2 * event.c Server event handling
6 * This program is free software; you can redistribute it and/or modify
7 * it under the terms of the GNU General Public License as published by
8 * the Free Software Foundation; either version 2 of the License, or
9 * (at your option) any later version.
11 * This program is distributed in the hope that it will be useful,
12 * but WITHOUT ANY WARRANTY; without even the implied warranty of
13 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14 * GNU General Public License for more details.
16 * You should have received a copy of the GNU General Public License
17 * along with this program; if not, write to the Free Software
18 * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
20 * Copyright 2007 The FreeRADIUS server project
21 * Copyright 2007 Alan DeKok <aland@deployingradius.com>
24 #include <freeradius-devel/ident.h>
27 #include <freeradius-devel/radiusd.h>
28 #include <freeradius-devel/modules.h>
29 #include <freeradius-devel/event.h>
30 #include <freeradius-devel/detail.h>
32 #include <freeradius-devel/rad_assert.h>
37 #ifdef HAVE_SYS_WAIT_H
38 # include <sys/wait.h>
41 #define USEC (1000000)
43 extern pid_t radius_pid;
45 extern int check_config;
46 extern void force_log_reopen(void);
47 extern char *debug_condition;
50 * Ridiculous amounts of local state.
52 static fr_event_list_t *el = NULL;
53 static fr_packet_list_t *pl = NULL;
54 static int request_num_counter = 0;
55 static struct timeval now;
57 static int have_children;
58 static int just_started = TRUE;
62 #define WITH_SELF_PIPE (1)
67 static int self_pipe[2];
72 static pthread_mutex_t proxy_mutex;
73 static rad_listen_t *proxy_listener_list = NULL;
74 static int proxy_no_new_sockets = FALSE;
77 #define PTHREAD_MUTEX_LOCK if (have_children) pthread_mutex_lock
78 #define PTHREAD_MUTEX_UNLOCK if (have_children) pthread_mutex_unlock
80 static pthread_t NO_SUCH_CHILD_PID;
83 * This is easier than ifdef's throughout the code.
85 #define PTHREAD_MUTEX_LOCK(_x)
86 #define PTHREAD_MUTEX_UNLOCK(_x)
87 int thread_pool_addrequest(REQUEST *request, RAD_REQUEST_FUNP fun)
89 radius_handle_request(request, fun);
95 * We need mutexes around the event FD list *only* in certain
98 #if defined (HAVE_PTHREAD_H) && (defined(WITH_PROXY) || defined(WITH_TCP))
99 static pthread_mutex_t fd_mutex;
100 #define FD_MUTEX_LOCK if (have_children) pthread_mutex_lock
101 #define FD_MUTEX_UNLOCK if (have_children) pthread_mutex_unlock
104 * This is easier than ifdef's throughout the code.
106 #define FD_MUTEX_LOCK(_x)
107 #define FD_MUTEX_UNLOCK(_x)
111 #define INSERT_EVENT(_function, _ctx) if (!fr_event_insert(el, _function, _ctx, &((_ctx)->when), &((_ctx)->ev))) { _rad_panic(__FILE__, __LINE__, "Failed to insert event"); }
114 static fr_packet_list_t *proxy_list = NULL;
115 static void remove_from_proxy_hash(REQUEST *request);
117 static void check_for_zombie_home_server(REQUEST *request);
119 #define remove_from_proxy_hash(foo)
122 static void request_post_handler(REQUEST *request);
123 static void wait_a_bit(void *ctx);
124 static void event_socket_handler(fr_event_list_t *xel, UNUSED int fd, void *ctx);
126 static void event_poll_detail(void *ctx);
129 static void NEVER_RETURNS _rad_panic(const char *file, unsigned int line,
132 radlog(L_ERR, "[%s:%d] %s", file, line, msg);
136 #define rad_panic(x) _rad_panic(__FILE__, __LINE__, x)
139 static void tv_add(struct timeval *tv, int usec_delay)
141 if (usec_delay > USEC) {
142 tv->tv_sec += usec_delay / USEC;
145 tv->tv_usec += usec_delay;
147 if (tv->tv_usec > USEC) {
148 tv->tv_sec += tv->tv_usec / USEC;
153 static void remove_from_request_hash(REQUEST *request)
155 if (!request->in_request_hash) return;
157 fr_packet_list_yank(pl, request->packet);
158 request->in_request_hash = FALSE;
160 request_stats_final(request);
163 request->listener->count--;
168 static REQUEST *lookup_in_proxy_hash(RADIUS_PACKET *reply)
171 RADIUS_PACKET **proxy_p;
174 PTHREAD_MUTEX_LOCK(&proxy_mutex);
175 proxy_p = fr_packet_list_find_byreply(proxy_list, reply);
178 PTHREAD_MUTEX_UNLOCK(&proxy_mutex);
182 request = fr_packet2myptr(REQUEST, proxy, proxy_p);
183 request->num_proxied_responses++; /* needs to be protected by lock */
185 done = (request->num_proxied_requests == request->num_proxied_responses);
186 PTHREAD_MUTEX_UNLOCK(&proxy_mutex);
190 * Catch the most common case of everything working
193 if (done) remove_from_proxy_hash(request);
199 static void remove_from_proxy_hash(REQUEST *request)
202 * Check this without grabbing the mutex because it's a
203 * lot faster that way.
205 if (!request->in_proxy_hash) return;
208 * The "not in hash" flag is definitive. However, if the
209 * flag says that it IS in the hash, there might still be
210 * a race condition where it isn't.
212 PTHREAD_MUTEX_LOCK(&proxy_mutex);
214 if (!request->in_proxy_hash) {
215 PTHREAD_MUTEX_UNLOCK(&proxy_mutex);
219 fr_packet_list_yank(proxy_list, request->proxy);
220 fr_packet_list_id_free(proxy_list, request->proxy);
223 * On the FIRST reply, decrement the count of outstanding
224 * requests. Note that this is NOT the count of sent
225 * packets, but whether or not the home server has
228 if (!request->proxy_reply &&
229 request->home_server &&
230 request->home_server->currently_outstanding) {
231 request->home_server->currently_outstanding--;
235 request->proxy_listener->count--;
236 request->proxy_listener = NULL;
240 * Got from YES in hash, to NO, not in hash while we hold
241 * the mutex. This guarantees that when another thread
242 * grabs the mutex, the "not in hash" flag is correct.
244 request->in_proxy_hash = FALSE;
246 PTHREAD_MUTEX_UNLOCK(&proxy_mutex);
248 #endif /* WITH_PROXY */
250 static void ev_request_free(REQUEST **prequest)
254 if (!prequest || !*prequest) return;
261 * Divorce the child from the parent first,
262 * then clean up the child.
264 request->coa->parent = NULL;
265 ev_request_free(&request->coa);
269 * Divorce the parent from the child, and leave the
270 * parent still alive.
272 if (request->parent && (request->parent->coa == request)) {
273 request->parent->coa = NULL;
277 if (request->ev) fr_event_delete(el, &request->ev);
279 if (request->in_proxy_hash) remove_from_proxy_hash(request);
281 if (request->in_request_hash) remove_from_request_hash(request);
283 request_free(prequest);
287 static int remove_all_requests(void *ctx, void *data)
289 rad_listen_t *this = ctx;
290 RADIUS_PACKET **packet_p = data;
293 request = fr_packet2myptr(REQUEST, packet, packet_p);
294 if (request->packet->sockfd != this->fd) return 0;
296 switch (request->child_state) {
297 case REQUEST_RUNNING:
298 rad_assert(request->ev != NULL); /* or it's lost forever */
300 request->master_state = REQUEST_STOP_PROCESSING;
304 * Waiting for a reply. There's no point in
305 * doing anything else. We remove it from the
306 * request hash so that we can close the upstream
309 case REQUEST_PROXIED:
310 remove_from_request_hash(request);
311 request->child_state = REQUEST_DONE;
314 case REQUEST_REJECT_DELAY:
315 case REQUEST_CLEANUP_DELAY:
317 ev_request_free(&request);
325 static int remove_all_proxied_requests(void *ctx, void *data)
327 rad_listen_t *this = ctx;
328 RADIUS_PACKET **proxy_p = data;
331 request = fr_packet2myptr(REQUEST, proxy, proxy_p);
332 if (request->proxy->sockfd != this->fd) return 0;
334 switch (request->child_state) {
335 case REQUEST_RUNNING:
336 rad_assert(request->ev != NULL); /* or it's lost forever */
338 request->master_state = REQUEST_STOP_PROCESSING;
342 * Eventually we will discover that there is no
343 * response to the proxied request.
345 case REQUEST_PROXIED:
349 * Keep it in the cache for duplicate detection.
351 case REQUEST_REJECT_DELAY:
352 case REQUEST_CLEANUP_DELAY:
357 remove_from_proxy_hash(request);
360 #endif /* WITH_PROXY */
361 #endif /* WITH_TCP */
365 static int insert_into_proxy_hash(REQUEST *request)
369 void *proxy_listener;
371 rad_assert(request->proxy != NULL);
372 rad_assert(proxy_list != NULL);
376 PTHREAD_MUTEX_LOCK(&proxy_mutex);
377 rcode = fr_packet_list_id_alloc(proxy_list,
378 request->home_server->proto,
379 request->proxy, &proxy_listener);
380 PTHREAD_MUTEX_UNLOCK(&proxy_mutex);
383 if (proxy_no_new_sockets) return 0;
386 * Also locks the proxy mutex, so we have to call
387 * it with the mutex unlocked. Some systems
388 * don't support recursive mutexes.
390 if (!proxy_new_listener(request->home_server, 0)) {
391 radlog(L_ERR, "Failed to create a new socket for proxying requests.");
394 request->proxy->src_port = 0; /* Use any new socket */
398 RDEBUG2("ERROR: Failed allocating Id for new socket when proxying requests.");
405 request->proxy_listener = proxy_listener;
407 PTHREAD_MUTEX_LOCK(&proxy_mutex);
408 if (!fr_packet_list_insert(proxy_list, &request->proxy)) {
409 fr_packet_list_id_free(proxy_list, request->proxy);
410 PTHREAD_MUTEX_UNLOCK(&proxy_mutex);
411 radlog(L_PROXY, "Failed to insert entry into proxy list");
415 request->in_proxy_hash = TRUE;
418 * Keep track of maximum outstanding requests to a
419 * particular home server. 'max_outstanding' is
420 * enforced in home_server_ldb(), in realms.c.
422 if (request->home_server) {
423 request->home_server->currently_outstanding++;
427 request->proxy_listener->count++;
430 PTHREAD_MUTEX_UNLOCK(&proxy_mutex);
432 RDEBUG3(" proxy: allocating destination %s port %d - Id %d",
433 inet_ntop(request->proxy->dst_ipaddr.af,
434 &request->proxy->dst_ipaddr.ipaddr, buf, sizeof(buf)),
435 request->proxy->dst_port,
443 * Called as BOTH an event, and in-line from other functions.
445 static void wait_for_proxy_id_to_expire(void *ctx)
447 REQUEST *request = ctx;
449 rad_assert(request->magic == REQUEST_MAGIC);
450 rad_assert(request->proxy != NULL);
452 fr_event_now(el, &now);
453 request->when = request->proxy_when;
456 if (((request->proxy->code == PW_COA_REQUEST) ||
457 (request->proxy->code == PW_DISCONNECT_REQUEST)) &&
458 (request->packet->code != request->proxy->code)) {
459 request->when.tv_sec += request->home_server->coa_mrd;
462 request->when.tv_sec += request->home_server->response_window;
464 if ((request->num_proxied_requests == request->num_proxied_responses) ||
466 (request->home_server->proto == IPPROTO_TCP) ||
468 timercmp(&now, &request->when, >)) {
469 if (request->packet) {
470 RDEBUG2("Cleaning up request %d ID %d with timestamp +%d",
471 request->number, request->packet->id,
472 (unsigned int) (request->timestamp - fr_start_time));
474 RDEBUG2("Cleaning up request %d with timestamp +%d",
476 (unsigned int) (request->timestamp - fr_start_time));
479 ev_request_free(&request);
483 INSERT_EVENT(wait_for_proxy_id_to_expire, request);
487 #ifdef HAVE_PTHREAD_H
488 static void wait_for_child_to_die(void *ctx)
490 REQUEST *request = ctx;
492 rad_assert(request->magic == REQUEST_MAGIC);
495 * If it's still queued (waiting for a thread to pick it
496 * up) OR, it's running AND there's still a child thread
497 * handling it, THEN delay some more.
499 if ((request->child_state == REQUEST_QUEUED) ||
500 ((request->child_state == REQUEST_RUNNING) &&
501 (pthread_equal(request->child_pid, NO_SUCH_CHILD_PID) == 0))) {
504 * Cap delay at five minutes.
