boring: spacing change
[l2tpns.git] / l2tpns.c
1 // L2TP Network Server
2 // Adrian Kennard 2002
3 // Copyright (c) 2003, 2004, 2005 Optus Internet Engineering
4 // Copyright (c) 2002 FireBrick (Andrews & Arnold Ltd / Watchfront Ltd) - GPL licenced
5 // vim: sw=8 ts=8
6
7 char const *cvs_id_l2tpns = "$Id: l2tpns.c,v 1.150 2005/11/17 07:35:35 bodea Exp $";
8
9 #include <arpa/inet.h>
10 #include <assert.h>
11 #include <errno.h>
12 #include <fcntl.h>
13 #include <linux/if_tun.h>
14 #define SYSLOG_NAMES
15 #include <syslog.h>
16 #include <malloc.h>
17 #include <math.h>
18 #include <net/route.h>
19 #include <sys/mman.h>
20 #include <netdb.h>
21 #include <netinet/in.h>
22 #include <netinet/ip6.h>
23 #include <stdarg.h>
24 #include <stdlib.h>
25 #include <stdio.h>
26 #include <string.h>
27 #include <ctype.h>
28 #include <sys/ioctl.h>
29 #include <sys/socket.h>
30 #include <sys/stat.h>
31 #include <sys/time.h>
32 #include <sys/resource.h>
33 #include <sys/wait.h>
34 #include <linux/if.h>
35 #include <stddef.h>
36 #include <time.h>
37 #include <dlfcn.h>
38 #include <unistd.h>
39 #include <sched.h>
40 #include <sys/sysinfo.h>
41 #include <libcli.h>
42
43 #include "md5.h"
44 #include "l2tpns.h"
45 #include "cluster.h"
46 #include "plugin.h"
47 #include "ll.h"
48 #include "constants.h"
49 #include "control.h"
50 #include "util.h"
51 #include "tbf.h"
52
53 #ifdef BGP
54 #include "bgp.h"
55 #endif
56
57 // Globals
58 configt *config = NULL; // all configuration
59 int tunfd = -1; // tun interface file handle. (network device)
60 int udpfd = -1; // UDP file handle
61 int controlfd = -1; // Control signal handle
62 int clifd = -1; // Socket listening for CLI connections.
63 int daefd = -1; // Socket listening for DAE connections.
64 int snoopfd = -1; // UDP file handle for sending out intercept data
65 int *radfds = NULL; // RADIUS requests file handles
66 int ifrfd = -1; // File descriptor for routing, etc
67 int ifr6fd = -1; // File descriptor for IPv6 routing, etc
68 int rand_fd = -1; // Random data source
69 int cluster_sockfd = -1; // Intra-cluster communications socket.
70 int epollfd = -1; // event polling
71 time_t basetime = 0; // base clock
72 char hostname[1000] = ""; // us.
73 static int tunidx; // ifr_ifindex of tun device
74 static int syslog_log = 0; // are we logging to syslog
75 static FILE *log_stream = 0; // file handle for direct logging (i.e. direct into file, not via syslog).
76 uint32_t last_id = 0; // Unique ID for radius accounting
77
78 // calculated from config->l2tp_mtu
79 uint16_t MRU = 0; // PPP MRU
80 uint16_t MSS = 0; // TCP MSS
81
82 struct cli_session_actions *cli_session_actions = NULL; // Pending session changes requested by CLI
83 struct cli_tunnel_actions *cli_tunnel_actions = NULL; // Pending tunnel changes required by CLI
84
85 static void *ip_hash[256]; // Mapping from IP address to session structures.
86 struct ipv6radix {
87 int sess;
88 struct ipv6radix *branch;
89 } ipv6_hash[256]; // Mapping from IPv6 address to session structures.
90
91 // Traffic counters.
92 static uint32_t udp_rx = 0, udp_rx_pkt = 0, udp_tx = 0;
93 static uint32_t eth_rx = 0, eth_rx_pkt = 0;
94 uint32_t eth_tx = 0;
95
96 static uint32_t ip_pool_size = 1; // Size of the pool of addresses used for dynamic address allocation.
97 time_t time_now = 0; // Current time in seconds since epoch.
98 static char time_now_string[64] = {0}; // Current time as a string.
99 int time_changed = 0; // time_now changed
100 char main_quit = 0; // True if we're in the process of exiting.
101 char main_reload = 0; // Re-load pending
102 linked_list *loaded_plugins;
103 linked_list *plugins[MAX_PLUGIN_TYPES];
104
105 #define membersize(STRUCT, MEMBER) sizeof(((STRUCT *)0)->MEMBER)
106 #define CONFIG(NAME, MEMBER, TYPE) { NAME, offsetof(configt, MEMBER), membersize(configt, MEMBER), TYPE }
107
108 config_descriptt config_values[] = {
109 CONFIG("debug", debug, INT),
110 CONFIG("log_file", log_filename, STRING),
111 CONFIG("pid_file", pid_file, STRING),
112 CONFIG("random_device", random_device, STRING),
113 CONFIG("l2tp_secret", l2tp_secret, STRING),
114 CONFIG("l2tp_mtu", l2tp_mtu, INT),
115 CONFIG("ppp_restart_time", ppp_restart_time, INT),
116 CONFIG("ppp_max_configure", ppp_max_configure, INT),
117 CONFIG("ppp_max_failure", ppp_max_failure, INT),
118 CONFIG("primary_dns", default_dns1, IPv4),
119 CONFIG("secondary_dns", default_dns2, IPv4),
120 CONFIG("primary_radius", radiusserver[0], IPv4),
121 CONFIG("secondary_radius", radiusserver[1], IPv4),
122 CONFIG("primary_radius_port", radiusport[0], SHORT),
123 CONFIG("secondary_radius_port", radiusport[1], SHORT),
124 CONFIG("radius_accounting", radius_accounting, BOOL),
125 CONFIG("radius_interim", radius_interim, INT),
126 CONFIG("radius_secret", radiussecret, STRING),
127 CONFIG("radius_authtypes", radius_authtypes_s, STRING),
128 CONFIG("radius_dae_port", radius_dae_port, SHORT),
129 CONFIG("allow_duplicate_users", allow_duplicate_users, BOOL),
130 CONFIG("bind_address", bind_address, IPv4),
131 CONFIG("peer_address", peer_address, IPv4),
132 CONFIG("send_garp", send_garp, BOOL),
133 CONFIG("throttle_speed", rl_rate, UNSIGNED_LONG),
134 CONFIG("throttle_buckets", num_tbfs, INT),
135 CONFIG("accounting_dir", accounting_dir, STRING),
136 CONFIG("setuid", target_uid, INT),
137 CONFIG("dump_speed", dump_speed, BOOL),
138 CONFIG("multi_read_count", multi_read_count, INT),
139 CONFIG("scheduler_fifo", scheduler_fifo, BOOL),
140 CONFIG("lock_pages", lock_pages, BOOL),
141 CONFIG("icmp_rate", icmp_rate, INT),
142 CONFIG("packet_limit", max_packets, INT),
143 CONFIG("cluster_address", cluster_address, IPv4),
144 CONFIG("cluster_interface", cluster_interface, STRING),
145 CONFIG("cluster_mcast_ttl", cluster_mcast_ttl, INT),
146 CONFIG("cluster_hb_interval", cluster_hb_interval, INT),
147 CONFIG("cluster_hb_timeout", cluster_hb_timeout, INT),
148 CONFIG("cluster_master_min_adv", cluster_master_min_adv, INT),
149 CONFIG("ipv6_prefix", ipv6_prefix, IPv6),
150 { NULL, 0, 0, 0 },
151 };
152
153 static char *plugin_functions[] = {
154 NULL,
155 "plugin_pre_auth",
156 "plugin_post_auth",
157 "plugin_packet_rx",
158 "plugin_packet_tx",
159 "plugin_timer",
160 "plugin_new_session",
161 "plugin_kill_session",
162 "plugin_control",
163 "plugin_radius_response",
164 "plugin_radius_reset",
165 "plugin_radius_account",
166 "plugin_become_master",
167 "plugin_new_session_master",
168 };
169
170 #define max_plugin_functions (sizeof(plugin_functions) / sizeof(char *))
171
172 // Counters for shutdown sessions
173 static sessiont shut_acct[8192];
174 static sessionidt shut_acct_n = 0;
175
176 tunnelt *tunnel = NULL; // Array of tunnel structures.
177 sessiont *session = NULL; // Array of session structures.
178 sessionlocalt *sess_local = NULL; // Array of local per-session counters.
179 radiust *radius = NULL; // Array of radius structures.
180 ippoolt *ip_address_pool = NULL; // Array of dynamic IP addresses.
181 ip_filtert *ip_filters = NULL; // Array of named filters.
182 static controlt *controlfree = 0;
183 struct Tstats *_statistics = NULL;
184 #ifdef RINGBUFFER
185 struct Tringbuffer *ringbuffer = NULL;
186 #endif
187
188 static void cache_ipmap(in_addr_t ip, int s);
189 static void uncache_ipmap(in_addr_t ip);
190 static void cache_ipv6map(struct in6_addr ip, int prefixlen, int s);
191 static void free_ip_address(sessionidt s);
192 static void dump_acct_info(int all);
193 static void sighup_handler(int sig);
194 static void shutdown_handler(int sig);
195 static void sigchild_handler(int sig);
196 static void build_chap_response(uint8_t *challenge, uint8_t id, uint16_t challenge_length, uint8_t **challenge_response);
197 static void update_config(void);
198 static void read_config_file(void);
199 static void initplugins(void);
200 static int add_plugin(char *plugin_name);
201 static int remove_plugin(char *plugin_name);
202 static void plugins_done(void);
203 static void processcontrol(uint8_t *buf, int len, struct sockaddr_in *addr, int alen);
204 static tunnelidt new_tunnel(void);
205 static void unhide_value(uint8_t *value, size_t len, uint16_t type, uint8_t *vector, size_t vec_len);
206
207 // on slaves, alow BGP to withdraw cleanly before exiting
208 #define QUIT_DELAY 5
209
210 // quit actions (master)
211 #define QUIT_FAILOVER 1 // SIGTERM: exit when all control messages have been acked (for cluster failover)
212 #define QUIT_SHUTDOWN 2 // SIGQUIT: shutdown sessions/tunnels, reject new connections
213
214 // return internal time (10ths since process startup), set f if given
215 // as a side-effect sets time_now, and time_changed
216 static clockt now(double *f)
217 {
218 struct timeval t;
219 gettimeofday(&t, 0);
220 if (f) *f = t.tv_sec + t.tv_usec / 1000000.0;
221 if (t.tv_sec != time_now)
222 {
223 time_now = t.tv_sec;
224 time_changed++;
225 }
226 return (t.tv_sec - basetime) * 10 + t.tv_usec / 100000 + 1;
227 }
228
229 // work out a retry time based on try number
230 // This is a straight bounded exponential backoff.
231 // Maximum re-try time is 32 seconds. (2^5).
232 clockt backoff(uint8_t try)
233 {
234 if (try > 5) try = 5; // max backoff
235 return now(NULL) + 10 * (1 << try);
236 }
237
238
239 //
240 // Log a debug message. Typically called via the LOG macro
241 //
242 void _log(int level, sessionidt s, tunnelidt t, const char *format, ...)
243 {
244 static char message[65536] = {0};
245 va_list ap;
246
247 #ifdef RINGBUFFER
248 if (ringbuffer)
249 {
250 if (++ringbuffer->tail >= RINGBUFFER_SIZE)
251 ringbuffer->tail = 0;
252 if (ringbuffer->tail == ringbuffer->head)
253 if (++ringbuffer->head >= RINGBUFFER_SIZE)
254 ringbuffer->head = 0;
255
256 ringbuffer->buffer[ringbuffer->tail].level = level;
257 ringbuffer->buffer[ringbuffer->tail].session = s;
258 ringbuffer->buffer[ringbuffer->tail].tunnel = t;
259 va_start(ap, format);
260 vsnprintf(ringbuffer->buffer[ringbuffer->tail].message, 4095, format, ap);
261 va_end(ap);
262 }
263 #endif
264
265 if (config->debug < level) return;
266
267 va_start(ap, format);
268 vsnprintf(message, sizeof(message), format, ap);
269
270 if (log_stream)
271 fprintf(log_stream, "%s %02d/%02d %s", time_now_string, t, s, message);
272 else if (syslog_log)
273 syslog(level + 2, "%02d/%02d %s", t, s, message); // We don't need LOG_EMERG or LOG_ALERT
274
275 va_end(ap);
276 }
277
278 void _log_hex(int level, const char *title, const uint8_t *data, int maxsize)
279 {
280 int i, j;
281 const uint8_t *d = data;
282
283 if (config->debug < level) return;
284
285 // No support for _log_hex to syslog
286 if (log_stream)
287 {
288 _log(level, 0, 0, "%s (%d bytes):\n", title, maxsize);
289 setvbuf(log_stream, NULL, _IOFBF, 16384);
290
291 for (i = 0; i < maxsize; )
292 {
293 fprintf(log_stream, "%4X: ", i);
294 for (j = i; j < maxsize && j < (i + 16); j++)
295 {
296 fprintf(log_stream, "%02X ", d[j]);
297 if (j == i + 7)
298 fputs(": ", log_stream);
299 }
300
301 for (; j < i + 16; j++)
302 {
303 fputs(" ", log_stream);
304 if (j == i + 7)
305 fputs(": ", log_stream);
306 }
307
308 fputs(" ", log_stream);
309 for (j = i; j < maxsize && j < (i + 16); j++)
310 {
311 if (d[j] >= 0x20 && d[j] < 0x7f && d[j] != 0x20)
312 fputc(d[j], log_stream);
313 else
314 fputc('.', log_stream);
315
316 if (j == i + 7)
317 fputs(" ", log_stream);
318 }
319
320 i = j;
321 fputs("\n", log_stream);
322 }
323
324 fflush(log_stream);
325 setbuf(log_stream, NULL);
326 }
327 }
328
329 // update a counter, accumulating 2^32 wraps
330 void increment_counter(uint32_t *counter, uint32_t *wrap, uint32_t delta)
331 {
332 uint32_t new = *counter + delta;
333 if (new < *counter)
334 (*wrap)++;
335
336 *counter = new;
337 }
338
339 // initialise the random generator
340 static void initrandom(char *source)
341 {
342 static char path[sizeof(config->random_device)] = "*undefined*";
343
344 // reinitialise only if we are forced to do so or if the config has changed
345 if (source && !strncmp(path, source, sizeof(path)))
346 return;
347
348 // close previous source, if any
349 if (rand_fd >= 0)
350 close(rand_fd);
351
352 rand_fd = -1;
353
354 if (source)
355 {
356 // register changes
357 snprintf(path, sizeof(path), "%s", source);
358
359 if (*path == '/')
360 {
361 rand_fd = open(path, O_RDONLY|O_NONBLOCK);
362 if (rand_fd < 0)
363 LOG(0, 0, 0, "Error opening the random device %s: %s\n",
364 path, strerror(errno));
365 }
366 }
367 }
368
369 // fill buffer with random data
370 void random_data(uint8_t *buf, int len)
371 {
372 int n = 0;
373
374 CSTAT(random_data);
375 if (rand_fd >= 0)
376 {
377 n = read(rand_fd, buf, len);
378 if (n >= len) return;
379 if (n < 0)
380 {
381 if (errno != EAGAIN)
382 {
383 LOG(0, 0, 0, "Error reading from random source: %s\n",
384 strerror(errno));
385
386 // fall back to rand()
387 initrandom(NULL);
388 }
389
390 n = 0;
391 }
392 }
393
394 // append missing data
395 while (n < len)
396 // not using the low order bits from the prng stream
397 buf[n++] = (rand() >> 4) & 0xff;
398 }
399
400 // Add a route
401 //
402 // This adds it to the routing table, advertises it
403 // via BGP if enabled, and stuffs it into the
404 // 'sessionbyip' cache.
405 //
406 // 'ip' and 'mask' must be in _host_ order.
407 //
408 static void routeset(sessionidt s, in_addr_t ip, in_addr_t mask, in_addr_t gw, int add)
409 {
410 struct rtentry r;
411 int i;
412
413 if (!mask) mask = 0xffffffff;
414
415 ip &= mask; // Force the ip to be the first one in the route.
416
417 memset(&r, 0, sizeof(r));
418 r.rt_dev = config->tundevice;
419 r.rt_dst.sa_family = AF_INET;
420 *(uint32_t *) & (((struct sockaddr_in *) &r.rt_dst)->sin_addr.s_addr) = htonl(ip);
421 r.rt_gateway.sa_family = AF_INET;
422 *(uint32_t *) & (((struct sockaddr_in *) &r.rt_gateway)->sin_addr.s_addr) = htonl(gw);
423 r.rt_genmask.sa_family = AF_INET;
424 *(uint32_t *) & (((struct sockaddr_in *) &r.rt_genmask)->sin_addr.s_addr) = htonl(mask);
425 r.rt_flags = (RTF_UP | RTF_STATIC);
426 if (gw)
427 r.rt_flags |= RTF_GATEWAY;
428 else if (mask == 0xffffffff)
429 r.rt_flags |= RTF_HOST;
430
431 LOG(1, s, 0, "Route %s %s/%s%s%s\n", add ? "add" : "del",
432 fmtaddr(htonl(ip), 0), fmtaddr(htonl(mask), 1),
433 gw ? " via" : "", gw ? fmtaddr(htonl(gw), 2) : "");
434
435 if (ioctl(ifrfd, add ? SIOCADDRT : SIOCDELRT, (void *) &r) < 0)
436 LOG(0, 0, 0, "routeset() error in ioctl: %s\n", strerror(errno));
437
438 #ifdef BGP
439 if (add)
440 bgp_add_route(htonl(ip), htonl(mask));
441 else
442 bgp_del_route(htonl(ip), htonl(mask));
443 #endif /* BGP */
444
445 // Add/Remove the IPs to the 'sessionbyip' cache.
446 // Note that we add the zero address in the case of
447 // a network route. Roll on CIDR.
448
449 // Note that 's == 0' implies this is the address pool.
450 // We still cache it here, because it will pre-fill
451 // the malloc'ed tree.
452
453 if (s)
454 {
455 if (!add) // Are we deleting a route?
456 s = 0; // Caching the session as '0' is the same as uncaching.
457
458 for (i = ip; (i&mask) == (ip&mask) ; ++i)
459 cache_ipmap(i, s);
460 }
461 }
462
463 void route6set(sessionidt s, struct in6_addr ip, int prefixlen, int add)
464 {
465 struct in6_rtmsg rt;
466 char ipv6addr[INET6_ADDRSTRLEN];
467
468 if (ifr6fd < 0)
469 {
470 LOG(0, 0, 0, "Asked to set IPv6 route, but IPv6 not setup.\n");
471 return;
472 }
473
474 memset(&rt, 0, sizeof(rt));
475
476 memcpy(&rt.rtmsg_dst, &ip, sizeof(struct in6_addr));
477 rt.rtmsg_dst_len = prefixlen;
478 rt.rtmsg_metric = 1;
479 rt.rtmsg_flags = RTF_UP;
480 rt.rtmsg_ifindex = tunidx;
481
482 LOG(1, 0, 0, "Route %s %s/%d\n",
483 add ? "add" : "del",
484 inet_ntop(AF_INET6, &ip, ipv6addr, INET6_ADDRSTRLEN),
485 prefixlen);
486
487 if (ioctl(ifr6fd, add ? SIOCADDRT : SIOCDELRT, (void *) &rt) < 0)
488 LOG(0, 0, 0, "route6set() error in ioctl: %s\n",
489 strerror(errno));
490
491 // FIXME: need to add BGP routing (RFC2858)
492
493 if (s)
494 {
495 if (!add) // Are we deleting a route?
496 s = 0; // Caching the session as '0' is the same as uncaching.
497
498 cache_ipv6map(ip, prefixlen, s);
499 }
500
501 return;
502 }
503
504 // defined in linux/ipv6.h, but tricky to include from user-space
505 // TODO: move routing to use netlink rather than ioctl
506 struct in6_ifreq {
507 struct in6_addr ifr6_addr;
508 __u32 ifr6_prefixlen;
509 unsigned int ifr6_ifindex;
510 };
511
512 //
513 // Set up TUN interface
514 static void inittun(void)
515 {
516 struct ifreq ifr;
517 struct in6_ifreq ifr6;
518 struct sockaddr_in sin = {0};
519 memset(&ifr, 0, sizeof(ifr));
520 ifr.ifr_flags = IFF_TUN;
521
522 tunfd = open(TUNDEVICE, O_RDWR);
523 if (tunfd < 0)
524 { // fatal
525 LOG(0, 0, 0, "Can't open %s: %s\n", TUNDEVICE, strerror(errno));
526 exit(1);
527 }
528 {
529 int flags = fcntl(tunfd, F_GETFL, 0);
530 fcntl(tunfd, F_SETFL, flags | O_NONBLOCK);
531 }
532 if (ioctl(tunfd, TUNSETIFF, (void *) &ifr) < 0)
533 {
534 LOG(0, 0, 0, "Can't set tun interface: %s\n", strerror(errno));
535 exit(1);
536 }
537 assert(strlen(ifr.ifr_name) < sizeof(config->tundevice));
538 strncpy(config->tundevice, ifr.ifr_name, sizeof(config->tundevice) - 1);
539 ifrfd = socket(PF_INET, SOCK_DGRAM, IPPROTO_IP);
540
541 sin.sin_family = AF_INET;
542 sin.sin_addr.s_addr = config->bind_address ? config->bind_address : 0x01010101; // 1.1.1.1
543 memcpy(&ifr.ifr_addr, &sin, sizeof(struct sockaddr));
544
545 if (ioctl(ifrfd, SIOCSIFADDR, (void *) &ifr) < 0)
546 {
547 LOG(0, 0, 0, "Error setting tun address: %s\n", strerror(errno));
548 exit(1);
549 }
550 /* Bump up the qlen to deal with bursts from the network */
551 ifr.ifr_qlen = 1000;
552 if (ioctl(ifrfd, SIOCSIFTXQLEN, (void *) &ifr) < 0)
553 {
554 LOG(0, 0, 0, "Error setting tun queue length: %s\n", strerror(errno));
555 exit(1);
556 }
557 /* set MTU to modem MRU + 4 (tun header) */
558 ifr.ifr_mtu = MRU + 4;
559 if (ioctl(ifrfd, SIOCSIFMTU, (void *) &ifr) < 0)
560 {
561 LOG(0, 0, 0, "Error setting tun MTU: %s\n", strerror(errno));
562 exit(1);
563 }
564 ifr.ifr_flags = IFF_UP;
565 if (ioctl(ifrfd, SIOCSIFFLAGS, (void *) &ifr) < 0)
566 {
567 LOG(0, 0, 0, "Error setting tun flags: %s\n", strerror(errno));
568 exit(1);
569 }
570 if (ioctl(ifrfd, SIOCGIFINDEX, (void *) &ifr) < 0)
571 {
572 LOG(0, 0, 0, "Error getting tun ifindex: %s\n", strerror(errno));
573 exit(1);
574 }
575 tunidx = ifr.ifr_ifindex;
576
577 // Only setup IPv6 on the tun device if we have a configured prefix
578 if (config->ipv6_prefix.s6_addr[0]) {
579 ifr6fd = socket(PF_INET6, SOCK_DGRAM, 0);
580
581 // Link local address is FE80::1
582 memset(&ifr6.ifr6_addr, 0, sizeof(ifr6.ifr6_addr));
583 ifr6.ifr6_addr.s6_addr[0] = 0xFE;
584 ifr6.ifr6_addr.s6_addr[1] = 0x80;
585 ifr6.ifr6_addr.s6_addr[15] = 1;
586 ifr6.ifr6_prefixlen = 64;
587 ifr6.ifr6_ifindex = ifr.ifr_ifindex;
588 if (ioctl(ifr6fd, SIOCSIFADDR, (void *) &ifr6) < 0)
589 {
590 LOG(0, 0, 0, "Error setting tun IPv6 link local address:"
591 " %s\n", strerror(errno));
592 }
593
594 // Global address is prefix::1
595 memset(&ifr6.ifr6_addr, 0, sizeof(ifr6.ifr6_addr));
596 ifr6.ifr6_addr = config->ipv6_prefix;
597 ifr6.ifr6_addr.s6_addr[15] = 1;
598 ifr6.ifr6_prefixlen = 64;
599 ifr6.ifr6_ifindex = ifr.ifr_ifindex;
600 if (ioctl(ifr6fd, SIOCSIFADDR, (void *) &ifr6) < 0)
601 {
602 LOG(0, 0, 0, "Error setting tun IPv6 global address: %s\n",
603 strerror(errno));
604 }
605 }
606 }
607
608 // set up UDP ports
609 static void initudp(void)
610 {
611 int on = 1;
612 struct sockaddr_in addr;
613
614 // Tunnel
615 memset(&addr, 0, sizeof(addr));
616 addr.sin_family = AF_INET;
617 addr.sin_port = htons(L2TPPORT);
618 addr.sin_addr.s_addr = config->bind_address;
619 udpfd = socket(AF_INET, SOCK_DGRAM, IPPROTO_UDP);
620 setsockopt(udpfd, SOL_SOCKET, SO_REUSEADDR, &on, sizeof(on));
621 {
622 int flags = fcntl(udpfd, F_GETFL, 0);
623 fcntl(udpfd, F_SETFL, flags | O_NONBLOCK);
624 }
625 if (bind(udpfd, (void *) &addr, sizeof(addr)) < 0)
626 {
627 LOG(0, 0, 0, "Error in UDP bind: %s\n", strerror(errno));
628 exit(1);
629 }
630
631 // Control
632 memset(&addr, 0, sizeof(addr));
633 addr.sin_family = AF_INET;
634 addr.sin_port = htons(NSCTL_PORT);
635 controlfd = socket(AF_INET, SOCK_DGRAM, IPPROTO_UDP);
636 setsockopt(controlfd, SOL_SOCKET, SO_REUSEADDR, &on, sizeof(on));
637 if (bind(controlfd, (void *) &addr, sizeof(addr)) < 0)
638 {
639 LOG(0, 0, 0, "Error in control bind: %s\n", strerror(errno));
640 exit(1);
641 }
642
643 // Dynamic Authorization Extensions to RADIUS
644 memset(&addr, 0, sizeof(addr));
645 addr.sin_family = AF_INET;
646 addr.sin_port = htons(config->radius_dae_port);
647 daefd = socket(AF_INET, SOCK_DGRAM, IPPROTO_UDP);
648 setsockopt(daefd, SOL_SOCKET, SO_REUSEADDR, &on, sizeof(on));
649 if (bind(daefd, (void *) &addr, sizeof(addr)) < 0)
650 {
651 LOG(0, 0, 0, "Error in DAE bind: %s\n", strerror(errno));
652 exit(1);
653 }
654
655 // Intercept
656 snoopfd = socket(AF_INET, SOCK_DGRAM, IPPROTO_UDP);
657 }
658
659 //
660 // Find session by IP, < 1 for not found
661 //
662 // Confusingly enough, this 'ip' must be
663 // in _network_ order. This being the common
664 // case when looking it up from IP packet headers.
