adns.c 24 KB

1234567891011121314151617181920212223242526272829303132333435363738394041424344454647484950515253545556575859606162636465666768697071727374757677787980818283848586878889909192939495969798991001011021031041051061071081091101111121131141151161171181191201211221231241251261271281291301311321331341351361371381391401411421431441451461471481491501511521531541551561571581591601611621631641651661671681691701711721731741751761771781791801811821831841851861871881891901911921931941951961971981992002012022032042052062072082092102112122132142152162172182192202212222232242252262272282292302312322332342352362372382392402412422432442452462472482492502512522532542552562572582592602612622632642652662672682692702712722732742752762772782792802812822832842852862872882892902912922932942952962972982993003013023033043053063073083093103113123133143153163173183193203213223233243253263273283293303313323333343353363373383393403413423433443453463473483493503513523533543553563573583593603613623633643653663673683693703713723733743753763773783793803813823833843853863873883893903913923933943953963973983994004014024034044054064074084094104114124134144154164174184194204214224234244254264274284294304314324334344354364374384394404414424434444454464474484494504514524534544554564574584594604614624634644654664674684694704714724734744754764774784794804814824834844854864874884894904914924934944954964974984995005015025035045055065075085095105115125135145155165175185195205215225235245255265275285295305315325335345355365375385395405415425435445455465475485495505515525535545555565575585595605615625635645655665675685695705715725735745755765775785795805815825835845855865875885895905915925935945955965975985996006016026036046056066076086096106116126136146156166176186196206216226236246256266276286296306316326336346356366376386396406416426436446456466476486496506516526536546556566576586596606616626636646656666676686696706716726736746756766776786796806816826836846856866876886896906916926936946956966976986997007017027037047057067077087097107117127137147157167177187197207217227237247257267277287297307317327337347357367377387397407417427437447457467477487497507517527537547557567577587597607617627637647657667677687697707717727737747757767777787797807817827837847857867877887897907917927937947957967977987998008018028038048058068078088098108118128138148158168178188198208218228238248258268278288298308318328338348358368378388398408418428438448458468478488498508518528538548558568578588598608618628638648658668678688698708718728738748758768778788798808818828838848858868878888898908918928938948958968978988999009019029039049059069079089099109119129139149159169179189199209219229239249259269279289299309319329339349359369379389399409419429439449459469479489499509519529539549559569579589599609619629639649659669679689699709719729739749759769779789799809819829839849859869879889899909919929939949959969979989991000100110021003100410051006100710081009101010111012101310141015101610171018101910201021102210231024102510261027102810291030103110321033103410351036103710381039104010411042104310441045104610471048104910501051105210531054105510561057105810591060106110621063
  1. /*
  2. * Copyright (C) 1997 Robey Pointer
  3. * Copyright (C) 1999 - 2002 Eggheads Development Team
  4. * Copyright (C) 2002 - 2008 Bryan Drewery
  5. *
  6. * This program is free software; you can redistribute it and/or
  7. * modify it under the terms of the GNU General Public License
  8. * as published by the Free Software Foundation; either version 2
  9. * of the License, or (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
  18. * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
  19. */
  20. /* async dns
  21. *
  22. */
  23. #include "common.h"
  24. #include "adns.h"
  25. #include "egg_timer.h"
  26. #include "main.h"
  27. #include "net.h"
  28. #include "misc.h"
  29. #include "socket.h"
  30. #include <netinet/in.h>
  31. #include <sys/socket.h>
  32. #include <arpa/inet.h>
  33. typedef struct {
  34. char **list;
  35. time_t ttl;
  36. int len;
  37. } dns_answer_t;
  38. typedef struct dns_query {
  39. struct dns_query *next;
  40. dns_answer_t answer;
  41. dns_callback_t callback;
  42. void *client_data;
  43. time_t expiretime;
  44. char *query;
  45. char *ip;
  46. int id;
  47. // int timer_id;
  48. int answers;
  49. int remaining;
  50. } dns_query_t;
