/* * lib/idiag/idiagnl_msg_obj.c Inet Diag Message Object * * 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) 2013 Sassano Systems LLC <joe@sassanosystems.com> */ #include <netlink-private/netlink.h> #include <netlink/idiag/msg.h> #include <netlink/idiag/meminfo.h> #include <netlink/idiag/vegasinfo.h> #include <linux/inet_diag.h> /** * @ingroup idiag * @defgroup idiagnl_msg Inet Diag Messages * * @details * @idiagnl_doc{idiagnl_msg, Inet Diag Message Documentation} * @{ */ struct idiagnl_msg *idiagnl_msg_alloc(void) { return (struct idiagnl_msg *) nl_object_alloc(&idiagnl_msg_obj_ops); } void idiagnl_msg_get(struct idiagnl_msg *msg) { nl_object_get((struct nl_object *) msg); } void idiagnl_msg_put(struct idiagnl_msg *msg) { nl_object_put((struct nl_object *) msg); } static struct nl_cache_ops idiagnl_msg_ops; static int idiagnl_msg_parser(struct nl_cache_ops *ops, struct sockaddr_nl *who, struct nlmsghdr *nlh, struct nl_parser_param *pp) { struct idiagnl_msg *msg = NULL; int err = 0; if ((err = idiagnl_msg_parse(nlh, &msg)) < 0) return err; err = pp->pp_cb((struct nl_object *) msg, pp); idiagnl_msg_put(msg); return err; } static int idiagnl_request_update(struct nl_cache *cache, struct nl_sock *sk) { int family = cache->c_iarg1; int states = cache->c_iarg2; return idiagnl_send_simple(sk, 0, family, states, IDIAG_ATTR_ALL); } static struct nl_cache_ops idiagnl_msg_ops = { .co_name = "idiag/idiag", .co_hdrsize = sizeof(struct inet_diag_msg), .co_msgtypes = { { IDIAG_TCPDIAG_GETSOCK, NL_ACT_NEW, "new" }, { IDIAG_DCCPDIAG_GETSOCK, NL_ACT_NEW, "new" }, END_OF_MSGTYPES_LIST, }, .co_protocol = NETLINK_INET_DIAG, .co_request_update = idiagnl_request_update, .co_msg_parser = idiagnl_msg_parser, .co_obj_ops = &idiagnl_msg_obj_ops, }; static void __init idiagnl_init(void) { nl_cache_mngt_register(&idiagnl_msg_ops); } static void __exit idiagnl_exit(void) { nl_cache_mngt_unregister(&idiagnl_msg_ops); } /** * @name Cache Management * @{ */ /** * Build an inetdiag cache to hold socket state information. * @arg sk Netlink socket * @arg family The address family to query * @arg states Socket states to query * @arg result Result pointer * * @note The caller is responsible for destroying and free the cache after using * it. * @return 0 on success of a negative error code. */ int idiagnl_msg_alloc_cache(struct nl_sock *sk, int family, int states, struct nl_cache **result) { struct nl_cache *cache = NULL; int err; if (!(cache = nl_cache_alloc(&idiagnl_msg_ops))) return -NLE_NOMEM; cache->c_iarg1 = family; cache->c_iarg2 = states; if (sk && (err = nl_cache_refill(sk, cache)) < 0) { free(cache); return err; } *result = cache; return 0; } /** @} */ /** * @name Attributes * @{ */ uint8_t idiagnl_msg_get_family(const struct idiagnl_msg *msg) { return msg->idiag_family; } void idiagnl_msg_set_family(struct idiagnl_msg *msg, uint8_t family) { msg->idiag_family = family; } uint8_t idiagnl_msg_get_state(const struct idiagnl_msg *msg) { return msg->idiag_state; } void idiagnl_msg_set_state(struct