/* * lib/route/link.c Links (Interfaces) * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation version 2.1 * of the License. * * Copyright (c) 2003-2008 Thomas Graf */ /** * @ingroup rtnl * @defgroup link Links (Interfaces) * @brief * * @par Link Identification * A link can be identified by either its interface index or by its * name. The kernel favours the interface index but falls back to the * interface name if the interface index is lesser-than 0 for kernels * >= 2.6.11. Therefore you can request changes without mapping a * interface name to the corresponding index first. * * @par Changeable Attributes * @anchor link_changeable * - Link layer address * - Link layer broadcast address * - device mapping (ifmap) (>= 2.6.9) * - MTU (>= 2.6.9) * - Transmission queue length (>= 2.6.9) * - Weight (>= 2.6.9) * - Link name (only via access through interface index) (>= 2.6.9) * - Flags (>= 2.6.9) * - IFF_DEBUG * - IFF_NOTRAILERS * - IFF_NOARP * - IFF_DYNAMIC * - IFF_MULTICAST * - IFF_PORTSEL * - IFF_AUTOMEDIA * - IFF_UP * - IFF_PROMISC * - IFF_ALLMULTI * * @par Link Flags (linux/if.h) * @anchor link_flags * @code * IFF_UP Status of link (up|down) * IFF_BROADCAST Indicates this link allows broadcasting * IFF_MULTICAST Indicates this link allows multicasting * IFF_ALLMULTI Indicates this link is doing multicast routing * IFF_DEBUG Tell the driver to do debugging (currently unused) * IFF_LOOPBACK This is the loopback link * IFF_POINTOPOINT Point-to-point link * IFF_NOARP Link is unable to perform ARP * IFF_PROMISC Status of promiscious mode flag * IFF_MASTER Used by teql * IFF_SLAVE Used by teql * IFF_PORTSEL Indicates this link allows port selection * IFF_AUTOMEDIA Indicates this link selects port automatically * IFF_DYNAMIC Indicates the address of this link is dynamic * IFF_RUNNING Link is running and carrier is ok. * IFF_NOTRAILERS Unused, BSD compat. * @endcode * * @par Notes on IFF_PROMISC and IFF_ALLMULTI flags * Although you can query the status of IFF_PROMISC and IFF_ALLMULTI * they do not represent the actual state in the kernel but rather * whether the flag has been enabled/disabled by userspace. The link * may be in promiscious mode even if IFF_PROMISC is not set in a link * dump request response because promiscity might be needed by the driver * for a period of time. * * @note The unit of the transmission queue length depends on the * link type, a common unit is \a packets. * * @par 1) Retrieving information about available links * @code * // The first step is to retrieve a list of all available interfaces within * // the kernel and put them into a cache. * struct nl_cache *cache = rtnl_link_alloc_cache(sk); * * // In a second step, a specific link may be looked up by either interface * // index or interface name. * struct rtnl_link *link = rtnl_link_get_by_name(cache, "lo"); * * // rtnl_link_get_by_name() is the short version for translating the * // interface name to an interface index first like this: * int ifindex = rtnl_link_name2i(cache, "lo"); * struct rtnl_link *link = rtnl_link_get(cache, ifindex); * * // After successful usage, the object must be given back to the cache * rtnl_link_put(link); * @endcode * * @par 2) Changing link attributes * @code * // In order to change any attributes of an existing link, we must allocate * // a new link to hold the change requests: * struct rtnl_link *request = rtnl_link_alloc(); * * // Now we can go on and specify the attributes we want to change: * rtnl_link_set_weight(request, 300); * rtnl_link_set_mtu(request, 1360); * * // We can also shut an interface down administratively * rtnl_link_unset_flags(request, rtnl_link_str2flags("up")); * * // Actually, we should know which link to change, so let's look it up * struct rtnl_link *old = rtnl_link_get(cache, "eth0"); * * // Two ways exist to commit this change request, the first one is to * // build the required netlink message and send it out in one single * // step: * rtnl_link_change(sk, old, request); * * // An alternative way is to build the netlink message and send it * // out yourself using nl_send_auto_complete() * struct nl_msg *msg = rtnl_link_build_change_request(old, request); * nl_send_auto_complete(sk, nlmsg_hdr(msg)); * nlmsg_free(msg); * * // Don't forget to give back the link object ;-> * rtnl_link_put(old); * @endcode * * @par 3) Link Type Specific Attributes * @code * // Some link types offer additional parameters and statistics specific * // to their type. F.e. a VLAN link can be configured like this: * // * // Allocate a new link and set the info type to "vlan". This is required * // to prepare the link to hold vlan specific attributes. * struct rtnl_link *request = rtnl_link_alloc(); * rtnl_link_set_info_type(request, "vlan"); * * // Now vlan specific attributes can be set: * rtnl_link_vlan_set_id(request, 