socketops.c revision 1.11.8.1
1 1.11.8.1 tls /* $NetBSD: socketops.c,v 1.11.8.1 2012/11/20 03:03:02 tls 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/stat.h> 34 1.1 kefren #include <sys/socket.h> 35 1.1 kefren #include <sys/ioctl.h> 36 1.1 kefren #include <net/if.h> 37 1.1 kefren #include <netinet/in.h> 38 1.1 kefren #include <arpa/inet.h> 39 1.1 kefren 40 1.7 kefren #include <assert.h> 41 1.1 kefren #include <errno.h> 42 1.7 kefren #include <ifaddrs.h> 43 1.7 kefren #include <poll.h> 44 1.1 kefren #include <signal.h> 45 1.7 kefren #include <stdio.h> 46 1.1 kefren #include <stdlib.h> 47 1.7 kefren #include <strings.h> 48 1.1 kefren #include <unistd.h> 49 1.1 kefren 50 1.1 kefren #include "fsm.h" 51 1.1 kefren #include "ldp.h" 52 1.1 kefren #include "ldp_command.h" 53 1.1 kefren #include "tlv.h" 54 1.1 kefren #include "ldp_peer.h" 55 1.1 kefren #include "notifications.h" 56 1.1 kefren #include "tlv_stack.h" 57 1.1 kefren #include "mpls_interface.h" 58 1.1 kefren #include "label.h" 59 1.1 kefren #include "mpls_routes.h" 60 1.1 kefren #include "ldp_errors.h" 61 1.1 kefren #include "socketops.h" 62 1.1 kefren 63 1.11.8.1 tls int ls; /* TCP listening socket on port 646 */ 64 1.11.8.1 tls int route_socket; /* used to see when a route is added/deleted */ 65 1.11.8.1 tls int hello_socket; /* hello RX/TX multicast sockets */ 66 1.11.8.1 tls #ifdef INET6 67 1.11.8.1 tls int hello6_socket; /* same as above */ 68 1.11.8.1 tls #endif 69 1.11.8.1 tls int command_socket; /* Listening socket for interface command */ 70 1.11.8.1 tls int current_msg_id = 0x233; 71 1.11.8.1 tls int command_port = LDP_COMMAND_PORT; 72 1.1 kefren extern int replay_index; 73 1.1 kefren extern struct rt_msg replay_rt[REPLAY_MAX]; 74 1.1 kefren extern struct com_sock csockets[MAX_COMMAND_SOCKETS]; 75 1.1 kefren 76 1.1 kefren int ldp_hello_time = LDP_HELLO_TIME; 77 1.3 kefren int ldp_keepalive_time = LDP_KEEPALIVE_TIME; 78 1.3 kefren int ldp_holddown_time = LDP_HOLDTIME; 79 1.7 kefren int no_default_route = 1; 80 1.11.8.1 tls int loop_detection = 0; 81 1.1 kefren 82 1.1 kefren void recv_pdu(int); 83 1.1 kefren void send_hello_alarm(int); 84 1.11 joerg __dead static void bail_out(int); 85 1.11.8.1 tls static int bind_socket(int s, uint8_t stype); 86 1.11.8.1 tls static int set_mcast_ttl(int, int); 87 1.11.8.1 tls static int set_tos(int); 88 1.11.8.1 tls static int socket_reuse_port(int); 89 1.1 kefren static int get_local_addr(struct sockaddr_dl *, struct in_addr *); 90 1.1 kefren 91 1.1 kefren int 92 1.11.8.1 tls create_hello_sockets() 93 1.1 kefren { 94 1.1 kefren struct ip_mreq mcast_addr; 95 1.11.8.1 tls int s; 96 1.11.8.1 tls #ifdef INET6 97 1.11.8.1 tls struct ipv6_mreq mcast_addr6; 98 1.11.8.1 tls int s6; 99 1.11.8.1 tls #endif 100 1.1 kefren 101 1.11.8.1 tls s = socket(PF_INET, SOCK_DGRAM, IPPROTO_UDP); 102 1.1 kefren if (s < 0) 103 1.1 kefren return s; 104 1.11.8.1 tls #ifdef INET6 105 1.11.8.1 tls s6 = socket(PF_INET6, SOCK_DGRAM, IPPROTO_UDP); 106 1.11.8.1 tls if (s6 < 0) { 107 1.11.8.1 tls close(s); 108 1.11.8.1 tls return s6; 109 1.11.8.1 tls } 110 1.11.8.1 tls #endif 111 1.1 kefren 112 1.1 kefren /* 113 1.11.8.1 tls * RFC5036 specifies we should listen to all subnet routers multicast 114 1.1 kefren * group 115 1.1 kefren */ 116 1.11.8.1 tls assert(inet_pton(AF_INET, ALL_ROUTERS, &mcast_addr.imr_multiaddr) == 1); 117 1.1 kefren mcast_addr.imr_interface.s_addr = htonl(INADDR_ANY); 118 1.1 kefren 119 1.11.8.1 tls #ifdef INET6 120 1.11.8.1 tls assert(inet_pton(AF_INET6, ALL_ROUTERS6, 121 1.11.8.1 tls &mcast_addr6.ipv6mr_multiaddr) == 1); 122 1.11.8.1 tls /* 123 1.11.8.1 tls * XXXXX: kefren. This should be 0, else I should create a socket 124 1.11.8.1 tls * for every interface. Need to investigate why is not working 125 1.11.8.1 tls * as documented in ip6(4) 126 1.11.8.1 tls */ 127 1.11.8.1 tls mcast_addr6.ipv6mr_interface = 1; 128 1.11.8.1 tls #endif 129 1.11.8.1 tls 130 1.11.8.1 tls if (socket_reuse_port(s) < 0) 131 1.11.8.1 tls goto chs_error; 132 1.11.8.1 tls #ifdef INET6 133 1.11.8.1 tls if (socket_reuse_port(s6) < 0) 134 1.11.8.1 tls goto chs_error; 135 1.11.8.1 tls #endif 136 1.11.8.1 tls 137 1.1 kefren /* Bind it to port 646 on specific address */ 138 1.11.8.1 tls if (bind_socket(s, 4) == -1) { 139 1.11.8.1 tls warnp("Cannot bind INET hello socket\n"); 140 1.11.8.1 tls goto chs_error; 141 1.11.8.1 tls } 142 1.11.8.1 tls #ifdef INET6 143 1.11.8.1 tls if (bind_socket(s6, 6) == -1) { 144 1.11.8.1 tls fatalp("Cannot bind INET6 hello socket\n"); 145 1.11.8.1 tls goto chs_error; 146 1.1 kefren } 147 1.11.8.1 tls #endif 148 1.11.8.1 tls 149 1.1 kefren /* We don't need to receive back our messages */ 150 1.1 kefren if (setsockopt(s, IPPROTO_IP, IP_MULTICAST_LOOP, &(uint8_t){0}, 151 1.1 kefren sizeof(uint8_t)) == -1) { 152 1.11.8.1 tls fatalp("INET setsockopt IP_MCAST_LOOP: %s\n", strerror(errno)); 153 1.11.8.1 tls goto chs_error; 154 1.1 kefren } 155 1.11.8.1 tls #ifdef INET6 156 1.11.8.1 tls if (setsockopt(s6, IPPROTO_IPV6, IPV6_MULTICAST_LOOP, &(uint32_t){0}, 157 1.11.8.1 tls sizeof(uint32_t)) == -1) { 158 1.11.8.1 tls fatalp("INET6 setsocketopt IP_MCAST_LOOP: %s\n", 159 1.11.8.1 tls strerror(errno)); 160 1.11.8.1 tls goto chs_error; 161 1.11.8.1 tls } 162 1.11.8.1 tls #endif 163 1.11.8.1 tls 164 1.1 kefren /* Finally join the group */ 165 1.1 kefren if (setsockopt(s, IPPROTO_IP, IP_ADD_MEMBERSHIP, (char *) &mcast_addr, 166 1.1 kefren sizeof(mcast_addr)) == -1) { 167 1.11.8.1 tls fatalp("setsockopt ADD_MEMBER: %s\n", strerror(errno)); 168 1.11.8.1 tls goto chs_error; 169 1.1 kefren } 170 1.11.8.1 tls #ifdef INET6 171 1.11.8.1 tls if (setsockopt(s6, IPPROTO_IPV6, IPV6_JOIN_GROUP, (char *)&mcast_addr6, 172 1.11.8.1 tls sizeof(mcast_addr6)) == -1) { 173 1.11.8.1 tls fatalp("INET6 setsockopt JOIN: %s\n", strerror(errno)); 174 1.11.8.1 tls goto chs_error; 175 1.1 kefren } 176 1.11.8.1 tls #endif 