idiagnl_msg *msg, uint8_t state) { msg->idiag_state = state; } uint8_t idiagnl_msg_get_timer(const struct idiagnl_msg *msg) { return msg->idiag_timer; } void idiagnl_msg_set_timer(struct idiagnl_msg *msg, uint8_t timer) { msg->idiag_timer = timer; } uint8_t idiagnl_msg_get_retrans(const struct idiagnl_msg *msg) { return msg->idiag_retrans; } void idiagnl_msg_set_retrans(struct idiagnl_msg *msg, uint8_t retrans) { msg->idiag_retrans = retrans; } uint16_t idiagnl_msg_get_sport(struct idiagnl_msg *msg) { return msg->idiag_sport; } void idiagnl_msg_set_sport(struct idiagnl_msg *msg, uint16_t port) { msg->idiag_sport = port; } uint16_t idiagnl_msg_get_dport(struct idiagnl_msg *msg) { return msg->idiag_dport; } void idiagnl_msg_set_dport(struct idiagnl_msg *msg, uint16_t port) { msg->idiag_dport = port; } struct nl_addr *idiagnl_msg_get_src(const struct idiagnl_msg *msg) { return msg->idiag_src; } int idiagnl_msg_set_src(struct idiagnl_msg *msg, struct nl_addr *addr) { if (msg->idiag_src) nl_addr_put(msg->idiag_src); nl_addr_get(addr); msg->idiag_src = addr; return 0; } struct nl_addr *idiagnl_msg_get_dst(const struct idiagnl_msg *msg) { return msg->idiag_dst; } int idiagnl_msg_set_dst(struct idiagnl_msg *msg, struct nl_addr *addr) { if (msg->idiag_dst) nl_addr_put(msg->idiag_dst); nl_addr_get(addr); msg->idiag_dst = addr; return 0; } uint32_t idiagnl_msg_get_ifindex(const struct idiagnl_msg *msg) { return msg->idiag_ifindex; } void idiagnl_msg_set_ifindex(struct idiagnl_msg *msg, uint32_t ifindex) { msg->idiag_ifindex = ifindex; } uint32_t idiagnl_msg_get_expires(const struct idiagnl_msg *msg) { return msg->idiag_expires; } void idiagnl_msg_set_expires(struct idiagnl_msg *msg, uint32_t expires) { msg->idiag_expires = expires; } uint32_t idiagnl_msg_get_rqueue(const struct idiagnl_msg *msg) { return msg->idiag_rqueue; } void idiagnl_msg_set_rqueue(struct idiagnl_msg *msg, uint32_t rqueue) { msg->idiag_rqueue = rqueue; } uint32_t idiagnl_msg_get_wqueue(const struct idiagnl_msg *msg) { return msg->idiag_wqueue; } void idiagnl_msg_set_wqueue(struct idiagnl_msg *msg, uint32_t wqueue) { msg->idiag_wqueue = wqueue; } uint32_t idiagnl_msg_get_uid(const struct idiagnl_msg *msg) { return msg->idiag_uid; } void idiagnl_msg_set_uid(struct idiagnl_msg *msg, uint32_t uid) { msg->idiag_uid = uid; } uint32_t idiagnl_msg_get_inode(const struct idiagnl_msg *msg) { return msg->idiag_inode; } void idiagnl_msg_set_inode(struct idiagnl_msg *msg, uint32_t inode) { msg->idiag_inode = inode; } uint8_t idiagnl_msg_get_tos(const struct idiagnl_msg *msg) { return msg->idiag_tos; } void idiagnl_msg_set_tos(struct idiagnl_msg *msg, uint8_t tos) { msg->idiag_tos = tos; } uint8_t idiagnl_msg_get_tclass(const struct idiagnl_msg *msg) { return msg->idiag_tclass; } void idiagnl_msg_set_tclass(struct idiagnl_msg *msg, uint8_t tclass) { msg->idiag_tclass = tclass; } uint8_t idiagnl_msg_get_shutdown(const struct idiagnl_msg *msg) { return msg->idiag_shutdown; } void idiagnl_msg_set_shutdown(struct