2 * ntp_intres.c - Implements a generic blocking worker child or thread,
3 * initially to provide a nonblocking solution for DNS
4 * name to address lookups available with getaddrinfo().
6 * This is a new implementation as of 2009 sharing the filename and
7 * very little else with the prior implementation, which used a
8 * temporary file to receive a single set of requests from the parent,
9 * and a NTP mode 7 authenticated request to push back responses.
11 * A primary goal in rewriting this code was the need to support the
12 * pool configuration directive's requirement to retrieve multiple
13 * addresses resolving a single name, which has previously been
14 * satisfied with blocking resolver calls from the ntpd mainline code.
16 * A secondary goal is to provide a generic mechanism for other
17 * blocking operations to be delegated to a worker using a common
18 * model for both Unix and Windows ntpd. ntp_worker.c, work_fork.c,
19 * and work_thread.c implement the generic mechanism. This file
20 * implements the two current consumers, getaddrinfo_sometime() and the
21 * presently unused getnameinfo_sometime().
23 * Both routines deliver results to a callback and manage memory
24 * allocation, meaning there is no freeaddrinfo_sometime().
26 * The initial implementation for Unix uses a pair of unidirectional
27 * pipes, one each for requests and responses, connecting the forked
28 * blocking child worker with the ntpd mainline. The threaded code
29 * uses arrays of pointers to queue requests and responses.
31 * The parent drives the process, including scheduling sleeps between
34 * Memory is managed differently for a child process, which mallocs
35 * request buffers to read from the pipe into, whereas the threaded
36 * code mallocs a copy of the request to hand off to the worker via
37 * the queueing array. The resulting request buffer is free()d by
38 * platform-independent code. A wrinkle is the request needs to be
39 * available to the requestor during response processing.
41 * Response memory allocation is also platform-dependent. With a
42 * separate process and pipes, the response is free()d after being
43 * written to the pipe. With threads, the same memory is handed
44 * over and the requestor frees it after processing is completed.
46 * The code should be generalized to support threads on Unix using
47 * much of the same code used for Windows initially.
54 #include "ntp_workimpl.h"
63 #ifdef HAVE_SYS_TYPES_H
64 # include <sys/types.h>
66 #ifdef HAVE_NETINET_IN_H
67 #include <netinet/in.h>
69 #include <arpa/inet.h>
71 #ifdef HAVE_SYS_PARAM_H
72 # include <sys/param.h>
75 #if !defined(HAVE_RES_INIT) && defined(HAVE___RES_INIT)
76 # define HAVE_RES_INIT
79 #if defined(HAVE_RESOLV_H) && defined(HAVE_RES_INIT)
80 # ifdef HAVE_ARPA_NAMESER_H
81 # include <arpa/nameser.h> /* DNS HEADER struct */
87 # ifdef HAVE_INT32_ONLY_WITH_DNS
90 # ifdef HAVE_U_INT32_ONLY_WITH_DNS
96 #include "ntp_debug.h"
97 #include "ntp_malloc.h"
98 #include "ntp_syslog.h"
99 #include "ntp_unixtime.h"
100 #include "ntp_intres.h"
101 #include "intreswork.h"
105 * Following are implementations of getaddrinfo_sometime() and
106 * getnameinfo_sometime(). Each is implemented in three routines:
108 * getaddrinfo_sometime() getnameinfo_sometime()
109 * blocking_getaddrinfo() blocking_getnameinfo()
110 * getaddrinfo_sometime_complete() getnameinfo_sometime_complete()
112 * The first runs in the parent and marshalls (or serializes) request
113 * parameters into a request blob which is processed in the child by
114 * the second routine, blocking_*(), which serializes the results into
115 * a response blob unpacked by the third routine, *_complete(), which
116 * calls the callback routine provided with the request and frees
117 * _request_ memory allocated by the first routine. Response memory
118 * is managed by the code which calls the *_complete routines.
121 /* === typedefs === */
122 typedef struct blocking_gai_req_tag { /* marshalled args */
127 struct addrinfo hints;
129 gai_sometime_callback callback;
135 typedef struct blocking_gai_resp_tag {
139 int gai_errno; /* for EAI_SYSTEM case */
142 * Followed by ai_count struct addrinfo and then ai_count
143 * sockaddr_u and finally the canonical name strings.