177 1.11.8.1 tls /* TTL:1, TOS: 0xc0 */ 178 1.11.8.1 tls if (set_mcast_ttl(s, 4) == -1) 179 1.11.8.1 tls goto chs_error; 180 1.11.8.1 tls #ifdef INET6 181 1.11.8.1 tls if (set_mcast_ttl(s6, 6) == -1) 182 1.11.8.1 tls goto chs_error; 183 1.11.8.1 tls #endif 184 1.1 kefren if (set_tos(s) == -1) { 185 1.1 kefren fatalp("set_tos: %s", strerror(errno)); 186 1.11.8.1 tls goto chs_error; 187 1.1 kefren } 188 1.11.8.1 tls 189 1.11.8.1 tls /* we need to get the input interface for message processing */ 190 1.1 kefren if (setsockopt(s, IPPROTO_IP, IP_RECVIF, &(uint32_t){1}, sizeof(uint32_t)) == -1) { 191 1.1 kefren fatalp("Cannot set IP_RECVIF\n"); 192 1.11.8.1 tls goto chs_error; 193 1.1 kefren } 194 1.11.8.1 tls #ifdef INET6 195 1.11.8.1 tls if (setsockopt(s6, IPPROTO_IPV6, IPV6_RECVPKTINFO, &(uint32_t){1}, sizeof(uint32_t)) == -1) 196 1.11.8.1 tls goto chs_error; 197 1.11.8.1 tls #endif 198 1.11.8.1 tls 199 1.1 kefren hello_socket = s; 200 1.11.8.1 tls #ifdef INET6 201 1.11.8.1 tls hello6_socket = s6; 202 1.11.8.1 tls #endif 203 1.11.8.1 tls 204 1.11.8.1 tls return 0; 205 1.11.8.1 tls chs_error: 206 1.11.8.1 tls close(s); 207 1.11.8.1 tls #ifdef INET6 208 1.11.8.1 tls close(s6); 209 1.11.8.1 tls #endif 210 1.11.8.1 tls return -1; 211 1.1 kefren } 212 1.1 kefren 213 1.1 kefren /* Sets the TTL to 1 as we don't want to transmit outside this subnet */ 214 1.11.8.1 tls int 215 1.1 kefren set_ttl(int s) 216 1.1 kefren { 217 1.1 kefren int ret; 218 1.1 kefren if ((ret = setsockopt(s, IPPROTO_IP, IP_TTL, &(int){1}, sizeof(int))) 219 1.1 kefren == -1) 220 1.1 kefren fatalp("set_ttl: %s", strerror(errno)); 221 1.1 kefren return ret; 222 1.1 kefren } 223 1.1 kefren 224 1.1 kefren /* Sets multicast TTL to 1 */ 225 1.11.8.1 tls static int 226 1.11.8.1 tls set_mcast_ttl(int s, int stype) 227 1.1 kefren { 228 1.1 kefren int ret; 229 1.11.8.1 tls 230 1.11.8.1 tls assert(stype == 4 || stype == 6); 231 1.11.8.1 tls if ((ret = setsockopt(s, stype == 4 ? IPPROTO_IP : IPPROTO_IPV6, 232 1.11.8.1 tls stype == 4 ? IP_MULTICAST_TTL : IPV6_MULTICAST_HOPS, &(int){1}, 233 1.1 kefren sizeof(int))) == -1) 234 1.1 kefren fatalp("set_mcast_ttl: %s", strerror(errno)); 235 1.1 kefren return ret; 236 1.1 kefren } 237 1.1 kefren 238 1.1 kefren /* Sets TOS to 0xc0 aka IP Precedence 6 */ 239 1.11.8.1 tls static int 240 1.1 kefren set_tos(int s) 241 1.1 kefren { 242 1.1 kefren int ret; 243 1.1 kefren if ((ret = setsockopt(s, IPPROTO_IP, IP_TOS, &(int){0xc0}, 244 1.1 kefren sizeof(int))) == -1) 245 1.1 kefren fatalp("set_tos: %s", strerror(errno)); 246 1.1 kefren return ret; 247 1.1 kefren } 248 1.1 kefren 249 1.11.8.1 tls static int 250 1.1 kefren socket_reuse_port(int s) 251 1.1 kefren { 252 1.11.8.1 tls int ret; 253 1.1 kefren if ((ret = setsockopt(s, SOL_SOCKET, SO_REUSEPORT, &(int){1}, 254 1.1 kefren sizeof(int))) == -1) 255 1.1 kefren fatalp("socket_reuse_port: %s", strerror(errno)); 256 1.1 kefren return ret; 257 1.1 kefren } 258 1.1 kefren 259 1.1 kefren /* binds an UDP socket */ 260 1.11.8.1 tls static int 261 1.11.8.1 tls bind_socket(int s, uint8_t stype) 262 1.1 kefren { 263 1.11.8.1 tls struct sockaddr sa; 264 1.1 kefren 265 1.11.8.1 tls assert (stype == 4 || stype == 6); 266 1.11.8.1 tls 267 1.11.8.1 tls if (stype == 4) { 268 1.11.8.1 tls struct sockaddr_in *sa_inet = (struct sockaddr_in *)(&sa); 269 1.11.8.1 tls sa_inet->sin_len = sizeof(*sa_inet); 270 1.11.8.1 tls sa_inet->sin_family = AF_INET; 271 1.11.8.1 tls sa_inet->sin_addr.s_addr = INADDR_ANY; 272 1.11.8.1 tls sa_inet->sin_port = htons(LDP_PORT); 273 1.11.8.1 tls } 274 1.11.8.1 tls #ifdef INET6 275 1.11.8.1 tls else if (stype == 6) { 276 1.11.8.1 tls struct sockaddr_in6 *sa_inet6 = (struct sockaddr_in6 *)(&sa); 277 1.11.8.1 tls sa_inet6->sin6_len = sizeof(*sa_inet6); 278 1.11.8.1 tls sa_inet6->sin6_family = AF_INET6; 279 1.11.8.1 tls sa_inet6->sin6_addr = in6addr_any; 280 1.11.8.1 tls sa_inet6->sin6_port = htons(LDP_PORT); 281 1.11.8.1 tls } 282 1.11.8.1 tls #endif 283 1.11.8.1 tls if (bind(s, &sa, sa.sa_len)) { 284 1.11.8.1 tls fatalp("bind_socket: %s\n", strerror(errno)); 285 1.1 kefren return -1; 286 1.1 kefren } 287 1.1 kefren return 0; 288 1.1 kefren } 289 1.1 kefren 290 1.1 kefren /* Create / bind the TCP socket */ 291 1.11.8.1 tls int 292 1.1 kefren create_listening_socket(void) 293 1.1 kefren { 294 1.1 kefren struct sockaddr_in sa; 295 1.1 kefren int s; 296 1.1 kefren 297 1.1 kefren sa.sin_len = sizeof(sa); 298 1.1 kefren sa.sin_family = AF_INET; 299 1.1 kefren sa.sin_port = htons(LDP_PORT); 300 1.1 kefren sa.sin_addr.s_addr = htonl(INADDR_ANY); 301 1.1 kefren 302 1.11.8.1 tls s = socket(PF_INET, SOCK_STREAM, IPPROTO_TCP); 303 1.1 kefren if (s < 0) 304 1.1 kefren return s; 305 1.1 kefren if (bind(s, (struct sockaddr *) & sa, sizeof(sa))) { 306 1.1 kefren fatalp("bind: %s", strerror(errno)); 307 1.1 kefren close(s); 308 1.1 kefren return -1; 309 1.1 kefren } 310 1.1 kefren if (listen(s, 10) == -1) { 311 1.1 kefren fatalp("listen: %s", strerror(errno)); 312 1.1 kefren close(s); 313 1.1 kefren return -1; 314 1.1 kefren } 315 1.1 kefren /* if (set_tos(s) == -1) { 316 1.1 kefren fatalp("set_tos: %s", strerror(errno)); 317 1.1 kefren close(s); 318 1.1 kefren return -1; 319 1.1 kefren } 320 1.1 kefren */ return s; 321 1.1 kefren } 322 1.1 kefren 323 1.1 kefren /* 324 1.1 kefren * It's ugly. We need a function to pass all tlvs and create pdu but since I 325 1.1 kefren * use UDP socket only to send hellos, I didn't bother 326 1.1 kefren */ 327 1.1 kefren void 328 1.1 kefren send_hello(void) 329 1.1 kefren { 330 1.1 kefren struct hello_tlv *t; 331 1.1 kefren struct common_hello_tlv *cht; 332 1.1 kefren struct ldp_pdu *spdu; 333 1.1 kefren struct transport_address_tlv *trtlv; 334 1.1 kefren void *v; 335 1.1 kefren struct sockaddr_in sadest; /* Destination ALL_ROUTERS */ 336 1.11.8.1 tls ssize_t sb = 0; /* sent bytes */ 337 1.1 kefren struct