665 //
666 // We actually use this cache for two things.
667 // #1. For used IP addresses, this maps to the
668 // session ID that it's used by.
669 // #2. For un-used IP addresses, this maps to the
670 // index into the pool table that contains that
671 // IP address.
672 //
673
674 static int lookup_ipmap(in_addr_t ip)
675 {
676 uint8_t *a = (uint8_t *) &ip;
677 uint8_t **d = (uint8_t **) ip_hash;
678
679 if (!(d = (uint8_t **) d[(size_t) *a++])) return 0;
680 if (!(d = (uint8_t **) d[(size_t) *a++])) return 0;
681 if (!(d = (uint8_t **) d[(size_t) *a++])) return 0;
682
683 return (int) (intptr_t) d[(size_t) *a];
684 }
685
686 static int lookup_ipv6map(struct in6_addr ip)
687 {
688 struct ipv6radix *curnode;
689 int i;
690 int s;
691 char ipv6addr[INET6_ADDRSTRLEN];
692
693 curnode = &ipv6_hash[ip.s6_addr[0]];
694 i = 1;
695 s = curnode->sess;
696
697 while (s == 0 && i < 15 && curnode->branch != NULL)
698 {
699 curnode = &curnode->branch[ip.s6_addr[i]];
700 s = curnode->sess;
701 i++;
702 }
703
704 LOG(4, s, session[s].tunnel, "Looking up address %s and got %d\n",
705 inet_ntop(AF_INET6, &ip, ipv6addr,
706 INET6_ADDRSTRLEN),
707 s);
708
709 return s;
710 }
711
712 sessionidt sessionbyip(in_addr_t ip)
713 {
714 int s = lookup_ipmap(ip);
715 CSTAT(sessionbyip);
716
717 if (s > 0 && s < MAXSESSION && session[s].opened)
718 return (sessionidt) s;
719
720 return 0;
721 }
722
723 sessionidt sessionbyipv6(struct in6_addr ip)
724 {
725 int s;
726 CSTAT(sessionbyipv6);
727
728 if (!memcmp(&config->ipv6_prefix, &ip, 8) ||
729 (ip.s6_addr[0] == 0xFE &&
730 ip.s6_addr[1] == 0x80 &&
731 ip.s6_addr16[1] == 0 &&
732 ip.s6_addr16[2] == 0 &&
733 ip.s6_addr16[3] == 0)) {
734 s = lookup_ipmap(*(in_addr_t *) &ip.s6_addr[8]);
735 } else {
736 s = lookup_ipv6map(ip);
737 }
738
739 if (s > 0 && s < MAXSESSION && session[s].opened)
740 return s;
741
742 return 0;
743 }
744
745 //
746 // Take an IP address in HOST byte order and
747 // add it to the sessionid by IP cache.
748 //
749 // (It's actually cached in network order)
750 //
751 static void cache_ipmap(in_addr_t ip, int s)
752 {
753 in_addr_t nip = htonl(ip); // MUST be in network order. I.e. MSB must in be ((char *) (&ip))[0]
754 uint8_t *a = (uint8_t *) &nip;
755 uint8_t **d = (uint8_t **) ip_hash;
756 int i;
757
758 for (i = 0; i < 3; i++)
759 {
760 if (!d[(size_t) a[i]])
761 {
762 if (!(d[(size_t) a[i]] = calloc(256, sizeof(void *))))
763 return;
764 }
765
766 d = (uint8_t **) d[(size_t) a[i]];
767 }
768
769 d[(size_t) a[3]] = (uint8_t *) (intptr_t) s;
770
771 if (s > 0)
772 LOG(4, s, session[s].tunnel, "Caching ip address %s\n", fmtaddr(nip, 0));
773
774 else if (s == 0)
775 LOG(4, 0, 0, "Un-caching ip address %s\n", fmtaddr(nip, 0));
776 // else a map to an ip pool index.
777 }
778
779 static void uncache_ipmap(in_addr_t ip)
780 {
781 cache_ipmap(ip, 0); // Assign it to the NULL session.
782 }
783
784 static void cache_ipv6map(struct in6_addr ip, int prefixlen, int s)
785 {
786 int i;
787 int bytes;
788 struct ipv6radix *curnode;
789 char ipv6addr[INET6_ADDRSTRLEN];
790
791 curnode = &ipv6_hash[ip.s6_addr[0]];
792
793 bytes = prefixlen >> 3;
794 i = 1;
795 while (i < bytes) {
796 if (curnode->branch == NULL)
797 {
798 if (!(curnode->branch = calloc(256,
799 sizeof (struct ipv6radix))))
800 return;
801 }
802 curnode = &curnode->branch[ip.s6_addr[i]];
803 i++;
804 }
805
806 curnode->sess = s;
807
808 if (s > 0)
809 LOG(4, s, session[s].tunnel, "Caching ip address %s/%d\n",
810 inet_ntop(AF_INET6, &ip, ipv6addr,
811 INET6_ADDRSTRLEN),
812 prefixlen);
813 else if (s == 0)
814 LOG(4, 0, 0, "Un-caching ip address %s/%d\n",
815 inet_ntop(AF_INET6, &ip, ipv6addr,
816 INET6_ADDRSTRLEN),
817 prefixlen);
818 }
819
820 //
821 // CLI list to dump current ipcache.
822 //
823 int cmd_show_ipcache(struct cli_def *cli, char *command, char **argv, int argc)
824 {
825 char **d = (char **) ip_hash, **e, **f, **g;
826 int i, j, k, l;
827 int count = 0;
828
829 if (CLI_HELP_REQUESTED)
830 return CLI_HELP_NO_ARGS;
831
832 cli_print(cli, "%7s %s", "Sess#", "IP Address");
833
834 for (i = 0; i < 256; ++i)
835 {
836 if (!d[i])
837 continue;
838 e = (char **) d[i];
839 for (j = 0; j < 256; ++j)
840 {
841 if (!e[j])
842 continue;
843 f = (char **) e[j];
844 for (k = 0; k < 256; ++k)
845 {
846 if (!f[k])
847 continue;
848 g = (char **)f[k];
849 for (l = 0; l < 256; ++l)
850 {
851 if (!g[l])
852 continue;
853 cli_print(cli, "%7d %d.%d.%d.%d", (int) (intptr_t) g[l], i, j, k, l);
854 ++count;
855 }
856 }
857 }
858 }
859 cli_print(cli, "%d entries in cache", count);
860 return CLI_OK;
861 }
862
863
864 // Find session by username, 0 for not found
865 // walled garden users aren't authenticated, so the username is
866 // reasonably useless. Ignore them to avoid incorrect actions
867 //
868 // This is VERY inefficent. Don't call it often. :)
869 //
870 sessionidt sessionbyuser(char *username)
871 {
872 int s;
873 CSTAT(sessionbyuser);
874
875 for (s = 1; s <= config->cluster_highest_sessionid ; ++s)
876 {
877 if (!session[s].opened)
878 continue;
879
880 if (session[s].walled_garden)
881 continue; // Skip walled garden users.
882
883 if (!strncmp(session[s].user, username, 128))
884 return s;
885
886 }
887 return 0; // Not found.
888 }
889
890 void send_garp(in_addr_t ip)
891 {
892 int s;
893 struct ifreq ifr;
894 uint8_t mac[6];
895
896 s = socket(PF_INET, SOCK_DGRAM, 0);
897 if (s < 0)
898 {
899 LOG(0, 0, 0, "Error creating socket for GARP: %s\n", strerror(errno));
900 return;
901 }
902 memset(&ifr, 0, sizeof(ifr));
903 strncpy(ifr.ifr_name, "eth0", sizeof(ifr.ifr_name) - 1);
904 if (ioctl(s, SIOCGIFHWADDR, &ifr) < 0)
905 {
906 LOG(0, 0, 0, "Error getting eth0 hardware address for GARP: %s\n", strerror(errno));
907 close(s);
908 return;
909 }
910 memcpy(mac, &ifr.ifr_hwaddr.sa_data, 6*sizeof(char));
911 if (ioctl(s, SIOCGIFINDEX, &ifr) < 0)
912 {
913 LOG(0, 0, 0, "Error getting eth0 interface index for GARP: %s\n", strerror(errno));
914 close(s);
915 return;
916 }
917 close(s);
918 sendarp(ifr.ifr_ifindex, mac, ip);
919 }
920
921 static sessiont *sessiontbysessionidt(sessionidt s)
922 {
923 if (!s || s >= MAXSESSION) return NULL;
924 return &session[s];
925 }
926
927 static sessionidt sessionidtbysessiont(sessiont *s)
928 {
929 sessionidt val = s-session;
930 if (s < session || val >= MAXSESSION) return 0;
931 return val;
932 }
933
934 // actually send a control message for a specific tunnel
935 void tunnelsend(uint8_t * buf, uint16_t l, tunnelidt t)
936 {
937 struct sockaddr_in addr;
938
939 CSTAT(tunnelsend);
940
941 if (!t)
942 {
943 static int backtrace_count = 0;
944 LOG(0, 0, t, "tunnelsend called with 0 as tunnel id\n");
945 STAT(tunnel_tx_errors);
946 log_backtrace(backtrace_count, 5)
947 return;
948 }
949
950 if (!tunnel[t].ip)
951 {
952 static int backtrace_count = 0;
953 LOG(1, 0, t, "Error sending data out tunnel: no remote endpoint (tunnel not set up)\n");
954 log_backtrace(backtrace_count, 5)
955 STAT(tunnel_tx_errors);
956 return;
957 }
958
959 memset(&addr, 0, sizeof(addr));
960 addr.sin_family = AF_INET;
961 *(uint32_t *) & addr.sin_addr = htonl(tunnel[t].ip);
962 addr.sin_port = htons(tunnel[t].port);
963
964 // sequence expected, if sequence in message
965 if (*buf & 0x08) *(uint16_t *) (buf + ((*buf & 0x40) ? 10 : 8)) = htons(tunnel[t].nr);
966
967 // If this is a control message, deal with retries
968 if (*buf & 0x80)
969 {
970 tunnel[t].last = time_now; // control message sent
971 tunnel[t].retry = backoff(tunnel[t].try); // when to resend
972 if (tunnel[t].try)
973 {
974 STAT(tunnel_retries);
975 LOG(3, 0, t, "Control message resend try %d\n", tunnel[t].try);
976 }
977 }
978
979 if (sendto(udpfd, buf, l, 0, (void *) &addr, sizeof(addr)) < 0)
980 {
981 LOG(0, ntohs((*(uint16_t *) (buf + 6))), t, "Error sending data out tunnel: %s (udpfd=%d, buf=%p, len=%d, dest=%s)\n",
982 strerror(errno), udpfd, buf, l, inet_ntoa(addr.sin_addr));
983 STAT(tunnel_tx_errors);
984 return;
985 }
986
987 LOG_HEX(5, "Send Tunnel Data", buf, l);
988 STAT(tunnel_tx_packets);
989 INC_STAT(tunnel_tx_bytes, l);
990 }
991
992 //
993 // Tiny helper function to write data to
994 // the 'tun' device.
995 //
996 int tun_write(uint8_t * data, int size)
997 {
998 return write(tunfd, data, size);
999 }
1000
1001 // adjust tcp mss to avoid fragmentation (called only for tcp packets with syn set)
1002 void adjust_tcp_mss(sessionidt s, tunnelidt t, uint8_t *buf, int len, uint8_t *tcp)
1003 {
1004 int d = (tcp[12] >> 4) * 4;
1005 uint8_t *mss = 0;
1006 uint8_t *opts;
1007 uint8_t *data;
1008 uint16_t orig;
1009 uint32_t sum;
1010
1011 if ((tcp[13] & 0x3f) & ~(TCP_FLAG_SYN|TCP_FLAG_ACK)) // only want SYN and SYN,ACK
1012 return;
1013
1014 if (tcp + d > buf + len) // short?
1015 return;
1016
1017 opts = tcp + 20;
1018 data = tcp + d;
1019
1020 while (opts < data)
1021 {
1022 if (*opts == 2 && opts[1] == 4) // mss option (2), length 4
1023 {
1024 mss = opts + 2;
1025 if (mss + 2 > data) return; // short?
1026 break;
1027 }
1028
1029 if (*opts == 0) return; // end of options
1030 if (*opts == 1 || !opts[1]) // no op (one byte), or no length (prevent loop)
1031 opts++;
1032 else
1033 opts += opts[1]; // skip over option
1034 }
1035
1036 if (!mss) return; // not found
1037 orig = ntohs(*(uint16_t *) mss);
1038
1039 if (orig <= MSS) return; // mss OK
1040
1041 LOG(5, s, t, "TCP: %s:%u -> %s:%u SYN%s: adjusted mss from %u to %u\n",
1042 fmtaddr(*(in_addr_t *) (buf + 12), 0), ntohs(*(uint16_t *) tcp),
1043 fmtaddr(*(in_addr_t *) (buf + 16), 1), ntohs(*(uint16_t *) (tcp + 2)),
1044 (tcp[13] & TCP_FLAG_ACK) ? ",ACK" : "", orig, MSS);
1045
1046 // set mss
1047 *(int16_t *) mss = htons(MSS);
1048
1049 // adjust checksum (see rfc1141)
1050 sum = orig + (~MSS & 0xffff);
1051 sum += ntohs(*(uint16_t *) (tcp + 16));
1052 sum = (sum & 0xffff) + (sum >> 16);
1053 *(uint16_t *) (tcp + 16) = htons(sum + (sum >> 16));
1054 }
1055
1056 // process outgoing (to tunnel) IP
1057 //
1058 static void processipout(uint8_t *buf, int len)
1059 {
1060 sessionidt s;
1061 sessiont *sp;
1062 tunnelidt t;
1063 in_addr_t ip;
1064
1065 uint8_t *data = buf; // Keep a copy of the originals.
1066 int size = len;
1067
1068 uint8_t b[MAXETHER + 20];
1069
1070 CSTAT(processipout);
1071
1072 if (len < MIN_IP_SIZE)
1073 {
1074 LOG(1, 0, 0, "Short IP, %d bytes\n", len);
1075 STAT(tun_rx_errors);
1076 return;
1077 }
1078 if (len >= MAXETHER)
1079 {
1080 LOG(1, 0, 0, "Oversize IP packet %d bytes\n", len);
1081 STAT(tun_rx_errors);
1082 return;
1083 }
1084
1085 // Skip the tun header
1086 buf += 4;
1087 len -= 4;
1088
1089 // Got an IP header now
1090 if (*(uint8_t *)(buf) >> 4 != 4)
1091 {
1092 LOG(1, 0, 0, "IP: Don't understand anything except IPv4\n");
1093 return;
1094 }
1095
1096 ip = *(uint32_t *)(buf + 16);
1097 if (!(s = sessionbyip(ip)))
1098 {
1099 // Is this a packet for a session that doesn't exist?
1100 static int rate = 0; // Number of ICMP packets we've sent this second.
1101 static int last = 0; // Last time we reset the ICMP packet counter 'rate'.
1102
1103 if (last != time_now)
1104 {
1105 last = time_now;
1106 rate = 0;
1107 }
1108
1109 if (rate++ < config->icmp_rate) // Only send a max of icmp_rate per second.
1110 {
1111 LOG(4, 0, 0, "IP: Sending ICMP host unreachable to %s\n", fmtaddr(*(in_addr_t *)(buf + 12), 0));
1112 host_unreachable(*(in_addr_t *)(buf + 12), *(uint16_t *)(buf + 4),
1113 config->bind_address ? config->bind_address : my_address, buf, len);
1114 }
1115 return;
1116 }
1117 t = session[s].tunnel;
1118 sp = &session[s];
1119
1120 // DoS prevention: enforce a maximum number of packets per 0.1s for a session
1121 if (config->max_packets > 0)
1122 {
1123 if (sess_local[s].last_packet_out == TIME)
1124 {
1125 int max = config->max_packets;
1126
1127 // All packets for throttled sessions are handled by the
1128 // master, so further limit by using the throttle rate.
1129 // A bit of a kludge, since throttle rate is in kbps,
1130 // but should still be generous given our average DSL
1131 // packet size is 200 bytes: a limit of 28kbps equates
1132 // to around 180 packets per second.
1133 if (!config->cluster_iam_master && sp->throttle_out && sp->throttle_out < max)
1134 max = sp->throttle_out;
1135
1136 if (++sess_local[s].packets_out > max)
1137 {
1138 sess_local[s].packets_dropped++;
1139 return;
1140 }
1141 }
1142 else
1143 {
1144 if (sess_local[s].packets_dropped)
1145 {
1146 INC_STAT(tun_rx_dropped, sess_local[s].packets_dropped);
1147 LOG(3, s, t, "Dropped %u/%u packets to %s for %suser %s\n",
1148 sess_local[s].packets_dropped, sess_local[s].packets_out,
1149 fmtaddr(ip, 0), sp->throttle_out ? "throttled " : "",
1150 sp->user);
1151 }
1152
1153 sess_local[s].last_packet_out = TIME;
1154 sess_local[s].packets_out = 1;
1155 sess_local[s].packets_dropped = 0;
1156 }
1157 }
1158
1159 // run access-list if any
1160 if (session[s].filter_out && !ip_filter(buf, len, session[s].filter_out - 1))
1161 return;
1162
1163 // adjust MSS on SYN and SYN,ACK packets with options
1164 if ((ntohs(*(uint16_t *) (buf + 6)) & 0x1fff) == 0 && buf[9] == IPPROTO_TCP) // first tcp fragment
1165 {
1166 int ihl = (buf[0] & 0xf) * 4; // length of IP header
1167 if (len >= ihl + 20 && (buf[ihl + 13] & TCP_FLAG_SYN) && ((buf[ihl + 12] >> 4) > 5))
1168 adjust_tcp_mss(s, t, buf, len, buf + ihl);
1169 }
1170
1171 if (sp->tbf_out)
1172 {
1173 // Are we throttling this session?
1174 if (config->cluster_iam_master)
1175 tbf_queue_packet(sp->tbf_out, data, size);
1176 else
1177 master_throttle_packet(sp->tbf_out, data, size);
1178 return;
1179 }
1180
1181 if (sp->walled_garden && !config->cluster_iam_master)
1182 {
1183 // We are walled-gardening this
1184 master_garden_packet(s, data, size);
1185 return;
1186 }
1187
1188 LOG(5, s, t, "Ethernet -> Tunnel (%d bytes)\n", len);
1189
1190 // Add on L2TP header
1191 {
1192 uint8_t *p = makeppp(b, sizeof(b), buf, len, s, t, PPPIP);
1193 if (!p) return;
1194 tunnelsend(b, len + (p-b), t); // send it...
1195 }
1196
1197 // Snooping this session, send it to intercept box
1198 if (sp->snoop_ip && sp->snoop_port)
1199 snoop_send_packet(buf, len, sp->snoop_ip, sp->snoop_port);
1200
1201 increment_counter(&sp->cout, &sp->cout_wrap, len); // byte count
1202 sp->cout_delta += len;
1203 sp->pout++;
1204 udp_tx += len;
1205
1206 sess_local[s].cout += len; // To send to master..
1207 sess_local[s].pout++;
1208 }
1209
1210 // process outgoing (to tunnel) IPv6
1211 //
1212 static void processipv6out(uint8_t * buf, int len)
1213 {
1214 sessionidt s;
1215 sessiont *sp;
1216 tunnelidt t;
1217 in_addr_t ip;
1218 struct in6_addr ip6;
1219
1220 uint8_t *data = buf; // Keep a copy of the originals.
1221 int size = len;
1222
1223 uint8_t b[MAXETHER + 20];
1224
1225 CSTAT(processipv6out);
1226
1227 if (len < MIN_IP_SIZE)
1228 {
1229 LOG(1, 0, 0, "Short IPv6, %d bytes\n", len);
1230 STAT(tunnel_tx_errors);
1231 return;
1232 }
1233 if (len >= MAXETHER)
1234 {
1235 LOG(1, 0, 0, "Oversize IPv6 packet %d bytes\n", len);
1236 STAT(tunnel_tx_errors);
1237 return;
1238 }
1239
1240 // Skip the tun header
1241 buf += 4;
1242 len -= 4;
1243
1244 // Got an IP header now
1245 if (*(uint8_t *)(buf) >> 4 != 6)
1246 {
1247 LOG(1, 0, 0, "IP: Don't understand anything except IPv6\n");
1248 return;
1249 }
1250
1251 ip6 = *(struct in6_addr *)(buf+24);
1252 s = sessionbyipv6(ip6);
1253
1254 if (s == 0)
1255 {
1256 ip = *(uint32_t *)(buf + 32);
1257 s = sessionbyip(ip);
1258 }
1259
1260 if (s == 0)
1261 {
1262 // Is this a packet for a session that doesn't exist?
1263 static int rate = 0; // Number of ICMP packets we've sent this second.
1264 static int last = 0; // Last time we reset the ICMP packet counter 'rate'.
1265
1266 if (last != time_now)
1267 {
1268 last = time_now;
1269 rate = 0;
1270 }
1271
1272 if (rate++ < config->icmp_rate) // Only send a max of icmp_rate per second.
1273 {
1274 // FIXME: Should send icmp6 host unreachable
1275 }
1276 return;
1277 }
1278 t = session[s].tunnel;
1279 sp = &session[s];
1280
1281 // FIXME: add DoS prevention/filters?
