl_flags |= IFA_F_TEMPORARY; if (flags & IN6_IFF_NODAD) nl_flags |= IFA_F_NODAD; if (flags & IN6_IFF_DEPRECATED) nl_flags |= IFA_F_DEPRECATED; if (flags & IN6_IFF_TENTATIVE) nl_flags |= IFA_F_TENTATIVE; if ((flags & (IN6_IFF_AUTOCONF|IN6_IFF_TEMPORARY)) == 0) flags |= IFA_F_PERMANENT; if (flags & IN6_IFF_DUPLICATED) flags |= IFA_F_DADFAILED; return (nl_flags); } static uint32_t nl_flags_to_in6(uint32_t flags) { uint32_t in6_flags = 0; if (flags & IFA_F_TEMPORARY) in6_flags |= IN6_IFF_TEMPORARY; if (flags & IFA_F_NODAD) in6_flags |= IN6_IFF_NODAD; if (flags & IFA_F_DEPRECATED) in6_flags |= IN6_IFF_DEPRECATED; if (flags & IFA_F_TENTATIVE) in6_flags |= IN6_IFF_TENTATIVE; if (flags & IFA_F_DADFAILED) in6_flags |= IN6_IFF_DUPLICATED; return (in6_flags); } static void export_cache_info6(struct nl_writer *nw, const struct in6_ifaddr *ia) { struct ifa_cacheinfo ci = { .cstamp = ia->ia6_createtime * 1000, .tstamp = ia->ia6_updatetime * 1000, .ifa_prefered = ia->ia6_lifetime.ia6t_pltime, .ifa_valid = ia->ia6_lifetime.ia6t_vltime, }; nlattr_add(nw, IFA_CACHEINFO, sizeof(ci), &ci); } #endif static void export_cache_info(struct nl_writer *nw, struct ifaddr *ifa) { switch (ifa->ifa_addr->sa_family) { #ifdef INET6 case AF_INET6: export_cache_info6(nw, (struct in6_ifaddr *)ifa); break; #endif } } /* * {'attrs': [('IFA_ADDRESS', '12.0.0.1'), ('IFA_LOCAL', '12.0.0.1'), ('IFA_LABEL', 'eth10'), ('IFA_FLAGS', 128), ('IFA_CACHEINFO', {'ifa_preferred': 4294967295, 'ifa_valid': 4294967295, 'cstamp': 63745746, 'tstamp': 63745746})], */ static bool dump_iface_addr(struct nl_writer *nw, if_t ifp, struct ifaddr *ifa, const struct nlmsghdr *hdr) { struct ifaddrmsg *ifamsg; struct sockaddr *sa = ifa->ifa_addr; struct sockaddr *sa_dst = ifa->ifa_dstaddr; NL_LOG(LOG_DEBUG3, "dumping ifa %p type %s(%d) for interface %s", ifa, rib_print_family(sa->sa_family), sa->sa_family, if_name(ifp)); if (!nlmsg_reply(nw, hdr, sizeof(struct ifaddrmsg))) goto enomem; ifamsg = nlmsg_reserve_object(nw, struct ifaddrmsg); ifamsg->ifa_family = sa->sa_family; ifamsg->ifa_prefixlen = get_sa_plen(ifa->ifa_netmask); ifamsg->ifa_flags = 0; // ifa_flags is useless ifamsg->ifa_scope = ifa_get_scope(ifa); ifamsg->ifa_index = if_getindex(ifp); if ((if_getflags(ifp) & IFF_POINTOPOINT) && sa_dst != NULL && sa_dst->sa_family != 0) { /* P2P interface may have IPv6 LL with no dst address */ dump_sa(nw, IFA_ADDRESS, sa_dst); dump_sa(nw, IFA_LOCAL, sa); } else { dump_sa(nw, IFA_ADDRESS, sa); #ifdef INET /* * In most cases, IFA_ADDRESS == IFA_LOCAL * Skip IFA_LOCAL for anything except INET */ if (sa->sa_family == AF_INET) dump_sa(nw, IFA_LOCAL, sa); #endif } if (if_getflags(ifp) & IFF_BROADCAST) dump_sa(nw, IFA_BROADCAST, ifa->ifa_broadaddr); nlattr_add_string(nw, IFA_LABEL, if_name(ifp)); uint32_t nl_ifa_flags = 0; #ifdef INET6 if (sa->sa_family == AF_INET6) { struct in6_ifaddr *ia = (struct in6_ifaddr *)ifa; nl_ifa_flags = in6_flags_to_nl(ia->ia6_flags); } #endif nlattr_add_u32(nw, IFA_FLAGS, nl_ifa_flags); export_cache_info(nw, ifa); /* Store