ifaddrs *ifa, *ifb; 338 1.1 kefren struct sockaddr_in *if_sa; 339 1.11.8.1 tls #ifdef INET6 340 1.11.8.1 tls struct sockaddr_in6 sadest6; 341 1.11.8.1 tls struct sockaddr_in6 *if_sa6; 342 1.11.8.1 tls #endif 343 1.1 kefren char lastifname[20]; 344 1.1 kefren 345 1.11.8.1 tls #define BASIC_HELLO_MSG_SIZE (sizeof(struct ldp_pdu) + /* PDU */ \ 346 1.1 kefren TLV_TYPE_LENGTH + MSGID_SIZE + /* Hello TLV */ \ 347 1.1 kefren /* Common Hello TLV */ \ 348 1.11.8.1 tls sizeof(struct common_hello_tlv)) 349 1.11.8.1 tls #define GENERAL_HELLO_MSG_SIZE BASIC_HELLO_MSG_SIZE + \ 350 1.11.8.1 tls /* Transport Address */ \ 351 1.11.8.1 tls sizeof(struct transport_address_tlv) 352 1.11.8.1 tls #define IPV4_HELLO_MSG_SIZE BASIC_HELLO_MSG_SIZE + 4 + sizeof(struct in_addr) 353 1.11.8.1 tls #define IPV6_HELLO_MSG_SIZE BASIC_HELLO_MSG_SIZE + 4 + sizeof(struct in6_addr) 354 1.1 kefren 355 1.11.8.1 tls if ((v = calloc(1, GENERAL_HELLO_MSG_SIZE)) == NULL) { 356 1.11.8.1 tls fatalp("alloc problem in send_hello()\n"); 357 1.1 kefren return; 358 1.1 kefren } 359 1.1 kefren 360 1.1 kefren spdu = (struct ldp_pdu *)((char *)v); 361 1.1 kefren t = (struct hello_tlv *)(spdu + 1); 362 1.1 kefren cht = &t->ch; /* Hello tlv struct includes CHT */ 363 1.1 kefren trtlv = (struct transport_address_tlv *)(t + 1); 364 1.1 kefren 365 1.1 kefren /* Prepare PDU envelope */ 366 1.1 kefren spdu->version = htons(LDP_VERSION); 367 1.11.8.1 tls spdu->length = htons(IPV4_HELLO_MSG_SIZE - PDU_VER_LENGTH); 368 1.1 kefren inet_aton(LDP_ID, &spdu->ldp_id); 369 1.1 kefren 370 1.1 kefren /* Prepare Hello TLV */ 371 1.1 kefren t->type = htons(LDP_HELLO); 372 1.1 kefren t->length = htons(MSGID_SIZE + 373 1.1 kefren sizeof(struct common_hello_tlv) + 374 1.11.8.1 tls IPV4_HELLO_MSG_SIZE - BASIC_HELLO_MSG_SIZE); 375 1.1 kefren /* 376 1.11.8.1 tls * kefren: 377 1.1 kefren * I used ID 0 instead of htonl(get_message_id()) because I've 378 1.11.8.1 tls * seen hellos from Cisco routers doing the same thing 379 1.1 kefren */ 380 1.1 kefren t->messageid = 0; 381 1.1 kefren 382 1.1 kefren /* Prepare Common Hello attributes */ 383 1.1 kefren cht->type = htons(TLV_COMMON_HELLO); 384 1.1 kefren cht->length = htons(sizeof(cht->holdtime) + sizeof(cht->res)); 385 1.3 kefren cht->holdtime = htons(ldp_holddown_time); 386 1.1 kefren cht->res = 0; 387 1.1 kefren 388 1.1 kefren /* 389 1.11.8.1 tls * Prepare Transport Address TLV RFC5036 says: "If this optional TLV 390 1.1 kefren * is not present the IPv4 source address for the UDP packet carrying 391 1.1 kefren * the Hello should be used." But we send it because everybody seems 392 1.1 kefren * to do so 393 1.1 kefren */ 394 1.1 kefren trtlv->type = htons(TLV_IPV4_TRANSPORT); 395 1.1 kefren trtlv->length = htons(sizeof(struct in_addr)); 396 1.1 kefren /* trtlv->address will be set for each socket */ 397 1.1 kefren 398 1.1 kefren /* Destination sockaddr */ 399 1.1 kefren memset(&sadest, 0, sizeof(sadest)); 400 1.1 kefren sadest.sin_len = sizeof(sadest); 401 1.1 kefren sadest.sin_family = AF_INET; 402 1.1 kefren sadest.sin_port = htons(LDP_PORT); 403 1.1 kefren inet_aton(ALL_ROUTERS, &sadest.sin_addr); 404 1.1 kefren 405 1.1 kefren if (getifaddrs(&ifa) == -1) { 406 1.1 kefren free(v); 407 1.1 kefren return; 408 1.1 kefren } 409 1.1 kefren 410 1.1 kefren lastifname[0] = '\0'; 411 1.11.8.1 tls /* Loop all interfaces in order to send IPv4 hellos */ 412 1.1 kefren for (ifb = ifa; ifb; ifb = ifb->ifa_next) { 413 1.1 kefren if_sa = (struct sockaddr_in *) ifb->ifa_addr; 414 1.1 kefren if (if_sa->sin_family != AF_INET) 415 1.1 kefren continue; 416 1.5 kefren if (ntohl(if_sa->sin_addr.s_addr) >> 24 == IN_LOOPBACKNET || 417 1.5 kefren ntohl(if_sa->sin_addr.s_addr) >> 24 == 0) 418 1.1 kefren continue; 419 1.11.8.1 tls 420 1.11.8.1 tls /* Send only once per interface, using primary address */ 421 1.1 kefren if (strcmp(ifb->ifa_name, lastifname) == 0) 422 1.1 kefren continue; 423 1.1 kefren debugp("Sending hello on %s\n", ifb->ifa_name); 424 1.1 kefren if (setsockopt(hello_socket, IPPROTO_IP, IP_MULTICAST_IF, 425 1.1 kefren &if_sa->sin_addr, sizeof(struct in_addr)) == -1) { 426 1.1 kefren warnp("setsockopt failed: %s\n", strerror(errno)); 427 1.1 kefren continue; 428 1.1 kefren } 429 1.11.8.1 tls trtlv->address.ip4addr.s_addr = if_sa->sin_addr.s_addr; 430 1.1 kefren 431 1.1 kefren strlcpy(lastifname, ifb->ifa_name, sizeof(lastifname)); 432 1.1 kefren 433 1.1 kefren /* Send to the wire */ 434 1.11.8.1 tls sb = sendto(hello_socket, v, IPV4_HELLO_MSG_SIZE, 435 1.1 kefren 0, (struct sockaddr *) & sadest, sizeof(sadest)); 436 1.11.8.1 tls if (sb < (ssize_t)(IPV4_HELLO_MSG_SIZE)) 437 1.1 kefren fatalp("send: %s", strerror(errno)); 438 1.1 kefren else 439 1.11.8.1 tls debugp("Sent (IP4) %zd bytes on %s" 440 1.11.8.1 tls "(PDU: %d, Hello TLV: %d, CH: %d, TR: %d)\n", 441 1.11.8.1 tls sb, ifb->ifa_name, 442 1.11.8.1 tls ntohs(spdu->length), ntohs(t->length), 443 1.11.8.1 tls ntohs(cht->length), ntohs(trtlv->length)); 444 1.11.8.1 tls } 445 1.11.8.1 tls #ifdef INET6 446 1.11.8.1 tls /* Let's do the same thing for IPv6 */ 447 1.11.8.1 tls lastifname[0]='\0'; 448 1.11.8.1 tls 449 1.11.8.1 tls /* Adjust lengths */ 450 1.11.8.1 tls spdu->length = htons(IPV6_HELLO_MSG_SIZE - PDU_VER_LENGTH); 451 1.11.8.1 tls t->length = htons(MSGID_SIZE + 452 1.11.8.1 tls sizeof(struct common_hello_tlv) + 453 1.11.8.1 tls IPV6_HELLO_MSG_SIZE - BASIC_HELLO_MSG_SIZE); 454 1.11.8.1 tls trtlv->length = htons(sizeof(struct in6_addr)); 455 1.11.8.1 tls trtlv->type = htons(TLV_IPV6_TRANSPORT); 456 1.11.8.1 tls 457 1.11.8.1 tls /* Prepare destination sockaddr */ 458 1.11.8.1 tls memset(&sadest6, 0, sizeof(sadest6)); 459 1.11.8.1 tls sadest6.sin6_len = sizeof(sadest6); 460 1.11.8.1 tls sadest6.sin6_family = AF_INET6; 461 1.11.8.1 tls sadest6.sin6_port = htons(LDP_PORT); 462 1.11.8.1 tls assert(inet_pton(AF_INET6, ALL_ROUTERS6, &sadest6.sin6_addr) == 1); 463 1.11.8.1 tls 464 1.11.8.1 tls for (ifb = ifa; ifb; ifb = ifb->ifa_next) { 465 1.11.8.1 tls unsigned int if_index; 466 1.11.8.1 tls if_sa6 = (struct sockaddr_in6 *) ifb->ifa_addr; 467 1.11.8.1 tls if (if_sa6->sin6_family != AF_INET6) 468 1.11.8.1 tls continue; 469 1.11.8.1 tls if (IN6_IS_ADDR_LOOPBACK(&if_sa6->sin6_addr)) 470 1.11.8.1 tls continue; 471 1.11.8.1 tls /* 472 1.11.8.1 tls * draft-ietf-mpls-ldp-ipv6-07 Section 5.1: 473 1.11.8.1 tls * Additionally, the link-local 474 1.11.8.1 tls * IPv6 address MUST be used as the source IP address in IPv6 475 1.11.8.1 tls * LDP Link Hellos. 