506 if (request->delay < (USEC * 60 * 5)) {
507 request->delay += (request->delay >> 1);
508 radlog(L_INFO, "WARNING: Child is hung for request %d.",
511 RDEBUG2("Child is still stuck for request %d",
514 tv_add(&request->when, request->delay);
516 INSERT_EVENT(wait_for_child_to_die, request);
520 RDEBUG2("Child is responsive for request %d", request->number);
521 remove_from_request_hash(request);
524 if (request->proxy) {
525 wait_for_proxy_id_to_expire(request);
530 ev_request_free(&request);
534 static void cleanup_delay(void *ctx)
536 REQUEST *request = ctx;
538 rad_assert(request->magic == REQUEST_MAGIC);
539 rad_assert((request->child_state == REQUEST_CLEANUP_DELAY) ||
540 (request->child_state == REQUEST_DONE));
542 remove_from_request_hash(request);
545 if (request->proxy && request->in_proxy_hash) {
546 wait_for_proxy_id_to_expire(request);
551 RDEBUG2("Cleaning up request %d ID %d with timestamp +%d",
552 request->number, request->packet->id,
553 (unsigned int) (request->timestamp - fr_start_time));
555 ev_request_free(&request);
560 * In daemon mode, AND this request has debug flags set.
562 #define DEBUG_PACKET if (!debug_flag && request->options && request->radlog) debug_packet
564 static void debug_packet(REQUEST *request, RADIUS_PACKET *packet, int direction)
568 const char *received, *from;
569 const fr_ipaddr_t *ip;
574 rad_assert(request->radlog != NULL);
576 if (direction == 0) {
577 received = "Received";
578 from = "from"; /* what else? */
579 ip = &packet->src_ipaddr;
580 port = packet->src_port;
583 received = "Sending";
584 from = "to"; /* hah! */
585 ip = &packet->dst_ipaddr;
586 port = packet->dst_port;
590 * Client-specific debugging re-prints the input
591 * packet into the client log.
593 * This really belongs in a utility library
595 if ((packet->code > 0) && (packet->code < FR_MAX_PACKET_CODE)) {
596 RDEBUG("%s %s packet %s host %s port %d, id=%d, length=%d",
597 received, fr_packet_codes[packet->code], from,
598 inet_ntop(ip->af, &ip->ipaddr, buffer, sizeof(buffer)),
599 port, packet->id, packet->data_len);
601 RDEBUG("%s packet %s host %s port %d code=%d, id=%d, length=%d",
603 inet_ntop(ip->af, &ip->ipaddr, buffer, sizeof(buffer)),
605 packet->code, packet->id, packet->data_len);
608 for (vp = packet->vps; vp != NULL; vp = vp->next) {
609 vp_prints(buffer, sizeof(buffer), vp);
610 request->radlog(L_DBG, 0, request, "\t%s", buffer);
614 static void reject_delay(void *ctx)
616 REQUEST *request = ctx;
618 rad_assert(request->magic == REQUEST_MAGIC);
619 rad_assert(request->child_state == REQUEST_REJECT_DELAY);
621 RDEBUG2("Sending delayed reject for request %d", request->number);
623 DEBUG_PACKET(request, request->reply, 1);
625 request->listener->send(request->listener, request);
627 request->when.tv_sec += request->root->cleanup_delay;
628 request->child_state = REQUEST_CLEANUP_DELAY;
630 INSERT_EVENT(cleanup_delay, request);
635 void revive_home_server(void *ctx)
637 home_server *home = ctx;
641 rad_assert(home->proto != IPPROTO_TCP);
644 home->state = HOME_STATE_ALIVE;
645 home->currently_outstanding = 0;
646 home->revive_time = now;
649 * Delete any outstanding events.
651 if (home->ev) fr_event_delete(el, &home->ev);
653 radlog(L_PROXY, "Marking home server %s port %d alive again... we have no idea if it really is alive or not.",
654 inet_ntop(home->ipaddr.af, &home->ipaddr.ipaddr,
655 buffer, sizeof(buffer)),
661 static void no_response_to_ping(void *ctx)
663 REQUEST *request = ctx;
667 rad_assert(request->home_server != NULL);
669 home = request->home_server;
671 rad_assert(home->proto != IPPROTO_TCP);
674 home->num_received_pings = 0;
676 radlog(L_ERR, "No response to status check %d for home server %s port %d",
678 inet_ntop(request->proxy->dst_ipaddr.af,
679 &request->proxy->dst_ipaddr.ipaddr,
680 buffer, sizeof(buffer)),
681 request->proxy->dst_port);
683 check_for_zombie_home_server(request);
685 wait_for_proxy_id_to_expire(request);
689 static void received_response_to_ping(REQUEST *request)
694 rad_assert(request->home_server != NULL);
696 home = request->home_server;
698 rad_assert(home->proto != IPPROTO_TCP);
701 home->num_received_pings++;
703 radlog(L_PROXY, "Received response to status check %d (%d in current sequence)",
704 request->number, home->num_received_pings);
707 * Remove the request from any hashes
709 fr_event_delete(el, &request->ev);
710 remove_from_proxy_hash(request);
711 rad_assert(request->in_request_hash == FALSE);
714 * The control socket may have marked the home server as
715 * alive. OR, it may have suddenly started responding to
716 * requests again. If so, don't re-do the "make alive"
719 if (home->state == HOME_STATE_ALIVE) return;
722 * We haven't received enough ping responses to mark it
723 * "alive". Wait a bit.
725 if (home->num_received_pings < home->num_pings_to_alive) {
729 home->state = HOME_STATE_ALIVE;
730 home->currently_outstanding = 0;
731 home->revive_time = now;
733 if (!fr_event_delete(el, &home->ev)) {
734 RDEBUG2("Hmm... no event for home server. Oh well.");
737 radlog(L_PROXY, "Marking home server %s port %d alive",
738 inet_ntop(request->proxy->dst_ipaddr.af,
739 &request->proxy->dst_ipaddr.ipaddr,
740 buffer, sizeof(buffer)),
741 request->proxy->dst_port);
746 * Called from start of zombie period, OR after control socket
747 * marks the home server dead.
749 static void ping_home_server(void *ctx)
752 home_server *home = ctx;
757 rad_assert(home->proto != IPPROTO_TCP);
760 if ((home->state == HOME_STATE_ALIVE) ||
761 (home->ping_check == HOME_PING_CHECK_NONE) ||
762 (home->ev != NULL)) {
766 request = request_alloc();
767 request->number = request_num_counter++;
769 request->proxy = rad_alloc(1);
770 rad_assert(request->proxy != NULL);
772 fr_event_now(el, &request->when);
773 home->when = request->when;
775 if (home->ping_check == HOME_PING_CHECK_STATUS_SERVER) {
776 request->proxy->code = PW_STATUS_SERVER;
778 radius_pairmake(request, &request->proxy->vps,
779 "Message-Authenticator", "0x00", T_OP_SET);
781 } else if (home->type == HOME_TYPE_AUTH) {
782 request->proxy->code = PW_AUTHENTICATION_REQUEST;
784 radius_pairmake(request, &request->proxy->vps,
785 "User-Name", home->ping_user_name, T_OP_SET);
786 radius_pairmake(request, &request->proxy->vps,
787 "User-Password", home->ping_user_password, T_OP_SET);
788 radius_pairmake(request, &request->proxy->vps,
789 "Service-Type", "Authenticate-Only", T_OP_SET);
790 radius_pairmake(request, &request->proxy->vps,
791 "Message-Authenticator", "0x00", T_OP_SET);
794 #ifdef WITH_ACCOUNTING
795 request->proxy->code = PW_ACCOUNTING_REQUEST;
797 radius_pairmake(request, &request->proxy->vps,
798 "User-Name", home->ping_user_name, T_OP_SET);
799 radius_pairmake(request, &request->proxy->vps,
800 "Acct-Status-Type", "Stop", T_OP_SET);
801 radius_pairmake(request, &request->proxy->vps,
802 "Acct-Session-Id", "00000000", T_OP_SET);
803 vp = radius_pairmake(request, &request->proxy->vps,
804 "Event-Timestamp", "0", T_OP_SET);
805 vp->vp_date = now.tv_sec;
807 rad_assert("Internal sanity check failed");
811 radius_pairmake(request, &request->proxy->vps,
812 "NAS-Identifier", "Status Check. Are you alive?",
815 request->proxy->dst_ipaddr = home->ipaddr;
816 request->proxy->dst_port = home->port;
817 request->home_server = home;
819 rad_assert(request->proxy_listener == NULL);
821 if (!insert_into_proxy_hash(request)) {
822 radlog(L_PROXY, "Failed inserting status check %d into proxy hash. Discarding it.",
824 ev_request_free(&request);
827 rad_assert(request->proxy_listener != NULL);
828 request->proxy_listener->send(request->proxy_listener,
831 request->next_callback = NULL;
832 request->child_state = REQUEST_PROXIED;
833 request->when.tv_sec += home->ping_timeout;;
835 INSERT_EVENT(no_response_to_ping, request);
838 * Add +/- 2s of jitter, as suggested in RFC 3539
839 * and in the Issues and Fixes draft.
841 home->when.tv_sec += home->ping_interval - 2;
844 jitter ^= (jitter >> 10);
845 jitter &= ((1 << 23) - 1); /* 22 bits of 1 */
847 tv_add(&home->when, jitter);
849 INSERT_EVENT(ping_home_server, home);
853 void mark_home_server_dead(home_server *home, struct timeval *when)
855 int previous_state = home->state;
858 radlog(L_PROXY, "Marking home server %s port %d as dead.",
859 inet_ntop(home->ipaddr.af, &home->ipaddr.ipaddr,
860 buffer, sizeof(buffer)),
863 home->state = HOME_STATE_IS_DEAD;
864 home->num_received_pings = 0;
866 if (home->ping_check != HOME_PING_CHECK_NONE) {
868 * If the control socket marks us dead, start
869 * pinging. Otherwise, we already started
870 * pinging when it was marked "zombie".
872 if (previous_state == HOME_STATE_ALIVE) {
873 ping_home_server(home);
878 * Revive it after a fixed period of time. This
879 * is very, very, bad.
882 home->when.tv_sec += home->revive_interval;
884 INSERT_EVENT(revive_home_server, home);
888 static void check_for_zombie_home_server(REQUEST *request)
893 home = request->home_server;
895 if (home->state != HOME_STATE_ZOMBIE) return;
897 when = home->zombie_period_start;
898 when.tv_sec += home->zombie_period;
900 fr_event_now(el, &now);
901 if (timercmp(&now, &when, <)) {
905 mark_home_server_dead(home, &request->when);
908 static int proxy_to_virtual_server(REQUEST *request);
910 static int virtual_server_handler(UNUSED REQUEST *request)
912 proxy_to_virtual_server(request);
916 static void proxy_fallback_handler(REQUEST *request)
919 * A proper time is required for wait_a_bit.
921 request->delay = USEC / 10;
922 gettimeofday(&now, NULL);
923 request->next_when = now;
924 tv_add(&request->next_when, request->delay);
925 request->next_callback = wait_a_bit;
928 * Re-queue the request.
930 request->child_state = REQUEST_QUEUED;
932 rad_assert(request->proxy != NULL);
933 if (!thread_pool_addrequest(request, virtual_server_handler)) {
934 request->child_state = REQUEST_DONE;
937 #ifdef HAVE_PTHREAD_H
939 * MAY free the request if we're over max_request_time,
940 * AND we're not in threaded mode!
942 * Note that we call this ONLY if we're threaded, as
943 * if we're NOT threaded, request_post_handler() calls
944 * wait_a_bit(), which means that "request" may not
947 if (have_children) wait_a_bit(request);
952 static int setup_post_proxy_fail(REQUEST *request)
954 DICT_VALUE *dval = NULL;
957 request->child_state = REQUEST_RUNNING;
959 if (request->packet->code == PW_AUTHENTICATION_REQUEST) {
960 dval = dict_valbyname(PW_POST_PROXY_TYPE, "Fail-Authentication");
962 } else if (request->packet->code == PW_ACCOUNTING_REQUEST) {
963 dval = dict_valbyname(PW_POST_PROXY_TYPE, "Fail-Accounting");
967 * See no_response_to_coa_request
969 } else if (((request->packet->code >> 8) & 0xff) == PW_COA_REQUEST) {
970 request->packet->code &= 0xff; /* restore it */
972 if (request->proxy->code == PW_COA_REQUEST) {
973 dval = dict_valbyname(PW_POST_PROXY_TYPE, "Fail-CoA");
975 } else if (request->proxy->code == PW_DISCONNECT_REQUEST) {
976 dval = dict_valbyname(PW_POST_PROXY_TYPE, "Fail-Disconnect");
986 if (!dval) dval = dict_valbyname(PW_POST_PROXY_TYPE, "Fail");
989 pairdelete(&request->config_items, PW_POST_PROXY_TYPE);
993 vp = pairfind(request->config_items, PW_POST_PROXY_TYPE);
994 if (!vp) vp = radius_paircreate(request, &request->config_items,
995 PW_POST_PROXY_TYPE, PW_TYPE_INTEGER);
996 vp->vp_integer = dval->value;
998 rad_assert(request->proxy_reply == NULL);
1004 static int null_handler(UNUSED REQUEST *request)
1009 static void post_proxy_fail_handler(REQUEST *request)
1012 * A proper time is required for wait_a_bit.