FreeBSD-specific attributes */ int off = nlattr_add_nested(nw, IFA_FREEBSD); if (off != 0) { if (ifa->ifa_carp != NULL && carp_get_vhid_p != NULL) { uint32_t vhid = (uint32_t)(*carp_get_vhid_p)(ifa); nlattr_add_u32(nw, IFAF_VHID, vhid); } #ifdef INET6 if (sa->sa_family == AF_INET6) { uint32_t ifa_flags = ((struct in6_ifaddr *)ifa)->ia6_flags; nlattr_add_u32(nw, IFAF_FLAGS, ifa_flags); } #endif nlattr_set_len(nw, off); } if (nlmsg_end(nw)) return (true); enomem: NL_LOG(LOG_DEBUG, "Failed to dump ifa type %s(%d) for interface %s", rib_print_family(sa->sa_family), sa->sa_family, if_name(ifp)); nlmsg_abort(nw); return (false); } static int dump_iface_addrs(struct netlink_walkargs *wa, if_t ifp) { struct ifaddr *ifa; struct ifa_iter it; int error = 0; for (ifa = ifa_iter_start(ifp, &it); ifa != NULL; ifa = ifa_iter_next(&it)) { if (wa->family != 0 && wa->family != ifa->ifa_addr->sa_family) continue; if (ifa->ifa_addr->sa_family == AF_LINK) continue; if (prison_if(wa->cred, ifa->ifa_addr) != 0) continue; wa->count++; if (!dump_iface_addr(wa->nw, ifp, ifa, &wa->hdr)) { error = ENOMEM; break; } wa->dumped++; } ifa_iter_finish(&it); return (error); } static int rtnl_handle_getaddr(struct nlmsghdr *hdr, struct nlpcb *nlp, struct nl_pstate *npt) { if_t ifp; int error = 0; struct nl_parsed_ifa attrs = {}; error = nl_parse_nlmsg(hdr, &ifa_parser, npt, &attrs); if (error != 0) return (error); struct netlink_walkargs wa = { .so = nlp, .nw = npt->nw, .cred = nlp_get_cred(nlp), .family = attrs.ifa_family, .hdr.nlmsg_pid = hdr->nlmsg_pid, .hdr.nlmsg_seq = hdr->nlmsg_seq, .hdr.nlmsg_flags = hdr->nlmsg_flags | NLM_F_MULTI, .hdr.nlmsg_type = NL_RTM_NEWADDR, }; NL_LOG(LOG_DEBUG2, "Start dump"); if (attrs.ifa_index != 0) { ifp = ifnet_byindex(attrs.ifa_index); if (ifp == NULL) error = ENOENT; else error = dump_iface_addrs(&wa, ifp); } else { struct if_iter it; for (ifp = if_iter_start(&it); ifp != NULL; ifp = if_iter_next(&it)) { error = dump_iface_addrs(&wa, ifp); if (error != 0) break; } if_iter_finish(&it); } NL_LOG(LOG_DEBUG2, "End dump, iterated %d dumped %d", wa.count, wa.dumped); if (!nlmsg_end_dump(wa.nw, error, &wa.hdr)) { NL_LOG(LOG_DEBUG, "Unable to finalize the dump"); return (ENOMEM); } return (error); } #ifdef INET static int handle_newaddr_inet(struct nlmsghdr *hdr, struct nl_parsed_ifa *attrs, if_t ifp, struct nlpcb *nlp, struct nl_pstate *npt) { int plen = attrs->ifa_prefixlen; int if_flags = if_getflags(ifp); struct sockaddr_in *addr, *dst; if (plen > 32) { nlmsg_report_err_msg(npt, "invalid ifa_prefixlen"); return (EINVAL); }; if (if_flags & IFF_POINTOPOINT) { /* * Only P2P IFAs are allowed by the implementation. */ if (attrs->ifa_address == NULL || attrs->ifa_local == NULL) { nlmsg_report_err_msg(npt, "Empty IFA_LOCAL/IFA_ADDRESS"); return (EINVAL); } addr = (struct sockaddr_in *)attrs->ifa_local; dst = (struct sockaddr_in *)attrs->ifa_address; } else { /* * Map the Netlink attributes to FreeBSD ifa layout. * If only IFA_ADDRESS or IFA_LOCAL is set OR * both are set to the same