476 1.11.8.1 tls */ 477 1.11.8.1 tls if (IN6_IS_ADDR_LINKLOCAL(&if_sa6->sin6_addr) == 0) 478 1.11.8.1 tls continue; 479 1.11.8.1 tls 480 1.11.8.1 tls /* Send only once per interface, using primary address */ 481 1.11.8.1 tls if (strcmp(ifb->ifa_name, lastifname) == 0) 482 1.11.8.1 tls continue; 483 1.11.8.1 tls if_index = if_nametoindex(ifb->ifa_name); 484 1.11.8.1 tls if (if_index == 0) 485 1.11.8.1 tls continue; 486 1.11.8.1 tls if (setsockopt(hello6_socket, IPPROTO_IPV6, IPV6_MULTICAST_IF, 487 1.11.8.1 tls &if_index, sizeof(int)) == -1) { 488 1.11.8.1 tls warnp("setsockopt6 failed in sendhello(): %s\n", 489 1.11.8.1 tls strerror(errno)); 490 1.11.8.1 tls continue; 491 1.11.8.1 tls } 492 1.11.8.1 tls memcpy(&trtlv->address.ip6addr, &if_sa6->sin6_addr, 493 1.11.8.1 tls sizeof(struct in6_addr)); 494 1.11.8.1 tls 495 1.11.8.1 tls strlcpy(lastifname, ifb->ifa_name, sizeof(lastifname)); 496 1.11.8.1 tls 497 1.11.8.1 tls /* Put it on the wire */ 498 1.11.8.1 tls sb = sendto(hello6_socket, v, IPV6_HELLO_MSG_SIZE, 499 1.11.8.1 tls 0, (struct sockaddr *)&sadest6, sizeof(sadest6)); 500 1.11.8.1 tls if (sb < (ssize_t)(IPV6_HELLO_MSG_SIZE)) 501 1.11.8.1 tls fatalp("send6 on %s: %s", ifb->ifa_name, strerror(errno)); 502 1.11.8.1 tls else 503 1.11.8.1 tls debugp("Sent (IPv6) %zd bytes on %s" 504 1.11.8.1 tls "(PDU: %d, Hello TLV: %d, CH: %d TR: %d)\n", 505 1.11.8.1 tls sb, ifb->ifa_name, 506 1.11.8.1 tls htons(spdu->length), htons(t->length), 507 1.11.8.1 tls htons(cht->length), htons(trtlv->length)); 508 1.1 kefren 509 1.1 kefren } 510 1.11.8.1 tls #endif 511 1.1 kefren freeifaddrs(ifa); 512 1.1 kefren free(v); 513 1.1 kefren } 514 1.1 kefren 515 1.1 kefren int 516 1.1 kefren get_message_id(void) 517 1.1 kefren { 518 1.1 kefren current_msg_id++; 519 1.1 kefren return current_msg_id; 520 1.1 kefren } 521 1.1 kefren 522 1.1 kefren static int 523 1.1 kefren get_local_addr(struct sockaddr_dl *sdl, struct in_addr *sin) 524 1.1 kefren { 525 1.1 kefren struct ifaddrs *ifa, *ifb; 526 1.1 kefren struct sockaddr_in *sinet; 527 1.1 kefren 528 1.1 kefren if (sdl == NULL) 529 1.1 kefren return -1; 530 1.1 kefren 531 1.1 kefren if (getifaddrs(&ifa) == -1) 532 1.1 kefren return -1; 533 1.1 kefren for (ifb = ifa; ifb; ifb = ifb->ifa_next) 534 1.1 kefren if (ifb->ifa_addr->sa_family == AF_INET) { 535 1.1 kefren if (if_nametoindex(ifb->ifa_name) != sdl->sdl_index) 536 1.1 kefren continue; 537 1.1 kefren sinet = (struct sockaddr_in*) ifb->ifa_addr; 538 1.1 kefren sin->s_addr = sinet->sin_addr.s_addr; 539 1.1 kefren freeifaddrs(ifa); 540 1.1 kefren return 0; 541 1.1 kefren } 542 1.1 kefren freeifaddrs(ifa); 543 1.1 kefren return -1; 544 1.1 kefren } 545 1.1 kefren 546 1.1 kefren /* Receive PDUs on Multicast UDP socket */ 547 1.1 kefren void 548 1.1 kefren recv_pdu(int sock) 549 1.1 kefren { 550 1.1 kefren struct ldp_pdu rpdu; 551 1.1 kefren int c, i; 552 1.1 kefren struct msghdr msg; 553 1.1 kefren struct iovec iov[1]; 554 1.1 kefren unsigned char recvspace[MAX_PDU_SIZE]; 555 1.1 kefren struct hello_tlv *t; 556 1.1 kefren struct sockaddr_in fromsa; 557 1.1 kefren struct sockaddr_dl *sdl = NULL; 558 1.1 kefren struct in_addr my_ldp_addr, local_addr; 559 1.1 kefren struct cmsghdr *cmptr; 560 1.1 kefren union { 561 1.1 kefren struct cmsghdr cm; 562 1.1 kefren char control[1024]; 563 1.1 kefren } control_un; 564 1.1 kefren 565 1.1 kefren debugp("Entering RECV_PDU\n"); 566 1.1 kefren 567 1.1 kefren memset(&msg, 0, sizeof(msg)); 568 1.1 kefren msg.msg_control = control_un.control; 569 1.1 kefren msg.msg_controllen = sizeof(control_un.control); 570 1.1 kefren msg.msg_flags = 0; 571 1.1 kefren msg.msg_name = &fromsa; 572 1.1 kefren msg.msg_namelen = sizeof(fromsa); 573 1.1 kefren iov[0].iov_base = recvspace; 574 1.1 kefren iov[0].iov_len = sizeof(recvspace); 575 1.1 kefren msg.msg_iov = iov; 576 1.1 kefren msg.msg_iovlen = 1; 577 1.1 kefren 578 1.1 kefren c = recvmsg(sock, &msg, MSG_WAITALL); 579 1.1 kefren debugp("Incoming PDU size: %d\n", c); 580 1.1 kefren 581 1.1 kefren debugp("PDU from: %s\n", inet_ntoa(fromsa.sin_addr)); 582 1.1 kefren 583 1.1 kefren /* Check to see if this is larger than MIN_PDU_SIZE */ 584 1.1 kefren if (c < MIN_PDU_SIZE) 585 1.1 kefren return; 586 1.1 kefren 587 1.1 kefren /* Read the PDU */ 588 1.1 kefren i = get_pdu(recvspace, &rpdu); 589 1.1 kefren 590 1.1 kefren /* We currently understand Version 1 */ 591 1.1 kefren if (rpdu.version != LDP_VERSION) { 592 1.1 kefren fatalp("recv_pdu: Version mismatch\n"); 593 1.1 kefren return; 594 1.1 kefren } 595 1.1 kefren 596 1.1 kefren /* Maybe it's our hello */ 597 1.1 kefren inet_aton(LDP_ID, &my_ldp_addr); 598 1.1 kefren if (rpdu.ldp_id.s_addr == my_ldp_addr.s_addr) { 599 1.1 kefren fatalp("Received our PDU..