1282
1283 if (sp->tbf_out)
1284 {
1285 // Are we throttling this session?
1286 if (config->cluster_iam_master)
1287 tbf_queue_packet(sp->tbf_out, data, size);
1288 else
1289 master_throttle_packet(sp->tbf_out, data, size);
1290 return;
1291 }
1292 else if (sp->walled_garden && !config->cluster_iam_master)
1293 {
1294 // We are walled-gardening this
1295 master_garden_packet(s, data, size);
1296 return;
1297 }
1298
1299 LOG(5, s, t, "Ethernet -> Tunnel (%d bytes)\n", len);
1300
1301 // Add on L2TP header
1302 {
1303 uint8_t *p = makeppp(b, sizeof(b), buf, len, s, t, PPPIPV6);
1304 if (!p) return;
1305 tunnelsend(b, len + (p-b), t); // send it...
1306 }
1307
1308 // Snooping this session, send it to intercept box
1309 if (sp->snoop_ip && sp->snoop_port)
1310 snoop_send_packet(buf, len, sp->snoop_ip, sp->snoop_port);
1311
1312 increment_counter(&sp->cout, &sp->cout_wrap, len); // byte count
1313 sp->cout_delta += len;
1314 sp->pout++;
1315 udp_tx += len;
1316
1317 sess_local[s].cout += len; // To send to master..
1318 sess_local[s].pout++;
1319 }
1320
1321 //
1322 // Helper routine for the TBF filters.
1323 // Used to send queued data in to the user!
1324 //
1325 static void send_ipout(sessionidt s, uint8_t *buf, int len)
1326 {
1327 sessiont *sp;
1328 tunnelidt t;
1329 in_addr_t ip;
1330
1331 uint8_t b[MAXETHER + 20];
1332
1333 if (len < 0 || len > MAXETHER)
1334 {
1335 LOG(1, 0, 0, "Odd size IP packet: %d bytes\n", len);
1336 return;
1337 }
1338
1339 // Skip the tun header
1340 buf += 4;
1341 len -= 4;
1342
1343 ip = *(in_addr_t *)(buf + 16);
1344
1345 if (!session[s].ip)
1346 return;
1347
1348 t = session[s].tunnel;
1349 sp = &session[s];
1350
1351 LOG(5, s, t, "Ethernet -> Tunnel (%d bytes)\n", len);
1352
1353 // Add on L2TP header
1354 {
1355 uint8_t *p = makeppp(b, sizeof(b), buf, len, s, t, PPPIP);
1356 if (!p) return;
1357 tunnelsend(b, len + (p-b), t); // send it...
1358 }
1359
1360 // Snooping this session.
1361 if (sp->snoop_ip && sp->snoop_port)
1362 snoop_send_packet(buf, len, sp->snoop_ip, sp->snoop_port);
1363
1364 increment_counter(&sp->cout, &sp->cout_wrap, len); // byte count
1365 sp->cout_delta += len;
1366 sp->pout++;
1367 udp_tx += len;
1368
1369 sess_local[s].cout += len; // To send to master..
1370 sess_local[s].pout++;
1371 }
1372
1373 // add an AVP (16 bit)
1374 static void control16(controlt * c, uint16_t avp, uint16_t val, uint8_t m)
1375 {
1376 uint16_t l = (m ? 0x8008 : 0x0008);
1377 *(uint16_t *) (c->buf + c->length + 0) = htons(l);
1378 *(uint16_t *) (c->buf + c->length + 2) = htons(0);
1379 *(uint16_t *) (c->buf + c->length + 4) = htons(avp);
1380 *(uint16_t *) (c->buf + c->length + 6) = htons(val);
1381 c->length += 8;
1382 }
1383
1384 // add an AVP (32 bit)
1385 static void control32(controlt * c, uint16_t avp, uint32_t val, uint8_t m)
1386 {
1387 uint16_t l = (m ? 0x800A : 0x000A);
1388 *(uint16_t *) (c->buf + c->length + 0) = htons(l);
1389 *(uint16_t *) (c->buf + c->length + 2) = htons(0);
1390 *(uint16_t *) (c->buf + c->length + 4) = htons(avp);
1391 *(uint32_t *) (c->buf + c->length + 6) = htonl(val);
1392 c->length += 10;
1393 }
1394
1395 // add an AVP (string)
1396 static void controls(controlt * c, uint16_t avp, char *val, uint8_t m)
1397 {
1398 uint16_t l = ((m ? 0x8000 : 0) + strlen(val) + 6);
1399 *(uint16_t *) (c->buf + c->length + 0) = htons(l);
1400 *(uint16_t *) (c->buf + c->length + 2) = htons(0);
1401 *(uint16_t *) (c->buf + c->length + 4) = htons(avp);
1402 memcpy(c->buf + c->length + 6, val, strlen(val));
1403 c->length += 6 + strlen(val);
1404 }
1405
1406 // add a binary AVP
1407 static void controlb(controlt * c, uint16_t avp, uint8_t *val, unsigned int len, uint8_t m)
1408 {
1409 uint16_t l = ((m ? 0x8000 : 0) + len + 6);
1410 *(uint16_t *) (c->buf + c->length + 0) = htons(l);
1411 *(uint16_t *) (c->buf + c->length + 2) = htons(0);
1412 *(uint16_t *) (c->buf + c->length + 4) = htons(avp);
1413 memcpy(c->buf + c->length + 6, val, len);
1414 c->length += 6 + len;
1415 }
1416
1417 // new control connection
1418 static controlt *controlnew(uint16_t mtype)
1419 {
1420 controlt *c;
1421 if (!controlfree)
1422 c = malloc(sizeof(controlt));
1423 else
1424 {
1425 c = controlfree;
1426 controlfree = c->next;
1427 }
1428 assert(c);
1429 c->next = 0;
1430 *(uint16_t *) (c->buf + 0) = htons(0xC802); // flags/ver
1431 c->length = 12;
1432 control16(c, 0, mtype, 1);
1433 return c;
1434 }
1435
1436 // send zero block if nothing is waiting
1437 // (ZLB send).
1438 static void controlnull(tunnelidt t)
1439 {
1440 uint8_t buf[12];
1441 if (tunnel[t].controlc) // Messages queued; They will carry the ack.
1442 return;
1443
1444 *(uint16_t *) (buf + 0) = htons(0xC802); // flags/ver
1445 *(uint16_t *) (buf + 2) = htons(12); // length
1446 *(uint16_t *) (buf + 4) = htons(tunnel[t].far); // tunnel
1447 *(uint16_t *) (buf + 6) = htons(0); // session
1448 *(uint16_t *) (buf + 8) = htons(tunnel[t].ns); // sequence
1449 *(uint16_t *) (buf + 10) = htons(tunnel[t].nr); // sequence
1450 tunnelsend(buf, 12, t);
1451 }
1452
1453 // add a control message to a tunnel, and send if within window
1454 static void controladd(controlt *c, sessionidt far, tunnelidt t)
1455 {
1456 *(uint16_t *) (c->buf + 2) = htons(c->length); // length
1457 *(uint16_t *) (c->buf + 4) = htons(tunnel[t].far); // tunnel
1458 *(uint16_t *) (c->buf + 6) = htons(far); // session
1459 *(uint16_t *) (c->buf + 8) = htons(tunnel[t].ns); // sequence
1460 tunnel[t].ns++; // advance sequence
1461 // link in message in to queue
1462 if (tunnel[t].controlc)
1463 tunnel[t].controle->next = c;
1464 else
1465 tunnel[t].controls = c;
1466
1467 tunnel[t].controle = c;
1468 tunnel[t].controlc++;
1469
1470 // send now if space in window
1471 if (tunnel[t].controlc <= tunnel[t].window)
1472 {
1473 tunnel[t].try = 0; // first send
1474 tunnelsend(c->buf, c->length, t);
1475 }
1476 }
1477
1478 //
1479 // Throttle or Unthrottle a session
1480 //
1481 // Throttle the data from/to through a session to no more than
1482 // 'rate_in' kbit/sec in (from user) or 'rate_out' kbit/sec out (to
1483 // user).
1484 //
1485 // If either value is -1, the current value is retained for that
1486 // direction.
1487 //
1488 void throttle_session(sessionidt s, int rate_in, int rate_out)
1489 {
1490 if (!session[s].opened)
1491 return; // No-one home.
1492
1493 if (!*session[s].user)
1494 return; // User not logged in
1495
1496 if (rate_in >= 0)
1497 {
1498 int bytes = rate_in * 1024 / 8; // kbits to bytes
1499 if (session[s].tbf_in)
1500 free_tbf(session[s].tbf_in);
1501
1502 if (rate_in > 0)
1503 session[s].tbf_in = new_tbf(s, bytes * 2, bytes, send_ipin);
1504 else
1505 session[s].tbf_in = 0;
1506
1507 session[s].throttle_in = rate_in;
1508 }
1509
1510 if (rate_out >= 0)
1511 {
1512 int bytes = rate_out * 1024 / 8;
1513 if (session[s].tbf_out)
1514 free_tbf(session[s].tbf_out);
1515
1516 if (rate_out > 0)
1517 session[s].tbf_out = new_tbf(s, bytes * 2, bytes, send_ipout);
1518 else
1519 session[s].tbf_out = 0;
1520
1521 session[s].throttle_out = rate_out;
1522 }
1523 }
1524
1525 // add/remove filters from session (-1 = no change)
1526 void filter_session(sessionidt s, int filter_in, int filter_out)
1527 {
1528 if (!session[s].opened)
1529 return; // No-one home.
1530
1531 if (!*session[s].user)
1532 return; // User not logged in
1533
1534 // paranoia
1535 if (filter_in > MAXFILTER) filter_in = -1;
1536 if (filter_out > MAXFILTER) filter_out = -1;
1537 if (session[s].filter_in > MAXFILTER) session[s].filter_in = 0;
1538 if (session[s].filter_out > MAXFILTER) session[s].filter_out = 0;
1539
1540 if (filter_in >= 0)
1541 {
1542 if (session[s].filter_in)
1543 ip_filters[session[s].filter_in - 1].used--;
1544
1545 if (filter_in > 0)
1546 ip_filters[filter_in - 1].used++;
1547
1548 session[s].filter_in = filter_in;
1549 }
1550
1551 if (filter_out >= 0)
1552 {
1553 if (session[s].filter_out)
1554 ip_filters[session[s].filter_out - 1].used--;
1555
1556 if (filter_out > 0)
1557 ip_filters[filter_out - 1].used++;
1558
1559 session[s].filter_out = filter_out;
1560 }
1561 }
1562
1563 // start tidy shutdown of session
1564 void sessionshutdown(sessionidt s, char *reason, int result, int error)
1565 {
1566 int walled_garden = session[s].walled_garden;
1567
1568
1569 CSTAT(sessionshutdown);
1570
1571 if (!session[s].opened)
1572 {
1573 LOG(3, s, session[s].tunnel, "Called sessionshutdown on an unopened session.\n");
1574 return; // not a live session
1575 }
1576
1577 if (!session[s].die)
1578 {
1579 struct param_kill_session data = { &tunnel[session[s].tunnel], &session[s] };
1580 LOG(2, s, session[s].tunnel, "Shutting down session %d: %s\n", s, reason);
1581 run_plugins(PLUGIN_KILL_SESSION, &data);
1582 }
1583
1584 if (session[s].ip && !walled_garden && !session[s].die)
1585 {
1586 // RADIUS Stop message
1587 uint16_t r = radiusnew(s);
1588 if (r)
1589 {
1590 // stop, if not already trying
1591 if (radius[r].state != RADIUSSTOP)
1592 radiussend(r, RADIUSSTOP);
1593 }
1594 else
1595 LOG(1, s, session[s].tunnel, "No free RADIUS sessions for Stop message\n");
1596
1597 // Save counters to dump to accounting file
1598 if (*config->accounting_dir && shut_acct_n < sizeof(shut_acct) / sizeof(*shut_acct))
1599 memcpy(&shut_acct[shut_acct_n++], &session[s], sizeof(session[s]));
1600 }
1601
1602 if (session[s].ip)
1603 { // IP allocated, clear and unroute
1604 int r;
1605 int routed = 0;
1606 for (r = 0; r < MAXROUTE && session[s].route[r].ip; r++)
1607 {
1608 if ((session[s].ip & session[s].route[r].mask) ==
1609 (session[s].route[r].ip & session[s].route[r].mask))
1610 routed++;
1611
1612 routeset(s, session[s].route[r].ip, session[s].route[r].mask, 0, 0);
1613 session[s].route[r].ip = 0;
1614 }
1615
1616 if (session[s].ip_pool_index == -1) // static ip
1617 {
1618 if (!routed) routeset(s, session[s].ip, 0, 0, 0);
1619 session[s].ip = 0;
1620 }
1621 else
1622 free_ip_address(s);
1623
1624 // unroute IPv6, if setup
1625 if (session[s].ppp.ipv6cp == Opened && session[s].ipv6prefixlen)
1626 route6set(s, session[s].ipv6route, session[s].ipv6prefixlen, 0);
1627 }
1628
1629 if (session[s].throttle_in || session[s].throttle_out) // Unthrottle if throttled.
1630 throttle_session(s, 0, 0);
1631
1632 if (result)
1633 { // Send CDN
1634 controlt *c = controlnew(14); // sending CDN
1635 if (error)
1636 {
1637 uint8_t buf[4];
1638 *(uint16_t *) buf = htons(result);
1639 *(uint16_t *) (buf+2) = htons(error);
1640 controlb(c, 1, buf, 4, 1);
1641 }
1642 else
1643 control16(c, 1, result, 1);
1644
1645 control16(c, 14, s, 1); // assigned session (our end)
1646 controladd(c, session[s].far, session[s].tunnel); // send the message
1647 }
1648
1649 if (!session[s].die)
1650 session[s].die = TIME + 150; // Clean up in 15 seconds
1651
1652 // update filter refcounts
1653 if (session[s].filter_in) ip_filters[session[s].filter_in - 1].used--;
1654 if (session[s].filter_out) ip_filters[session[s].filter_out - 1].used--;
1655
1656 // clear PPP state
1657 memset(&session[s].ppp, 0, sizeof(session[s].ppp));
1658 sess_local[s].lcp.restart = 0;
1659 sess_local[s].ipcp.restart = 0;
1660 sess_local[s].ipv6cp.restart = 0;
1661 sess_local[s].ccp.restart = 0;
1662
1663 cluster_send_session(s);
1664 }
1665
1666 void sendipcp(sessionidt s, tunnelidt t)
1667 {
1668 uint8_t buf[MAXETHER];
1669 uint8_t *q;
1670
1671 CSTAT(sendipcp);
1672 LOG(3, s, t, "IPCP: send ConfigReq\n");
1673
1674 if (!session[s].unique_id)
1675 {
1676 if (!++last_id) ++last_id; // skip zero
1677 session[s].unique_id = last_id;
1678 }
1679
1680 q = makeppp(buf, sizeof(buf), 0, 0, s, t, PPPIPCP);
1681 if (!q) return;
1682
1683 *q = ConfigReq;
1684 q[1] = session[s].unique_id & 0xf; // ID, dont care, we only send one type of request
1685 *(uint16_t *) (q + 2) = htons(10); // packet length
1686 q[4] = 3; // ip address option
1687 q[5] = 6; // option length
1688 *(in_addr_t *) (q + 6) = config->peer_address ? config->peer_address :
1689 config->bind_address ? config->bind_address :
1690 my_address; // send my IP
1691
1692 tunnelsend(buf, 10 + (q - buf), t); // send it
1693 restart_timer(s, ipcp);
1694 }
1695
1696 void sendipv6cp(sessionidt s, tunnelidt t)
1697 {
1698 uint8_t buf[MAXETHER];
1699 uint8_t *q;
1700
1701 CSTAT(sendipv6cp);
1702 LOG(3, s, t, "IPV6CP: send ConfigReq\n");
1703
1704 q = makeppp(buf, sizeof(buf), 0, 0, s, t, PPPIPV6CP);
1705 if (!q) return;
1706
1707 *q = ConfigReq;
1708 q[1] = session[s].unique_id & 0xf; // ID, don't care, we
1709 // only send one type
1710 // of request
1711 *(uint16_t *) (q + 2) = htons(14);
1712 q[4] = 1; // interface identifier option
1713 q[5] = 10; // option length
1714 *(uint32_t *) (q + 6) = 0; // We'll be prefix::1
1715 *(uint32_t *) (q + 10) = 0;
1716 q[13] = 1;
1717
1718 tunnelsend(buf, 14 + (q - buf), t); // send it
1719 restart_timer(s, ipv6cp);
1720 }
1721
1722 static void sessionclear(sessionidt s)
1723 {
1724 memset(&session[s], 0, sizeof(session[s]));
1725 memset(&sess_local[s], 0, sizeof(sess_local[s]));
1726 memset(&cli_session_actions[s], 0, sizeof(cli_session_actions[s]));
1727
1728 session[s].tunnel = T_FREE; // Mark it as free.
1729 session[s].next = sessionfree;
1730 sessionfree = s;
1731 }
1732
1733 // kill a session now
1734 void sessionkill(sessionidt s, char *reason)
1735 {
1736
1737 CSTAT(sessionkill);
1738
1739 if (!session[s].opened) // not alive
1740 return;
1741
1742 if (session[s].next)
1743 {
1744 LOG(0, s, session[s].tunnel, "Tried to kill a session with next pointer set (%d)\n", session[s].next);
1745 return;
1746 }
1747
1748 session[s].die = TIME;
1749 sessionshutdown(s, reason, 3, 0); // close radius/routes, etc.
1750 if (sess_local[s].radius)
1751 radiusclear(sess_local[s].radius, s); // cant send clean accounting data, session is killed
1752
1753 LOG(2, s, session[s].tunnel, "Kill session %d (%s): %s\n", s, session[s].user, reason);
1754 sessionclear(s);
1755 cluster_send_session(s);
1756 }
1757
1758 static void tunnelclear(tunnelidt t)
1759 {
1760 if (!t) return;
1761 memset(&tunnel[t], 0, sizeof(tunnel[t]));
1762 tunnel[t].state = TUNNELFREE;
1763 }
1764
1765 // kill a tunnel now
1766 static void tunnelkill(tunnelidt t, char *reason)
1767 {
1768 sessionidt s;
1769 controlt *c;
1770
1771 CSTAT(tunnelkill);
1772
1773 tunnel[t].state = TUNNELDIE;
1774
1775 // free control messages
1776 while ((c = tunnel[t].controls))
1777 {
1778 controlt * n = c->next;
1779 tunnel[t].controls = n;
1780 tunnel[t].controlc--;
1781 c->next = controlfree;
1782 controlfree = c;
1783 }
1784 // kill sessions
1785 for (s = 1; s <= config->cluster_highest_sessionid ; ++s)
1786 if (session[s].tunnel == t)
1787 sessionkill(s, reason);
1788
1789 // free tunnel
1790 tunnelclear(t);
1791 LOG(1, 0, t, "Kill tunnel %d: %s\n", t, reason);
1792 cli_tunnel_actions[t].action = 0;
1793 cluster_send_tunnel(t);
1794 }
1795
1796 // shut down a tunnel cleanly
1797 static void tunnelshutdown(tunnelidt t, char *reason, int result, int error, char *msg)
1798 {
1799 sessionidt s;
1800
1801 CSTAT(tunnelshutdown);
1802
1803 if (!tunnel[t].last || !tunnel[t].far || tunnel[t].state == TUNNELFREE)
1804 {
1805 // never set up, can immediately kill
1806 tunnelkill(t, reason);
1807 return;
1808 }
1809 LOG(1, 0, t, "Shutting down tunnel %d (%s)\n", t, reason);
1810
1811 // close session
1812 for (s = 1; s <= config->cluster_highest_sessionid ; ++s)
1813 if (session[s].tunnel == t)
1814 sessionshutdown(s, reason, 0, 0);
1815
1816 tunnel[t].state = TUNNELDIE;
1817 tunnel[t].die = TIME + 700; // Clean up in 70 seconds
1818 cluster_send_tunnel(t);
1819 // TBA - should we wait for sessions to stop?
1820 if (result)
1821 {
1822 controlt *c = controlnew(4); // sending StopCCN
1823 if (error)
1824 {
1825 uint8_t buf[64];
1826 int l = 4;
1827 *(uint16_t *) buf = htons(result);
1828 *(uint16_t *) (buf+2) = htons(error);
1829 if (msg)
1830 {
1831 int m = strlen(msg);
1832 if (m + 4 > sizeof(buf))
1833 m = sizeof(buf) - 4;
1834
1835 memcpy(buf+4, msg, m);
1836 l += m;
1837 }
1838
1839 controlb(c, 1, buf, l, 1);
1840 }
1841 else
1842 control16(c, 1, result, 1);
1843
1844 control16(c, 9, t, 1); // assigned tunnel (our end)
1845 controladd(c, 0, t); // send the message
1846 }
1847 }
1848
1849 // read and process packet on tunnel (UDP)
1850 void processudp(uint8_t *buf, int len, struct sockaddr_in *addr)
1851 {
1852 uint8_t *chapresponse = NULL;
1853 uint16_t l = len, t = 0, s = 0, ns = 0, nr = 0;
1854 uint8_t *p = buf + 2;
1855
1856
1857 CSTAT(processudp);
1858
1859 udp_rx += len;
1860 udp_rx_pkt++;
1861 LOG_HEX(5, "UDP Data", buf, len);
1862 STAT(tunnel_rx_packets);
1863 INC_STAT(tunnel_rx_bytes, len);
1864 if (len < 6)
1865 {
1866 LOG(1, 0, 0, "Short UDP, %d bytes\n", len);
1867 STAT(tunnel_rx_errors);
1868 return;
1869 }
1870 if ((buf[1] & 0x0F) != 2)
1871 {
1872 LOG(1, 0, 0, "Bad L2TP ver %d\n", (buf[1] & 0x0F) != 2);
1873 STAT(tunnel_rx_errors);
1874 return;
1875 }
1876 if (*buf & 0x40)
1877 { // length
1878 l = ntohs(*(uint16_t *) p);
1879 p += 2;
1880 }
1881 t = ntohs(*(uint16_t *) p);
1882 p += 2;
1883 s = ntohs(*(uint16_t *) p);
1884 p += 2;
1885 if (s >= MAXSESSION)
1886 {
1887 LOG(1, s, t, "Received UDP packet with invalid session ID\n");
1888 STAT(tunnel_rx_errors);
1889 return;
1890 }
1891 if (t >= MAXTUNNEL)
1892 {
1893 LOG(1, s, t, "Received UDP packet with invalid tunnel ID\n");
1894 STAT(tunnel_rx_errors);
1895 return;
1896 }
1897 if (*buf & 0x08)
1898 { // ns/nr
1899 ns = ntohs(*(uint16_t *) p);
1900 p += 2;
1901 nr = ntohs(*(uint16_t *) p);
1902 p += 2;
1903 }
1904 if (*buf & 0x02)
1905 { // offset
1906 uint16_t o = ntohs(*(uint16_t *) p);
1907 p += o + 2;
1908 }
1909 if ((p - buf) > l)
1910 {
1911 LOG(1, s, t, "Bad length %d>%d\n", (int) (p - buf), l);
1912 STAT(tunnel_rx_errors);
1913 return;
1914 }
1915 l -= (p - buf);
1916
1917 // used to time out old tunnels
1918 if (t && tunnel[t].state == TUNNELOPEN)
1919 tunnel[t].lastrec = time_now;
1920
1921 if (*buf & 0x80)
1922 { // control
1923 uint16_t message = 0xFFFF; // message type
1924 uint8_t fatal = 0;
1925 uint8_t mandatory = 0;
1926 uint16_t asession = 0; // assigned session
1927 uint32_t amagic = 0; // magic number
1928 uint8_t aflags = 0; // flags from last LCF
1929 uint16_t version = 0x0100; // protocol version (we handle 0.0 as well and send that back just in case)
1930 char called[MAXTEL] = ""; // called number
1931 char calling[MAXTEL] = ""; // calling number
1932
1933 if (!config->cluster_iam_master)
1934 {
1935 master_forward_packet(buf, len, addr->sin_addr.s_addr, addr->sin_port);
1936 return;
1937 }
1938
1939 // control messages must have bits 0x80|0x40|0x08
1940 // (type, length and sequence) set, and bits 0x02|0x01
1941 // (offset and priority) clear
1942 if ((*buf & 0xCB) != 0xC8)
1943 {
1944 LOG(1, s, t, "Bad control header %02X\n", *buf);
1945 STAT(tunnel_rx_errors);
1946 return;
1947 }
1948
1949 // check for duplicate tunnel open message
1950 if (!t && ns == 0)
1951 {
1952 int i;
1953
1954 //
1955 // Is this a duplicate of the first packet? (SCCRQ)
1956 //
1957 for (i = 1; i <= config->cluster_highest_tunnelid ; ++i)
1958 {
1959 if (tunnel[i].state != TUNNELOPENING ||
1960 tunnel[i].ip != ntohl(*(in_addr_t *) & addr->sin_addr) ||
1961 tunnel[i].port != ntohs(addr->sin_port) )
1962 continue;
1963 t = i;
1964 LOG(3, s, t, "Duplicate SCCRQ?\n");
1965 break;
1966 }
1967 }
1968
1969 LOG(3, s, t, "Control message (%d bytes): (unacked %d) l-ns %d l-nr %d r-ns %d r-nr %d\n",
1970 l, tunnel[t].controlc, tunnel[t].ns, tunnel[t].nr, ns, nr);
1971
1972 // if no tunnel specified, assign one
1973 if (!t)
1974 {
1975 if (!(t = new_tunnel()))
1976 {
1977 LOG(1, 0, 0, "No more tunnels\n");
1978 STAT(tunnel_overflow);
1979 return;
1980 }
1981 tunnelclear(t);
1982 tunnel[t].ip = ntohl(*(in_addr_t *) & addr->sin_addr);
1983 tunnel[t].port = ntohs(addr->sin_port);
1984 tunnel[t].window = 4; // default window
1985 STAT(tunnel_created);
1986 LOG(1, 0, t, " New tunnel from %s:%u ID %d\n",
1987 fmtaddr(htonl(tunnel[t].ip), 0), tunnel[t].port, t);
1988 }
1989
1990 // If the 'ns' just received is not the 'nr' we're
1991 // expecting, just send an ack and drop it.