147 typedef struct blocking_gni_req_tag {
156 gni_sometime_callback callback;
161 typedef struct blocking_gni_resp_tag {
164 int gni_errno; /* for EAI_SYSTEM case */
169 * Followed by hostoctets bytes of null-terminated host,
170 * then servoctets bytes of null-terminated service.
174 /* per-DNS-worker state in parent */
175 typedef struct dnschild_ctx_tag {
177 time_t next_dns_timeslot;
180 /* per-DNS-worker state in worker */
181 typedef struct dnsworker_ctx_tag {
183 time_t ignore_scheduled_before;
185 time_t next_res_init;
190 /* === variables === */
191 dnschild_ctx ** dnschild_contexts; /* parent */
192 u_int dnschild_contexts_alloc;
193 dnsworker_ctx ** dnsworker_contexts; /* child */
194 u_int dnsworker_contexts_alloc;
197 static time_t next_res_init;
201 /* === forward declarations === */
202 static u_int reserve_dnschild_ctx(void);
203 static u_int get_dnschild_ctx(void);
204 static void alloc_dnsworker_context(u_int);
205 /* static void free_dnsworker_context(u_int); */
206 static dnsworker_ctx * get_worker_context(blocking_child *, u_int);
207 static void scheduled_sleep(time_t, time_t,
209 static void manage_dns_retry_interval(time_t *, time_t *,
212 static int should_retry_dns(int, int);
214 static void reload_resolv_conf(dnsworker_ctx *);
216 # define reload_resolv_conf(wc) \
221 static void getaddrinfo_sometime_complete(blocking_work_req,
224 static void getnameinfo_sometime_complete(blocking_work_req,
229 /* === functions === */
231 * getaddrinfo_sometime - uses blocking child to call getaddrinfo then
232 * invokes provided callback completion function.
235 getaddrinfo_sometime(
237 const char * service,
238 const struct addrinfo * hints,
240 gai_sometime_callback callback,
244 blocking_gai_req * gai_req;
246 dnschild_ctx * child_ctx;
252 REQUIRE(NULL != node);
254 REQUIRE(0 == hints->ai_addrlen);
255 REQUIRE(NULL == hints->ai_addr);
256 REQUIRE(NULL == hints->ai_canonname);
257 REQUIRE(NULL == hints->ai_next);
260 idx = get_dnschild_ctx();
261 child_ctx = dnschild_contexts[idx];
263 nodesize = strlen(node) + 1;
264 servsize = strlen(service) + 1;
265 req_size = sizeof(*gai_req) + nodesize + servsize;
267 gai_req = emalloc_zero(req_size);
269 gai_req->octets = req_size;
270 gai_req->dns_idx = idx;
272 gai_req->scheduled = now;
273 gai_req->earliest = max(now, child_ctx->next_dns_timeslot);
274 child_ctx->next_dns_timeslot = gai_req->earliest;
276 gai_req->hints = *hints;
277 gai_req->retry = retry;
278 gai_req->callback = callback;
279 gai_req->context = context;
280 gai_req->nodesize = nodesize;
281 gai_req->servsize = servsize;
283 memcpy((char *)gai_req + sizeof(*gai_req), node, nodesize);
284 memcpy((char *)gai_req + sizeof(*gai_req) + nodesize, service,
287 if (queue_blocking_request(
288 BLOCKING_GETADDRINFO,
291 &getaddrinfo_sometime_complete,
294 msyslog(LOG_ERR, "unable to queue getaddrinfo request");
303 blocking_getaddrinfo(
305 blocking_pipe_header * req
308 blocking_gai_req * gai_req;
309 dnsworker_ctx * worker_ctx;
310 blocking_pipe_header * resp;
311 blocking_gai_resp * gai_resp;
314 struct addrinfo * ai_res;
315 struct addrinfo * ai;
316 struct addrinfo * serialized_ai;
317 size_t canons_octets;
323 gai_req = (void *)((char *)req + sizeof(*req));
324 node = (char *)gai_req + sizeof(*gai_req);
325 service = node + gai_req->nodesize;
327 worker_ctx = get_worker_context(c, gai_req->dns_idx);
328 scheduled_sleep(gai_req->scheduled, gai_req->earliest,
330 reload_resolv_conf(worker_ctx);
333 * Take a shot at the final size, better to overestimate
334 * at first and then realloc to a smaller size.
