fsm.c revision 1.6
1 1.6 kefren /* $NetBSD: fsm.c,v 1.6 2012/11/12 18:39:00 kefren Exp $ */ 2 1.1 kefren 3 1.1 kefren /*- 4 1.1 kefren * Copyright (c) 2010 The NetBSD Foundation, Inc. 5 1.1 kefren * All rights reserved. 6 1.1 kefren * 7 1.1 kefren * This code is derived from software contributed to The NetBSD Foundation 8 1.1 kefren * by Mihai Chelaru <kefren (at) NetBSD.org> 9 1.1 kefren * 10 1.1 kefren * Redistribution and use in source and binary forms, with or without 11 1.1 kefren * modification, are permitted provided that the following conditions 12 1.1 kefren * are met: 13 1.1 kefren * 1. Redistributions of source code must retain the above copyright 14 1.1 kefren * notice, this list of conditions and the following disclaimer. 15 1.1 kefren * 2. Redistributions in binary form must reproduce the above copyright 16 1.1 kefren * notice, this list of conditions and the following disclaimer in the 17 1.1 kefren * documentation and/or other materials provided with the distribution. 18 1.1 kefren * 19 1.1 kefren * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 20 1.1 kefren * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 21 1.1 kefren * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 22 1.1 kefren * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 23 1.1 kefren * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 24 1.1 kefren * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 25 1.1 kefren * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 26 1.1 kefren * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 27 1.1 kefren * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 28 1.1 kefren * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 29 1.1 kefren * POSSIBILITY OF SUCH DAMAGE. 30 1.1 kefren */ 31 1.1 kefren 32 1.1 kefren #include <sys/types.h> 33 1.1 kefren #include <sys/socket.h> 34 1.1 kefren #include <arpa/inet.h> 35 1.1 kefren #include <netinet/in.h> 36 1.1 kefren #include <net/if.h> 37 1.1 kefren 38 1.1 kefren #include <ifaddrs.h> 39 1.1 kefren #include <stdio.h> 40 1.1 kefren #include <stdlib.h> 41 1.1 kefren #include <strings.h> 42 1.1 kefren 43 1.1 kefren #include "ldp.h" 44 1.1 kefren #include "ldp_peer.h" 45 1.1 kefren #include "socketops.h" 46 1.1 kefren #include "ldp_errors.h" 47 1.1 kefren #include "fsm.h" 48 1.1 kefren 49 1.1 kefren char my_ldp_id[20]; 50 1.1 kefren struct sockaddr mplssockaddr; 51 1.1 kefren 52 1.1 kefren /* Processing a hello */ 53 1.4 kefren void 54 1.1 kefren run_ldp_hello(struct ldp_pdu * pduid, struct hello_tlv * ht, 55 1.1 kefren struct in_addr * padd, struct in_addr * ladd, int mysock) 56 1.1 kefren { 57 1.1 kefren struct ldp_peer *peer = NULL; 58 1.1 kefren struct in_addr peer_addr; 59 1.6 kefren struct in6_addr peer_addr6; 60 1.1 kefren struct transport_address_tlv *trtlv; 61 1.1 kefren struct hello_info *hi; 62 1.1 kefren 63 1.1 kefren if ((!pduid) || (!ht)) 64 1.1 kefren return; 65 1.1 kefren 66 1.4 kefren debugp("Hello received for address: %s\n", inet_ntoa(*ladd)); 67 1.1 kefren debugp("Hello: Type: 0x%.4X Length: %.2d ID: %.8X\n", ht->type, 68 1.1 kefren ht->length, ht->messageid); 69 1.1 kefren 70 1.1 kefren /* Add it to hello list or just update timer */ 71 1.1 kefren SLIST_FOREACH(hi, &hello_info_head, infos) 72 1.1 kefren if (hi->ldp_id.s_addr == pduid->ldp_id.s_addr) 73 1.1 kefren break; 74 1.1 kefren if (hi == NULL) { 75 1.2 christos hi = malloc(sizeof(*hi)); 76 1.1 kefren if (!hi) { 77 1.4 kefren fatalp("Cannot alloc a hello info structure"); 78 1.1 kefren return; 79 1.1 kefren } 80 1.1 kefren hi->ldp_id.s_addr = pduid->ldp_id.s_addr; 81 1.1 kefren SLIST_INSERT_HEAD(&hello_info_head, hi, infos); 82 1.1 kefren } else 83 1.1 kefren /* Just update timer */ 84 1.1 kefren hi->keepalive = LDP_HELLO_KEEP; 85 1.1 kefren 86 1.3 christos if (ht->length <= 4) /* Common hello parameters */ 87 1.3 christos return; 88 1.3 christos ht->ch.type = ntohs(ht->ch.type); 89 1.3 christos ht->ch.length = ntohs(ht->ch.length); 90 1.3 christos ht->ch.holdtime = ntohs(ht->ch.holdtime); 91 1.3 christos ht->ch.res = ntohs(ht->ch.res); 92 1.3 christos debugp("Common hello Type: 0x%.4X Length: %.2d R:%d T:%d" 93 1.3 christos "Hold time: %d\n", ht->ch.type, ht->ch.length, 94 1.3 christos ht->ch.tr / 2, ht->ch.tr % 2, ht->ch.holdtime); 95 1.5 kefren if (ht->ch.holdtime != 0) 96 1.3 christos hi->keepalive = ht->ch.holdtime; 97 1.5 kefren else { 98 1.5 kefren if (ht->ch.res >> 15 == 0) 99 1.5 kefren hi->keepalive = LDP_HELLO_KEEP; 100 1.5 kefren else 101 1.5 kefren hi->keepalive = LDP_THELLO_KEEP; 102 1.5 kefren } 103 1.3 christos if (!get_ldp_peer(&pduid->ldp_id)) { 104 1.3 christos /* First of all set peer_addr to announced LDP_ID */ 105 1.3 christos memcpy(&peer_addr, &pduid->ldp_id, 106 1.3 christos sizeof(struct in_addr)); 107 1.3 christos /* 108 1.3 christos * Now let's see if there is any transport TLV in 109 1.3 christos * there 110 1.3 christos */ 111 1.3 christos if (pduid->length - PDU_PAYLOAD_LENGTH - 112 1.3 christos sizeof(struct hello_tlv) > 3) { 113 1.3 christos trtlv = (struct transport_address_tlv *) &ht[1]; 114 1.3 christos if (trtlv->type == TLV_IPV4_TRANSPORT) 115 1.3 christos memcpy(&peer_addr, &trtlv->address, 116 1.3 christos sizeof(struct in_addr)); 117 1.6 kefren else if (trtlv->type == TLV_IPV6_TRANSPORT) 118 1.6 kefren memcpy(&peer_addr6, &trtlv->address, 119 1.6 kefren sizeof(struct in6_addr)); 120 1.3 christos } else 121 1.3 christos trtlv = NULL; 122 1.3 christos /* 123 1.6 kefren * RFC 5036 2.5.2: If A1 > A2, LSR1 plays the active role; 124 1.3 christos * otherwise it is passive. 125 1.3 christos */ 126 1.3 christos if (ntohl(peer_addr.s_addr) < ntohl(ladd->s_addr)) { 127 1.6 kefren #define TR_INET4_ADDR (trtlv && trtlv->type == TLV_IPV4_TRANSPORT) ? &peer_addr : NULL 128 1.6 kefren #define TR_INET6_ADDR NULL 129 1.3 christos peer = ldp_peer_new(&pduid->ldp_id, padd, 130 1.6 kefren TR_INET4_ADDR, TR_INET6_ADDR, ht->ch.holdtime, 0); 131 1.3 christos if (!peer) 132 1.3 christos return; 133 1.3 christos if (peer && peer->state == LDP_PEER_CONNECTED) 134 1.3 christos send_initialize(peer); 135 1.1 kefren } 136 1.1 kefren } 137 1.1 kefren } 138 1.1 kefren 139 1.1 kefren struct address_list_tlv * 140 1.1 kefren build_address_list_tlv(void) 141 1.1 kefren { 142 1.1 kefren struct address_list_tlv *t; 143 1.1 kefren struct ifaddrs *ifa, *ifb; 144 1.1 kefren struct sockaddr_in *sa; 145 1.1 kefren struct in_addr *ia; 146 1.1 kefren uint16_t adrcount = 0; 147 1.1 kefren 148 1.1 kefren if (getifaddrs(&ifa) == -1) 149 1.1 kefren return NULL; 150 1.1 kefren 151 1.1 kefren /* Find out the number of addresses */ 152 1.1 kefren /* Ignore loopback */ 153 1.1 kefren for (ifb = ifa; ifb; ifb = ifb->ifa_next) 154 1.1 kefren if ((ifb->ifa_addr->sa_family == AF_INET) && 155 1.1 kefren (ifb->ifa_flags & IFF_UP)) { 156 1.1 kefren sa = (struct sockaddr_in *) ifb->ifa_addr; 157 1.4 kefren if (ntohl(sa->sin_addr.s_addr) >> 24 != IN_LOOPBACKNET) 158 1.1 kefren adrcount++; 159 1.1 kefren } 160 1.2 christos t = malloc(sizeof(*t) + (adrcount - 1) * sizeof(struct in_addr)); 161 1.1 kefren 162 1.1 kefren if (!t) { 163 1.1 kefren fatalp("build_address_list_tlv: malloc problem\n"); 164 1.4 kefren freeifaddrs(ifa); 165 1.1 kefren return NULL; 166 1.2 christos } 167 1.1 kefren 168 1.1 kefren t->type = htons(LDP_ADDRESS); 169 1.1 kefren t->length = htons(sizeof(struct address_list_tlv) - TLV_TYPE_LENGTH 170 1.1 kefren + (adrcount - 1) * sizeof(struct in_addr)); 171 1.1 kefren t->messageid = htonl(get_message_id()); 172 1.1 kefren 173 1.1 kefren t->a_type = htons(TLV_ADDRESS_LIST); 174 1.1 kefren t->a_length = htons(sizeof(t->a_af) + 175 1.1 kefren adrcount * sizeof(struct in_addr)); 176 1.1 kefren t->a_af = htons(LDP_AF_INET); 177 1.1 kefren 178 1.1 kefren ia = &t->a_address; 179 1.1 kefren for (adrcount = 0, ifb = ifa; ifb; ifb = ifb->ifa_next) { 180 1.1 kefren if ((ifb->ifa_addr->sa_family != AF_INET) || 181 1.1 kefren (!(ifb->ifa_flags & IFF_UP)) || 182 1.1 kefren (ifb->ifa_flags & IFF_LOOPBACK)) 183 1.1 kefren continue; 184 1.1 kefren sa = (struct sockaddr_in *) ifb->ifa_addr; 185 1.1 kefren memcpy(&ia[adrcount], &sa->sin_addr, sizeof(struct in_addr)); 186 1.1 kefren adrcount++; 187 1.1 kefren } 188 1.1 kefren freeifaddrs(ifa); 189 1.1 kefren 190 1.1 kefren add_my_if_addrs(ia, adrcount); 191 1.1 kefren return t; 192 1.1 kefren } 193 1.1 kefren 194 1.1 kefren /* 195 1.1 kefren * Calculate LDP ID 196 1.1 kefren * Get also mpls pseudo-interface address 197 1.1 kefren */ 198 1.1 kefren int 199 1.1 kefren set_my_ldp_id() 200 1.1 kefren { 201 1.1 kefren struct ifaddrs *ifa, *ifb; 202 1.1 kefren struct in_addr a; 203 1.1 kefren struct sockaddr_in *sa; 204 1.1 kefren 205 1.1 kefren a.s_addr = 0; 206 1.4 kefren my_ldp_id[0] = '\0'; 207 1.1 kefren mplssockaddr.sa_len = 0; 208 1.1 kefren 209 1.1 kefren if (getifaddrs(&ifa) == -1) 210 1.1 kefren return LDP_E_GENERIC; 211 1.1 kefren 212 1.1 kefren for (ifb = ifa; ifb; ifb = ifb->ifa_next) 213 1.1 kefren if(ifb->ifa_flags & IFF_UP) { 214 1.1 kefren if (strncmp("mpls", ifb->ifa_name, 4) == 0 && 215 1.1 kefren ifb->ifa_addr->sa_family == AF_LINK) 216 1.1 kefren memcpy(&mplssockaddr, ifb->ifa_addr, 217 1.1 kefren ifb->ifa_addr->sa_len); 218 1.1 kefren 219 1.1 kefren if (ifb->ifa_addr->sa_family != AF_INET) 220 1.1 kefren continue; 221 1.1 kefren 222 1.1 kefren sa = (struct sockaddr_in *) ifb->ifa_addr; 223 1.4 kefren if (ntohl(sa->sin_addr.s_addr) >> 24 == IN_LOOPBACKNET) 224 1.1 kefren continue; /* No 127/8 */ 225 1.1 kefren if (ntohl(sa->sin_addr.s_addr) > ntohl(a.s_addr)) 226 1.1 kefren a.s_addr = sa->sin_addr.s_addr; 227 1.1 kefren } 228 1.1 kefren freeifaddrs(ifa); 229 1.1 kefren debugp("LDP ID: %s\n", inet_ntoa(a)); 230 1.1 kefren strlcpy(my_ldp_id, inet_ntoa(a), INET_ADDRSTRLEN); 231 1.1 kefren return LDP_E_OK; 232 1.1 kefren } 233
Indexes created Mon Sep 22 13:09:51 GMT 2025