\n"); /* it should be not looped */ 600 1.1 kefren return; 601 1.1 kefren } 602 1.1 kefren 603 1.1 kefren if (msg.msg_controllen < (socklen_t)sizeof(struct cmsghdr) || 604 1.1 kefren (msg.msg_flags & MSG_CTRUNC)) 605 1.1 kefren local_addr.s_addr = my_ldp_addr.s_addr; 606 1.1 kefren else { 607 1.1 kefren for (cmptr = CMSG_FIRSTHDR(&msg); cmptr != NULL; 608 1.1 kefren cmptr = CMSG_NXTHDR(&msg, cmptr)) 609 1.1 kefren if (cmptr->cmsg_level == IPPROTO_IP && 610 1.1 kefren cmptr->cmsg_type == IP_RECVIF) { 611 1.1 kefren sdl = (struct sockaddr_dl *) CMSG_DATA(cmptr); 612 1.1 kefren break; 613 1.1 kefren } 614 1.1 kefren if (get_local_addr(sdl, &local_addr) != 0) 615 1.1 kefren local_addr.s_addr = my_ldp_addr.s_addr; 616 1.1 kefren } 617 1.1 kefren 618 1.1 kefren 619 1.1 kefren debugp("Read %d bytes from address %s Length: %.4d Version: %d\n", 620 1.1 kefren c, inet_ntoa(rpdu.ldp_id), rpdu.length, rpdu.version); 621 1.1 kefren 622 1.1 kefren /* Fill the TLV messages */ 623 1.1 kefren t = get_hello_tlv(recvspace + i, c - i); 624 1.1 kefren run_ldp_hello(&rpdu, t, &fromsa.sin_addr, &local_addr, sock); 625 1.1 kefren } 626 1.1 kefren 627 1.1 kefren void 628 1.1 kefren send_hello_alarm(int unused) 629 1.1 kefren { 630 1.4 kefren struct ldp_peer *p, *ptmp; 631 1.3 kefren struct hello_info *hi, *hinext; 632 1.1 kefren time_t t = time(NULL); 633 1.1 kefren int olderrno = errno; 634 1.1 kefren 635 1.1 kefren /* Send hellos */ 636 1.1 kefren if (!(t % ldp_hello_time)) 637 1.1 kefren send_hello(); 638 1.1 kefren 639 1.1 kefren /* Timeout -- */ 640 1.1 kefren SLIST_FOREACH(p, &ldp_peer_head, peers) 641 1.1 kefren p->timeout--; 642 1.1 kefren 643 1.1 kefren /* Check for timeout */ 644 1.4 kefren SLIST_FOREACH_SAFE(p, &ldp_peer_head, peers, ptmp) 645 1.1 kefren if (p->timeout < 1) 646 1.1 kefren switch (p->state) { 647 1.1 kefren case LDP_PEER_HOLDDOWN: 648 1.1 kefren debugp("LDP holddown expired for peer %s\n", 649 1.1 kefren inet_ntoa(p->ldp_id)); 650 1.1 kefren ldp_peer_delete(p); 651 1.4 kefren break; 652 1.1 kefren case LDP_PEER_ESTABLISHED: 653 1.1 kefren case LDP_PEER_CONNECTED: 654 1.1 kefren send_notification(p, 0, 655 1.1 kefren NOTIF_KEEP_ALIVE_TIMER_EXPIRED); 656 1.1 kefren warnp("Keepalive expired for %s\n", 657 1.1 kefren inet_ntoa(p->ldp_id)); 658 1.1 kefren ldp_peer_holddown(p); 659 1.1 kefren break; 660 1.1 kefren } /* switch */ 661 1.1 kefren 662 1.1 kefren /* send keepalives */ 663 1.3 kefren if (!(t % ldp_keepalive_time)) { 664 1.1 kefren SLIST_FOREACH(p, &ldp_peer_head, peers) 665 1.1 kefren if (p->state == LDP_PEER_ESTABLISHED) { 666 1.1 kefren debugp("Sending KeepAlive to %s\n", 667 1.1 kefren inet_ntoa(p->ldp_id)); 668 1.1 kefren keep_alive(p); 669 1.1 kefren } 670 1.1 kefren } 671 1.1 kefren 672 1.1 kefren /* Decrement hello info keepalives */ 673 1.1 kefren SLIST_FOREACH(hi, &hello_info_head, infos) 674 1.10 kefren if (hi->keepalive != 0xFFFF) 675 1.10 kefren hi->keepalive--; 676 1.1 kefren 677 1.1 kefren /* Check hello keepalives */ 678 1.3 kefren SLIST_FOREACH_SAFE(hi, &hello_info_head, infos, hinext) 679 1.3 kefren if (hi->keepalive < 1) 680 1.1 kefren SLIST_REMOVE(&hello_info_head, hi, hello_info, infos); 681 1.1 kefren 682 1.1 kefren /* Set the alarm again and bail out */ 683 1.1 kefren alarm(1); 684 1.1 kefren errno = olderrno; 685 1.1 kefren } 686 1.1 kefren 687 1.11 joerg static void 688 1.1 kefren bail_out(int x) 689 1.1 kefren { 690 1.1 kefren ldp_peer_holddown_all(); 691 1.1 kefren flush_mpls_routes(); 692 1.1 kefren exit(0); 693 1.1 kefren } 694 1.1 kefren 695 1.1 kefren /* 696 1.1 kefren * The big poll that catches every single event 697 1.1 kefren * on every socket. 698 1.1 kefren */ 699 1.7 kefren int 700 1.1 kefren the_big_loop(void) 701 1.1 kefren { 702 1.1 kefren int sock_error; 703 1.1 kefren uint32_t i; 704 1.1 kefren socklen_t sock_error_size = sizeof(int); 705 1.1 kefren struct ldp_peer *p; 706 1.1 kefren struct com_sock *cs; 707 1.1 kefren struct pollfd pfd[MAX_POLL_FDS]; 708 1.1 kefren 709 1.7 kefren assert(MAX_POLL_FDS > 3); 710 1.7 kefren 711 1.1 kefren SLIST_INIT(&hello_info_head); 712 1.1 kefren 713 1.1 kefren signal(SIGALRM, send_hello_alarm); 714 1.1 kefren signal(SIGPIPE, SIG_IGN); 715 1.10 kefren signal(SIGINT, bail_out); 716 1.1 kefren signal(SIGTERM, bail_out); 717 1.1 kefren send_hello_alarm(1); 718 1.1 kefren 719 1.1 kefren route_socket = socket(PF_ROUTE, SOCK_RAW, AF_UNSPEC); 720 1.1 kefren 721 1.7 kefren sock_error = bind_current_routes(); 722 1.7 kefren if (sock_error != LDP_E_OK) { 723 1.1 kefren fatalp("Cannot get current routes\n"); 724 1.7 kefren return sock_error; 725 1.7 kefren } 726 1.1 kefren 727 1.1 kefren for (;;) { 728 1.1 kefren nfds_t pollsum = 4; 729 1.1 kefren 730 1.1 kefren pfd[0].fd = ls; 731 1.1 kefren pfd[0].events = POLLRDNORM; 732 1.1 kefren pfd[0].revents = 0; 733 1.1 kefren 734 1.1 kefren pfd[1].fd = route_socket; 735 1.1 kefren pfd[1].events = POLLRDNORM; 736 1.1 kefren pfd[1].revents = 0; 737 1.1 kefren 738 1.1 kefren pfd[2].fd = command_socket; 739 1.1 kefren pfd[2].events = POLLRDNORM; 740 1.1 kefren pfd[2].revents = 0; 741 1.1 kefren 742 1.1 kefren /* Hello socket */ 743 1.1 kefren pfd[3].fd = hello_socket; 744 1.1 kefren pfd[3].events = POLLIN; 745 1.1 kefren pfd[3].revents = 0; 746 1.1 kefren 747 1.1 kefren /* Command sockets */ 748 1.1 kefren for (i=0; i < MAX_COMMAND_SOCKETS; i++) 749 1.1 kefren if (csockets[i].socket != -1) { 750 1.7 kefren if (pollsum >= MAX_POLL_FDS) 751 1.7 kefren break; 752 1.1 kefren pfd[pollsum].fd = csockets[i].socket; 753 1.1 kefren pfd[pollsum].events = POLLIN; 754 1.1 kefren pfd[pollsum].revents = 0; 755 1.1 kefren pollsum++; 756 1.1 kefren } 757 1.1 kefren 758 1.1 kefren /* LDP Peer sockets */ 759 1.1 kefren SLIST_FOREACH(p, &ldp_peer_head, peers) { 760 1.1 kefren if (p->socket < 1) 761 1.1 kefren continue; 762 1.1 kefren switch (p->state) { 763 1.1 kefren case LDP_PEER_CONNECTED: 764 1.1 kefren case LDP_PEER_ESTABLISHED: 765 1.7 kefren if (pollsum >= MAX_POLL_FDS) 766 1.7 kefren break; 767 1.1 kefren pfd[pollsum].fd = p->socket; 768 1.1 kefren pfd[pollsum].events = POLLRDNORM; 769 1.1 kefren pfd[pollsum].revents = 0; 770 1.1 kefren pollsum++; 771 1.1 kefren break; 772 1.1 kefren case LDP_PEER_CONNECTING: 773 1.7 kefren if (pollsum >= MAX_POLL_FDS) 774 1.7 kefren break; 775 1.1 kefren pfd[pollsum].fd = p->socket; 776 1.1 kefren pfd[pollsum].events = POLLWRNORM; 777 1.1 kefren pfd[pollsum].revents = 0; 778 