337 resp_octets = sizeof(*resp) + sizeof(*gai_resp) +
338 16 * (sizeof(struct addrinfo) +
339 sizeof(sockaddr_u)) +
341 resp = emalloc_zero(resp_octets);
342 gai_resp = (void *)(resp + 1);
344 TRACE(2, ("blocking_getaddrinfo given node %s serv %s fam %d flags %x\n",
345 node, service, gai_req->hints.ai_family,
346 gai_req->hints.ai_flags));
352 gai_resp->retcode = getaddrinfo(node, service, &gai_req->hints,
354 gai_resp->retry = gai_req->retry;
356 if (EAI_SYSTEM == gai_resp->retcode)
357 gai_resp->gai_errno = errno;
361 if (0 == gai_resp->retcode) {
364 gai_resp->ai_count++;
365 if (ai->ai_canonname)
366 canons_octets += strlen(ai->ai_canonname) + 1;
370 * If this query succeeded only after retrying, DNS may have
371 * just become responsive. Ignore previously-scheduled
372 * retry sleeps once for each pending request, similar to
373 * the way scheduled_sleep() does when its worker_sleep()
376 if (gai_resp->retry > INITIAL_DNS_RETRY) {
377 time_now = time(NULL);
378 worker_ctx->ignore_scheduled_before = time_now;
379 TRACE(1, ("DNS success after retry, ignoring sleeps scheduled before now (%s)\n",
380 humantime(time_now)));
385 * Our response consists of a header, followed by ai_count
386 * addrinfo structs followed by ai_count sockaddr_storage
387 * structs followed by the canonical names.
389 gai_resp->octets = sizeof(*gai_resp)
391 * (sizeof(gai_req->hints)
392 + sizeof(sockaddr_u))
395 resp_octets = sizeof(*resp) + gai_resp->octets;
396 resp = erealloc(resp, resp_octets);
397 gai_resp = (void *)(resp + 1);
399 /* cp serves as our current pointer while serializing */
400 cp = (void *)(gai_resp + 1);
403 if (0 == gai_resp->retcode) {
406 memcpy(cp, ai, sizeof(*ai));
407 serialized_ai = (void *)cp;
410 /* transform ai_canonname into offset */
411 if (NULL != serialized_ai->ai_canonname) {
412 serialized_ai->ai_canonname = (char *)canons_octets;
413 canons_octets += strlen(ai->ai_canonname) + 1;
416 /* leave fixup of ai_addr pointer for receiver */
423 INSIST(ai->ai_addrlen <= sizeof(sockaddr_u));
424 memcpy(cp, ai->ai_addr, ai->ai_addrlen);
425 cp += sizeof(sockaddr_u);
432 if (NULL != ai->ai_canonname) {
433 this_octets = strlen(ai->ai_canonname) + 1;
434 memcpy(cp, ai->ai_canonname, this_octets);
440 freeaddrinfo(ai_res);
444 * make sure our walk and earlier calc match
446 DEBUG_INSIST((size_t)(cp - (char *)resp) == resp_octets);
448 if (queue_blocking_response(c, resp, resp_octets, req)) {
449 msyslog(LOG_ERR, "blocking_getaddrinfo can not queue response");
458 getaddrinfo_sometime_complete(
459 blocking_work_req rtype,
465 blocking_gai_req * gai_req;
466 blocking_gai_resp * gai_resp;
467 dnschild_ctx * child_ctx;
468 struct addrinfo * ai;
469 struct addrinfo * next_ai;
477 const char * fam_spec;
483 DEBUG_REQUIRE(BLOCKING_GETADDRINFO == rtype);
484 DEBUG_REQUIRE(respsize == gai_resp->octets);
486 node = (char *)gai_req + sizeof(*gai_req);
487 service = node + gai_req->nodesize;
489 child_ctx = dnschild_contexts[gai_req->dns_idx];
491 if (0 == gai_resp->retcode) {
493 * If this query succeeded only after retrying, DNS may have
494 * just become responsive.
