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Add grouping session functionality for load balancing and failover
[l2tpns.git] / cluster.c
1 // L2TPNS Clustering Stuff
2
3 #include <stdio.h>
4 #include <stdlib.h>
5 #include <stdarg.h>
6 #include <unistd.h>
7 #include <inttypes.h>
8 #include <sys/file.h>
9 #include <sys/stat.h>
10 #include <sys/socket.h>
11 #include <netinet/in.h>
12 #include <arpa/inet.h>
13 #include <sys/ioctl.h>
14 #include <net/if.h>
15 #include <string.h>
16 #include <malloc.h>
17 #include <errno.h>
18 #include <libcli.h>
19 #include <linux/rtnetlink.h>
20
21 #include "l2tpns.h"
22 #include "cluster.h"
23 #include "util.h"
24 #include "tbf.h"
25 #include "pppoe.h"
26
27 #ifdef BGP
28 #include "bgp.h"
29 #endif
30 /*
31 * All cluster packets have the same format.
32 *
33 * One or more instances of
34 * a 32 bit 'type' id.
35 * a 32 bit 'extra' data dependant on the 'type'.
36 * zero or more bytes of structure data, dependant on the type.
37 *
38 */
39
40 // Module variables.
41 extern int cluster_sockfd; // The filedescriptor for the cluster communications port.
42
43 in_addr_t my_address = 0; // The network address of my ethernet port.
44 static int walk_session_number = 0; // The next session to send when doing the slow table walk.
45 static int walk_bundle_number = 0; // The next bundle to send when doing the slow table walk.
46 static int walk_tunnel_number = 0; // The next tunnel to send when doing the slow table walk.
47 int forked = 0; // Sanity check: CLI must not diddle with heartbeat table
48
49 #define MAX_HEART_SIZE (8192) // Maximum size of heartbeat packet. Must be less than max IP packet size :)
50 #define MAX_CHANGES (MAX_HEART_SIZE/(sizeof(sessiont) + sizeof(int) ) - 2) // Assumes a session is the biggest type!
51
52 static struct {
53 int type;
54 int id;
55 } cluster_changes[MAX_CHANGES]; // Queue of changed structures that need to go out when next heartbeat.
56
57 static struct {
58 int seq;
59 int size;
60 uint8_t data[MAX_HEART_SIZE];
61 } past_hearts[HB_HISTORY_SIZE]; // Ring buffer of heartbeats that we've recently sent out. Needed so
62 // we can re-transmit if needed.
63
64 static struct {
65 in_addr_t peer;
66 uint32_t basetime;
67 clockt timestamp;
68 int uptodate;
69 } peers[CLUSTER_MAX_SIZE]; // List of all the peers we've heard from.
70 static int num_peers; // Number of peers in list.
71
72 static int rle_decompress(uint8_t **src_p, int ssize, uint8_t *dst, int dsize);
73 static int rle_compress(uint8_t **src_p, int ssize, uint8_t *dst, int dsize);
74
75 //
76 // Create a listening socket
77 //
78 // This joins the cluster multi-cast group.
79 //
80 int cluster_init()
81 {
82 struct sockaddr_in addr;
83 struct sockaddr_in interface_addr;
84 struct ip_mreq mreq;
85 struct ifreq ifr;
86 int opt;
87
88 config->cluster_undefined_sessions = MAXSESSION-1;
89 config->cluster_undefined_bundles = MAXBUNDLE-1;
90 config->cluster_undefined_tunnels = MAXTUNNEL-1;
91
92 if (!config->cluster_address)
93 return 0;
94 if (!*config->cluster_interface)
95 return 0;
96
97 cluster_sockfd = socket(AF_INET, SOCK_DGRAM, IPPROTO_UDP);
98
99 memset(&addr, 0, sizeof(addr));
100 addr.sin_family = AF_INET;
101 addr.sin_port = htons(CLUSTERPORT);
102 addr.sin_addr.s_addr = INADDR_ANY;
103 setsockopt(cluster_sockfd, SOL_SOCKET, SO_REUSEADDR, &addr, sizeof(addr));
104
105 opt = fcntl(cluster_sockfd, F_GETFL, 0);
106 fcntl(cluster_sockfd, F_SETFL, opt | O_NONBLOCK);
107
108 if (bind(cluster_sockfd, (void *) &addr, sizeof(addr)) < 0)
109 {
110 LOG(0, 0, 0, "Failed to bind cluster socket: %s\n", strerror(errno));
111 return -1;
112 }
113
114 strcpy(ifr.ifr_name, config->cluster_interface);
115 if (ioctl(cluster_sockfd, SIOCGIFADDR, &ifr) < 0)
116 {
117 LOG(0, 0, 0, "Failed to get interface address for (%s): %s\n", config->cluster_interface, strerror(errno));
118 return -1;
119 }
120
121 memcpy(&interface_addr, &ifr.ifr_addr, sizeof(interface_addr));
122 my_address = interface_addr.sin_addr.s_addr;
123
124 // Join multicast group.
125 mreq.imr_multiaddr.s_addr = config->cluster_address;
126 mreq.imr_interface = interface_addr.sin_addr;
127
128
129 opt = 0; // Turn off multicast loopback.
130 setsockopt(cluster_sockfd, IPPROTO_IP, IP_MULTICAST_LOOP, &opt, sizeof(opt));
131
132 if (config->cluster_mcast_ttl != 1)
133 {
134 uint8_t ttl = 0;
135 if (config->cluster_mcast_ttl > 0)
136 ttl = config->cluster_mcast_ttl < 256 ? config->cluster_mcast_ttl : 255;
137
138 setsockopt(cluster_sockfd, IPPROTO_IP, IP_MULTICAST_TTL, &ttl, sizeof(ttl));
139 }
140
141 if (setsockopt(cluster_sockfd, IPPROTO_IP, IP_ADD_MEMBERSHIP, &mreq, sizeof(mreq)) < 0)
142 {
143 LOG(0, 0, 0, "Failed to setsockopt (join mcast group): %s\n", strerror(errno));
144 return -1;
145 }
146
147 if (setsockopt(cluster_sockfd, IPPROTO_IP, IP_MULTICAST_IF, &interface_addr, sizeof(interface_addr)) < 0)
148 {
149 LOG(0, 0, 0, "Failed to setsockopt (set mcast interface): %s\n", strerror(errno));
150 return -1;
151 }
152
153 config->cluster_last_hb = TIME;
154 config->cluster_seq_number = -1;
155
156 return cluster_sockfd;
157 }
158
159
160 //
161 // Send a chunk of data to the entire cluster (usually via the multicast
162 // address ).
163 //
164
165 static int cluster_send_data(void *data, int datalen)
166 {
167 struct sockaddr_in addr = {0};
168
169 if (!cluster_sockfd) return -1;
170 if (!config->cluster_address) return 0;
171
172 addr.sin_addr.s_addr = config->cluster_address;
173 addr.sin_port = htons(CLUSTERPORT);
174 addr.sin_family = AF_INET;
175
176 LOG(5, 0, 0, "Cluster send data: %d bytes\n", datalen);
177
178 if (sendto(cluster_sockfd, data, datalen, MSG_NOSIGNAL, (void *) &addr, sizeof(addr)) < 0)
179 {
180 LOG(0, 0, 0, "sendto: %s\n", strerror(errno));
181 return -1;
182 }
183
184 return 0;
185 }
186
187 //
188 // Add a chunk of data to a heartbeat packet.
189 // Maintains the format. Assumes that the caller
190 // has passed in a big enough buffer!
191 //
192 static void add_type(uint8_t **p, int type, int more, uint8_t *data, int size)
193 {
194 *((uint32_t *) (*p)) = type;
195 *p += sizeof(uint32_t);
196
197 *((uint32_t *)(*p)) = more;
198 *p += sizeof(uint32_t);
199
200 if (data && size > 0) {
201 memcpy(*p, data, size);
202 *p += size;
203 }
204 }
205
206 // advertise our presence via BGP or gratuitous ARP
207 static void advertise_routes(void)
208 {
209 #ifdef BGP
210 if (bgp_configured)
211 bgp_enable_routing(1);
212 else
213 #endif /* BGP */
214 if (config->send_garp)
215 send_garp(config->bind_address); // Start taking traffic.
216 }
217
218 // withdraw our routes (BGP only)
219 static void withdraw_routes(void)
220 {
221 #ifdef BGP
222 if (bgp_configured)
223 bgp_enable_routing(0);
224 #endif /* BGP */
225 }
226
227 static void cluster_uptodate(void)
228 {
229 if (config->cluster_iam_uptodate)
230 return;
231
232 if (config->cluster_undefined_sessions || config->cluster_undefined_tunnels || config->cluster_undefined_bundles)
233 return;
234
235 config->cluster_iam_uptodate = 1;
236
237 LOG(0, 0, 0, "Now uptodate with master.\n");
238 advertise_routes();
239 }
240
241 //
242 // Send a unicast UDP packet to a peer with 'data' as the
243 // contents.
244 //
245 static int peer_send_data(in_addr_t peer, uint8_t *data, int size)
246 {
247 struct sockaddr_in addr = {0};
248
249 if (!cluster_sockfd) return -1;
250 if (!config->cluster_address) return 0;
251
252 if (!peer) // Odd??
253 return -1;
254
255 addr.sin_addr.s_addr = peer;
256 addr.sin_port = htons(CLUSTERPORT);
257 addr.sin_family = AF_INET;
258
259 LOG_HEX(5, "Peer send", data, size);
260
261 if (sendto(cluster_sockfd, data, size, MSG_NOSIGNAL, (void *) &addr, sizeof(addr)) < 0)
262 {
263 LOG(0, 0, 0, "sendto: %s\n", strerror(errno));
264 return -1;
265 }
266
267 return 0;
268 }
269
270 //
271 // Send a structured message to a peer with a single element of type 'type'.
272 //
273 static int peer_send_message(in_addr_t peer, int type, int more, uint8_t *data, int size)
274 {
275 uint8_t buf[65536]; // Vast overkill.
