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nscd cleanups
[thirdparty/glibc.git] / nscd / aicache.c
1 /* Cache handling for host lookup.
2 Copyright (C) 2004-2008, 2009, 2010, 2011 Free Software Foundation, Inc.
3 This file is part of the GNU C Library.
4 Contributed by Ulrich Drepper <drepper@redhat.com>, 2004.
5
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
8 by the Free Software Foundation; version 2 of the License, or
9 (at your option) any later version.
10
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.
15
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 Foundation,
18 Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */
19
20 #include <assert.h>
21 #include <errno.h>
22 #include <libintl.h>
23 #include <netdb.h>
24 #include <nss.h>
25 #include <string.h>
26 #include <time.h>
27 #include <unistd.h>
28 #include <sys/mman.h>
29
30 #include "dbg_log.h"
31 #include "nscd.h"
32 #ifdef HAVE_SENDFILE
33 # include <kernel-features.h>
34 #endif
35
36
37 typedef enum nss_status (*nss_gethostbyname4_r)
38 (const char *name, struct gaih_addrtuple **pat,
39 char *buffer, size_t buflen, int *errnop,
40 int *h_errnop, int32_t *ttlp);
41 typedef enum nss_status (*nss_gethostbyname3_r)
42 (const char *name, int af, struct hostent *host,
43 char *buffer, size_t buflen, int *errnop,
44 int *h_errnop, int32_t *, char **);
45 typedef enum nss_status (*nss_getcanonname_r)
46 (const char *name, char *buffer, size_t buflen, char **result,
47 int *errnop, int *h_errnop);
48
49
50 static const ai_response_header notfound =
51 {
52 .version = NSCD_VERSION,
53 .found = 0,
54 .naddrs = 0,
55 .addrslen = 0,
56 .canonlen = 0,
57 .error = 0
58 };
59
60
61 static time_t
62 addhstaiX (struct database_dyn *db, int fd, request_header *req,
63 void *key, uid_t uid, struct hashentry *const he,
64 struct datahead *dh)
65 {
66 /* Search for the entry matching the key. Please note that we don't
67 look again in the table whether the dataset is now available. We
68 simply insert it. It does not matter if it is in there twice. The
69 pruning function only will look at the timestamp. */
70
71 /* We allocate all data in one memory block: the iov vector,
72 the response header and the dataset itself. */
73 struct dataset
74 {
75 struct datahead head;
76 ai_response_header resp;
77 char strdata[0];
78 } *dataset = NULL;
79
80 if (__builtin_expect (debug_level > 0, 0))
81 {
82 if (he == NULL)
83 dbg_log (_("Haven't found \"%s\" in hosts cache!"), (char *) key);
84 else
85 dbg_log (_("Reloading \"%s\" in hosts cache!"), (char *) key);
86 }
87
88 static service_user *hosts_database;
89 service_user *nip = NULL;
90 int no_more;
91 int rc6 = 0;
92 int rc4 = 0;
93 int herrno = 0;
94
95 if (hosts_database != NULL)
96 {
97 nip = hosts_database;
98 no_more = 0;
99 }
100 else
101 no_more = __nss_database_lookup ("hosts", NULL,
102 "dns [!UNAVAIL=return] files", &nip);
103
104 if (__res_maybe_init (&_res, 0) == -1)
105 no_more = 1;
106
107 /* If we are looking for both IPv4 and IPv6 address we don't want
108 the lookup functions to automatically promote IPv4 addresses to
109 IPv6 addresses. Currently this is decided by setting the
110 RES_USE_INET6 bit in _res.options. */
111 int old_res_options = _res.options;
112 _res.options &= ~RES_USE_INET6;
113