496 if (gai_resp->retry > INITIAL_DNS_RETRY) {
497 time_now = time(NULL);
498 child_ctx->next_dns_timeslot = time_now;
499 TRACE(1, ("DNS success after retry, %u next_dns_timeslot reset (%s)\n",
500 gai_req->dns_idx, humantime(time_now)));
503 again = should_retry_dns(gai_resp->retcode,
504 gai_resp->gai_errno);
506 * exponential backoff of DNS retries to 64s
508 if (gai_req->retry > 0 && again) {
509 /* log the first retry only */
510 if (INITIAL_DNS_RETRY == gai_req->retry)
512 af = gai_req->hints.ai_family;
513 fam_spec = (AF_INET6 == af)
519 if (EAI_SYSTEM == gai_resp->retcode) {
520 errno = gai_resp->gai_errno;
522 "retrying DNS %s%s: EAI_SYSTEM %d: %m",
524 gai_resp->gai_errno);
528 "retrying DNS %s%s: %s (%d)",
530 gai_strerror(gai_resp->retcode),
533 manage_dns_retry_interval(&gai_req->scheduled,
534 &gai_req->earliest, &gai_req->retry,
535 &child_ctx->next_dns_timeslot);
536 if (!queue_blocking_request(
537 BLOCKING_GETADDRINFO,
540 &getaddrinfo_sometime_complete,
545 "unable to retry hostname %s",
551 * fixup pointers in returned addrinfo array
553 ai = (void *)((char *)gai_resp + sizeof(*gai_resp));
555 for (i = gai_resp->ai_count - 1; i >= 0; i--) {
556 ai[i].ai_next = next_ai;
560 psau = (void *)((char *)ai + gai_resp->ai_count * sizeof(*ai));
561 canon_start = (char *)psau + gai_resp->ai_count * sizeof(*psau);
563 for (i = 0; i < gai_resp->ai_count; i++) {
564 if (NULL != ai[i].ai_addr)
565 ai[i].ai_addr = &psau->sa;
567 if (NULL != ai[i].ai_canonname)
568 ai[i].ai_canonname += (size_t)canon_start;
571 ENSURE((char *)psau == canon_start);
573 if (!gai_resp->ai_count)
576 (*gai_req->callback)(gai_resp->retcode, gai_resp->gai_errno,
577 gai_req->context, node, service,
578 &gai_req->hints, ai);
581 /* gai_resp is part of block freed by process_blocking_resp() */
585 #ifdef TEST_BLOCKING_WORKER
586 void gai_test_callback(int rescode, int gai_errno, void *context, const char *name, const char *service, const struct addrinfo *hints, const struct addrinfo *ai_res)
591 TRACE(1, ("gai_test_callback context %p error rescode %d %s serv %s\n",
592 context, rescode, name, service));
595 while (!rescode && NULL != ai_res) {
597 memcpy(&addr, ai_res->ai_addr, ai_res->ai_addrlen);
598 TRACE(1, ("ctx %p fam %d addr %s canon '%s' type %s at %p ai_addr %p ai_next %p\n",
602 (ai_res->ai_canonname)
603 ? ai_res->ai_canonname
605 (SOCK_DGRAM == ai_res->ai_socktype)
607 : (SOCK_STREAM == ai_res->ai_socktype)
614 getnameinfo_sometime((sockaddr_u *)ai_res->ai_addr, 128, 32, 0, gni_test_callback, context);
616 ai_res = ai_res->ai_next;
619 #endif /* TEST_BLOCKING_WORKER */
623 getnameinfo_sometime(
628 gni_sometime_callback callback,
632 blocking_gni_req * gni_req;
634 dnschild_ctx * child_ctx;
638 REQUIRE(hostoctets + servoctets < 1024);
640 idx = get_dnschild_ctx();
641 child_ctx = dnschild_contexts[idx];