1014 request->delay = USEC / 10;
1015 gettimeofday(&now, NULL);
1018 * Not set up to run Post-Proxy-Type = Fail.
1020 * Mark the request as still running, and figure out what
1023 if (!setup_post_proxy_fail(request)) {
1024 request_post_handler(request);
1028 * Re-queue the request.
1030 request->child_state = REQUEST_QUEUED;
1033 * There is a post-proxy-type of fail. We run
1034 * the request through the pre/post proxy
1035 * handlers, just like it was a real proxied
1036 * request. However, we set the per-request
1037 * handler to NULL, as we don't want to do
1040 * Note that when we're not threaded, this will
1041 * process the request even if it's greater than
1042 * max_request_time. That's not fatal.
1044 request->priority = 0;
1045 rad_assert(request->proxy != NULL);
1046 thread_pool_addrequest(request, null_handler);
1050 * MAY free the request if we're over max_request_time,
1051 * AND we're not in threaded mode!
1053 * Note that we call this ONLY if we're threaded, as
1054 * if we're NOT threaded, request_post_handler() calls
1055 * wait_a_bit(), which means that "request" may not
1058 if (have_children) wait_a_bit(request);
1061 /* maybe check this against wait_for_proxy_id_to_expire? */
1062 static void no_response_to_proxied_request(void *ctx)
1064 REQUEST *request = ctx;
1068 rad_assert(request->magic == REQUEST_MAGIC);
1070 if (request->master_state == REQUEST_STOP_PROCESSING) {
1071 ev_request_free(&request);
1075 rad_assert(request->child_state == REQUEST_PROXIED);
1078 * If we've failed over to an internal home server,
1079 * replace the callback with the correct one. This
1080 * is due to locking issues with child threads...
1082 if (request->home_server->server) {
1083 wait_a_bit(request);
1088 if (request->home_server->proto != IPPROTO_TCP)
1090 check_for_zombie_home_server(request);
1092 home = request->home_server;
1095 * The default as of 2.1.7 is to allow requests to
1096 * fail-over to a backup home server when this one does
1097 * not respond. The old behavior can be configured as
1100 if (home->no_response_fail) {
1101 radlog(L_ERR, "Rejecting request %d (proxy Id %d) due to lack of any response from home server %s port %d",
1102 request->number, request->proxy->id,
1103 inet_ntop(request->proxy->dst_ipaddr.af,
1104 &request->proxy->dst_ipaddr.ipaddr,
1105 buffer, sizeof(buffer)),
1106 request->proxy->dst_port);
1108 post_proxy_fail_handler(request);
1111 * Enforce max_request_time.
1113 * We fail over to another backup home server
1114 * when the client re-transmits the request. If
1115 * the client doesn't re-transmit, no fail-over
1118 rad_assert(request->ev == NULL);
1119 request->child_state = REQUEST_RUNNING;
1120 wait_a_bit(request);
1124 * Don't touch request due to race conditions
1129 * Do nothing more. The home server didn't respond,
1130 * but that isn't a catastrophic failure. Some home
1131 * servers don't respond to packets...
1133 if (home->proto == IPPROTO_TCP) {
1135 * FIXME: Set up TCP pinging on this connection.
1137 * Maybe the CONNECTION is dead, but the home
1138 * server is alive. In that case, we need to start
1139 * pinging on the connection.
1141 * This means doing the pinging BEFORE the
1142 * post_proxy_fail_handler above, as it may do
1143 * something with the request, and cause the
1144 * proxy listener to go away!
1150 if (home->state == HOME_STATE_IS_DEAD) {
1151 rad_assert(home->ev != NULL); /* or it will never wake up */
1156 * Enable the zombie period when we notice that the home
1157 * server hasn't responded. We do NOT back-date the start
1158 * of the zombie period.
1160 if (home->state == HOME_STATE_ALIVE) {
1161 home->state = HOME_STATE_ZOMBIE;
1162 home->zombie_period_start = now;
1164 radlog(L_PROXY, "Marking home server %s port %d as zombie (it looks like it is dead).",
1165 inet_ntop(home->ipaddr.af, &home->ipaddr.ipaddr,
1166 buffer, sizeof(buffer)),
1170 * Start pinging the home server.
1172 ping_home_server(home);
1177 static void wait_a_bit(void *ctx)
1179 struct timeval when;
1180 REQUEST *request = ctx;
1181 fr_event_callback_t callback = NULL;
1183 rad_assert(request->magic == REQUEST_MAGIC);
1186 * The socket was closed. Tell the request that
1187 * there is no point in continuing.
1189 if (request->listener->status != RAD_LISTEN_STATUS_KNOWN) {
1190 goto stop_processing;
1195 * The CoA request is a new (internally generated)
1196 * request, created in a child thread. We therefore need
1197 * some way to tie its events back into the main event
1200 if (request->coa && !request->coa->proxy_reply &&
1201 request->coa->next_callback) {
1202 request->coa->when = request->coa->next_when;
1203 INSERT_EVENT(request->coa->next_callback, request->coa);
1204 request->coa->next_callback = NULL;
1205 request->coa->parent = NULL;
1206 request->coa = NULL;
1210 switch (request->child_state) {
1211 case REQUEST_QUEUED:
1212 case REQUEST_RUNNING:
1213 when = request->received;
1214 when.tv_sec += request->root->max_request_time;
1217 * Normally called from the event loop with the
1218 * proper event loop time. Otherwise, called from
1219 * post proxy fail handler, which sets "now", and
1220 * this call won't re-set it, because we're not
1221 * in the event loop.
1223 fr_event_now(el, &now);
1226 * Request still has more time. Continue
1229 if (timercmp(&now, &when, <) ||
1230 ((request->listener->type == RAD_LISTEN_DETAIL) &&
1231 (request->child_state == REQUEST_QUEUED))) {
1232 if (request->delay < (USEC / 10)) {
1233 request->delay = USEC / 10;
1235 request->delay += request->delay >> 1;
1239 * Cap wait at some sane value for detail
1242 if ((request->listener->type == RAD_LISTEN_DETAIL) &&
1243 (request->delay > (request->root->max_request_time * USEC))) {
1244 request->delay = request->root->max_request_time * USEC;
1248 request->when = now;
1249 tv_add(&request->when, request->delay);
1250 callback = wait_a_bit;
1255 #if defined(HAVE_PTHREAD_H) || defined(WITH_PROXY)
1257 * A child thread MAY still be running on the
1258 * request. Ask the thread to stop working on
1261 if (have_children &&
1262 (pthread_equal(request->child_pid, NO_SUCH_CHILD_PID) == 0)) {
1263 request->master_state = REQUEST_STOP_PROCESSING;
1265 radlog(L_ERR, "WARNING: Unresponsive child for request %d, in module %s component %s",
1267 request->module ? request->module : "<server core>",
1268 request->component ? request->component : "<server core>");
1270 request->delay = USEC / 4;
1271 tv_add(&request->when, request->delay);
1272 callback = wait_for_child_to_die;
1278 * Else no child thread is processing the
1279 * request. We probably should have just marked
1280 * the request as 'done' elsewhere, like in the
1281 * post-proxy-fail handler. But doing that would
1282 * involve checking for max_request_time in
1283 * multiple places, so this may be simplest.
1285 request->child_state = REQUEST_DONE;
1289 * Mark the request as no longer running,
1293 #ifdef HAVE_PTHREAD_H
1294 request->child_pid = NO_SUCH_CHILD_PID;
1299 * This is a CoA request. It's been divorced
1300 * from everything else, so we clean it up now.
1302 if (!request->in_request_hash &&
1304 (request->packet->code != request->proxy->code) &&
1305 ((request->proxy->code == PW_COA_REQUEST) ||
1306 (request->proxy->code == PW_DISCONNECT_REQUEST))) {
1308 * FIXME: Do CoA MIBs
1310 ev_request_free(&request);
1314 request_stats_final(request);
1315 cleanup_delay(request);
1318 case REQUEST_REJECT_DELAY:
1319 case REQUEST_CLEANUP_DELAY:
1320 #ifdef HAVE_PTHREAD_H
1321 request->child_pid = NO_SUCH_CHILD_PID;
1323 request_stats_final(request);
1325 case REQUEST_PROXIED:
1326 rad_assert(request->next_callback != NULL);
1327 rad_assert(request->next_callback != wait_a_bit);
1329 request->when = request->next_when;
1330 callback = request->next_callback;
1331 request->next_callback = NULL;
1335 rad_panic("Internal sanity check failure");
1340 * Something major went wrong. Discard the request, and
1343 * FIXME: No idea why this happens or how to fix it...
1344 * It seems to happen *only* when requests are proxied,
1345 * and where the home server doesn't respond. So it looks
1346 * like a race condition above, but it happens in debug
1347 * mode, with no threads...
1350 RDEBUG("WARNING: Internal sanity check failed in event handler for request %d: Discarding the request!", request->number);
1351 ev_request_free(&request);
1355 INSERT_EVENT(callback, request);
1359 static void no_response_to_coa_request(void *ctx)
1361 REQUEST *request = ctx;
1364 rad_assert(request->magic == REQUEST_MAGIC);
1365 rad_assert(request->child_state == REQUEST_PROXIED);
1366 rad_assert(request->home_server != NULL);
1367 rad_assert(!request->in_request_hash);
1369 radlog(L_ERR, "No response to CoA request sent to %s",
1370 inet_ntop(request->proxy->dst_ipaddr.af,
1371 &request->proxy->dst_ipaddr.ipaddr,
1372 buffer, sizeof(buffer)));
1377 request->packet->code |= (PW_COA_REQUEST << 8);
1378 post_proxy_fail_handler(request);
1382 static int update_event_timestamp(RADIUS_PACKET *packet, time_t when)
1386 vp = pairfind(packet->vps, PW_EVENT_TIMESTAMP);
1393 packet->data = NULL;
1394 packet->data_len = 0;
1397 return 1; /* time stamp updated */
1402 * Called when we haven't received a response to a CoA request.
1404 static void retransmit_coa_request(void *ctx)
1408 REQUEST *request = ctx;
1410 rad_assert(request->magic == REQUEST_MAGIC);
1411 rad_assert(request->child_state == REQUEST_PROXIED);
1412 rad_assert(request->home_server != NULL);
1413 rad_assert(!request->in_request_hash);
1414 rad_assert(request->parent == NULL);
1416 fr_event_now(el, &now);
1419 * Cap count at MRC, if it is non-zero.
1421 if (request->home_server->coa_mrc &&
1422 (request->num_coa_requests >= request->home_server->coa_mrc)) {
1423 no_response_to_coa_request(request);
1428 * RFC 5080 Section 2.2.1
1430 * RT = 2*RTprev + RAND*RTprev
1431 * = 1.9 * RTprev + rand(0,.2) * RTprev
1432 * = 1.9 * RTprev + rand(0,1) * (RTprev / 5)
1435 delay ^= (delay >> 16);
1437 frac = request->delay / 5;
1438 delay = ((frac >> 16) * delay) + (((frac & 0xffff) * delay) >> 16);
1440 delay += (2 * request->delay) - (request->delay / 10);
1443 * Cap delay at MRT, if MRT is non-zero.
1445 if (request->home_server->coa_mrt &&
1446 (delay > (request->home_server->coa_mrt * USEC))) {
1447 int mrt_usec = request->home_server->coa_mrt * USEC;
1450 * delay = MRT + RAND * MRT
1451 * = 0.9 MRT + rand(0,.2) * MRT
1454 delay ^= (delay >> 15);
1456 delay = ((mrt_usec >> 16) * delay) + (((mrt_usec & 0xffff) * delay) >> 16);
1457 delay += mrt_usec - (mrt_usec / 10);
1460 request->delay = delay;
1461 request->when = now;
1462 tv_add(&request->when, request->delay);
1463 mrd = request->proxy_when;
1464 mrd.tv_sec += request->home_server->coa_mrd;
1467 * Cap duration at MRD.
1469 if (timercmp(&mrd, &request->when, <)) {
1470 request->when = mrd;
1471 INSERT_EVENT(no_response_to_coa_request, request);
1474 INSERT_EVENT(retransmit_coa_request, request);
1477 if (update_event_timestamp(request->proxy, now.tv_sec)) {
1479 * Keep a copy of the old Id so that the
1480 * re-transmitted request doesn't re-use the old
1483 RADIUS_PACKET old = *request->proxy;
1486 * Don't free the old Id on error.
1488 if (!insert_into_proxy_hash(request)) {
1489 radlog(L_PROXY,"Failed re-inserting CoA request into proxy hash.");
1494 * Now that we have a new Id, free the old one.
1496 PTHREAD_MUTEX_LOCK(&proxy_mutex);
1497 fr_packet_list_yank(proxy_list, &old);
1498 fr_packet_list_id_free(proxy_list, &old);
1499 PTHREAD_MUTEX_UNLOCK(&proxy_mutex);
1501 request->num_proxied_requests = 0;
1502 request->num_proxied_responses = 0;
1505 request->num_proxied_requests++;
1506 request->num_coa_requests++; /* is NOT reset by code 3 lines above! */
1508 request->proxy_listener->send(request->proxy_listener,
1514 * The original request is either DONE, or in CLEANUP_DELAY.