114 size_t tmpbuf6len = 1024;
115 char *tmpbuf6 = alloca (tmpbuf6len);
116 size_t tmpbuf4len = 0;
117 char *tmpbuf4 = NULL;
118 int32_t ttl = INT32_MAX;
119 ssize_t total = 0;
120 char *key_copy = NULL;
121 bool alloca_used = false;
122 time_t timeout = MAX_TIMEOUT_VALUE;
123
124 while (!no_more)
125 {
126 void *cp;
127 int status[2] = { NSS_STATUS_UNAVAIL, NSS_STATUS_UNAVAIL };
128 int naddrs = 0;
129 size_t addrslen = 0;
130 char *canon = NULL;
131 size_t canonlen;
132
133 nss_gethostbyname4_r fct4 = __nss_lookup_function (nip,
134 "gethostbyname4_r");
135 if (fct4 != NULL)
136 {
137 struct gaih_addrtuple atmem;
138 struct gaih_addrtuple *at;
139 while (1)
140 {
141 at = &atmem;
142 rc6 = 0;
143 herrno = 0;
144 status[1] = DL_CALL_FCT (fct4, (key, &at, tmpbuf6, tmpbuf6len,
145 &rc6, &herrno, &ttl));
146 if (rc6 != ERANGE || (herrno != NETDB_INTERNAL
147 && herrno != TRY_AGAIN))
148 break;
149 tmpbuf6 = extend_alloca (tmpbuf6, tmpbuf6len, 2 * tmpbuf6len);
150 }
151
152 if (rc6 != 0 && herrno == NETDB_INTERNAL)
153 goto out;
154
155 if (status[1] != NSS_STATUS_SUCCESS)
156 goto next_nip;
157
158 /* We found the data. Count the addresses and the size. */
159 for (const struct gaih_addrtuple *at2 = at = &atmem; at2 != NULL;
160 at2 = at2->next)
161 {
162 ++naddrs;
163 /* We do not handle anything other than IPv4 and IPv6
164 addresses. The getaddrinfo implementation does not
165 either so it is not worth trying to do more. */
166 if (at2->family == AF_INET)
167 addrslen += INADDRSZ;
168 else if (at2->family == AF_INET6)
169 addrslen += IN6ADDRSZ;
170 }
171 canon = at->name;
172 canonlen = strlen (canon) + 1;
173
174 total = sizeof (*dataset) + naddrs + addrslen + canonlen;
175
176 /* Now we can allocate the data structure. If the TTL of the
177 entry is reported as zero do not cache the entry at all. */
178 if (ttl != 0 && he == NULL)
179 dataset = (struct dataset *) mempool_alloc (db, total
180 + req->key_len, 1);
181
182 if (dataset == NULL)
183 {
184 /* We cannot permanently add the result in the moment. But
185 we can provide the result as is. Store the data in some
186 temporary memory. */
187 dataset = (struct dataset *) alloca (total + req->key_len);
188
189 /* We cannot add this record to the permanent database. */
190 alloca_used = true;
191 }
192
193 /* Fill in the address and address families. */
194 char *addrs = dataset->strdata;
195 uint8_t *family = (uint8_t *) (addrs + addrslen);
196
197 for (const struct gaih_addrtuple *at2 = at; at2 != NULL;
198 at2 = at2->next)
199 {
200 *family++ = at2->family;
201 if (at2->family == AF_INET)
202 addrs = mempcpy (addrs, at2->addr, INADDRSZ);
203 else if (at2->family == AF_INET6)
204 addrs = mempcpy (addrs, at2->addr, IN6ADDRSZ);
205 }
206
207 cp = family;
208 }
209 else
210 {
211 /* Prefer the function which also returns the TTL and
212 canonical name. */
213 nss_gethostbyname3_r fct = __nss_lookup_function (nip,
214 "gethostbyname3_r");
215 if (fct == NULL)
216 fct = __nss_lookup_function (nip, "gethostbyname2_r");
217
218 if (fct == NULL)
219 goto next_nip;
220
221 struct hostent th[2];
222
223 /* Collect IPv6 information first. */
224 while (1)
225 {
226 rc6 = 0;
227 status[0] = DL_CALL_FCT (fct, (key, AF_INET6, &th[0], tmpbuf6,
228 tmpbuf6len, &rc6, &herrno, &ttl,
229 &canon));