1.1 kefren pollsum++; 779 1.1 kefren break; 780 1.1 kefren } 781 1.1 kefren } 782 1.1 kefren 783 1.1 kefren if (pollsum >= MAX_POLL_FDS) { 784 1.1 kefren fatalp("Too many sockets. Increase MAX_POLL_FDS\n"); 785 1.7 kefren return LDP_E_TOO_MANY_FDS; 786 1.8 kefren } 787 1.1 kefren if (poll(pfd, pollsum, INFTIM) < 0) { 788 1.1 kefren if (errno != EINTR) 789 1.1 kefren fatalp("poll: %s", strerror(errno)); 790 1.1 kefren continue; 791 1.8 kefren } 792 1.1 kefren 793 1.1 kefren for (i = 0; i < pollsum; i++) { 794 1.1 kefren if ((pfd[i].revents & POLLRDNORM) || 795 1.1 kefren (pfd[i].revents & POLLIN)) { 796 1.8 kefren if(pfd[i].fd == ls) 797 1.1 kefren new_peer_connection(); 798 1.8 kefren else if (pfd[i].fd == route_socket) { 799 1.1 kefren struct rt_msg xbuf; 800 1.8 kefren int l; 801 1.1 kefren do { 802 1.8 kefren l = read(route_socket, &xbuf, 803 1.8 kefren sizeof(xbuf)); 804 1.1 kefren } while ((l == -1) && (errno == EINTR)); 805 1.1 kefren 806 1.1 kefren if (l == -1) 807 1.1 kefren break; 808 1.1 kefren 809 1.8 kefren check_route(&xbuf, l); 810 1.1 kefren 811 1.1 kefren } else if (pfd[i].fd == hello_socket) { 812 1.1 kefren /* Receiving hello socket */ 813 1.1 kefren recv_pdu(pfd[i].fd); 814 1.1 kefren } else if (pfd[i].fd == command_socket) { 815 1.1 kefren command_accept(command_socket); 816 1.1 kefren } else if ((cs = is_command_socket(pfd[i].fd)) 817 1.1 kefren != NULL) { 818 1.1 kefren command_dispatch(cs); 819 1.1 kefren } else { 820 1.1 kefren /* ldp peer socket */ 821 1.1 kefren p = get_ldp_peer_by_socket(pfd[i].fd); 822 1.1 kefren if (p) 823 1.1 kefren recv_session_pdu(p); 824 1.1 kefren } 825 1.1 kefren } else if(pfd[i].revents & POLLWRNORM) { 826 1.1 kefren p = get_ldp_peer_by_socket(pfd[i].fd); 827 1.1 kefren if (!p) 828 1.1 kefren continue; 829 1.9 kefren if (getsockopt(pfd[i].fd, SOL_SOCKET, SO_ERROR, 830 1.9 kefren &sock_error, &sock_error_size) != 0 || 831 1.9 kefren sock_error != 0) { 832 1.9 kefren ldp_peer_holddown(p); 833 1.9 kefren sock_error = 0; 834 1.9 kefren } else { 835 1.9 kefren p->state = LDP_PEER_CONNECTED; 836 1.9 kefren send_initialize(p); 837 1.1 kefren } 838 1.1 kefren } 839 1.1 kefren } 840 1.1 kefren 841 1.1 kefren for (int ri = 0; ri < replay_index; ri++) { 842 1.1 kefren debugp("Replaying: PID %d, SEQ %d\n", 843 1.1 kefren replay_rt[ri].m_rtm.rtm_pid, 844 1.1 kefren replay_rt[ri].m_rtm.rtm_seq); 845 1.1 kefren check_route(&replay_rt[ri], sizeof(struct rt_msg)); 846 1.1 kefren } 847 1.1 kefren replay_index = 0; 848 1.1 kefren } /* for (;;) */ 849 1.1 kefren } 850 1.1 kefren 851 1.1 kefren void 852 1.1 kefren new_peer_connection() 853 1.1 kefren { 854 1.1 kefren struct sockaddr_in sa, sin_me; 855 1.1 kefren int s; 856 1.1 kefren 857 1.1 kefren s = accept(ls, (struct sockaddr *) & sa, 858 1.1 kefren & (socklen_t) { sizeof(struct sockaddr_in) } ); 859 1.1 kefren if (s < 0) { 860 1.1 kefren fatalp("accept: %s", strerror(errno)); 861 1.1 kefren return; 862 1.1 kefren } 863 1.1 kefren 864 1.1 kefren if (get_ldp_peer(&sa.sin_addr) != NULL) { 865 1.1 kefren close(s); 866 1.1 kefren return; 867 1.1 kefren } 868 1.1 kefren 869 1.1 kefren warnp("Accepted a connection from %s\n", inet_ntoa(sa.sin_addr)); 870 1.1 kefren 871 1.1 kefren if (getsockname(s, (struct sockaddr *)&sin_me, 872 1.1 kefren & (socklen_t) { sizeof(struct sockaddr_in) } )) { 873 1.1 kefren fatalp("new_peer_connection(): cannot getsockname\n"); 874 1.1 kefren close(s); 875 1.1 kefren return; 876 1.1 kefren } 877 1.1 kefren 878 1.1 kefren if (ntohl(sa.sin_addr.s_addr) < ntohl(sin_me.sin_addr.s_addr)) { 879 1.1 kefren fatalp("Peer %s: connect from lower ID\n", 880 1.1 kefren inet_ntoa(sa.sin_addr)); 881 1.1 kefren close(s); 882 1.1 kefren return; 883 1.1 kefren } 884 1.11.8.1 tls /* XXX: sa.sin_addr is not peer LDP ID ... */ 885 1.11.8.1 tls ldp_peer_new(&sa.sin_addr, &sa.sin_addr, NULL, NULL, ldp_holddown_time, s); 886 1.1 kefren 887 1.1 kefren } 888 1.1 kefren 889 1.1 kefren void 890 1.1 kefren send_initialize(struct ldp_peer * p) 891 1.1 kefren { 892 1.1 kefren struct init_tlv ti; 893 1.1 kefren 894 1.1 kefren ti.type = htons(LDP_INITIALIZE); 895 1.1 kefren ti.length = htons(sizeof(struct init_tlv) - TLV_TYPE_LENGTH); 896 1.1 kefren ti.messageid = htonl(get_message_id()); 897 1.1 kefren ti.cs_type = htons(TLV_COMMON_SESSION); 898 1.1 kefren ti.cs_len = htons(CS_LEN); 899 1.1 kefren ti.cs_version = htons(LDP_VERSION); 900 1.3 kefren ti.cs_keepalive = htons(2 * ldp_keepalive_time); 901 1.1 kefren ti.cs_adpvlim = 0; 902 1.1 kefren ti.cs_maxpdulen = htons(MAX_PDU_SIZE); 903 1.1 kefren ti.cs_peeraddress.s_addr = p->ldp_id.s_addr; 904 1.1 kefren ti.cs_peeraddrspace = 0; 905 1.1 kefren 906 1.1 kefren send_tlv(p, (struct tlv *) (void *) &ti); 907 1.1 kefren } 908 1.1 kefren 909 1.1 kefren void 910 1.1 kefren keep_alive(struct ldp_peer * p) 911 1.1 kefren { 912 1.1 kefren struct ka_tlv kt; 913 1.1 kefren 914 1.1 kefren kt.type = htons(LDP_KEEPALIVE); 915 1.1 kefren kt.length = htons(sizeof(kt.messageid)); 916 1.1 kefren kt.messageid = htonl(get_message_id()); 917 1.1 kefren 918 1.1 kefren send_tlv(p, (struct tlv *) (void *) &kt); 919 1.1 kefren 920 1.1 kefren } 921 1.1 kefren 922 1.1 kefren void 923 1.1 kefren recv_session_pdu(struct ldp_peer * p) 924 1.1 kefren { 925 1.1 kefren struct ldp_pdu *rpdu; 926 1.1 kefren struct address_tlv *atlv; 927 1.1 kefren struct al_tlv *altlv; 928 1.1 kefren struct init_tlv *itlv; 929 1.1 kefren struct label_map_tlv *lmtlv; 930 1.1 kefren struct fec_tlv *fectlv; 931 1.6 joerg struct label_tlv *labeltlv; 932 1.1 kefren struct notification_tlv *nottlv; 933 1.1 kefren struct hello_info *hi; 934 1.1 kefren 935 1.1 kefren int c; 936 1.1 kefren int32_t wo = 0; 937 1.1 kefren struct tlv *ttmp; 938 1.1 kefren unsigned char recvspace[MAX_PDU_SIZE]; 939 1.1 kefren 940 1.1 kefren memset(recvspace, 0, MAX_PDU_SIZE); 941 1.1 kefren 942 1.1 kefren c = recv(p->socket, (void *) recvspace, MAX_PDU_SIZE, MSG_PEEK); 943 1.1 kefren 944 1.1 kefren debugp("Ready to read %d bytes\n", c); 945 1.1 kefren 946 1.1 kefren if (c < 1) { /* Session closed */ 947 1.1 kefren warnp("Error in connection with %s\n", inet_ntoa(p->ldp_id)); 948 1.1 kefren ldp_peer_holddown(p); 949 1.1 kefren return; 950 1.1 kefren } 951 1.1 kefren if (c > MAX_PDU_SIZE) { 952 1.1 kefren debugp("Incoming PDU size exceeds MAX_PDU_SIZE !