1516 static int originated_coa_request(REQUEST *request)
1518 int delay, rcode, pre_proxy_type = 0;
1524 rad_assert(request->proxy == NULL);
1525 rad_assert(!request->in_proxy_hash);
1526 rad_assert(request->proxy_reply == NULL);
1528 vp = pairfind(request->config_items, PW_SEND_COA_REQUEST);
1529 if (!vp && request->coa) vp = pairfind(request->coa->proxy->vps, PW_SEND_COA_REQUEST);
1531 if (vp->vp_integer == 0) {
1532 ev_request_free(&request->coa);
1533 return 1; /* success */
1536 if (!request->coa) request_alloc_coa(request);
1537 if (!request->coa) return 0;
1543 * src_ipaddr will be set up in proxy_encode.
1545 memset(&ipaddr, 0, sizeof(ipaddr));
1546 vp = pairfind(coa->proxy->vps, PW_PACKET_DST_IP_ADDRESS);
1548 ipaddr.af = AF_INET;
1549 ipaddr.ipaddr.ip4addr.s_addr = vp->vp_ipaddr;
1551 } else if ((vp = pairfind(coa->proxy->vps,
1552 PW_PACKET_DST_IPV6_ADDRESS)) != NULL) {
1553 ipaddr.af = AF_INET6;
1554 ipaddr.ipaddr.ip6addr = vp->vp_ipv6addr;
1556 } else if ((vp = pairfind(coa->proxy->vps,
1557 PW_HOME_SERVER_POOL)) != NULL) {
1558 coa->home_pool = home_pool_byname(vp->vp_strvalue,
1560 if (!coa->home_pool) {
1561 RDEBUG2("WARNING: No such home_server_pool %s",
1564 ev_request_free(&request->coa);
1571 } else if (request->client->coa_pool) {
1572 coa->home_pool = request->client->coa_pool;
1574 } else if (request->client->coa_server) {
1575 coa->home_server = request->client->coa_server;
1579 * If all else fails, send it to the client that
1580 * originated this request.
1582 memcpy(&ipaddr, &request->packet->src_ipaddr, sizeof(ipaddr));
1586 * Use the pool, if it exists.
1588 if (coa->home_pool) {
1589 coa->home_server = home_server_ldb(NULL, coa->home_pool, coa);
1590 if (!coa->home_server) {
1591 RDEBUG("WARNING: No live home server for home_server_pool %s", vp->vp_strvalue);
1595 } else if (!coa->home_server) {
1596 int port = PW_COA_UDP_PORT;
1598 vp = pairfind(coa->proxy->vps, PW_PACKET_DST_PORT);
1599 if (vp) port = vp->vp_integer;
1601 coa->home_server = home_server_find(&ipaddr, port, IPPROTO_UDP);
1602 if (!coa->home_server) {
1603 RDEBUG2("WARNING: Unknown destination %s:%d for CoA request.",
1604 inet_ntop(ipaddr.af, &ipaddr.ipaddr,
1605 buffer, sizeof(buffer)), port);
1610 vp = pairfind(coa->proxy->vps, PW_PACKET_TYPE);
1612 switch (vp->vp_integer) {
1613 case PW_COA_REQUEST:
1614 case PW_DISCONNECT_REQUEST:
1615 coa->proxy->code = vp->vp_integer;
1619 DEBUG("Cannot set CoA Packet-Type to code %d",
1625 if (!coa->proxy->code) coa->proxy->code = PW_COA_REQUEST;
1628 * The rest of the server code assumes that
1629 * request->packet && request->reply exist. Copy them
1630 * from the original request.
1632 rad_assert(coa->packet != NULL);
1633 rad_assert(coa->packet->vps == NULL);
1634 memcpy(coa->packet, request->packet, sizeof(*request->packet));
1635 coa->packet->vps = paircopy(request->packet->vps);
1636 coa->packet->data = NULL;
1637 rad_assert(coa->reply != NULL);
1638 rad_assert(coa->reply->vps == NULL);
1639 memcpy(coa->reply, request->reply, sizeof(*request->reply));
1640 coa->reply->vps = paircopy(request->reply->vps);
1641 coa->reply->data = NULL;
1642 coa->config_items = paircopy(request->config_items);
1645 * Call the pre-proxy routines.
1647 vp = pairfind(request->config_items, PW_PRE_PROXY_TYPE);
1649 RDEBUG2(" Found Pre-Proxy-Type %s", vp->vp_strvalue);
1650 pre_proxy_type = vp->vp_integer;
1653 if (coa->home_pool && coa->home_pool->virtual_server) {
1654 const char *old_server = coa->server;
1656 coa->server = coa->home_pool->virtual_server;
1657 RDEBUG2(" server %s {", coa->server);
1658 rcode = module_pre_proxy(pre_proxy_type, coa);
1660 coa->server = old_server;
1662 rcode = module_pre_proxy(pre_proxy_type, coa);
1669 * Only send the CoA packet if the pre-proxy code succeeded.
1671 case RLM_MODULE_NOOP:
1673 case RLM_MODULE_UPDATED:
1678 * Source IP / port is set when the proxy socket
1681 coa->proxy->dst_ipaddr = coa->home_server->ipaddr;
1682 coa->proxy->dst_port = coa->home_server->port;
1684 if (!insert_into_proxy_hash(coa)) {
1685 radlog(L_PROXY, "Failed inserting CoA request into proxy hash.");
1690 * We CANNOT divorce the CoA request from the parent
1691 * request. This function is running in a child thread,
1692 * and we need access to the main event loop in order to
1693 * to add the timers for the CoA packet. See
1698 * Forget about the original request completely at this
1703 gettimeofday(&request->proxy_when, NULL);
1704 request->received = request->next_when = request->proxy_when;
1705 rad_assert(request->proxy_reply == NULL);
1708 * Implement re-transmit algorithm as per RFC 5080
1711 * We want IRT + RAND*IRT
1712 * or 0.9 IRT + rand(0,.2) IRT
1714 * 2^20 ~ USEC, and we want 2.
1715 * rand(0,0.2) USEC ~ (rand(0,2^21) / 10)
1717 delay = (fr_rand() & ((1 << 22) - 1)) / 10;
1718 request->delay = delay * request->home_server->coa_irt;
1719 delay = request->home_server->coa_irt * USEC;
1720 delay -= delay / 10;
1721 delay += request->delay;
1723 request->delay = delay;
1724 tv_add(&request->next_when, delay);
1725 request->next_callback = retransmit_coa_request;
1728 * Note that we set proxied BEFORE sending the packet.
1730 * Once we send it, the request is tainted, as
1731 * another thread may have picked it up. Don't
1734 request->num_proxied_requests = 1;
1735 request->num_proxied_responses = 0;
1736 request->child_pid = NO_SUCH_CHILD_PID;
1738 update_event_timestamp(request->proxy, request->proxy_when.tv_sec);
1740 request->child_state = REQUEST_PROXIED;
1742 DEBUG_PACKET(request, request->proxy, 1);
1744 request->proxy_listener->send(request->proxy_listener,
1748 #endif /* WITH_COA */
1751 static int process_proxy_reply(REQUEST *request)
1754 int post_proxy_type = 0;
1758 * Delete any reply we had accumulated until now.
1760 pairfree(&request->reply->vps);
1763 * Run the packet through the post-proxy stage,
1764 * BEFORE playing games with the attributes.
1766 vp = pairfind(request->config_items, PW_POST_PROXY_TYPE);
1768 RDEBUG2(" Found Post-Proxy-Type %s", vp->vp_strvalue);
1769 post_proxy_type = vp->vp_integer;
1772 if (request->home_pool && request->home_pool->virtual_server) {
1773 const char *old_server = request->server;
1775 request->server = request->home_pool->virtual_server;
1776 RDEBUG2(" server %s {", request->server);
1777 rcode = module_post_proxy(post_proxy_type, request);
1779 request->server = old_server;
1781 rcode = module_post_proxy(post_proxy_type, request);
1785 if (request->packet->code == request->proxy->code)
1787 * Don't run the next bit if we originated a CoA
1788 * packet, after receiving an Access-Request or
1789 * Accounting-Request.
1794 * There may NOT be a proxy reply, as we may be
1795 * running Post-Proxy-Type = Fail.
1797 if (request->proxy_reply) {
1799 * Delete the Proxy-State Attributes from
1800 * the reply. These include Proxy-State
1801 * attributes from us and remote server.
1803 pairdelete(&request->proxy_reply->vps, PW_PROXY_STATE);
1806 * Add the attributes left in the proxy
1807 * reply to the reply list.
1809 pairadd(&request->reply->vps, request->proxy_reply->vps);
1810 request->proxy_reply->vps = NULL;
1813 * Free proxy request pairs.
1815 pairfree(&request->proxy->vps);
1819 default: /* Don't do anything */
1821 case RLM_MODULE_FAIL:
1822 /* FIXME: debug print stuff */
1823 request->child_state = REQUEST_DONE;
1826 case RLM_MODULE_HANDLED:
1827 /* FIXME: debug print stuff */
1828 request->child_state = REQUEST_DONE;
1836 static int request_pre_handler(REQUEST *request)
1840 rad_assert(request->magic == REQUEST_MAGIC);
1841 rad_assert(request->packet != NULL);
1843 request->child_state = REQUEST_RUNNING;
1846 * Don't decode the packet if it's an internal "fake"
1847 * request. Instead, just return so that the caller can
1850 if (request->packet->dst_port == 0) {
1851 request->username = pairfind(request->packet->vps,
1853 request->password = pairfind(request->packet->vps,
1860 * Put the decoded packet into it's proper place.
1862 if (request->proxy_reply != NULL) {
1864 * FIXME: For now, we can only proxy RADIUS packets.
1866 * In order to proxy other packets, we need to
1867 * somehow cache the "decode" function.
1869 rcode = rad_decode(request->proxy_reply, request->proxy,
1870 request->home_server->secret);
1871 DEBUG_PACKET(request, request->proxy_reply, 0);
1874 if (request->packet->vps == NULL) {
1875 rcode = request->listener->decode(request->listener, request);
1877 if (debug_condition) {
1879 const char *my_debug = debug_condition;
1882 * Ignore parse errors.
1884 radius_evaluate_condition(request, RLM_MODULE_OK, 0,
1888 request->options = 2;
1889 request->radlog = radlog_request;
1893 DEBUG_PACKET(request, request->packet, 0);
1899 radlog(L_ERR, "%s Dropping packet without response.", fr_strerror());
1900 request->child_state = REQUEST_DONE;
1904 if (!request->username) {
1905 request->username = pairfind(request->packet->vps,
1910 if (request->proxy) {
1911 return process_proxy_reply(request);
1921 * Do state handling when we proxy a request.
1923 static int proxy_request(REQUEST *request)
1925 struct timeval when;
1928 if (request->home_server->server) {
1929 RDEBUG("ERROR: Cannot perform real proxying to a virtual server.");
1933 if (!insert_into_proxy_hash(request)) {
1934 radlog(L_PROXY, "Failed inserting request into proxy hash.");
1938 request->proxy_listener->encode(request->proxy_listener, request);
1940 when = request->received;
1941 when.tv_sec += request->root->max_request_time;
1943 gettimeofday(&request->proxy_when, NULL);
1945 request->next_when = request->proxy_when;
1946 request->next_when.tv_sec += request->home_server->response_window;
1948 rad_assert(request->home_server->response_window > 0);
1950 if (timercmp(&when, &request->next_when, <)) {
1951 request->next_when = when;
1953 request->next_callback = no_response_to_proxied_request;
1955 RDEBUG2("Proxying request %d to home server %s port %d",
1957 inet_ntop(request->proxy->dst_ipaddr.af,
1958 &request->proxy->dst_ipaddr.ipaddr,
1959 buffer, sizeof(buffer)),
1960 request->proxy->dst_port);
1963 * Note that we set proxied BEFORE sending the packet.
1965 * Once we send it, the request is tainted, as
1966 * another thread may have picked it up. Don't
1969 request->num_proxied_requests = 1;
1970 request->num_proxied_responses = 0;
1971 #ifdef HAVE_PTHREAD_H
1972 request->child_pid = NO_SUCH_CHILD_PID;
1974 request->child_state = REQUEST_PROXIED;
1976 DEBUG_PACKET(request, request->proxy, 1);
1978 request->proxy_listener->send(request->proxy_listener,
1985 * "Proxy" the request by sending it to a new virtual server.