276 uint8_t *p = buf;
277
278 LOG(4, 0, 0, "Sending message to peer (type %d, more %d, size %d)\n", type, more, size);
279 add_type(&p, type, more, data, size);
280
281 return peer_send_data(peer, buf, (p-buf) );
282 }
283
284 // send a packet to the master
285 static int _forward_packet(uint8_t *data, int size, in_addr_t addr, int port, int type)
286 {
287 uint8_t buf[65536]; // Vast overkill.
288 uint8_t *p = buf;
289
290 if (!config->cluster_master_address) // No election has been held yet. Just skip it.
291 return -1;
292
293 LOG(4, 0, 0, "Forwarding packet from %s to master (size %d)\n", fmtaddr(addr, 0), size);
294
295 STAT(c_forwarded);
296 add_type(&p, type, addr, (uint8_t *) &port, sizeof(port)); // ick. should be uint16_t
297 memcpy(p, data, size);
298 p += size;
299
300 return peer_send_data(config->cluster_master_address, buf, (p - buf));
301 }
302
303 //
304 // Forward a state changing packet to the master.
305 //
306 // The master just processes the payload as if it had
307 // received it off the tun device.
308 //(note: THIS ROUTINE WRITES TO pack[-6]).
309 int master_forward_packet(uint8_t *data, int size, in_addr_t addr, int port)
310 {
311 uint8_t *p = data - (3 * sizeof(uint32_t));
312 uint8_t *psave = p;
313
314 if (!config->cluster_master_address) // No election has been held yet. Just skip it.
315 return -1;
316
317 LOG(4, 0, 0, "Forwarding packet from %s to master (size %d)\n", fmtaddr(addr, 0), size);
318
319 STAT(c_forwarded);
320 add_type(&p, C_FORWARD, addr, (uint8_t *) &port, sizeof(port)); // ick. should be uint16_t
321
322 return peer_send_data(config->cluster_master_address, psave, size + (3 * sizeof(uint32_t)));
323 }
324
325 // Forward PPPOE packet to the master.
326 //(note: THIS ROUTINE WRITES TO pack[-4]).
327 int master_forward_pppoe_packet(uint8_t *data, int size, uint8_t codepad)
328 {
329 uint8_t *p = data - (2 * sizeof(uint32_t));
330 uint8_t *psave = p;
331
332 if (!config->cluster_master_address) // No election has been held yet. Just skip it.
333 return -1;
334
335 LOG(4, 0, 0, "Forward PPPOE packet to master, code %s (size %d)\n", get_string_codepad(codepad), size);
336
337 STAT(c_forwarded);
338 add_type(&p, C_PPPOE_FORWARD, codepad, NULL, 0);
339
340 return peer_send_data(config->cluster_master_address, psave, size + (2 * sizeof(uint32_t)));
341 }
342
343 // Forward a DAE RADIUS packet to the master.
344 int master_forward_dae_packet(uint8_t *data, int size, in_addr_t addr, int port)
345 {
346 return _forward_packet(data, size, addr, port, C_FORWARD_DAE);
347 }
348
349 //
350 // Forward a throttled packet to the master for handling.
351 //
352 // The master just drops the packet into the appropriate
353 // token bucket queue, and lets normal processing take care
354 // of it.
355 //
356 int master_throttle_packet(int tbfid, uint8_t *data, int size)
357 {
358 uint8_t buf[65536]; // Vast overkill.
359 uint8_t *p = buf;
360
361 if (!config->cluster_master_address) // No election has been held yet. Just skip it.
362 return -1;
363
364 LOG(4, 0, 0, "Throttling packet master (size %d, tbfid %d)\n", size, tbfid);
365
366 add_type(&p, C_THROTTLE, tbfid, data, size);
367
368 return peer_send_data(config->cluster_master_address, buf, (p-buf) );
369
370 }
371
372 //
373 // Forward a walled garden packet to the master for handling.
374 //
375 // The master just writes the packet straight to the tun
376 // device (where is will normally loop through the
377 // firewall rules, and come back in on the tun device)
378 //
379 // (Note that this must be called with the tun header
380 // as the start of the data).
381 int master_garden_packet(sessionidt s, uint8_t *data, int size)
382 {
383 uint8_t buf[65536]; // Vast overkill.
384 uint8_t *p = buf;
385
386 if (!config->cluster_master_address) // No election has been held yet. Just skip it.
387 return -1;
388
389 LOG(4, 0, 0, "Walled garden packet to master (size %d)\n", size);
390
391 add_type(&p, C_GARDEN, s, data, size);
392
393 return peer_send_data(config->cluster_master_address, buf, (p-buf));
394
395 }
396
397 //
398 // Forward a MPPP packet to the master for handling.
399 //
400 // (Note that this must be called with the tun header
401 // as the start of the data).
402 // (i.e. this routine writes to data[-8]).
403 int master_forward_mppp_packet(sessionidt s, uint8_t *data, int size)
404 {
405 uint8_t *p = data - (2 * sizeof(uint32_t));
406 uint8_t *psave = p;
407
408 if (!config->cluster_master_address) // No election has been held yet. Just skip it.
409 return -1;
410
411 LOG(4, 0, 0, "Forward MPPP packet to master (size %d)\n", size);
412
413 add_type(&p, C_MPPP_FORWARD, s, NULL, 0);
414
415 return peer_send_data(config->cluster_master_address, psave, size + (2 * sizeof(uint32_t)));
416
417 }
418
419 //
420 // Send a chunk of data as a heartbeat..
421 // We save it in the history buffer as we do so.
422 //
423 static void send_heartbeat(int seq, uint8_t *data, int size)
424 {
425 int i;
426
427 if (size > sizeof(past_hearts[0].data))
428 {
429 LOG(0, 0, 0, "Tried to heartbeat something larger than the maximum packet!\n");
430 kill(0, SIGTERM);
431 exit(1);
432 }
433 i = seq % HB_HISTORY_SIZE;
434 past_hearts[i].seq = seq;
435 past_hearts[i].size = size;
436 memcpy(&past_hearts[i].data, data, size); // Save it.
437 cluster_send_data(data, size);
438 }
439
440 //
441 // Send an 'i am alive' message to every machine in the cluster.
442 //
443 void cluster_send_ping(time_t basetime)
444 {
445 uint8_t buff[100 + sizeof(pingt)];
446 uint8_t *p = buff;
447 pingt x;
448
449 if (config->cluster_iam_master && basetime) // We're heartbeating so no need to ping.
450 return;
451
452 LOG(5, 0, 0, "Sending cluster ping...\n");
453
454 x.ver = 1;
455 x.addr = config->bind_address;
456 x.undef = config->cluster_undefined_sessions + config->cluster_undefined_tunnels + config->cluster_undefined_bundles;
457 x.basetime = basetime;
458
459 add_type(&p, C_PING, basetime, (uint8_t *) &x, sizeof(x));
460 cluster_send_data(buff, (p-buff) );
461 }
462
463 //
464 // Walk the session counters looking for non-zero ones to send
465 // to the master. We send up to 600 of them at one time.
466 // We examine a maximum of 3000 sessions.
467 // (50k max session should mean that we normally
468 // examine the entire session table every 25 seconds).
469
470 #define MAX_B_RECS (600)
471 void master_update_counts(void)
472 {
473 int i, c;
474 bytest b[MAX_B_RECS+1];
475
476 if (config->cluster_iam_master) // Only happens on the slaves.
477 return;
478
479 if (!config->cluster_master_address) // If we don't have a master, skip it for a while.
480 return;
481
482 i = MAX_B_RECS * 5; // Examine max 3000 sessions;
483 if (config->cluster_highest_sessionid > i)
484 i = config->cluster_highest_sessionid;
485
486 for ( c = 0; i > 0 ; --i) {
487 // Next session to look at.
488 walk_session_number++;
489 if ( walk_session_number > config->cluster_highest_sessionid)
490 walk_session_number = 1;
491
492 if (!sess_local[walk_session_number].cin && !sess_local[walk_session_number].cout)
493 continue; // Unchanged. Skip it.
494
495 b[c].sid = walk_session_number;
496 b[c].pin = sess_local[walk_session_number].pin;
497 b[c].pout = sess_local[walk_session_number].pout;
498 b[c].cin = sess_local[walk_session_number].cin;
499 b[c].cout = sess_local[walk_session_number].cout;
500
501 // Reset counters.
502 sess_local[walk_session_number].pin = sess_local[walk_session_number].pout = 0;
503 sess_local[walk_session_number].cin = sess_local[walk_session_number].cout = 0;
504
505 if (++c > MAX_B_RECS) // Send a max of 600 elements in a packet.
506 break;
507 }
508
509 if (!c) // Didn't find any that changes. Get out of here!
510 return;
511
512
513 // Forward the data to the master.
514 LOG(4, 0, 0, "Sending byte counters to master (%d elements)\n", c);
515 peer_send_message(config->cluster_master_address, C_BYTES, c, (uint8_t *) &b, sizeof(b[0]) * c);
516 return;
517 }
518
519 //
520 // On the master, check how our slaves are going. If
521 // one of them's not up-to-date we'll heartbeat faster.
522 // If we don't have any of them, then we need to turn
523 // on our own packet handling!
524 //
525 void cluster_check_slaves(void)
526 {
527 int i;
528 static int have_peers = 0;
529 int had_peers = have_peers;
530 clockt t = TIME;
531
532 if (!config->cluster_iam_master)
533 return; // Only runs on the master...
534
535 config->cluster_iam_uptodate = 1; // cleared in loop below
536
537 for (i = have_peers = 0; i < num_peers; i++)
538 {
539 if ((peers[i].timestamp + config->cluster_hb_timeout) < t)
540 continue; // Stale peer! Skip them.
541
542 if (!peers[i].basetime)
543 continue; // Shutdown peer! Skip them.
544
545 if (peers[i].uptodate)
546 have_peers++;
547 else
548 config->cluster_iam_uptodate = 0; // Start fast heartbeats
549 }
550
551 // in a cluster, withdraw/add routes when we get a peer/lose peers
552 if (have_peers != had_peers)
553 {
554 if (had_peers < config->cluster_master_min_adv &&
555 have_peers >= config->cluster_master_min_adv)
556 withdraw_routes();
557
558 else if (had_peers >= config->cluster_master_min_adv &&
559 have_peers < config->cluster_master_min_adv)
560 advertise_routes();
561 }
562 }
563
564 //
565 // Check that we have a master. If it's been too
566 // long since we heard from a master then hold an election.