230 if (rc6 != ERANGE || herrno != NETDB_INTERNAL)
231 break;
232 tmpbuf6 = extend_alloca (tmpbuf6, tmpbuf6len, 2 * tmpbuf6len);
233 }
234
235 if (rc6 != 0 && herrno == NETDB_INTERNAL)
236 goto out;
237
238 /* If the IPv6 lookup has been successful do not use the
239 buffer used in that lookup, use a new one. */
240 if (status[0] == NSS_STATUS_SUCCESS && rc6 == 0)
241 {
242 tmpbuf4len = 512;
243 tmpbuf4 = alloca (tmpbuf4len);
244 }
245 else
246 {
247 tmpbuf4len = tmpbuf6len;
248 tmpbuf4 = tmpbuf6;
249 }
250
251 /* Next collect IPv4 information. */
252 while (1)
253 {
254 rc4 = 0;
255 status[1] = DL_CALL_FCT (fct, (key, AF_INET, &th[1], tmpbuf4,
256 tmpbuf4len, &rc4, &herrno,
257 ttl == INT32_MAX ? &ttl : NULL,
258 canon == NULL ? &canon : NULL));
259 if (rc4 != ERANGE || herrno != NETDB_INTERNAL)
260 break;
261 tmpbuf4 = extend_alloca (tmpbuf4, tmpbuf4len, 2 * tmpbuf4len);
262 }
263
264 if (rc4 != 0 && herrno == NETDB_INTERNAL)
265 goto out;
266
267 if (status[0] != NSS_STATUS_SUCCESS
268 && status[1] != NSS_STATUS_SUCCESS)
269 goto next_nip;
270
271 /* We found the data. Count the addresses and the size. */
272 for (int j = 0; j < 2; ++j)
273 if (status[j] == NSS_STATUS_SUCCESS)
274 for (int i = 0; th[j].h_addr_list[i] != NULL; ++i)
275 {
276 ++naddrs;
277 addrslen += th[j].h_length;
278 }
279
280 if (canon == NULL)
281 {
282 /* Determine the canonical name. */
283 nss_getcanonname_r cfct;
284 cfct = __nss_lookup_function (nip, "getcanonname_r");
285 if (cfct != NULL)
286 {
287 const size_t max_fqdn_len = 256;
288 char *buf = alloca (max_fqdn_len);
289 char *s;
290 int rc;
291
292 if (DL_CALL_FCT (cfct, (key, buf, max_fqdn_len, &s,
293 &rc, &herrno))
294 == NSS_STATUS_SUCCESS)
295 canon = s;
296 else
297 /* Set to name now to avoid using gethostbyaddr. */
298 canon = key;
299 }
300 else
301 {
302 struct hostent *hstent = NULL;
303 int herrno;
304 struct hostent hstent_mem;
305 void *addr;
306 size_t addrlen;
307 int addrfamily;
308
309 if (status[1] == NSS_STATUS_SUCCESS)
310 {
311 addr = th[1].h_addr_list[0];
312 addrlen = sizeof (struct in_addr);
313 addrfamily = AF_INET;
314 }
315 else
316 {
317 addr = th[0].h_addr_list[0];
318 addrlen = sizeof (struct in6_addr);
319 addrfamily = AF_INET6;
320 }
321
322 size_t tmpbuflen = 512;
323 char *tmpbuf = alloca (tmpbuflen);
324 int rc;
325 while (1)
326 {
327 rc = __gethostbyaddr2_r (addr, addrlen, addrfamily,
328 &hstent_mem, tmpbuf, tmpbuflen,
329 &hstent, &herrno, NULL);
330 if (rc != ERANGE || herrno != NETDB_INTERNAL)
331 break;
332 tmpbuf = extend_alloca (tmpbuf, tmpbuflen,
333 tmpbuflen * 2);
334 }
335
336 if (rc == 0)
337 {
338 if (hstent != NULL)
339 canon = hstent->h_name;
340 else
341 canon = key;
342 }
343 }
344 }
345
346 canonlen = canon == NULL ? 0 : (strlen (canon) + 1);
347
348 total = sizeof (*dataset) + naddrs + addrslen + canonlen;
349
350
351 /* Now we can allocate the data structure. If the TTL of the
352 entry is reported as zero do not cache the entry at all. */
353 if (ttl != 0 && he == NULL)
354 dataset = (struct dataset *) mempool_alloc (db, total
355 + req->key_len, 1);
356
357 if (dataset == NULL)
358 {
359 /* We cannot permanently add the result in the moment. But
360 we can provide the result as is. Store the data in some
361 temporary memory. */