1992 //
1993 // if 'ns' is less, then we got a retransmitted packet.
1994 // if 'ns' is greater than missed a packet. Either way
1995 // we should ignore it.
1996 if (ns != tunnel[t].nr)
1997 {
1998 // is this the sequence we were expecting?
1999 STAT(tunnel_rx_errors);
2000 LOG(1, 0, t, " Out of sequence tunnel %d, (%d is not the expected %d)\n",
2001 t, ns, tunnel[t].nr);
2002
2003 if (l) // Is this not a ZLB?
2004 controlnull(t);
2005 return;
2006 }
2007
2008 // check sequence of this message
2009 {
2010 int skip = tunnel[t].window; // track how many in-window packets are still in queue
2011 // some to clear maybe?
2012 while (tunnel[t].controlc > 0 && (((tunnel[t].ns - tunnel[t].controlc) - nr) & 0x8000))
2013 {
2014 controlt *c = tunnel[t].controls;
2015 tunnel[t].controls = c->next;
2016 tunnel[t].controlc--;
2017 c->next = controlfree;
2018 controlfree = c;
2019 skip--;
2020 tunnel[t].try = 0; // we have progress
2021 }
2022
2023 // receiver advance (do here so quoted correctly in any sends below)
2024 if (l) tunnel[t].nr = (ns + 1);
2025 if (skip < 0) skip = 0;
2026 if (skip < tunnel[t].controlc)
2027 {
2028 // some control packets can now be sent that were previous stuck out of window
2029 int tosend = tunnel[t].window - skip;
2030 controlt *c = tunnel[t].controls;
2031 while (c && skip)
2032 {
2033 c = c->next;
2034 skip--;
2035 }
2036 while (c && tosend)
2037 {
2038 tunnel[t].try = 0; // first send
2039 tunnelsend(c->buf, c->length, t);
2040 c = c->next;
2041 tosend--;
2042 }
2043 }
2044 if (!tunnel[t].controlc)
2045 tunnel[t].retry = 0; // caught up
2046 }
2047 if (l)
2048 { // if not a null message
2049 int result = 0;
2050 int error = 0;
2051 char *msg = 0;
2052
2053 // process AVPs
2054 while (l && !(fatal & 0x80)) // 0x80 = mandatory AVP
2055 {
2056 uint16_t n = (ntohs(*(uint16_t *) p) & 0x3FF);
2057 uint8_t *b = p;
2058 uint8_t flags = *p;
2059 uint16_t mtype;
2060 if (n > l)
2061 {
2062 LOG(1, s, t, "Invalid length in AVP\n");
2063 STAT(tunnel_rx_errors);
2064 return;
2065 }
2066 p += n; // next
2067 l -= n;
2068 if (flags & 0x3C) // reserved bits, should be clear
2069 {
2070 LOG(1, s, t, "Unrecognised AVP flags %02X\n", *b);
2071 fatal = flags;
2072 result = 2; // general error
2073 error = 3; // reserved field non-zero
2074 msg = 0;
2075 continue; // next
2076 }
2077 b += 2;
2078 if (*(uint16_t *) (b))
2079 {
2080 LOG(2, s, t, "Unknown AVP vendor %d\n", ntohs(*(uint16_t *) (b)));
2081 fatal = flags;
2082 result = 2; // general error
2083 error = 6; // generic vendor-specific error
2084 msg = "unsupported vendor-specific";
2085 continue; // next
2086 }
2087 b += 2;
2088 mtype = ntohs(*(uint16_t *) (b));
2089 b += 2;
2090 n -= 6;
2091
2092 if (flags & 0x40)
2093 {
2094 uint16_t orig_len;
2095
2096 // handle hidden AVPs
2097 if (!*config->l2tp_secret)
2098 {
2099 LOG(1, s, t, "Hidden AVP requested, but no L2TP secret.\n");
2100 fatal = flags;
2101 result = 2; // general error
2102 error = 6; // generic vendor-specific error
2103 msg = "secret not specified";
2104 continue;
2105 }
2106 if (!session[s].random_vector_length)
2107 {
2108 LOG(1, s, t, "Hidden AVP requested, but no random vector.\n");
2109 fatal = flags;
2110 result = 2; // general error
2111 error = 6; // generic
2112 msg = "no random vector";
2113 continue;
2114 }
2115 if (n < 8)
2116 {
2117 LOG(2, s, t, "Short hidden AVP.\n");
2118 fatal = flags;
2119 result = 2; // general error
2120 error = 2; // length is wrong
2121 msg = 0;
2122 continue;
2123 }
2124
2125 // Unhide the AVP
2126 unhide_value(b, n, mtype, session[s].random_vector, session[s].random_vector_length);
2127
2128 orig_len = ntohs(*(uint16_t *) b);
2129 if (orig_len > n + 2)
2130 {
2131 LOG(1, s, t, "Original length %d too long in hidden AVP of length %d; wrong secret?\n",
2132 orig_len, n);
2133
2134 fatal = flags;
2135 result = 2; // general error
2136 error = 2; // length is wrong
2137 msg = 0;
2138 continue;
2139 }
2140
2141 b += 2;
2142 n = orig_len;
2143 }
2144
2145 LOG(4, s, t, " AVP %d (%s) len %d%s%s\n", mtype, l2tp_avp_name(mtype), n,
2146 flags & 0x40 ? ", hidden" : "", flags & 0x80 ? ", mandatory" : "");
2147
2148 switch (mtype)
2149 {
2150 case 0: // message type
2151 message = ntohs(*(uint16_t *) b);
2152 mandatory = flags & 0x80;
2153 LOG(4, s, t, " Message type = %d (%s)\n", *b, l2tp_code(message));
2154 break;
2155 case 1: // result code
2156 {
2157 uint16_t rescode = ntohs(*(uint16_t *) b);
2158 const char* resdesc = "(unknown)";
2159 if (message == 4)
2160 { /* StopCCN */
2161 resdesc = l2tp_stopccn_result_code(rescode);
2162 }
2163 else if (message == 14)
2164 { /* CDN */
2165 resdesc = l2tp_cdn_result_code(rescode);
2166 }
2167
2168 LOG(4, s, t, " Result Code %d: %s\n", rescode, resdesc);
2169 if (n >= 4)
2170 {
2171 uint16_t errcode = ntohs(*(uint16_t *)(b + 2));
2172 LOG(4, s, t, " Error Code %d: %s\n", errcode, l2tp_error_code(errcode));
2173 }
2174 if (n > 4)
2175 LOG(4, s, t, " Error String: %.*s\n", n-4, b+4);
2176
2177 break;
2178 }
2179 break;
2180 case 2: // protocol version
2181 {
2182 version = ntohs(*(uint16_t *) (b));
2183 LOG(4, s, t, " Protocol version = %d\n", version);
2184 if (version && version != 0x0100)
2185 { // allow 0.0 and 1.0
2186 LOG(1, s, t, " Bad protocol version %04X\n", version);
2187 fatal = flags;
2188 result = 5; // unspported protocol version
2189 error = 0x0100; // supported version
2190 msg = 0;
2191 continue; // next
2192 }
2193 }
2194 break;
2195 case 3: // framing capabilities
2196 // LOG(4, s, t, "Framing capabilities\n");
2197 break;
2198 case 4: // bearer capabilities
2199 // LOG(4, s, t, "Bearer capabilities\n");
2200 break;
2201 case 5: // tie breaker
2202 // We never open tunnels, so we don't care about tie breakers
2203 // LOG(4, s, t, "Tie breaker\n");
2204 continue;
2205 case 6: // firmware revision
2206 // LOG(4, s, t, "Firmware revision\n");
2207 break;
2208 case 7: // host name
2209 memset(tunnel[t].hostname, 0, sizeof(tunnel[t].hostname));
2210 memcpy(tunnel[t].hostname, b, (n < sizeof(tunnel[t].hostname)) ? n : sizeof(tunnel[t].hostname) - 1);
2211 LOG(4, s, t, " Tunnel hostname = \"%s\"\n", tunnel[t].hostname);
2212 // TBA - to send to RADIUS
2213 break;
2214 case 8: // vendor name
2215 memset(tunnel[t].vendor, 0, sizeof(tunnel[t].vendor));
2216 memcpy(tunnel[t].vendor, b, (n < sizeof(tunnel[t].vendor)) ? n : sizeof(tunnel[t].vendor) - 1);
2217 LOG(4, s, t, " Vendor name = \"%s\"\n", tunnel[t].vendor);
2218 break;
2219 case 9: // assigned tunnel
2220 tunnel[t].far = ntohs(*(uint16_t *) (b));
2221 LOG(4, s, t, " Remote tunnel id = %d\n", tunnel[t].far);
2222 break;
2223 case 10: // rx window
2224 tunnel[t].window = ntohs(*(uint16_t *) (b));
2225 if (!tunnel[t].window)
2226 tunnel[t].window = 1; // window of 0 is silly
2227 LOG(4, s, t, " rx window = %d\n", tunnel[t].window);
2228 break;
2229 case 11: // Challenge
2230 {
2231 LOG(4, s, t, " LAC requested CHAP authentication for tunnel\n");
2232 build_chap_response(b, 2, n, &chapresponse);
2233 }
2234 break;
2235 case 13: // Response
2236 // Why did they send a response? We never challenge.
2237 LOG(2, s, t, " received unexpected challenge response\n");
2238 break;
2239
2240 case 14: // assigned session
2241 asession = session[s].far = ntohs(*(uint16_t *) (b));
2242 LOG(4, s, t, " assigned session = %d\n", asession);
2243 break;
2244 case 15: // call serial number
2245 LOG(4, s, t, " call serial number = %d\n", ntohl(*(uint32_t *)b));
2246 break;
2247 case 18: // bearer type
2248 LOG(4, s, t, " bearer type = %d\n", ntohl(*(uint32_t *)b));
2249 // TBA - for RADIUS
2250 break;
2251 case 19: // framing type
2252 LOG(4, s, t, " framing type = %d\n", ntohl(*(uint32_t *)b));
2253 // TBA
2254 break;
2255 case 21: // called number
2256 memset(called, 0, sizeof(called));
2257 memcpy(called, b, (n < sizeof(called)) ? n : sizeof(called) - 1);
2258 LOG(4, s, t, " Called <%s>\n", called);
2259 break;
2260 case 22: // calling number
2261 memset(calling, 0, sizeof(calling));
2262 memcpy(calling, b, (n < sizeof(calling)) ? n : sizeof(calling) - 1);
2263 LOG(4, s, t, " Calling <%s>\n", calling);
2264 break;
2265 case 23: // subtype
2266 break;
2267 case 24: // tx connect speed
2268 if (n == 4)
2269 {
2270 session[s].tx_connect_speed = ntohl(*(uint32_t *)b);
2271 }
2272 else
2273 {
2274 // AS5300s send connect speed as a string
2275 char tmp[30];
2276 memset(tmp, 0, sizeof(tmp));
2277 memcpy(tmp, b, (n < sizeof(tmp)) ? n : sizeof(tmp) - 1);
2278 session[s].tx_connect_speed = atol(tmp);
2279 }
2280 LOG(4, s, t, " TX connect speed <%u>\n", session[s].tx_connect_speed);
2281 break;
2282 case 38: // rx connect speed
2283 if (n == 4)
2284 {
2285 session[s].rx_connect_speed = ntohl(*(uint32_t *)b);
2286 }
2287 else
2288 {
2289 // AS5300s send connect speed as a string
2290 char tmp[30];
2291 memset(tmp, 0, sizeof(tmp));
2292 memcpy(tmp, b, (n < sizeof(tmp)) ? n : sizeof(tmp) - 1);
2293 session[s].rx_connect_speed = atol(tmp);
2294 }
2295 LOG(4, s, t, " RX connect speed <%u>\n", session[s].rx_connect_speed);
2296 break;
2297 case 25: // Physical Channel ID
2298 {
2299 uint32_t tmp = ntohl(*(uint32_t *) b);
2300 LOG(4, s, t, " Physical Channel ID <%X>\n", tmp);
2301 break;
2302 }
2303 case 29: // Proxy Authentication Type
2304 {
2305 uint16_t atype = ntohs(*(uint16_t *)b);
2306 LOG(4, s, t, " Proxy Auth Type %d (%s)\n", atype, ppp_auth_type(atype));
2307 break;
2308 }
2309 case 30: // Proxy Authentication Name
2310 {
2311 char authname[64];
2312 memset(authname, 0, sizeof(authname));
2313 memcpy(authname, b, (n < sizeof(authname)) ? n : sizeof(authname) - 1);
2314 LOG(4, s, t, " Proxy Auth Name (%s)\n",
2315 authname);
2316 break;
2317 }
2318 case 31: // Proxy Authentication Challenge
2319 {
2320 LOG(4, s, t, " Proxy Auth Challenge\n");
2321 break;
2322 }
2323 case 32: // Proxy Authentication ID
2324 {
2325 uint16_t authid = ntohs(*(uint16_t *)(b));
2326 LOG(4, s, t, " Proxy Auth ID (%d)\n", authid);
2327 break;
2328 }
2329 case 33: // Proxy Authentication Response
2330 LOG(4, s, t, " Proxy Auth Response\n");
2331 break;
2332 case 27: // last sent lcp
2333 { // find magic number
2334 uint8_t *p = b, *e = p + n;
2335 while (p + 1 < e && p[1] && p + p[1] <= e)
2336 {
2337 if (*p == 5 && p[1] == 6) // Magic-Number
2338 amagic = ntohl(*(uint32_t *) (p + 2));
2339 else if (*p == 7) // Protocol-Field-Compression
2340 aflags |= SESSION_PFC;
2341 else if (*p == 8) // Address-and-Control-Field-Compression
2342 aflags |= SESSION_ACFC;
2343 p += p[1];
2344 }
2345 }
2346 break;
2347 case 28: // last recv lcp confreq
2348 break;
2349 case 26: // Initial Received LCP CONFREQ
2350 break;
2351 case 39: // seq required - we control it as an LNS anyway...
2352 break;
2353 case 36: // Random Vector
2354 LOG(4, s, t, " Random Vector received. Enabled AVP Hiding.\n");
2355 memset(session[s].random_vector, 0, sizeof(session[s].random_vector));
2356 if (n > sizeof(session[s].random_vector))
2357 n = sizeof(session[s].random_vector);
2358 memcpy(session[s].random_vector, b, n);
2359 session[s].random_vector_length = n;
2360 break;
2361 default:
2362 {
2363 static char e[] = "unknown AVP 0xXXXX";
2364 LOG(2, s, t, " Unknown AVP type %d\n", mtype);
2365 fatal = flags;
2366 result = 2; // general error
2367 error = 8; // unknown mandatory AVP
2368 sprintf((msg = e) + 14, "%04x", mtype);
2369 continue; // next
2370 }
2371 }
2372 }
2373 // process message
2374 if (fatal & 0x80)
2375 tunnelshutdown(t, "Invalid mandatory AVP", result, error, msg);
2376 else
2377 switch (message)
2378 {
2379 case 1: // SCCRQ - Start Control Connection Request
2380 tunnel[t].state = TUNNELOPENING;
2381 if (main_quit != QUIT_SHUTDOWN)
2382 {
2383 controlt *c = controlnew(2); // sending SCCRP
2384 control16(c, 2, version, 1); // protocol version
2385 control32(c, 3, 3, 1); // framing
2386 controls(c, 7, hostname, 1); // host name
2387 if (chapresponse) controlb(c, 13, chapresponse, 16, 1); // Challenge response
2388 control16(c, 9, t, 1); // assigned tunnel
2389 controladd(c, 0, t); // send the resply
2390 }
2391 else
2392 {
2393 tunnelshutdown(t, "Shutting down", 6, 0, 0);
2394 }
2395 break;
2396 case 2: // SCCRP
2397 tunnel[t].state = TUNNELOPEN;
2398 break;
2399 case 3: // SCCN
2400 tunnel[t].state = TUNNELOPEN;
2401 controlnull(t); // ack
2402 break;
2403 case 4: // StopCCN
2404 controlnull(t); // ack
2405 tunnelshutdown(t, "Stopped", 0, 0, 0); // Shut down cleanly
2406 break;
2407 case 6: // HELLO
2408 controlnull(t); // simply ACK
2409 break;
2410 case 7: // OCRQ
2411 // TBA
2412 break;
2413 case 8: // OCRO
2414 // TBA
2415 break;
2416 case 9: // OCCN
2417 // TBA
2418 break;
2419 case 10: // ICRQ
2420 if (sessionfree && main_quit != QUIT_SHUTDOWN)
2421 {
2422 controlt *c = controlnew(11); // ICRP
2423
2424 s = sessionfree;
2425 sessionfree = session[s].next;
2426 memset(&session[s], 0, sizeof(session[s]));
2427
2428 if (s > config->cluster_highest_sessionid)
2429 config->cluster_highest_sessionid = s;
2430
2431 session[s].opened = time_now;
2432 session[s].tunnel = t;
2433 session[s].far = asession;
2434 session[s].last_packet = time_now;
2435 LOG(3, s, t, "New session (%d/%d)\n", tunnel[t].far, session[s].far);
2436 control16(c, 14, s, 1); // assigned session
2437 controladd(c, asession, t); // send the reply
2438
2439 strncpy(session[s].called, called, sizeof(session[s].called) - 1);
2440 strncpy(session[s].calling, calling, sizeof(session[s].calling) - 1);
2441
2442 session[s].ppp.phase = Establish;
2443 session[s].ppp.lcp = Starting;
2444
2445 STAT(session_created);
2446 break;
2447 }
2448
2449 {
2450 controlt *c = controlnew(14); // CDN
2451 if (!sessionfree)
2452 {
2453 STAT(session_overflow);
2454 LOG(1, 0, t, "No free sessions\n");
2455 control16(c, 1, 4, 0); // temporary lack of resources
2456 }
2457 else
2458 control16(c, 1, 2, 7); // shutting down, try another
2459
2460 controladd(c, asession, t); // send the message
2461 }
2462 return;
2463 case 11: // ICRP
2464 // TBA
2465 break;
2466 case 12: // ICCN
2467 if (amagic == 0) amagic = time_now;
2468 session[s].magic = amagic; // set magic number
2469 session[s].flags = aflags; // set flags received
2470 session[s].mru = PPPMTU; // default
2471 controlnull(t); // ack
2472
2473 // start LCP
2474 sess_local[s].lcp_authtype = config->radius_authprefer;
2475 sess_local[s].ppp_mru = MRU;
2476 sendlcp(s, t);
2477 change_state(s, lcp, RequestSent);
2478 break;
2479
2480 case 14: // CDN
2481 controlnull(t); // ack
2482 sessionshutdown(s, "Closed (Received CDN).", 0, 0);
2483 break;
2484 case 0xFFFF:
2485 LOG(1, s, t, "Missing message type\n");
2486 break;
2487 default:
2488 STAT(tunnel_rx_errors);
2489 if (mandatory)
2490 tunnelshutdown(t, "Unknown message type", 2, 6, "unknown message type");
2491 else
2492 LOG(1, s, t, "Unknown message type %d\n", message);
2493 break;
2494 }
2495 if (chapresponse) free(chapresponse);
2496 cluster_send_tunnel(t);
2497 }
2498 else
2499 {
2500 LOG(4, s, t, " Got a ZLB ack\n");
2501 }
2502 }
2503 else
2504 { // data
2505 uint16_t proto;
2506
2507 LOG_HEX(5, "Receive Tunnel Data", p, l);
2508 if (l > 2 && p[0] == 0xFF && p[1] == 0x03)
2509 { // HDLC address header, discard
2510 p += 2;
2511 l -= 2;
2512 }
2513 if (l < 2)
2514 {
2515 LOG(1, s, t, "Short ppp length %d\n", l);
2516 STAT(tunnel_rx_errors);
2517 return;
2518 }
2519 if (*p & 1)
2520 {
2521 proto = *p++;
2522 l--;
2523 }
2524 else
2525 {
2526 proto = ntohs(*(uint16_t *) p);
2527 p += 2;
2528 l -= 2;
2529 }
2530
2531 if (s && !session[s].opened) // Is something wrong??
2532 {
2533 if (!config->cluster_iam_master)
2534 {
2535 // Pass it off to the master to deal with..