value => ifa is not p2p * and the attribute value contains interface address. * * Otherwise (both IFA_ADDRESS and IFA_LOCAL are set and * different), IFA_LOCAL contains an interface address and * IFA_ADDRESS contains peer address. */ addr = (struct sockaddr_in *)attrs->ifa_local; if (addr == NULL) addr = (struct sockaddr_in *)attrs->ifa_address; if (addr == NULL) { nlmsg_report_err_msg(npt, "Empty IFA_LOCAL/IFA_ADDRESS"); return (EINVAL); } /* Generate broadcast address if not set */ if ((if_flags & IFF_BROADCAST) && attrs->ifa_broadcast == NULL) { uint32_t s_baddr; struct sockaddr_in *sin_brd; if (plen == 31) s_baddr = INADDR_BROADCAST; /* RFC 3021 */ else { uint32_t s_mask; s_mask = htonl(plen ? ~((1 << (32 - plen)) - 1) : 0); s_baddr = addr->sin_addr.s_addr | ~s_mask; } sin_brd = (struct sockaddr_in *)npt_alloc(npt, sizeof(*sin_brd)); if (sin_brd == NULL) return (ENOMEM); sin_brd->sin_family = AF_INET; sin_brd->sin_len = sizeof(*sin_brd); sin_brd->sin_addr.s_addr = s_baddr; attrs->ifa_broadcast = (struct sockaddr *)sin_brd; } dst = (struct sockaddr_in *)attrs->ifa_broadcast; } struct sockaddr_in mask = { .sin_len = sizeof(struct sockaddr_in), .sin_family = AF_INET, .sin_addr.s_addr = htonl(plen ? ~((1 << (32 - plen)) - 1) : 0), }; struct in_aliasreq req = { .ifra_addr = *addr, .ifra_mask = mask, .ifra_vhid = attrs->ifaf_vhid, }; if (dst != NULL) req.ifra_dstaddr = *dst; return (in_control_ioctl(SIOCAIFADDR, &req, ifp, nlp_get_cred(nlp))); } static int handle_deladdr_inet(struct nlmsghdr *hdr, struct nl_parsed_ifa *attrs, if_t ifp, struct nlpcb *nlp, struct nl_pstate *npt) { struct sockaddr *addr = attrs->ifa_local; if (addr == NULL) addr = attrs->ifa_address; if (addr == NULL) { nlmsg_report_err_msg(npt, "empty IFA_ADDRESS/IFA_LOCAL"); return (EINVAL); } struct ifreq req = { .ifr_addr = *addr }; return (in_control_ioctl(SIOCDIFADDR, &req, ifp, nlp_get_cred(nlp))); } #endif #ifdef INET6 static int handle_newaddr_inet6(struct nlmsghdr *hdr, struct nl_parsed_ifa *attrs, if_t ifp, struct nlpcb *nlp, struct nl_pstate *npt) { struct sockaddr_in6 *addr, *dst; if (attrs->ifa_prefixlen > 128) { nlmsg_report_err_msg(npt, "invalid ifa_prefixlen"); return (EINVAL); } /* * In IPv6 implementation, adding non-P2P address to the P2P interface * is allowed. */ addr = (struct sockaddr_in6 *)(attrs->ifa_local); dst = (struct sockaddr_in6 *)(attrs->ifa_address); if (addr == NULL) { addr = dst; dst = NULL; } else if (dst != NULL) { if (IN6_ARE_ADDR_EQUAL(&addr->sin6_addr, &dst->sin6_addr)) { /* * Sometimes Netlink users fills in both attributes * with the same address. It still means "non-p2p". */ dst = NULL; } } if (addr == NULL) { nlmsg_report_err_msg(npt, "Empty IFA_LOCAL/IFA_ADDRESS"); return (EINVAL); } uint32_t flags = nl_flags_to_in6(attrs->ifa_flags) | attrs->ifaf_flags; uint32_t pltime = 0, vltime = 0; if (attrs->ifa_cacheinfo != 0) { pltime = attrs->ifa_cacheinfo->ifa_prefered; vltime = attrs->ifa_cacheinfo->ifa_valid; } struct sockaddr_in6 mask = { .sin6_len = sizeof(struct