10); * rtnl_link_vlan_set_ingress_map(request, 2, 8); * * // Of course the attributes can also be read, check the info type * // to make sure you are using the right access functions: * char *type = rtnl_link_get_info_type(link); * if (!strcmp(type, "vlan")) * int id = rtnl_link_vlan_get_id(link); * @endcode * @{ */ #include #include #include #include #include #include #include #include /** @cond SKIP */ #define LINK_ATTR_MTU 0x0001 #define LINK_ATTR_LINK 0x0002 #define LINK_ATTR_TXQLEN 0x0004 #define LINK_ATTR_WEIGHT 0x0008 #define LINK_ATTR_MASTER 0x0010 #define LINK_ATTR_QDISC 0x0020 #define LINK_ATTR_MAP 0x0040 #define LINK_ATTR_ADDR 0x0080 #define LINK_ATTR_BRD 0x0100 #define LINK_ATTR_FLAGS 0x0200 #define LINK_ATTR_IFNAME 0x0400 #define LINK_ATTR_IFINDEX 0x0800 #define LINK_ATTR_FAMILY 0x1000 #define LINK_ATTR_ARPTYPE 0x2000 #define LINK_ATTR_STATS 0x4000 #define LINK_ATTR_CHANGE 0x8000 #define LINK_ATTR_OPERSTATE 0x10000 #define LINK_ATTR_LINKMODE 0x20000 #define LINK_ATTR_LINKINFO 0x40000 static struct nl_cache_ops rtnl_link_ops; static struct nl_object_ops link_obj_ops; /** @endcond */ static void release_link_info(struct rtnl_link *link) { struct rtnl_link_info_ops *io = link->l_info_ops; if (io != NULL) { io->io_refcnt--; io->io_free(link); link->l_info_ops = NULL; } } static void link_free_data(struct nl_object *c) { struct rtnl_link *link = nl_object_priv(c); if (link) { struct rtnl_link_info_ops *io; if ((io = link->l_info_ops) != NULL) release_link_info(link); nl_addr_put(link->l_addr); nl_addr_put(link->l_bcast); } } static int link_clone(struct nl_object *_dst, struct nl_object *_src) { struct rtnl_link *dst = nl_object_priv(_dst); struct rtnl_link *src = nl_object_priv(_src); int err; if (src->l_addr) if (!(dst->l_addr = nl_addr_clone(src->l_addr))) return -NLE_NOMEM; if (src->l_bcast) if (!(dst->l_bcast = nl_addr_clone(src->l_bcast))) return -NLE_NOMEM; if (src->l_info_ops && src->l_info_ops->io_clone) { err = src->l_info_ops->io_clone(dst, src); if (err < 0) return err; } return 0; } static struct nla_policy link_policy[IFLA_MAX+1] = { [IFLA_IFNAME] = { .type = NLA_STRING, .maxlen = IFNAMSIZ }, [IFLA_MTU] = { .type = NLA_U32 }, [IFLA_TXQLEN] = { .type = NLA_U32 }, [IFLA_LINK] = { .type = NLA_U32 }, [IFLA_WEIGHT] = { .type = NLA_U32 }, [IFLA_MASTER] = { .type = NLA_U32 }, [IFLA_OPERSTATE]= { .type = NLA_U8 }, [IFLA_LINKMODE] = { .type = NLA_U8 }, [IFLA_LINKINFO] = { .type = NLA_NESTED }, [IFLA_QDISC] = { .type = NLA_STRING, .maxlen = IFQDISCSIZ }, [IFLA_STATS] = { .minlen = sizeof(struct rtnl_link_stats) }, [IFLA_MAP] = { .minlen = sizeof(struct rtnl_link_ifmap) }, }; static struct nla_policy link_info_policy[IFLA_INFO_MAX+1] = { [IFLA_INFO_KIND] = { .type = NLA_STRING }, [IFLA_INFO_DATA] = { .type = NLA_NESTED }, [IFLA_INFO_XSTATS] = { .type = NLA_NESTED }, }; static int link_msg_parser(struct nl_cache_ops *ops, struct sockaddr_nl *who, struct nlmsghdr *n, struct nl_parser_param *pp) { struct rtnl_link *link; struct ifinfomsg *ifi; struct nlattr *tb[IFLA_MAX+1]; int err; link = rtnl_link_alloc(); if (link == NULL) { err = -NLE_NOMEM; goto errout; } link->ce_msgtype = n->nlmsg_type; err = nlmsg_parse(n, sizeof(*ifi), tb, IFLA_MAX, link_policy); if (err < 0) goto errout; if (tb[IFLA_IFNAME] == NULL) { err = -NLE_MISSING_ATTR; goto errout; } nla_strlcpy(link->l_name, tb[IFLA_IFNAME], IFNAMSIZ); ifi = nlmsg_data(n); link->l_family = ifi->ifi_family; link->l_arptype = ifi->ifi_type; link->l_index = ifi->ifi_index; link->l_flags = ifi->ifi_flags; link->l_change = ifi->ifi_change; link->ce_mask = (LINK_ATTR_IFNAME | LINK_ATTR_FAMILY | LINK_ATTR_ARPTYPE| LINK_ATTR_IFINDEX | LINK_ATTR_FLAGS | LINK_ATTR_CHANGE); if (tb[IFLA_STATS]) { struct rtnl_link_stats *st = nla_data(tb[IFLA_STATS]); link->l_stats[RTNL_LINK_RX_PACKETS] = st->rx_packets; link->l_stats[RTNL_LINK_RX_BYTES] = st->rx_bytes; link->l_stats[RTNL_LINK_RX_ERRORS] = st->rx_errors; link->l_stats[RTNL_LINK_RX_DROPPED] = st->rx_dropped; link->l_stats[RTNL_LINK_RX_COMPRESSED] = st->rx_compressed; link->l_stats[RTNL_LINK_RX_FIFO_ERR] = st->rx_fifo_errors; link->l_stats[RTNL_LINK_TX_PACKETS] = st->tx_packets; link->l_stats[RTNL_LINK_TX_BYTES] = st->tx_bytes; link->l_stats[RTNL_LINK_TX_ERRORS] = st->tx_errors; link->l_stats[RTNL_LINK_TX_DROPPED] = st->tx_dropped; link->l_stats[RTNL_LINK_TX_COMPRESSED] = st->tx_compressed; link->l_stats[RTNL_LINK_TX_FIFO_ERR] = st->tx_fifo_errors; link->l_stats[RTNL_LINK_RX_LEN_ERR] = st->rx_length_errors; link->l_stats[RTNL_LINK_RX_OVER_ERR] = st->rx_over_errors; link->l_stats[RTNL_LINK_RX_CRC_ERR] = st->rx_crc_errors; link->l_stats[RTNL_LINK_RX_FRAME_ERR] = st->rx_frame_errors; link->l_stats[RTNL_LINK_RX_MISSED_ERR] = st->rx_missed_errors; link->l_stats[RTNL_LINK_TX_ABORT_ERR] = st->tx_aborted_errors; link->l_stats[RTNL_LINK_TX_CARRIER_ERR] = st->tx_carrier_errors; link->l_stats[RTNL_LINK_TX_HBEAT_ERR] = st->tx_heartbeat_errors; link->l_stats[RTNL_LINK_TX_WIN_ERR] = st->tx_window_errors; link->l_stats[RTNL_LINK_MULTICAST] = st->multicast; link->ce_mask |= LINK_ATTR_STATS; } if (tb[IFLA_TXQLEN]) { link->l_txqlen = nla_get_u32(tb[IFLA_TXQLEN]); link->ce_mask |= LINK_ATTR_TXQLEN; } if (tb[IFLA_MTU]) { link->l_mtu = nla_get_u32(tb[IFLA_MTU]); link->ce_mask |= LINK_ATTR_MTU; } if (tb[IFLA_ADDRESS]) { link->l_addr = nl_addr_alloc_attr(tb[IFLA_ADDRESS], AF_UNSPEC); if (link->l_addr == NULL) { err = -NLE_NOMEM; goto errout; } nl_addr_set_family(link->l_addr, nl_addr_guess_family(link->l_addr)); link->ce_mask |= LINK_ATTR_ADDR; } if (tb[IFLA_BROADCAST]) { link->l_bcast = nl_addr_alloc_attr(tb[IFLA_BROADCAST], AF_UNSPEC); if (link->l_bcast == NULL) { err = -NLE_NOMEM; goto errout; } nl_addr_set_family(link->l_bcast, nl_addr_guess_family(link->l_bcast)); link->ce_mask |= LINK_ATTR_BRD; } if (tb[IFLA_LINK]) { link->l_link = nla_get_u32(tb[IFLA_LINK]); link->ce_mask |= LINK_ATTR_LINK; } if (tb[IFLA_WEIGHT]) { link->l_weight = nla_get_u32(tb[IFLA_WEIGHT]); link->ce_mask |= LINK_ATTR_WEIGHT; } if (tb[IFLA_QDISC]) { nla_strlcpy(link->l_qdisc, tb[IFLA_QDISC], IFQDISCSIZ); link->ce_mask |= LINK_ATTR_QDISC; } if (tb[IFLA_MAP]) { nla_memcpy(&link->l_map, tb[IFLA_MAP], sizeof(struct rtnl_link_ifmap)); link->ce_mask |= LINK_ATTR_MAP; } if (tb[IFLA_MASTER]) { link->l_master = nla_get_u32(tb[IFLA_MASTER]); link->ce_mask |= LINK_ATTR_MASTER; } if (tb[IFLA_OPERSTATE]) { link->l_operstate = nla_get_u8(tb[IFLA_OPERSTATE]); link->ce_mask |= LINK_ATTR_OPERSTATE; } if (tb[IFLA_LINKMODE]) { link->l_linkmode = nla_get_u8(tb[IFLA_LINKMODE]); link->ce_mask |= LINK_ATTR_LINKMODE; } if (tb[IFLA_LINKINFO]) { struct nlattr *li[IFLA_INFO_MAX+1]; err = nla_parse_nested(li, IFLA_INFO_MAX, tb[IFLA_LINKINFO], link_info_policy); if (err < 0) goto errout; if (li[IFLA_INFO_KIND] && (li[IFLA_INFO_DATA] || li[IFLA_INFO_XSTATS])) { struct rtnl_link_info_ops *ops; char *kind; kind = nla_get_string(li[IFLA_INFO_KIND]); ops = rtnl_link_info_ops_lookup(kind); if (ops != NULL) { ops->io_refcnt++; link->l_info_ops = ops; err = ops->io_parse(link, li[IFLA_INFO_DATA], li[IFLA_INFO_XSTATS]); if (err < 0) goto errout; } else { /* XXX: Warn about unparsed info? */ } } } err = pp->pp_cb((struct nl_object *) link, pp); errout: rtnl_link_put(link); return err; } static int link_request_update(struct nl_cache *cache, struct nl_sock *sk) { return nl_rtgen_request(sk, RTM_GETLINK, AF_UNSPEC, NLM_F_DUMP); } static void link_dump_line(struct nl_object *obj, struct nl_dump_params *p) { char buf[128]; struct nl_cache *cache = dp_cache(obj); struct rtnl_link *link = (struct rtnl_link *) obj; nl_dump_line(p, "%s %s ", link->l_name, nl_llproto2str(link->l_arptype, buf, sizeof(buf))); if (link->l_addr && !nl_addr_iszero(link->l_addr)) nl_dump(p, "%s ", nl_addr2str(link->l_addr, buf, sizeof(buf))); if (link->ce_mask & LINK_ATTR_MASTER) { struct rtnl_link *master = rtnl_link_get(cache, link->l_master); nl_dump(p, "master %s ", master ? master->l_name : "inv"); if (master) rtnl_link_put(master); } rtnl_link_flags2str(link->l_flags, buf, sizeof(buf)); if (buf[0]) nl_dump(p, "<%s> ", buf); if (link->ce_mask & LINK_ATTR_LINK) { struct rtnl_link *ll = rtnl_link_get(cache, link->l_link); nl_dump(p, "slave-of %s ", ll ? ll->l_name : "NONE"); if (ll) rtnl_link_put(ll); } if (link->l_info_ops && link->l_info_ops->io_dump[NL_DUMP_LINE]) link->l_info_ops->io_dump[NL_DUMP_LINE](link, p); nl_dump(p, "\n"); } static void link_dump_details(struct nl_object *obj, struct nl_dump_params *p) { struct rtnl_link *link = (struct rtnl_link *) obj; char buf[64]; link_dump_line(obj, p); nl_dump_line(p, " mtu %u ", link->l_mtu); nl_dump(p, "txqlen %u weight %u ", link->l_txqlen, link->l_weight); if (link->ce_mask & LINK_ATTR_QDISC) nl_dump(p, "qdisc %s ", link->l_qdisc); if (link->ce_mask & LINK_ATTR_MAP && link->l_map.lm_irq) nl_dump(p, "irq %u ", link->l_map.lm_irq); if (link->ce_mask & LINK_ATTR_IFINDEX) nl_dump(p, "index %u ", link->l_index); nl_dump(p, "\n"); nl_dump_line(p, " "); if (link->ce_mask & LINK_ATTR_BRD) nl_dump(p, "brd %s ", nl_addr2str(link->l_bcast, buf, sizeof(buf))); if ((link->ce_mask & LINK_ATTR_OPERSTATE) && link->l_operstate != IF_OPER_UNKNOWN) { rtnl_link_operstate2str(link->l_operstate, buf, sizeof(buf)); nl_dump(p, "state %s ", buf); } nl_dump(p, "mode %s\n", rtnl_link_mode2str(link->l_linkmode, buf, sizeof(buf))); if (link->l_info_ops && link->l_info_ops->io_dump[NL_DUMP_DETAILS]) link->l_info_ops->io_dump[NL_DUMP_DETAILS](link, p); } static void link_dump_stats(struct nl_object *obj, struct nl_dump_params *p) { struct rtnl_link *link = (struct rtnl_link *) obj; char *unit, fmt[64]; float res; link_dump_details(obj, p); nl_dump_line(p, " Stats: bytes packets errors " " dropped fifo-err compressed\n"); res = nl_cancel_down_bytes(link->l_stats[RTNL_LINK_RX_BYTES], &unit); strcpy(fmt, " RX %X.2f %s %10llu %10llu %10llu %10llu %10llu\n"); fmt[9] = *unit == 'B' ? '9' : '7'; nl_dump_line(p, fmt, res, unit, link->l_stats[RTNL_LINK_RX_PACKETS], link->l_stats[RTNL_LINK_RX_ERRORS], link->l_stats[RTNL_LINK_RX_DROPPED], link->l_stats[RTNL_LINK_RX_FIFO_ERR], link->l_stats[RTNL_LINK_RX_COMPRESSED]); res = nl_cancel_down_bytes(link->l_stats[RTNL_LINK_TX_BYTES], &unit); strcpy(fmt, " TX %X.2f %s %10llu %10llu %10llu %10llu %10llu\n"); fmt[9] = *unit == 'B' ? '9' : '7'; nl_dump_line(p, fmt, res, unit, link->l_stats[RTNL_LINK_TX_PACKETS], link->l_stats[RTNL_LINK_TX_ERRORS], link->l_stats[RTNL_LINK_TX_DROPPED], link->l_stats[RTNL_LINK_TX_FIFO_ERR], link->l_stats[RTNL_LINK_TX_COMPRESSED]); nl_dump_line(p, " Errors: length over crc " " frame missed multicast\n"); nl_dump_line(p, " RX %10" PRIu64 " %10" PRIu64 " %10" PRIu64 " %10" PRIu64 " %10" PRIu64 " %10" PRIu64 "\n", link->l_stats[RTNL_LINK_RX_LEN_ERR], link->l_stats[RTNL_LINK_RX_OVER_ERR], link->l_stats[RTNL_LINK_RX_CRC_ERR], link->l_stats[RTNL_LINK_RX_FRAME_ERR], link->l_stats[RTNL_LINK_RX_MISSED_ERR], link->l_stats[RTNL_LINK_MULTICAST]); nl_dump_line(p, " aborted carrier heartbeat " " window collision\n"); nl_dump_line(p, " TX %10" PRIu64 " %10" PRIu64 " %10" PRIu64 " %10" PRIu64 " %10" PRIu64 "\n", link->l_stats[RTNL_LINK_TX_ABORT_ERR], link->l_stats[RTNL_LINK_TX_CARRIER_ERR], link->l_stats[RTNL_LINK_TX_HBEAT_ERR], link->l_stats[RTNL_LINK_TX_WIN_ERR], link->l_stats[RTNL_LINK_TX_COLLISIONS]); if (link->l_info_ops && link->l_info_ops->io_dump[NL_DUMP_STATS]) link->l_info_ops->io_dump[NL_DUMP_STATS](link, p); } static void link_dump_xml(struct nl_object *obj, struct nl_dump_params *p) { struct rtnl_link *link = (struct rtnl_link *) obj; struct nl_cache *cache = dp_cache(obj); char buf[128]; int i; nl_dump_line(p, "\n", link->l_name, link->l_index); nl_dump_line(p, " %s\n", nl_af2str(link->l_family, buf, sizeof(buf))); nl_dump_line(p, " %s\n", nl_llproto2str(link->l_arptype, buf, sizeof(buf))); nl_dump_line(p, "
%s
\n", nl_addr2str(link->l_addr, buf, sizeof(buf))); nl_dump_line(p, " %u\n", link->l_mtu); nl_dump_line(p, " %u\n", link->l_txqlen); nl_dump_line(p, " %u\n", link->l_weight); rtnl_link_flags2str(link->l_flags, buf, sizeof(buf)); if (buf[0]) nl_dump_line(p, " %s\n", buf); if (link->ce_mask & LINK_ATTR_QDISC) nl_dump_line(p, " %s\n", link->l_qdisc); if (link->ce_mask & LINK_ATTR_LINK) { struct rtnl_link *ll = rtnl_link_get(cache, link->l_link); nl_dump_line(p, " %s\n", ll ? ll->l_name : "none"); if (ll) rtnl_link_put(ll); } if (link->ce_mask & LINK_ATTR_MASTER) { struct rtnl_link *master = rtnl_link_get(cache, link->l_master); nl_dump_line(p, " %s\n", master ? master->l_name : "none"); if (master) rtnl_link_put(master); } if (link->ce_mask & LINK_ATTR_BRD) nl_dump_line(p, " %s\n", nl_addr2str(link->l_bcast, buf, sizeof(buf))); if (link->ce_mask & LINK_ATTR_STATS) { nl_dump_line(p, " \n"); for (i = 0; i <= RTNL_LINK_STATS_MAX; i++) { rtnl_link_stat2str(i, buf, sizeof(buf)); nl_dump_line(p, " <%s>%" PRIu64 "\n", buf, link->l_stats[i], buf); } nl_dump_line(p, " \n"); } if (link->l_info_ops && link->l_info_ops->io_dump[NL_DUMP_XML]) { nl_dump_line(p, " \n"); link->l_info_ops->io_dump[NL_DUMP_XML](link, p); nl_dump_line(p, " \n"); } nl_dump_line(p, "\n"); #if 0 uint32_t l_change; /**< Change mask */ struct rtnl_lifmap l_map; /**< Interface device mapping */ #endif } static void link_dump_env(struct nl_object *obj, struct nl_dump_params *p) { struct rtnl_link *link = (struct rtnl_link *) obj; struct nl_cache *cache = dp_cache(obj); char buf[128]; int i; nl_dump_line(p, "LINK_NAME=%s\n", link->l_name); nl_dump_line(p, "LINK_IFINDEX=%u\n", link->l_index); nl_dump_line(p, "LINK_FAMILY=%s\n", nl_af2str(link->l_family, buf, sizeof(buf))); nl_dump_line(p, "LINK_TYPE=%s\n", nl_llproto2str(link->l_arptype, buf, sizeof(buf))); if (link->ce_mask & LINK_ATTR_ADDR) nl_dump_line(p, "LINK_ADDRESS=%s\n", nl_addr2str(link->l_addr, buf, sizeof(buf))); nl_dump_line(p, "LINK_MTU=%u\n", link->l_mtu); nl_dump_line(p, "LINK_TXQUEUELEN=%u\n", link->l_txqlen); nl_dump_line(p, "LINK_WEIGHT=%u\n", link->l_weight); rtnl_link_flags2str(link->l_flags & ~IFF_RUNNING, buf, sizeof(buf)); if (buf[0]) nl_dump_line(p, "LINK_FLAGS=%s\n", buf); if (link->ce_mask & LINK_ATTR_QDISC) nl_dump_line(p, "LINK_QDISC=%s\n", link->l_qdisc); if (link->ce_mask & LINK_ATTR_LINK) { struct rtnl_link *ll = rtnl_link_get(cache, link->l_link); nl_dump_line(p, "LINK_LINK_IFINDEX=%d\n", link->l_link); if (ll) { nl_dump_line(p, "LINK_LINK_IFNAME=%s\n", ll->l_name); rtnl_link_put(ll); } } if (link->ce_mask & LINK_ATTR_MASTER) { struct rtnl_link *master = rtnl_link_get(cache, link->l_master); nl_dump_line(p, "LINK_MASTER=%s\n", master ? master->l_name : "none"); if (master) rtnl_link_put(master); } if (link->ce_mask & LINK_ATTR_BRD) nl_dump_line(p, "LINK_BROADCAST=%s\n", nl_addr2str(link->l_bcast, buf, sizeof(buf))); if (link->ce_mask & LINK_ATTR_STATS) { for (i = 0; i <= RTNL_LINK_STATS_MAX; i++) { char *c = buf; sprintf(buf, "LINK_"); rtnl_link_stat2str(i, buf + 5, sizeof(buf) - 5); while (*c) { *c = toupper(*c); c++; } nl_dump_line(p, "%s=%" PRIu64 "\n", buf, link->l_stats[i]); } } if (link->l_info_ops && link->l_info_ops->io_dump[NL_DUMP_ENV]) link->l_info_ops->io_dump[NL_DUMP_ENV](link, p); } #if 0 static int link_handle_event(struct nl_object *a, struct rtnl_link_event_cb *cb) { struct rtnl_link *l = (struct rtnl_link *) a; struct nl_cache *c = dp_cache(a); int nevents = 0; if (l->l_change == ~0U) { if (l->ce_msgtype == RTM_NEWLINK) cb->le_register(l); else cb->le_unregister(l); return 1; } if (l->l_change & IFF_SLAVE) { if (l->l_flags & IFF_SLAVE) { struct rtnl_link *m = rtnl_link_get(c, l->l_master); cb->le_new_bonding(l, m); if (m) rtnl_link_put(m); } else cb->le_cancel_bonding(l); } #if 0 if (l->l_change & IFF_UP && l->l_change & IFF_RUNNING) dp_dump_line(p, line++, "link %s changed state to %s.\n", l->l_name, l->l_flags & IFF_UP ? "up" : "down"); if (l->l_change & IFF_PROMISC) { dp_new_line(p, line++); dp_dump(p, "link %s %s promiscuous mode.\n", l->l_name, l->l_flags & IFF_PROMISC ? "entered" : "left"); } if (line == 0) dp_dump_line(p, line++, "link %s sent unknown event.\n", l->l_name); #endif return nevents; } #endif static int link_compare(struct nl_object *_a, struct nl_object *_b, uint32_t attrs, int flags) { struct rtnl_link *a = (struct rtnl_link *) _a; struct rtnl_link *b = (struct rtnl_link *) _b; int diff = 0; #define LINK_DIFF(ATTR, EXPR) ATTR_DIFF(attrs, LINK_ATTR_##ATTR, a, b, EXPR) diff |= LINK_DIFF(IFINDEX, a->l_index != b->l_index); diff |= LINK_DIFF(MTU, a->l_mtu != b->l_mtu); diff |= LINK_DIFF(LINK, a->l_link != b->l_link); diff |= LINK_DIFF(TXQLEN, a->l_txqlen != b->l_txqlen); diff |= LINK_DIFF(WEIGHT, a->l_weight != b->l_weight); diff |= LINK_DIFF(MASTER, a->l_master != b->l_master); diff |= LINK_DIFF(FAMILY, a->l_family != b->l_family); diff |= LINK_DIFF(OPERSTATE, a->l_operstate != b->l_operstate); diff |= LINK_DIFF(LINKMODE, a->l_linkmode != b->l_linkmode); diff |= LINK_DIFF(QDISC, strcmp(a->l_qdisc, b->l_qdisc)); diff |= LINK_DIFF(IFNAME, strcmp(a->l_name, b->l_name)); diff |= LINK_DIFF(ADDR, nl_addr_cmp(a->l_addr, b->l_addr)); diff |= LINK_DIFF(BRD, nl_addr_cmp(a->l_bcast, b->l_bcast)); if (flags & LOOSE_COMPARISON) diff |= LINK_DIFF(FLAGS, (a->l_flags ^ b->l_flags) & b->l_flag_mask); else diff |= LINK_DIFF(FLAGS, a->l_flags != b->l_flags); #undef LINK_DIFF return diff; } static struct trans_tbl link_attrs[] = { __ADD(LINK_ATTR_MTU, mtu) __ADD(LINK_ATTR_LINK, link) __ADD(LINK_ATTR_TXQLEN, txqlen) __ADD(LINK_ATTR_WEIGHT, weight) __ADD(LINK_ATTR_MASTER, master) __ADD(LINK_ATTR_QDISC, qdisc) __ADD(LINK_ATTR_MAP, map) __ADD(LINK_ATTR_ADDR, address) __ADD(LINK_ATTR_BRD, broadcast) __ADD(LINK_ATTR_FLAGS, flags) __ADD(LINK_ATTR_IFNAME, name) __ADD(LINK_ATTR_IFINDEX, ifindex) __ADD(LINK_ATTR_FAMILY, family) __ADD(LINK_ATTR_ARPTYPE, arptype) __ADD(LINK_ATTR_STATS, stats) __ADD(LINK_ATTR_CHANGE, change) __ADD(LINK_ATTR_OPERSTATE, operstate) __ADD(LINK_ATTR_LINKMODE, linkmode) }; static char *link_attrs2str(int attrs, char *buf, size_t len) { return __flags2str(attrs, buf, len, link_attrs, ARRAY_SIZE(link_attrs)); } /** * @name Allocation/Freeing * @{ */ struct rtnl_link *rtnl_link_alloc(void) { return (struct rtnl_link *) nl_object_alloc(&link_obj_ops); } void rtnl_link_put(struct rtnl_link *link) { nl_object_put((struct nl_object *) link); } /** @} */ /** * @name Cache Management * @{ */ /** * Allocate link cache and fill in all configured links. * @arg sk Netlink socket. * @arg result Pointer to store resulting cache. * * Allocates a new link cache, initializes it properly and updates it * to include all links currently configured in the kernel. * * @return 0 on success or a negative error code. */ int rtnl_link_alloc_cache(struct nl_sock *sk, struct nl_cache **result) { return nl_cache_alloc_and_fill(&rtnl_link_ops, sk, result); } /** * Look up link by interface index in the provided cache * @arg cache link cache * @arg ifindex link interface index * * The caller owns a reference on the returned object and * must give the object back via rtnl_link_put(). * * @return pointer to link inside the cache or NULL if no match was found. */ struct rtnl_link *rtnl_link_get(struct nl_cache *cache, int ifindex) { struct rtnl_link *link; if (cache->c_ops != &rtnl_link_ops) return NULL; nl_list_for_each_entry(link, &cache->c_items, ce_list) { if (link->l_index == ifindex) { nl_object_get((struct nl_object *) link); return link; } } return NULL; } /** * Look up link by link name in the provided cache * @arg cache