567 //
568 void cluster_check_master(void)
569 {
570 int i, count, high_unique_id = 0;
571 int last_free = 0;
572 clockt t = TIME;
573 static int probed = 0;
574 int have_peers;
575
576 if (config->cluster_iam_master)
577 return; // Only runs on the slaves...
578
579 // If the master is late (missed 2 hearbeats by a second and a
580 // hair) it may be that the switch has dropped us from the
581 // multicast group, try unicasting probes to the master
582 // which will hopefully respond with a unicast heartbeat that
583 // will allow us to limp along until the querier next runs.
584 if (config->cluster_master_address
585 && TIME > (config->cluster_last_hb + 2 * config->cluster_hb_interval + 11))
586 {
587 if (!probed || (TIME > (probed + 2 * config->cluster_hb_interval)))
588 {
589 probed = TIME;
590 LOG(1, 0, 0, "Heartbeat from master %.1fs late, probing...\n",
591 0.1 * (TIME - (config->cluster_last_hb + config->cluster_hb_interval)));
592
593 peer_send_message(config->cluster_master_address,
594 C_LASTSEEN, config->cluster_seq_number, NULL, 0);
595 }
596 } else { // We got a recent heartbeat; reset the probe flag.
597 probed = 0;
598 }
599
600 if (TIME < (config->cluster_last_hb + config->cluster_hb_timeout))
601 return; // Everything's ok!
602
603 config->cluster_last_hb = TIME + 1; // Just the one election thanks.
604 config->cluster_master_address = 0;
605
606 LOG(0, 0, 0, "Master timed out! Holding election...\n");
607
608 // In the process of shutting down, can't be master
609 if (main_quit)
610 return;
611
612 for (i = have_peers = 0; i < num_peers; i++)
613 {
614 if ((peers[i].timestamp + config->cluster_hb_timeout) < t)
615 continue; // Stale peer! Skip them.
616
617 if (!peers[i].basetime)
618 continue; // Shutdown peer! Skip them.
619
620 if (peers[i].basetime < basetime) {
621 LOG(1, 0, 0, "Expecting %s to become master\n", fmtaddr(peers[i].peer, 0));
622 return; // They'll win the election. Get out of here.
623 }
624
625 if (peers[i].basetime == basetime &&
626 peers[i].peer > my_address) {
627 LOG(1, 0, 0, "Expecting %s to become master\n", fmtaddr(peers[i].peer, 0));
628 return; // They'll win the election. Wait for them to come up.
629 }
630
631 if (peers[i].uptodate)
632 have_peers++;
633 }
634
635 // Wow. it's been ages since I last heard a heartbeat
636 // and I'm better than an of my peers so it's time
637 // to become a master!!!
638
639 config->cluster_iam_master = 1;
640 pppoe_send_garp(); // gratuitous arp of the pppoe interface
641
642 LOG(0, 0, 0, "I am declaring myself the master!\n");
643
644 if (have_peers < config->cluster_master_min_adv)
645 advertise_routes();
646 else
647 withdraw_routes();
648
649 if (config->cluster_seq_number == -1)
650 config->cluster_seq_number = 0;
651
652 //
653 // Go through and mark all the tunnels as defined.
654 // Count the highest used tunnel number as well.
655 //
656 config->cluster_highest_tunnelid = 0;
657 for (i = 0; i < MAXTUNNEL; ++i) {
658 if (tunnel[i].state == TUNNELUNDEF)
659 tunnel[i].state = TUNNELFREE;
660
661 if (tunnel[i].state != TUNNELFREE && i > config->cluster_highest_tunnelid)
662 config->cluster_highest_tunnelid = i;
663 }
664
665 //
666 // Go through and mark all the bundles as defined.
667 // Count the highest used bundle number as well.
668 //
669 config->cluster_highest_bundleid = 0;
670 for (i = 0; i < MAXBUNDLE; ++i) {
671 if (bundle[i].state == BUNDLEUNDEF)
672 bundle[i].state = BUNDLEFREE;
673
674 if (bundle[i].state != BUNDLEFREE && i > config->cluster_highest_bundleid)
675 config->cluster_highest_bundleid = i;
676 }
677
678 //
679 // Go through and mark all the sessions as being defined.
680 // reset the idle timeouts.
681 // add temporary byte counters to permanent ones.
682 // Re-string the free list.
683 // Find the ID of the highest session.
684 last_free = 0;
685 high_unique_id = 0;
686 config->cluster_highest_sessionid = 0;
687 for (i = 0, count = 0; i < MAXSESSION; ++i) {
688 if (session[i].tunnel == T_UNDEF) {
689 session[i].tunnel = T_FREE;
690 ++count;
691 }
692
693 if (!session[i].opened) { // Unused session. Add to free list.
694 memset(&session[i], 0, sizeof(session[i]));
695 session[i].tunnel = T_FREE;
696 session[last_free].next = i;
697 session[i].next = 0;
698 last_free = i;
699 continue;
700 }
701
702 // Reset idle timeouts..
703 session[i].last_packet = session[i].last_data = time_now;
704
705 // Reset die relative to our uptime rather than the old master's
706 if (session[i].die) session[i].die = TIME;
707
708 // Accumulate un-sent byte/packet counters.
709 increment_counter(&session[i].cin, &session[i].cin_wrap, sess_local[i].cin);
710 increment_counter(&session[i].cout, &session[i].cout_wrap, sess_local[i].cout);
711 session[i].cin_delta += sess_local[i].cin;
712 session[i].cout_delta += sess_local[i].cout;
713 session[i].coutgrp_delta += sess_local[i].cout;
714
715 session[i].pin += sess_local[i].pin;
716 session[i].pout += sess_local[i].pout;
717
718 sess_local[i].cin = sess_local[i].cout = 0;
719 sess_local[i].pin = sess_local[i].pout = 0;
720
721 sess_local[i].radius = 0; // Reset authentication as the radius blocks aren't up to date.
722
723 if (session[i].unique_id >= high_unique_id) // This is different to the index into the session table!!!
724 high_unique_id = session[i].unique_id+1;
725
726 session[i].tbf_in = session[i].tbf_out = 0; // Remove stale pointers from old master.
727 throttle_session(i, session[i].throttle_in, session[i].throttle_out);
728
729 config->cluster_highest_sessionid = i;
730 }
731
732 session[last_free].next = 0; // End of chain.
733 last_id = high_unique_id; // Keep track of the highest used session ID.
734
735 become_master();
736
737 rebuild_address_pool();
738
739 // If we're not the very first master, this is a big issue!
740 if (count > 0)
741 LOG(0, 0, 0, "Warning: Fixed %d uninitialized sessions in becoming master!\n", count);
742
743 config->cluster_undefined_sessions = 0;
744 config->cluster_undefined_bundles = 0;
745 config->cluster_undefined_tunnels = 0;
746 config->cluster_iam_uptodate = 1; // assume all peers are up-to-date
747
748 // FIXME. We need to fix up the tunnel control message
749 // queue here! There's a number of other variables we
750 // should also update.
751 }
752
753
754 //
755 // Check that our session table is validly matching what the
756 // master has in mind.
757 //
758 // In particular, if we have too many sessions marked 'undefined'
759 // we fix it up here, and we ensure that the 'first free session'
760 // pointer is valid.
761 //
762 static void cluster_check_sessions(int highsession, int freesession_ptr, int highbundle, int hightunnel)
763 {
764 int i;
765
766 sessionfree = freesession_ptr; // Keep the freesession ptr valid.
767
768 if (config->cluster_iam_uptodate)
769 return;
770
771 if (highsession > config->cluster_undefined_sessions && highbundle > config->cluster_undefined_bundles && hightunnel > config->cluster_undefined_tunnels)
772 return;
773
774 // Clear out defined sessions, counting the number of
775 // undefs remaining.
776 config->cluster_undefined_sessions = 0;
777 for (i = 1 ; i < MAXSESSION; ++i) {
778 if (i > highsession) {
779 if (session[i].tunnel == T_UNDEF) session[i].tunnel = T_FREE; // Defined.
780 continue;
781 }
782
783 if (session[i].tunnel == T_UNDEF)
784 ++config->cluster_undefined_sessions;
785 }
786
787 // Clear out defined bundles, counting the number of
788 // undefs remaining.
789 config->cluster_undefined_bundles = 0;
790 for (i = 1 ; i < MAXBUNDLE; ++i) {
791 if (i > highbundle) {
792 if (bundle[i].state == BUNDLEUNDEF) bundle[i].state = BUNDLEFREE; // Defined.
793 continue;
794 }
795
796 if (bundle[i].state == BUNDLEUNDEF)
797 ++config->cluster_undefined_bundles;
798 }
799
800 // Clear out defined tunnels, counting the number of
801 // undefs remaining.
802 config->cluster_undefined_tunnels = 0;
803 for (i = 1 ; i < MAXTUNNEL; ++i) {
804 if (i > hightunnel) {
805 if (tunnel[i].state == TUNNELUNDEF) tunnel[i].state = TUNNELFREE; // Defined.
806 continue;
807 }
808
809 if (tunnel[i].state == TUNNELUNDEF)
810 ++config->cluster_undefined_tunnels;
811 }
812
813
814 if (config->cluster_undefined_sessions || config->cluster_undefined_tunnels || config->cluster_undefined_bundles) {
815 LOG(2, 0, 0, "Cleared undefined sessions/bundles/tunnels. %d sess (high %d), %d bund (high %d), %d tunn (high %d)\n",
816 config->cluster_undefined_sessions, highsession, config->cluster_undefined_bundles, highbundle, config->cluster_undefined_tunnels, hightunnel);
817 return;
818 }
819
820 // Are we up to date?