362 dataset = (struct dataset *) alloca (total + req->key_len);
363
364 /* We cannot add this record to the permanent database. */
365 alloca_used = true;
366 }
367
368 /* Fill in the address and address families. */
369 char *addrs = dataset->strdata;
370 uint8_t *family = (uint8_t *) (addrs + addrslen);
371
372 for (int j = 0; j < 2; ++j)
373 if (status[j] == NSS_STATUS_SUCCESS)
374 for (int i = 0; th[j].h_addr_list[i] != NULL; ++i)
375 {
376 addrs = mempcpy (addrs, th[j].h_addr_list[i],
377 th[j].h_length);
378 *family++ = th[j].h_addrtype;
379 }
380
381 cp = family;
382 }
383
384 /* Fill in the rest of the dataset. */
385 dataset->head.allocsize = total + req->key_len;
386 dataset->head.recsize = total - offsetof (struct dataset, resp);
387 dataset->head.notfound = false;
388 dataset->head.nreloads = he == NULL ? 0 : (dh->nreloads + 1);
389 dataset->head.usable = true;
390
391 /* Compute the timeout time. */
392 dataset->head.ttl = ttl == INT32_MAX ? db->postimeout : ttl;
393 timeout = dataset->head.timeout = time (NULL) + dataset->head.ttl;
394
395 dataset->resp.version = NSCD_VERSION;
396 dataset->resp.found = 1;
397 dataset->resp.naddrs = naddrs;
398 dataset->resp.addrslen = addrslen;
399 dataset->resp.canonlen = canonlen;
400 dataset->resp.error = NETDB_SUCCESS;
401
402 if (canon != NULL)
403 cp = mempcpy (cp, canon, canonlen);
404
405 key_copy = memcpy (cp, key, req->key_len);
406
407 assert (cp == (char *) dataset + total);
408
409 /* Now we can determine whether on refill we have to create a
410 new record or not. */
411 if (he != NULL)
412 {
413 assert (fd == -1);
414
415 if (total + req->key_len == dh->allocsize
416 && total - offsetof (struct dataset, resp) == dh->recsize
417 && memcmp (&dataset->resp, dh->data,
418 dh->allocsize - offsetof (struct dataset,
419 resp)) == 0)
420 {
421 /* The data has not changed. We will just bump the
422 timeout value. Note that the new record has been
423 allocated on the stack and need not be freed. */
424 dh->timeout = dataset->head.timeout;
425 dh->ttl = dataset->head.ttl;
426 ++dh->nreloads;
427 }
428 else
429 {
430 /* We have to create a new record. Just allocate
431 appropriate memory and copy it. */
432 struct dataset *newp
433 = (struct dataset *) mempool_alloc (db, total + req->key_len,
434 1);
435 if (__builtin_expect (newp != NULL, 1))
436 {
437 /* Adjust pointer into the memory block. */
438 key_copy = (char *) newp + (key_copy - (char *) dataset);
439
440 dataset = memcpy (newp, dataset, total + req->key_len);
441 alloca_used = false;
442 }
443
444 /* Mark the old record as obsolete. */
445 dh->usable = false;
446 }
447 }
448 else
449 {
450 /* We write the dataset before inserting it to the database
451 since while inserting this thread might block and so
452 would unnecessarily let the receiver wait. */
453 assert (fd != -1);
454
455 #ifdef HAVE_SENDFILE
456 if (__builtin_expect (db->mmap_used, 1) && !alloca_used)
457 {
458 assert (db->wr_fd != -1);
459 assert ((char *) &dataset->resp > (char *) db->data);
460 assert ((char *) dataset - (char *) db->head + total
461 <= (sizeof (struct database_pers_head)
462 + db->head->module * sizeof (ref_t)
463 + db->head->data_size));
464 ssize_t written;
465 written = sendfileall (fd, db->wr_fd, (char *) &dataset->resp
466 - (char *) db->head, dataset->head.recsize);