1987 static int proxy_to_virtual_server(REQUEST *request)
1990 RAD_REQUEST_FUNP fun;
1992 if (!request->home_server || !request->home_server->server) return 0;
1994 if (request->parent) {
1995 RDEBUG2("WARNING: Cancelling proxy request to virtual server %s as this request was itself proxied.", request->home_server->server);
1999 fake = request_alloc_fake(request);
2001 RDEBUG2("WARNING: Out of memory");
2005 fake->packet->vps = paircopy(request->proxy->vps);
2006 fake->server = request->home_server->server;
2008 if (request->proxy->code == PW_AUTHENTICATION_REQUEST) {
2009 fun = rad_authenticate;
2011 #ifdef WITH_ACCOUNTING
2012 } else if (request->proxy->code == PW_ACCOUNTING_REQUEST) {
2013 fun = rad_accounting;
2017 RDEBUG2("Unknown packet type %d", request->proxy->code);
2018 ev_request_free(&fake);
2022 RDEBUG2(">>> Sending proxied request internally to virtual server.");
2023 radius_handle_request(fake, fun);
2024 RDEBUG2("<<< Received proxied response code %d from internal virtual server.", fake->reply->code);
2026 if (fake->reply->code != 0) {
2027 request->proxy_reply = fake->reply;
2031 * There was no response
2033 setup_post_proxy_fail(request);
2036 ev_request_free(&fake);
2038 process_proxy_reply(request);
2041 * Process it through the normal section again, but ONLY
2042 * if we received a proxy reply..
2044 if (request->proxy_reply) {
2045 if (request->server) RDEBUG("server %s {",
2046 request->server != NULL ?
2047 request->server : "");
2050 if (request->server) RDEBUG("} # server %s",
2051 request->server != NULL ?
2052 request->server : "");
2055 return 2; /* success, but NOT '1' !*/
2059 * Return 1 if we did proxy it, or the proxy attempt failed
2060 * completely. Either way, the caller doesn't touch the request
2061 * any more if we return 1.
2063 static int successfully_proxied_request(REQUEST *request)
2066 int pre_proxy_type = 0;
2067 VALUE_PAIR *realmpair;
2068 VALUE_PAIR *strippedname;
2070 char *realmname = NULL;
2072 REALM *realm = NULL;
2076 * If it was already proxied, do nothing.
2078 * FIXME: This should really be a serious error.
2080 if (request->in_proxy_hash ||
2081 (request->proxy_reply && (request->proxy_reply->code != 0))) {
2085 realmpair = pairfind(request->config_items, PW_PROXY_TO_REALM);
2086 if (!realmpair || (realmpair->length == 0)) {
2089 vp = pairfind(request->config_items, PW_HOME_SERVER_POOL);
2092 switch (request->packet->code) {
2093 case PW_AUTHENTICATION_REQUEST:
2094 pool_type = HOME_TYPE_AUTH;
2097 #ifdef WITH_ACCOUNTING
2098 case PW_ACCOUNTING_REQUEST:
2099 pool_type = HOME_TYPE_ACCT;
2104 case PW_COA_REQUEST:
2105 case PW_DISCONNECT_REQUEST:
2106 pool_type = HOME_TYPE_COA;
2114 pool = home_pool_byname(vp->vp_strvalue, pool_type);
2116 RDEBUG2("ERROR: Cannot proxy to unknown pool %s",
2121 realmname = NULL; /* no realms */
2126 realmname = (char *) realmpair->vp_strvalue;
2128 realm = realm_find2(realmname);
2130 RDEBUG2("ERROR: Cannot proxy to unknown realm %s", realmname);
2135 * Figure out which pool to use.
2137 if (request->packet->code == PW_AUTHENTICATION_REQUEST) {
2138 pool = realm->auth_pool;
2140 #ifdef WITH_ACCOUNTING
2141 } else if (request->packet->code == PW_ACCOUNTING_REQUEST) {
2142 pool = realm->acct_pool;
2146 } else if ((request->packet->code == PW_COA_REQUEST) ||
2147 (request->packet->code == PW_DISCONNECT_REQUEST)) {
2148 pool = realm->acct_pool;
2152 rad_panic("Internal sanity check failed");
2156 RDEBUG2(" WARNING: Cancelling proxy to Realm %s, as the realm is local.",
2162 home = home_server_ldb(realmname, pool, request);
2164 RDEBUG2("ERROR: Failed to find live home server for realm %s",
2168 request->home_pool = pool;
2172 * Once we've decided to proxy a request, we cannot send
2173 * a CoA packet. So we free up any CoA packet here.
2175 ev_request_free(&request->coa);
2178 * Remember that we sent the request to a Realm.
2180 if (realmname) pairadd(&request->packet->vps,
2181 pairmake("Realm", realmname, T_OP_EQ));
2184 * Strip the name, if told to.
2186 * Doing it here catches the case of proxied tunneled
2189 if (realm && (realm->striprealm == TRUE) &&
2190 (strippedname = pairfind(request->proxy->vps, PW_STRIPPED_USER_NAME)) != NULL) {
2192 * If there's a Stripped-User-Name attribute in
2193 * the request, then use THAT as the User-Name
2194 * for the proxied request, instead of the
2197 * This is done by making a copy of the
2198 * Stripped-User-Name attribute, turning it into
2199 * a User-Name attribute, deleting the
2200 * Stripped-User-Name and User-Name attributes
2201 * from the vps list, and making the new
2202 * User-Name the head of the vps list.
2204 vp = pairfind(request->proxy->vps, PW_USER_NAME);
2206 vp = radius_paircreate(request, NULL,
2207 PW_USER_NAME, PW_TYPE_STRING);
2208 rad_assert(vp != NULL); /* handled by above function */
2209 /* Insert at the START of the list */
2210 vp->next = request->proxy->vps;
2211 request->proxy->vps = vp;
2213 memcpy(vp->vp_strvalue, strippedname->vp_strvalue,
2214 sizeof(vp->vp_strvalue));
2215 vp->length = strippedname->length;
2218 * Do NOT delete Stripped-User-Name.
2223 * If there is no PW_CHAP_CHALLENGE attribute but
2224 * there is a PW_CHAP_PASSWORD we need to add it
2225 * since we can't use the request authenticator
2226 * anymore - we changed it.
2228 if ((request->packet->code == PW_AUTHENTICATION_REQUEST) &&
2229 pairfind(request->proxy->vps, PW_CHAP_PASSWORD) &&
2230 pairfind(request->proxy->vps, PW_CHAP_CHALLENGE) == NULL) {
2231 vp = radius_paircreate(request, &request->proxy->vps,
2232 PW_CHAP_CHALLENGE, PW_TYPE_OCTETS);
2233 vp->length = AUTH_VECTOR_LEN;
2234 memcpy(vp->vp_strvalue, request->packet->vector, AUTH_VECTOR_LEN);
2238 * The RFC's say we have to do this, but FreeRADIUS
2241 vp = radius_paircreate(request, &request->proxy->vps,
2242 PW_PROXY_STATE, PW_TYPE_OCTETS);
2243 snprintf(vp->vp_strvalue, sizeof(vp->vp_strvalue), "%d",
2244 request->packet->id);
2245 vp->length = strlen(vp->vp_strvalue);
2248 * Should be done BEFORE inserting into proxy hash, as
2249 * pre-proxy may use this information, or change it.
2251 request->proxy->code = request->packet->code;
2254 * Call the pre-proxy routines.
2256 vp = pairfind(request->config_items, PW_PRE_PROXY_TYPE);
2258 RDEBUG2(" Found Pre-Proxy-Type %s", vp->vp_strvalue);
2259 pre_proxy_type = vp->vp_integer;
2262 rad_assert(request->home_pool != NULL);
2264 if (request->home_pool->virtual_server) {
2265 const char *old_server = request->server;
2267 request->server = request->home_pool->virtual_server;
2268 RDEBUG2(" server %s {", request->server);
2269 rcode = module_pre_proxy(pre_proxy_type, request);
2271 request->server = old_server;
2273 rcode = module_pre_proxy(pre_proxy_type, request);
2276 case RLM_MODULE_FAIL:
2277 case RLM_MODULE_INVALID:
2278 case RLM_MODULE_NOTFOUND:
2279 case RLM_MODULE_USERLOCK:
2281 /* FIXME: debug print failed stuff */
2284 case RLM_MODULE_REJECT:
2285 case RLM_MODULE_HANDLED:
2289 * Only proxy the packet if the pre-proxy code succeeded.
2291 case RLM_MODULE_NOOP:
2293 case RLM_MODULE_UPDATED:
2298 * If it's a fake request, don't send the proxy
2299 * packet. The outer tunnel session will take
2300 * care of doing that.
2302 if (request->packet->dst_port == 0) {
2303 request->home_server = NULL;
2307 if (request->home_server->server) {
2308 return proxy_to_virtual_server(request);
2311 if (!proxy_request(request)) {
2312 RDEBUG("ERROR: Failed to proxy request %d", request->number);
2320 static void request_post_handler(REQUEST *request)
2322 int child_state = -1;
2323 struct timeval when;
2326 if ((request->master_state == REQUEST_STOP_PROCESSING) ||
2328 (request->parent->master_state == REQUEST_STOP_PROCESSING))) {
2329 RDEBUG2("Request %d was cancelled.", request->number);
2330 #ifdef HAVE_PTHREAD_H
2331 request->child_pid = NO_SUCH_CHILD_PID;
2333 child_state = REQUEST_DONE;
2337 if (request->child_state != REQUEST_RUNNING) {
2338 rad_panic("Internal sanity check failed");
2343 * If it's not in the request hash, it's a CoA request.
2346 if (!request->in_request_hash &&
2348 ((request->proxy->code == PW_COA_REQUEST) ||
2349 (request->proxy->code == PW_DISCONNECT_REQUEST))) {
2350 request->next_callback = NULL;
2351 child_state = REQUEST_DONE;
2357 * Catch Auth-Type := Reject BEFORE proxying the packet.
2359 if ((request->packet->code == PW_AUTHENTICATION_REQUEST) &&
2360 (request->reply->code == 0) &&
2361 ((vp = pairfind(request->config_items, PW_AUTH_TYPE)) != NULL) &&
2362 (vp->vp_integer == PW_AUTHTYPE_REJECT)) {
2363 request->reply->code = PW_AUTHENTICATION_REJECT;
2367 if (request->root->proxy_requests &&
2368 !request->in_proxy_hash &&
2369 (request->reply->code == 0) &&
2370 (request->packet->dst_port != 0) &&
2371 (request->packet->code != PW_STATUS_SERVER)) {
2372 int rcode = successfully_proxied_request(request);
2374 if (rcode == 1) return; /* request is invalid */
2377 * Failed proxying it (dead home servers, etc.)
2378 * Run it through Post-Proxy-Type = Fail, and
2379 * respond to the request.
2381 * Note that we're in a child thread here, so we
2382 * do NOT re-schedule the request. Instead, we
2383 * do what we would have done, which is run the
2384 * pre-handler, a NULL request handler, and then
2387 if ((rcode < 0) && setup_post_proxy_fail(request)) {
2388 request_pre_handler(request);
2392 * Else we weren't supposed to proxy it,
2393 * OR we proxied it internally to a virutal server.
2399 * Fake requests don't get encoded or signed. The caller
2400 * also requires the reply VP's, so we don't free them
2403 if (request->packet->dst_port == 0) {
2404 /* FIXME: RDEBUG going to the next request */
2405 #ifdef HAVE_PTHREAD_H
2406 request->child_pid = NO_SUCH_CHILD_PID;
2408 request->child_state = REQUEST_DONE;
2414 * Copy Proxy-State from the request to the reply.
2416 vp = paircopy2(request->packet->vps, PW_PROXY_STATE);
2417 if (vp) pairadd(&request->reply->vps, vp);
2421 * Access-Requests get delayed or cached.
2423 switch (request->packet->code) {
2424 case PW_AUTHENTICATION_REQUEST:
2425 gettimeofday(&request->next_when, NULL);
2427 if (request->reply->code == 0) {
2429 * Check if the lack of response is intentional.
2431 vp = pairfind(request->config_items,
2432 PW_RESPONSE_PACKET_TYPE);
2434 RDEBUG2("There was no response configured: rejecting request %d",
2436 request->reply->code = PW_AUTHENTICATION_REJECT;
2438 } else if (vp->vp_integer == 256) {
2439 RDEBUG2("Not responding to request %d",
2443 * Force cleanup after a long
2444 * time, so that we don't
2445 * re-process the packet.
2447 request->next_when.tv_sec += request->root->max_request_time;
2448 request->next_callback = cleanup_delay;
2449 child_state = REQUEST_CLEANUP_DELAY;
2452 request->reply->code = vp->vp_integer;
2458 * Run rejected packets through
2460 * Post-Auth-Type = Reject
2462 if (request->reply->code == PW_AUTHENTICATION_REJECT) {
2463 pairdelete(&request->config_items, PW_POST_AUTH_TYPE);
2464 vp = radius_pairmake(request, &request->config_items,
2465 "Post-Auth-Type", "Reject",
2467 if (vp) rad_postauth(request);
2470 * If configured, delay Access-Reject packets.
2472 * If request->root->reject_delay = 0, we discover
2473 * that we have to send the packet now.