idiagnl_msg *msg, uint8_t shutdown) { msg->idiag_shutdown = shutdown; } char *idiagnl_msg_get_cong(const struct idiagnl_msg *msg) { return msg->idiag_cong; } void idiagnl_msg_set_cong(struct idiagnl_msg *msg, char *cong) { msg->idiag_cong = strdup(cong); } struct idiagnl_meminfo *idiagnl_msg_get_meminfo(const struct idiagnl_msg *msg) { return msg->idiag_meminfo; } void idiagnl_msg_set_meminfo(struct idiagnl_msg *msg, struct idiagnl_meminfo *minfo) { if (msg->idiag_meminfo) idiagnl_meminfo_put(msg->idiag_meminfo); idiagnl_meminfo_get(minfo); msg->idiag_meminfo = minfo; } struct idiagnl_vegasinfo *idiagnl_msg_get_vegasinfo(const struct idiagnl_msg *msg) { return msg->idiag_vegasinfo; } void idiagnl_msg_set_vegasinfo(struct idiagnl_msg *msg, struct idiagnl_vegasinfo *vinfo) { if (msg->idiag_vegasinfo) idiagnl_vegasinfo_put(msg->idiag_vegasinfo); idiagnl_vegasinfo_get(vinfo); msg->idiag_vegasinfo = vinfo; } struct tcp_info idiagnl_msg_get_tcpinfo(const struct idiagnl_msg *msg) { return msg->idiag_tcpinfo; } void idiagnl_msg_set_tcpinfo(struct idiagnl_msg *msg, struct tcp_info *tinfo) { memcpy(&msg->idiag_tcpinfo, tinfo, sizeof(struct tcp_info)); } /** @} */ static void idiag_msg_dump_line(struct nl_object *a, struct nl_dump_params *p) { struct idiagnl_msg *msg = (struct idiagnl_msg *) a; char buf[64] = { 0 }; nl_dump_line(p, "family: %s ", nl_af2str(msg->idiag_family, buf, sizeof(buf))); nl_dump(p, "src: %s:%d ", nl_addr2str(msg->idiag_src, buf, sizeof(buf)), ntohs(msg->idiag_sport)); nl_dump(p, "dst: %s:%d ", nl_addr2str(msg->idiag_dst, buf, sizeof(buf)), ntohs(msg->idiag_dport)); nl_dump(p, "iif: %d ", msg->idiag_ifindex); nl_dump(p, "\n"); } static void idiag_msg_dump_details(struct nl_object *a, struct nl_dump_params *p) { struct idiagnl_msg *msg = (struct idiagnl_msg *) a; char buf[64], buf2[64]; nl_dump(p, "\nfamily: %s\n", nl_af2str(msg->idiag_family, buf, sizeof(buf))); nl_dump(p, "state: %s\n", idiagnl_state2str(msg->idiag_state, buf, sizeof(buf))); nl_dump(p, "timer (%s, %s, retransmits: %d)\n", idiagnl_timer2str(msg->idiag_timer, buf, sizeof(buf)), nl_msec2str(msg->idiag_expires, buf2, sizeof(buf2)), msg->idiag_retrans); nl_dump(p, "source: %s:%d\n", nl_addr2str(msg->idiag_src, buf, sizeof(buf)), ntohs(msg->idiag_sport)); nl_dump(p, "destination: %s:%d\n", nl_addr2str(msg->idiag_dst, buf, sizeof(buf)), ntohs(msg->idiag_dport)); nl_dump(p, "ifindex: %d\n", msg->idiag_ifindex); nl_dump(p, "rqueue: %-6d wqueue: %-6d\n", msg->idiag_rqueue, msg->idiag_wqueue); nl_dump(p, "uid %d\n", msg->idiag_uid); nl_dump(p, "inode %d\n", msg->idiag_inode); if (msg->idiag_shutdown) { nl_dump(p, "socket shutdown: %s\n", idiagnl_shutdown2str(msg->idiag_shutdown, buf, sizeof(buf))); } nl_dump(p, "tos: 0x%x\n", msg->idiag_tos); nl_dump(p, "traffic class: %d\n", msg->idiag_tclass); nl_dump(p, "congestion algorithm: %s\n", msg->idiag_cong); } static void idiag_msg_dump_stats(struct nl_object *obj, struct nl_dump_params *p) { struct idiagnl_msg *msg = (struct idiagnl_msg *) obj; char buf[64]; idiag_msg_dump_details(obj, p); nl_dump(p, "tcp info: [\n"); nl_dump(p, "\tsocket state: %s\n", idiagnl_state2str(msg->idiag_tcpinfo.tcpi_state, buf, sizeof(buf))); nl_dump(p, "\ttcp state: %s\n", idiagnl_tcpstate2str(msg->idiag_tcpinfo.tcpi_ca_state, buf, sizeof(buf))); nl_dump(p, "\tretransmits: %d\n", msg->idiag_tcpinfo.tcpi_retransmits); nl_dump(p, "\tprobes: %d\n", msg->idiag_tcpinfo.tcpi_probes); nl_dump(p, "\tbackoff: %d\n", msg->idiag_tcpinfo.tcpi_backoff); nl_dump(p, "\toptions: %s\n", idiagnl_tcpopts2str(msg->idiag_tcpinfo.tcpi_options, buf, sizeof(buf))); nl_dump(p, "\tsnd_wscale: %d\n", msg->idiag_tcpinfo.tcpi_snd_wscale); nl_dump(p, "\trcv_wscale: %d\n", msg->idiag_tcpinfo.tcpi_rcv_wscale); nl_dump(p, "\trto: %d\n", msg->idiag_tcpinfo.tcpi_rto); nl_dump(p, "\tato: %d\n", msg->idiag_tcpinfo.tcpi_ato); nl_dump(p, "\tsnd_mss: %s\n", nl_size2str(msg->idiag_tcpinfo.tcpi_snd_mss, buf, sizeof(buf))); nl_dump(p, "\trcv_mss: %s\n", nl_size2str(msg->idiag_tcpinfo.tcpi_rcv_mss, buf, sizeof(buf))); nl_dump(p, "\tunacked: %d\n", msg->idiag_tcpinfo.tcpi_unacked); nl_dump(p, "\tsacked: %d\n", msg->idiag_tcpinfo.tcpi_sacked); nl_dump(p, "\tlost: %d\n", msg->idiag_tcpinfo.tcpi_lost); nl_dump(p, "\tretransmit segments: %d\n", msg->idiag_tcpinfo.tcpi_retrans); nl_dump(p, "\tfackets: %d\n", msg->idiag_tcpinfo.tcpi_fackets); nl_dump(p, "\tlast data sent: %s\n", nl_msec2str(msg->idiag_tcpinfo.tcpi_last_data_sent, buf, sizeof(buf))); nl_dump(p, "\tlast ack sent: %s\n", nl_msec2str(msg->idiag_tcpinfo.tcpi_last_ack_sent, buf, sizeof(buf))); nl_dump(p, "\tlast data recv: %s\n", nl_msec2str(msg->idiag_tcpinfo.tcpi_last_data_recv, buf, sizeof(buf))); nl_dump(p, "\tlast ack recv: %s\n", nl_msec2str(msg->idiag_tcpinfo.tcpi_last_ack_recv, buf, sizeof(buf))); nl_dump(p, "\tpath mtu: %s\n", nl_size2str(msg->idiag_tcpinfo.tcpi_pmtu, buf, sizeof(buf))); nl_dump(p, "\trcv ss threshold: %d\n", msg->idiag_tcpinfo.tcpi_rcv_ssthresh); nl_dump(p, "\tsmoothed round trip time: %d\n", msg->idiag_tcpinfo.tcpi_rtt); nl_dump(p, "\tround trip time variation: %d\n", msg->idiag_tcpinfo.tcpi_rttvar); nl_dump(p, "\tsnd ss threshold: %s\n", nl_size2str(msg->idiag_tcpinfo.tcpi_snd_ssthresh, buf, sizeof(buf))); nl_dump(p, "\tsend congestion window: %d\n", msg->idiag_tcpinfo.tcpi_snd_cwnd); nl_dump(p, "\tadvertised mss: %s\n", nl_size2str(msg->idiag_tcpinfo.tcpi_advmss, buf, sizeof(buf))); nl_dump(p, "\treordering: %d\n", msg->idiag_tcpinfo.tcpi_reordering); nl_dump(p, "\trcv rround trip time: %d\n", msg->idiag_tcpinfo.tcpi_rcv_rtt); nl_dump(p, "\treceive queue space: %s\n", nl_size2str(msg->idiag_tcpinfo.tcpi_rcv_space, buf, sizeof(buf))); nl_dump(p, "\ttotal retransmits: %d\n", msg->idiag_tcpinfo.tcpi_total_retrans); nl_dump(p, "]\n"); if (msg->idiag_meminfo) { nl_dump(p, "meminfo: [\n"); nl_dump(p, "\trmem: %s\n", nl_size2str(msg->idiag_meminfo->idiag_rmem, buf, sizeof(buf))); nl_dump(p, "\twmem: %s\n", nl_size2str(msg->idiag_meminfo->idiag_wmem, buf, sizeof(buf))); nl_dump(p, "\tfmem: %s\n", nl_size2str(msg->idiag_meminfo->idiag_fmem, buf, sizeof(buf))); nl_dump(p, "\ttmem: %s\n", nl_size2str(msg->idiag_meminfo->idiag_tmem, buf, sizeof(buf))); nl_dump(p, "]\n"); } if (msg->idiag_vegasinfo) { nl_dump(p, "vegasinfo: [\n"); nl_dump(p, "\tvegas enabled: %d\n", msg->idiag_vegasinfo->tcpv_enabled); if (msg->idiag_vegasinfo->tcpv_enabled) { nl_dump(p, "\trtt cnt: %d", msg->idiag_vegasinfo->tcpv_rttcnt); nl_dump(p, "\trtt (propagation delay): %d", msg->idiag_vegasinfo->tcpv_rtt); nl_dump(p, "\tmin rtt: %d", msg->idiag_vegasinfo->tcpv_minrtt); } nl_dump(p, "]\n"); } nl_dump(p, "skmeminfo: [\n"); nl_dump(p, "\trmem alloc: %d\n", msg->idiag_skmeminfo[IDIAG_SK_MEMINFO_RMEM_ALLOC]); nl_dump(p, "\trcv buf: %s\n", nl_size2str(msg->idiag_skmeminfo[IDIAG_SK_MEMINFO_RCVBUF], buf, sizeof(buf))); nl_dump(p, "\twmem alloc: %d\n", msg->idiag_skmeminfo[IDIAG_SK_MEMINFO_WMEM_ALLOC]); nl_dump(p, "\tsnd buf: %s\n", nl_size2str(msg->idiag_skmeminfo[IDIAG_SK_MEMINFO_SNDBUF], buf, sizeof(buf))); nl_dump(p, "\tfwd alloc: %d\n", msg->idiag_skmeminfo[IDIAG_SK_MEMINFO_FWD_ALLOC]); nl_dump(p, "\twmem queued: %s\n", nl_size2str(msg->idiag_skmeminfo[IDIAG_SK_MEMINFO_WMEM_QUEUED], buf, sizeof(buf))); nl_dump(p, "\topt mem: %d\n", msg->idiag_skmeminfo[IDIAG_SK_MEMINFO_OPTMEM]); nl_dump(p, "\tbacklog: %d\n", msg->idiag_skmeminfo[IDIAG_SK_MEMINFO_BACKLOG]); nl_dump(p, "]\n\n"); } static void idiagnl_msg_free(struct nl_object *a) { struct idiagnl_msg *msg = (struct idiagnl_msg *) a; if (a == NULL) return; free(msg->idiag_cong); nl_addr_put(msg->idiag_src); nl_addr_put(msg->idiag_dst); idiagnl_meminfo_put(msg->idiag_meminfo); idiagnl_vegasinfo_put(msg->idiag_vegasinfo); } static int idiagnl_msg_clone(struct nl_object *_dst, struct nl_object *_src) { struct idiagnl_msg *dst = (struct idiagnl_msg *) _dst; struct idiagnl_msg *src = (struct idiagnl_msg *) _src; if (src->idiag_src) if (!(dst->idiag_src = nl_addr_clone(src->idiag_src))) return -NLE_NOMEM; if (src->idiag_dst) if (!(dst->idiag_dst = nl_addr_clone(src->idiag_dst))) return -NLE_NOMEM; return 0; } static struct nla_policy ext_policy[IDIAG_ATTR_MAX] = { [IDIAG_ATTR_MEMINFO] = { .minlen = sizeof(struct inet_diag_meminfo) }, [IDIAG_ATTR_INFO] = { .minlen = sizeof(struct tcp_info) }, [IDIAG_ATTR_VEGASINFO] = { .minlen = sizeof(struct tcpvegas_info) }, [IDIAG_ATTR_CONG] = { .type = NLA_STRING }, [IDIAG_ATTR_TOS] = { .type = NLA_U8 }, [IDIAG_ATTR_TCLASS] = { .type = NLA_U8 }, [IDIAG_ATTR_SKMEMINFO] = { .minlen = (sizeof(uint32_t) * IDIAG_SK_MEMINFO_VARS) }, [IDIAG_ATTR_SHUTDOWN] = { .type = NLA_U8 }, }; int idiagnl_msg_parse(struct nlmsghdr *nlh, struct idiagnl_msg **result) { struct idiagnl_msg *msg = NULL; struct inet_diag_msg *raw_msg = NULL; struct nl_addr *src = NULL, *dst = NULL; struct nlattr *tb[IDIAG_ATTR_MAX]; int err = 0; msg = idiagnl_msg_alloc(); if (!msg) goto errout_nomem; err = nlmsg_parse(nlh, sizeof(struct inet_diag_msg), tb, IDIAG_ATTR_MAX, ext_policy); if (err < 0) goto errout; raw_msg = nlmsg_data(nlh); msg->idiag_family = raw_msg->idiag_family; msg->idiag_state = raw_msg->idiag_state; msg->idiag_timer = raw_msg->idiag_timer; msg->idiag_retrans = raw_msg->idiag_retrans; msg->idiag_expires = raw_msg->idiag_expires; msg->idiag_rqueue = raw_msg->idiag_rqueue; msg->idiag_wqueue = raw_msg->idiag_wqueue; msg->idiag_uid = raw_msg->idiag_uid; msg->idiag_inode = raw_msg->idiag_inode; msg->idiag_sport = raw_msg->id.idiag_sport; msg->idiag_dport = raw_msg->id.idiag_dport; msg->idiag_ifindex = raw_msg->id.idiag_if; dst = nl_addr_build(raw_msg->idiag_family, raw_msg->id.idiag_dst, sizeof(raw_msg->id.idiag_dst)); if (!dst) goto errout_nomem; err = idiagnl_msg_set_dst(msg, dst); if (err < 0) goto errout; nl_addr_put(dst); src = nl_addr_build(raw_msg->idiag_family, raw_msg->id.idiag_src, sizeof(raw_msg->id.idiag_src)); if (!src) goto errout_nomem; err = idiagnl_msg_set_src(msg, src); if (err < 0) goto errout; nl_addr_put(src); if (tb[IDIAG_ATTR_TOS]) msg->idiag_tos = nla_get_u8(tb[IDIAG_ATTR_TOS]); if (tb[IDIAG_ATTR_TCLASS]) msg->idiag_tclass = nla_get_u8(tb[IDIAG_ATTR_TCLASS]); if (tb[IDIAG_ATTR_SHUTDOWN]) msg->idiag_shutdown = nla_get_u8(tb[IDIAG_ATTR_SHUTDOWN]); if (tb[IDIAG_ATTR_CONG]) msg->idiag_cong = nla_strdup(tb[IDIAG_ATTR_CONG]); if (tb[IDIAG_ATTR_INFO]) nla_memcpy(&msg->idiag_tcpinfo, tb[IDIAG_ATTR_INFO], sizeof(msg->idiag_tcpinfo)); if (tb[IDIAG_ATTR_MEMINFO]) { struct idiagnl_meminfo *minfo = idiagnl_meminfo_alloc(); struct inet_diag_meminfo *raw_minfo = NULL; if (!minfo) goto errout_nomem; raw_minfo = (struct inet_diag_meminfo *) nla_data(tb[IDIAG_ATTR_MEMINFO]); idiagnl_meminfo_set_rmem(minfo, raw_minfo->idiag_rmem); idiagnl_meminfo_set_wmem(minfo, raw_minfo->idiag_wmem); idiagnl_meminfo_set_fmem(minfo, raw_minfo->idiag_fmem); idiagnl_meminfo_set_tmem(minfo, raw_minfo->idiag_tmem); msg->idiag_meminfo = minfo; } if (tb[IDIAG_ATTR_VEGASINFO]) { struct idiagnl_vegasinfo *vinfo = idiagnl_vegasinfo_alloc(); struct tcpvegas_info *raw_vinfo = NULL; if (!vinfo) goto errout_nomem; raw_vinfo = (struct tcpvegas_info *) nla_data(tb[IDIAG_ATTR_VEGASINFO]); idiagnl_vegasinfo_set_enabled(vinfo, raw_vinfo->tcpv_enabled); idiagnl_vegasinfo_set_rttcnt(vinfo, raw_vinfo->tcpv_rttcnt); idiagnl_vegasinfo_set_rtt(vinfo, raw_vinfo->tcpv_rtt); idiagnl_vegasinfo_set_minrtt(vinfo, raw_vinfo->tcpv_minrtt); msg->idiag_vegasinfo = vinfo; } if (tb[IDIAG_ATTR_SKMEMINFO]) nla_memcpy(&msg->idiag_skmeminfo, tb[IDIAG_ATTR_SKMEMINFO], sizeof(msg->idiag_skmeminfo)); *result = msg; return 0; errout: idiagnl_msg_put(msg); return err; errout_nomem: err = -NLE_NOMEM; goto errout; } /** @cond SKIP */ struct nl_object_ops idiagnl_msg_obj_ops = { .oo_name = "idiag/idiag_msg", .oo_size = sizeof(struct idiagnl_msg), .oo_free_data = idiagnl_msg_free, .oo_clone = idiagnl_msg_clone, .oo_dump = { [NL_DUMP_LINE] = idiag_msg_dump_line, [NL_DUMP_DETAILS] = idiag_msg_dump_details, [NL_DUMP_STATS] = idiag_msg_dump_stats, }, .oo_attrs2str = idiagnl_attrs2str, .oo_id_attrs = (IDIAG_ATTR_INFO) }; /** @endcond */ /** @} */