821
822 if (!config->cluster_iam_uptodate)
823 cluster_uptodate();
824 }
825
826 static int hb_add_type(uint8_t **p, int type, int id)
827 {
828 switch (type) {
829 case C_CSESSION: { // Compressed C_SESSION.
830 uint8_t c[sizeof(sessiont) * 2]; // Bigger than worst case.
831 uint8_t *d = (uint8_t *) &session[id];
832 uint8_t *orig = d;
833 int size;
834
835 size = rle_compress( &d, sizeof(sessiont), c, sizeof(c) );
836
837 // Did we compress the full structure, and is the size actually
838 // reduced??
839 if ( (d - orig) == sizeof(sessiont) && size < sizeof(sessiont) ) {
840 add_type(p, C_CSESSION, id, c, size);
841 break;
842 }
843 // Failed to compress : Fall through.
844 }
845 case C_SESSION:
846 add_type(p, C_SESSION, id, (uint8_t *) &session[id], sizeof(sessiont));
847 break;
848
849 case C_CBUNDLE: { // Compressed C_BUNDLE
850 uint8_t c[sizeof(bundlet) * 2]; // Bigger than worst case.
851 uint8_t *d = (uint8_t *) &bundle[id];
852 uint8_t *orig = d;
853 int size;
854
855 size = rle_compress( &d, sizeof(bundlet), c, sizeof(c) );
856
857 // Did we compress the full structure, and is the size actually
858 // reduced??
859 if ( (d - orig) == sizeof(bundlet) && size < sizeof(bundlet) ) {
860 add_type(p, C_CBUNDLE, id, c, size);
861 break;
862 }
863 // Failed to compress : Fall through.
864 }
865
866 case C_BUNDLE:
867 add_type(p, C_BUNDLE, id, (uint8_t *) &bundle[id], sizeof(bundlet));
868 break;
869
870 case C_CTUNNEL: { // Compressed C_TUNNEL
871 uint8_t c[sizeof(tunnelt) * 2]; // Bigger than worst case.
872 uint8_t *d = (uint8_t *) &tunnel[id];
873 uint8_t *orig = d;
874 int size;
875
876 size = rle_compress( &d, sizeof(tunnelt), c, sizeof(c) );
877
878 // Did we compress the full structure, and is the size actually
879 // reduced??
880 if ( (d - orig) == sizeof(tunnelt) && size < sizeof(tunnelt) ) {
881 add_type(p, C_CTUNNEL, id, c, size);
882 break;
883 }
884 // Failed to compress : Fall through.
885 }
886 case C_TUNNEL:
887 add_type(p, C_TUNNEL, id, (uint8_t *) &tunnel[id], sizeof(tunnelt));
888 break;
889 default:
890 LOG(0, 0, 0, "Found an invalid type in heart queue! (%d)\n", type);
891 kill(0, SIGTERM);
892 exit(1);
893 }
894 return 0;
895 }
896
897 //
898 // Send a heartbeat, incidently sending out any queued changes..
899 //
900 void cluster_heartbeat()
901 {
902 int i, count = 0, tcount = 0, bcount = 0;
903 uint8_t buff[MAX_HEART_SIZE + sizeof(heartt) + sizeof(int) ];
904 heartt h;
905 uint8_t *p = buff;
906
907 if (!config->cluster_iam_master) // Only the master does this.
908 return;
909
910 config->cluster_table_version += config->cluster_num_changes;
911
912 // Fill out the heartbeat header.
913 memset(&h, 0, sizeof(h));
914
915 h.version = HB_VERSION;
916 h.seq = config->cluster_seq_number;
917 h.basetime = basetime;
918 h.clusterid = config->bind_address; // Will this do??
919 h.basetime = basetime;
920 h.highsession = config->cluster_highest_sessionid;
921 h.freesession = sessionfree;
922 h.hightunnel = config->cluster_highest_tunnelid;
923 h.highbundle = config->cluster_highest_bundleid;
924 h.size_sess = sizeof(sessiont); // Just in case.
925 h.size_bund = sizeof(bundlet);
926 h.size_tunn = sizeof(tunnelt);
927 h.interval = config->cluster_hb_interval;
928 h.timeout = config->cluster_hb_timeout;
929 h.table_version = config->cluster_table_version;
930
931 add_type(&p, C_HEARTBEAT, HB_VERSION, (uint8_t *) &h, sizeof(h));
932
933 for (i = 0; i < config->cluster_num_changes; ++i) {
934 hb_add_type(&p, cluster_changes[i].type, cluster_changes[i].id);
935 }
936
937 if (p > (buff + sizeof(buff))) { // Did we somehow manage to overun the buffer?
938 LOG(0, 0, 0, "FATAL: Overran the heartbeat buffer! This is fatal. Exiting. (size %d)\n", (int) (p - buff));
939 kill(0, SIGTERM);
940 exit(1);
941 }
942
943 //
944 // Fill out the packet with sessions from the session table...
945 // (not forgetting to leave space so we can get some tunnels in too )
946 while ( (p + sizeof(uint32_t) * 2 + sizeof(sessiont) * 2 ) < (buff + MAX_HEART_SIZE) ) {
947
948 if (!walk_session_number) // session #0 isn't valid.
949 ++walk_session_number;
950
951 if (count >= config->cluster_highest_sessionid) // If we're a small cluster, don't go wild.
952 break;
953
954 hb_add_type(&p, C_CSESSION, walk_session_number);
955 walk_session_number = (1+walk_session_number)%(config->cluster_highest_sessionid+1); // +1 avoids divide by zero.
956
957 ++count; // Count the number of extra sessions we're sending.
958 }
959
960 //
961 // Fill out the packet with tunnels from the tunnel table...
962 // This effectively means we walk the tunnel table more quickly
963 // than the session table. This is good because stuffing up a
964 // tunnel is a much bigger deal than stuffing up a session.
965 //
966 while ( (p + sizeof(uint32_t) * 2 + sizeof(tunnelt) ) < (buff + MAX_HEART_SIZE) ) {
967
968 if (!walk_tunnel_number) // tunnel #0 isn't valid.
969 ++walk_tunnel_number;
970
971 if (tcount >= config->cluster_highest_tunnelid)
972 break;
973
974 hb_add_type(&p, C_CTUNNEL, walk_tunnel_number);
975 walk_tunnel_number = (1+walk_tunnel_number)%(config->cluster_highest_tunnelid+1); // +1 avoids divide by zero.
976
977 ++tcount;
978 }
979
980 //
981 // Fill out the packet with bundles from the bundle table...
982 while ( (p + sizeof(uint32_t) * 2 + sizeof(bundlet) ) < (buff + MAX_HEART_SIZE) ) {
983
984 if (!walk_bundle_number) // bundle #0 isn't valid.
985 ++walk_bundle_number;
986
987 if (bcount >= config->cluster_highest_bundleid)
988 break;
989
990 hb_add_type(&p, C_CBUNDLE, walk_bundle_number);
991 walk_bundle_number = (1+walk_bundle_number)%(config->cluster_highest_bundleid+1); // +1 avoids divide by zero.
992 ++bcount;
993 }
994
995 //
996 // Did we do something wrong?
997 if (p > (buff + sizeof(buff))) { // Did we somehow manage to overun the buffer?
998 LOG(0, 0, 0, "Overran the heartbeat buffer now! This is fatal. Exiting. (size %d)\n", (int) (p - buff));
999 kill(0, SIGTERM);
1000 exit(1);
1001 }
1002
1003 LOG(4, 0, 0, "Sending v%d heartbeat #%d, change #%" PRIu64 " with %d changes "
1004 "(%d x-sess, %d x-bundles, %d x-tunnels, %d highsess, %d highbund, %d hightun, size %d)\n",
1005 HB_VERSION, h.seq, h.table_version, config->cluster_num_changes,
1006 count, bcount, tcount, config->cluster_highest_sessionid, config->cluster_highest_bundleid,
1007 config->cluster_highest_tunnelid, (int) (p - buff));
1008
1009 config->cluster_num_changes = 0;
1010
1011 send_heartbeat(h.seq, buff, (p-buff) ); // Send out the heartbeat to the cluster, keeping a copy of it.
1012
1013 config->cluster_seq_number = (config->cluster_seq_number+1)%HB_MAX_SEQ; // Next seq number to use.
1014 }
1015
1016 //
1017 // A structure of type 'type' has changed; Add it to the queue to send.
1018 //
1019 static int type_changed(int type, int id)
1020 {
1021 int i;
1022
1023 for (i = 0 ; i < config->cluster_num_changes ; ++i)
1024 {
1025 if ( cluster_changes[i].id == id && cluster_changes[i].type == type)
1026 {
1027 // Already marked for change, remove it
1028 --config->cluster_num_changes;
1029 memmove(&cluster_changes[i],
1030 &cluster_changes[i+1],
1031 (config->cluster_num_changes - i) * sizeof(cluster_changes[i]));
1032 break;
1033 }
1034 }
1035
1036 cluster_changes[config->cluster_num_changes].type = type;
1037 cluster_changes[config->cluster_num_changes].id = id;
1038 ++config->cluster_num_changes;
1039
1040 if (config->cluster_num_changes > MAX_CHANGES)
1041 cluster_heartbeat(); // flush now
1042
1043 return 1;
1044 }
1045
1046 // A particular session has been changed!
1047 int cluster_send_session(int sid)
1048 {
1049 if (!config->cluster_iam_master) {
1050 LOG(0, sid, 0, "I'm not a master, but I just tried to change a session!\n");
1051 return -1;
1052 }
1053
1054 if (forked) {
1055 LOG(0, sid, 0, "cluster_send_session called from child process!\n");
1056 return -1;
1057 }
1058
1059 return type_changed(C_CSESSION, sid);
1060 }
1061
1062 // A particular bundle has been changed!
1063 int cluster_send_bundle(int bid)
1064 {
1065 if (!config->cluster_iam_master) {
1066 LOG(0, 0, bid, "I'm not a master, but I just tried to change a bundle!\n");
1067 return -1;
1068 }
1069
1070 return type_changed(C_CBUNDLE, bid);
1071 }
1072
1073 // A particular tunnel has been changed!