2475 when = request->received;
2476 when.tv_sec += request->root->reject_delay;
2478 if (timercmp(&when, &request->next_when, >)) {
2479 RDEBUG2("Delaying reject of request %d for %d seconds",
2481 request->root->reject_delay);
2482 request->next_when = when;
2483 request->next_callback = reject_delay;
2484 #ifdef HAVE_PTHREAD_H
2485 request->child_pid = NO_SUCH_CHILD_PID;
2487 request->child_state = REQUEST_REJECT_DELAY;
2493 case PW_COA_REQUEST:
2494 case PW_DISCONNECT_REQUEST:
2496 request->next_when.tv_sec += request->root->cleanup_delay;
2497 request->next_callback = cleanup_delay;
2498 child_state = REQUEST_CLEANUP_DELAY;
2501 case PW_ACCOUNTING_REQUEST:
2502 request->next_callback = NULL; /* just to be safe */
2503 child_state = REQUEST_DONE;
2507 * FIXME: Status-Server should probably not be
2510 case PW_STATUS_SERVER:
2511 request->next_callback = NULL;
2512 child_state = REQUEST_DONE;
2519 request->next_callback = NULL;
2520 child_state = REQUEST_DONE;
2525 * Suppress "no reply" packets here, unless we're reading
2526 * from the "detail" file. In that case, we've got to
2527 * tell the detail file handler that the request is dead,
2528 * and it should re-send it.
2529 * If configured, encode, sign, and send.
2531 if ((request->reply->code != 0) ||
2532 (request->listener->type == RAD_LISTEN_DETAIL)) {
2533 DEBUG_PACKET(request, request->reply, 1);
2534 request->listener->send(request->listener, request);
2539 * Now that we've completely processed the request,
2540 * see if we need to originate a CoA request.
2543 (pairfind(request->config_items, PW_SEND_COA_REQUEST) != NULL)) {
2544 if (!originated_coa_request(request)) {
2545 RDEBUG2("Do CoA Fail handler here");
2547 /* request->coa is stil set, so we can update events */
2553 * Clean up. These are no longer needed.
2555 pairfree(&request->config_items);
2557 pairfree(&request->packet->vps);
2558 request->username = NULL;
2559 request->password = NULL;
2561 pairfree(&request->reply->vps);
2564 if (request->proxy) {
2565 pairfree(&request->proxy->vps);
2567 if (request->proxy_reply) {
2568 pairfree(&request->proxy_reply->vps);
2573 * We're not tracking responses from the home
2574 * server, we can therefore free this memory in
2577 if (!request->in_proxy_hash) {
2578 rad_free(&request->proxy);
2579 rad_free(&request->proxy_reply);
2580 request->home_server = NULL;
2586 RDEBUG2("Finished request %d.", request->number);
2587 rad_assert(child_state >= 0);
2588 request->child_state = child_state;
2591 * Single threaded mode: update timers now.
2593 if (!have_children) wait_a_bit(request);
2597 static void received_retransmit(REQUEST *request, const RADCLIENT *client)
2603 RAD_STATS_TYPE_INC(request->listener, total_dup_requests);
2604 RAD_STATS_CLIENT_INC(request->listener, client, total_dup_requests);
2606 switch (request->child_state) {
2607 case REQUEST_QUEUED:
2608 case REQUEST_RUNNING:
2612 radlog(L_ERR, "Discarding duplicate request from "
2613 "client %s port %d - ID: %d due to unfinished request %d",
2615 request->packet->src_port,request->packet->id,
2620 case REQUEST_PROXIED:
2622 * We're not supposed to have duplicate
2623 * accounting packets. The other states handle
2624 * duplicates fine (discard, or send duplicate
2625 * reply). But we do NOT want to retransmit an
2626 * accounting request here, because that would
2627 * involve updating the Acct-Delay-Time, and
2628 * therefore changing the packet Id, etc.
2630 * Instead, we just discard the packet. We may
2631 * eventually respond, or the client will send a
2632 * new accounting packet.
2634 * The same comments go for Status-Server, and
2635 * other packet types.
2637 * FIXME: coa: when we proxy CoA && Disconnect
2638 * packets, this logic has to be fixed.
2640 if (request->packet->code != PW_AUTHENTICATION_REQUEST) {
2644 check_for_zombie_home_server(request);
2647 * If we've just discovered that the home server
2648 * is dead, OR the socket has been closed, look for
2649 * another connection to a home server.
2651 if (((request->packet->dst_port != 0) &&
2652 (request->home_server->state == HOME_STATE_IS_DEAD)) ||
2653 (request->proxy_listener->status != RAD_LISTEN_STATUS_KNOWN)) {
2656 remove_from_proxy_hash(request);
2658 home = home_server_ldb(NULL, request->home_pool, request);
2660 RDEBUG2("Failed to find live home server for request %d", request->number);
2663 * Do post-request processing,
2664 * and any insertion of necessary
2667 post_proxy_fail_handler(request);
2671 request->proxy->code = request->packet->code;
2674 * Free the old packet, to force re-encoding
2676 free(request->proxy->data);
2677 request->proxy->data = NULL;
2678 request->proxy->data_len = 0;
2681 * This request failed over to a virtual
2682 * server. Push it back onto the queue
2685 if (request->home_server->server) {
2686 proxy_fallback_handler(request);
2691 * Try to proxy the request.
2693 if (!proxy_request(request)) {
2694 RDEBUG("ERROR: Failed to re-proxy request %d", request->number);
2695 goto no_home_servers;
2699 * This code executes in the main server
2700 * thread, so there's no need for locking.
2702 rad_assert(request->next_callback != NULL);
2703 INSERT_EVENT(request->next_callback, request);
2704 request->next_callback = NULL;
2706 } /* else the home server is still alive */
2709 if (request->home_server->proto == IPPROTO_TCP) {
2710 DEBUG2("Suppressing duplicate proxied request to home server %s port %d proto TCP - ID: %d",
2711 inet_ntop(request->proxy->dst_ipaddr.af,
2712 &request->proxy->dst_ipaddr.ipaddr,
2713 buffer, sizeof(buffer)),
2714 request->proxy->dst_port,
2715 request->proxy->id);
2720 RDEBUG2("Sending duplicate proxied request to home server %s port %d - ID: %d",
2721 inet_ntop(request->proxy->dst_ipaddr.af,
2722 &request->proxy->dst_ipaddr.ipaddr,
2723 buffer, sizeof(buffer)),
2724 request->proxy->dst_port,
2725 request->proxy->id);
2726 request->num_proxied_requests++;
2728 DEBUG_PACKET(request, request->proxy, 1);
2729 request->proxy_listener->send(request->proxy_listener,
2734 case REQUEST_REJECT_DELAY:
2735 RDEBUG2("Waiting to send Access-Reject "
2736 "to client %s port %d - ID: %d",
2738 request->packet->src_port, request->packet->id);
2741 case REQUEST_CLEANUP_DELAY:
2743 if (request->reply->code == 0) {
2744 RDEBUG2("Ignoring retransmit from client %s port %d "
2745 "- ID: %d, no reply was configured",
2747 request->packet->src_port, request->packet->id);
2752 * FIXME: This sends duplicate replies to
2753 * accounting requests, even if Acct-Delay-Time
2754 * or Event-Timestamp is in the packet. In those
2755 * cases, the Id should be changed, and the packet
2758 RDEBUG2("Sending duplicate reply "
2759 "to client %s port %d - ID: %d",
2761 request->packet->src_port, request->packet->id);
2762 DEBUG_PACKET(request, request->reply, 1);
2763 request->listener->send(request->listener, request);
2769 static void received_conflicting_request(REQUEST *request,
2770 const RADCLIENT *client)
2772 radlog(L_ERR, "Received conflicting packet from "
2773 "client %s port %d - ID: %d due to unfinished request %d. Giving up on old request.",
2775 request->packet->src_port, request->packet->id,
2779 * Nuke it from the request hash, so we can receive new
2782 remove_from_request_hash(request);
2784 switch (request->child_state) {
2786 * Tell it to stop, and wait for it to do so.
2789 request->master_state = REQUEST_STOP_PROCESSING;
2790 request->delay += request->delay >> 1;
2792 tv_add(&request->when, request->delay);
2794 INSERT_EVENT(wait_for_child_to_die, request);
2798 * Catch race conditions. It may have switched
2799 * from running to done while this code is being
2802 case REQUEST_REJECT_DELAY:
2803 case REQUEST_CLEANUP_DELAY:
2810 static int can_handle_new_request(RADIUS_PACKET *packet,
2812 struct main_config_t *root)
2815 * Count the total number of requests, to see if
2816 * there are too many. If so, return with an
2819 if (root->max_requests) {
2820 int request_count = fr_packet_list_num_elements(pl);
2823 * This is a new request. Let's see if
2824 * it makes us go over our configured
2827 if (request_count > root->max_requests) {
2828 radlog(L_ERR, "Dropping request (%d is too many): "
2829 "from client %s port %d - ID: %d", request_count,
2831 packet->src_port, packet->id);
2832 radlog(L_INFO, "WARNING: Please check the configuration file.\n"
2833 "\tThe value for 'max_requests' is probably set too low.\n");
2835 } /* else there were a small number of requests */
2836 } /* else there was no configured limit for requests */
2839 * FIXME: Add per-client checks. If one client is sending
2840 * too many packets, start discarding them.
2842 * We increment the counters here, and decrement them
2843 * when the response is sent... somewhere in this file.
2847 * FUTURE: Add checks for system load. If the system is
2848 * busy, start dropping requests...
2850 * We can probably keep some statistics ourselves... if
2851 * there are more requests coming in than we can handle,
2852 * start dropping some.
2859 int received_request(rad_listen_t *listener,
2860 RADIUS_PACKET *packet, REQUEST **prequest,
2863 RADIUS_PACKET **packet_p;
2864 REQUEST *request = NULL;
2865 struct main_config_t *root = &mainconfig;
2867 packet_p = fr_packet_list_find(pl, packet);
2869 request = fr_packet2myptr(REQUEST, packet, packet_p);
2870 rad_assert(request->in_request_hash);
2872 if ((request->packet->data_len == packet->data_len) &&
2873 (memcmp(request->packet->vector, packet->vector,
2874 sizeof(packet->vector)) == 0)) {
2875 received_retransmit(request, client);
2880 * The new request is different from the old one,
2881 * but maybe the old is finished. If so, delete
2884 switch (request->child_state) {
2885 struct timeval when;
2889 * Special hacks for race conditions.
2890 * The reply is encoded, and therefore
2891 * likely sent. We received a *new*
2892 * packet from the client, likely before
2893 * the next line or two of code which
2894 * updated the child state. In this
2895 * case, just accept the new request.
2897 if ((request->reply->code != 0) &&
2898 request->reply->data) {
2899 radlog(L_INFO, "WARNING: Allowing fast client %s port %d - ID: %d for recent request %d.",
2901 packet->src_port, packet->id,
2903 remove_from_request_hash(request);
2908 gettimeofday(&when, NULL);
2912 * If the cached request was received
2913 * within the last second, then we
2914 * discard the NEW request instead of the
2915 * old one. This will happen ONLY when
2916 * the client is severely broken, and is
2917 * sending conflicting packets very
2920 if (timercmp(&when, &request->received, <)) {
2921 radlog(L_ERR, "Discarding conflicting packet from "
2922 "client %s port %d - ID: %d due to recent request %d.",
2924 packet->src_port, packet->id,
2929 received_conflicting_request(request, client);
2933 case REQUEST_REJECT_DELAY:
2934 case REQUEST_CLEANUP_DELAY:
2935 request->child_state = REQUEST_DONE;
2937 cleanup_delay(request);
2944 * We may want to quench the new request.
2946 if ((listener->type != RAD_LISTEN_DETAIL) &&
2947 !can_handle_new_request(packet, client, root)) {
2952 * Create and initialize the new request.
2954 request = request_alloc(); /* never fails */
2956 if ((request->reply = rad_alloc(0)) == NULL) {
2957 radlog(L_ERR, "No memory");
2961 request->listener = listener;
2962 request->client = client;
2963 request->packet = packet;
2964 request->packet->timestamp = request->timestamp;
2965 request->number = request_num_counter++;
2966 request->priority = listener->type;
2967 #ifdef HAVE_PTHREAD_H
2968 request->child_pid = NO_SUCH_CHILD_PID;
2972 * Status-Server packets go to the head of the queue.
2974 if (request->packet->code == PW_STATUS_SERVER) request->priority = 0;
2977 * Set virtual server identity
2979 if (client->server) {
2980 request->server = client->server;
2981 } else if (listener->server) {
2982 request->server = listener->server;
2984 request->server = NULL;
2988 * Remember the request in the list.
2990 if (!fr_packet_list_insert(pl, &request->packet)) {
2991 radlog(L_ERR, "Failed to insert request %d in the list of live requests: discarding", request->number);
2992 ev_request_free(&request);
2996 request->in_request_hash = TRUE;
2997 request->root = root;
3000 request->listener->count++;
3004 * The request passes many of our sanity checks.
3005 * From here on in, if anything goes wrong, we
3006 * send a reject message, instead of dropping the
3011 * Build the reply template from the request.