643 gni_req = emalloc_zero(sizeof(*gni_req));
645 gni_req->octets = sizeof(*gni_req);
646 gni_req->dns_idx = idx;
647 time_now = time(NULL);
648 gni_req->scheduled = time_now;
649 gni_req->earliest = max(time_now, child_ctx->next_dns_timeslot);
650 child_ctx->next_dns_timeslot = gni_req->earliest;
651 memcpy(&gni_req->socku, psau, SOCKLEN(psau));
652 gni_req->hostoctets = hostoctets;
653 gni_req->servoctets = servoctets;
654 gni_req->flags = flags;
655 gni_req->retry = INITIAL_DNS_RETRY;
656 gni_req->callback = callback;
657 gni_req->context = context;
659 if (queue_blocking_request(
660 BLOCKING_GETNAMEINFO,
663 &getnameinfo_sometime_complete,
666 msyslog(LOG_ERR, "unable to queue getnameinfo request");
676 blocking_getnameinfo(
678 blocking_pipe_header * req
681 blocking_gni_req * gni_req;
682 dnsworker_ctx * worker_ctx;
683 blocking_pipe_header * resp;
684 blocking_gni_resp * gni_resp;
693 gni_req = (void *)((char *)req + sizeof(*req));
695 octets = gni_req->hostoctets + gni_req->servoctets;
698 * Some alloca() implementations are fragile regarding
699 * large allocations. We only need room for the host
702 REQUIRE(octets < sizeof(host));
703 service = host + gni_req->hostoctets;
705 worker_ctx = get_worker_context(c, gni_req->dns_idx);
706 scheduled_sleep(gni_req->scheduled, gni_req->earliest,
708 reload_resolv_conf(worker_ctx);
711 * Take a shot at the final size, better to overestimate
712 * then realloc to a smaller size.
715 resp_octets = sizeof(*resp) + sizeof(*gni_resp) + octets;
716 resp = emalloc_zero(resp_octets);
717 gni_resp = (void *)((char *)resp + sizeof(*resp));
719 TRACE(2, ("blocking_getnameinfo given addr %s flags 0x%x hostlen %lu servlen %lu\n",
720 stoa(&gni_req->socku), gni_req->flags,
721 (u_long)gni_req->hostoctets, (u_long)gni_req->servoctets));
723 gni_resp->retcode = getnameinfo(&gni_req->socku.sa,
724 SOCKLEN(&gni_req->socku),
730 gni_resp->retry = gni_req->retry;
732 if (EAI_SYSTEM == gni_resp->retcode)
733 gni_resp->gni_errno = errno;
736 if (0 != gni_resp->retcode) {
737 gni_resp->hostoctets = 0;
738 gni_resp->servoctets = 0;
740 gni_resp->hostoctets = strlen(host) + 1;
741 gni_resp->servoctets = strlen(service) + 1;
743 * If this query succeeded only after retrying, DNS may have
744 * just become responsive. Ignore previously-scheduled
745 * retry sleeps once for each pending request, similar to
746 * the way scheduled_sleep() does when its worker_sleep()
749 if (gni_req->retry > INITIAL_DNS_RETRY) {
750 time_now = time(NULL);
751 worker_ctx->ignore_scheduled_before = time_now;
752 TRACE(1, ("DNS success after retrying, ignoring sleeps scheduled before now (%s)\n",
753 humantime(time_now)));
756 octets = gni_resp->hostoctets + gni_resp->servoctets;
758 * Our response consists of a header, followed by the host and
759 * service strings, each null-terminated.
