/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2009 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /* * IPv4 netinfo entry point declarations. */ static int ip_getifname(net_handle_t, phy_if_t, char *, const size_t); static int ip_getmtu(net_handle_t, phy_if_t, lif_if_t); static int ip_getpmtuenabled(net_handle_t); static int ip_getlifaddr(net_handle_t, phy_if_t, lif_if_t, size_t, net_ifaddr_t [], void *); static int ip_getlifzone(net_handle_t, phy_if_t, lif_if_t, zoneid_t *); static int ip_getlifflags(net_handle_t, phy_if_t, lif_if_t, uint64_t *); static phy_if_t ip_phygetnext(net_handle_t, phy_if_t); static phy_if_t ip_phylookup(net_handle_t, const char *); static lif_if_t ip_lifgetnext(net_handle_t, phy_if_t, lif_if_t); static int ip_inject(net_handle_t, inject_t, net_inject_t *); static phy_if_t ip_routeto(net_handle_t, struct sockaddr *, struct sockaddr *); static int ip_ispartialchecksum(net_handle_t, mblk_t *); static int ip_isvalidchecksum(net_handle_t, mblk_t *); static int ipv6_getifname(net_handle_t, phy_if_t, char *, const size_t); static int ipv6_getmtu(net_handle_t, phy_if_t, lif_if_t); static int ipv6_getlifaddr(net_handle_t, phy_if_t, lif_if_t, size_t, net_ifaddr_t [], void *); static int ipv6_getlifzone(net_handle_t, phy_if_t, lif_if_t, zoneid_t *); static int ipv6_getlifflags(net_handle_t, phy_if_t, lif_if_t, uint64_t *); static phy_if_t ipv6_phygetnext(net_handle_t, phy_if_t); static phy_if_t ipv6_phylookup(net_handle_t, const char *); static lif_if_t ipv6_lifgetnext(net_handle_t, phy_if_t, lif_if_t); static int ipv6_inject(net_handle_t, inject_t, net_inject_t *); static phy_if_t ipv6_routeto(net_handle_t, struct sockaddr *, struct sockaddr *); static int ipv6_isvalidchecksum(net_handle_t, mblk_t *); /* Netinfo private functions */ static int ip_getifname_impl(phy_if_t, char *, const size_t, boolean_t, ip_stack_t *); static int ip_getmtu_impl(phy_if_t, lif_if_t, boolean_t, ip_stack_t *); static phy_if_t ip_phylookup_impl(const char *, boolean_t, ip_stack_t *); static lif_if_t ip_lifgetnext_impl(phy_if_t, lif_if_t, boolean_t, ip_stack_t *); static int ip_inject_impl(inject_t, net_inject_t *, boolean_t, ip_stack_t *); static int ip_getifaddr_type(sa_family_t, ipif_t *, lif_if_t, void *); static phy_if_t ip_routeto_impl(struct sockaddr *, struct sockaddr *, ip_stack_t *); static int ip_getlifaddr_impl(sa_family_t, phy_if_t, lif_if_t, size_t, net_ifaddr_t [], struct sockaddr *, ip_stack_t *); static void ip_ni_queue_in_func(void *); static void ip_ni_queue_out_func(void *); static void ip_ni_queue_func_impl(injection_t *, boolean_t); static net_protocol_t ipv4info = { NETINFO_VERSION, NHF_INET, ip_getifname, ip_getmtu, ip_getpmtuenabled, ip_getlifaddr, ip_getlifzone, ip_getlifflags, ip_phygetnext, ip_phylookup, ip_lifgetnext, ip_inject, ip_routeto, ip_ispartialchecksum, ip_isvalidchecksum }; static net_protocol_t ipv6info = { NETINFO_VERSION, NHF_INET6, ipv6_getifname, ipv6_getmtu, ip_getpmtuenabled, ipv6_getlifaddr, ipv6_getlifzone, ipv6_getlifflags, ipv6_phygetnext, ipv6_phylookup, ipv6_lifgetnext, ipv6_inject, ipv6_routeto, ip_ispartialchecksum, ipv6_isvalidchecksum }; /* * The taskq eventq_queue_in is used to process the upside inject messages. * The taskq eventq_queue_out is used to process the downside inject messages. * The taskq eventq_queue_nic is used to process the nic event messages. */ static ddi_taskq_t *eventq_queue_in = NULL; static ddi_taskq_t *eventq_queue_out = NULL; ddi_taskq_t *eventq_queue_nic = NULL; /* * Initialize queues for inject. */ void ip_net_g_init() { if (eventq_queue_out == NULL) { eventq_queue_out = ddi_taskq_create(NULL, "IP_INJECT_QUEUE_OUT", 1, TASKQ_DEFAULTPRI, 0); if (eventq_queue_out == NULL) cmn_err(CE_NOTE, "ipv4_net_init: " "ddi_taskq_create failed for IP_INJECT_QUEUE_OUT"); } if (eventq_queue_in == NULL) { eventq_queue_in = ddi_taskq_create(NULL, "IP_INJECT_QUEUE_IN", 1, TASKQ_DEFAULTPRI, 0); if (eventq_queue_in == NULL) cmn_err(CE_NOTE, "ipv4_net_init: " "ddi_taskq_create failed for IP_INJECT_QUEUE_IN"); } if (eventq_queue_nic == NULL) { eventq_queue_nic = ddi_taskq_create(NULL, "IP_NIC_EVENT_QUEUE", 1, TASKQ_DEFAULTPRI, 0); if (eventq_queue_nic == NULL) cmn_err(CE_NOTE, "ipv4_net_init: " "ddi_taskq_create failed for IP_NIC_EVENT_QUEUE"); } } /* * Destroy inject queues */ void ip_net_g_destroy() { if (eventq_queue_nic != NULL) { ddi_taskq_destroy(eventq_queue_nic); eventq_queue_nic = NULL; } if (eventq_queue_in != NULL) { ddi_taskq_destroy(eventq_queue_in); eventq_queue_in = NULL; } if (eventq_queue_out != NULL) { ddi_taskq_destroy(eventq_queue_out); eventq_queue_out = NULL; } } /* * Register IPv4 and IPv6 netinfo functions and initialize queues for inject. */ void ip_net_init(ip_stack_t *ipst, netstack_t *ns) { netid_t id; id = net_getnetidbynetstackid(ns->netstack_stackid); ASSERT(id != -1); ipst->ips_ipv4_net_data = net_protocol_register(id, &ipv4info); ASSERT(ipst->ips_ipv4_net_data != NULL); ipst->ips_ipv6_net_data = net_protocol_register(id, &ipv6info); ASSERT(ipst->ips_ipv6_net_data != NULL); } /* * Unregister IPv4 and IPv6 functions. */ void ip_net_destroy(ip_stack_t *ipst) { if (ipst->ips_ipv4_net_data != NULL) { if (net_protocol_unregister(ipst->ips_ipv4_net_data) == 0) ipst->ips_ipv4_net_data = NULL; } if (ipst->ips_ipv6_net_data != NULL) { if (net_protocol_unregister(ipst->ips_ipv6_net_data) == 0) ipst->ips_ipv6_net_data = NULL; } } /* * Initialize IPv4 hooks family the event */ void ipv4_hook_init(ip_stack_t *ipst) { HOOK_FAMILY_INIT(&ipst->ips_ipv4root, Hn_IPV4); if (net_family_register(ipst->ips_ipv4_net_data, &ipst->ips_ipv4root) != 0) { cmn_err(CE_NOTE, "ipv4_hook_init: " "net_family_register failed for ipv4"); } HOOK_EVENT_INIT(&ipst->ips_ip4_physical_in_event, NH_PHYSICAL_IN); ipst->ips_ipv4firewall_physical_in = net_event_register( ipst->ips_ipv4_net_data, &ipst->ips_ip4_physical_in_event); if (ipst->ips_ipv4firewall_physical_in == NULL) { cmn_err(CE_NOTE, "ipv4_hook_init: " "net_event_register failed for ipv4/physical_in"); } HOOK_EVENT_INIT(&ipst->ips_ip4_physical_out_event, NH_PHYSICAL_OUT); ipst->ips_ipv4firewall_physical_out = net_event_register( ipst->ips_ipv4_net_data, &ipst->ips_ip4_physical_out_event); if (ipst->ips_ipv4firewall_physical_out == NULL) { cmn_err(CE_NOTE, "ipv4_hook_init: " "net_event_register failed for ipv4/physical_out"); } HOOK_EVENT_INIT(&ipst->ips_ip4_forwarding_event, NH_FORWARDING); ipst->ips_ipv4firewall_forwarding = net_event_register( ipst->ips_ipv4_net_data, &ipst->ips_ip4_forwarding_event); if (ipst->ips_ipv4firewall_forwarding == NULL) { cmn_err(CE_NOTE, "ipv4_hook_init: " "net_event_register failed for ipv4/forwarding"); } HOOK_EVENT_INIT(&ipst->ips_ip4_loopback_in_event, NH_LOOPBACK_IN); ipst->ips_ipv4firewall_loopback_in = net_event_register( ipst->ips_ipv4_net_data, &ipst->ips_ip4_loopback_in_event); if (ipst->ips_ipv4firewall_loopback_in == NULL) { cmn_err(CE_NOTE, "ipv4_hook_init: " "net_event_register failed for ipv4/loopback_in"); } HOOK_EVENT_INIT(&ipst->ips_ip4_loopback_out_event, NH_LOOPBACK_OUT); ipst->ips_ipv4firewall_loopback_out = net_event_register( ipst->ips_ipv4_net_data, &ipst->ips_ip4_loopback_out_event); if (ipst->ips_ipv4firewall_loopback_out == NULL) { cmn_err(CE_NOTE, "ipv4_hook_init: " "net_event_register failed for ipv4/loopback_out"); } HOOK_EVENT_INIT(&ipst->ips_ip4_nic_events, NH_NIC_EVENTS); ipst->ips_ip4_nic_events.he_flags = HOOK_RDONLY; ipst->ips_ipv4nicevents = net_event_register( ipst->ips_ipv4_net_data, &ipst->ips_ip4_nic_events); if (ipst->ips_ipv4nicevents == NULL) { cmn_err(CE_NOTE, "ipv4_hook_init: " "net_event_register failed for ipv4/nic_events"); } HOOK_EVENT_INIT(&ipst->ips_ip4_observe, NH_OBSERVE); ipst->ips_ip4_observe.he_flags = HOOK_RDONLY; ipst->ips_ipv4observing = net_event_register( ipst->ips_ipv4_net_data, &ipst->ips_ip4_observe); if (ipst->ips_ipv4observing == NULL) { cmn_err(CE_NOTE, "ipv4_hook_init: " "net_event_register failed for ipv4/observe"); } } void ipv4_hook_shutdown(ip_stack_t *ipst) { if (ipst->ips_ipv4firewall_forwarding != NULL) { (void) net_event_shutdown(ipst->ips_ipv4_net_data, &ipst->ips_ip4_forwarding_event); } if (ipst->ips_ipv4firewall_physical_in != NULL) { (void) net_event_shutdown(ipst->ips_ipv4_net_data, &ipst->ips_ip4_physical_in_event); } if (ipst->ips_ipv4firewall_physical_out != NULL) { (void) net_event_shutdown(ipst->ips_ipv4_net_data, &ipst->ips_ip4_physical_out_event); } if (ipst->ips_ipv4firewall_loopback_in != NULL) { (void) net_event_shutdown(ipst->ips_ipv4_net_data, &ipst->ips_ip4_loopback_in_event); } if (ipst->ips_ipv4firewall_loopback_out != NULL) { (void) net_event_shutdown(ipst->ips_ipv4_net_data, &ipst->ips_ip4_loopback_out_event); } if (ipst->ips_ipv4nicevents != NULL) { (void) net_event_shutdown(ipst->ips_ipv4_net_data, &ipst->ips_ip4_nic_events); } if (ipst->ips_ipv4observing != NULL) { (void) net_event_shutdown(ipst->ips_ipv4_net_data, &ipst->ips_ip4_observe); } (void) net_family_shutdown(ipst->ips_ipv4_net_data, &ipst->ips_ipv4root); } void ipv4_hook_destroy(ip_stack_t *ipst) { if (ipst->ips_ipv4firewall_forwarding != NULL) { if (net_event_unregister(ipst->ips_ipv4_net_data, &ipst->ips_ip4_forwarding_event) == 0) ipst->ips_ipv4firewall_forwarding = NULL; } if (ipst->ips_ipv4firewall_physical_in != NULL) { if (net_event_unregister(ipst->ips_ipv4_net_data, &ipst->ips_ip4_physical_in_event) == 0) ipst->ips_ipv4firewall_physical_in = NULL; } if (ipst->ips_ipv4firewall_physical_out != NULL) { if (net_event_unregister(ipst->ips_ipv4_net_data, &ipst->ips_ip4_physical_out_event) == 0) ipst->ips_ipv4firewall_physical_out = NULL; } if (ipst->ips_ipv4firewall_loopback_in != NULL) { if (net_event_unregister(ipst->ips_ipv4_net_data, &ipst->ips_ip4_loopback_in_event) == 0) ipst->ips_ipv4firewall_loopback_in = NULL; } if (ipst->ips_ipv4firewall_loopback_out != NULL) { if (net_event_unregister(ipst->ips_ipv4_net_data, &ipst->ips_ip4_loopback_out_event) == 0) ipst->ips_ipv4firewall_loopback_out = NULL; } if (ipst->ips_ipv4nicevents != NULL) { if (net_event_unregister(ipst->ips_ipv4_net_data, &ipst->ips_ip4_nic_events) == 0) ipst->ips_ipv4nicevents = NULL; } if (ipst->ips_ipv4observing != NULL) { if (net_event_unregister(ipst->ips_ipv4_net_data, &ipst->ips_ip4_observe) == 0) ipst->ips_ipv4observing = NULL; } (void) net_family_unregister(ipst->ips_ipv4_net_data, &ipst->ips_ipv4root); } /* * Initialize IPv6 hooks family and event */ void ipv6_hook_init(ip_stack_t *ipst) { HOOK_FAMILY_INIT(&ipst->ips_ipv6root, Hn_IPV6); if (net_family_register(ipst->ips_ipv6_net_data, &ipst->ips_ipv6root) != 0) { cmn_err(CE_NOTE, "ipv6_hook_init: " "net_family_register failed for ipv6"); } HOOK_EVENT_INIT(&ipst->ips_ip6_physical_in_event, NH_PHYSICAL_IN); ipst->ips_ipv6firewall_physical_in = net_event_register( ipst->ips_ipv6_net_data, &ipst->ips_ip6_physical_in_event); if (ipst->ips_ipv6firewall_physical_in == NULL) { cmn_err(CE_NOTE, "ipv6_hook_init: " "net_event_register failed for ipv6/physical_in"); } HOOK_EVENT_INIT(&ipst->ips_ip6_physical_out_event, NH_PHYSICAL_OUT); ipst->ips_ipv6firewall_physical_out = net_event_register( ipst->ips_ipv6_net_data, &ipst->ips_ip6_physical_out_event); if (ipst->ips_ipv6firewall_physical_out == NULL) { cmn_err(CE_NOTE, "ipv6_hook_init: " "net_event_register failed for ipv6/physical_out"); } HOOK_EVENT_INIT(&ipst->ips_ip6_forwarding_event, NH_FORWARDING); ipst->ips_ipv6firewall_forwarding = net_event_register( ipst->ips_ipv6_net_data, &ipst->ips_ip6_forwarding_event); if (ipst->ips_ipv6firewall_forwarding == NULL) { cmn_err(CE_NOTE, "ipv6_hook_init: " "net_event_register failed for ipv6/forwarding"); } HOOK_EVENT_INIT(&ipst->ips_ip6_loopback_in_event, NH_LOOPBACK_IN); ipst->ips_ipv6firewall_loopback_in = net_event_register( ipst->ips_ipv6_net_data, &ipst->ips_ip6_loopback_in_event); if (ipst->ips_ipv6firewall_loopback_in == NULL) { cmn_err(CE_NOTE, "ipv6_hook_init: " "net_event_register failed for ipv6/loopback_in"); } HOOK_EVENT_INIT(&ipst->ips_ip6_loopback_out_event, NH_LOOPBACK_OUT); ipst->ips_ipv6firewall_loopback_out = net_event_register( ipst->ips_ipv6_net_data, &ipst->ips_ip6_loopback_out_event); if (ipst->ips_ipv6firewall_loopback_out == NULL) { cmn_err(CE_NOTE, "ipv6_hook_init: " "net_event_register failed for ipv6/loopback_out"); } HOOK_EVENT_INIT(&ipst->ips_ip6_nic_events, NH_NIC_EVENTS); ipst->ips_ip6_nic_events.he_flags = HOOK_RDONLY; ipst->ips_ipv6nicevents = net_event_register( ipst->ips_ipv6_net_data, &ipst->ips_ip6_nic_events); if (ipst->ips_ipv6nicevents == NULL) { cmn_err(CE_NOTE, "ipv6_hook_init: " "net_event_register failed for ipv6/nic_events"); } HOOK_EVENT_INIT(&ipst->ips_ip6_observe, NH_OBSERVE); ipst->ips_ip6_observe.he_flags = HOOK_RDONLY; ipst->ips_ipv6observing = net_event_register( ipst->ips_ipv6_net_data, &ipst->ips_ip6_observe); if (ipst->ips_ipv6observing == NULL) { cmn_err(CE_NOTE, "ipv6_hook_init: " "net_event_register failed for ipv6/observe"); } } void ipv6_hook_shutdown(ip_stack_t *ipst) { if (ipst->ips_ipv6firewall_forwarding != NULL) { (void) net_event_shutdown(ipst->ips_ipv6_net_data, &ipst->ips_ip6_forwarding_event); } if (ipst->ips_ipv6firewall_physical_in != NULL) { (void) net_event_shutdown(ipst->ips_ipv6_net_data, &ipst->ips_ip6_physical_in_event); } if (ipst->ips_ipv6firewall_physical_out != NULL) { (void) net_event_shutdown(ipst->ips_ipv6_net_data, &ipst->ips_ip6_physical_out_event); } if (ipst->ips_ipv6firewall_loopback_in != NULL) { (void) net_event_shutdown(ipst->ips_ipv6_net_data, &ipst->ips_ip6_loopback_in_event); } if (ipst->ips_ipv6firewall_loopback_out != NULL) { (void) net_event_shutdown(ipst->ips_ipv6_net_data, &ipst->ips_ip6_loopback_out_event); } if (ipst->ips_ipv6nicevents != NULL) { (void) net_event_shutdown(ipst->ips_ipv6_net_data, &ipst->ips_ip6_nic_events); } if (ipst->ips_ipv6observing != NULL) { (void) net_event_shutdown(ipst->ips_ipv6_net_data, &ipst->ips_ip6_observe); } (void) net_family_shutdown(ipst->ips_ipv6_net_data, &ipst->ips_ipv6root); } void ipv6_hook_destroy(ip_stack_t *ipst) { if (ipst->ips_ipv6firewall_forwarding != NULL) { if (net_event_unregister(ipst->ips_ipv6_net_data, &ipst->ips_ip6_forwarding_event) == 0) ipst->ips_ipv6firewall_forwarding = NULL; } if (ipst->ips_ipv6firewall_physical_in != NULL) { if (net_event_unregister(ipst->ips_ipv6_net_data, &ipst->ips_ip6_physical_in_event) == 0) ipst->ips_ipv6firewall_physical_in = NULL; } if (ipst->ips_ipv6firewall_physical_out != NULL) { if (net_event_unregister(ipst->ips_ipv6_net_data, &ipst->ips_ip6_physical_out_event) == 0) ipst->ips_ipv6firewall_physical_out = NULL; } if (ipst->ips_ipv6firewall_loopback_in != NULL) { if (net_event_unregister(ipst->ips_ipv6_net_data, &ipst->ips_ip6_loopback_in_event) == 0) ipst->ips_ipv6firewall_loopback_in = NULL; } if (ipst->ips_ipv6firewall_loopback_out != NULL) { if (net_event_unregister(ipst->ips_ipv6_net_data, &ipst->ips_ip6_loopback_out_event) == 0) ipst->ips_ipv6firewall_loopback_out = NULL; } if (ipst->ips_ipv6nicevents != NULL) { if (net_event_unregister(ipst->ips_ipv6_net_data, &ipst->ips_ip6_nic_events) == 0) ipst->ips_ipv6nicevents = NULL; } if (ipst->ips_ipv6observing != NULL) { if (net_event_unregister(ipst->ips_ipv6_net_data, &ipst->ips_ip6_observe) == 0) ipst->ips_ipv6observing = NULL; } (void) net_family_unregister(ipst->ips_ipv6_net_data, &ipst->ips_ipv6root); } /* * Determine the name of an IPv4 interface */ static int ip_getifname(net_handle_t neti, phy_if_t phy_ifdata, char *buffer, const size_t buflen) { return (ip_getifname_impl(phy_ifdata, buffer, buflen, B_FALSE, neti->netd_stack->nts_netstack->netstack_ip)); } /* * Determine the name of an IPv6 interface */ static int ipv6_getifname(net_handle_t neti, phy_if_t phy_ifdata, char *buffer, const size_t buflen) { return (ip_getifname_impl(phy_ifdata, buffer, buflen, B_TRUE, neti->netd_stack->nts_netstack->netstack_ip)); } /* * Shared implementation to determine the name of a given network interface */ /* ARGSUSED */ static int ip_getifname_impl(phy_if_t phy_ifdata, char *buffer, const size_t buflen, boolean_t isv6, ip_stack_t *ipst) { ill_t *ill; ASSERT(buffer != NULL); ill = ill_lookup_on_ifindex((uint_t)phy_ifdata, isv6, NULL, NULL, NULL, NULL, ipst); if (ill == NULL) return (1); (void) strlcpy(buffer, ill->ill_name, buflen); ill_refrele(ill); return (0); } /* * Determine the MTU of an IPv4 network interface */ static int ip_getmtu(net_handle_t neti, phy_if_t phy_ifdata, lif_if_t ifdata) { netstack_t *ns; ns = neti->netd_stack->nts_netstack; ASSERT(ns != NULL); return (ip_getmtu_impl(phy_ifdata, ifdata, B_FALSE, ns->netstack_ip)); } /* * Determine the MTU of an IPv6 network interface */ static int ipv6_getmtu(net_handle_t neti, phy_if_t phy_ifdata, lif_if_t ifdata) { netstack_t *ns; ns = neti->netd_stack->nts_netstack; ASSERT(ns != NULL); return (ip_getmtu_impl(phy_ifdata, ifdata, B_TRUE, ns->netstack_ip)); } /* * Shared implementation to determine the MTU of a network interface */ /* ARGSUSED */ static int ip_getmtu_impl(phy_if_t phy_ifdata, lif_if_t ifdata, boolean_t isv6, ip_stack_t *ipst) { lif_if_t ipifid; ipif_t *ipif; int mtu; ipifid = UNMAP_IPIF_ID(ifdata); ipif = ipif_getby_indexes((uint_t)phy_ifdata, (uint_t)ipifid, isv6, ipst); if (ipif == NULL) return (0); mtu = ipif->ipif_mtu; ipif_refrele(ipif); if (mtu == 0) { ill_t *ill; if ((ill = ill_lookup_on_ifindex((uint_t)phy_ifdata, isv6, NULL, NULL, NULL, NULL, ipst)) == NULL) { return (0); } mtu = ill->ill_max_frag; ill_refrele(ill); } return (mtu); } /* * Determine if path MTU discovery is enabled for IP */ static int ip_getpmtuenabled(net_handle_t neti) { netstack_t *ns; ns = neti->netd_stack->nts_netstack; ASSERT(ns != NULL); return (ns->netstack_ip->ips_ip_path_mtu_discovery); } /* * Get next interface from the current list of IPv4 physical network interfaces */ static phy_if_t ip_phygetnext(net_handle_t neti, phy_if_t phy_ifdata) { netstack_t *ns; ns = neti->netd_stack->nts_netstack; ASSERT(ns != NULL); return (ill_get_next_ifindex(phy_ifdata, B_FALSE, ns->netstack_ip)); } /* * Get next interface from the current list of IPv6 physical network interfaces */ static phy_if_t ipv6_phygetnext(net_handle_t neti, phy_if_t phy_ifdata) { netstack_t *ns; ns = neti->netd_stack->nts_netstack; ASSERT(ns != NULL); return (ill_get_next_ifindex(phy_ifdata, B_TRUE, ns->netstack_ip)); } /* * Determine if a network interface name exists for IPv4 */ static phy_if_t ip_phylookup(net_handle_t neti, const char *name) { netstack_t *ns; ns = neti->netd_stack->nts_netstack; ASSERT(ns != NULL); return (ip_phylookup_impl(name, B_FALSE, ns->netstack_ip)); } /* * Determine if a network interface name exists for IPv6 */ static phy_if_t ipv6_phylookup(net_handle_t neti, const char *name) { netstack_t *ns; ns = neti->netd_stack->nts_netstack; ASSERT(ns != NULL); return (ip_phylookup_impl(name, B_TRUE, ns->netstack_ip)); } /* * Implement looking up an ill_t based on the name supplied and matching * it up with either IPv4 or IPv6. ill_get_ifindex_by_name() is not used * because it does not match on the address family in addition to the name. */ static phy_if_t ip_phylookup_impl(const char *name, boolean_t isv6, ip_stack_t *ipst) { phy_if_t phy; ill_t *ill; ill = ill_lookup_on_name((char *)name, B_FALSE, isv6, NULL, NULL, NULL, NULL, NULL, ipst); if (ill == NULL) return (0); phy = ill->ill_phyint->phyint_ifindex; ill_refrele(ill); return (phy); } /* * Get next interface from the current list of IPv4 logical network interfaces */ static lif_if_t ip_lifgetnext(net_handle_t neti, phy_if_t phy_ifdata, lif_if_t ifdata) { netstack_t *ns; ns = neti->netd_stack->nts_netstack; ASSERT(ns != NULL); return (ip_lifgetnext_impl(phy_ifdata, ifdata, B_FALSE, ns->netstack_ip)); } /* * Get next interface from the current list of IPv6 logical network interfaces */ static lif_if_t ipv6_lifgetnext(net_handle_t neti, phy_if_t phy_ifdata, lif_if_t ifdata) { netstack_t *ns; ns = neti->netd_stack->nts_netstack; ASSERT(ns != NULL); return (ip_lifgetnext_impl(phy_ifdata, ifdata, B_TRUE, ns->netstack_ip)); } /* * Shared implementation to get next interface from the current list of * logical network interfaces */ static lif_if_t ip_lifgetnext_impl(phy_if_t phy_ifdata, lif_if_t ifdata, boolean_t isv6, ip_stack_t *ipst) { lif_if_t newidx, oldidx; boolean_t nextok; ipif_t *ipif; ill_t *ill; ill = ill_lookup_on_ifindex(phy_ifdata, isv6, NULL, NULL, NULL, NULL, ipst); if (ill == NULL) return (0); if (ifdata != 0) { oldidx = UNMAP_IPIF_ID(ifdata); nextok = B_FALSE; } else { oldidx = 0; nextok = B_TRUE; } mutex_enter(&ill->ill_lock); if (ill->ill_state_flags & ILL_CONDEMNED) { mutex_exit(&ill->ill_lock); ill_refrele(ill); return (0); } /* * It's safe to iterate the ill_ipif list when holding an ill_lock. * And it's also safe to access ipif_id without ipif refhold. * See the field access rules in ip.h. */ for (ipif = ill->ill_ipif; ipif != NULL; ipif = ipif->ipif_next) { if (!IPIF_CAN_LOOKUP(ipif)) continue; if (nextok) { ipif_refhold_locked(ipif); break; } else if (oldidx == ipif->ipif_id) { nextok = B_TRUE; } } mutex_exit(&ill->ill_lock); ill_refrele(ill); if (ipif == NULL) return (0); newidx = ipif->ipif_id; ipif_refrele(ipif); return (MAP_IPIF_ID(newidx)); } /* * Inject an IPv4 packet to or from an interface */ static int ip_inject(net_handle_t neti, inject_t style, net_inject_t *packet) { netstack_t *ns; ns = neti->netd_stack->nts_netstack; ASSERT(ns != NULL); return (ip_inject_impl(style, packet, B_FALSE, ns->netstack_ip)); } /* * Inject an IPv6 packet to or from an interface */ static int ipv6_inject(net_handle_t neti, inject_t style, net_inject_t *packet) { netstack_t *ns; ns = neti->netd_stack->nts_netstack; return (ip_inject_impl(style, packet, B_TRUE, ns->netstack_ip)); } /* * Shared implementation to inject a packet to or from an interface * Return value: * 0: successful * -1: memory allocation failed * 1: other errors */ static int ip_inject_impl(inject_t style, net_inject_t *packet, boolean_t isv6, ip_stack_t *ipst) { struct sockaddr_in6 *sin6; ddi_taskq_t *tq = NULL; void (* func)(void *); injection_t *inject; ip6_t *ip6h; ire_t *ire; mblk_t *mp; zoneid_t zoneid; ASSERT(packet != NULL); ASSERT(packet->ni_packet != NULL); ASSERT(packet->ni_packet->b_datap->db_type == M_DATA); switch (style) { case NI_QUEUE_IN: inject = kmem_alloc(sizeof (*inject), KM_NOSLEEP); if (inject == NULL) return (-1); inject->inj_data = *packet; inject->inj_isv6 = isv6; /* * deliver up into the kernel, immitating its reception by a * network interface, add to list and schedule timeout */ func = ip_ni_queue_in_func; tq = eventq_queue_in; break; case NI_QUEUE_OUT: inject = kmem_alloc(sizeof (*inject), KM_NOSLEEP); if (inject == NULL) return (-1); inject->inj_data = *packet; inject->inj_isv6 = isv6; /* * deliver out of the kernel, as if it were being sent via a * raw socket so that IPFilter will see it again, add to list * and schedule timeout */ func = ip_ni_queue_out_func; tq = eventq_queue_out; break; case NI_DIRECT_OUT: /* * Note: * For IPv4, the code path below will be greatly simplified * with the delivery of surya - it will become a single * function call to X. A follow on project is aimed to * provide similar functionality for IPv6. */ mp = packet->ni_packet; zoneid = netstackid_to_zoneid(ipst->ips_netstack->netstack_stackid); if (!isv6) { struct sockaddr *sock; sock = (struct sockaddr *)&packet->ni_addr; /* * ipfil_sendpkt was provided by surya to ease the * problems associated with sending out a packet. * Currently this function only supports IPv4. */ switch (ipfil_sendpkt(sock, mp, packet->ni_physical, zoneid)) { case 0 : case EINPROGRESS: return (0); case ECOMM : case ENONET : return (1); default : return (1); } /* NOTREACHED */ } ip6h = (ip6_t *)mp->b_rptr; sin6 = (struct sockaddr_in6 *)&packet->ni_addr; ASSERT(sin6->sin6_family == AF_INET6); ire = ire_route_lookup_v6(&sin6->sin6_addr, 0, 0, 0, NULL, NULL, zoneid, NULL, MATCH_IRE_DSTONLY|MATCH_IRE_DEFAULT|MATCH_IRE_RECURSIVE, ipst); if (ire == NULL) { ip2dbg(("ip_inject: ire_cache_lookup failed\n")); freemsg(mp); return (1); } if (ire->ire_stq == NULL) { /* Send to loopback destination. */ if (ire->ire_rfq == NULL) { ip2dbg(("ip_inject: bad nexthop\n")); ire_refrele(ire); freemsg(mp); return (1); } DTRACE_IP7(send, mblk_t *, mp, conn_t *, NULL, void_ip_t *, ip6h, __dtrace_ipsr_ill_t *, ire->ire_ipif->ipif_ill, ipha_t *, NULL, ip6_t *, ip6h, int, 1); ip_wput_local_v6(ire->ire_rfq, ire->ire_ipif->ipif_ill, ip6h, mp, ire, 0, zoneid); ire_refrele(ire); return (0); } mp->b_queue = ire->ire_stq; if (ire->ire_nce == NULL || ire->ire_nce->nce_fp_mp == NULL && ire->ire_nce->nce_res_mp == NULL) { ip_newroute_v6(ire->ire_stq, mp, &sin6->sin6_addr, &ip6h->ip6_src, NULL, zoneid, ipst); ire_refrele(ire); return (0); } else { /* prepend L2 header for IPv6 packets. */ mblk_t *llmp; /* * Lock IREs, see 6420438 */ mutex_enter(&ire->ire_lock); llmp = ire->ire_nce->nce_fp_mp ? ire->ire_nce->nce_fp_mp : ire->ire_nce->nce_res_mp; if ((mp = dupb(llmp)) == NULL && (mp = copyb(llmp)) == NULL) { ip2dbg(("ip_inject: llhdr failed\n")); mutex_exit(&ire->ire_lock); ire_refrele(ire); freemsg(mp); return (1); } mutex_exit(&ire->ire_lock); linkb(mp, packet->ni_packet); } mp->b_queue = ire->ire_stq; break; default: freemsg(packet->ni_packet); return (1); } if (tq) { inject->inj_ptr = ipst; if (ddi_taskq_dispatch(tq, func, (void *)inject, DDI_SLEEP) == DDI_FAILURE) { ip2dbg(("ip_inject: ddi_taskq_dispatch failed\n")); freemsg(packet->ni_packet); return (1); } } else { putnext(ire->ire_stq, mp); ire_refrele(ire); } return (0); } /* * Find the interface used for traffic to a given IPv4 address */ static phy_if_t ip_routeto(net_handle_t neti, struct sockaddr *address, struct sockaddr *next) { netstack_t *ns; ASSERT(address != NULL); if (address->sa_family != AF_INET) return (0); ns = neti->netd_stack->nts_netstack; ASSERT(ns != NULL); return (ip_routeto_impl(address, next, ns->netstack_ip)); } /* * Find the interface used for traffic to a given IPv6 address */ static phy_if_t ipv6_routeto(net_handle_t neti, struct sockaddr *address, struct sockaddr *next) { netstack_t *ns; ASSERT(address != NULL); if (address->sa_family != AF_INET6) return (0); ns = neti->netd_stack->nts_netstack; ASSERT(ns != NULL); return (ip_routeto_impl(address, next, ns->netstack_ip)); } /* * Find the interface used for traffic to an address. * For lint reasons, next/next6/sin/sin6 are all declared and assigned * a value at the top. The alternative would end up with two bunches * of assignments, with each bunch setting half to NULL. */ static phy_if_t ip_routeto_impl(struct sockaddr *address, struct sockaddr *nexthop, ip_stack_t *ipst) { struct sockaddr_in6 *next6 = (struct sockaddr_in6 *)nexthop; struct sockaddr_in6 *sin6 = (struct sockaddr_in6 *)address; struct sockaddr_in *next = (struct sockaddr_in *)nexthop; struct sockaddr_in *sin = (struct sockaddr_in *)address; ire_t *sire = NULL; ire_t *ire; ill_t *ill; phy_if_t phy_if; zoneid_t zoneid; zoneid = netstackid_to_zoneid(ipst->ips_netstack->netstack_stackid); if (address->sa_family == AF_INET6) { ire = ire_route_lookup_v6(&sin6->sin6_addr, NULL, 0, 0, NULL, &sire, zoneid, NULL, MATCH_IRE_DSTONLY|MATCH_IRE_DEFAULT|MATCH_IRE_RECURSIVE, ipst); } else { ire = ire_route_lookup(sin->sin_addr.s_addr, 0, 0, 0, NULL, &sire, zoneid, NULL, MATCH_IRE_DSTONLY|MATCH_IRE_DEFAULT|MATCH_IRE_RECURSIVE, ipst); } if (ire == NULL) return (0); /* * For some destinations, we have routes that are dead ends, so * return to indicate that no physical interface can be used to * reach the destination. */ if ((ire->ire_flags & (RTF_REJECT | RTF_BLACKHOLE)) != 0) { if (sire != NULL) ire_refrele(sire); ire_refrele(ire); return (0); } ill = ire_to_ill(ire); if (ill == NULL) { if (sire != NULL) ire_refrele(sire); ire_refrele(ire); return (0); } if (nexthop != NULL) { if (address->sa_family == AF_INET6) { next->sin_addr.s_addr = sire ? sire->ire_gateway_addr : sin->sin_addr.s_addr; } else { next6->sin6_addr = sire ? sire->ire_gateway_addr_v6 : sin6->sin6_addr; } } ASSERT(ill != NULL); phy_if = (phy_if_t)ill->ill_phyint->phyint_ifindex; if (sire != NULL) ire_refrele(sire); ire_refrele(ire); return (phy_if); } /* * Determine if checksumming is being used for the given packet. * * Return value: * NET_HCK_NONE: full checksum recalculation is required * NET_HCK_L3_FULL: full layer 3 checksum * NET_HCK_L4_FULL: full layer 4 checksum * NET_HCK_L4_PART: partial layer 4 checksum */ /*ARGSUSED*/ static int ip_ispartialchecksum(net_handle_t neti, mblk_t *mp) { int ret = 0; ASSERT(mp != NULL); if ((DB_CKSUMFLAGS(mp) & HCK_FULLCKSUM) != 0) { ret |= (int)NET_HCK_L4_FULL; if ((DB_CKSUMFLAGS(mp) & HCK_IPV4_HDRCKSUM) != 0) ret |= (int)NET_HCK_L3_FULL; } if ((DB_CKSUMFLAGS(mp) & HCK_PARTIALCKSUM) != 0) { ret |= (int)NET_HCK_L4_PART; if ((DB_CKSUMFLAGS(mp) & HCK_IPV4_HDRCKSUM) != 0) ret |= (int)NET_HCK_L3_FULL; } return (ret); } /* * Return true or false, indicating whether the network and transport * headers are correct. Use the capabilities flags and flags set in the * dblk_t to determine whether or not the checksum is valid. * * Return: * 0: the checksum was incorrect * 1: the original checksum was correct */ /*ARGSUSED*/ static int ip_isvalidchecksum(net_handle_t neti, mblk_t *mp) { unsigned char *wptr; ipha_t *ipha = (ipha_t *)mp->b_rptr; int hlen; int ret; ASSERT(mp != NULL); if (dohwcksum && DB_CKSUM16(mp) != 0xFFFF && (DB_CKSUMFLAGS(mp) & HCK_FULLCKSUM) && (DB_CKSUMFLAGS(mp) & HCK_FULLCKSUM_OK) && (DB_CKSUMFLAGS(mp) & HCK_IPV4_HDRCKSUM)) return (1); hlen = (ipha->ipha_version_and_hdr_length & 0x0F) << 2; /* * Check that the mblk being passed in has enough data in it * before blindly checking ip_cksum. */ if (msgdsize(mp) < hlen) return (0); if (mp->b_wptr < mp->b_rptr + hlen) { if (pullupmsg(mp, hlen) == 0) return (0); wptr = mp->b_wptr; } else { wptr = mp->b_wptr; mp->b_wptr = mp->b_rptr + hlen; } if (ipha->ipha_hdr_checksum == ip_cksum(mp, 0, ipha->ipha_hdr_checksum)) ret = 1; else ret = 0; mp->b_wptr = wptr; return (ret); } /* * Unsupported with IPv6 */ /*ARGSUSED*/ static int ipv6_isvalidchecksum(net_handle_t neti, mblk_t *mp) { return (-1); } /* * Determine the network addresses for an IPv4 interface */ static int ip_getlifaddr(net_handle_t neti, phy_if_t phy_ifdata, lif_if_t ifdata, size_t nelem, net_ifaddr_t type[], void *storage) { netstack_t *ns; ns = neti->netd_stack->nts_netstack; ASSERT(ns != NULL); return (ip_getlifaddr_impl(AF_INET, phy_ifdata, ifdata, nelem, type, storage, ns->netstack_ip)); } /* * Determine the network addresses for an IPv6 interface */ static int ipv6_getlifaddr(net_handle_t neti, phy_if_t phy_ifdata, lif_if_t ifdata, size_t nelem, net_ifaddr_t type[], void *storage) { netstack_t *ns; ns = neti->netd_stack->nts_netstack; ASSERT(ns != NULL); return (ip_getlifaddr_impl(AF_INET6, phy_ifdata, ifdata, nelem, type, storage, ns->netstack_ip)); } /* * Shared implementation to determine the network addresses for an interface */ /* ARGSUSED */ static int ip_getlifaddr_impl(sa_family_t family, phy_if_t phy_ifdata, lif_if_t ifdata, size_t nelem, net_ifaddr_t type[], struct sockaddr *storage, ip_stack_t *ipst) { struct sockaddr_in6 *sin6; struct sockaddr_in *sin; lif_if_t ipifid; ipif_t *ipif; int i; ASSERT(type != NULL); ASSERT(storage != NULL); ipifid = UNMAP_IPIF_ID(ifdata); if (family == AF_INET) { if ((ipif = ipif_getby_indexes((uint_t)phy_ifdata, (uint_t)ipifid, B_FALSE, ipst)) == NULL) return (1); sin = (struct sockaddr_in *)storage; for (i = 0; i < nelem; i++, sin++) { if (ip_getifaddr_type(AF_INET, ipif, type[i], &sin->sin_addr) < 0) { ip2dbg(("ip_getlifaddr_impl failed type %d\n", type[i])); ipif_refrele(ipif); return (1); } sin->sin_family = AF_INET; } } else { if ((ipif = ipif_getby_indexes((uint_t)phy_ifdata, (uint_t)ipifid, B_TRUE, ipst)) == NULL) return (1); sin6 = (struct sockaddr_in6 *)storage; for (i = 0; i < nelem; i++, sin6++) { if (ip_getifaddr_type(AF_INET6, ipif, type[i], &sin6->sin6_addr) < 0) { ip2dbg(("ip_getlifaddr_impl failed type %d\n", type[i])); ipif_refrele(ipif); return (1); } sin6->sin6_family = AF_INET6; } } ipif_refrele(ipif); return (0); } /* * ip_getlifaddr private function */ static int ip_getifaddr_type(sa_family_t family, ipif_t *ill_ipif, lif_if_t type, void *storage) { void *src_addr; int mem_size; ASSERT(ill_ipif != NULL); ASSERT(storage != NULL); if (family == AF_INET) { mem_size = sizeof (struct in_addr); switch (type) { case NA_ADDRESS: src_addr = &(ill_ipif->ipif_lcl_addr); break; case NA_PEER: src_addr = &(ill_ipif->ipif_pp_dst_addr); break; case NA_BROADCAST: src_addr = &(ill_ipif->ipif_brd_addr); break; case NA_NETMASK: src_addr = &(ill_ipif->ipif_net_mask); break; default: return (-1); /*NOTREACHED*/ } } else { mem_size = sizeof (struct in6_addr); switch (type) { case NA_ADDRESS: src_addr = &(ill_ipif->ipif_v6lcl_addr); break; case NA_PEER: src_addr = &(ill_ipif->ipif_v6pp_dst_addr); break; case NA_BROADCAST: src_addr = &(ill_ipif->ipif_v6brd_addr); break; case NA_NETMASK: src_addr = &(ill_ipif->ipif_v6net_mask); break; default: return (-1); /*NOTREACHED*/ } } (void) memcpy(storage, src_addr, mem_size); return (1); } /* * Shared implementation to determine the zoneid associated with an IPv4/IPv6 * address */ static int ip_getlifzone_impl(sa_family_t family, phy_if_t phy_ifdata, lif_if_t ifdata, ip_stack_t *ipst, zoneid_t *zoneid) { ipif_t *ipif; ipif = ipif_getby_indexes((uint_t)phy_ifdata, UNMAP_IPIF_ID((uint_t)ifdata), (family == AF_INET6), ipst); if (ipif == NULL) return (-1); *zoneid = IP_REAL_ZONEID(ipif->ipif_zoneid, ipst); ipif_refrele(ipif); return (0); } /* * Determine the zoneid associated with an IPv4 address */ static int ip_getlifzone(net_handle_t neti, phy_if_t phy_ifdata, lif_if_t ifdata, zoneid_t *zoneid) { return (ip_getlifzone_impl(AF_INET, phy_ifdata, ifdata, neti->netd_stack->nts_netstack->netstack_ip, zoneid)); } /* * Determine the zoneid associated with an IPv6 address */ static int ipv6_getlifzone(net_handle_t neti, phy_if_t phy_ifdata, lif_if_t ifdata, zoneid_t *zoneid) { return (ip_getlifzone_impl(AF_INET6, phy_ifdata, ifdata, neti->netd_stack->nts_netstack->netstack_ip, zoneid)); } /* * The behaviour here mirrors that for the SIOCFLIFFLAGS ioctl where the * union of all of the relevant flags is returned. */ static int ip_getlifflags_impl(sa_family_t family, phy_if_t phy_ifdata, lif_if_t ifdata, ip_stack_t *ipst, uint64_t *flags) { phyint_t *phyi; ipif_t *ipif; ill_t *ill; ill = ill_lookup_on_ifindex(phy_ifdata, (family == AF_INET6), NULL, NULL, NULL, NULL, ipst); if (ill == NULL) return (-1); phyi = ill->ill_phyint; ipif = ipif_getby_indexes((uint_t)phy_ifdata, UNMAP_IPIF_ID((uint_t)ifdata), (family == AF_INET6), ipst); if (ipif == NULL) { ill_refrele(ill); return (-1); } *flags = ipif->ipif_flags | ill->ill_flags | phyi->phyint_flags; ipif_refrele(ipif); ill_refrele(ill); return (0); } static int ip_getlifflags(net_handle_t neti, phy_if_t phy_ifdata, lif_if_t ifdata, uint64_t *flags) { return (ip_getlifflags_impl(AF_INET, phy_ifdata, ifdata, neti->netd_stack->nts_netstack->netstack_ip, flags)); } static int ipv6_getlifflags(net_handle_t neti, phy_if_t phy_ifdata, lif_if_t ifdata, uint64_t *flags) { return (ip_getlifflags_impl(AF_INET6, phy_ifdata, ifdata, neti->netd_stack->nts_netstack->netstack_ip, flags)); } /* * Deliver packet up into the kernel, immitating its reception by a * network interface. */ static void ip_ni_queue_in_func(void *inject) { ip_ni_queue_func_impl(inject, B_FALSE); } /* * Deliver out of the kernel, as if it were being sent via a * raw socket so that IPFilter will see it again. */ static void ip_ni_queue_out_func(void *inject) { ip_ni_queue_func_impl(inject, B_TRUE); } /* * Shared implementation for inject via ip_output and ip_input */ static void ip_ni_queue_func_impl(injection_t *inject, boolean_t out) { net_inject_t *packet; conn_t *conn; ill_t *ill; ip_stack_t *ipst = (ip_stack_t *)inject->inj_ptr; ASSERT(inject != NULL); packet = &inject->inj_data; ASSERT(packet->ni_packet != NULL); ill = ill_lookup_on_ifindex((uint_t)packet->ni_physical, B_FALSE, NULL, NULL, NULL, NULL, ipst); if (ill == NULL) { kmem_free(inject, sizeof (*inject)); return; } if (out == 0) { if (inject->inj_isv6) { ip_rput_v6(ill->ill_rq, packet->ni_packet); } else { ip_input(ill, NULL, packet->ni_packet, NULL); } kmem_free(inject, sizeof (*inject)); ill_refrele(ill); return; } /* * Even though ipcl_conn_create requests that it be passed * a different value for "TCP", in this case there may not * be a TCP connection backing the packet and more than * likely, non-TCP packets will go here too. */ conn = ipcl_conn_create(IPCL_IPCCONN, KM_NOSLEEP, ipst->ips_netstack); if (conn != NULL) { if (inject->inj_isv6) { conn->conn_af_isv6 = B_TRUE; conn->conn_src_preferences = IPV6_PREFER_SRC_DEFAULT; conn->conn_multicast_loop = IP_DEFAULT_MULTICAST_LOOP; ip_output_v6(conn, packet->ni_packet, ill->ill_wq, IP_WPUT); } else { conn->conn_af_isv6 = B_FALSE; conn->conn_pkt_isv6 = B_FALSE; conn->conn_multicast_loop = IP_DEFAULT_MULTICAST_LOOP; ip_output(conn, packet->ni_packet, ill->ill_wq, IP_WPUT); } CONN_DEC_REF(conn); } kmem_free(inject, sizeof (*inject)); ill_refrele(ill); } /* * taskq function for nic events. */ void ip_ne_queue_func(void *arg) { hook_event_token_t hr; hook_nic_event_int_t *info = (hook_nic_event_int_t *)arg; ip_stack_t *ipst; netstack_t *ns; ns = netstack_find_by_stackid(info->hnei_stackid); if (ns == NULL) goto done; ipst = ns->netstack_ip; if (ipst == NULL) goto done; hr = (info->hnei_event.hne_protocol == ipst->ips_ipv6_net_data) ? ipst->ips_ipv6nicevents : ipst->ips_ipv4nicevents; (void) hook_run(info->hnei_event.hne_protocol->netd_hooks, hr, (hook_data_t)&info->hnei_event); done: if (ns != NULL) netstack_rele(ns); kmem_free(info->hnei_event.hne_data, info->hnei_event.hne_datalen); kmem_free(arg, sizeof (hook_nic_event_int_t)); }