/* * lib/route/neightbl.c neighbour tables * * 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) 2003-2006 Thomas Graf <tgraf@suug.ch> */ /** * @ingroup rtnl * @defgroup neightbl Neighbour Tables * @brief * @{ */ #include <netlink-local.h> #include <netlink/netlink.h> #include <netlink/utils.h> #include <netlink/route/rtnl.h> #include <netlink/route/neightbl.h> #include <netlink/route/link.h> /** @cond SKIP */ #define NEIGHTBL_ATTR_FAMILY 0x001 #define NEIGHTBL_ATTR_STATS 0x002 #define NEIGHTBL_ATTR_NAME 0x004 #define NEIGHTBL_ATTR_THRESH1 0x008 #define NEIGHTBL_ATTR_THRESH2 0x010 #define NEIGHTBL_ATTR_THRESH3 0x020 #define NEIGHTBL_ATTR_CONFIG 0x040 #define NEIGHTBL_ATTR_PARMS 0x080 #define NEIGHTBL_ATTR_GC_INTERVAL 0x100 #define NEIGHTBLPARM_ATTR_IFINDEX 0x0001 #define NEIGHTBLPARM_ATTR_REFCNT 0x0002 #define NEIGHTBLPARM_ATTR_QUEUE_LEN 0x0004 #define NEIGHTBLPARM_ATTR_APP_PROBES 0x0008 #define NEIGHTBLPARM_ATTR_UCAST_PROBES 0x0010 #define NEIGHTBLPARM_ATTR_MCAST_PROBES 0x0020 #define NEIGHTBLPARM_ATTR_PROXY_QLEN 0x0040 #define NEIGHTBLPARM_ATTR_REACHABLE_TIME 0x0080 #define NEIGHTBLPARM_ATTR_BASE_REACHABLE_TIME 0x0100 #define NEIGHTBLPARM_ATTR_RETRANS_TIME 0x0200 #define NEIGHTBLPARM_ATTR_GC_STALETIME 0x0400 #define NEIGHTBLPARM_ATTR_DELAY_PROBE_TIME 0x0800 #define NEIGHTBLPARM_ATTR_ANYCAST_DELAY 0x1000 #define NEIGHTBLPARM_ATTR_PROXY_DELAY 0x2000 #define NEIGHTBLPARM_ATTR_LOCKTIME 0x4000 static struct nl_cache_ops rtnl_neightbl_ops; static struct nl_object_ops neightbl_obj_ops; /** @endcond */ static int neightbl_compare(struct nl_object *_a, struct nl_object *_b, uint32_t attrs, int flags) { struct rtnl_neightbl *a = (struct rtnl_neightbl *) _a; struct rtnl_neightbl *b = (struct rtnl_neightbl *) _b; int diff = 0; #define NT_DIFF(ATTR, EXPR) ATTR_DIFF(attrs, NEIGHTBL_ATTR_##ATTR, a, b, EXPR) diff |= NT_DIFF(FAMILY, a->nt_family != b->nt_family); diff |= NT_DIFF(NAME, strcmp(a->nt_name, b->nt_name)); diff |= NT_DIFF(THRESH1, a->nt_gc_thresh1 != b->nt_gc_thresh1); diff |= NT_DIFF(THRESH2, a->nt_gc_thresh2 != b->nt_gc_thresh2); diff |= NT_DIFF(THRESH3, a->nt_gc_thresh3 != b->nt_gc_thresh3); diff |= NT_DIFF(GC_INTERVAL, a->nt_gc_interval != b->nt_gc_interval); #undef NT_DIFF if (!(a->ce_mask & NEIGHTBL_ATTR_PARMS) && !(b->ce_mask & NEIGHTBL_ATTR_PARMS)) return diff; /* XXX: FIXME: Compare parameter table */ #if 0 #define REQ(F) (fp->ntp_mask & NEIGHTBLPARM_ATTR_##F) #define AVAIL(F) (op->ntp_mask & NEIGHTBLPARM_ATTR_##F) #define _C(F, N) (REQ(F) && (!AVAIL(F) || (op->N != fp->N))) if (_C(IFINDEX, ntp_ifindex) || _C(QUEUE_LEN, ntp_queue_len) || _C(APP_PROBES, ntp_app_probes) || _C(UCAST_PROBES, ntp_ucast_probes) || _C(MCAST_PROBES, ntp_mcast_probes) || _C(PROXY_QLEN, ntp_proxy_qlen) || _C(LOCKTIME, ntp_locktime) || _C(RETRANS_TIME, ntp_retrans_time) || _C(BASE_REACHABLE_TIME, ntp_base_reachable_time) || _C(GC_STALETIME, ntp_gc_stale_time) || _C(DELAY_PROBE_TIME, ntp_probe_delay) || _C(ANYCAST_DELAY, ntp_anycast_delay) || _C(PROXY_DELAY, ntp_proxy_delay)) return 0; #undef REQ #undef AVAIL #undef _C #endif return diff; } static struct nla_policy neightbl_policy[NDTA_MAX+1] = { [NDTA_NAME] = { .type = NLA_STRING, .maxlen = NTBLNAMSIZ }, [NDTA_THRESH1] = { .type = NLA_U32 }, [NDTA_THRESH2] = { .type = NLA_U32 }, [NDTA_THRESH3] = { .type = NLA_U32 }, [NDTA_GC_INTERVAL] = { .type = NLA_U32 }, [NDTA_CONFIG] = { .minlen = sizeof(struct ndt_config) }, [NDTA_STATS] = { .minlen = sizeof(struct ndt_stats) }, [NDTA_PARMS] = { .type = NLA_NESTED }, }; static int neightbl_msg_parser(struct nl_cache_ops *ops, struct sockaddr_nl *who, struct nlmsghdr *n, struct nl_parser_param *pp) { struct rtnl_neightbl *ntbl; struct nlattr *tb[NDTA_MAX + 1]; struct rtgenmsg *rtmsg; int err; ntbl = rtnl_neightbl_alloc(); if (!ntbl) { err = nl_errno(ENOMEM); goto errout; } ntbl->ce_msgtype = n->nlmsg_type; rtmsg = nlmsg_data(n); err = nlmsg_parse(n, sizeof(*rtmsg), tb, NDTA_MAX, neightbl_policy); if (err < 0) goto errout; ntbl->nt_family = rtmsg->rtgen_family; if (tb[NDTA_NAME] == NULL) { err = nl_error(EINVAL, "NDTA_NAME is missing"); goto errout; } nla_strlcpy(ntbl->nt_name, tb[NDTA_NAME], NTBLNAMSIZ); ntbl->ce_mask |= NEIGHTBL_ATTR_NAME; if (tb[NDTA_THRESH1]) { ntbl->nt_gc_thresh1 = nla_get_u32(tb[NDTA_THRESH1]); ntbl->ce_mask |= NEIGHTBL_ATTR_THRESH1; } if (tb[NDTA_THRESH2]) { ntbl->nt_gc_thresh2 = nla_get_u32(tb[NDTA_THRESH2]); ntbl->ce_mask |= NEIGHTBL_ATTR_THRESH2; } if (tb[NDTA_THRESH3]) { ntbl->nt_gc_thresh3 = nla_get_u32(tb[NDTA_THRESH3]); ntbl->ce_mask |= NEIGHTBL_ATTR_THRESH3; } if (tb[NDTA_GC_INTERVAL]) { ntbl->nt_gc_interval = nla_get_u32(tb[NDTA_GC_INTERVAL]); ntbl->ce_mask |= NEIGHTBL_ATTR_GC_INTERVAL; } if (tb[NDTA_CONFIG]) { nla_memcpy(&ntbl->nt_config, tb[NDTA_CONFIG], sizeof(ntbl->nt_config)); ntbl->ce_mask |= NEIGHTBL_ATTR_CONFIG; } if (tb[NDTA_STATS]) { nla_memcpy(&ntbl->nt_stats, tb[NDTA_STATS], sizeof(ntbl->nt_stats)); ntbl->ce_mask |= NEIGHTBL_ATTR_STATS; } if (tb[NDTA_PARMS]) { struct nlattr *tbp[NDTPA_MAX + 1]; struct rtnl_neightbl_parms *p = &ntbl->nt_parms; err = nla_parse_nested(tbp, NDTPA_MAX, tb[NDTA_PARMS], NULL); if (err < 0) goto errout; #define COPY_ENTRY(name, var) \ if (tbp[NDTPA_ ##name]) { \ p->ntp_ ##var = nla_get_u32(tbp[NDTPA_ ##name]); \ p->ntp_mask |= NEIGHTBLPARM_ATTR_ ##name; \ } COPY_ENTRY(IFINDEX, ifindex); COPY_ENTRY(REFCNT, refcnt); COPY_ENTRY(QUEUE_LEN, queue_len); COPY_ENTRY(APP_PROBES, app_probes); COPY_ENTRY(UCAST_PROBES, ucast_probes); COPY_ENTRY(MCAST_PROBES, mcast_probes); COPY_ENTRY(PROXY_QLEN, proxy_qlen); COPY_ENTRY(PROXY_DELAY, proxy_delay); COPY_ENTRY(ANYCAST_DELAY, anycast_delay); COPY_ENTRY(LOCKTIME, locktime); COPY_ENTRY(REACHABLE_TIME, reachable_time); COPY_ENTRY(BASE_REACHABLE_TIME, base_reachable_time); COPY_ENTRY(RETRANS_TIME, retrans_time); COPY_ENTRY(GC_STALETIME, gc_stale_time); COPY_ENTRY(DELAY_PROBE_TIME, probe_delay); #undef COPY_ENTRY ntbl->ce_mask |= NEIGHTBL_ATTR_PARMS; } err = pp->pp_cb((struct nl_object *) ntbl, pp); if (err < 0) goto errout; err = P_ACCEPT; errout: rtnl_neightbl_put(ntbl); return err; } static int neightbl_request_update(struct nl_cache *c, struct nl_handle *h) { return nl_rtgen_request(h, RTM_GETNEIGHTBL, AF_UNSPEC, NLM_F_DUMP); } static int neightbl_dump_brief(struct nl_object *arg, struct nl_dump_params *p) { int line = 1; struct rtnl_neightbl *ntbl = (struct rtnl_neightbl *) arg; dp_dump(p, "%s", ntbl->nt_name); if (ntbl->nt_parms.ntp_mask & NEIGHTBLPARM_ATTR_IFINDEX) { struct nl_cache *link_cache; link_cache = nl_cache_mngt_require("route/link"); if (link_cache) { char buf[32]; dp_dump(p, "<%s> ", rtnl_link_i2name(link_cache, ntbl->nt_parms.ntp_ifindex, buf, sizeof(buf))); } else dp_dump(p, "<%u> ", ntbl->nt_parms.ntp_ifindex); } else dp_dump(p, " "); if (ntbl->ce_mask & NEIGHTBL_ATTR_CONFIG) dp_dump(p, "entries %u ", ntbl->nt_config.ndtc_entries); if (ntbl->ce_mask & NEIGHTBL_ATTR_PARMS) { char rt[32], rt2[32]; struct rtnl_neightbl_parms *pa = &ntbl->nt_parms; dp_dump(p, "reachable-time %s retransmit-time %s", nl_msec2str(pa->ntp_reachable_time, rt, sizeof(rt)), nl_msec2str(pa->ntp_retrans_time, rt2, sizeof(rt2))); } dp_dump(p, "\n"); return line; } static int neightbl_dump_full(struct nl_object *arg, struct nl_dump_params *p) { char x[32], y[32], z[32]; struct rtnl_neightbl *ntbl = (struct rtnl_neightbl *) arg; int line = neightbl_dump_brief(arg, p); if (ntbl->ce_mask & NEIGHTBL_ATTR_CONFIG) { dp_new_line(p, line++); dp_dump(p, " key-len %u entry-size %u last-flush %s\n", ntbl->nt_config.ndtc_key_len, ntbl->nt_config.ndtc_entry_size, nl_msec2str(ntbl->nt_config.ndtc_last_flush, x, sizeof(x))); dp_new_line(p, line++); dp_dump(p, " gc threshold %u/%u/%u interval %s " \ "chain-position %u\n", ntbl->nt_gc_thresh1, ntbl->nt_gc_thresh2, ntbl->nt_gc_thresh3, nl_msec2str(ntbl->nt_gc_interval, x, sizeof(x)), ntbl->nt_config.ndtc_hash_chain_gc); dp_new_line(p, line++); dp_dump(p, " hash-rand 0x%08X/0x%08X last-rand %s\n", ntbl->nt_config.ndtc_hash_rnd, ntbl->nt_config.ndtc_hash_mask, nl_msec2str(ntbl->nt_config.ndtc_last_rand, x, sizeof(x))); } if (ntbl->ce_mask & NEIGHTBL_ATTR_PARMS) { struct rtnl_neightbl_parms *pa = &ntbl->nt_parms; dp_new_line(p, line++); dp_dump(p, " refcnt %u pending-queue-limit %u " \ "proxy-delayed-queue-limit %u\n", pa->ntp_refcnt, pa->ntp_queue_len, pa->ntp_proxy_qlen); dp_new_line(p, line++); dp_dump(p, " num-userspace-probes %u num-unicast-probes " \ "%u num-multicast-probes %u\n", pa->ntp_app_probes, pa->ntp_ucast_probes, pa->ntp_mcast_probes); dp_new_line(p, line++); dp_dump(p, " min-age %s base-reachable-time %s " \ "stale-check-interval %s\n", nl_msec2str(pa->ntp_locktime, x, sizeof(x)), nl_msec2str(pa->ntp_base_reachable_time, y, sizeof(y)), nl_msec2str(pa->ntp_gc_stale_time, z, sizeof(z))); dp_new_line(p, line++); dp_dump(p, " initial-probe-delay %s answer-delay %s " \ "proxy-answer-delay %s\n", nl_msec2str(pa->ntp_probe_delay, x, sizeof(x)), nl_msec2str(pa->ntp_anycast_delay, y, sizeof(y)), nl_msec2str(pa->ntp_proxy_delay, z, sizeof(z))); } return line; } static int neightbl_dump_stats(struct nl_object *arg, struct nl_dump_params *p) { struct rtnl_neightbl *ntbl = (struct rtnl_neightbl *) arg; int line = neightbl_dump_full(arg, p); if (!(ntbl->ce_mask & NEIGHTBL_ATTR_STATS)) return line; dp_new_line(p, line++); dp_dump(p, " lookups %lld hits %lld failed %lld " \ "allocations %lld destroys %lld\n", ntbl->nt_stats.ndts_lookups, ntbl->nt_stats.ndts_hits, ntbl->nt_stats.ndts_res_failed, ntbl->nt_stats.ndts_allocs, ntbl->nt_stats.ndts_destroys); dp_new_line(p, line++); dp_dump(p, " hash-grows %lld forced-gc-runs %lld " \ "periodic-gc-runs %lld\n", ntbl->nt_stats.ndts_hash_grows, ntbl->nt_stats.ndts_forced_gc_runs, ntbl->nt_stats.ndts_periodic_gc_runs); dp_dump(p, " rcv-unicast-probes %lld rcv-multicast-probes %lld\n", ntbl->nt_stats.ndts_rcv_probes_ucast, ntbl->nt_stats.ndts_rcv_probes_mcast); return line; } /** * @name Allocation/Freeing * @{ */ struct rtnl_neightbl *rtnl_neightbl_alloc(void) { return (struct rtnl_neightbl *) nl_object_alloc(&neightbl_obj_ops); } void rtnl_neightbl_put(struct rtnl_neightbl *neightbl) { nl_object_put((struct nl_object *) neightbl); } /** @} */ /** * @name Neighbour Table Cache Management * @{ */ /** * Build a neighbour table cache including all neighbour tables currently configured in the kernel. * @arg handle netlink handle * * Allocates a new neighbour table cache, initializes it properly and * updates it to include all neighbour tables currently configured in * the kernel. * * @note The caller is responsible for destroying and freeing the * cache after using it. * @return The new cache or NULL if an error occured. */ struct nl_cache * rtnl_neightbl_alloc_cache(struct nl_handle *handle) { struct nl_cache * cache; cache = nl_cache_alloc(&rtnl_neightbl_ops); if (cache == NULL) return NULL; if (handle && nl_cache_refill(handle, cache) < 0) { nl_cache_free(cache); return