467 # ifndef __ASSUME_SENDFILE
468 if (written == -1 && errno == ENOSYS)
469 goto use_write;
470 # endif
471 }
472 else
473 # ifndef __ASSUME_SENDFILE
474 use_write:
475 # endif
476 #endif
477 writeall (fd, &dataset->resp, dataset->head.recsize);
478 }
479
480 goto out;
481
482 next_nip:
483 if (nss_next_action (nip, status[1]) == NSS_ACTION_RETURN)
484 break;
485
486 if (nip->next == NULL)
487 no_more = -1;
488 else
489 nip = nip->next;
490 }
491
492 /* No result found. Create a negative result record. */
493 if (he != NULL && rc4 == EAGAIN)
494 {
495 /* If we have an old record available but cannot find one now
496 because the service is not available we keep the old record
497 and make sure it does not get removed. */
498 if (reload_count != UINT_MAX && dh->nreloads == reload_count)
499 /* Do not reset the value if we never not reload the record. */
500 dh->nreloads = reload_count - 1;
501
502 /* Reload with the same time-to-live value. */
503 timeout = dh->timeout = time (NULL) + dh->ttl;
504 }
505 else
506 {
507 /* We have no data. This means we send the standard reply for
508 this case. */
509 total = sizeof (notfound);
510
511 if (fd != -1)
512 TEMP_FAILURE_RETRY (send (fd, &notfound, total, MSG_NOSIGNAL));
513
514 /* If we cannot permanently store the result, so be it. */
515 if (__builtin_expect (db->negtimeout == 0, 0))
516 {
517 /* Mark the old entry as obsolete. */
518 if (dh != NULL)
519 dh->usable = false;
520 dataset = NULL;
521 }
522 else if ((dataset = mempool_alloc (db, (sizeof (struct dataset)
523 + req->key_len), 1)) != NULL)
524 {
525 dataset->head.allocsize = sizeof (struct dataset) + req->key_len;
526 dataset->head.recsize = total;
527 dataset->head.notfound = true;
528 dataset->head.nreloads = 0;
529 dataset->head.usable = true;
530
531 /* Compute the timeout time. */
532 timeout = dataset->head.timeout = time (NULL) + db->negtimeout;
533 dataset->head.ttl = db->negtimeout;
534
535 /* This is the reply. */
536 memcpy (&dataset->resp, &notfound, total);
537
538 /* Copy the key data. */
539 key_copy = memcpy (dataset->strdata, key, req->key_len);
540 }
541 }
542
543 out:
544 _res.options |= old_res_options & RES_USE_INET6;
545
546 if (dataset != NULL && !alloca_used)
547 {
548 /* If necessary, we also propagate the data to disk. */
549 if (db->persistent)
550 {
551 // XXX async OK?
552 uintptr_t pval = (uintptr_t) dataset & ~pagesize_m1;
553 msync ((void *) pval,
554 ((uintptr_t) dataset & pagesize_m1) + total + req->key_len,
555 MS_ASYNC);
556 }
557
558 (void) cache_add (req->type, key_copy, req->key_len, &dataset->head,
559 true, db, uid, he == NULL);
560
561 pthread_rwlock_unlock (&db->lock);
562
563 /* Mark the old entry as obsolete. */
564 if (dh != NULL)
565 dh->usable = false;
566 }
567
568 return timeout;
569 }
570
571
572 void
573 addhstai (struct database_dyn *db, int fd, request_header *req, void *key,
574 uid_t uid)
575 {
576 addhstaiX (db, fd, req, key, uid, NULL, NULL);
577 }
578
579
580 time_t
581 readdhstai (struct database_dyn *db, struct hashentry *he, struct datahead *dh)
582 {
583 request_header req =
584 {
585 .type = GETAI,
586 .key_len = he->len
587 };
588
589 return addhstaiX (db, -1, &req, db->data + he->key, he->owner, he, dh);
590 }
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