/*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * 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 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "ifconfig.h" #include "ifconfig_netlink.h" static const char *IFFBITS[] = { "UP", /* 00:0x1 IFF_UP*/ "BROADCAST", /* 01:0x2 IFF_BROADCAST*/ "DEBUG", /* 02:0x4 IFF_DEBUG*/ "LOOPBACK", /* 03:0x8 IFF_LOOPBACK*/ "POINTOPOINT", /* 04:0x10 IFF_POINTOPOINT*/ "NEEDSEPOCH", /* 05:0x20 IFF_NEEDSEPOCH*/ "RUNNING", /* 06:0x40 IFF_DRV_RUNNING*/ "NOARP", /* 07:0x80 IFF_NOARP*/ "PROMISC", /* 08:0x100 IFF_PROMISC*/ "ALLMULTI", /* 09:0x200 IFF_ALLMULTI*/ "DRV_OACTIVE", /* 10:0x400 IFF_DRV_OACTIVE*/ "SIMPLEX", /* 11:0x800 IFF_SIMPLEX*/ "LINK0", /* 12:0x1000 IFF_LINK0*/ "LINK1", /* 13:0x2000 IFF_LINK1*/ "LINK2", /* 14:0x4000 IFF_LINK2*/ "MULTICAST", /* 15:0x8000 IFF_MULTICAST*/ "CANTCONFIG", /* 16:0x10000 IFF_CANTCONFIG*/ "PPROMISC", /* 17:0x20000 IFF_PPROMISC*/ "MONITOR", /* 18:0x40000 IFF_MONITOR*/ "STATICARP", /* 19:0x80000 IFF_STATICARP*/ "STICKYARP", /* 20:0x100000 IFF_STICKYARP*/ "DYING", /* 21:0x200000 IFF_DYING*/ "RENAMING", /* 22:0x400000 IFF_RENAMING*/ "NOGROUP", /* 23:0x800000 IFF_NOGROUP*/ "LOWER_UP", /* 24:0x1000000 IFF_NETLINK_1*/ }; static void print_bits(const char *btype, uint32_t *v, const int v_count, const char **names, const int n_count) { int num = 0; for (int i = 0; i < v_count * 32; i++) { bool is_set = v[i / 32] & (1U << (i % 32)); if (is_set) { if (num++ == 0) printf("<"); if (num != 1) printf(","); if (i < n_count) printf("%s", names[i]); else printf("%s_%d", btype, i); } } if (num > 0) printf(">"); } static void nl_init_socket(struct snl_state *ss) { if (snl_init(ss, NETLINK_ROUTE)) return; if (modfind("netlink") == -1 && errno == ENOENT) { /* Try to load */ if (kldload("netlink") == -1) err(1, "netlink is not loaded and load attempt failed"); if (snl_init(ss, NETLINK_ROUTE)) return; } err(1, "unable to open netlink socket"); } int ifconfig_nl(if_ctx *ctx, int iscreate, const struct afswtch *uafp) { struct snl_state ss = {}; nl_init_socket(&ss); ctx->io_ss = &ss; int error = ifconfig_ioctl(ctx, iscreate, uafp); snl_free(&ss); ctx->io_ss = NULL; return (error); } struct ifa { struct ifa *next; uint32_t idx; struct snl_parsed_addr addr; }; struct iface { struct snl_parsed_link link; struct ifa *ifa; uint32_t ifa_count; uint32_t idx; }; struct ifmap { uint32_t size; uint32_t count; struct iface **ifaces; }; /* * Returns ifmap ifindex->snl_parsed_link. * Memory is allocated using snl temporary buffers */ static struct ifmap * prepare_ifmap(struct snl_state *ss) { struct snl_writer nw = {}; snl_init_writer(ss, &nw); struct nlmsghdr *hdr = snl_create_msg_request(&nw, RTM_GETLINK); hdr->nlmsg_flags |= NLM_F_DUMP; snl_reserve_msg_object(&nw, struct ifinfomsg); if (!snl_finalize_msg(&nw) || !snl_send_message(ss, hdr)) return (NULL); uint32_t nlmsg_seq = hdr->nlmsg_seq; struct ifmap *ifmap = snl_allocz(ss, sizeof(*ifmap)); struct snl_errmsg_data e = {}; while ((hdr = snl_read_reply_multi(ss, nlmsg_seq, &e)) != NULL) { struct iface *iface = snl_allocz(ss, sizeof(*iface)); if (!snl_parse_nlmsg(ss, hdr, &snl_rtm_link_parser, &iface->link)) continue; if (iface->link.ifi_index >= ifmap->size) { size_t new_size = MAX(ifmap->size, 32); while (new_size <= iface->link.ifi_index + 1) new_size *= 2; struct iface **ifaces= snl_allocz(ss, new_size * sizeof(void *)); memcpy(ifaces, ifmap->ifaces, ifmap->size * sizeof(void *)); ifmap->ifaces = ifaces; ifmap->size = new_size; } ifmap->ifaces[iface->link.ifi_index] = iface; ifmap->count++; iface->idx = ifmap->count; } return (ifmap); } uint32_t if_nametoindex_nl(struct snl_state *ss, const char *ifname) { struct snl_writer nw = {}; struct snl_parsed_link_simple link = {}; snl_init_writer(ss, &nw); struct nlmsghdr *hdr = snl_create_msg_request(&nw, RTM_GETLINK); snl_reserve_msg_object(&nw, struct ifinfomsg); snl_add_msg_attr_string(&nw, IFLA_IFNAME, ifname); if (!snl_finalize_msg(&nw) || !snl_send_message(ss, hdr)) return (0); hdr = snl_read_reply(ss, hdr->nlmsg_seq); if (hdr->nlmsg_type != NL_RTM_NEWLINK) return (0); if (!snl_parse_nlmsg(ss, hdr, &snl_rtm_link_parser_simple, &link)) return (0); return (link.ifi_index); } ifType convert_iftype(ifType iftype) { switch (iftype) { case IFT_IEEE8023ADLAG: return (IFT_ETHER); case IFT_INFINIBANDLAG: return (IFT_INFINIBAND); default: return (iftype); } } static void prepare_ifaddrs(struct snl_state *ss, struct ifmap *ifmap) { struct snl_writer nw = {}; snl_init_writer(ss, &nw); struct nlmsghdr *hdr = snl_create_msg_request(&nw, RTM_GETADDR); hdr->nlmsg_flags |= NLM_F_DUMP; snl_reserve_msg_object(&nw, struct ifaddrmsg); if (!snl_finalize_msg(&nw) || !snl_send_message(ss, hdr)) return; uint32_t nlmsg_seq = hdr->nlmsg_seq; struct snl_errmsg_data e = {}; uint32_t count = 0; while ((hdr = snl_read_reply_multi(ss, nlmsg_seq, &e)) != NULL) { struct ifa *ifa = snl_allocz(ss, sizeof(*ifa)); if (!snl_parse_nlmsg(ss, hdr, &snl_rtm_addr_parser, &ifa->addr)) continue; const uint32_t ifindex = ifa->addr.ifa_index; if (ifindex >= ifmap->size || ifmap->ifaces[ifindex] == NULL) continue; struct iface *iface = ifmap->ifaces[ifindex]; ifa->next = iface->ifa; ifa->idx = ++count; iface->ifa = ifa; iface->ifa_count++; } } static bool match_iface(struct ifconfig_args *args, struct iface *iface) { if_link_t *link = &iface->link; if (args->ifname != NULL && strcmp(args->ifname, link->ifla_ifname)) return (false); if (!match_if_flags(args, link->ifi_flags)) return (false); if (!group_member(link->ifla_ifname, args->matchgroup, args->nogroup)) return (false); if (args->afp == NULL) return (true); if (!strcmp(args->afp->af_name, "ether")) { if (link->ifla_address == NULL) return (false); struct sockaddr_dl sdl = { .sdl_len = sizeof(struct sockaddr_dl), .sdl_family = AF_LINK, .sdl_type = convert_iftype(link->ifi_type), .sdl_alen = NLA_DATA_LEN(link->ifla_address), }; return (match_ether(&sdl)); } else if (args->afp->af_af == AF_LINK) /* * The rtnetlink(4) RTM_GETADDR does not list link level * addresses, so latter cycle won't match anything. Short * circuit on RTM_GETLINK has provided us an address. */ return (link->ifla_address != NULL); for (struct ifa *ifa = iface->ifa; ifa != NULL; ifa = ifa->next) { if (args->afp->af_af == ifa->addr.ifa_family) return (true); } return (false); } /* Sort according to the kernel-provided order */ static int cmp_iface(const void *_a, const void *_b) { const struct iface *a = *((const void * const *)_a); const struct iface *b = *((const void * const *)_b); return ((a->idx > b->idx) * 2 - 1); } static int cmp_ifaddr(const void *_a, const void *_b) { const struct ifa *a = *((const void * const *)_a); const struct ifa *b = *((const void * const *)_b); if (a->addr.ifa_family != b->addr.ifa_family) return ((a->addr.ifa_family > b->addr.ifa_family) * 2 - 1); return ((a->idx > b->idx) * 2 - 1); } static void sort_iface_ifaddrs(struct snl_state *ss, struct iface *iface) { if (iface->ifa_count == 0) return; struct ifa **sorted_ifaddrs = snl_allocz(ss, iface->ifa_count * sizeof(void *)); struct ifa *ifa = iface->ifa; for (uint32_t i = 0; i < iface->ifa_count; i++) { struct ifa *ifa_next = ifa->next; sorted_ifaddrs[i] = ifa; ifa->next = NULL; ifa = ifa_next; } qsort(sorted_ifaddrs, iface->ifa_count, sizeof(void *), cmp_ifaddr); ifa = sorted_ifaddrs[0]; iface->ifa = ifa; for (uint32_t i = 1; i < iface->ifa_count; i++) { ifa->next = sorted_ifaddrs[i]; ifa = sorted_ifaddrs[i]; } } static void print_ifcaps(if_ctx *ctx, if_link_t *link) { uint32_t sz_u32 = roundup2(link->iflaf_caps.nla_bitset_size, 32) / 32; if (sz_u32 > 0) { uint32_t *caps = link->iflaf_caps.nla_bitset_value; printf("\toptions=%x", caps[0]); print_bits("IFCAPS", caps, sz_u32, ifcap_bit_names, nitems(ifcap_bit_names)); putchar('\n'); } if (ctx->args->supmedia && sz_u32 > 0) { uint32_t *caps = link->iflaf_caps.nla_bitset_mask; printf("\tcapabilities=%x", caps[0]); print_bits("IFCAPS", caps, sz_u32, ifcap_bit_names, nitems(ifcap_bit_names)); putchar('\n'); } } static void status_nl(if_ctx *ctx, struct iface *iface) { if_link_t *link = &iface->link; struct ifconfig_args *args = ctx->args; printf("%s: ", link->ifla_ifname); printf("flags=%x", link->ifi_flags); print_bits("IFF", &link->ifi_flags, 1, IFFBITS, nitems(IFFBITS)); print_metric(ctx); printf(" mtu %d\n", link->ifla_mtu); if (link->ifla_ifalias != NULL) printf("\tdescription: %s\n", link->ifla_ifalias); print_ifcaps(ctx, link); tunnel_status(ctx); if (args->allfamilies | (args->afp != NULL && args->afp->af_af == AF_LINK)) { /* Start with link-level */ const struct afswtch *p = af_getbyfamily(AF_LINK); if (p != NULL && link->ifla_address != NULL) p->af_status(ctx, link, NULL); } sort_iface_ifaddrs(ctx->io_ss, iface); for (struct ifa *ifa = iface->ifa; ifa != NULL; ifa = ifa->next) { if (args->allfamilies) { const struct afswtch *p = af_getbyfamily(ifa->addr.ifa_family); if (p != NULL) p->af_status(ctx, link, &ifa->addr); } else if (args->afp->af_af == ifa->addr.ifa_family) { const struct afswtch *p = args->afp; p->af_status(ctx, link, &ifa->addr); } } /* TODO: convert to netlink */ if (args->allfamilies) af_other_status(ctx); else if (args->afp->af_other_status != NULL) args->afp->af_other_status(ctx); print_ifstatus(ctx); if (args->verbose > 0) sfp_status(ctx); } static int get_local_socket(void) { int s = socket(AF_LOCAL, SOCK_DGRAM, 0); if (s < 0) err(1, "socket(family %u,SOCK_DGRAM)", AF_LOCAL); return (s); } void list_interfaces_nl(struct ifconfig_args *args) { struct snl_state ss = {}; struct ifconfig_context _ctx = { .args = args, .io_s = get_local_socket(), .io_ss = &ss, }; struct ifconfig_context *ctx = &_ctx; nl_init_socket(&ss); struct ifmap *ifmap = prepare_ifmap(&ss); struct iface **sorted_ifaces = snl_allocz(&ss, ifmap->count * sizeof(void *)); for (uint32_t i = 0, num = 0; i < ifmap->size; i++) { if (ifmap->ifaces[i] != NULL) { sorted_ifaces[num++] = ifmap->ifaces[i]; if (num == ifmap->count) break; } } qsort(sorted_ifaces, ifmap->count, sizeof(void *), cmp_iface); prepare_ifaddrs(&ss, ifmap); for (uint32_t i = 0, num = 0; i < ifmap->count; i++) { struct iface *iface = sorted_ifaces[i]; if (!match_iface(args, iface)) continue; ctx->ifname = iface->link.ifla_ifname; if (args->namesonly) { if (num++ != 0) printf(" "); fputs(iface->link.ifla_ifname, stdout); } else if (args->argc == 0) status_nl(ctx, iface); else ifconfig_ioctl(ctx, 0, args->afp); } if (args->namesonly) printf("\n"); close(ctx->io_s); snl_free(&ss); }