sockaddr_in6), .sin6_family = AF_INET6, }; ip6_writemask(&mask.sin6_addr, attrs->ifa_prefixlen); struct in6_aliasreq req = { .ifra_addr = *addr, .ifra_prefixmask = mask, .ifra_flags = flags, .ifra_lifetime = { .ia6t_vltime = vltime, .ia6t_pltime = pltime }, .ifra_vhid = attrs->ifaf_vhid, }; if (dst != NULL) req.ifra_dstaddr = *dst; return (in6_control_ioctl(SIOCAIFADDR_IN6, &req, ifp, nlp_get_cred(nlp))); } static int handle_deladdr_inet6(struct nlmsghdr *hdr, struct nl_parsed_ifa *attrs, if_t ifp, struct nlpcb *nlp, struct nl_pstate *npt) { struct sockaddr_in6 *addr = (struct sockaddr_in6 *)attrs->ifa_local; if (addr == NULL) addr = (struct sockaddr_in6 *)(attrs->ifa_address); if (addr == NULL) { nlmsg_report_err_msg(npt, "Empty IFA_LOCAL/IFA_ADDRESS"); return (EINVAL); } struct in6_ifreq req = { .ifr_addr = *addr }; return (in6_control_ioctl(SIOCDIFADDR_IN6, &req, ifp, nlp_get_cred(nlp))); } #endif static int rtnl_handle_addr(struct nlmsghdr *hdr, struct nlpcb *nlp, struct nl_pstate *npt) { struct epoch_tracker et; int error; struct nl_parsed_ifa attrs = {}; error = nl_parse_nlmsg(hdr, &ifa_parser, npt, &attrs); if (error != 0) return (error); NET_EPOCH_ENTER(et); if_t ifp = ifnet_byindex_ref(attrs.ifa_index); NET_EPOCH_EXIT(et); if (ifp == NULL) { nlmsg_report_err_msg(npt, "Unable to find interface with index %u", attrs.ifa_index); return (ENOENT); } int if_flags = if_getflags(ifp); #if defined(INET) || defined(INET6) bool new = hdr->nlmsg_type == NL_RTM_NEWADDR; #endif /* * TODO: Properly handle NLM_F_CREATE / NLM_F_EXCL. * The current ioctl-based KPI always does an implicit create-or-replace. * It is not possible to specify fine-grained options. */ switch (attrs.ifa_family) { #ifdef INET case AF_INET: if (new) error = handle_newaddr_inet(hdr, &attrs, ifp, nlp, npt); else error = handle_deladdr_inet(hdr, &attrs, ifp, nlp, npt); break; #endif #ifdef INET6 case AF_INET6: if (new) error = handle_newaddr_inet6(hdr, &attrs, ifp, nlp, npt); else error = handle_deladdr_inet6(hdr, &attrs, ifp, nlp, npt); break; #endif default: error = EAFNOSUPPORT; } if (error == 0 && !(if_flags & IFF_UP) && (if_getflags(ifp) & IFF_UP)) if_up(ifp); if_rele(ifp); return (error); } static void rtnl_handle_ifaddr(void *arg __unused, struct ifaddr *ifa, int cmd) { struct nlmsghdr hdr = {}; struct nl_writer nw = {}; uint32_t group = 0; switch (ifa->ifa_addr->sa_family) { #ifdef INET case AF_INET: group = RTNLGRP_IPV4_IFADDR; break; #endif #ifdef INET6 case AF_INET6: group = RTNLGRP_IPV6_IFADDR; break; #endif default: NL_LOG(LOG_DEBUG2, "ifa notification for unknown AF: %d", ifa->ifa_addr->sa_family); return; } if (!nl_has_listeners(NETLINK_ROUTE, group)) return; if (!nlmsg_get_group_writer(&nw, NLMSG_LARGE, NETLINK_ROUTE, group)) { NL_LOG(LOG_DEBUG, "error allocating group writer"); return; } hdr.nlmsg_type = (cmd == RTM_DELETE) ? NL_RTM_DELADDR : NL_RTM_NEWADDR; dump_iface_addr(&nw, ifa->ifa_ifp, ifa, &hdr); nlmsg_flush(&nw); } static void rtnl_handle_ifevent(if_t ifp, int nlmsg_type, int if_flags_mask) { struct