761 resp_octets = sizeof(*resp) + sizeof(*gni_resp) + octets;
763 resp = erealloc(resp, resp_octets);
764 gni_resp = (void *)(resp + 1);
766 gni_resp->octets = sizeof(*gni_resp) + octets;
768 /* cp serves as our current pointer while serializing */
769 cp = (void *)(gni_resp + 1);
771 if (0 == gni_resp->retcode) {
772 memcpy(cp, host, gni_resp->hostoctets);
773 cp += gni_resp->hostoctets;
774 memcpy(cp, service, gni_resp->servoctets);
775 cp += gni_resp->servoctets;
778 INSIST((size_t)(cp - (char *)resp) == resp_octets);
779 INSIST(resp_octets - sizeof(*resp) == gni_resp->octets);
781 rc = queue_blocking_response(c, resp, resp_octets, req);
783 msyslog(LOG_ERR, "blocking_getnameinfo unable to queue response");
789 getnameinfo_sometime_complete(
790 blocking_work_req rtype,
796 blocking_gni_req * gni_req;
797 blocking_gni_resp * gni_resp;
798 dnschild_ctx * child_ctx;
807 DEBUG_REQUIRE(BLOCKING_GETNAMEINFO == rtype);
808 DEBUG_REQUIRE(respsize == gni_resp->octets);
810 child_ctx = dnschild_contexts[gni_req->dns_idx];
812 if (0 == gni_resp->retcode) {
814 * If this query succeeded only after retrying, DNS may have
815 * just become responsive.
817 if (gni_resp->retry > INITIAL_DNS_RETRY) {
818 time_now = time(NULL);
819 child_ctx->next_dns_timeslot = time_now;
820 TRACE(1, ("DNS success after retry, %u next_dns_timeslot reset (%s)\n",
821 gni_req->dns_idx, humantime(time_now)));
824 again = should_retry_dns(gni_resp->retcode, gni_resp->gni_errno);
826 * exponential backoff of DNS retries to 64s
828 if (gni_req->retry > 0)
829 manage_dns_retry_interval(&gni_req->scheduled,
830 &gni_req->earliest, &gni_req->retry,
831 &child_ctx->next_dns_timeslot);
833 if (gni_req->retry > 0 && again) {
834 if (!queue_blocking_request(
835 BLOCKING_GETNAMEINFO,
838 &getnameinfo_sometime_complete,
842 msyslog(LOG_ERR, "unable to retry reverse lookup of %s", stoa(&gni_req->socku));
846 if (!gni_resp->hostoctets) {
850 host = (char *)gni_resp + sizeof(*gni_resp);
851 service = (gni_resp->servoctets)
852 ? host + gni_resp->hostoctets
856 (*gni_req->callback)(gni_resp->retcode, gni_resp->gni_errno,
857 &gni_req->socku, gni_req->flags, host,
858 service, gni_req->context);
861 /* gni_resp is part of block freed by process_blocking_resp() */
865 #ifdef TEST_BLOCKING_WORKER
866 void gni_test_callback(int rescode, int gni_errno, sockaddr_u *psau, int flags, const char *host, const char *service, void *context)
869 TRACE(1, ("gni_test_callback got host '%s' serv '%s' for addr %s context %p\n",
870 host, service, stoa(psau), context));
872 TRACE(1, ("gni_test_callback context %p rescode %d gni_errno %d flags 0x%x addr %s\n",
873 context, rescode, gni_errno, flags, stoa(psau)));
875 #endif /* TEST_BLOCKING_WORKER */
881 dnsworker_ctx * worker_ctx
887 * This is ad-hoc. Reload /etc/resolv.conf once per minute
888 * to pick up on changes from the DHCP client. [Bug 1226]
889 * When using threads for the workers, this needs to happen
890 * only once per minute process-wide.