1074 int cluster_send_tunnel(int tid)
1075 {
1076 if (!config->cluster_iam_master) {
1077 LOG(0, 0, tid, "I'm not a master, but I just tried to change a tunnel!\n");
1078 return -1;
1079 }
1080
1081 return type_changed(C_CTUNNEL, tid);
1082 }
1083
1084
1085 //
1086 // We're a master, and a slave has just told us that it's
1087 // missed a packet. We'll resend it every packet since
1088 // the last one it's seen.
1089 //
1090 static int cluster_catchup_slave(int seq, in_addr_t slave)
1091 {
1092 int s;
1093 int diff;
1094
1095 LOG(1, 0, 0, "Slave %s sent LASTSEEN with seq %d\n", fmtaddr(slave, 0), seq);
1096 if (!config->cluster_iam_master) {
1097 LOG(1, 0, 0, "Got LASTSEEN but I'm not a master! Redirecting it to %s.\n",
1098 fmtaddr(config->cluster_master_address, 0));
1099
1100 peer_send_message(slave, C_MASTER, config->cluster_master_address, NULL, 0);
1101 return 0;
1102 }
1103
1104 diff = config->cluster_seq_number - seq; // How many packet do we need to send?
1105 if (diff < 0)
1106 diff += HB_MAX_SEQ;
1107
1108 if (diff >= HB_HISTORY_SIZE) { // Ouch. We don't have the packet to send it!
1109 LOG(0, 0, 0, "A slave asked for message %d when our seq number is %d. Killing it.\n",
1110 seq, config->cluster_seq_number);
1111 return peer_send_message(slave, C_KILL, seq, NULL, 0);// Kill the slave. Nothing else to do.
1112 }
1113
1114 LOG(1, 0, 0, "Sending %d catchup packets to slave %s\n", diff, fmtaddr(slave, 0) );
1115
1116 // Now resend every packet that it missed, in order.
1117 while (seq != config->cluster_seq_number) {
1118 s = seq % HB_HISTORY_SIZE;
1119 if (seq != past_hearts[s].seq) {
1120 LOG(0, 0, 0, "Tried to re-send heartbeat for %s but %d doesn't match %d! (%d,%d)\n",
1121 fmtaddr(slave, 0), seq, past_hearts[s].seq, s, config->cluster_seq_number);
1122 return -1; // What to do here!?
1123 }
1124 peer_send_data(slave, past_hearts[s].data, past_hearts[s].size);
1125 seq = (seq+1)%HB_MAX_SEQ; // Increment to next seq number.
1126 }
1127 return 0; // All good!
1128 }
1129
1130 //
1131 // We've heard from another peer! Add it to the list
1132 // that we select from at election time.
1133 //
1134 static int cluster_add_peer(in_addr_t peer, time_t basetime, pingt *pp, int size)
1135 {
1136 int i;
1137 in_addr_t clusterid;
1138 pingt p;
1139
1140 // Allow for backward compatability.
1141 // Just the ping packet into a new structure to allow
1142 // for the possibility that we might have received
1143 // more or fewer elements than we were expecting.
1144 if (size > sizeof(p))
1145 size = sizeof(p);
1146
1147 memset( (void *) &p, 0, sizeof(p) );
1148 memcpy( (void *) &p, (void *) pp, size);
1149
1150 clusterid = p.addr;
1151 if (clusterid != config->bind_address)
1152 {
1153 // Is this for us?
1154 LOG(4, 0, 0, "Skipping ping from %s (different cluster)\n", fmtaddr(peer, 0));
1155 return 0;
1156 }
1157
1158 for (i = 0; i < num_peers ; ++i)
1159 {
1160 if (peers[i].peer != peer)
1161 continue;
1162
1163 // This peer already exists. Just update the timestamp.
1164 peers[i].basetime = basetime;
1165 peers[i].timestamp = TIME;
1166 peers[i].uptodate = !p.undef;
1167 break;
1168 }
1169
1170 // Is this the master shutting down??
1171 if (peer == config->cluster_master_address) {
1172 LOG(3, 0, 0, "Master %s %s\n", fmtaddr(config->cluster_master_address, 0),
1173 basetime ? "has restarted!" : "shutting down...");
1174
1175 config->cluster_master_address = 0;
1176 config->cluster_last_hb = 0; // Force an election.
1177 cluster_check_master();
1178 }
1179
1180 if (i >= num_peers)
1181 {
1182 LOG(4, 0, 0, "Adding %s as a peer\n", fmtaddr(peer, 0));
1183
1184 // Not found. Is there a stale slot to re-use?
1185 for (i = 0; i < num_peers ; ++i)
1186 {
1187 if (!peers[i].basetime) // Shutdown
1188 break;
1189
1190 if ((peers[i].timestamp + config->cluster_hb_timeout * 10) < TIME) // Stale.
1191 break;
1192 }
1193
1194 if (i >= CLUSTER_MAX_SIZE)
1195 {
1196 // Too many peers!!
1197 LOG(0, 0, 0, "Tried to add %s as a peer, but I already have %d of them!\n", fmtaddr(peer, 0), i);
1198 return -1;
1199 }
1200
1201 peers[i].peer = peer;
1202 peers[i].basetime = basetime;
1203 peers[i].timestamp = TIME;
1204 peers[i].uptodate = !p.undef;
1205 if (i == num_peers)
1206 ++num_peers;
1207
1208 LOG(1, 0, 0, "Added %s as a new peer. Now %d peers\n", fmtaddr(peer, 0), num_peers);
1209 }
1210
1211 return 1;
1212 }
1213
1214 // A slave responds with C_MASTER when it gets a message which should have gone to a master.
1215 static int cluster_set_master(in_addr_t peer, in_addr_t master)
1216 {
1217 if (config->cluster_iam_master) // Sanity...
1218 return 0;
1219
1220 LOG(3, 0, 0, "Peer %s set the master to %s...\n", fmtaddr(peer, 0),
1221 fmtaddr(master, 1));
1222
1223 config->cluster_master_address = master;
1224 if (master)
1225 {
1226 // catchup with new master
1227 peer_send_message(master, C_LASTSEEN, config->cluster_seq_number, NULL, 0);
1228
1229 // delay next election
1230 config->cluster_last_hb = TIME;
1231 }
1232
1233 // run election (or reset "probed" if master was set)
1234 cluster_check_master();
1235 return 0;
1236 }
1237
1238 /* Handle the slave updating the byte counters for the master. */
1239 //
1240 // Note that we don't mark the session as dirty; We rely on
1241 // the slow table walk to propogate this back out to the slaves.
1242 //
1243 static int cluster_handle_bytes(uint8_t *data, int size)
1244 {
1245 bytest *b;
1246
1247 b = (bytest *) data;
1248
1249 LOG(3, 0, 0, "Got byte counter update (size %d)\n", size);
1250
1251 /* Loop around, adding the byte
1252 counts to each of the sessions. */
1253
1254 while (size >= sizeof(*b) ) {
1255 if (b->sid > MAXSESSION) {
1256 LOG(0, 0, 0, "Got C_BYTES with session #%d!\n", b->sid);
1257 return -1; /* Abort processing */
1258 }
1259
1260 session[b->sid].pin += b->pin;
1261 session[b->sid].pout += b->pout;
1262
1263 increment_counter(&session[b->sid].cin, &session[b->sid].cin_wrap, b->cin);
1264 increment_counter(&session[b->sid].cout, &session[b->sid].cout_wrap, b->cout);
1265
1266 session[b->sid].cin_delta += b->cin;
1267 session[b->sid].cout_delta += b->cout;
1268 session[b->sid].coutgrp_delta += b->cout;
1269
1270 if (b->cin)
1271 session[b->sid].last_packet = session[b->sid].last_data = time_now;
1272 else if (b->cout)
1273 session[b->sid].last_data = time_now;
1274
1275 size -= sizeof(*b);
1276 ++b;
1277 }
1278
1279 if (size != 0)
1280 LOG(0, 0, 0, "Got C_BYTES with %d bytes of trailing junk!\n", size);
1281
1282 return size;
1283 }
1284
1285 //
1286 // Handle receiving a session structure in a heartbeat packet.
1287 //
1288 static int cluster_recv_session(int more, uint8_t *p)
1289 {
1290 if (more >= MAXSESSION) {
1291 LOG(0, 0, 0, "DANGER: Received a heartbeat session id > MAXSESSION!\n");
1292 return -1;
1293 }
1294
1295 if (session[more].tunnel == T_UNDEF) {
1296 if (config->cluster_iam_uptodate) { // Sanity.
1297 LOG(0, 0, 0, "I thought I was uptodate but I just found an undefined session!\n");
1298 } else {
1299 --config->cluster_undefined_sessions;
1300 }
1301 }
1302
1303 load_session(more, (sessiont *) p); // Copy session into session table..
1304
1305 LOG(5, more, 0, "Received session update (%d undef)\n", config->cluster_undefined_sessions);
1306
1307 if (!config->cluster_iam_uptodate)
1308 cluster_uptodate(); // Check to see if we're up to date.
1309
1310 return 0;
1311 }
1312
1313 static int cluster_recv_bundle(int more, uint8_t *p)
1314 {
1315 if (more >= MAXBUNDLE) {
1316 LOG(0, 0, 0, "DANGER: Received a bundle id > MAXBUNDLE!\n");
1317 return -1;
1318 }
1319
1320 if (bundle[more].state == BUNDLEUNDEF) {
1321 if (config->cluster_iam_uptodate) { // Sanity.
1322 LOG(0, 0, 0, "I thought I was uptodate but I just found an undefined bundle!\n");
1323 } else {
1324 --config->cluster_undefined_bundles;
1325 }
1326 }
1327
1328 memcpy(&bundle[more], p, sizeof(bundle[more]) );
1329
1330 LOG(5, 0, more, "Received bundle update\n");
1331
1332 if (!config->cluster_iam_uptodate)
1333 cluster_uptodate(); // Check to see if we're up to date.