NULL; } return cache; } /** * Lookup neighbour table by name and optional interface index * @arg cache neighbour table cache * @arg name name of table * @arg ifindex optional interface index * * Looks up the neighbour table matching the specified name and * optionally the specified ifindex to retrieve device specific * parameter sets. * * @return ptr to neighbour table inside the cache or NULL if no * match was found. */ struct rtnl_neightbl *rtnl_neightbl_get(struct nl_cache *cache, const char *name, int ifindex) { struct rtnl_neightbl *nt; if (cache->c_ops != &rtnl_neightbl_ops) return NULL; nl_list_for_each_entry(nt, &cache->c_items, ce_list) { if (!strcasecmp(nt->nt_name, name) && ((!ifindex && !nt->nt_parms.ntp_ifindex) || (ifindex && ifindex == nt->nt_parms.ntp_ifindex))) { nl_object_get((struct nl_object *) nt); return nt; } } return NULL; } /** @} */ /** * @name Neighbour Table Modifications * @{ */ /** * Builds a netlink change request message to change neighbour table attributes * @arg old neighbour table to change * @arg tmpl template with requested changes * * Builds a new netlink message requesting a change of neighbour table * 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 neighbour table currently configured in the * kernel and \a tmpl must contain the attributes to be changed set via * \c rtnl_neightbl_set_* functions. * * @return New netlink message */ struct nl_msg * rtnl_neightbl_build_change_request(struct rtnl_neightbl *old, struct rtnl_neightbl *tmpl) { struct nl_msg *m; struct ndtmsg ndt = { .ndtm_family = old->nt_family, }; m = nlmsg_alloc_simple(RTM_SETNEIGHTBL, 0); nlmsg_append(m, &ndt, sizeof(ndt), NLMSG_ALIGNTO); nla_put_string(m, NDTA_NAME, old->nt_name); if (tmpl->ce_mask & NEIGHTBL_ATTR_THRESH1) nla_put_u32(m, NDTA_THRESH1, tmpl->nt_gc_thresh1); if (tmpl->ce_mask & NEIGHTBL_ATTR_THRESH2) nla_put_u32(m, NDTA_THRESH2, tmpl->nt_gc_thresh2); if (tmpl->ce_mask & NEIGHTBL_ATTR_THRESH2) nla_put_u32(m, NDTA_THRESH2, tmpl->nt_gc_thresh2); if (tmpl->ce_mask & NEIGHTBL_ATTR_GC_INTERVAL) nla_put_u64(m, NDTA_GC_INTERVAL, tmpl->nt_gc_interval); if (tmpl->ce_mask & NEIGHTBL_ATTR_PARMS) { struct rtnl_neightbl_parms *p = &tmpl->nt_parms; struct nl_msg *parms = nlmsg_alloc(); if (old->nt_parms.ntp_mask & NEIGHTBLPARM_ATTR_IFINDEX) nla_put_u32(parms, NDTPA_IFINDEX, old->nt_parms.ntp_ifindex); if (p->ntp_mask & NEIGHTBLPARM_ATTR_QUEUE_LEN) nla_put_u32(parms, NDTPA_QUEUE_LEN, p->ntp_queue_len); if (p->ntp_mask & NEIGHTBLPARM_ATTR_APP_PROBES) nla_put_u32(parms, NDTPA_APP_PROBES, p->ntp_app_probes); if (p->ntp_mask & NEIGHTBLPARM_ATTR_UCAST_PROBES) nla_put_u32(parms, NDTPA_UCAST_PROBES, p->ntp_ucast_probes); if (p->ntp_mask & NEIGHTBLPARM_ATTR_MCAST_PROBES) nla_put_u32(parms, NDTPA_MCAST_PROBES, p->ntp_mcast_probes); if (p->ntp_mask & NEIGHTBLPARM_ATTR_PROXY_QLEN) nla_put_u32(parms, NDTPA_PROXY_QLEN, p->ntp_proxy_qlen); if (p->ntp_mask & NEIGHTBLPARM_ATTR_BASE_REACHABLE_TIME) nla_put_u64(parms, NDTPA_BASE_REACHABLE_TIME, p->ntp_base_reachable_time); if (p->ntp_mask & NEIGHTBLPARM_ATTR_RETRANS_TIME) nla_put_u64(parms, NDTPA_RETRANS_TIME, p->ntp_retrans_time); if (p->ntp_mask & NEIGHTBLPARM_ATTR_GC_STALETIME) nla_put_u64(parms, NDTPA_GC_STALETIME, p->ntp_gc_stale_time); if (p->ntp_mask & NEIGHTBLPARM_ATTR_DELAY_PROBE_TIME) nla_put_u64(parms, NDTPA_DELAY_PROBE_TIME, p->ntp_proxy_delay); if (p->ntp_mask & NEIGHTBLPARM_ATTR_ANYCAST_DELAY) nla_put_u64(parms, NDTPA_ANYCAST_DELAY, p->ntp_anycast_delay); if (p->ntp_mask & NEIGHTBLPARM_ATTR_PROXY_DELAY) nla_put_u64(parms, NDTPA_PROXY_DELAY, p->ntp_proxy_delay); if (p->ntp_mask & NEIGHTBLPARM_ATTR_LOCKTIME) nla_put_u64(parms, NDTPA_LOCKTIME, p->ntp_locktime); nla_put_nested(m, NDTA_PARMS, parms); nlmsg_free(parms); } return m; } /** * Change neighbour table attributes * @arg handle netlink handle * @arg old neighbour table to be changed * @arg tmpl template with requested changes * * Builds a new netlink message by calling * rtnl_neightbl_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 */ int rtnl_neightbl_change(struct nl_handle *handle, struct rtnl_neightbl *old, struct rtnl_neightbl *tmpl) { int err; struct nl_msg *msg; msg = rtnl_neightbl_build_change_request(old, tmpl); err = nl_send_auto_complete(handle, msg); if (err < 0) return err; nlmsg_free(msg); return nl_wait_for_ack(handle); } /** @} */ /** * @name Attribute Modification * @{ */ void rtnl_neightbl_set_family(struct rtnl_neightbl *ntbl, int family) { ntbl->nt_family = family; ntbl->ce_mask |= NEIGHTBL_ATTR_FAMILY; } void rtnl_neightbl_set_gc_interval(struct rtnl_neightbl *ntbl, uint64_t ms) { ntbl->nt_gc_interval = ms; ntbl->ce_mask |= NEIGHTBL_ATTR_GC_INTERVAL; } void rtnl_neightbl_set_gc_tresh1(struct rtnl_neightbl *ntbl, int thresh) { ntbl->nt_gc_thresh1 = thresh; ntbl->ce_mask |= NEIGHTBL_ATTR_THRESH1; } void rtnl_neightbl_set_gc_tresh2(struct rtnl_neightbl *ntbl, int thresh) { ntbl->nt_gc_thresh2 = thresh; ntbl->ce_mask |= NEIGHTBL_ATTR_THRESH2; } void rtnl_neightbl_set_gc_tresh3(struct rtnl_neightbl *ntbl, int thresh) { ntbl->nt_gc_thresh3 = thresh; ntbl->ce_mask |= NEIGHTBL_ATTR_THRESH3; } void rtnl_neightbl_set_name(struct rtnl_neightbl *ntbl, const char *name) { strncpy(ntbl->nt_name, name, sizeof(ntbl->nt_name) - 1); ntbl->ce_mask |= NEIGHTBL_ATTR_NAME; } void rtnl_neightbl_set_dev(struct rtnl_neightbl *ntbl, int ifindex) { ntbl->nt_parms.ntp_ifindex = ifindex; ntbl->nt_parms.ntp_mask |= NEIGHTBLPARM_ATTR_IFINDEX; ntbl->ce_mask |= NEIGHTBL_ATTR_PARMS; } /** * Set the queue length for pending requests of a neighbour table to the specified value * @arg ntbl neighbour table to change * @arg len new queue len */ void rtnl_neightbl_set_queue_len(struct rtnl_neightbl *ntbl, int len) { ntbl->nt_parms.ntp_queue_len = len; ntbl->nt_parms.ntp_mask |= NEIGHTBLPARM_ATTR_QUEUE_LEN; ntbl->ce_mask |= NEIGHTBL_ATTR_PARMS; } /** * Set the queue length for delay proxy arp requests of a neighbour table to the specified value * @arg ntbl neighbour table to change * @arg len new queue len */ void rtnl_neightbl_set_proxy_queue_len(struct rtnl_neightbl *ntbl, int len) { ntbl->nt_parms.ntp_proxy_qlen = len; ntbl->nt_parms.ntp_mask |= NEIGHTBLPARM_ATTR_PROXY_QLEN; ntbl->ce_mask |= NEIGHTBL_ATTR_PARMS; } /** * Set the number of application probes of a neighbour table to the specified value * @arg ntbl neighbour table to change * @arg probes new probes value */ void rtnl_neightbl_set_app_probes(struct rtnl_neightbl *ntbl, int probes) { ntbl->nt_parms.ntp_app_probes = probes; ntbl->nt_parms.ntp_mask |= NEIGHTBLPARM_ATTR_APP_PROBES; ntbl->ce_mask |= NEIGHTBL_ATTR_PARMS; } /** * Set the number of unicast probes of a neighbour table to the specified value * @arg ntbl neighbour table to change * @arg probes new probes value */ void rtnl_neightbl_set_ucast_probes(struct rtnl_neightbl *ntbl, int probes) { ntbl->nt_parms.ntp_ucast_probes = probes; ntbl->nt_parms.ntp_mask |= NEIGHTBLPARM_ATTR_UCAST_PROBES; ntbl->ce_mask |= NEIGHTBL_ATTR_PARMS; } /** * Set the number of multicast probes of a neighbour table to the specified value * @arg ntbl neighbour table to change * @arg probes new probes value */ void rtnl_neightbl_set_mcast_probes(struct rtnl_neightbl *ntbl, int probes) { ntbl->nt_parms.ntp_mcast_probes = probes; ntbl->nt_parms.ntp_mask |= NEIGHTBLPARM_ATTR_MCAST_PROBES; ntbl->ce_mask |= NEIGHTBL_ATTR_PARMS; } /** * Set the base reachable time of a neighbour table to the specified value * @arg ntbl neighbour table to change * @arg ms new base reachable time in milliseconds */ void rtnl_neightbl_set_base_reachable_time(struct rtnl_neightbl *ntbl, uint64_t ms) { ntbl->nt_parms.ntp_base_reachable_time = ms; ntbl->nt_parms.ntp_mask |= NEIGHTBLPARM_ATTR_BASE_REACHABLE_TIME; ntbl->ce_mask |= NEIGHTBL_ATTR_PARMS; } /** * Set the retransmit time of a neighbour table to the specified value * @arg ntbl neighbour table to change * @arg ms new retransmit time */ void rtnl_neightbl_set_retrans_time(struct rtnl_neightbl *ntbl, uint64_t ms) { ntbl->nt_parms.ntp_retrans_time = ms; ntbl->nt_parms.ntp_mask |= NEIGHTBLPARM_ATTR_RETRANS_TIME; ntbl->ce_mask |= NEIGHTBL_ATTR_PARMS; } /** * Set the gc stale time of a neighbour table to the