892 time_now = time(NULL);
894 worker_ctx->next_res_init = next_res_init;
896 if (worker_ctx->next_res_init <= time_now) {
897 if (worker_ctx->next_res_init != 0)
899 worker_ctx->next_res_init = time_now + 60;
901 next_res_init = worker_ctx->next_res_init;
905 #endif /* HAVE_RES_INIT */
909 reserve_dnschild_ctx(void)
911 const size_t ps = sizeof(dnschild_contexts[0]);
912 const size_t cs = sizeof(*dnschild_contexts[0]);
920 for ( ; c < dnschild_contexts_alloc; c++) {
921 if (NULL == dnschild_contexts[c]) {
922 dnschild_contexts[c] = emalloc_zero(cs);
927 new_alloc = dnschild_contexts_alloc + 20;
928 new_octets = new_alloc * ps;
929 octets = dnschild_contexts_alloc * ps;
930 dnschild_contexts = erealloc_zero(dnschild_contexts,
932 dnschild_contexts_alloc = new_alloc;
938 get_dnschild_ctx(void)
940 static u_int shared_ctx = UINT_MAX;
942 if (worker_per_query)
943 return reserve_dnschild_ctx();
945 if (UINT_MAX == shared_ctx)
946 shared_ctx = reserve_dnschild_ctx();
953 alloc_dnsworker_context(
957 const size_t worker_context_sz = sizeof(*dnsworker_contexts[0]);
959 REQUIRE(NULL == dnsworker_contexts[idx]);
960 dnsworker_contexts[idx] = emalloc_zero(worker_context_sz);
964 static dnsworker_ctx *
970 static size_t ps = sizeof(dnsworker_contexts[0]);
976 if (dnsworker_contexts_alloc <= idx) {
977 min_new_alloc = 1 + idx;
978 /* round new_alloc up to nearest multiple of 4 */
979 new_alloc = (min_new_alloc + 4) & ~(4 - 1);
980 new_octets = new_alloc * ps;
981 octets = dnsworker_contexts_alloc * ps;
982 dnsworker_contexts = erealloc_zero(dnsworker_contexts,
984 dnsworker_contexts_alloc = new_alloc;
987 if (NULL == dnsworker_contexts[idx])
988 alloc_dnsworker_context(idx);
989 ZERO(*dnsworker_contexts[idx]);
990 dnsworker_contexts[idx]->c = c;
992 return dnsworker_contexts[idx];
1000 dnsworker_ctx * worker_ctx
1005 if (scheduled < worker_ctx->ignore_scheduled_before) {
1006 TRACE(1, ("ignoring sleep until %s scheduled at %s (before %s)\n",
1007 humantime(earliest), humantime(scheduled),
1008 humantime(worker_ctx->ignore_scheduled_before)));
1014 if (now < earliest) {
1015 TRACE(1, ("sleep until %s scheduled at %s (>= %s)\n",
1016 humantime(earliest), humantime(scheduled),
1017 humantime(worker_ctx->ignore_scheduled_before)));
1018 if (-1 == worker_sleep(worker_ctx->c, earliest - now)) {
1019 /* our sleep was interrupted */
1021 worker_ctx->ignore_scheduled_before = now;
1022 #ifdef HAVE_RES_INIT
1023 worker_ctx->next_res_init = now + 60;
1024 next_res_init = worker_ctx->next_res_init;
1027 TRACE(1, ("sleep interrupted by daemon, ignoring sleeps scheduled before now (%s)\n",
1028 humantime(worker_ctx->ignore_scheduled_before)));
1035 * manage_dns_retry_interval is a helper used by
1036 * getaddrinfo_sometime_complete and getnameinfo_sometime_complete
1037 * to calculate the new retry interval and schedule the next query.
1040 manage_dns_retry_interval(
1041 time_t * pscheduled,
1044 time_t * pnext_timeslot
1053 when = max(now + retry, *pnext_timeslot);
1054 *pnext_timeslot = when;
1055 retry = min(64, retry << 1);
1063 * should_retry_dns is a helper used by getaddrinfo_sometime_complete
1064 * and getnameinfo_sometime_complete which implements ntpd's DNS retry
1073 static int eai_again_seen;
1075 #if defined (EAI_SYSTEM) && defined(DEBUG)
1080 * If the resolver failed, see if the failure is
1081 * temporary. If so, return success.
1093 eai_again_seen = 1; /* [Bug 1178] */
1097 #if defined(EAI_NODATA) && (EAI_NODATA != EAI_NONAME)
1100 again = !eai_again_seen; /* [Bug 1178] */
1106 * EAI_SYSTEM means the real error is in errno. We should be more
1107 * discriminating about which errno values require retrying, but
1108 * this matches existing behavior.
1112 errno_to_str(res_errno, msg, sizeof(msg));
1113 TRACE(1, ("intres: EAI_SYSTEM errno %d (%s) means try again, right?\n",
1120 TRACE(2, ("intres: resolver returned: %s (%d), %sretrying\n",
1121 gai_strerror(rescode), rescode, again ? "" : "not "));
1126 #else /* !WORKER follows */
1127 int ntp_intres_nonempty_compilation_unit;