1334
1335 return 0;
1336 }
1337
1338 static int cluster_recv_tunnel(int more, uint8_t *p)
1339 {
1340 if (more >= MAXTUNNEL) {
1341 LOG(0, 0, 0, "DANGER: Received a tunnel session id > MAXTUNNEL!\n");
1342 return -1;
1343 }
1344
1345 if (tunnel[more].state == TUNNELUNDEF) {
1346 if (config->cluster_iam_uptodate) { // Sanity.
1347 LOG(0, 0, 0, "I thought I was uptodate but I just found an undefined tunnel!\n");
1348 } else {
1349 --config->cluster_undefined_tunnels;
1350 }
1351 }
1352
1353 memcpy(&tunnel[more], p, sizeof(tunnel[more]) );
1354
1355 //
1356 // Clear tunnel control messages. These are dynamically allocated.
1357 // If we get unlucky, this may cause the tunnel to drop!
1358 //
1359 tunnel[more].controls = tunnel[more].controle = NULL;
1360 tunnel[more].controlc = 0;
1361
1362 LOG(5, 0, more, "Received tunnel update\n");
1363
1364 if (!config->cluster_iam_uptodate)
1365 cluster_uptodate(); // Check to see if we're up to date.
1366
1367 return 0;
1368 }
1369
1370
1371 // pre v6 heartbeat session structure
1372 struct oldsession {
1373 sessionidt next;
1374 sessionidt far;
1375 tunnelidt tunnel;
1376 uint8_t flags;
1377 struct {
1378 uint8_t phase;
1379 uint8_t lcp:4;
1380 uint8_t ipcp:4;
1381 uint8_t ipv6cp:4;
1382 uint8_t ccp:4;
1383 } ppp;
1384 char reserved_1[2];
1385 in_addr_t ip;
1386 int ip_pool_index;
1387 uint32_t unique_id;
1388 char reserved_2[4];
1389 uint32_t magic;
1390 uint32_t pin, pout;
1391 uint32_t cin, cout;
1392 uint32_t cin_wrap, cout_wrap;
1393 uint32_t cin_delta, cout_delta;
1394 uint16_t throttle_in;
1395 uint16_t throttle_out;
1396 uint8_t filter_in;
1397 uint8_t filter_out;
1398 uint16_t mru;
1399 clockt opened;
1400 clockt die;
1401 uint32_t session_timeout;
1402 uint32_t idle_timeout;
1403 time_t last_packet;
1404 time_t last_data;
1405 in_addr_t dns1, dns2;
1406 routet route[MAXROUTE];
1407 uint16_t tbf_in;
1408 uint16_t tbf_out;
1409 int random_vector_length;
1410 uint8_t random_vector[MAXTEL];
1411 char user[MAXUSER];
1412 char called[MAXTEL];
1413 char calling[MAXTEL];
1414 uint32_t tx_connect_speed;
1415 uint32_t rx_connect_speed;
1416 clockt timeout;
1417 uint32_t mrru;
1418 uint8_t mssf;
1419 epdist epdis;
1420 bundleidt bundle;
1421 in_addr_t snoop_ip;
1422 uint16_t snoop_port;
1423 uint8_t walled_garden;
1424 uint8_t ipv6prefixlen;
1425 struct in6_addr ipv6route;
1426 char reserved_3[11];
1427 };
1428
1429 static uint8_t *convert_session(struct oldsession *old)
1430 {
1431 static sessiont new;
1432 int i;
1433
1434 memset(&new, 0, sizeof(new));
1435
1436 new.next = old->next;
1437 new.far = old->far;
1438 new.tunnel = old->tunnel;
1439 new.flags = old->flags;
1440 new.ppp.phase = old->ppp.phase;
1441 new.ppp.lcp = old->ppp.lcp;
1442 new.ppp.ipcp = old->ppp.ipcp;
1443 new.ppp.ipv6cp = old->ppp.ipv6cp;
1444 new.ppp.ccp = old->ppp.ccp;
1445 new.ip = old->ip;
1446 new.ip_pool_index = old->ip_pool_index;
1447 new.unique_id = old->unique_id;
1448 new.magic = old->magic;
1449 new.pin = old->pin;
1450 new.pout = old->pout;
1451 new.cin = old->cin;
1452 new.cout = old->cout;
1453 new.cin_wrap = old->cin_wrap;
1454 new.cout_wrap = old->cout_wrap;
1455 new.cin_delta = old->cin_delta;
1456 new.cout_delta = old->cout_delta;
1457 new.throttle_in = old->throttle_in;
1458 new.throttle_out = old->throttle_out;
1459 new.filter_in = old->filter_in;
1460 new.filter_out = old->filter_out;
1461 new.mru = old->mru;
1462 new.opened = old->opened;
1463 new.die = old->die;
1464 new.session_timeout = old->session_timeout;
1465 new.idle_timeout = old->idle_timeout;
1466 new.last_packet = old->last_packet;
1467 new.last_data = old->last_data;
1468 new.dns1 = old->dns1;
1469 new.dns2 = old->dns2;
1470 new.tbf_in = old->tbf_in;
1471 new.tbf_out = old->tbf_out;
1472 new.random_vector_length = old->random_vector_length;
1473 new.tx_connect_speed = old->tx_connect_speed;
1474 new.rx_connect_speed = old->rx_connect_speed;
1475 new.timeout = old->timeout;
1476 new.mrru = old->mrru;
1477 new.mssf = old->mssf;
1478 new.epdis = old->epdis;
1479 new.bundle = old->bundle;
1480 new.snoop_ip = old->snoop_ip;
1481 new.snoop_port = old->snoop_port;
1482 new.walled_garden = old->walled_garden;
1483 new.ipv6prefixlen = old->ipv6prefixlen;
1484 new.ipv6route = old->ipv6route;
1485
1486 memcpy(new.random_vector, old->random_vector, sizeof(new.random_vector));
1487 memcpy(new.user, old->user, sizeof(new.user));
1488 memcpy(new.called, old->called, sizeof(new.called));
1489 memcpy(new.calling, old->calling, sizeof(new.calling));
1490
1491 for (i = 0; i < MAXROUTE; i++)
1492 memcpy(&new.route[i], &old->route[i], sizeof(new.route[i]));
1493
1494 return (uint8_t *) &new;
1495 }
1496
1497 //
1498 // Process a heartbeat..
1499 //
1500 // v6: added RADIUS class attribute, re-ordered session structure
1501 // v7: added tunnelt attribute at the end of struct (tunnelt size change)
1502 static int cluster_process_heartbeat(uint8_t *data, int size, int more, uint8_t *p, in_addr_t addr)
1503 {
1504 heartt *h;
1505 int s = size - (p-data);
1506 int i, type;
1507 int hb_ver = more;
1508
1509 #ifdef LAC
1510 #if HB_VERSION != 7
1511 # error "need to update cluster_process_heartbeat()"
1512 #endif
1513 #else
1514 #if HB_VERSION != 6
1515 # error "need to update cluster_process_heartbeat()"
1516 #endif
1517 #endif
1518
1519
1520 // we handle versions 5 through 7
1521 if (hb_ver < 5 || hb_ver > HB_VERSION) {
1522 LOG(0, 0, 0, "Received a heartbeat version that I don't support (%d)!\n", hb_ver);
1523 return -1; // Ignore it??
1524 }
1525
1526 if (size > sizeof(past_hearts[0].data)) {
1527 LOG(0, 0, 0, "Received an oversize heartbeat from %s (%d)!\n", fmtaddr(addr, 0), size);
1528 return -1;
1529 }
1530
1531 if (s < sizeof(*h))
1532 goto shortpacket;
1533
1534 h = (heartt *) p;
1535 p += sizeof(*h);
1536 s -= sizeof(*h);
1537
1538 if (h->clusterid != config->bind_address)
1539 return -1; // It's not part of our cluster.
1540
1541 if (config->cluster_iam_master) { // Sanity...
1542 // Note that this MUST match the election process above!
1543
1544 LOG(0, 0, 0, "I just got a heartbeat from master %s, but _I_ am the master!\n", fmtaddr(addr, 0));
1545 if (!h->basetime) {
1546 LOG(0, 0, 0, "Heartbeat with zero basetime! Ignoring\n");
1547 return -1; // Skip it.
1548 }
1549
1550 if (h->table_version > config->cluster_table_version) {
1551 LOG(0, 0, 0, "They've seen more state changes (%" PRIu64 " vs my %" PRIu64 ") so I'm gone!\n",
1552 h->table_version, config->cluster_table_version);
1553
1554 kill(0, SIGTERM);
1555 exit(1);
1556 }
1557
1558 if (h->table_version < config->cluster_table_version)
1559 return -1;
1560
1561 if (basetime > h->basetime) {
1562 LOG(0, 0, 0, "They're an older master than me so I'm gone!\n");
1563 kill(0, SIGTERM);
1564 exit(1);
1565 }
1566
1567 if (basetime < h->basetime)
1568 return -1;
1569
1570 if (my_address < addr) { // Tie breaker.
1571 LOG(0, 0, 0, "They're a higher IP address than me, so I'm gone!\n");
1572 kill(0, SIGTERM);
1573 exit(1);
1574 }
1575
1576 //
1577 // Send it a unicast heartbeat to see give it a chance to die.
1578 // NOTE: It's actually safe to do seq-number - 1 without checking
1579 // for wrap around.
1580 //
1581 cluster_catchup_slave(config->cluster_seq_number - 1, addr);
1582
1583 return -1; // Skip it.
1584 }
1585
1586 //
1587 // Try and guard against a stray master appearing.
1588 //
1589 // Ignore heartbeats received from another master before the
1590 // timeout (less a smidgen) for the old master has elapsed.
1591 //
1592 // Note that after a clean failover, the cluster_master_address
1593 // is cleared, so this doesn't run.
1594 //
1595 if (config->cluster_master_address && addr != config->cluster_master_address) {
1596 LOG(0, 0, 0, "Ignoring stray heartbeat from %s, current master %s has not yet timed out (last heartbeat %.1f seconds ago).\n",
1597 fmtaddr(addr, 0), fmtaddr(config->cluster_master_address, 1),
1598 0.1 * (TIME - config->cluster_last_hb));
1599 return -1; // ignore
1600 }
1601
1602 if (config->cluster_seq_number == -1) // Don't have one. Just align to the master...