2536 master_forward_packet(buf, len, addr->sin_addr.s_addr, addr->sin_port);
2537 return;
2538 }
2539
2540
2541 LOG(1, s, t, "UDP packet contains session which is not opened. Dropping packet.\n");
2542 STAT(tunnel_rx_errors);
2543 return;
2544 }
2545
2546 if (proto == PPPPAP)
2547 {
2548 session[s].last_packet = time_now;
2549 if (!config->cluster_iam_master) { master_forward_packet(buf, len, addr->sin_addr.s_addr, addr->sin_port); return; }
2550 processpap(s, t, p, l);
2551 }
2552 else if (proto == PPPCHAP)
2553 {
2554 session[s].last_packet = time_now;
2555 if (!config->cluster_iam_master) { master_forward_packet(buf, len, addr->sin_addr.s_addr, addr->sin_port); return; }
2556 processchap(s, t, p, l);
2557 }
2558 else if (proto == PPPLCP)
2559 {
2560 session[s].last_packet = time_now;
2561 if (!config->cluster_iam_master) { master_forward_packet(buf, len, addr->sin_addr.s_addr, addr->sin_port); return; }
2562 processlcp(s, t, p, l);
2563 }
2564 else if (proto == PPPIPCP)
2565 {
2566 session[s].last_packet = time_now;
2567 if (!config->cluster_iam_master) { master_forward_packet(buf, len, addr->sin_addr.s_addr, addr->sin_port); return; }
2568 processipcp(s, t, p, l);
2569 }
2570 else if (proto == PPPIPV6CP && config->ipv6_prefix.s6_addr[0])
2571 {
2572 session[s].last_packet = time_now;
2573 if (!config->cluster_iam_master) { master_forward_packet(buf, len, addr->sin_addr.s_addr, addr->sin_port); return; }
2574 processipv6cp(s, t, p, l);
2575 }
2576 else if (proto == PPPCCP)
2577 {
2578 session[s].last_packet = time_now;
2579 if (!config->cluster_iam_master) { master_forward_packet(buf, len, addr->sin_addr.s_addr, addr->sin_port); return; }
2580 processccp(s, t, p, l);
2581 }
2582 else if (proto == PPPIP)
2583 {
2584 if (session[s].die)
2585 {
2586 LOG(4, s, t, "Session %d is closing. Don't process PPP packets\n", s);
2587 return; // closing session, PPP not processed
2588 }
2589
2590 session[s].last_packet = time_now;
2591 if (session[s].walled_garden && !config->cluster_iam_master)
2592 {
2593 master_forward_packet(buf, len, addr->sin_addr.s_addr, addr->sin_port);
2594 return;
2595 }
2596
2597 processipin(s, t, p, l);
2598 }
2599 else if (proto == PPPIPV6 && config->ipv6_prefix.s6_addr[0])
2600 {
2601 if (session[s].die)
2602 {
2603 LOG(4, s, t, "Session %d is closing. Don't process PPP packets\n", s);
2604 return; // closing session, PPP not processed
2605 }
2606
2607 session[s].last_packet = time_now;
2608 if (session[s].walled_garden && !config->cluster_iam_master)
2609 {
2610 master_forward_packet(buf, len, addr->sin_addr.s_addr, addr->sin_port);
2611 return;
2612 }
2613
2614 processipv6in(s, t, p, l);
2615 }
2616 else if (session[s].ppp.lcp == Opened)
2617 {
2618 uint8_t buf[MAXETHER];
2619 uint8_t *q;
2620 int mru = session[s].mru;
2621 if (mru > sizeof(buf)) mru = sizeof(buf);
2622
2623 l += 6;
2624 if (l > mru) l = mru;
2625
2626 q = makeppp(buf, sizeof(buf), 0, 0, s, t, PPPLCP);
2627 if (!q) return;
2628
2629 *q = ProtocolRej;
2630 *(q + 1) = ++sess_local[s].lcp_ident;
2631 *(uint16_t *)(q + 2) = htons(l);
2632 *(uint16_t *)(q + 4) = htons(proto);
2633 memcpy(q + 6, p, l - 6);
2634
2635 if (proto == PPPIPV6CP)
2636 LOG(3, s, t, "LCP: send ProtocolRej (IPV6CP: not configured)\n");
2637 else
2638 LOG(2, s, t, "LCP: sent ProtocolRej (0x%04X: unsupported)\n", proto);
2639
2640 tunnelsend(buf, l + (q - buf), t);
2641 }
2642 else
2643 {
2644 LOG(2, s, t, "Unknown PPP protocol 0x%04X received in LCP %s state\n",
2645 proto, ppp_state(session[s].ppp.lcp));
2646 }
2647 }
2648 }
2649
2650 // read and process packet on tun
2651 static void processtun(uint8_t * buf, int len)
2652 {
2653 LOG_HEX(5, "Receive TUN Data", buf, len);
2654 STAT(tun_rx_packets);
2655 INC_STAT(tun_rx_bytes, len);
2656
2657 CSTAT(processtun);
2658
2659 eth_rx_pkt++;
2660 eth_rx += len;
2661 if (len < 22)
2662 {
2663 LOG(1, 0, 0, "Short tun packet %d bytes\n", len);
2664 STAT(tun_rx_errors);
2665 return;
2666 }
2667
2668 if (*(uint16_t *) (buf + 2) == htons(PKTIP)) // IPv4
2669 processipout(buf, len);
2670 else if (*(uint16_t *) (buf + 2) == htons(PKTIPV6) // IPV6
2671 && config->ipv6_prefix.s6_addr[0])
2672 processipv6out(buf, len);
2673
2674 // Else discard.
2675 }
2676
2677 // Handle retries, timeouts. Runs every 1/10th sec, want to ensure
2678 // that we look at the whole of the tunnel, radius and session tables
2679 // every second
2680 static void regular_cleanups(double period)
2681 {
2682 // Next tunnel, radius and session to check for actions on.
2683 static tunnelidt t = 0;
2684 static int r = 0;
2685 static sessionidt s = 0;
2686
2687 int t_actions = 0;
2688 int r_actions = 0;
2689 int s_actions = 0;
2690
2691 int t_slice;
2692 int r_slice;
2693 int s_slice;
2694
2695 int i;
2696 int a;
2697
2698 // divide up tables into slices based on the last run
2699 t_slice = config->cluster_highest_tunnelid * period;
2700 r_slice = (MAXRADIUS - 1) * period;
2701 s_slice = config->cluster_highest_sessionid * period;
2702
2703 if (t_slice < 1)
2704 t_slice = 1;
2705 else if (t_slice > config->cluster_highest_tunnelid)
2706 t_slice = config->cluster_highest_tunnelid;
2707
2708 if (r_slice < 1)
2709 r_slice = 1;
2710 else if (r_slice > (MAXRADIUS - 1))
2711 r_slice = MAXRADIUS - 1;
2712
2713 if (s_slice < 1)
2714 s_slice = 1;
2715 else if (s_slice > config->cluster_highest_sessionid)
2716 s_slice = config->cluster_highest_sessionid;
2717
2718 LOG(4, 0, 0, "Begin regular cleanup (last %f seconds ago)\n", period);
2719
2720 for (i = 0; i < t_slice; i++)
2721 {
2722 t++;
2723 if (t > config->cluster_highest_tunnelid)
2724 t = 1;
2725
2726 // check for expired tunnels
2727 if (tunnel[t].die && tunnel[t].die <= TIME)
2728 {
2729 STAT(tunnel_timeout);
2730 tunnelkill(t, "Expired");
2731 t_actions++;
2732 continue;
2733 }
2734 // check for message resend
2735 if (tunnel[t].retry && tunnel[t].controlc)
2736 {
2737 // resend pending messages as timeout on reply
2738 if (tunnel[t].retry <= TIME)
2739 {
2740 controlt *c = tunnel[t].controls;
2741 uint8_t w = tunnel[t].window;
2742 tunnel[t].try++; // another try
2743 if (tunnel[t].try > 5)
2744 tunnelkill(t, "Timeout on control message"); // game over
2745 else
2746 while (c && w--)
2747 {
2748 tunnelsend(c->buf, c->length, t);
2749 c = c->next;
2750 }
2751
2752 t_actions++;
2753 }
2754 }
2755 // Send hello
2756 if (tunnel[t].state == TUNNELOPEN && !tunnel[t].controlc && (time_now - tunnel[t].lastrec) > 60)
2757 {
2758 controlt *c = controlnew(6); // sending HELLO
2759 controladd(c, 0, t); // send the message
2760 LOG(3, 0, t, "Sending HELLO message\n");
2761 t_actions++;
2762 }
2763
2764 // Check for tunnel changes requested from the CLI
2765 if ((a = cli_tunnel_actions[t].action))
2766 {
2767 cli_tunnel_actions[t].action = 0;
2768 if (a & CLI_TUN_KILL)
2769 {
2770 LOG(2, 0, t, "Dropping tunnel by CLI\n");
2771 tunnelshutdown(t, "Requested by administrator", 1, 0, 0);
2772 t_actions++;
2773 }
2774 }
2775 }
2776
2777 for (i = 0; i < r_slice; i++)
2778 {
2779 r++;
2780 if (r >= MAXRADIUS)
2781 r = 1;
2782
2783 if (!radius[r].state)
2784 continue;
2785
2786 if (radius[r].retry <= TIME)
2787 {
2788 radiusretry(r);
2789 r_actions++;
2790 }
2791 }
2792
2793 for (i = 0; i < s_slice; i++)
2794 {
2795 s++;
2796 if (s > config->cluster_highest_sessionid)
2797 s = 1;
2798
2799 if (!session[s].opened) // Session isn't in use
2800 continue;
2801
2802 // check for expired sessions
2803 if (session[s].die)
2804 {
2805 if (session[s].die <= TIME)
2806 {
2807 sessionkill(s, "Expired");
2808 s_actions++;
2809 }
2810 continue;
2811 }
2812
2813 // PPP timeouts
2814 if (sess_local[s].lcp.restart <= time_now)
2815 {
2816 int next_state = session[s].ppp.lcp;
2817 switch (session[s].ppp.lcp)
2818 {
2819 case RequestSent:
2820 case AckReceived:
2821 next_state = RequestSent;
2822
2823 case AckSent:
2824 if (sess_local[s].lcp.conf_sent < config->ppp_max_configure)
2825 {
2826 LOG(3, s, session[s].tunnel, "No ACK for LCP ConfigReq... resending\n");
2827 sendlcp(s, session[s].tunnel);
2828 change_state(s, lcp, next_state);
2829 }
2830 else
2831 {
2832 sessionshutdown(s, "No response to LCP ConfigReq.", 3, 0);
2833 STAT(session_timeout);
2834 }
2835
2836 s_actions++;
2837 }
2838
2839 if (session[s].die)
2840 continue;
2841 }
2842
2843 if (sess_local[s].ipcp.restart <= time_now)
2844 {
2845 int next_state = session[s].ppp.ipcp;
2846 switch (session[s].ppp.ipcp)
2847 {
2848 case RequestSent:
2849 case AckReceived:
2850 next_state = RequestSent;
2851
2852 case AckSent:
2853 if (sess_local[s].ipcp.conf_sent < config->ppp_max_configure)
2854 {
2855 LOG(3, s, session[s].tunnel, "No ACK for IPCP ConfigReq... resending\n");
2856 sendipcp(s, session[s].tunnel);
2857 change_state(s, ipcp, next_state);
2858 }
2859 else
2860 {
2861 sessionshutdown(s, "No response to IPCP ConfigReq.", 3, 0);
2862 STAT(session_timeout);
2863 }
2864
2865 s_actions++;
2866 }
2867
2868 if (session[s].die)
2869 continue;
2870 }
2871
2872 if (sess_local[s].ipv6cp.restart <= time_now)
2873 {
2874 int next_state = session[s].ppp.ipv6cp;
2875 switch (session[s].ppp.ipv6cp)
2876 {
2877 case RequestSent:
2878 case AckReceived:
2879 next_state = RequestSent;
2880
2881 case AckSent:
2882 if (sess_local[s].ipv6cp.conf_sent < config->ppp_max_configure)
2883 {
2884 LOG(3, s, session[s].tunnel, "No ACK for IPV6CP ConfigReq... resending\n");
2885 sendipv6cp(s, session[s].tunnel);
2886 change_state(s, ipv6cp, next_state);
2887 }
2888 else
2889 {
2890 LOG(3, s, session[s].tunnel, "No ACK for IPV6CP ConfigReq\n");
2891 change_state(s, ipv6cp, Stopped);
2892 }
2893
2894 s_actions++;
2895 }
2896 }
2897
2898 if (sess_local[s].ccp.restart <= time_now)
2899 {
2900 int next_state = session[s].ppp.ccp;
2901 switch (session[s].ppp.ccp)
2902 {
2903 case RequestSent:
2904 case AckReceived:
2905 next_state = RequestSent;
2906
2907 case AckSent:
2908 if (sess_local[s].ccp.conf_sent < config->ppp_max_configure)
2909 {
2910 LOG(3, s, session[s].tunnel, "No ACK for CCP ConfigReq... resending\n");
2911 sendccp(s, session[s].tunnel);
2912 change_state(s, ccp, next_state);
2913 }
2914 else
2915 {
2916 LOG(3, s, session[s].tunnel, "No ACK for CCP ConfigReq\n");
2917 change_state(s, ccp, Stopped);
2918 }
2919
2920 s_actions++;
2921 }
2922 }
2923
2924 // Drop sessions who have not responded within IDLE_TIMEOUT seconds
2925 if (session[s].last_packet && (time_now - session[s].last_packet >= IDLE_TIMEOUT))
2926 {
2927 sessionshutdown(s, "No response to LCP ECHO requests.", 3, 0);
2928 STAT(session_timeout);
2929 s_actions++;
2930 continue;
2931 }
2932
2933 // No data in ECHO_TIMEOUT seconds, send LCP ECHO
2934 if (session[s].ppp.phase >= Establish && (time_now - session[s].last_packet >= ECHO_TIMEOUT) &&
2935 (time_now - sess_local[s].last_echo >= ECHO_TIMEOUT))
2936 {
2937 uint8_t b[MAXETHER];
2938
2939 uint8_t *q = makeppp(b, sizeof(b), 0, 0, s, session[s].tunnel, PPPLCP);
2940 if (!q) continue;
2941
2942 *q = EchoReq;
2943 *(uint8_t *)(q + 1) = (time_now % 255); // ID
2944 *(uint16_t *)(q + 2) = htons(8); // Length
2945 *(uint32_t *)(q + 4) = 0; // Magic Number (not supported)
2946
2947 LOG(4, s, session[s].tunnel, "No data in %d seconds, sending LCP ECHO\n",
2948 (int)(time_now - session[s].last_packet));
2949 tunnelsend(b, 24, session[s].tunnel); // send it
2950 sess_local[s].last_echo = time_now;
2951 s_actions++;
2952 }
2953
2954 // Check for actions requested from the CLI
2955 if ((a = cli_session_actions[s].action))
2956 {
2957 int send = 0;
2958
2959 cli_session_actions[s].action = 0;
2960 if (a & CLI_SESS_KILL)
2961 {
2962 LOG(2, s, session[s].tunnel, "Dropping session by CLI\n");
2963 sessionshutdown(s, "Requested by administrator.", 3, 0);
2964 a = 0; // dead, no need to check for other actions
2965 s_actions++;
2966 }
2967
2968 if (a & CLI_SESS_NOSNOOP)
2969 {
2970 LOG(2, s, session[s].tunnel, "Unsnooping session by CLI\n");
2971 session[s].snoop_ip = 0;
2972 session[s].snoop_port = 0;
2973 s_actions++;
2974 send++;
2975 }
2976 else if (a & CLI_SESS_SNOOP)
2977 {
2978 LOG(2, s, session[s].tunnel, "Snooping session by CLI (to %s:%d)\n",
2979 fmtaddr(cli_session_actions[s].snoop_ip, 0),
2980 cli_session_actions[s].snoop_port);
2981
2982 session[s].snoop_ip = cli_session_actions[s].snoop_ip;
2983 session[s].snoop_port = cli_session_actions[s].snoop_port;
2984 s_actions++;
2985 send++;
2986 }
2987
2988 if (a & CLI_SESS_NOTHROTTLE)
2989 {
2990 LOG(2, s, session[s].tunnel, "Un-throttling session by CLI\n");
2991 throttle_session(s, 0, 0);
2992 s_actions++;
2993 send++;
2994 }
2995 else if (a & CLI_SESS_THROTTLE)
2996 {
2997 LOG(2, s, session[s].tunnel, "Throttling session by CLI (to %dkb/s up and %dkb/s down)\n",
2998 cli_session_actions[s].throttle_in,
2999 cli_session_actions[s].throttle_out);
3000
3001 throttle_session(s, cli_session_actions[s].throttle_in, cli_session_actions[s].throttle_out);
3002 s_actions++;
3003 send++;
3004 }
3005
3006 if (a & CLI_SESS_NOFILTER)
3007 {
3008 LOG(2, s, session[s].tunnel, "Un-filtering session by CLI\n");
3009 filter_session(s, 0, 0);
3010 s_actions++;
3011 send++;
3012 }
3013 else if (a & CLI_SESS_FILTER)
3014 {
3015 LOG(2, s, session[s].tunnel, "Filtering session by CLI (in=%d, out=%d)\n",
3016 cli_session_actions[s].filter_in,
3017 cli_session_actions[s].filter_out);
3018
3019 filter_session(s, cli_session_actions[s].filter_in, cli_session_actions[s].filter_out);
3020 s_actions++;
3021 send++;
3022 }
3023
3024 if (send)
3025 cluster_send_session(s);
3026 }
3027
3028 // RADIUS interim accounting
3029 if (config->radius_accounting && config->radius_interim > 0
3030 && session[s].ip && !session[s].walled_garden
3031 && !sess_local[s].radius // RADIUS already in progress
3032 && time_now - sess_local[s].last_interim >= config->radius_interim)
3033 {
3034 int rad = radiusnew(s);
3035 if (!rad)
3036 {
3037 LOG(1, s, session[s].tunnel, "No free RADIUS sessions for Interim message\n");
3038 STAT(radius_overflow);
3039 continue;
3040 }
3041
3042 LOG(3, s, session[s].tunnel, "Sending RADIUS Interim for %s (%u)\n",
3043 session[s].user, session[s].unique_id);
3044
3045 radiussend(rad, RADIUSINTERIM);
3046 sess_local[s].last_interim = time_now;
3047 s_actions++;
3048 }
3049 }
3050
3051 LOG(4, 0, 0, "End regular cleanup: checked %d/%d/%d tunnels/radius/sessions; %d/%d/%d actions\n",
3052 t_slice, r_slice, s_slice, t_actions, r_actions, s_actions);
3053 }
3054
3055 //
3056 // Are we in the middle of a tunnel update, or radius
3057 // requests??
3058 //
3059 static int still_busy(void)
3060 {
3061 int i;
3062 static clockt last_talked = 0;
3063 static clockt start_busy_wait = 0;
3064
3065 if (!config->cluster_iam_master)
3066 {
3067 #ifdef BGP
3068 static time_t stopped_bgp = 0;
3069 if (bgp_configured)
3070 {
3071 if (!stopped_bgp)
3072 {
3073 LOG(1, 0, 0, "Shutting down in %d seconds, stopping BGP...\n", QUIT_DELAY);
3074
3075 for (i = 0; i < BGP_NUM_PEERS; i++)
3076 if (bgp_peers[i].state == Established)
3077 bgp_stop(&bgp_peers[i]);
3078
3079 stopped_bgp = time_now;
3080
3081 // we don't want to become master
3082 cluster_send_ping(0);
3083
3084 return 1;
3085 }
3086
3087 if (time_now < (stopped_bgp + QUIT_DELAY))
3088 return 1;
3089 }
3090 #endif /* BGP */
3091
3092 return 0;
3093 }
3094
3095 if (main_quit == QUIT_SHUTDOWN)
3096 {
3097 static int dropped = 0;
3098 if (!dropped)
3099 {
3100 int i;
3101
3102 LOG(1, 0, 0, "Dropping sessions and tunnels\n");
3103 for (i = 1; i < MAXTUNNEL; i++)
3104 if (tunnel[i].ip || tunnel[i].state)
3105 tunnelshutdown(i, "L2TPNS Closing", 6, 0, 0);
3106
3107 dropped = 1;
3108 }
3109 }
3110
3111 if (start_busy_wait == 0)
3112 start_busy_wait = TIME;
3113
3114 for (i = config->cluster_highest_tunnelid ; i > 0 ; --i)
3115 {
3116 if (!tunnel[i].controlc)
3117 continue;
3118
3119 if (last_talked != TIME)
3120 {
3121 LOG(2, 0, 0, "Tunnel %d still has un-acked control messages.\n", i);
3122 last_talked = TIME;
3123 }
3124 return 1;
3125 }
3126
3127 // We stop waiting for radius after BUSY_WAIT_TIME 1/10th seconds
3128 if (abs(TIME - start_busy_wait) > BUSY_WAIT_TIME)
3129 {
3130 LOG(1, 0, 0, "Giving up waiting for RADIUS to be empty. Shutting down anyway.\n");
3131 return 0;
3132 }
3133
3134 for (i = 1; i < MAXRADIUS; i++)
3135 {
3136 if (radius[i].state == RADIUSNULL)
3137 continue;
3138 if (radius[i].state == RADIUSWAIT)
3139 continue;
3140
3141 if (last_talked != TIME)
3142 {
3143 LOG(2, 0, 0, "Radius session %d is still busy (sid %d)\n", i, radius[i].session);
3144 last_talked = TIME;
3145 }
3146 return 1;
3147 }
3148
3149 return 0;
3150 }
3151
3152 #ifdef HAVE_EPOLL
3153 # include <sys/epoll.h>
3154 #else
3155 # define FAKE_EPOLL_IMPLEMENTATION /* include the functions */
3156 # include "fake_epoll.h"
3157 #endif
3158
3159 // the base set of fds polled: cli, cluster, tun, udp, control, dae
3160 #define BASE_FDS 6
3161
3162 // additional polled fds
3163 #ifdef BGP
3164 # define EXTRA_FDS BGP_NUM_PEERS
3165 #else
3166 # define EXTRA_FDS 0
3167 #endif
3168
3169 // main loop - gets packets on tun or udp and processes them
3170 static void mainloop(void)
3171 {
3172 int i;
3173 uint8_t buf[65536];
3174 clockt next_cluster_ping = 0; // send initial ping immediately
3175 struct epoll_event events[BASE_FDS + RADIUS_FDS + EXTRA_FDS];
3176 int maxevent = sizeof(events)/sizeof(*events);
3177
3178 if ((epollfd = epoll_create(maxevent)) < 0)
3179 {
3180 LOG(0, 0, 0, "epoll_create failed: %s\n", strerror(errno));
3181 exit(1);
3182 }
3183
3184 LOG(4, 0, 0, "Beginning of main loop. clifd=%d, cluster_sockfd=%d, tunfd=%d, udpfd=%d, controlfd=%d, daefd=%d\n",
3185 clifd, cluster_sockfd, tunfd, udpfd, controlfd, daefd);
3186
3187 /* setup our fds to poll for input */
3188 {
3189 static struct event_data d[BASE_FDS];
3190 struct epoll_event e;
3191
3192 e.events = EPOLLIN;
3193 i = 0;
3194
3195 d[i].type = FD_TYPE_CLI;
3196 e.data.ptr = &d[i++];
3197 epoll_ctl(epollfd, EPOLL_CTL_ADD, clifd, &e);
3198
3199 d[i].type = FD_TYPE_CLUSTER;
3200 e.data.ptr = &d[i++];
3201 epoll_ctl(epollfd, EPOLL_CTL_ADD, cluster_sockfd, &e);
3202
3203 d[i].type = FD_TYPE_TUN;
3204 e.data.ptr = &d[i++];
3205 epoll_ctl(epollfd, EPOLL_CTL_ADD, tunfd, &e);
3206
3207 d[i].type = FD_TYPE_UDP;
3208 e.data.ptr = &d[i++];
3209 epoll_ctl(epollfd, EPOLL_CTL_ADD, udpfd, &e);
3210
3211 d[i].type = FD_TYPE_CONTROL;
3212 e.data.ptr = &d[i++];
3213 epoll_ctl(epollfd, EPOLL_CTL_ADD, controlfd, &e);
3214
3215 d[i].type = FD_TYPE_DAE;
3216 e.data.ptr = &d[i++];
3217 epoll_ctl(epollfd, EPOLL_CTL_ADD, daefd, &e);
3218 }
3219
3220 #ifdef BGP
3221 signal(SIGPIPE, SIG_IGN);
3222 bgp_setup(config->as_number);
3223 if (config->bind_address)
3224 bgp_add_route(config->bind_address, 0xffffffff);
3225
3226 for (i = 0; i < BGP_NUM_PEERS; i++)
3227 {
3228 if (config->neighbour[i].name[0])
3229 bgp_start(&bgp_peers[i], config->neighbour[i].name,
3230 config->neighbour[i].as, config->neighbour[i].keepalive,
3231 config->neighbour[i].hold, 0); /* 0 = routing disabled */
3232 }
3233 #endif /* BGP */
3234
3235 while (!main_quit || still_busy())
3236 {
3237 int more = 0;
3238 int n;
3239
3240
3241 if (main_reload)
3242 {
3243 main_reload = 0;
3244 read_config_file();
3245 config->reload_config++;
3246 }
3247
3248 if (config->reload_config)
3249 {
3250 config->reload_config = 0;
3251 update_config();
3252 }
3253
3254 #ifdef BGP
3255 bgp_set_poll();
3256 #endif /* BGP */
3257
3258 n = epoll_wait(epollfd, events, maxevent, 100); // timeout 100ms (1/10th sec)
3259 STAT(select_called);
3260
3261 TIME = now(NULL);
3262 if (n < 0)
3263 {
3264 if (errno == EINTR ||
3265 errno == ECHILD) // EINTR was clobbered by sigchild_handler()
3266 continue;
3267
3268 LOG(0, 0, 0, "Error returned from select(): %s\n", strerror(errno));
3269 break; // exit
3270 }
3271
3272 if (n)
3273 {
3274 struct sockaddr_in addr;
3275 socklen_t alen;
3276 int c, s;
3277 int udp_ready = 0;
3278 int tun_ready = 0;
3279 int cluster_ready = 0;
3280 int udp_pkts = 0;
3281 int tun_pkts = 0;
3282 int cluster_pkts = 0;
3283 #ifdef BGP
3284 uint32_t bgp_events[BGP_NUM_PEERS];
3285 memset(bgp_events, 0, sizeof(bgp_events));
3286 #endif /* BGP */
3287
3288 for (c = n, i = 0; i < c; i++)
3289 {
3290 struct event_data *d = events[i].data.ptr;
3291 switch (d->type)
3292 {
3293 case FD_TYPE_CLI: // CLI connections
3294 {
3295 int cli;
3296
3297 alen = sizeof(addr);
3298 if ((cli = accept(clifd, (struct sockaddr *)&addr, &alen)) >= 0)
3299 {
3300 cli_do(cli);
3301 close(cli);
3302 }
3303 else
3304 LOG(0, 0, 0, "accept error: %s\n", strerror(errno));
3305
3306 n--;
3307 break;
3308 }
3309
3310 // these are handled below, with multiple interleaved reads
3311 case FD_TYPE_CLUSTER: cluster_ready++; break;
3312 case FD_TYPE_TUN: tun_ready++; break;
3313 case FD_TYPE_UDP: udp_ready++; break;
3314
3315 case FD_TYPE_CONTROL: // nsctl commands
3316 alen = sizeof(addr);
3317 processcontrol(buf, recvfrom(controlfd, buf, sizeof(buf), MSG_WAITALL, (void *) &addr, &alen), &addr, alen);
3318 n--;
3319 break;
3320
3321 case FD_TYPE_DAE: // DAE requests
3322 alen = sizeof(addr);
3323 processdae(buf, recvfrom(daefd, buf, sizeof(buf), MSG_WAITALL, (void *) &addr, &alen), &addr, alen);
3324 n--;
3325 break;
3326
3327 case FD_TYPE_RADIUS: // RADIUS response
3328 s = recv(radfds[d->index], buf, sizeof(buf), 0);
3329 if (s >= 0 && config->cluster_iam_master)
3330 processrad(buf, s, d->index);
3331
3332 n--;
3333 break;
3334
3335 #ifdef BGP
3336 case FD_TYPE_BGP:
3337 bgp_events[d->index] = events[i].events;
3338 n--;
3339 break;
3340 #endif /* BGP */
3341
3342 default:
3343 LOG(0, 0, 0, "Unexpected fd type returned from epoll_wait: %d\n", d->type);
3344 }
3345 }
3346
3347 #ifdef BGP
3348 bgp_process(bgp_events);
3349 #endif /* BGP */
3350
3351 for (c = 0; n && c < config->multi_read_count; c++)
3352 {
3353 // L2TP
3354 if (udp_ready)
3355 {
3356 alen = sizeof(addr);
3357 if ((s = recvfrom(udpfd, buf, sizeof(buf), 0, (void *) &addr, &alen)) > 0)
3358 {
3359 processudp(buf, s, &addr);
3360 udp_pkts++;
3361 }
3362 else
3363 {
3364 udp_ready = 0;
3365 n--;
3366 }
3367 }
3368
3369 // incoming IP
3370 if (tun_ready)
3371 {
3372 if ((s = read(tunfd, buf, sizeof(buf))) > 0)
3373 {
3374 processtun(buf, s);
3375 tun_pkts++;
3376 }
3377 else
3378 {
3379 tun_ready = 0;
3380 n--;
3381 }
3382 }
3383
3384 // cluster
3385 if (cluster_ready)
3386 {
3387 alen = sizeof(addr);
3388 if ((s = recvfrom(cluster_sockfd, buf, sizeof(buf), MSG_WAITALL, (void *) &addr, &alen)) > 0)
3389 {
3390 processcluster(buf, s, addr.sin_addr.s_addr);
3391 cluster_pkts++;
3392 }
3393 else
3394 {
3395 cluster_ready = 0;
3396 n--;
3397 }
3398 }
3399 }
3400
3401 if (udp_pkts > 1 || tun_pkts > 1 || cluster_pkts > 1)
3402 STAT(multi_read_used);
3403
3404 if (c >= config->multi_read_count)
3405 {
3406 LOG(3, 0, 0, "Reached multi_read_count (%d); processed %d udp, %d tun and %d cluster packets\n",
3407 config->multi_read_count, udp_pkts, tun_pkts, cluster_pkts);
3408
3409 STAT(multi_read_exceeded);
3410 more++;
3411 }
3412 }
3413
3414 if (time_changed)
3415 {
3416 double Mbps = 1024.0 * 1024.0 / 8 * time_changed;
3417
3418 // Log current traffic stats
3419 snprintf(config->bandwidth, sizeof(config->bandwidth),
3420 "UDP-ETH:%1.0f/%1.0f ETH-UDP:%1.0f/%1.0f TOTAL:%0.1f IN:%u OUT:%u",
3421 (udp_rx / Mbps), (eth_tx / Mbps), (eth_rx / Mbps), (udp_tx / Mbps),
3422 ((udp_tx + udp_rx + eth_tx + eth_rx) / Mbps),
3423 udp_rx_pkt / time_changed, eth_rx_pkt / time_changed);
3424
3425 udp_tx = udp_rx = 0;
3426 udp_rx_pkt = eth_rx_pkt = 0;
3427 eth_tx = eth_rx = 0;
3428 time_changed = 0;
3429
3430 if (config->dump_speed)
3431 printf("%s\n", config->bandwidth);
3432
3433 // Update the internal time counter
3434 strftime(time_now_string, sizeof(time_now_string), "%Y-%m-%d %H:%M:%S", localtime(&time_now));
3435
3436 {
3437 // Run timer hooks
3438 struct param_timer p = { time_now };
3439 run_plugins(PLUGIN_TIMER, &p);
3440 }
3441 }
3442
3443 // Runs on every machine (master and slaves).