\n"); 953 1.1 kefren return; 954 1.1 kefren } 955 1.1 kefren if (c < MIN_PDU_SIZE) { 956 1.1 kefren debugp("PDU too small received from peer %s\n", inet_ntoa(p->ldp_id)); 957 1.1 kefren return; 958 1.1 kefren } 959 1.1 kefren rpdu = (struct ldp_pdu *) recvspace; 960 1.1 kefren /* XXX: buggy messages may crash the whole thing */ 961 1.1 kefren c = recv(p->socket, (void *) recvspace, 962 1.1 kefren ntohs(rpdu->length) + PDU_VER_LENGTH, MSG_WAITALL); 963 1.1 kefren rpdu = (struct ldp_pdu *) recvspace; 964 1.1 kefren 965 1.1 kefren /* Check if it's somehow OK... */ 966 1.1 kefren if (check_recv_pdu(p, rpdu, c) != 0) 967 1.1 kefren return; 968 1.1 kefren 969 1.1 kefren debugp("Read %d bytes, PDU size: %d bytes\n", c, ntohs(rpdu->length)); 970 1.1 kefren wo = sizeof(struct ldp_pdu); 971 1.1 kefren 972 1.1 kefren while (wo + TLV_TYPE_LENGTH < (uint)c) { 973 1.1 kefren 974 1.1 kefren ttmp = (struct tlv *) (&recvspace[wo]); 975 1.1 kefren 976 1.1 kefren if ((ntohs(ttmp->type) != LDP_KEEPALIVE) && 977 1.1 kefren (ntohs(ttmp->type) != LDP_LABEL_MAPPING)) { 978 1.1 kefren debugp("Got Type: 0x%.4X (Length: %d) from %s\n", 979 1.1 kefren ntohs(ttmp->type), ntohs(ttmp->length), 980 1.1 kefren inet_ntoa(p->ldp_id)); 981 1.1 kefren } else 982 1.1 kefren debugp("Got Type: 0x%.4X (Length: %d) from %s\n", 983 1.1 kefren ntohs(ttmp->type), ntohs(ttmp->length), 984 1.1 kefren inet_ntoa(p->ldp_id)); 985 1.1 kefren 986 1.1 kefren /* Should we get the message ? */ 987 1.1 kefren if (p->state != LDP_PEER_ESTABLISHED && 988 1.1 kefren ntohs(ttmp->type) != LDP_INITIALIZE && 989 1.1 kefren ntohs(ttmp->type) != LDP_KEEPALIVE) 990 1.1 kefren break; 991 1.1 kefren /* The big switch */ 992 1.1 kefren switch (ntohs(ttmp->type)) { 993 1.1 kefren case LDP_INITIALIZE: 994 1.1 kefren itlv = (struct init_tlv *)ttmp; 995 1.1 kefren /* Check size */ 996 1.1 kefren if (ntohs(itlv->length) < 997 1.1 kefren sizeof(struct init_tlv) - TLV_TYPE_LENGTH) { 998 1.1 kefren send_notification(p, 0, 999 1.1 kefren NOTIF_BAD_PDU_LEN | NOTIF_FATAL); 1000 1.1 kefren ldp_peer_holddown(p); 1001 1.1 kefren break; 1002 1.1 kefren } 1003 1.1 kefren /* Check version */ 1004 1.1 kefren if (ntohs(itlv->cs_version) != LDP_VERSION) { 1005 1.1 kefren send_notification(p, ntohl(itlv->messageid), 1006 1.1 kefren NOTIF_BAD_LDP_VER | NOTIF_FATAL); 1007 1.1 kefren ldp_peer_holddown(p); 1008 1.1 kefren break; 1009 1.1 kefren } 1010 1.1 kefren /* Check if we got any hello from this one */ 1011 1.1 kefren SLIST_FOREACH(hi, &hello_info_head, infos) 1012 1.1 kefren if (hi->ldp_id.s_addr == rpdu->ldp_id.s_addr) 1013 1.1 kefren break; 1014 1.1 kefren if (hi == NULL) { 1015 1.1 kefren send_notification(p, ntohl(itlv->messageid), 1016 1.1 kefren NOTIF_SESSION_REJECTED_NO_HELLO | NOTIF_FATAL); 1017 1.1 kefren ldp_peer_holddown(p); 1018 1.1 kefren break; 1019 1.1 kefren } 1020 1.1 kefren 1021 1.1 kefren if (!p->master) { 1022 1.1 kefren keep_alive(p); 1023 1.1 kefren send_initialize(p); 1024 1.1 kefren } else { 1025 1.1 kefren p->state = LDP_PEER_ESTABLISHED; 1026 1.1 kefren p->established_t = time(NULL); 1027 1.1 kefren keep_alive(p); 1028 1.1 kefren 1029 1.1 kefren /* 1030 1.1 kefren * Recheck here ldp id because we accepted 1031 1.1 kefren * connection without knowing who is it for sure 1032 1.1 kefren */ 1033 1.1 kefren p->ldp_id.s_addr = rpdu->ldp_id.s_addr; 1034 1.1 kefren 1035 1.1 kefren fatalp("LDP neighbour %s is UP\n", 1036 1.1 kefren inet_ntoa(p->ldp_id)); 1037 1.1 kefren mpls_add_ldp_peer(p); 1038 1.1 kefren send_addresses(p); 1039 1.1 kefren send_all_bindings(p); 1040 1.1 kefren } 1041 1.1 kefren break; 1042 1.1 kefren case LDP_KEEPALIVE: 1043 1.1 kefren if ((p->state == LDP_PEER_CONNECTED) && (!p->master)) { 1044 1.1 kefren p->state = LDP_PEER_ESTABLISHED; 1045 1.1 kefren p->established_t = time(NULL); 1046 1.1 kefren fatalp("LDP neighbour %s is UP\n", 1047 1.1 kefren inet_ntoa(p->ldp_id)); 1048 1.1 kefren mpls_add_ldp_peer(p); 1049 1.1 kefren send_addresses(p); 1050 1.1 kefren send_all_bindings(p); 1051 1.1 kefren } 1052 1.1 kefren p->timeout = p->holdtime; 1053 1.1 kefren break; 1054 1.1 kefren case LDP_ADDRESS: 1055 1.1 kefren /* Add peer addresses */ 1056 1.1 kefren atlv = (struct address_tlv *) ttmp; 1057 1.1 kefren altlv = (struct al_tlv *) (&atlv[1]); 1058 1.1 kefren add_ifaddresses(p, altlv); 1059 1.1 kefren print_bounded_addresses(p); 1060 1.1 kefren break; 1061 1.1 kefren case LDP_ADDRESS_WITHDRAW: 1062 1.1 kefren atlv = (struct address_tlv *) ttmp; 1063 1.1 kefren altlv = (struct al_tlv *) (&atlv[1]); 1064 1.1 kefren del_ifaddresses(p, altlv); 1065 1.1 kefren break; 1066 1.1 kefren case LDP_LABEL_MAPPING: 1067 1.1 kefren lmtlv = (struct label_map_tlv *) ttmp; 1068 1.1 kefren fectlv = (struct fec_tlv *) (&lmtlv[1]); 1069 1.1 kefren labeltlv = (struct label_tlv *)((unsigned char *)fectlv 1070 1.1 kefren + ntohs(fectlv->length) + TLV_TYPE_LENGTH); 1071 1.1 kefren map_label(p, fectlv, labeltlv); 1072 1.1 kefren break; 1073 1.1 kefren case LDP_LABEL_REQUEST: 1074 1.1 kefren lmtlv = (struct label_map_tlv *) ttmp; 1075 1.1 kefren fectlv = (struct fec_tlv *) (&lmtlv[1]); 1076 1.1 kefren switch (request_respond(p, lmtlv, fectlv)) { 1077 1.1 kefren case LDP_E_BAD_FEC: 1078 1.1 kefren send_notification(p, ntohl(lmtlv->messageid), 1079 1.1 kefren NOTIF_UNKNOWN_TLV); 1080 1.1 kefren break; 1081 1.1 kefren case LDP_E_BAD_AF: 1082 1.1 kefren send_notification(p, ntohl(lmtlv->messageid), 1083 1.1 kefren NOTIF_UNSUPPORTED_AF); 1084 1.1 kefren break; 1085 1.1 kefren case LDP_E_NO_SUCH_ROUTE: 1086 1.1 kefren send_notification(p, ntohl(lmtlv->messageid), 1087 1.1 kefren NOTIF_NO_ROUTE); 1088 1.1 kefren break; 1089 1.1 kefren } 1090 1.1 kefren break; 1091 1.1 kefren case LDP_LABEL_WITHDRAW: 1092 1.1 kefren lmtlv = (struct label_map_tlv *) ttmp; 1093 1.1 kefren fectlv = (struct fec_tlv *) (&lmtlv[1]); 1094 1.1 kefren if (withdraw_label(p, fectlv) == LDP_E_OK) { 1095 1.1 kefren /* Send RELEASE */ 1096 1.1 kefren prepare_release(ttmp); 1097 1.1 kefren send_tlv(p, ttmp); 1098 1.1 kefren } 1099 1.1 kefren break; 1100 1.1 kefren case LDP_LABEL_RELEASE: 1101 1.1 kefren /* 1102 1.1 kefren * XXX: we need to make a timed queue... 