1603 config->cluster_seq_number = h->seq;
1604
1605 config->cluster_last_hb = TIME; // Reset to ensure that we don't become master!!
1606 config->cluster_last_hb_ver = hb_ver; // remember what cluster version the master is using
1607
1608 if (config->cluster_seq_number != h->seq) { // Out of sequence heartbeat!
1609 static int lastseen_seq = 0;
1610 static time_t lastseen_time = 0;
1611
1612 // limit to once per second for a particular seq#
1613 int ask = (config->cluster_seq_number != lastseen_seq || time_now != lastseen_time);
1614
1615 LOG(1, 0, 0, "HB: Got seq# %d but was expecting %d. %s.\n",
1616 h->seq, config->cluster_seq_number,
1617 ask ? "Asking for resend" : "Ignoring");
1618
1619 if (ask)
1620 {
1621 lastseen_seq = config->cluster_seq_number;
1622 lastseen_time = time_now;
1623 peer_send_message(addr, C_LASTSEEN, config->cluster_seq_number, NULL, 0);
1624 }
1625
1626 config->cluster_last_hb = TIME; // Reset to ensure that we don't become master!!
1627
1628 // Just drop the packet. The master will resend it as part of the catchup.
1629
1630 return 0;
1631 }
1632 // Save the packet in our buffer.
1633 // This is needed in case we become the master.
1634 config->cluster_seq_number = (h->seq+1)%HB_MAX_SEQ;
1635 i = h->seq % HB_HISTORY_SIZE;
1636 past_hearts[i].seq = h->seq;
1637 past_hearts[i].size = size;
1638 memcpy(&past_hearts[i].data, data, size); // Save it.
1639
1640
1641 // Check that we don't have too many undefined sessions, and
1642 // that the free session pointer is correct.
1643 cluster_check_sessions(h->highsession, h->freesession, h->highbundle, h->hightunnel);
1644
1645 if (h->interval != config->cluster_hb_interval)
1646 {
1647 LOG(2, 0, 0, "Master set ping/heartbeat interval to %u (was %u)\n",
1648 h->interval, config->cluster_hb_interval);
1649
1650 config->cluster_hb_interval = h->interval;
1651 }
1652
1653 if (h->timeout != config->cluster_hb_timeout)
1654 {
1655 LOG(2, 0, 0, "Master set heartbeat timeout to %u (was %u)\n",
1656 h->timeout, config->cluster_hb_timeout);
1657
1658 config->cluster_hb_timeout = h->timeout;
1659 }
1660
1661 // Ok. process the packet...
1662 while ( s > 0) {
1663
1664 type = *((uint32_t *) p);
1665 p += sizeof(uint32_t);
1666 s -= sizeof(uint32_t);
1667
1668 more = *((uint32_t *) p);
1669 p += sizeof(uint32_t);
1670 s -= sizeof(uint32_t);
1671
1672 switch (type) {
1673 case C_CSESSION: { // Compressed session structure.
1674 uint8_t c[ sizeof(sessiont) + 2];
1675 int size;
1676 uint8_t *orig_p = p;
1677
1678 size = rle_decompress((uint8_t **) &p, s, c, sizeof(c) );
1679 s -= (p - orig_p);
1680
1681 // session struct changed with v5
1682 if (hb_ver < 6)
1683 {
1684 if (size != sizeof(struct oldsession)) {
1685 LOG(0, 0, 0, "DANGER: Received a v%d CSESSION that didn't decompress correctly!\n", hb_ver);
1686 // Now what? Should exit! No-longer up to date!
1687 break;
1688 }
1689 cluster_recv_session(more, convert_session((struct oldsession *) c));
1690 break;
1691 }
1692
1693 if (size != sizeof(sessiont) ) { // Ouch! Very very bad!
1694 LOG(0, 0, 0, "DANGER: Received a CSESSION that didn't decompress correctly!\n");
1695 // Now what? Should exit! No-longer up to date!
1696 break;
1697 }
1698
1699 cluster_recv_session(more, c);
1700 break;
1701 }
1702 case C_SESSION:
1703 if (hb_ver < 6)
1704 {
1705 if (s < sizeof(struct oldsession))
1706 goto shortpacket;
1707
1708 cluster_recv_session(more, convert_session((struct oldsession *) p));
1709
1710 p += sizeof(struct oldsession);
1711 s -= sizeof(struct oldsession);
1712 break;
1713 }
1714
1715 if ( s < sizeof(session[more]))
1716 goto shortpacket;
1717
1718 cluster_recv_session(more, p);
1719
1720 p += sizeof(session[more]);
1721 s -= sizeof(session[more]);
1722 break;
1723
1724 case C_CTUNNEL: { // Compressed tunnel structure.
1725 uint8_t c[ sizeof(tunnelt) + 2];
1726 int size;
1727 uint8_t *orig_p = p;
1728
1729 size = rle_decompress((uint8_t **) &p, s, c, sizeof(c));
1730 s -= (p - orig_p);
1731
1732 #ifdef LAC
1733 if ( ((hb_ver >= HB_VERSION) && (size != sizeof(tunnelt))) ||
1734 ((hb_ver < HB_VERSION) && (size > sizeof(tunnelt))) )
1735 #else
1736 if (size != sizeof(tunnelt) )
1737 #endif
1738 { // Ouch! Very very bad!
1739 LOG(0, 0, 0, "DANGER: Received a CTUNNEL that didn't decompress correctly!\n");
1740 // Now what? Should exit! No-longer up to date!
1741 break;
1742 }
1743
1744 cluster_recv_tunnel(more, c);
1745 break;
1746
1747 }
1748 case C_TUNNEL:
1749 if ( s < sizeof(tunnel[more]))
1750 goto shortpacket;
1751
1752 cluster_recv_tunnel(more, p);
1753
1754 p += sizeof(tunnel[more]);
1755 s -= sizeof(tunnel[more]);
1756 break;
1757
1758 case C_CBUNDLE: { // Compressed bundle structure.
1759 uint8_t c[ sizeof(bundlet) + 2];
1760 int size;
1761 uint8_t *orig_p = p;
1762
1763 size = rle_decompress((uint8_t **) &p, s, c, sizeof(c));
1764 s -= (p - orig_p);
1765
1766 if (size != sizeof(bundlet) ) { // Ouch! Very very bad!
1767 LOG(0, 0, 0, "DANGER: Received a CBUNDLE that didn't decompress correctly!\n");
1768 // Now what? Should exit! No-longer up to date!
1769 break;
1770 }
1771
1772 cluster_recv_bundle(more, c);
1773 break;
1774
1775 }
1776 case C_BUNDLE:
1777 if ( s < sizeof(bundle[more]))
1778 goto shortpacket;
1779
1780 cluster_recv_bundle(more, p);
1781
1782 p += sizeof(bundle[more]);
1783 s -= sizeof(bundle[more]);
1784 break;
1785 default:
1786 LOG(0, 0, 0, "DANGER: I received a heartbeat element where I didn't understand the type! (%d)\n", type);
1787 return -1; // can't process any more of the packet!!
1788 }
1789 }
1790
1791 if (config->cluster_master_address != addr)
1792 {
1793 LOG(0, 0, 0, "My master just changed from %s to %s!\n",
1794 fmtaddr(config->cluster_master_address, 0), fmtaddr(addr, 1));
1795
1796 config->cluster_master_address = addr;
1797 }
1798
1799 config->cluster_last_hb = TIME; // Successfully received a heartbeat!
1800 config->cluster_table_version = h->table_version;
1801 return 0;
1802
1803 shortpacket:
1804 LOG(0, 0, 0, "I got an incomplete heartbeat packet! This means I'm probably out of sync!!\n");
1805 return -1;
1806 }
1807
1808 //
1809 // We got a packet on the cluster port!
1810 // Handle pings, lastseens, and heartbeats!
1811 //
1812 int processcluster(uint8_t *data, int size, in_addr_t addr)
1813 {
1814 int type, more;
1815 uint8_t *p = data;
1816 int s = size;
1817
1818 if (addr == my_address)
1819 return -1; // Ignore it. Something looped back the multicast!
1820
1821 LOG(5, 0, 0, "Process cluster: %d bytes from %s\n", size, fmtaddr(addr, 0));
1822
1823 if (s <= 0) // Any data there??
1824 return -1;
1825
1826 if (s < 8)
1827 goto shortpacket;
1828
1829 type = *((uint32_t *) p);
1830 p += sizeof(uint32_t);
1831 s -= sizeof(uint32_t);
1832
1833 more = *((uint32_t *) p);
1834 p += sizeof(uint32_t);
1835 s -= sizeof(uint32_t);
1836
1837 switch (type)
1838 {
1839 case C_PING: // Update the peers table.
1840 return cluster_add_peer(addr, more, (pingt *) p, s);
1841
1842 case C_MASTER: // Our master is wrong
1843 return cluster_set_master(addr, more);
1844
1845 case C_LASTSEEN: // Catch up a slave (slave missed a packet).
1846 return cluster_catchup_slave(more, addr);
1847
1848 case C_FORWARD: // Forwarded control packet. pass off to processudp.
1849 case C_FORWARD_DAE: // Forwarded DAE packet. pass off to processdae.
1850 if (!config->cluster_iam_master)
1851 {
1852 LOG(0, 0, 0, "I'm not the master, but I got a C_FORWARD%s from %s?\n",
1853 type == C_FORWARD_DAE ? "_DAE" : "", fmtaddr(addr, 0));
1854
1855 return -1;
1856 }
1857 else
1858 {
1859 struct sockaddr_in a;
1860 a.sin_addr.s_addr = more;
1861
1862 a.sin_port = *(int *) p;
1863 s -= sizeof(int);
1864 p += sizeof(int);
1865
1866 LOG(4, 0, 0, "Got a forwarded %spacket... (%s:%d)\n",
1867 type == C_FORWARD_DAE ? "DAE " : "", fmtaddr(more, 0), a.sin_port);
1868
1869 STAT(recv_forward);
1870 if (type == C_FORWARD_DAE)
1871 {
1872 struct in_addr local;
1873 local.s_addr = config->bind_address ? config->bind_address : my_address;
1874 processdae(p, s, &a, sizeof(a), &local);
1875 }
1876 else
1877 processudp(p, s, &a);
1878
1879 return 0;
1880 }
1881 case C_PPPOE_FORWARD:
1882 if (!config->cluster_iam_master)
1883 {
1884 LOG(0, 0, 0, "I'm not the master, but I got a C_PPPOE_FORWARD from %s?\n", fmtaddr(addr, 0));
1885 return -1;
1886 }
1887 else
1888 {
1889 pppoe_process_forward(p, s, addr);
1890 return 0;
1891 }
1892
1893 case C_MPPP_FORWARD:
1894 // Receive a MPPP packet from a slave.