3014 request->reply->sockfd = request->packet->sockfd;
3015 request->reply->dst_ipaddr = request->packet->src_ipaddr;
3016 request->reply->src_ipaddr = request->packet->dst_ipaddr;
3017 request->reply->dst_port = request->packet->src_port;
3018 request->reply->src_port = request->packet->dst_port;
3019 request->reply->id = request->packet->id;
3020 request->reply->code = 0; /* UNKNOWN code */
3021 memcpy(request->reply->vector, request->packet->vector,
3022 sizeof(request->reply->vector));
3023 request->reply->vps = NULL;
3024 request->reply->data = NULL;
3025 request->reply->data_len = 0;
3027 request->master_state = REQUEST_ACTIVE;
3028 request->child_state = REQUEST_QUEUED;
3029 request->next_callback = NULL;
3031 gettimeofday(&request->received, NULL);
3032 request->timestamp = request->received.tv_sec;
3033 request->when = request->received;
3035 request->delay = USEC;
3037 tv_add(&request->when, request->delay);
3039 INSERT_EVENT(wait_a_bit, request);
3041 *prequest = request;
3047 REQUEST *received_proxy_response(RADIUS_PACKET *packet)
3053 * Also removes from the proxy hash if responses == requests
3055 request = lookup_in_proxy_hash(packet);
3058 radlog(L_PROXY, "No outstanding request was found for reply from host %s port %d - ID %d",
3059 inet_ntop(packet->src_ipaddr.af,
3060 &packet->src_ipaddr.ipaddr,
3061 buffer, sizeof(buffer)),
3062 packet->src_port, packet->id);
3067 * We haven't replied to the NAS, but we have seen an
3068 * earlier reply from the home server. Ignore this packet,
3069 * as we're likely still processing the previous reply.
3071 if (request->proxy_reply) {
3072 if (memcmp(request->proxy_reply->vector,
3074 sizeof(request->proxy_reply->vector)) == 0) {
3075 RDEBUG2("Discarding duplicate reply from host %s port %d - ID: %d for request %d",
3076 inet_ntop(packet->src_ipaddr.af,
3077 &packet->src_ipaddr.ipaddr,
3078 buffer, sizeof(buffer)),
3079 packet->src_port, packet->id,
3083 * ? The home server gave us a new proxy
3084 * reply which doesn't match the old
3087 RDEBUG2("Ignoring conflicting proxy reply");
3090 /* assert that there's an event queued for request? */
3095 * Verify the packet before doing ANYTHING with it. This
3096 * means we're doing more MD5 checks in the server core.
3097 * However, we can fix that by moving to multiple threads
3098 * listening on sockets.
3100 * We do this AFTER looking the request up in the hash,
3101 * and AFTER vhecking if we saw a previous request. This
3102 * helps minimize the DoS effect of people attacking us
3103 * with spoofed packets.
3105 if (rad_verify(packet, request->proxy,
3106 request->home_server->secret) != 0) {
3107 DEBUG("Ignoring spoofed proxy reply. Signature is invalid");
3111 gettimeofday(&now, NULL);
3114 * Maybe move this earlier in the decision process?
3115 * Having it here means that late or duplicate proxy
3116 * replies no longer get the home server marked as
3117 * "alive". This might be good for stability, though.
3119 * FIXME: Do we really want to do this whenever we
3120 * receive a packet? Setting this here means that we
3121 * mark it alive on *any* packet, even if it's lost all
3122 * of the *other* packets in the last 10s.
3124 if (request->proxy->code != PW_STATUS_SERVER) {
3125 request->home_server->state = HOME_STATE_ALIVE;
3130 * When originating CoA, the "proxy" reply is the reply
3131 * to the CoA request that we originated. At this point,
3132 * the original request is finished, and it has a reply.
3134 * However, if we haven't separated the two requests, do
3135 * so now. This is done so that cleaning up the original
3136 * request won't cause the CoA request to be free'd. See
3137 * util.c, request_free()
3139 if (request->parent && (request->parent->coa == request)) {
3140 request->parent->coa = NULL;
3141 request->parent = NULL;
3145 * Skip the next set of checks, as the original
3146 * reply is cached. We want to be able to still
3147 * process the CoA reply, AND to reference the
3148 * original request/reply.
3150 * This is getting to be really quite a bit of a
3156 * If there's a reply to the NAS, ignore everything
3157 * related to proxy responses
3159 if (request->reply && request->reply->code != 0) {
3160 RDEBUG2("Ignoring proxy reply that arrived after we sent a reply to the NAS");
3166 * The average includes our time to receive packets and
3167 * look them up in the hashes, which should be the same
3170 * We update the response time only for the FIRST packet
3173 if (request->home_server->ema.window > 0) {
3174 radius_stats_ema(&request->home_server->ema,
3175 &now, &request->proxy_when);
3179 switch (request->child_state) {
3180 case REQUEST_QUEUED:
3181 case REQUEST_RUNNING:
3182 radlog(L_ERR, "Internal sanity check failed for child state");
3185 case REQUEST_REJECT_DELAY:
3186 case REQUEST_CLEANUP_DELAY:
3188 radlog(L_ERR, "Reply from home server %s port %d - ID: %d arrived too late for request %d. Try increasing 'retry_delay' or 'max_request_time'",
3189 inet_ntop(packet->src_ipaddr.af,
3190 &packet->src_ipaddr.ipaddr,
3191 buffer, sizeof(buffer)),
3192 packet->src_port, packet->id,
3194 /* assert that there's an event queued for request? */
3197 case REQUEST_PROXIED:
3201 request->proxy_reply = packet;
3205 * Perform RTT calculations, as per RFC 2988 (for TCP).
3206 * Note that we only do so on the first response.
3208 if ((request->num_proxied_responses == 1)
3210 home_server *home = request->home_server;
3212 rtt = now.tv_sec - request->proxy_when.tv_sec;
3215 rtt -= request->proxy_when.tv_usec;
3217 if (!home->has_rtt) {
3218 home->has_rtt = TRUE;
3221 home->rttvar = rtt / 2;
3224 home->rttvar -= home->rttvar >> 2;
3225 home->rttvar += (home->srtt - rtt);
3226 home->srtt -= home->srtt >> 3;
3227 home->srtt += rtt >> 3;
3230 home->rto = home->srtt;
3231 if (home->rttvar > (USEC / 4)) {
3232 home->rto += home->rttvar * 4;
3240 * There's no incoming request, so it's a proxied packet
3243 if (!request->packet) {
3244 received_response_to_ping(request);
3245 request->proxy_reply = NULL; /* caller will free it */
3246 ev_request_free(&request);
3250 request->child_state = REQUEST_QUEUED;
3251 request->when = now;
3252 request->delay = USEC;
3253 request->priority = RAD_LISTEN_PROXY;
3254 tv_add(&request->when, request->delay);
3257 * Wait a bit will take care of max_request_time
3259 INSERT_EVENT(wait_a_bit, request);
3264 #endif /* WITH_PROXY */
3267 static void tcp_socket_lifetime(void *ctx)
3269 rad_listen_t *listener = ctx;
3272 listener->print(listener, buffer, sizeof(buffer));
3274 DEBUG("Reached maximum lifetime on socket %s", buffer);
3276 listener->status = RAD_LISTEN_STATUS_CLOSED;
3277 event_new_fd(listener);
3280 static void tcp_socket_idle_timeout(void *ctx)
3282 rad_listen_t *listener = ctx;
3283 listen_socket_t *sock = listener->data;
3286 fr_event_now(el, &now); /* should always succeed... */
3288 rad_assert(sock->home != NULL);
3291 * We implement idle timeout by polling, because it's
3292 * cheaper than resetting the idle timeout every time
3293 * we send / receive a packet.
3295 if ((sock->last_packet + sock->home->idle_timeout) > now.tv_sec) {
3296 struct timeval when;
3297 void *fun = tcp_socket_idle_timeout;
3299 when.tv_sec = sock->last_packet;
3300 when.tv_sec += sock->home->idle_timeout;
3303 if (sock->home->lifetime &&
3304 (sock->opened + sock->home->lifetime < when.tv_sec)) {
3305 when.tv_sec = sock->opened + sock->home->lifetime;
3306 fun = tcp_socket_lifetime;
3309 if (!fr_event_insert(el, fun, listener, &when, &sock->ev)) {
3310 rad_panic("Failed to insert event");
3316 listener->print(listener, buffer, sizeof(buffer));
3318 DEBUG("Reached idle timeout on socket %s", buffer);
3320 listener->status = RAD_LISTEN_STATUS_CLOSED;
3321 event_new_fd(listener);
3325 void event_new_fd(rad_listen_t *this)
3329 if (this->status == RAD_LISTEN_STATUS_KNOWN) return;
3331 this->print(this, buffer, sizeof(buffer));
3333 if (this->status == RAD_LISTEN_STATUS_INIT) {
3335 DEBUG("Listening on %s", buffer);
3337 radlog(L_INFO, " ... adding new socket %s", buffer);
3342 * Add it to the list of sockets we can use.
3343 * Server sockets (i.e. auth/acct) are never
3344 * added to the packet list.
3346 if (this->type == RAD_LISTEN_PROXY) {
3347 listen_socket_t *sock = this->data;
3349 PTHREAD_MUTEX_LOCK(&proxy_mutex);
3350 if (!fr_packet_list_socket_add(proxy_list, this->fd,
3352 &sock->other_ipaddr, sock->other_port,
3355 proxy_no_new_sockets = TRUE;
3357 PTHREAD_MUTEX_UNLOCK(&proxy_mutex);
3360 * This is bad. However, the
3361 * packet list now supports 256
3362 * open sockets, which should
3363 * minimize this problem.
3365 radlog(L_ERR, "Failed adding proxy socket: %s",
3371 sock->home->num_connections++;
3374 * If necessary, add it to the list of
3375 * new proxy listeners.
3377 if (sock->home->lifetime || sock->home->idle_timeout) {
3378 this->next = proxy_listener_list;
3379 proxy_listener_list = this;
3382 PTHREAD_MUTEX_UNLOCK(&proxy_mutex);
3385 * Tell the main thread that we've added
3386 * a proxy listener, but only if we need
3387 * to update the event list. Do this
3388 * with the mutex unlocked, to reduce
3392 if (sock->home->lifetime || sock->home->idle_timeout) {
3393 radius_signal_self(RADIUS_SIGNAL_SELF_NEW_FD);
3401 * Detail files are always known, and aren't
3402 * put into the socket event loop.
3404 if (this->type == RAD_LISTEN_DETAIL) {
3405 this->status = RAD_LISTEN_STATUS_KNOWN;
3408 * Set up the first poll interval.
3410 event_poll_detail(this);
3415 FD_MUTEX_LOCK(&fd_mutex);
3416 if (!fr_event_fd_insert(el, 0, this->fd,
3417 event_socket_handler, this)) {
3418 radlog(L_ERR, "Failed adding event handler for proxy socket!");
3421 FD_MUTEX_UNLOCK(&fd_mutex);
3423 this->status = RAD_LISTEN_STATUS_KNOWN;
3428 * Something went wrong with the socket: make it harmless.
3430 if (this->status == RAD_LISTEN_STATUS_REMOVE_FD) {
3434 * Remove it from the list of live FD's.
3436 FD_MUTEX_LOCK(&fd_mutex);
3437 fr_event_fd_delete(el, 0, this->fd);
3438 FD_MUTEX_UNLOCK(&fd_mutex);
3441 if (this->type != RAD_LISTEN_PROXY)
3444 if (this->count != 0) {
3445 fr_packet_list_walk(pl, this,
3446 remove_all_requests);
3449 if (this->count == 0) {
3450 this->status = RAD_LISTEN_STATUS_FINISH;
3456 int count = this->count;
3461 PTHREAD_MUTEX_LOCK(&proxy_mutex);
3462 if (!fr_packet_list_socket_freeze(proxy_list,
3464 radlog(L_ERR, "Fatal error freezing socket: %s",
3470 * Doing this with the proxy mutex held
3471 * is a Bad Thing. We should move to
3472 * finer-grained mutexes.
3474 count = this->count;
3476 fr_packet_list_walk(proxy_list, this,
3477 remove_all_proxied_requests);
3479 count = this->count; /* protected by mutex */
3480 PTHREAD_MUTEX_UNLOCK(&proxy_mutex);
3483 this->status = RAD_LISTEN_STATUS_FINISH;
3490 * Re-open the socket, pointing it to /dev/null.
3491 * This means that all writes proceed without
3492 * blocking, and all reads return "no data".
3494 * This leaves the socket active, so any child
3495 * threads won't go insane. But it means that
3496 * they cannot send or receive any packets.
3498 * This is EXTRA work in the normal case, when
3499 * sockets are closed without error. But it lets
3500 * us have one simple processing method for all
3503 devnull = open("/dev/null", O_RDWR);
3505 radlog(L_ERR, "FATAL failure opening /dev/null: %s",
3509 if (dup2(devnull, this->fd) < 0) {
3510 radlog(L_ERR, "FATAL failure closing socket: %s",
3516 this->status = RAD_LISTEN_STATUS_CLOSED;
3519 * Fall through to the next section.