1103 1.1 kefren * For now I just assume peers are processing messages 1104 1.1 kefren * correctly so I just ignore confirmations 1105 1.1 kefren */ 1106 1.1 kefren wo = -1; /* Ignore rest of message */ 1107 1.1 kefren break; 1108 1.1 kefren case LDP_LABEL_ABORT: 1109 1.1 kefren /* XXX: For now I pretend I can process everything 1110 1.11.8.1 tls * RFC 5036, Section 3.5.9.1 1111 1.1 kefren * If an LSR receives a Label Abort Request Message after it 1112 1.1 kefren * has responded to the Label Request in question with a Label 1113 1.1 kefren * Mapping message or a Notification message, it ignores the 1114 1.1 kefren * abort request. 1115 1.1 kefren */ 1116 1.1 kefren wo = -1; 1117 1.1 kefren break; 1118 1.1 kefren case LDP_NOTIFICATION: 1119 1.1 kefren nottlv = (struct notification_tlv *) ttmp; 1120 1.1 kefren nottlv->st_code = ntohl(nottlv->st_code); 1121 1.1 kefren fatalp("Got notification 0x%X from peer %s\n", 1122 1.1 kefren nottlv->st_code, inet_ntoa(p->ldp_id)); 1123 1.1 kefren if (nottlv->st_code >> 31) { 1124 1.1 kefren fatalp("LDP peer %s signalized %s\n", 1125 1.1 kefren inet_ntoa(p->ldp_id), 1126 1.1 kefren NOTIF_STR[(nottlv->st_code << 1) >> 1]); 1127 1.1 kefren ldp_peer_holddown(p); 1128 1.1 kefren wo = -1; 1129 1.1 kefren } 1130 1.1 kefren break; 1131 1.1 kefren case LDP_HELLO: 1132 1.1 kefren /* No hellos should came on tcp session */ 1133 1.1 kefren wo = -1; 1134 1.1 kefren break; 1135 1.1 kefren default: 1136 1.1 kefren warnp("Unknown TLV received from %s\n", 1137 1.1 kefren inet_ntoa(p->ldp_id)); 1138 1.1 kefren debug_tlv(ttmp); 1139 1.1 kefren wo = -1;/* discard the rest of the message */ 1140 1.1 kefren break; 1141 1.1 kefren } 1142 1.1 kefren if (wo < 0) { 1143 1.1 kefren debugp("Discarding the rest of the message\n"); 1144 1.1 kefren break; 1145 1.1 kefren } else { 1146 1.1 kefren wo += ntohs(ttmp->length) + TLV_TYPE_LENGTH; 1147 1.1 kefren debugp("WORKED ON %u bytes (Left %d)\n", wo, c - wo); 1148 1.1 kefren } 1149 1.1 kefren } /* while */ 1150 1.1 kefren 1151 1.1 kefren } 1152 1.1 kefren 1153 1.1 kefren /* Sends a pdu, tlv pair to a connected peer */ 1154 1.1 kefren int 1155 1.1 kefren send_message(struct ldp_peer * p, struct ldp_pdu * pdu, struct tlv * t) 1156 1.1 kefren { 1157 1.1 kefren unsigned char sendspace[MAX_PDU_SIZE]; 1158 1.1 kefren 1159 1.1 kefren /* Check if peer is connected */ 1160 1.1 kefren switch (p->state) { 1161 1.1 kefren case LDP_PEER_CONNECTED: 1162 1.1 kefren case LDP_PEER_ESTABLISHED: 1163 1.1 kefren break; 1164 1.1 kefren default: 1165 1.1 kefren return -1; 1166 1.1 kefren } 1167 1.1 kefren 1168 1.1 kefren /* Check length validity first */ 1169 1.1 kefren if (ntohs(pdu->length) != 1170 1.1 kefren ntohs(t->length) + TLV_TYPE_LENGTH + PDU_PAYLOAD_LENGTH) { 1171 1.1 kefren fatalp("LDP: TLV - PDU incompability. Message discarded\n"); 1172 1.1 kefren fatalp("LDP: TLV len %d - PDU len %d\n", ntohs(t->length), 1173 1.1 kefren ntohs(pdu->length)); 1174 1.1 kefren return -1; 1175 1.1 kefren } 1176 1.1 kefren if (ntohs(t->length) + PDU_VER_LENGTH > MAX_PDU_SIZE) { 1177 1.1 kefren fatalp("Message to large discarded\n"); 1178 1.1 kefren return -1; 1179 1.1 kefren } 1180 1.1 kefren /* Arrange them in a buffer and send */ 1181 1.1 kefren memcpy(sendspace, pdu, sizeof(struct ldp_pdu)); 1182 1.1 kefren memcpy(sendspace + sizeof(struct ldp_pdu), t, 1183 1.1 kefren ntohs(t->length) + TLV_TYPE_LENGTH); 1184 1.1 kefren 1185 1.1 kefren /* Report keepalives only for DEBUG */ 1186 1.1 kefren if ((ntohs(t->type) != 0x201) && (ntohs(t->type) != 0x400)) { 1187 1.1 kefren debugp("Sending message type 0x%.4X to %s (size: %d)\n", 1188 1.1 kefren ntohs(t->type), inet_ntoa(p->ldp_id), ntohs(t->length)); 1189 1.1 kefren } else 1190 1.1 kefren /* downgraded from warnp to debugp for now */ 1191 1.1 kefren debugp("Sending message type 0x%.4X to %s (size: %d)\n", 1192 1.1 kefren ntohs(t->type), inet_ntoa(p->ldp_id), ntohs(t->length)); 1193 1.1 kefren 1194 1.1 kefren /* Send it finally */ 1195 1.1 kefren return send(p->socket, sendspace, 1196 1.1 kefren ntohs(pdu->length) + PDU_VER_LENGTH, 0); 1197 1.1 kefren } 1198 1.1 kefren 1199 1.1 kefren /* 1200 1.1 kefren * Encapsulates TLV into a PDU and sends it to a peer 1201 1.1 kefren */ 1202 1.1 kefren int 1203 1.1 kefren send_tlv(struct ldp_peer * p, struct tlv * t) 1204 1.1 kefren { 1205 1.1 kefren struct ldp_pdu pdu; 1206 1.1 kefren 1207 1.1 kefren pdu.version = htons(LDP_VERSION); 1208 1.1 kefren inet_aton(LDP_ID, &pdu.ldp_id); 1209 1.1 kefren pdu.label_space = 0; 1210 1.1 kefren pdu.length = htons(ntohs(t->length) + TLV_TYPE_LENGTH + 1211 1.1 kefren PDU_PAYLOAD_LENGTH); 1212 1.1 kefren 1213 1.1 kefren return send_message(p, &pdu, t); 1214 1.1 kefren } 1215 1.1 kefren 1216 1.1 kefren 1217 1.1 kefren int 1218 1.1 kefren send_addresses(struct ldp_peer * p) 1219 1.1 kefren { 1220 1.1 kefren struct address_list_tlv *t; 1221 1.1 kefren int ret; 1222 1.1 kefren 1223 1.1 kefren t = build_address_list_tlv(); 1224 1.1 kefren 1225 1.1 kefren ret = send_tlv(p, (struct tlv *) t); 1226 1.1 kefren free(t); 1227 1.1 kefren return ret; 1228 1.1 kefren 1229 1.1 kefren } 1230
Indexes created Sun Oct 19 02:09:48 GMT 2025