1895 if (!config->cluster_iam_master) {
1896 LOG(0, 0, 0, "I'm not the master, but I got a C_MPPP_FORWARD from %s?\n", fmtaddr(addr, 0));
1897 return -1;
1898 }
1899
1900 processipout(p, s);
1901 return 0;
1902
1903 case C_THROTTLE: { // Receive a forwarded packet from a slave.
1904 if (!config->cluster_iam_master) {
1905 LOG(0, 0, 0, "I'm not the master, but I got a C_THROTTLE from %s?\n", fmtaddr(addr, 0));
1906 return -1;
1907 }
1908
1909 tbf_queue_packet(more, p, s); // The TBF id tells wether it goes in or out.
1910 return 0;
1911 }
1912 case C_GARDEN:
1913 // Receive a walled garden packet from a slave.
1914 if (!config->cluster_iam_master) {
1915 LOG(0, 0, 0, "I'm not the master, but I got a C_GARDEN from %s?\n", fmtaddr(addr, 0));
1916 return -1;
1917 }
1918
1919 tun_write(p, s);
1920 return 0;
1921
1922 case C_BYTES:
1923 if (!config->cluster_iam_master) {
1924 LOG(0, 0, 0, "I'm not the master, but I got a C_BYTES from %s?\n", fmtaddr(addr, 0));
1925 return -1;
1926 }
1927
1928 return cluster_handle_bytes(p, s);
1929
1930 case C_KILL: // The master asked us to die!? (usually because we're too out of date).
1931 if (config->cluster_iam_master) {
1932 LOG(0, 0, 0, "_I_ am master, but I received a C_KILL from %s! (Seq# %d)\n", fmtaddr(addr, 0), more);
1933 return -1;
1934 }
1935 if (more != config->cluster_seq_number) {
1936 LOG(0, 0, 0, "The master asked us to die but the seq number didn't match!?\n");
1937 return -1;
1938 }
1939
1940 if (addr != config->cluster_master_address) {
1941 LOG(0, 0, 0, "Received a C_KILL from %s which doesn't match config->cluster_master_address (%s)\n",
1942 fmtaddr(addr, 0), fmtaddr(config->cluster_master_address, 1));
1943 // We can only warn about it. The master might really have switched!
1944 }
1945
1946 LOG(0, 0, 0, "Received a valid C_KILL: I'm going to die now.\n");
1947 kill(0, SIGTERM);
1948 exit(0); // Lets be paranoid;
1949 return -1; // Just signalling the compiler.
1950
1951 case C_HEARTBEAT:
1952 LOG(4, 0, 0, "Got a heartbeat from %s\n", fmtaddr(addr, 0));
1953 return cluster_process_heartbeat(data, size, more, p, addr);
1954
1955 default:
1956 LOG(0, 0, 0, "Strange type packet received on cluster socket (%d)\n", type);
1957 return -1;
1958 }
1959 return 0;
1960
1961 shortpacket:
1962 LOG(0, 0, 0, "I got a _short_ cluster heartbeat packet! This means I'm probably out of sync!!\n");
1963 return -1;
1964 }
1965
1966 //====================================================================================================
1967
1968 int cmd_show_cluster(struct cli_def *cli, char *command, char **argv, int argc)
1969 {
1970 int i;
1971
1972 if (CLI_HELP_REQUESTED)
1973 return CLI_HELP_NO_ARGS;
1974
1975 cli_print(cli, "Cluster status : %s", config->cluster_iam_master ? "Master" : "Slave" );
1976 cli_print(cli, "My address : %s", fmtaddr(my_address, 0));
1977 cli_print(cli, "VIP address : %s", fmtaddr(config->bind_address, 0));
1978 cli_print(cli, "Multicast address: %s", fmtaddr(config->cluster_address, 0));
1979 cli_print(cli, "Multicast i'face : %s", config->cluster_interface);
1980
1981 if (!config->cluster_iam_master) {
1982 cli_print(cli, "My master : %s (last heartbeat %.1f seconds old)",
1983 config->cluster_master_address
1984 ? fmtaddr(config->cluster_master_address, 0)
1985 : "Not defined",
1986 0.1 * (TIME - config->cluster_last_hb));
1987 cli_print(cli, "Uptodate : %s", config->cluster_iam_uptodate ? "Yes" : "No");
1988 cli_print(cli, "Table version # : %" PRIu64, config->cluster_table_version);
1989 cli_print(cli, "Next sequence number expected: %d", config->cluster_seq_number);
1990 cli_print(cli, "%d sessions undefined of %d", config->cluster_undefined_sessions, config->cluster_highest_sessionid);
1991 cli_print(cli, "%d bundles undefined of %d", config->cluster_undefined_bundles, config->cluster_highest_bundleid);
1992 cli_print(cli, "%d tunnels undefined of %d", config->cluster_undefined_tunnels, config->cluster_highest_tunnelid);
1993 } else {
1994 cli_print(cli, "Table version # : %" PRIu64, config->cluster_table_version);
1995 cli_print(cli, "Next heartbeat # : %d", config->cluster_seq_number);
1996 cli_print(cli, "Highest session : %d", config->cluster_highest_sessionid);
1997 cli_print(cli, "Highest bundle : %d", config->cluster_highest_bundleid);
1998 cli_print(cli, "Highest tunnel : %d", config->cluster_highest_tunnelid);
1999 cli_print(cli, "%d changes queued for sending", config->cluster_num_changes);
2000 }
2001 cli_print(cli, "%d peers.", num_peers);
2002
2003 if (num_peers)
2004 cli_print(cli, "%20s %10s %8s", "Address", "Basetime", "Age");
2005 for (i = 0; i < num_peers; ++i) {
2006 cli_print(cli, "%20s %10u %8d", fmtaddr(peers[i].peer, 0),
2007 peers[i].basetime, TIME - peers[i].timestamp);
2008 }
2009 return CLI_OK;
2010 }
2011
2012 //
2013 // Simple run-length-encoding compression.
2014 // Format is
2015 // 1 byte < 128 = count of non-zero bytes following. // Not legal to be zero.
2016 // n non-zero bytes;
2017 // or
2018 // 1 byte > 128 = (count - 128) run of zero bytes. //
2019 // repeat.
2020 // count == 0 indicates end of compressed stream.
2021 //
2022 // Compress from 'src' into 'dst'. return number of bytes
2023 // used from 'dst'.
2024 // Updates *src_p to indicate 1 past last bytes used.
2025 //
2026 // We could get an extra byte in the zero runs by storing (count-1)
2027 // but I'm playing it safe.
2028 //
2029 // Worst case is a 50% expansion in space required (trying to
2030 // compress { 0x00, 0x01 } * N )
2031 static int rle_compress(uint8_t **src_p, int ssize, uint8_t *dst, int dsize)
2032 {
2033 int count;
2034 int orig_dsize = dsize;
2035 uint8_t *x, *src;
2036 src = *src_p;
2037
2038 while (ssize > 0 && dsize > 2) {
2039 count = 0;
2040 x = dst++; --dsize; // Reserve space for count byte..
2041
2042 if (*src) { // Copy a run of non-zero bytes.
2043 while (*src && count < 127 && ssize > 0 && dsize > 1) { // Count number of non-zero bytes.
2044 *dst++ = *src++;
2045 --dsize; --ssize;
2046 ++count;
2047 }
2048 *x = count; // Store number of non-zero bytes. Guarenteed to be non-zero!
2049
2050 } else { // Compress a run of zero bytes.
2051 while (*src == 0 && count < 127 && ssize > 0) {
2052 ++src;
2053 --ssize;
2054 ++count;
2055 }
2056 *x = count | 0x80 ;
2057 }
2058 }
2059
2060 *dst++ = 0x0; // Add Stop byte.
2061 --dsize;
2062
2063 *src_p = src;
2064 return (orig_dsize - dsize);
2065 }
2066
2067 //
2068 // Decompress the buffer into **p.
2069 // 'psize' is the size of the decompression buffer available.
2070 //
2071 // Returns the number of bytes decompressed.
2072 //
2073 // Decompresses from '*src_p' into 'dst'.
2074 // Return the number of dst bytes used.
2075 // Updates the 'src_p' pointer to point to the
2076 // first un-used byte.
2077 static int rle_decompress(uint8_t **src_p, int ssize, uint8_t *dst, int dsize)
2078 {
2079 int count;
2080 int orig_dsize = dsize;
2081 uint8_t *src = *src_p;
2082
2083 while (ssize >0 && dsize > 0) { // While there's more to decompress, and there's room in the decompress buffer...
2084 count = *src++; --ssize; // get the count byte from the source.
2085 if (count == 0x0) // End marker reached? If so, finish.
2086 break;
2087
2088 if (count & 0x80) { // Decompress a run of zeros
2089 for (count &= 0x7f ; count > 0 && dsize > 0; --count) {
2090 *dst++ = 0x0;
2091 --dsize;
2092 }
2093 } else { // Copy run of non-zero bytes.
2094 for ( ; count > 0 && ssize && dsize; --count) { // Copy non-zero bytes across.
2095 *dst++ = *src++;
2096 --ssize; --dsize;
2097 }
2098 }
2099 }
2100 *src_p = src;
2101 return (orig_dsize - dsize);
2102 }
for cloning use: "git clone git://git.sameswireless.fr/l2tpns.git" ; For add to your sources.list: "deb http://package.sameswifi.fr/ jessie main"