3444 if (next_cluster_ping <= TIME)
3445 {
3446 // Check to see which of the cluster is still alive..
3447
3448 cluster_send_ping(basetime); // Only does anything if we're a slave
3449 cluster_check_master(); // ditto.
3450
3451 cluster_heartbeat(); // Only does anything if we're a master.
3452 cluster_check_slaves(); // ditto.
3453
3454 master_update_counts(); // If we're a slave, send our byte counters to our master.
3455
3456 if (config->cluster_iam_master && !config->cluster_iam_uptodate)
3457 next_cluster_ping = TIME + 1; // out-of-date slaves, do fast updates
3458 else
3459 next_cluster_ping = TIME + config->cluster_hb_interval;
3460 }
3461
3462 if (!config->cluster_iam_master)
3463 continue;
3464
3465 // Run token bucket filtering queue..
3466 // Only run it every 1/10th of a second.
3467 {
3468 static clockt last_run = 0;
3469 if (last_run != TIME)
3470 {
3471 last_run = TIME;
3472 tbf_run_timer();
3473 }
3474 }
3475
3476 // Handle timeouts, retries etc.
3477 {
3478 static double last_clean = 0;
3479 double this_clean;
3480 double diff;
3481
3482 TIME = now(&this_clean);
3483 diff = this_clean - last_clean;
3484
3485 // Run during idle time (after we've handled
3486 // all incoming packets) or every 1/10th sec
3487 if (!more || diff > 0.1)
3488 {
3489 regular_cleanups(diff);
3490 last_clean = this_clean;
3491 }
3492 }
3493
3494 if (*config->accounting_dir)
3495 {
3496 static clockt next_acct = 0;
3497 static clockt next_shut_acct = 0;
3498
3499 if (next_acct <= TIME)
3500 {
3501 // Dump accounting data
3502 next_acct = TIME + ACCT_TIME;
3503 next_shut_acct = TIME + ACCT_SHUT_TIME;
3504 dump_acct_info(1);
3505 }
3506 else if (next_shut_acct <= TIME)
3507 {
3508 // Dump accounting data for shutdown sessions
3509 next_shut_acct = TIME + ACCT_SHUT_TIME;
3510 if (shut_acct_n)
3511 dump_acct_info(0);
3512 }
3513 }
3514 }
3515
3516 // Are we the master and shutting down??
3517 if (config->cluster_iam_master)
3518 cluster_heartbeat(); // Flush any queued changes..
3519
3520 // Ok. Notify everyone we're shutting down. If we're
3521 // the master, this will force an election.
3522 cluster_send_ping(0);
3523
3524 //
3525 // Important!!! We MUST not process any packets past this point!
3526 LOG(1, 0, 0, "Shutdown complete\n");
3527 }
3528
3529 static void stripdomain(char *host)
3530 {
3531 char *p;
3532
3533 if ((p = strchr(host, '.')))
3534 {
3535 char *domain = 0;
3536 char _domain[1024];
3537
3538 // strip off domain
3539 FILE *resolv = fopen("/etc/resolv.conf", "r");
3540 if (resolv)
3541 {
3542 char buf[1024];
3543 char *b;
3544
3545 while (fgets(buf, sizeof(buf), resolv))
3546 {
3547 if (strncmp(buf, "domain", 6) && strncmp(buf, "search", 6))
3548 continue;
3549
3550 if (!isspace(buf[6]))
3551 continue;
3552
3553 b = buf + 7;
3554 while (isspace(*b)) b++;
3555
3556 if (*b)
3557 {
3558 char *d = b;
3559 while (*b && !isspace(*b)) b++;
3560 *b = 0;
3561 if (buf[0] == 'd') // domain is canonical
3562 {
3563 domain = d;
3564 break;
3565 }
3566
3567 // first search line
3568 if (!domain)
3569 {
3570 // hold, may be subsequent domain line
3571 strncpy(_domain, d, sizeof(_domain))[sizeof(_domain)-1] = 0;
3572 domain = _domain;
3573 }
3574 }
3575 }
3576
3577 fclose(resolv);
3578 }
3579
3580 if (domain)
3581 {
3582 int hl = strlen(host);
3583 int dl = strlen(domain);
3584 if (dl < hl && host[hl - dl - 1] == '.' && !strcmp(host + hl - dl, domain))
3585 host[hl -dl - 1] = 0;
3586 }
3587 else
3588 {
3589 *p = 0; // everything after first dot
3590 }
3591 }
3592 }
3593
3594 // Init data structures
3595 static void initdata(int optdebug, char *optconfig)
3596 {
3597 int i;
3598
3599 if (!(config = shared_malloc(sizeof(configt))))
3600 {
3601 fprintf(stderr, "Error doing malloc for configuration: %s\n", strerror(errno));
3602 exit(1);
3603 }
3604
3605 memset(config, 0, sizeof(configt));
3606 time(&config->start_time);
3607 strncpy(config->config_file, optconfig, strlen(optconfig));
3608 config->debug = optdebug;
3609 config->num_tbfs = MAXTBFS;
3610 config->rl_rate = 28; // 28kbps
3611 config->cluster_mcast_ttl = 1;
3612 config->cluster_master_min_adv = 1;
3613 config->ppp_restart_time = 3;
3614 config->ppp_max_configure = 10;
3615 config->ppp_max_failure = 5;
3616 strcpy(config->random_device, RANDOMDEVICE);
3617
3618 log_stream = stderr;
3619
3620 #ifdef RINGBUFFER
3621 if (!(ringbuffer = shared_malloc(sizeof(struct Tringbuffer))))
3622 {
3623 LOG(0, 0, 0, "Error doing malloc for ringbuffer: %s\n", strerror(errno));
3624 exit(1);
3625 }
3626 memset(ringbuffer, 0, sizeof(struct Tringbuffer));
3627 #endif
3628
3629 if (!(_statistics = shared_malloc(sizeof(struct Tstats))))
3630 {
3631 LOG(0, 0, 0, "Error doing malloc for _statistics: %s\n", strerror(errno));
3632 exit(1);
3633 }
3634 if (!(tunnel = shared_malloc(sizeof(tunnelt) * MAXTUNNEL)))
3635 {
3636 LOG(0, 0, 0, "Error doing malloc for tunnels: %s\n", strerror(errno));
3637 exit(1);
3638 }
3639 if (!(session = shared_malloc(sizeof(sessiont) * MAXSESSION)))
3640 {
3641 LOG(0, 0, 0, "Error doing malloc for sessions: %s\n", strerror(errno));
3642 exit(1);
3643 }
3644
3645 if (!(sess_local = shared_malloc(sizeof(sessionlocalt) * MAXSESSION)))
3646 {
3647 LOG(0, 0, 0, "Error doing malloc for sess_local: %s\n", strerror(errno));
3648 exit(1);
3649 }
3650
3651 if (!(radius = shared_malloc(sizeof(radiust) * MAXRADIUS)))
3652 {
3653 LOG(0, 0, 0, "Error doing malloc for radius: %s\n", strerror(errno));
3654 exit(1);
3655 }
3656
3657 if (!(ip_address_pool = shared_malloc(sizeof(ippoolt) * MAXIPPOOL)))
3658 {
3659 LOG(0, 0, 0, "Error doing malloc for ip_address_pool: %s\n", strerror(errno));
3660 exit(1);
3661 }
3662
3663 if (!(ip_filters = shared_malloc(sizeof(ip_filtert) * MAXFILTER)))
3664 {
3665 LOG(0, 0, 0, "Error doing malloc for ip_filters: %s\n", strerror(errno));
3666 exit(1);
3667 }
3668 memset(ip_filters, 0, sizeof(ip_filtert) * MAXFILTER);
3669
3670 if (!(cli_session_actions = shared_malloc(sizeof(struct cli_session_actions) * MAXSESSION)))
3671 {
3672 LOG(0, 0, 0, "Error doing malloc for cli session actions: %s\n", strerror(errno));
3673 exit(1);
3674 }
3675 memset(cli_session_actions, 0, sizeof(struct cli_session_actions) * MAXSESSION);
3676
3677 if (!(cli_tunnel_actions = shared_malloc(sizeof(struct cli_tunnel_actions) * MAXSESSION)))
3678 {
3679 LOG(0, 0, 0, "Error doing malloc for cli tunnel actions: %s\n", strerror(errno));
3680 exit(1);
3681 }
3682 memset(cli_tunnel_actions, 0, sizeof(struct cli_tunnel_actions) * MAXSESSION);
3683
3684 memset(tunnel, 0, sizeof(tunnelt) * MAXTUNNEL);
3685 memset(session, 0, sizeof(sessiont) * MAXSESSION);
3686 memset(radius, 0, sizeof(radiust) * MAXRADIUS);
3687 memset(ip_address_pool, 0, sizeof(ippoolt) * MAXIPPOOL);
3688
3689 // Put all the sessions on the free list marked as undefined.
3690 for (i = 1; i < MAXSESSION; i++)
3691 {
3692 session[i].next = i + 1;
3693 session[i].tunnel = T_UNDEF; // mark it as not filled in.
3694 }
3695 session[MAXSESSION - 1].next = 0;
3696 sessionfree = 1;
3697
3698 // Mark all the tunnels as undefined (waiting to be filled in by a download).
3699 for (i = 1; i < MAXTUNNEL; i++)
3700 tunnel[i].state = TUNNELUNDEF; // mark it as not filled in.
3701
3702 if (!*hostname)
3703 {
3704 // Grab my hostname unless it's been specified
3705 gethostname(hostname, sizeof(hostname));
3706 stripdomain(hostname);
3707 }
3708
3709 _statistics->start_time = _statistics->last_reset = time(NULL);
3710
3711 #ifdef BGP
3712 if (!(bgp_peers = shared_malloc(sizeof(struct bgp_peer) * BGP_NUM_PEERS)))
3713 {
3714 LOG(0, 0, 0, "Error doing malloc for bgp: %s\n", strerror(errno));
3715 exit(1);
3716 }
3717 #endif /* BGP */
3718 }
3719
3720 static int assign_ip_address(sessionidt s)
3721 {
3722 uint32_t i;
3723 int best = -1;
3724 time_t best_time = time_now;
3725 char *u = session[s].user;
3726 char reuse = 0;
3727
3728
3729 CSTAT(assign_ip_address);
3730
3731 for (i = 1; i < ip_pool_size; i++)
3732 {
3733 if (!ip_address_pool[i].address || ip_address_pool[i].assigned)
3734 continue;
3735
3736 if (!session[s].walled_garden && ip_address_pool[i].user[0] && !strcmp(u, ip_address_pool[i].user))
3737 {
3738 best = i;
3739 reuse = 1;
3740 break;
3741 }
3742
3743 if (ip_address_pool[i].last < best_time)
3744 {
3745 best = i;
3746 if (!(best_time = ip_address_pool[i].last))
3747 break; // never used, grab this one
3748 }
3749 }
3750
3751 if (best < 0)
3752 {
3753 LOG(0, s, session[s].tunnel, "assign_ip_address(): out of addresses\n");
3754 return 0;
3755 }
3756
3757 session[s].ip = ip_address_pool[best].address;
3758 session[s].ip_pool_index = best;
3759 ip_address_pool[best].assigned = 1;
3760 ip_address_pool[best].last = time_now;
3761 ip_address_pool[best].session = s;
3762 if (session[s].walled_garden)
3763 /* Don't track addresses of users in walled garden (note: this
3764 means that their address isn't "sticky" even if they get
3765 un-gardened). */
3766 ip_address_pool[best].user[0] = 0;
3767 else
3768 strncpy(ip_address_pool[best].user, u, sizeof(ip_address_pool[best].user) - 1);
3769
3770 STAT(ip_allocated);
3771 LOG(4, s, session[s].tunnel, "assign_ip_address(): %s ip address %d from pool\n",
3772 reuse ? "Reusing" : "Allocating", best);
3773
3774 return 1;
3775 }
3776
3777 static void free_ip_address(sessionidt s)
3778 {
3779 int i = session[s].ip_pool_index;
3780
3781
3782 CSTAT(free_ip_address);
3783
3784 if (!session[s].ip)
3785 return; // what the?
3786
3787 if (i < 0) // Is this actually part of the ip pool?
3788 i = 0;
3789
3790 STAT(ip_freed);
3791 cache_ipmap(session[s].ip, -i); // Change the mapping to point back to the ip pool index.
3792 session[s].ip = 0;
3793 ip_address_pool[i].assigned = 0;
3794 ip_address_pool[i].session = 0;
3795 ip_address_pool[i].last = time_now;
3796 }
3797
3798 //
3799 // Fsck the address pool against the session table.
3800 // Normally only called when we become a master.
3801 //
3802 // This isn't perfect: We aren't keep tracking of which
3803 // users used to have an IP address.
3804 //
3805 void rebuild_address_pool(void)
3806 {
3807 int i;
3808
3809 //
3810 // Zero the IP pool allocation, and build
3811 // a map from IP address to pool index.
3812 for (i = 1; i < MAXIPPOOL; ++i)
3813 {
3814 ip_address_pool[i].assigned = 0;
3815 ip_address_pool[i].session = 0;
3816 if (!ip_address_pool[i].address)
3817 continue;
3818
3819 cache_ipmap(ip_address_pool[i].address, -i); // Map pool IP to pool index.
3820 }
3821
3822 for (i = 0; i < MAXSESSION; ++i)
3823 {
3824 int ipid;
3825 if (!(session[i].opened && session[i].ip))
3826 continue;
3827
3828 ipid = - lookup_ipmap(htonl(session[i].ip));
3829
3830 if (session[i].ip_pool_index < 0)
3831 {
3832 // Not allocated out of the pool.
3833 if (ipid < 1) // Not found in the pool either? good.
3834 continue;
3835
3836 LOG(0, i, 0, "Session %d has an IP address (%s) that was marked static, but is in the pool (%d)!\n",
3837 i, fmtaddr(session[i].ip, 0), ipid);
3838
3839 // Fall through and process it as part of the pool.
3840 }
3841
3842
3843 if (ipid > MAXIPPOOL || ipid < 0)
3844 {
3845 LOG(0, i, 0, "Session %d has a pool IP that's not found in the pool! (%d)\n", i, ipid);
3846 ipid = -1;
3847 session[i].ip_pool_index = ipid;
3848 continue;
3849 }
3850
3851 ip_address_pool[ipid].assigned = 1;
3852 ip_address_pool[ipid].session = i;
3853 ip_address_pool[ipid].last = time_now;
3854 strncpy(ip_address_pool[ipid].user, session[i].user, sizeof(ip_address_pool[ipid].user) - 1);
3855 session[i].ip_pool_index = ipid;
3856 cache_ipmap(session[i].ip, i); // Fix the ip map.
3857 }
3858 }
3859
3860 //
3861 // Fix the address pool to match a changed session.
3862 // (usually when the master sends us an update).
3863 static void fix_address_pool(int sid)
3864 {
3865 int ipid;
3866
3867 ipid = session[sid].ip_pool_index;
3868
3869 if (ipid > ip_pool_size)
3870 return; // Ignore it. rebuild_address_pool will fix it up.
3871
3872 if (ip_address_pool[ipid].address != session[sid].ip)
3873 return; // Just ignore it. rebuild_address_pool will take care of it.
3874
3875 ip_address_pool[ipid].assigned = 1;
3876 ip_address_pool[ipid].session = sid;
3877 ip_address_pool[ipid].last = time_now;
3878 strncpy(ip_address_pool[ipid].user, session[sid].user, sizeof(ip_address_pool[ipid].user) - 1);
3879 }
3880
3881 //
3882 // Add a block of addresses to the IP pool to hand out.
3883 //
3884 static void add_to_ip_pool(in_addr_t addr, in_addr_t mask)
3885 {
3886 int i;
3887 if (mask == 0)
3888 mask = 0xffffffff; // Host route only.
3889
3890 addr &= mask;
3891
3892 if (ip_pool_size >= MAXIPPOOL) // Pool is full!
3893 return ;
3894
3895 for (i = addr ;(i & mask) == addr; ++i)
3896 {
3897 if ((i & 0xff) == 0 || (i&0xff) == 255)
3898 continue; // Skip 0 and broadcast addresses.