link cache * @arg name link name * * The caller owns a reference on the returned object and * must give the object back via rtnl_link_put(). * * @return pointer to link inside the cache or NULL if no match was found. */ struct rtnl_link *rtnl_link_get_by_name(struct nl_cache *cache, const char *name) { struct rtnl_link *link; if (cache->c_ops != &rtnl_link_ops) return NULL; nl_list_for_each_entry(link, &cache->c_items, ce_list) { if (!strcmp(name, link->l_name)) { nl_object_get((struct nl_object *) link); return link; } } return NULL; } /** @} */ /** * @name Link Modifications * @{ */ /** * Builds a netlink change request message to change link attributes * @arg old link to be changed * @arg tmpl template with requested changes * @arg flags additional netlink message flags * * Builds a new netlink message requesting a change of link attributes. * The netlink message header isn't fully equipped with all relevant * fields and must be sent out via nl_send_auto_complete() or * supplemented as needed. * \a old must point to a link currently configured in the kernel * and \a tmpl must contain the attributes to be changed set via * \c rtnl_link_set_* functions. * * @return New netlink message * @note Not all attributes can be changed, see * \ref link_changeable "Changeable Attributes" for more details. */ int rtnl_link_build_change_request(struct rtnl_link *old, struct rtnl_link *tmpl, int flags, struct nl_msg **result) { struct nl_msg *msg; struct ifinfomsg ifi = { .ifi_family = old->l_family, .ifi_index = old->l_index, }; if (tmpl->ce_mask & LINK_ATTR_FLAGS) { ifi.ifi_flags = old->l_flags & ~tmpl->l_flag_mask; ifi.ifi_flags |= tmpl->l_flags; } msg = nlmsg_alloc_simple(RTM_SETLINK, flags); if (!msg) return -NLE_NOMEM; if (nlmsg_append(msg, &ifi, sizeof(ifi), NLMSG_ALIGNTO) < 0) goto nla_put_failure; if (tmpl->ce_mask & LINK_ATTR_ADDR) NLA_PUT_ADDR(msg, IFLA_ADDRESS, tmpl->l_addr); if (tmpl->ce_mask & LINK_ATTR_BRD) NLA_PUT_ADDR(msg, IFLA_BROADCAST, tmpl->l_bcast); if (tmpl->ce_mask & LINK_ATTR_MTU) NLA_PUT_U32(msg, IFLA_MTU, tmpl->l_mtu); if (tmpl->ce_mask & LINK_ATTR_TXQLEN) NLA_PUT_U32(msg, IFLA_TXQLEN, tmpl->l_txqlen); if (tmpl->ce_mask & LINK_ATTR_WEIGHT) NLA_PUT_U32(msg, IFLA_WEIGHT, tmpl->l_weight); if (tmpl->ce_mask & LINK_ATTR_IFNAME) NLA_PUT_STRING(msg, IFLA_IFNAME, tmpl->l_name); if (tmpl->ce_mask & LINK_ATTR_OPERSTATE) NLA_PUT_U8(msg, IFLA_OPERSTATE, tmpl->l_operstate); if (tmpl->ce_mask & LINK_ATTR_LINKMODE) NLA_PUT_U8(msg, IFLA_LINKMODE, tmpl->l_linkmode); if ((tmpl->ce_mask & LINK_ATTR_LINKINFO) && tmpl->l_info_ops && tmpl->l_info_ops->io_put_attrs) { struct nlattr *info; if (!(info = nla_nest_start(msg, IFLA_LINKINFO))) goto nla_put_failure; NLA_PUT_STRING(msg, IFLA_INFO_KIND, tmpl->l_info_ops->io_name); if (tmpl->l_info_ops->io_put_attrs(msg, tmpl) < 0) goto nla_put_failure; nla_nest_end(msg, info); } *result = msg; return 0; nla_put_failure: nlmsg_free(msg); return -NLE_MSGSIZE; } /** * Change link attributes * @arg sk Netlink socket. * @arg old link to be changed * @arg tmpl template with requested changes * @arg flags additional netlink message flags * * Builds a new netlink message by calling rtnl_link_build_change_request(), * sends the request to the kernel and waits for the next ACK to be * received, i.e. blocks until the request has been processed. * * @return 0 on success or a negative error code * @note Not all attributes can be changed, see * \ref link_changeable "Changeable Attributes" for more details. */ int rtnl_link_change(struct nl_sock *sk, struct rtnl_link *old, struct rtnl_link *tmpl, int flags) { struct nl_msg *msg; int err; if ((err = rtnl_link_build_change_request(old, tmpl, flags, &msg)) < 0) return err; err = nl_send_auto_complete(sk, msg); nlmsg_free(msg); if (err < 0) return err; return nl_wait_for_ack(sk); } /** @} */ /** * @name Name <-> Index Translations * @{ */ /** * Translate an interface index to the corresponding link name * @arg cache link cache * @arg ifindex link interface index * @arg dst destination buffer * @arg len length of destination buffer * * Translates the specified interface index to the corresponding * link name and stores the name in the destination buffer. * * @return link name or NULL if no match was found. */ char * rtnl_link_i2name(struct nl_cache *cache, int ifindex, char *dst, size_t len) { struct rtnl_link *link = rtnl_link_get(cache, ifindex); if (link) { strncpy(dst, link->l_name, len - 1); rtnl_link_put(link); return dst; } return NULL; } /** * Translate a link name to the corresponding interface index * @arg cache link cache * @arg name link name * * @return interface index or 0 if no match was found. */ int rtnl_link_name2i(struct nl_cache *cache, const char *name) { int ifindex = 0; struct rtnl_link *link; link = rtnl_link_get_by_name(cache, name); if (link) { ifindex = link->l_index; rtnl_link_put(link); } return ifindex; } /** @} */ /** * @name Link Flags Translations * @{ */ static struct trans_tbl link_flags[] = { __ADD(IFF_LOOPBACK, loopback) __ADD(IFF_BROADCAST, broadcast) __ADD(IFF_POINTOPOINT, pointopoint) __ADD(IFF_MULTICAST, multicast) __ADD(IFF_NOARP, noarp) __ADD(IFF_ALLMULTI, allmulti) __ADD(IFF_PROMISC, promisc) __ADD(IFF_MASTER, master) __ADD(IFF_SLAVE, slave) __ADD(IFF_DEBUG, debug) __ADD(IFF_DYNAMIC, dynamic) __ADD(IFF_AUTOMEDIA, automedia) __ADD(IFF_PORTSEL, portsel) __ADD(IFF_NOTRAILERS, notrailers) __ADD(IFF_UP, up) __ADD(IFF_RUNNING, running) __ADD(IFF_LOWER_UP, lowerup) __ADD(IFF_DORMANT, dormant) __ADD(IFF_ECHO, echo) }; char * rtnl_link_flags2str(int flags, char *buf, size_t len) { return __flags2str(flags, buf, len, link_flags, ARRAY_SIZE(link_flags)); } int rtnl_link_str2flags(const char *name) { return __str2flags(name, link_flags, ARRAY_SIZE(link_flags)); } /** @} */ /** * @name Link Statistics Translations * @{ */ static struct trans_tbl link_stats[] = { __ADD(RTNL_LINK_RX_PACKETS, rx_packets) __ADD(RTNL_LINK_TX_PACKETS, tx_packets) __ADD(RTNL_LINK_RX_BYTES, rx_bytes) __ADD(RTNL_LINK_TX_BYTES, tx_bytes) __ADD(RTNL_LINK_RX_ERRORS, rx_errors) __ADD(RTNL_LINK_TX_ERRORS, tx_errors) __ADD(RTNL_LINK_RX_DROPPED, rx_dropped) __ADD(RTNL_LINK_TX_DROPPED, tx_dropped) __ADD(RTNL_LINK_RX_COMPRESSED, rx_compressed) __ADD(RTNL_LINK_TX_COMPRESSED, tx_compressed) __ADD(RTNL_LINK_RX_FIFO_ERR, rx_fifo_err) __ADD(RTNL_LINK_TX_FIFO_ERR, tx_fifo_err) __ADD(RTNL_LINK_RX_LEN_ERR, rx_len_err) __ADD(RTNL_LINK_RX_OVER_ERR, rx_over_err) __ADD(RTNL_LINK_RX_CRC_ERR, rx_crc_err) __ADD(RTNL_LINK_RX_FRAME_ERR, rx_frame_err) __ADD(RTNL_LINK_RX_MISSED_ERR, rx_missed_err) __ADD(RTNL_LINK_TX_ABORT_ERR, tx_abort_err) __ADD(RTNL_LINK_TX_CARRIER_ERR, tx_carrier_err) __ADD(RTNL_LINK_TX_HBEAT_ERR, tx_hbeat_err) __ADD(RTNL_LINK_TX_WIN_ERR, tx_win_err) __ADD(RTNL_LINK_TX_COLLISIONS, tx_collision) __ADD(RTNL_LINK_MULTICAST, multicast) }; char *rtnl_link_stat2str(int st, char *buf, size_t len) { return __type2str(st, buf, len, link_stats, ARRAY_SIZE(link_stats)); } int rtnl_link_str2stat(const char *name) { return __str2type(name, link_stats, ARRAY_SIZE(link_stats)); } /** @} */ /** * @name Link Operstate Translations * @{ */ static struct trans_tbl link_operstates[] = { __ADD(IF_OPER_UNKNOWN, unknown) __ADD(IF_OPER_NOTPRESENT, notpresent) __ADD(IF_OPER_DOWN, down) __ADD(IF_OPER_LOWERLAYERDOWN, lowerlayerdown) __ADD(IF_OPER_TESTING, testing) __ADD(IF_OPER_DORMANT, dormant) __ADD(IF_OPER_UP, up) }; char *rtnl_link_operstate2str(int st, char *buf, size_t len) { return __type2str(st, buf, len, link_operstates, ARRAY_SIZE(link_operstates)); } int rtnl_link_str2operstate(const char *name) { return __str2type(name, link_operstates, ARRAY_SIZE(link_operstates)); } /** @} */ /** * @name Link Mode Translations * @{ */ static struct trans_tbl link_modes[] = { __ADD(IF_LINK_MODE_DEFAULT, default) __ADD(IF_LINK_MODE_DORMANT, dormant) }; char *rtnl_link_mode2str(int st, char *buf, size_t len) { return __type2str(st, buf, len, link_modes, ARRAY_SIZE(link_modes)); } int rtnl_link_str2mode(const char *name) { return __str2type(name, link_modes, ARRAY_SIZE(link_modes)); } /** @} */ /** * @name Attributes * @{ */ void rtnl_link_set_qdisc(struct rtnl_link *link, const char *qdisc) { strncpy(link->l_qdisc, qdisc, sizeof(link->l_qdisc) - 1); link->ce_mask |= LINK_ATTR_QDISC; } char *rtnl_link_get_qdisc(struct rtnl_link *link) { if (link->ce_mask & LINK_ATTR_QDISC) return link->l_qdisc; else return NULL; } void rtnl_link_set_name(struct rtnl_link *link, const char *name) { strncpy(link->l_name, name, sizeof(link->l_name) - 1); link->ce_mask |= LINK_ATTR_IFNAME; } char *rtnl_link_get_name(struct rtnl_link *link) { if (link->ce_mask & LINK_ATTR_IFNAME) return link->l_name; else return NULL; } static inline void __assign_addr(struct rtnl_link *link, struct nl_addr **pos, struct nl_addr *new, int flag) { if (*pos) nl_addr_put(*pos); nl_addr_get(new); *pos = new; link->ce_mask |= flag; } void rtnl_link_set_addr(struct rtnl_link *link, struct nl_addr *addr) { __assign_addr(link, &link->l_addr, addr, LINK_ATTR_ADDR); } struct nl_addr *rtnl_link_get_addr(struct rtnl_link *link) { if (link->ce_mask & LINK_ATTR_ADDR) return link->l_addr; else return NULL; } void rtnl_link_set_broadcast(struct rtnl_link *link, struct nl_addr *brd) { __assign_addr(link, &link->l_bcast, brd, LINK_ATTR_BRD); } struct nl_addr *rtnl_link_get_broadcast(struct rtnl_link *link) { if (link->ce_mask & LINK_ATTR_BRD) return link->l_bcast; else return NULL; } void rtnl_link_set_flags(struct rtnl_link *link, unsigned int flags) { link->l_flag_mask |= flags; link->l_flags |= flags; link->ce_mask |= LINK_ATTR_FLAGS; } void rtnl_link_unset_flags(struct rtnl_link *link, unsigned int flags) { link->l_flag_mask |= flags; link->l_flags &= ~flags; link->ce_mask |= LINK_ATTR_FLAGS; } unsigned int rtnl_link_get_flags(struct rtnl_link *link) { return link->l_flags; } void rtnl_link_set_family(struct rtnl_link *link, int family) { link->l_family = family; link->ce_mask |= LINK_ATTR_FAMILY; } int rtnl_link_get_family(struct rtnl_link *link) { if (link->l_family & LINK_ATTR_FAMILY) return link->l_family; else return AF_UNSPEC; } void rtnl_link_set_arptype(struct rtnl_link *link, unsigned int arptype) { link->l_arptype = arptype; } unsigned int rtnl_link_get_arptype(struct rtnl_link *link) { return link->l_arptype; } void rtnl_link_set_ifindex(struct rtnl_link *link, int ifindex) { link->l_index = ifindex; link->ce_mask |= LINK_ATTR_IFINDEX; } int rtnl_link_get_ifindex(struct rtnl_link *link) { return link->l_index; } void rtnl_link_set_mtu(struct rtnl_link *link, unsigned int mtu) { link->l_mtu = mtu; link->ce_mask |= LINK_ATTR_MTU; } unsigned int rtnl_link_get_mtu(struct rtnl_link *link) { if (link->ce_mask & LINK_ATTR_MTU) return link->l_mtu; else return 0; } void rtnl_link_set_txqlen(struct rtnl_link *link, unsigned int txqlen) { link->l_txqlen = txqlen; link->ce_mask |= LINK_ATTR_TXQLEN; } unsigned int rtnl_link_get_txqlen(struct rtnl_link *link) { if (link->ce_mask & LINK_ATTR_TXQLEN) return link->l_txqlen; else return UINT_MAX; } void rtnl_link_set_weight(struct rtnl_link *link, unsigned int weight) { link->l_weight = weight; link->ce_mask |= LINK_ATTR_WEIGHT; } unsigned int rtnl_link_get_weight(struct rtnl_link *link) { if (link->ce_mask & LINK_ATTR_WEIGHT) return link->l_weight; else return UINT_MAX; } void rtnl_link_set_link(struct rtnl_link *link, int ifindex) { link->l_link = ifindex; link->ce_mask |= LINK_ATTR_LINK; } int rtnl_link_get_link(struct rtnl_link *link) { return link->l_link; } void rtnl_link_set_master(struct rtnl_link *link, int ifindex) { link->l_master = ifindex; link->ce_mask |= LINK_ATTR_MASTER; } int rtnl_link_get_master(struct rtnl_link *link) { return link->l_master; } void rtnl_link_set_operstate(struct rtnl_link *link, uint8_t operstate) { link->l_operstate = operstate; link->ce_mask |= LINK_ATTR_OPERSTATE; } uint8_t rtnl_link_get_operstate(struct rtnl_link *link) { if (link->ce_mask & LINK_ATTR_OPERSTATE) return link->l_operstate; else return IF_OPER_UNKNOWN; } void rtnl_link_set_linkmode(struct rtnl_link *link, uint8_t linkmode) { link->l_linkmode = linkmode; link->ce_mask |= LINK_ATTR_LINKMODE; } uint8_t rtnl_link_get_linkmode(struct rtnl_link *link) { if (link->ce_mask & LINK_ATTR_LINKMODE) return link->l_linkmode; else return IF_LINK_MODE_DEFAULT; } uint64_t rtnl_link_get_stat(struct rtnl_link *link, int id) { if (id < 0 || id > RTNL_LINK_STATS_MAX) return 0; return link->l_stats[id]; } /** * Specify the info type of a link * @arg link link object * @arg type info type * * Looks up the info type and prepares the link to store info type * specific attributes. If an info type has been assigned already * it will be released with all changes lost. * * @return 0 on success or a negative errror code. */ int rtnl_link_set_info_type(struct rtnl_link *link, const char *type) { struct rtnl_link_info_ops *io; int err; if ((io = rtnl_link_info_ops_lookup(type)) == NULL) return -NLE_OPNOTSUPP; if (link->l_info_ops) release_link_info(link); if ((err = io->io_alloc(link)) < 0) return err; link->l_info_ops = io; return 0; } /** * Return info type of a link * @arg link link object * * @note The returned pointer is only valid as long as the link exists * @return Info type name or NULL if unknown. */ char *rtnl_link_get_info_type(struct rtnl_link *link) { if (link->l_info_ops) return link->l_info_ops->io_name; else return NULL; } /** @} */ static struct nl_object_ops link_obj_ops = { .oo_name = "route/link", .oo_size = sizeof(struct rtnl_link), .oo_free_data = link_free_data, .oo_clone = link_clone, .oo_dump = { [NL_DUMP_LINE] = link_dump_line, [NL_DUMP_DETAILS] = link_dump_details, [NL_DUMP_STATS] = link_dump_stats, [NL_DUMP_XML] = link_dump_xml, [NL_DUMP_ENV] = link_dump_env, }, .oo_compare = link_compare, .oo_attrs2str = link_attrs2str, .oo_id_attrs = LINK_ATTR_IFINDEX, }; static struct nl_af_group link_groups[] = { { AF_UNSPEC, RTNLGRP_LINK }, { END_OF_GROUP_LIST }, }; static struct nl_cache_ops rtnl_link_ops = { .co_name = "route/link", .co_hdrsize = sizeof(struct ifinfomsg), .co_msgtypes = { { RTM_NEWLINK, NL_ACT_NEW, "new" }, { RTM_DELLINK, NL_ACT_DEL, "del" }, { RTM_GETLINK, NL_ACT_GET, "get" }, END_OF_MSGTYPES_LIST, }, .co_protocol = NETLINK_ROUTE, .co_groups = link_groups, .co_request_update = link_request_update, .co_msg_parser = link_msg_parser, .co_obj_ops = &link_obj_ops, }; static void __init link_init(void) { nl_cache_mngt_register(&rtnl_link_ops); } static void __exit link_exit(void) { nl_cache_mngt_unregister(&rtnl_link_ops); } /** @} */