nlmsghdr hdr = { .nlmsg_type = nlmsg_type }; struct nl_writer nw = {}; if (!nl_has_listeners(NETLINK_ROUTE, RTNLGRP_LINK)) return; if (!nlmsg_get_group_writer(&nw, NLMSG_LARGE, NETLINK_ROUTE, RTNLGRP_LINK)) { NL_LOG(LOG_DEBUG, "error allocating mbuf"); return; } dump_iface(&nw, ifp, &hdr, if_flags_mask); nlmsg_flush(&nw); } static void rtnl_handle_ifattach(void *arg, if_t ifp) { NL_LOG(LOG_DEBUG2, "ifnet %s", if_name(ifp)); rtnl_handle_ifevent(ifp, NL_RTM_NEWLINK, 0); } static void rtnl_handle_ifdetach(void *arg, if_t ifp) { NL_LOG(LOG_DEBUG2, "ifnet %s", if_name(ifp)); rtnl_handle_ifevent(ifp, NL_RTM_DELLINK, 0); } static void rtnl_handle_iflink(void *arg, if_t ifp) { NL_LOG(LOG_DEBUG2, "ifnet %s", if_name(ifp)); rtnl_handle_ifevent(ifp, NL_RTM_NEWLINK, 0); } void rtnl_handle_ifnet_event(if_t ifp, int if_flags_mask) { NL_LOG(LOG_DEBUG2, "ifnet %s", if_name(ifp)); rtnl_handle_ifevent(ifp, NL_RTM_NEWLINK, if_flags_mask); } static const struct rtnl_cmd_handler cmd_handlers[] = { { .cmd = NL_RTM_GETLINK, .name = "RTM_GETLINK", .cb = &rtnl_handle_getlink, .flags = RTNL_F_NOEPOCH | RTNL_F_ALLOW_NONVNET_JAIL, }, { .cmd = NL_RTM_DELLINK, .name = "RTM_DELLINK", .cb = &rtnl_handle_dellink, .priv = PRIV_NET_IFDESTROY, .flags = RTNL_F_NOEPOCH, }, { .cmd = NL_RTM_NEWLINK, .name = "RTM_NEWLINK", .cb = &rtnl_handle_newlink, .priv = PRIV_NET_IFCREATE, .flags = RTNL_F_NOEPOCH, }, { .cmd = NL_RTM_GETADDR, .name = "RTM_GETADDR", .cb = &rtnl_handle_getaddr, .flags = RTNL_F_ALLOW_NONVNET_JAIL, }, { .cmd = NL_RTM_NEWADDR, .name = "RTM_NEWADDR", .cb = &rtnl_handle_addr, .priv = PRIV_NET_ADDIFADDR, .flags = RTNL_F_NOEPOCH, }, { .cmd = NL_RTM_DELADDR, .name = "RTM_DELADDR", .cb = &rtnl_handle_addr, .priv = PRIV_NET_DELIFADDR, .flags = RTNL_F_NOEPOCH, }, }; static const struct nlhdr_parser *all_parsers[] = { &ifmsg_parser, &ifa_parser, &ifa_fbsd_parser, }; void rtnl_iface_add_cloner(struct nl_cloner *cloner) { sx_xlock(&rtnl_cloner_lock); SLIST_INSERT_HEAD(&nl_cloners, cloner, next); sx_xunlock(&rtnl_cloner_lock); } void rtnl_iface_del_cloner(struct nl_cloner *cloner) { sx_xlock(&rtnl_cloner_lock); SLIST_REMOVE(&nl_cloners, cloner, nl_cloner, next); sx_xunlock(&rtnl_cloner_lock); } void rtnl_ifaces_init(void) { ifattach_event = EVENTHANDLER_REGISTER( ifnet_arrival_event, rtnl_handle_ifattach, NULL, EVENTHANDLER_PRI_ANY); ifdetach_event = EVENTHANDLER_REGISTER( ifnet_departure_event, rtnl_handle_ifdetach, NULL, EVENTHANDLER_PRI_ANY); ifaddr_event = EVENTHANDLER_REGISTER( rt_addrmsg, rtnl_handle_ifaddr, NULL, EVENTHANDLER_PRI_ANY); iflink_event = EVENTHANDLER_REGISTER( ifnet_link_event, rtnl_handle_iflink, NULL, EVENTHANDLER_PRI_ANY); NL_VERIFY_PARSERS(all_parsers); rtnl_register_messages(cmd_handlers, NL_ARRAY_LEN(cmd_handlers)); } void rtnl_ifaces_destroy(void) { EVENTHANDLER_DEREGISTER(ifnet_arrival_event, ifattach_event); EVENTHANDLER_DEREGISTER(ifnet_departure_event, ifdetach_event); EVENTHANDLER_DEREGISTER(rt_addrmsg, ifaddr_event); EVENTHANDLER_DEREGISTER(ifnet_link_event, iflink_event); }