  51. typedef struct {
  52. unsigned short id;
  53. unsigned short flags;
  54. unsigned short question_count;
  55. unsigned short answer_count;
  56. unsigned short ns_count;
  57. unsigned short ar_count;
  58. } dns_header_t;
  59. #define HEAD_SIZE 12
  60. typedef struct {
  61. /* char name[]; */
  62. unsigned short type;
  63. unsigned short dclass;
  64. int ttl;
  65. unsigned short rdlength;
  66. /* char rdata[]; */
  67. } dns_rr_t;
  68. #define RR_SIZE 10
  69. /* Entries from resolv.conf */
  70. typedef struct dns_server {
  71. char *ip;
  72. int idx;
  73. } dns_server_t;
  74. /* Entries from hosts */
  75. typedef struct {
  76. char *host;
  77. char *ip;
  78. } dns_host_t;
  79. typedef struct {
  80. dns_answer_t answer;
  81. char *query;
  82. time_t expiretime;
  83. } dns_cache_t;
  84. static int query_id = 1;
  85. static dns_header_t _dns_header = {0, 0, 0, 0, 0, 0};
  86. static dns_query_t *query_head = NULL;
  87. static dns_host_t *hosts = NULL;
  88. static int nhosts = 0;
  89. static dns_cache_t *cache = NULL;
  90. static int ncache = 0;
  91. static dns_server_t *servers = NULL;
  92. static int nservers = 0;
  93. static int cur_server = -1;
  94. static char separators[] = " ,\t\r\n";
  95. int dns_idx = -1;
  96. int dns_sock = -1;
  97. const char *dns_ip = NULL;
  98. static int make_header(char *buf, int id);
  99. static int cut_host(const char *host, char *query);
  100. static int reverse_ip(const char *host, char *reverse);
  101. static void read_resolv(char *fname);
  102. static void read_hosts(char *fname);
  103. static int get_dns_idx();
  104. //static void dns_resend_queries();
  105. static int cache_find(const char *);
  106. //static int dns_on_read(void *client_data, int idx, char *buf, int len);
  107. //static int dns_on_eof(void *client_data, int idx, int err, const char *errmsg);
  108. static void dns_on_read(int idx, char *buf, int atr);
  109. static void dns_on_eof(int idx);
  110. static const char *dns_next_server();
  111. static int parse_reply(char *response, size_t nbytes);
  112. interval_t async_lookup_timeout = 30;
  113. interval_t async_server_timeout = 40;
  114. //int resend_on_read = 0;
  115. static void
  116. dns_display(int idx, char *buf, size_t bufsiz)
  117. {
  118. simple_snprintf(buf, bufsiz, "named waited %ds", (int) (now - dcc[idx].timeval));
  119. }
  120. static void
  121. dns_reinit(int idx)
  122. {
  123. sdprintf("Re-opening dns socket...");
  124. killsock(dcc[idx].sock);
  125. lostdcc(idx);
  126. dns_idx = -1;
  127. dns_sock = -1;
  128. dns_ip = NULL;
  129. if (!get_dns_idx())
  130. sdprintf("Successfully reopened dns socket");
  131. else
  132. sdprintf("Failed to reopen dns socket");
  133. }
  134. static void
  135. dns_timeout(int idx)
  136. {
  137. sdprintf("DNS socket timed out");
  138. /*egg_dns_cancel(dcc[idx].u.dns_id, 1);*/
  139. // resend_on_read = 1;
  140. dns_reinit(idx);
  141. // sleep(2);
  142. // dns_resend_queries();
  143. }
  144. static struct dcc_table dns_handler = {
  145. "adns",
  146. DCT_VALIDIDX,
  147. dns_on_eof,
  148. dns_on_read,
  149. NULL,
  150. dns_timeout,
  151. dns_display,
  152. NULL,
  153. NULL,
  154. NULL
  155. };
  156. static void dcc_dnswait(int idx, char *buf, int len)
  157. {
  158. /* Ignore anything now. */
  159. }
  160. static void eof_dcc_dnswait(int idx)
  161. {
  162. putlog(LOG_MISC, "*", "Lost connection while resolving hostname [%s/%d]",
  163. iptostr(htonl(dcc[idx].addr)), dcc[idx].port);
  164. killsock(dcc[idx].sock);
  165. lostdcc(idx);
  166. }
  167. static void display_dcc_dnswait(int idx, char *buf, size_t bufsiz)
  168. {
  169. simple_snprintf(buf, bufsiz, "dns waited %ds", (int) (now - dcc[idx].timeval));
  170. }
  171. static void kill_dcc_dnswait(int idx, void *x)
  172. {
  173. struct dns_info *p = (struct dns_info *) x;
  174. if (p) {
  175. if (p->cbuf)
  176. free(p->cbuf);
  177. }
  178. }
  179. struct dcc_table DCC_DNSWAIT = {
  180. "DNSWAIT",
  181. DCT_VALIDIDX,
  182. eof_dcc_dnswait,
  183. dcc_dnswait,
  184. NULL,
  185. NULL,
  186. display_dcc_dnswait,
  187. kill_dcc_dnswait,
  188. NULL,
  189. NULL
  190. };
  191. /*
  192. static void async_timeout(void *client_data)
  193. {
  194. int id = (int) client_data;
  195. sdprintf("%d timed out", id);
  196. egg_dns_cancel(id, 1);
  197. }