specified value * @arg ntbl neighbour table to change * @arg ms new gc stale time in milliseconds */ void rtnl_neightbl_set_gc_stale_time(struct rtnl_neightbl *ntbl, uint64_t ms) { ntbl->nt_parms.ntp_gc_stale_time = ms; ntbl->nt_parms.ntp_mask |= NEIGHTBLPARM_ATTR_GC_STALETIME; ntbl->ce_mask |= NEIGHTBL_ATTR_PARMS; } /** * Set the first probe delay time of a neighbour table to the specified value * @arg ntbl neighbour table to change * @arg ms new first probe delay time in milliseconds */ void rtnl_neightbl_set_delay_probe_time(struct rtnl_neightbl *ntbl, uint64_t ms) { ntbl->nt_parms.ntp_probe_delay = ms; ntbl->nt_parms.ntp_mask |= NEIGHTBLPARM_ATTR_DELAY_PROBE_TIME; ntbl->ce_mask |= NEIGHTBL_ATTR_PARMS; } /** * Set the anycast delay of a neighbour table to the specified value * @arg ntbl neighbour table to change * @arg ms new anycast delay in milliseconds */ void rtnl_neightbl_set_anycast_delay(struct rtnl_neightbl *ntbl, uint64_t ms) { ntbl->nt_parms.ntp_anycast_delay = ms; ntbl->nt_parms.ntp_mask |= NEIGHTBLPARM_ATTR_ANYCAST_DELAY; ntbl->ce_mask |= NEIGHTBL_ATTR_PARMS; } /** * Set the proxy delay of a neighbour table to the specified value * @arg ntbl neighbour table to change * @arg ms new proxy delay in milliseconds */ void rtnl_neightbl_set_proxy_delay(struct rtnl_neightbl *ntbl, uint64_t ms) { ntbl->nt_parms.ntp_proxy_delay = ms; ntbl->nt_parms.ntp_mask |= NEIGHTBLPARM_ATTR_PROXY_DELAY; ntbl->ce_mask |= NEIGHTBL_ATTR_PARMS; } /** * Set the locktime of a neighbour table to the specified value * @arg ntbl neighbour table to change * @arg ms new locktime in milliseconds */ void rtnl_neightbl_set_locktime(struct rtnl_neightbl *ntbl, uint64_t ms) { ntbl->nt_parms.ntp_locktime = ms; ntbl->nt_parms.ntp_mask |= NEIGHTBLPARM_ATTR_LOCKTIME; ntbl->ce_mask |= NEIGHTBL_ATTR_PARMS; } /** @} */ static struct nl_object_ops neightbl_obj_ops = { .oo_name = "route/neightbl", .oo_size = sizeof(struct rtnl_neightbl), .oo_dump[NL_DUMP_BRIEF] = neightbl_dump_brief, .oo_dump[NL_DUMP_FULL] = neightbl_dump_full, .oo_dump[NL_DUMP_STATS] = neightbl_dump_stats, .oo_compare = neightbl_compare, }; static struct nl_cache_ops rtnl_neightbl_ops = { .co_name = "route/neightbl", .co_hdrsize = sizeof(struct rtgenmsg), .co_msgtypes = { { RTM_NEWNEIGHTBL, NL_ACT_NEW, "new" }, { RTM_SETNEIGHTBL, NL_ACT_SET, "set" }, { RTM_GETNEIGHTBL, NL_ACT_GET, "get" }, END_OF_MSGTYPES_LIST, }, .co_protocol = NETLINK_ROUTE, .co_request_update = neightbl_request_update, .co_msg_parser = neightbl_msg_parser, .co_obj_ops = &neightbl_obj_ops, }; static void __init neightbl_init(void) { nl_cache_mngt_register(&rtnl_neightbl_ops); } static void __exit neightbl_exit(void) { nl_cache_mngt_unregister(&rtnl_neightbl_ops); } /** @} */