3524 * Called ONLY from the main thread. On the following
3530 * (and falling through from "forcibly close FD" above)
3531 * client closed connection on us
3532 * client sent us a bad packet.
3534 if (this->status == RAD_LISTEN_STATUS_CLOSED) {
3535 int count = this->count;
3536 rad_assert(this->type != RAD_LISTEN_DETAIL);
3540 * Remove it from the list of active sockets, so
3541 * that it isn't used when proxying new packets.
3543 if (this->type == RAD_LISTEN_PROXY) {
3544 PTHREAD_MUTEX_LOCK(&proxy_mutex);
3545 if (!fr_packet_list_socket_freeze(proxy_list,
3547 radlog(L_ERR, "Fatal error freezing socket: %s",
3551 count = this->count; /* protected by mutex */
3552 PTHREAD_MUTEX_UNLOCK(&proxy_mutex);
3557 * Requests are still using the socket. Wait for
3561 struct timeval when;
3562 listen_socket_t *sock = this->data;
3565 * Try again to clean up the socket in 30
3568 gettimeofday(&when, NULL);
3571 if (!fr_event_insert(el,
3572 (fr_event_callback_t) event_new_fd,
3573 this, &when, &sock->ev)) {
3574 rad_panic("Failed to insert event");
3581 * No one is using this socket: we can delete it
3584 this->status = RAD_LISTEN_STATUS_FINISH;
3588 if (this->status == RAD_LISTEN_STATUS_FINISH) {
3589 listen_socket_t *sock = this->data;
3591 rad_assert(this->count == 0);
3592 radlog(L_INFO, " ... closing socket %s", buffer);
3595 * Remove it from the list of live FD's. Note
3596 * that it MAY also have been removed above. We
3597 * do it again here, to catch the case of sockets
3598 * closing on idle timeout, or max
3599 * lifetime... AFTER all requests have finished
3602 FD_MUTEX_LOCK(&fd_mutex);
3603 fr_event_fd_delete(el, 0, this->fd);
3604 FD_MUTEX_UNLOCK(&fd_mutex);
3608 * Remove it from the list of sockets to be used
3611 if (this->type == RAD_LISTEN_PROXY) {
3612 PTHREAD_MUTEX_LOCK(&proxy_mutex);
3613 if (!fr_packet_list_socket_remove(proxy_list,
3615 radlog(L_ERR, "Fatal error removing socket: %s",
3619 if (sock->home) sock->home->num_connections--;
3620 PTHREAD_MUTEX_UNLOCK(&proxy_mutex);
3625 * Remove any pending cleanups.
3627 if (sock->ev) fr_event_delete(el, &sock->ev);
3630 * And finally, close the socket.
3636 static void handle_signal_self(int flag)
3638 if ((flag & (RADIUS_SIGNAL_SELF_EXIT | RADIUS_SIGNAL_SELF_TERM)) != 0) {
3639 if ((flag & RADIUS_SIGNAL_SELF_EXIT) != 0) {
3640 radlog(L_INFO, "Received TERM signal");
3641 fr_event_loop_exit(el, 1);
3643 fr_event_loop_exit(el, 2);
3647 } /* else exit/term flags weren't set */
3650 * Tell the even loop to stop processing.
3652 if ((flag & RADIUS_SIGNAL_SELF_HUP) != 0) {
3654 static time_t last_hup = 0;
3656 radlog(L_INFO, "Received HUP signal.");
3659 if ((int) (when - last_hup) < 5) {
3660 radlog(L_INFO, "Ignoring HUP (less than 5s since last one)");
3665 fr_event_loop_exit(el, 0x80);
3669 if ((flag & RADIUS_SIGNAL_SELF_DETAIL) != 0) {
3673 * FIXME: O(N) loops suck.
3675 for (this = mainconfig.listen;
3677 this = this->next) {
3678 if (this->type != RAD_LISTEN_DETAIL) continue;
3681 * This one didn't send the signal, skip
3684 if (!this->decode(this, NULL)) continue;
3687 * Go service the interrupt.
3689 event_poll_detail(this);
3696 * Add event handlers for idle timeouts && maximum lifetime.
3698 if ((flag & RADIUS_SIGNAL_SELF_NEW_FD) != 0) {
3699 struct timeval when;
3702 fr_event_now(el, &now);
3704 PTHREAD_MUTEX_LOCK(&proxy_mutex);
3706 while (proxy_listener_list) {
3707 rad_listen_t *this = proxy_listener_list;
3708 listen_socket_t *sock = this->data;
3710 proxy_listener_list = this->next;
3713 if (!sock->home) continue; /* skip UDP sockets */
3717 if (!sock->home->idle_timeout) {
3718 rad_assert(sock->home->lifetime != 0);
3720 when.tv_sec += sock->home->lifetime;
3721 fun = tcp_socket_lifetime;
3723 rad_assert(sock->home->idle_timeout != 0);
3725 when.tv_sec += sock->home->idle_timeout;
3726 fun = tcp_socket_idle_timeout;
3729 if (!fr_event_insert(el, fun, this, &when,
3731 rad_panic("Failed to insert event");
3735 PTHREAD_MUTEX_UNLOCK(&proxy_mutex);
3740 #ifndef WITH_SELF_PIPE
3741 void radius_signal_self(int flag)
3743 handle_signal_self(flag);
3747 * Inform ourselves that we received a signal.
3749 void radius_signal_self(int flag)
3755 * The read MUST be non-blocking for this to work.
3757 rcode = read(self_pipe[0], buffer, sizeof(buffer));
3761 for (i = 0; i < rcode; i++) {
3762 buffer[0] |= buffer[i];
3770 write(self_pipe[1], buffer, 1);
3774 static void event_signal_handler(UNUSED fr_event_list_t *xel,
3775 UNUSED int fd, UNUSED void *ctx)
3780 rcode = read(self_pipe[0], buffer, sizeof(buffer));
3781 if (rcode <= 0) return;
3784 * Merge pending signals.
3786 for (i = 0; i < rcode; i++) {
3787 buffer[0] |= buffer[i];
3790 handle_signal_self(buffer[0]);
3795 static void event_socket_handler(fr_event_list_t *xel, UNUSED int fd,
3798 rad_listen_t *listener = ctx;
3799 RAD_REQUEST_FUNP fun;
3802 rad_assert(xel == el);
3806 if (listener->fd < 0) rad_panic("Socket was closed on us!");
3808 if (!listener->recv(listener, &fun, &request)) return;
3810 if (!thread_pool_addrequest(request, fun)) {
3811 request->child_state = REQUEST_DONE;
3817 * This function is called periodically to see if this detail
3818 * file is available for reading.
3820 static void event_poll_detail(void *ctx)
3823 RAD_REQUEST_FUNP fun;
3825 rad_listen_t *this = ctx;
3826 struct timeval when;
3827 listen_detail_t *detail = this->data;
3829 rad_assert(this->type == RAD_LISTEN_DETAIL);
3832 * Try to read something.
3834 * FIXME: This does poll AND receive.
3836 rcode = this->recv(this, &fun, &request);
3838 rad_assert(fun != NULL);
3839 rad_assert(request != NULL);
3841 if (!thread_pool_addrequest(request, fun)) {
3842 request->child_state = REQUEST_DONE;
3846 fr_event_now(el, &now);
3850 * Backdoor API to get the delay until the next poll
3853 delay = this->encode(this, NULL);
3854 tv_add(&when, delay);
3856 if (!fr_event_insert(el, event_poll_detail, this,
3857 &when, &detail->ev)) {
3858 radlog(L_ERR, "Failed creating handler");
3864 static void event_status(struct timeval *wake)
3866 #if !defined(HAVE_PTHREAD_H) && defined(WNOHANG)
3870 if (debug_flag == 0) {
3872 radlog(L_INFO, "Ready to process requests.");
3873 just_started = FALSE;
3879 radlog(L_INFO, "Ready to process requests.");
3881 } else if ((wake->tv_sec != 0) ||
3882 (wake->tv_usec >= 100000)) {
3883 DEBUG("Waking up in %d.%01u seconds.",
3884 (int) wake->tv_sec, (unsigned int) wake->tv_usec / 100000);
3889 * FIXME: Put this somewhere else, where it isn't called
3890 * all of the time...
3893 #if !defined(HAVE_PTHREAD_H) && defined(WNOHANG)
3895 * If there are no child threads, then there may
3896 * be child processes. In that case, wait for
3897 * their exit status, and throw that exit status
3898 * away. This helps get rid of zxombie children.
3900 while (waitpid(-1, &argval, WNOHANG) > 0) {
3908 * Externally-visibly functions.
3910 int radius_event_init(CONF_SECTION *cs, int spawn_flag)
3912 rad_listen_t *head = NULL;
3916 time(&fr_start_time);
3918 el = fr_event_list_create(event_status);
3921 pl = fr_packet_list_create(0);
3922 if (!pl) return 0; /* leak el */
3924 request_num_counter = 0;
3927 if (mainconfig.proxy_requests) {
3929 * Create the tree for managing proxied requests and
3932 proxy_list = fr_packet_list_create(1);
3933 if (!proxy_list) return 0;
3935 #ifdef HAVE_PTHREAD_H
3936 if (pthread_mutex_init(&proxy_mutex, NULL) != 0) {
3937 radlog(L_ERR, "FATAL: Failed to initialize proxy mutex: %s",
3946 * Just before we spawn the child threads, force the log
3947 * subsystem to re-open the log file for every write.
3949 if (spawn_flag) force_log_reopen();
3951 #ifdef HAVE_PTHREAD_H
3953 NO_SUCH_CHILD_PID = (pthread_t ) (0);
3955 NO_SUCH_CHILD_PID = pthread_self(); /* not a child thread */
3958 * Initialize the threads ONLY if we're spawning, AND
3959 * we're running normally.
3961 if (spawn_flag && !check_config &&
3962 (thread_pool_init(cs, &spawn_flag) < 0)) {
3968 * Move all of the thread calls to this file?
3970 * It may be best for the mutexes to be in this file...
3972 have_children = spawn_flag;
3975 DEBUG("%s: #### Skipping IP addresses and Ports ####",
3980 #ifdef WITH_SELF_PIPE
3982 * Child threads need a pipe to signal us, as do the
3985 if (pipe(self_pipe) < 0) {
3986 radlog(L_ERR, "radiusd: Error opening internal pipe: %s",
3990 if (fcntl(self_pipe[0], F_SETFL, O_NONBLOCK | FD_CLOEXEC) < 0) {
3991 radlog(L_ERR, "radiusd: Error setting internal flags: %s",
3995 if (fcntl(self_pipe[1], F_SETFL, O_NONBLOCK | FD_CLOEXEC) < 0) {
3996 radlog(L_ERR, "radiusd: Error setting internal flags: %s",
4001 if (!fr_event_fd_insert(el, 0, self_pipe[0],
4002 event_signal_handler, el)) {
4003 radlog(L_ERR, "Failed creating handler for signals");
4006 #endif /* WITH_SELF_PIPE */
4008 DEBUG("%s: #### Opening IP addresses and Ports ####",
4012 * The server temporarily switches to an unprivileged
4013 * user very early in the bootstrapping process.
4014 * However, some sockets MAY require privileged access
4015 * (bind to device, or to port < 1024, or to raw
4016 * sockets). Those sockets need to call suid up/down
4017 * themselves around the functions that need a privileged
4020 if (listen_init(cs, &head) < 0) {
4024 mainconfig.listen = head;
4027 * At this point, no one has any business *ever* going
4030 fr_suid_down_permanent();
4036 static int request_hash_cb(UNUSED void *ctx, void *data)
4038 REQUEST *request = fr_packet2myptr(REQUEST, packet, data);
4041 rad_assert(request->in_proxy_hash == FALSE);
4044 ev_request_free(&request);
4051 static int proxy_hash_cb(UNUSED void *ctx, void *data)
4053 REQUEST *request = fr_packet2myptr(REQUEST, proxy, data);
4055 ev_request_free(&request);
4061 void radius_event_free(void)
4064 * FIXME: Stop all threads, or at least check that
4065 * they're all waiting on the semaphore, and the queues
4071 * There are requests in the proxy hash that aren't
4072 * referenced from anywhere else. Remove them first.
4075 fr_packet_list_walk(proxy_list, NULL, proxy_hash_cb);
4076 fr_packet_list_free(proxy_list);
4081 fr_packet_list_walk(pl, NULL, request_hash_cb);
4083 fr_packet_list_free(pl);
4086 fr_event_list_free(el);
4089 int radius_event_process(void)
4093 return fr_event_loop(el);
4096 void radius_handle_request(REQUEST *request, RAD_REQUEST_FUNP fun)
4098 request->options = RAD_REQUEST_OPTION_DEBUG2;
4100 if (request_pre_handler(request)) {
4101 rad_assert(fun != NULL);
4102 rad_assert(request != NULL);
4104 if (request->server) RDEBUG("server %s {",
4105 request->server != NULL ?
4106 request->server : "");
4109 if (request->server) RDEBUG("} # server %s",
4110 request->server != NULL ?
4111 request->server : "");
4113 request_post_handler(request);
4116 DEBUG2("Going to the next request");