3899
3900 ip_address_pool[ip_pool_size].address = i;
3901 ip_address_pool[ip_pool_size].assigned = 0;
3902 ++ip_pool_size;
3903 if (ip_pool_size >= MAXIPPOOL)
3904 {
3905 LOG(0, 0, 0, "Overflowed IP pool adding %s\n", fmtaddr(htonl(addr), 0));
3906 return;
3907 }
3908 }
3909 }
3910
3911 // Initialize the IP address pool
3912 static void initippool()
3913 {
3914 FILE *f;
3915 char *p;
3916 char buf[4096];
3917 memset(ip_address_pool, 0, sizeof(ip_address_pool));
3918
3919 if (!(f = fopen(IPPOOLFILE, "r")))
3920 {
3921 LOG(0, 0, 0, "Can't load pool file " IPPOOLFILE ": %s\n", strerror(errno));
3922 exit(1);
3923 }
3924
3925 while (ip_pool_size < MAXIPPOOL && fgets(buf, 4096, f))
3926 {
3927 char *pool = buf;
3928 buf[4095] = 0; // Force it to be zero terminated/
3929
3930 if (*buf == '#' || *buf == '\n')
3931 continue; // Skip comments / blank lines
3932 if ((p = (char *)strrchr(buf, '\n'))) *p = 0;
3933 if ((p = (char *)strchr(buf, ':')))
3934 {
3935 in_addr_t src;
3936 *p = '\0';
3937 src = inet_addr(buf);
3938 if (src == INADDR_NONE)
3939 {
3940 LOG(0, 0, 0, "Invalid address pool IP %s\n", buf);
3941 exit(1);
3942 }
3943 // This entry is for a specific IP only
3944 if (src != config->bind_address)
3945 continue;
3946 *p = ':';
3947 pool = p+1;
3948 }
3949 if ((p = (char *)strchr(pool, '/')))
3950 {
3951 // It's a range
3952 int numbits = 0;
3953 in_addr_t start = 0, mask = 0;
3954
3955 LOG(2, 0, 0, "Adding IP address range %s\n", buf);
3956 *p++ = 0;
3957 if (!*p || !(numbits = atoi(p)))
3958 {
3959 LOG(0, 0, 0, "Invalid pool range %s\n", buf);
3960 continue;
3961 }
3962 start = ntohl(inet_addr(pool));
3963 mask = (in_addr_t) (pow(2, numbits) - 1) << (32 - numbits);
3964
3965 // Add a static route for this pool
3966 LOG(5, 0, 0, "Adding route for address pool %s/%u\n",
3967 fmtaddr(htonl(start), 0), 32 + mask);
3968
3969 routeset(0, start, mask, 0, 1);
3970
3971 add_to_ip_pool(start, mask);
3972 }
3973 else
3974 {
3975 // It's a single ip address
3976 add_to_ip_pool(inet_addr(pool), 0);
3977 }
3978 }
3979 fclose(f);
3980 LOG(1, 0, 0, "IP address pool is %d addresses\n", ip_pool_size - 1);
3981 }
3982
3983 void snoop_send_packet(uint8_t *packet, uint16_t size, in_addr_t destination, uint16_t port)
3984 {
3985 struct sockaddr_in snoop_addr = {0};
3986 if (!destination || !port || snoopfd <= 0 || size <= 0 || !packet)
3987 return;
3988
3989 snoop_addr.sin_family = AF_INET;
3990 snoop_addr.sin_addr.s_addr = destination;
3991 snoop_addr.sin_port = ntohs(port);
3992
3993 LOG(5, 0, 0, "Snooping %d byte packet to %s:%d\n", size,
3994 fmtaddr(snoop_addr.sin_addr.s_addr, 0),
3995 htons(snoop_addr.sin_port));
3996
3997 if (sendto(snoopfd, packet, size, MSG_DONTWAIT | MSG_NOSIGNAL, (void *) &snoop_addr, sizeof(snoop_addr)) < 0)
3998 LOG(0, 0, 0, "Error sending intercept packet: %s\n", strerror(errno));
3999
4000 STAT(packets_snooped);
4001 }
4002
4003 static int dump_session(FILE **f, sessiont *s)
4004 {
4005 if (!s->opened || !s->ip || !(s->cin_delta || s->cout_delta) || !*s->user || s->walled_garden)
4006 return 1;
4007
4008 if (!*f)
4009 {
4010 char filename[1024];
4011 char timestr[64];
4012 time_t now = time(NULL);
4013
4014 strftime(timestr, sizeof(timestr), "%Y%m%d%H%M%S", localtime(&now));
4015 snprintf(filename, sizeof(filename), "%s/%s", config->accounting_dir, timestr);
4016
4017 if (!(*f = fopen(filename, "w")))
4018 {
4019 LOG(0, 0, 0, "Can't write accounting info to %s: %s\n", filename, strerror(errno));
4020 return 0;
4021 }
4022
4023 LOG(3, 0, 0, "Dumping accounting information to %s\n", filename);
4024 fprintf(*f, "# dslwatch.pl dump file V1.01\n"
4025 "# host: %s\n"
4026 "# endpoint: %s\n"
4027 "# time: %ld\n"
4028 "# uptime: %ld\n"
4029 "# format: username ip qos uptxoctets downrxoctets\n",
4030 hostname,
4031 fmtaddr(config->bind_address ? config->bind_address : my_address, 0),
4032 now,
4033 now - basetime);
4034 }
4035
4036 LOG(4, 0, 0, "Dumping accounting information for %s\n", s->user);
4037 fprintf(*f, "%s %s %d %u %u\n",
4038 s->user, // username
4039 fmtaddr(htonl(s->ip), 0), // ip
4040 (s->throttle_in || s->throttle_out) ? 2 : 1, // qos
4041 (uint32_t) s->cin_delta, // uptxoctets
4042 (uint32_t) s->cout_delta); // downrxoctets
4043
4044 s->cin_delta = s->cout_delta = 0;
4045
4046 return 1;
4047 }
4048
4049 static void dump_acct_info(int all)
4050 {
4051 int i;
4052 FILE *f = NULL;
4053
4054
4055 CSTAT(dump_acct_info);
4056
4057 if (shut_acct_n)
4058 {
4059 for (i = 0; i < shut_acct_n; i++)
4060 dump_session(&f, &shut_acct[i]);
4061
4062 shut_acct_n = 0;
4063 }
4064
4065 if (all)
4066 for (i = 1; i <= config->cluster_highest_sessionid; i++)
4067 dump_session(&f, &session[i]);
4068
4069 if (f)
4070 fclose(f);
4071 }
4072
4073 // Main program
4074 int main(int argc, char *argv[])
4075 {
4076 int i;
4077 int optdebug = 0;
4078 char *optconfig = CONFIGFILE;
4079
4080 time(&basetime); // start clock
4081
4082 // scan args
4083 while ((i = getopt(argc, argv, "dvc:h:")) >= 0)
4084 {
4085 switch (i)
4086 {
4087 case 'd':
4088 if (fork()) exit(0);
4089 setsid();
4090 freopen("/dev/null", "r", stdin);
4091 freopen("/dev/null", "w", stdout);
4092 freopen("/dev/null", "w", stderr);
4093 break;
4094 case 'v':
4095 optdebug++;
4096 break;
4097 case 'c':
4098 optconfig = optarg;
4099 break;
4100 case 'h':
4101 snprintf(hostname, sizeof(hostname), "%s", optarg);
4102 break;
4103 default:
4104 printf("Args are:\n"
4105 "\t-d\t\tDetach from terminal\n"
4106 "\t-c <file>\tConfig file\n"
4107 "\t-h <hostname>\tForce hostname\n"
4108 "\t-v\t\tDebug\n");
4109
4110 return (0);
4111 break;
4112 }
4113 }
4114
4115 // Start the timer routine off
4116 time(&time_now);
4117 strftime(time_now_string, sizeof(time_now_string), "%Y-%m-%d %H:%M:%S", localtime(&time_now));
4118
4119 initplugins();
4120 initdata(optdebug, optconfig);
4121
4122 init_cli(hostname);
4123 read_config_file();
4124 update_config();
4125 init_tbf(config->num_tbfs);
4126
4127 LOG(0, 0, 0, "L2TPNS version " VERSION "\n");
4128 LOG(0, 0, 0, "Copyright (c) 2003, 2004, 2005 Optus Internet Engineering\n");
4129 LOG(0, 0, 0, "Copyright (c) 2002 FireBrick (Andrews & Arnold Ltd / Watchfront Ltd) - GPL licenced\n");
4130 {
4131 struct rlimit rlim;
4132 rlim.rlim_cur = RLIM_INFINITY;
4133 rlim.rlim_max = RLIM_INFINITY;
4134 // Remove the maximum core size
4135 if (setrlimit(RLIMIT_CORE, &rlim) < 0)
4136 LOG(0, 0, 0, "Can't set ulimit: %s\n", strerror(errno));
4137
4138 // Make core dumps go to /tmp
4139 chdir("/tmp");
4140 }
4141
4142 if (config->scheduler_fifo)
4143 {
4144 int ret;
4145 struct sched_param params = {0};
4146 params.sched_priority = 1;
4147
4148 if (get_nprocs() < 2)
4149 {
4150 LOG(0, 0, 0, "Not using FIFO scheduler, there is only 1 processor in the system.\n");
4151 config->scheduler_fifo = 0;
4152 }
4153 else
4154 {
4155 if ((ret = sched_setscheduler(0, SCHED_FIFO, &params)) == 0)
4156 {
4157 LOG(1, 0, 0, "Using FIFO scheduler. Say goodbye to any other processes running\n");
4158 }
4159 else
4160 {
4161 LOG(0, 0, 0, "Error setting scheduler to FIFO: %s\n", strerror(errno));
4162 config->scheduler_fifo = 0;
4163 }
4164 }
4165 }
4166
4167 /* Set up the cluster communications port. */
4168 if (cluster_init() < 0)
4169 exit(1);
4170
4171 inittun();
4172 LOG(1, 0, 0, "Set up on interface %s\n", config->tundevice);
4173
4174 initudp();
4175 initrad();
4176 initippool();
4177
4178 // seed prng
4179 {
4180 unsigned seed = time_now ^ getpid();
4181 LOG(4, 0, 0, "Seeding the pseudo random generator: %u\n", seed);
4182 srand(seed);
4183 }
4184
4185 signal(SIGHUP, sighup_handler);
4186 signal(SIGCHLD, sigchild_handler);
4187 signal(SIGTERM, shutdown_handler);
4188 signal(SIGINT, shutdown_handler);
4189 signal(SIGQUIT, shutdown_handler);
4190
4191 // Prevent us from getting paged out
4192 if (config->lock_pages)
4193 {
4194 if (!mlockall(MCL_CURRENT))
4195 LOG(1, 0, 0, "Locking pages into memory\n");
4196 else
4197 LOG(0, 0, 0, "Can't lock pages: %s\n", strerror(errno));
4198 }
4199
4200 // Drop privileges here
4201 if (config->target_uid > 0 && geteuid() == 0)
4202 setuid(config->target_uid);
4203
4204 mainloop();
4205
4206 /* remove plugins (so cleanup code gets run) */
4207 plugins_done();
4208
4209 // Remove the PID file if we wrote it
4210 if (config->wrote_pid && *config->pid_file == '/')
4211 unlink(config->pid_file);
4212
4213 /* kill CLI children */
4214 signal(SIGTERM, SIG_IGN);
4215 kill(0, SIGTERM);
4216 return 0;
4217 }
4218
4219 static void sighup_handler(int sig)
4220 {
4221 main_reload++;
4222 }
4223
4224 static void shutdown_handler(int sig)
4225 {
4226 main_quit = (sig == SIGQUIT) ? QUIT_SHUTDOWN : QUIT_FAILOVER;
4227 }
4228
4229 static void sigchild_handler(int sig)
4230 {
4231 while (waitpid(-1, NULL, WNOHANG) > 0)
4232 ;
4233 }
4234
4235 static void build_chap_response(uint8_t *challenge, uint8_t id, uint16_t challenge_length, uint8_t **challenge_response)
4236 {
4237 MD5_CTX ctx;
4238 *challenge_response = NULL;
4239
4240 if (!*config->l2tp_secret)
4241 {
4242 LOG(0, 0, 0, "LNS requested CHAP authentication, but no l2tp secret is defined\n");
4243 return;
4244 }
4245
4246 LOG(4, 0, 0, " Building challenge response for CHAP request\n");
4247
4248 *challenge_response = calloc(17, 1);
4249
4250 MD5_Init(&ctx);
4251 MD5_Update(&ctx, &id, 1);
4252 MD5_Update(&ctx, config->l2tp_secret, strlen(config->l2tp_secret));
4253 MD5_Update(&ctx, challenge, challenge_length);
4254 MD5_Final(*challenge_response, &ctx);
4255
4256 return;
4257 }
4258
4259 static int facility_value(char *name)
4260 {
4261 int i;
4262 for (i = 0; facilitynames[i].c_name; i++)
4263 {
4264 if (strcmp(facilitynames[i].c_name, name) == 0)
4265 return facilitynames[i].c_val;
4266 }
4267 return 0;
4268 }
4269
4270 static void update_config()
4271 {
4272 int i;
4273 char *p;
4274 static int timeout = 0;
4275 static int interval = 0;
4276
4277 // Update logging
4278 closelog();
4279 syslog_log = 0;
4280 if (log_stream)
4281 {
4282 if (log_stream != stderr)
4283 fclose(log_stream);
4284
4285 log_stream = NULL;
4286 }
4287
4288 if (*config->log_filename)
4289 {
4290 if (strstr(config->log_filename, "syslog:") == config->log_filename)
4291 {
4292 char *p = config->log_filename + 7;
4293 if (*p)
4294 {
4295 openlog("l2tpns", LOG_PID, facility_value(p));
4296 syslog_log = 1;
4297 }
4298 }
4299 else if (strchr(config->log_filename, '/') == config->log_filename)
4300 {
4301 if ((log_stream = fopen((char *)(config->log_filename), "a")))
4302 {
4303 fseek(log_stream, 0, SEEK_END);
4304 setbuf(log_stream, NULL);
4305 }
4306 else
4307 {
4308 log_stream = stderr;
4309 setbuf(log_stream, NULL);
4310 }
4311 }
4312 }
4313 else
4314 {
4315 log_stream = stderr;
4316 setbuf(log_stream, NULL);
4317 }
4318
4319 #define L2TP_HDRS (20+8+6+4) // L2TP data encaptulation: ip + udp + l2tp (data) + ppp (inc hdlc)
4320 #define TCP_HDRS (20+20) // TCP encapsulation: ip + tcp
4321
4322 if (config->l2tp_mtu <= 0) config->l2tp_mtu = PPPMTU;
4323 else if (config->l2tp_mtu < MINMTU) config->l2tp_mtu = MINMTU;
4324 else if (config->l2tp_mtu > MAXMTU) config->l2tp_mtu = MAXMTU;
4325
4326 // reset MRU/MSS globals
4327 MRU = config->l2tp_mtu - L2TP_HDRS;
4328 MSS = MRU - TCP_HDRS;
4329
4330 // Update radius
4331 config->numradiusservers = 0;
4332 for (i = 0; i < MAXRADSERVER; i++)
4333 if (config->radiusserver[i])
4334 {
4335 config->numradiusservers++;
4336 // Set radius port: if not set, take the port from the
4337 // first radius server. For the first radius server,
4338 // take the #defined default value from l2tpns.h
4339
4340 // test twice, In case someone works with
4341 // a secondary radius server without defining
4342 // a primary one, this will work even then.
4343 if (i > 0 && !config->radiusport[i])
4344 config->radiusport[i] = config->radiusport[i-1];
4345 if (!config->radiusport[i])
4346 config->radiusport[i] = RADPORT;
4347 }
4348
4349 if (!config->numradiusservers)
4350 LOG(0, 0, 0, "No RADIUS servers defined!\n");
4351
4352 // parse radius_authtypes_s
4353 config->radius_authtypes = config->radius_authprefer = 0;
4354 p = config->radius_authtypes_s;
4355 while (p && *p)
4356 {
4357 char *s = strpbrk(p, " \t,");
4358 int type = 0;
4359
4360 if (s)
4361 {
4362 *s++ = 0;
4363 while (*s == ' ' || *s == '\t')
4364 s++;
4365
4366 if (!*s)
4367 s = 0;
4368 }
4369
4370 if (!strncasecmp("chap", p, strlen(p)))
4371 type = AUTHCHAP;
4372 else if (!strncasecmp("pap", p, strlen(p)))
4373 type = AUTHPAP;
4374 else
4375 LOG(0, 0, 0, "Invalid RADIUS authentication type \"%s\"\n", p);
4376
4377 config->radius_authtypes |= type;
4378 if (!config->radius_authprefer)
4379 config->radius_authprefer = type;
4380
4381 p = s;
4382 }
4383
4384 if (!config->radius_authtypes)
4385 {
4386 LOG(0, 0, 0, "Defaulting to PAP authentication\n");
4387 config->radius_authtypes = config->radius_authprefer = AUTHPAP;
4388 }
4389
4390 // normalise radius_authtypes_s
4391 if (config->radius_authprefer == AUTHPAP)
4392 {
4393 strcpy(config->radius_authtypes_s, "pap");
4394 if (config->radius_authtypes & AUTHCHAP)
4395 strcat(config->radius_authtypes_s, ", chap");
4396 }
4397 else
4398 {
4399 strcpy(config->radius_authtypes_s, "chap");
4400 if (config->radius_authtypes & AUTHPAP)
4401 strcat(config->radius_authtypes_s, ", pap");
4402 }
4403
4404 if (!config->radius_dae_port)
4405 config->radius_dae_port = DAEPORT;
4406
4407 // re-initialise the random number source
4408 initrandom(config->random_device);
4409
4410 // Update plugins
4411 for (i = 0; i < MAXPLUGINS; i++)
4412 {
4413 if (strcmp(config->plugins[i], config->old_plugins[i]) == 0)
4414 continue;
4415
4416 if (*config->plugins[i])
4417 {
4418 // Plugin added
4419 add_plugin(config->plugins[i]);
4420 }
4421 else if (*config->old_plugins[i])
4422 {
4423 // Plugin removed
4424 remove_plugin(config->old_plugins[i]);
4425 }
4426 }
4427
4428 memcpy(config->old_plugins, config->plugins, sizeof(config->plugins));
4429 if (!config->multi_read_count) config->multi_read_count = 10;
4430 if (!config->cluster_address) config->cluster_address = inet_addr(DEFAULT_MCAST_ADDR);
4431 if (!*config->cluster_interface)
4432 strncpy(config->cluster_interface, DEFAULT_MCAST_INTERFACE, sizeof(config->cluster_interface) - 1);
4433
4434 if (!config->cluster_hb_interval)
4435 config->cluster_hb_interval = PING_INTERVAL; // Heartbeat every 0.5 seconds.
4436
4437 if (!config->cluster_hb_timeout)
4438 config->cluster_hb_timeout = HB_TIMEOUT; // 10 missed heartbeat triggers an election.
4439
4440 if (interval != config->cluster_hb_interval || timeout != config->cluster_hb_timeout)
4441 {
4442 // Paranoia: cluster_check_master() treats 2 x interval + 1 sec as
4443 // late, ensure we're sufficiently larger than that
4444 int t = 4 * config->cluster_hb_interval + 11;
4445
4446 if (config->cluster_hb_timeout < t)
4447 {
4448 LOG(0, 0, 0, "Heartbeat timeout %d too low, adjusting to %d\n", config->cluster_hb_timeout, t);
4449 config->cluster_hb_timeout = t;
4450 }
4451
4452 // Push timing changes to the slaves immediately if we're the master
4453 if (config->cluster_iam_master)
4454 cluster_heartbeat();
4455
4456 interval = config->cluster_hb_interval;
4457 timeout = config->cluster_hb_timeout;
4458 }
4459
4460 // Write PID file
4461 if (*config->pid_file == '/' && !config->wrote_pid)
4462 {
4463 FILE *f;
4464 if ((f = fopen(config->pid_file, "w")))
4465 {
4466 fprintf(f, "%d\n", getpid());
4467 fclose(f);
4468 config->wrote_pid = 1;
4469 }
4470 else
4471 {
4472 LOG(0, 0, 0, "Can't write to PID file %s: %s\n", config->pid_file, strerror(errno));
4473 }
4474 }
4475 }
4476
4477 static void read_config_file()
4478 {
4479 FILE *f;
4480
4481 if (!config->config_file) return;
4482 if (!(f = fopen(config->config_file, "r")))
4483 {
4484 fprintf(stderr, "Can't open config file %s: %s\n", config->config_file, strerror(errno));
4485 return;
4486 }
4487
4488 LOG(3, 0, 0, "Reading config file %s\n", config->config_file);
4489 cli_do_file(f);
4490 LOG(3, 0, 0, "Done reading config file\n");
4491 fclose(f);
4492 }
4493
4494 int sessionsetup(sessionidt s, tunnelidt t)
4495 {
4496 // A session now exists, set it up
4497 in_addr_t ip;
4498 char *user;
4499 sessionidt i;
4500 int r;
4501
4502 CSTAT(sessionsetup);
4503
4504 LOG(3, s, t, "Doing session setup for session\n");
4505
4506 if (!session[s].ip)
4507 {
4508 assign_ip_address(s);
4509 if (!session[s].ip)
4510 {
4511 LOG(0, s, t, " No IP allocated. The IP address pool is FULL!\n");
4512 sessionshutdown(s, "No IP addresses available.", 2, 7); // try another
4513 return 0;
4514 }
4515 LOG(3, s, t, " No IP allocated. Assigned %s from pool\n",
4516 fmtaddr(htonl(session[s].ip), 0));
4517 }
4518
4519
4520 // Make sure this is right
4521 session[s].tunnel = t;
4522
4523 // zap old sessions with same IP and/or username
4524 // Don't kill gardened sessions - doing so leads to a DoS
4525 // from someone who doesn't need to know the password
4526 {
4527 ip = session[s].ip;
4528 user = session[s].user;
4529 for (i = 1; i <= config->cluster_highest_sessionid; i++)
4530 {
4531 if (i == s) continue;
4532 if (!session[s].opened) continue;
4533 if (ip == session[i].ip)
4534 {
4535 sessionkill(i, "Duplicate IP address");
4536 continue;
4537 }
4538
4539 if (config->allow_duplicate_users) continue;
4540 if (session[s].walled_garden || session[i].walled_garden) continue;
4541 if (!strcasecmp(user, session[i].user))
4542 sessionkill(i, "Duplicate session for users");
4543 }
4544 }
4545
4546 {
4547 int routed = 0;
4548
4549 // Add the route for this session.
4550 for (r = 0; r < MAXROUTE && session[s].route[r].ip; r++)
4551 {
4552 if ((session[s].ip & session[s].route[r].mask) ==
4553 (session[s].route[r].ip & session[s].route[r].mask))
4554 routed++;
4555
4556 routeset(s, session[s].route[r].ip, session[s].route[r].mask, 0, 1);
4557 }
4558
4559 // Static IPs need to be routed if not already
4560 // convered by a Framed-Route. Anything else is part
4561 // of the IP address pool and is already routed, it
4562 // just needs to be added to the IP cache.
4563 // IPv6 route setup is done in ppp.c, when IPV6CP is acked.
4564 if (session[s].ip_pool_index == -1) // static ip
4565 {
4566 if (!routed) routeset(s, session[s].ip, 0, 0, 1);
4567 }
4568 else
4569 cache_ipmap(session[s].ip, s);
4570 }
4571
4572 sess_local[s].lcp_authtype = 0; // RADIUS authentication complete
4573 lcp_open(s, t); // transition to Network phase and send initial IPCP
4574
4575 // Run the plugin's against this new session.
4576 {
4577 struct param_new_session data = { &tunnel[t], &session[s] };
4578 run_plugins(PLUGIN_NEW_SESSION, &data);
4579 }
4580
4581 // Allocate TBFs if throttled
4582 if (session[s].throttle_in || session[s].throttle_out)
4583 throttle_session(s, session[s].throttle_in, session[s].throttle_out);
4584
4585 session[s].last_packet = time_now;
4586
4587 LOG(2, s, t, "Login by %s at %s from %s (%s)\n", session[s].user,
4588 fmtaddr(htonl(session[s].ip), 0),
4589 fmtaddr(htonl(tunnel[t].ip), 1), tunnel[t].hostname);
4590
4591 cluster_send_session(s); // Mark it as dirty, and needing to the flooded to the cluster.
4592
4593 return 1; // RADIUS OK and IP allocated, done...
4594 }
4595
4596 //
4597 // This session just got dropped on us by the master or something.
4598 // Make sure our tables up up to date...
4599 //
4600 int load_session(sessionidt s, sessiont *new)
4601 {
4602 int i;
4603 int newip = 0;
4604
4605 // Sanity checks.
4606 if (new->ip_pool_index >= MAXIPPOOL ||
4607 new->tunnel >= MAXTUNNEL)
4608 {
4609 LOG(0, s, 0, "Strange session update received!\n");
4610 // FIXME! What to do here?
4611 return 0;
4612 }
4613
4614 //
4615 // Ok. All sanity checks passed. Now we're committed to
4616 // loading the new session.
4617 //
4618
4619 session[s].tunnel = new->tunnel; // For logging in cache_ipmap
4620
4621 // See if routes/ip cache need updating
4622 if (new->ip != session[s].ip)
4623 newip++;
4624
4625 for (i = 0; !newip && i < MAXROUTE && (session[s].route[i].ip || new->route[i].ip); i++)
4626 if (new->route[i].ip != session[s].route[i].ip ||
4627 new->route[i].mask != session[s].route[i].mask)
4628 newip++;
4629
4630 // needs update
4631 if (newip)
4632 {
4633 int routed = 0;
4634
4635 // remove old routes...
4636 for (i = 0; i < MAXROUTE && session[s].route[i].ip; i++)
4637 {
4638 if ((session[s].ip & session[s].route[i].mask) ==
4639 (session[s].route[i].ip & session[s].route[i].mask))
4640 routed++;
4641
4642 routeset(s, session[s].route[i].ip, session[s].route[i].mask, 0, 0);
4643 }
4644
4645 // ...ip
4646 if (session[s].ip)
4647 {
4648 if (session[s].ip_pool_index == -1) // static IP
4649 {
4650 if (!routed) routeset(s, session[s].ip, 0, 0, 0);
4651 }
4652 else // It's part of the IP pool, remove it manually.
4653 uncache_ipmap(session[s].ip);
4654 }
4655
4656 routed = 0;
4657
4658 // add new routes...
4659 for (i = 0; i < MAXROUTE && new->route[i].ip; i++)
4660 {
4661 if ((new->ip & new->route[i].mask) ==
4662 (new->route[i].ip & new->route[i].mask))
4663 routed++;
4664
4665 routeset(s, new->route[i].ip, new->route[i].mask, 0, 1);
4666 }
4667
4668 // ...ip
4669 if (new->ip)
4670 {
4671 // If there's a new one, add it.
4672 if (new->ip_pool_index == -1)
4673 {
4674 if (!routed) routeset(s, new->ip, 0, 0, 1);
4675 }
4676 else
4677 cache_ipmap(new->ip, s);
4678 }
4679 }
4680
4681 // check v6 routing
4682 if (new->ipv6prefixlen && new->ppp.ipv6cp == Opened && session[s].ppp.ipv6cp != Opened)
4683 route6set(s, new->ipv6route, new->ipv6prefixlen, 1);
4684
4685 // check filters
4686 if (new->filter_in && (new->filter_in > MAXFILTER || !ip_filters[new->filter_in - 1].name[0]))
4687 {
4688 LOG(2, s, session[s].tunnel, "Dropping invalid input filter %d\n", (int) new->filter_in);
4689 new->filter_in = 0;
4690 }
4691
4692 if (new->filter_out && (new->filter_out > MAXFILTER || !ip_filters[new->filter_out - 1].name[0]))
4693 {
4694 LOG(2, s, session[s].tunnel, "Dropping invalid output filter %d\n", (int) new->filter_out);
4695 new->filter_out = 0;
4696 }
4697
4698 if (new->filter_in != session[s].filter_in)
4699 {
4700 if (session[s].filter_in) ip_filters[session[s].filter_in - 1].used--;
4701 if (new->filter_in) ip_filters[new->filter_in - 1].used++;
4702 }
4703
4704 if (new->filter_out != session[s].filter_out)
4705 {
4706 if (session[s].filter_out) ip_filters[session[s].filter_out - 1].used--;
4707 if (new->filter_out) ip_filters[new->filter_out - 1].used++;
4708 }
4709
4710 if (new->tunnel && s > config->cluster_highest_sessionid) // Maintain this in the slave. It's used
4711 // for walking the sessions to forward byte counts to the master.
4712 config->cluster_highest_sessionid = s;
4713
4714 memcpy(&session[s], new, sizeof(session[s])); // Copy over..
4715
4716 // Do fixups into address pool.
4717 if (new->ip_pool_index != -1)
4718 fix_address_pool(s);
4719
4720 return 1;
4721 }
4722
4723 static void initplugins()
4724 {
4725 int i;
4726
4727 loaded_plugins = ll_init();
4728 // Initialize the plugins to nothing
4729 for (i = 0; i < MAX_PLUGIN_TYPES; i++)
4730 plugins[i] = ll_init();
4731 }
4732
4733 static void *open_plugin(char *plugin_name, int load)
4734 {
4735 char path[256] = "";
4736
4737 snprintf(path, 256, PLUGINDIR "/%s.so", plugin_name);
4738 LOG(2, 0, 0, "%soading plugin from %s\n", load ? "L" : "Un-l", path);
4739 return dlopen(path, RTLD_NOW);
4740 }
4741
4742 // plugin callback to get a config value
4743 static void *getconfig(char *key, enum config_typet type)
4744 {
4745 int i;
4746
4747 for (i = 0; config_values[i].key; i++)
4748 {
4749 if (!strcmp(config_values[i].key, key))
4750 {
4751 if (config_values[i].type == type)
4752 return ((void *) config) + config_values[i].offset;
4753
4754 LOG(1, 0, 0, "plugin requested config item \"%s\" expecting type %d, have type %d\n",
4755 key, type, config_values[i].type);
4756
4757 return 0;
4758 }
4759 }
4760
4761 LOG(1, 0, 0, "plugin requested unknown config item \"%s\"\n", key);
4762 return 0;
4763 }
4764
4765 static int add_plugin(char *plugin_name)
4766 {
4767 static struct pluginfuncs funcs = {
4768 _log,
4769 _log_hex,
4770 fmtaddr,
4771 sessionbyuser,
4772 sessiontbysessionidt,
4773 sessionidtbysessiont,
4774 radiusnew,
4775 radiussend,
4776 getconfig,
4777 sessionshutdown,
4778 sessionkill,
4779 throttle_session,
4780 cluster_send_session,
4781 };
4782
4783 void *p = open_plugin(plugin_name, 1);
4784 int (*initfunc)(struct pluginfuncs *);
4785 int i;
4786
4787 if (!p)
4788 {
4789 LOG(1, 0, 0, " Plugin load failed: %s\n", dlerror());
4790 return -1;
4791 }
4792
4793 if (ll_contains(loaded_plugins, p))
4794 {
4795 dlclose(p);
4796 return 0; // already loaded
4797 }
4798
4799 {
4800 int *v = dlsym(p, "plugin_api_version");
4801 if (!v || *v != PLUGIN_API_VERSION)
4802 {
4803 LOG(1, 0, 0, " Plugin load failed: API version mismatch: %s\n", dlerror());
4804 dlclose(p);
4805 return -1;
4806 }
4807 }
4808
4809 if ((initfunc = dlsym(p, "plugin_init")))
4810 {
4811 if (!initfunc(&funcs))
4812 {
4813 LOG(1, 0, 0, " Plugin load failed: plugin_init() returned FALSE: %s\n", dlerror());
4814 dlclose(p);
4815 return -1;
4816 }
4817 }
4818
4819 ll_push(loaded_plugins, p);
4820
4821 for (i = 0; i < max_plugin_functions; i++)
4822 {
4823 void *x;
4824 if (plugin_functions[i] && (x = dlsym(p, plugin_functions[i])))
4825 {
4826 LOG(3, 0, 0, " Supports function \"%s\"\n", plugin_functions[i]);
4827 ll_push(plugins[i], x);
4828 }
4829 }
4830
4831 LOG(2, 0, 0, " Loaded plugin %s\n", plugin_name);
4832 return 1;
4833 }
4834
4835 static void run_plugin_done(void *plugin)
4836 {
4837 int (*donefunc)(void) = dlsym(plugin, "plugin_done");
4838
4839 if (donefunc)
4840 donefunc();
4841 }
4842
4843 static int remove_plugin(char *plugin_name)
4844 {
4845 void *p = open_plugin(plugin_name, 0);
4846 int loaded = 0;
4847
4848 if (!p)
4849 return -1;
4850
4851 if (ll_contains(loaded_plugins, p))
4852 {
4853 int i;
4854 for (i = 0; i < max_plugin_functions; i++)
4855 {
4856 void *x;
4857 if (plugin_functions[i] && (x = dlsym(p, plugin_functions[i])))
4858 ll_delete(plugins[i], x);
4859 }
4860
4861 ll_delete(loaded_plugins, p);
4862 run_plugin_done(p);
4863 loaded = 1;
4864 }
4865
4866 dlclose(p);
4867 LOG(2, 0, 0, "Removed plugin %s\n", plugin_name);
4868 return loaded;
4869 }
4870
4871 int run_plugins(int plugin_type, void *data)
4872 {
4873 int (*func)(void *data);
4874
4875 if (!plugins[plugin_type] || plugin_type > max_plugin_functions)
4876 return PLUGIN_RET_ERROR;
4877
4878 ll_reset(plugins[plugin_type]);
4879 while ((func = ll_next(plugins[plugin_type])))
4880 {
4881 int r = func(data);
4882
4883 if (r != PLUGIN_RET_OK)
4884 return r; // stop here
4885 }
4886
4887 return PLUGIN_RET_OK;
4888 }
4889
4890 static void plugins_done()
4891 {
4892 void *p;
4893
4894 ll_reset(loaded_plugins);
4895 while ((p = ll_next(loaded_plugins)))
4896 run_plugin_done(p);
4897 }
4898
4899 static void processcontrol(uint8_t *buf, int len, struct sockaddr_in *addr, int alen)
4900 {
4901 struct nsctl request;
4902 struct nsctl response;
4903 int type = unpack_control(&request, buf, len);
4904 int r;
4905 void *p;
4906
4907 if (log_stream && config->debug >= 4)
4908 {
4909 if (type < 0)
4910 {
4911 LOG(4, 0, 0, "Bogus control message from %s (%d)\n",
4912 fmtaddr(addr->sin_addr.s_addr, 0), type);
4913 }
4914 else
4915 {
4916 LOG(4, 0, 0, "Received [%s] ", fmtaddr(addr->sin_addr.s_addr, 0));
4917 dump_control(&request, log_stream);
4918 }
4919 }
4920
4921 switch (type)
4922 {
4923 case NSCTL_REQ_LOAD:
4924 if (request.argc != 1)
4925 {
4926 response.type = NSCTL_RES_ERR;
4927 response.argc = 1;
4928 response.argv[0] = "name of plugin required";
4929 }
4930 else if ((r = add_plugin(request.argv[0])) < 1)
4931 {
4932 response.type = NSCTL_RES_ERR;
4933 response.argc = 1;
4934 response.argv[0] = !r
4935 ? "plugin already loaded"
4936 : "error loading plugin";
4937 }
4938 else
4939 {
4940 response.type = NSCTL_RES_OK;
4941 response.argc = 0;
4942 }
4943
4944 break;
4945
4946 case NSCTL_REQ_UNLOAD:
4947 if (request.argc != 1)
4948 {
4949 response.type = NSCTL_RES_ERR;
4950 response.argc = 1;
4951 response.argv[0] = "name of plugin required";
4952 }
4953 else if ((r = remove_plugin(request.argv[0])) < 1)
4954 {
4955 response.type = NSCTL_RES_ERR;
4956 response.argc = 1;
4957 response.argv[0] = !r
4958 ? "plugin not loaded"
4959 : "plugin not found";
4960 }
4961 else
4962 {
4963 response.type = NSCTL_RES_OK;
4964 response.argc = 0;
4965 }
4966
4967 break;
4968
4969 case NSCTL_REQ_HELP:
4970 response.type = NSCTL_RES_OK;
4971 response.argc = 0;
4972
4973 ll_reset(loaded_plugins);
4974 while ((p = ll_next(loaded_plugins)))
4975 {
4976 char **help = dlsym(p, "plugin_control_help");
4977 while (response.argc < 0xff && help && *help)
4978 response.argv[response.argc++] = *help++;
4979 }
4980
4981 break;
4982
4983 case NSCTL_REQ_CONTROL:
4984 {
4985 struct param_control param = {
4986 config->cluster_iam_master,
4987 request.argc,
4988 request.argv,
4989 0,
4990 NULL,
4991 };
4992
4993 int r = run_plugins(PLUGIN_CONTROL, &param);
4994
4995 if (r == PLUGIN_RET_ERROR)
4996 {
4997 response.type = NSCTL_RES_ERR;
4998 response.argc = 1;
4999 response.argv[0] = param.additional
5000 ? param.additional
5001 : "error returned by plugin";
5002 }
5003 else if (r == PLUGIN_RET_NOTMASTER)
5004 {
5005 static char msg[] = "must be run on master: 000.000.000.000";
5006
5007 response.type = NSCTL_RES_ERR;
5008 response.argc = 1;
5009 if (config->cluster_master_address)
5010 {
5011 strcpy(msg + 23, fmtaddr(config->cluster_master_address, 0));
5012 response.argv[0] = msg;
5013 }
5014 else
5015 {
5016 response.argv[0] = "must be run on master: none elected";
5017 }
5018 }
5019 else if (!(param.response & NSCTL_RESPONSE))
5020 {
5021 response.type = NSCTL_RES_ERR;
5022 response.argc = 1;
5023 response.argv[0] = param.response
5024 ? "unrecognised response value from plugin"
5025 : "unhandled action";
5026 }
5027 else
5028 {
5029 response.type = param.response;
5030 response.argc = 0;
5031 if (param.additional)
5032 {
5033 response.argc = 1;
5034 response.argv[0] = param.additional;
5035 }
5036 }
5037 }
5038
5039 break;
5040
5041 default:
5042 response.type = NSCTL_RES_ERR;
5043 response.argc = 1;
5044 response.argv[0] = "error unpacking control packet";
5045 }
5046
5047 buf = calloc(NSCTL_MAX_PKT_SZ, 1);
5048 if (!buf)
5049 {
5050 LOG(2, 0, 0, "Failed to allocate nsctl response\n");
5051 return;
5052 }
5053
5054 r = pack_control(buf, NSCTL_MAX_PKT_SZ, response.type, response.argc, response.argv);
5055 if (r > 0)
5056 {
5057 sendto(controlfd, buf, r, 0, (const struct sockaddr *) addr, alen);
5058 if (log_stream && config->debug >= 4)
5059 {
5060 LOG(4, 0, 0, "Sent [%s] ", fmtaddr(addr->sin_addr.s_addr, 0));
5061 dump_control(&response, log_stream);
5062 }
5063 }
5064 else
5065 LOG(2, 0, 0, "Failed to pack nsctl response for %s (%d)\n",
5066 fmtaddr(addr->sin_addr.s_addr, 0), r);
5067
5068 free(buf);
5069 }
5070
5071 static tunnelidt new_tunnel()
5072 {
5073 tunnelidt i;
5074 for (i = 1; i < MAXTUNNEL; i++)
5075 {
5076 if (tunnel[i].state == TUNNELFREE)
5077 {
5078 LOG(4, 0, i, "Assigning tunnel ID %d\n", i);
5079 if (i > config->cluster_highest_tunnelid)
5080 config->cluster_highest_tunnelid = i;
5081 return i;
5082 }
5083 }
5084 LOG(0, 0, 0, "Can't find a free tunnel! There shouldn't be this many in use!\n");
5085 return 0;
5086 }
5087
5088 //
5089 // We're becoming the master. Do any required setup..
5090 //
5091 // This is principally telling all the plugins that we're
5092 // now a master, and telling them about all the sessions
5093 // that are active too..
5094 //
5095 void become_master(void)
5096 {
5097 int s, i;
5098 static struct event_data d[RADIUS_FDS];
5099 struct epoll_event e;
5100
5101 run_plugins(PLUGIN_BECOME_MASTER, NULL);
5102
5103 // running a bunch of iptables commands is slow and can cause
5104 // the master to drop tunnels on takeover--kludge around the
5105 // problem by forking for the moment (note: race)
5106 if (!fork_and_close())
5107 {
5108 for (s = 1; s <= config->cluster_highest_sessionid ; ++s)
5109 {
5110 if (!session[s].opened) // Not an in-use session.
5111 continue;
5112
5113 run_plugins(PLUGIN_NEW_SESSION_MASTER, &session[s]);
5114 }
5115 exit(0);
5116 }
5117
5118 // add radius fds
5119 e.events = EPOLLIN;
5120 for (i = 0; i < RADIUS_FDS; i++)
5121 {
5122 d[i].type = FD_TYPE_RADIUS;
5123 d[i].index = i;
5124 e.data.ptr = &d[i];
5125
5126 epoll_ctl(epollfd, EPOLL_CTL_ADD, radfds[i], &e);
5127 }
5128 }
5129
5130 int cmd_show_hist_idle(struct cli_def *cli, char *command, char **argv, int argc)
5131 {
5132 int s, i;
5133 int count = 0;
5134 int buckets[64];
5135
5136 if (CLI_HELP_REQUESTED)
5137 return CLI_HELP_NO_ARGS;
5138
5139 time(&time_now);
5140 for (i = 0; i < 64;++i) buckets[i] = 0;
5141
5142 for (s = 1; s <= config->cluster_highest_sessionid ; ++s)
5143 {
5144 int idle;
5145 if (!session[s].opened)
5146 continue;
5147
5148 idle = time_now - session[s].last_packet;
5149 idle /= 5 ; // In multiples of 5 seconds.
5150 if (idle < 0)
5151 idle = 0;
5152 if (idle > 63)
5153 idle = 63;
5154
5155 ++count;
5156 ++buckets[idle];
5157 }
5158
5159 for (i = 0; i < 63; ++i)
5160 {
5161 cli_print(cli, "%3d seconds : %7.2f%% (%6d)", i * 5, (double) buckets[i] * 100.0 / count , buckets[i]);
5162 }
5163 cli_print(cli, "lots of secs : %7.2f%% (%6d)", (double) buckets[63] * 100.0 / count , buckets[i]);
5164 cli_print(cli, "%d total sessions open.", count);
5165 return CLI_OK;
5166 }
5167
5168 int cmd_show_hist_open(struct cli_def *cli, char *command, char **argv, int argc)
5169 {
5170 int s, i;
5171 int count = 0;
5172 int buckets[64];
5173
5174 if (CLI_HELP_REQUESTED)
5175 return CLI_HELP_NO_ARGS;
5176
5177 time(&time_now);
5178 for (i = 0; i < 64;++i) buckets[i] = 0;
5179
5180 for (s = 1; s <= config->cluster_highest_sessionid ; ++s)
5181 {
5182 int open = 0, d;
5183 if (!session[s].opened)
5184 continue;
5185
5186 d = time_now - session[s].opened;
5187 if (d < 0)
5188 d = 0;
5189 while (d > 1 && open < 32)
5190 {
5191 ++open;
5192 d >>= 1; // half.
5193 }
5194 ++count;
5195 ++buckets[open];
5196 }
5197
5198 s = 1;
5199 for (i = 0; i < 30; ++i)
5200 {
5201 cli_print(cli, " < %8d seconds : %7.2f%% (%6d)", s, (double) buckets[i] * 100.0 / count , buckets[i]);
5202 s <<= 1;
5203 }
5204 cli_print(cli, "%d total sessions open.", count);
5205 return CLI_OK;
5206 }
5207
5208 /* Unhide an avp.
5209 *
5210 * This unencodes the AVP using the L2TP secret and the previously
5211 * stored random vector. It overwrites the hidden data with the
5212 * unhidden AVP subformat.
5213 */
5214 static void unhide_value(uint8_t *value, size_t len, uint16_t type, uint8_t *vector, size_t vec_len)
5215 {
5216 MD5_CTX ctx;
5217 uint8_t digest[16];
5218 uint8_t *last;
5219 size_t d = 0;
5220 uint16_t m = htons(type);
5221
5222 // Compute initial pad
5223 MD5_Init(&ctx);
5224 MD5_Update(&ctx, (unsigned char *) &m, 2);
5225 MD5_Update(&ctx, config->l2tp_secret, strlen(config->l2tp_secret));
5226 MD5_Update(&ctx, vector, vec_len);
5227 MD5_Final(digest, &ctx);
5228
5229 // pointer to last decoded 16 octets
5230 last = value;
5231
5232 while (len > 0)
5233 {
5234 // calculate a new pad based on the last decoded block
5235 if (d >= sizeof(digest))
5236 {
5237 MD5_Init(&ctx);
5238 MD5_Update(&ctx, config->l2tp_secret, strlen(config->l2tp_secret));
5239 MD5_Update(&ctx, last, sizeof(digest));
5240 MD5_Final(digest, &ctx);
5241
5242 d = 0;
5243 last = value;
5244 }
5245
5246 *value++ ^= digest[d++];
5247 len--;
5248 }
5249 }
5250
5251 int find_filter(char const *name, size_t len)
5252 {
5253 int free = -1;
5254 int i;
5255
5256 for (i = 0; i < MAXFILTER; i++)
5257 {
5258 if (!*ip_filters[i].name)
5259 {
5260 if (free < 0)
5261 free = i;
5262
5263 continue;
5264 }
5265
5266 if (strlen(ip_filters[i].name) != len)
5267 continue;
5268
5269 if (!strncmp(ip_filters[i].name, name, len))
5270 return i;
5271 }
5272
5273 return free;
5274 }
5275
5276 static int ip_filter_port(ip_filter_portt *p, uint16_t port)
5277 {
5278 switch (p->op)
5279 {
5280 case FILTER_PORT_OP_EQ: return port == p->port;
5281 case FILTER_PORT_OP_NEQ: return port != p->port;
5282 case FILTER_PORT_OP_GT: return port > p->port;
5283 case FILTER_PORT_OP_LT: return port < p->port;
5284 case FILTER_PORT_OP_RANGE: return port >= p->port && port <= p->port2;
5285 }
5286
5287 return 0;
5288 }
5289
5290 static int ip_filter_flag(uint8_t op, uint8_t sflags, uint8_t cflags, uint8_t flags)
5291 {
5292 switch (op)
5293 {
5294 case FILTER_FLAG_OP_ANY:
5295 return (flags & sflags) || (~flags & cflags);
5296
5297 case FILTER_FLAG_OP_ALL:
5298 return (flags & sflags) == sflags && (~flags & cflags) == cflags;
5299
5300 case FILTER_FLAG_OP_EST:
5301 return (flags & (TCP_FLAG_ACK|TCP_FLAG_RST)) && (~flags & TCP_FLAG_SYN);
5302 }
5303
5304 return 0;
5305 }
5306
5307 int ip_filter(uint8_t *buf, int len, uint8_t filter)
5308 {
5309 uint16_t frag_offset;
5310 uint8_t proto;
5311 in_addr_t src_ip;
5312 in_addr_t dst_ip;
5313 uint16_t src_port = 0;
5314 uint16_t dst_port = 0;
5315 uint8_t flags = 0;
5316 ip_filter_rulet *rule;
5317
5318 if (len < 20) // up to end of destination address
5319 return 0;
5320
5321 if ((*buf >> 4) != 4) // IPv4
5322 return 0;
5323
5324 frag_offset = ntohs(*(uint16_t *) (buf + 6)) & 0x1fff;
5325 proto = buf[9];
5326 src_ip = *(in_addr_t *) (buf + 12);
5327 dst_ip = *(in_addr_t *) (buf + 16);
5328
5329 if (frag_offset == 0 && (proto == IPPROTO_TCP || proto == IPPROTO_UDP))
5330 {
5331 int l = (buf[0] & 0xf) * 4; // length of IP header
5332 if (len < l + 4) // ports
5333 return 0;
5334
5335 src_port = ntohs(*(uint16_t *) (buf + l));
5336 dst_port = ntohs(*(uint16_t *) (buf + l + 2));
5337 if (proto == IPPROTO_TCP)
5338 {
5339 if (len < l + 14) // flags
5340 return 0;
5341
5342 flags = buf[l + 13] & 0x3f;
5343 }
5344 }
5345
5346 for (rule = ip_filters[filter].rules; rule->action; rule++)
5347 {
5348 if (rule->proto != IPPROTO_IP && proto != rule->proto)
5349 continue;
5350
5351 if (rule->src_wild != INADDR_BROADCAST &&
5352 (src_ip & ~rule->src_wild) != (rule->src_ip & ~rule->src_wild))
5353 continue;
5354
5355 if (rule->dst_wild != INADDR_BROADCAST &&
5356 (dst_ip & ~rule->dst_wild) != (rule->dst_ip & ~rule->dst_wild))
5357 continue;
5358
5359 if (frag_offset)
5360 {
5361 // layer 4 deny rules are skipped
5362 if (rule->action == FILTER_ACTION_DENY &&
5363 (rule->src_ports.op || rule->dst_ports.op || rule->tcp_flag_op))
5364 continue;
5365 }
5366 else
5367 {
5368 if (rule->frag)
5369 continue;
5370
5371 if (proto == IPPROTO_TCP || proto == IPPROTO_UDP)
5372 {
5373 if (rule->src_ports.op && !ip_filter_port(&rule->src_ports, src_port))
5374 continue;
5375
5376 if (rule->dst_ports.op && !ip_filter_port(&rule->dst_ports, dst_port))
5377 continue;
5378
5379 if (proto == IPPROTO_TCP && rule->tcp_flag_op &&
5380 !ip_filter_flag(rule->tcp_flag_op, rule->tcp_sflags, rule->tcp_cflags, flags))
5381 continue;
5382 }
5383 }
5384
5385 // matched
5386 rule->counter++;
5387 return rule->action == FILTER_ACTION_PERMIT;
5388 }
5389
5390 // default deny
5391 return 0;
5392 }