  198. */
  199. static void answer_init(dns_answer_t *answer)
  200. {
  201. memset(answer, 0, sizeof(*answer));
  202. }
  203. char s1_7[3] = "",s2_3[3] = "",s2_2[3] = "";
  204. static void answer_add(dns_answer_t *answer, const char *what)
  205. {
  206. answer->list = (char **) my_realloc(answer->list, sizeof(*answer->list) * (answer->len+2));
  207. answer->list[answer->len] = strdup(what);
  208. answer->len++;
  209. answer->list[answer->len] = NULL;
  210. }
  211. static void answer_free(dns_answer_t *answer)
  212. {
  213. int i;
  214. for (i = 0; i < answer->len; i++) free(answer->list[i]);
  215. if (answer->list) free(answer->list);
  216. }
  217. static dns_query_t *alloc_query(void *client_data, dns_callback_t callback, const char *query)
  218. {
  219. dns_query_t *q = (dns_query_t *) my_calloc(1, sizeof(*q));
  220. q->id = query_id++;
  221. q->query = strdup(query);
  222. q->answers = 0;
  223. q->callback = callback;
  224. q->client_data = client_data;
  225. q->expiretime = now + async_lookup_timeout;
  226. q->next = query_head;
  227. query_head = q;
  228. return q;
  229. }
  230. static int get_dns_idx()
  231. {
  232. int i, sock;
  233. sock = -1;
  234. for (i = 0; i < nservers; i++) {
  235. if (!dns_ip) dns_ip = dns_next_server();
  236. sock = socket_create(dns_ip, DNS_PORT, NULL, 0, SOCKET_CLIENT | SOCKET_NONBLOCK | SOCKET_UDP);
  237. if (sock < 0) {
  238. /* Try the next server. */
  239. dns_ip = NULL;
  240. }
  241. else break;
  242. }
  243. if (i == nservers) return 1;
  244. // dns_idx = sockbuf_new();
  245. // sockbuf_set_handler(dns_idx, &dns_handler, NULL);
  246. // sockbuf_set_sock(dns_idx, sock, 0);
  247. // allocsock(sock, SOCK_CONNECT);
  248. if (sock >= 0 && dns_ip) {
  249. dns_idx = new_dcc(&dns_handler, 0);
  250. if (dns_idx < 0) {
  251. putlog(LOG_SERV, "*", "NO MORE DCC CONNECTIONS -- Can't create dns connection.");
  252. killsock(sock);
  253. return 1;
  254. }
  255. sdprintf("dns_idx: %d", dns_idx);
  256. dcc[dns_idx].sock = sock;
  257. dns_sock = sock;
  258. sdprintf("dns_sock: %d", dcc[dns_idx].sock);
  259. strlcpy(dcc[dns_idx].host, dns_ip, UHOSTLEN);
  260. strlcpy(dcc[dns_idx].nick, "(adns)", NICKLEN);
  261. sdprintf("dns_ip: %s", dns_ip);
  262. dcc[dns_idx].timeval = now;
  263. dns_handler.timeout_val = 0;
  264. return 0;
  265. }
  266. return 1;
  267. }
  268. void egg_dns_send(char *query, int len)
  269. {
  270. if (dns_idx >= 0 && dcc[dns_idx].sock == -1) {
  271. lostdcc(dns_idx);
  272. dns_idx = -1;
  273. }
  274. if (dns_idx < 0) {
  275. if (get_dns_idx()) {
  276. sdprintf("get_dns_idx() failed in egg_dns_send");
  277. return;
  278. }
  279. }
  280. if (!dns_handler.timeout_val) {
  281. dns_handler.timeout_val = &async_server_timeout;
  282. sdprintf("SETTING TIMEOUT to %d", async_server_timeout);
  283. dcc[dns_idx].timeval = now;
  284. }
  285. write(dcc[dns_idx].sock, query, len);
  286. // sockbuf_write(dns_idx, query, len);
  287. }
  288. dns_query_t *find_query(const char *host)
  289. {
  290. dns_query_t *q = NULL;
  291. for (q = query_head; q; q = q->next)
  292. if (!egg_strcasecmp(q->query, host))
  293. return q;
  294. return NULL;
  295. }
  296. void dns_send_query(dns_query_t *q)
  297. {
  298. char buf[512] = "";
  299. int len;
  300. if (!q->ip) {
  301. /* Send the ipv4 query. */
  302. q->remaining = 1;
  303. len = make_header(buf, q->id);
  304. len += cut_host(q->query, buf + len);
  305. buf[len] = 0; len++; buf[len] = DNS_A; len++;
  306. buf[len] = 0; len++; buf[len] = 1; len++;
  307. egg_dns_send(buf, len);
  308. #ifdef USE_IPV6
  309. /* Now send the ipv6 query. */
  310. q->remaining++;
  311. len = make_header(buf, q->id);
  312. len += cut_host(q->query, buf + len);
  313. buf[len] = 0; len++; buf[len] = DNS_AAAA; len++;
  314. buf[len] = 0; len++; buf[len] = 1; len++;
  315. egg_dns_send(buf, len);
  316. #endif
  317. } else if (q->ip) {
  318. q->remaining = 1;
  319. len = make_header(buf, q->id);
  320. len += cut_host(q->ip, buf + len);
  321. buf[len] = 0; len++; buf[len] = DNS_PTR; len++;
  322. buf[len] = 0; len++; buf[len] = 1; len++;
  323. egg_dns_send(buf, len);
  324. }
  325. }
  326. /*
  327. void dns_resend_queries()
  328. {
  329. dns_query_t *q = NULL;
  330. for (q = query_head; q; q = q->next) {
  331. if (now >= q->expiretime) {
  332. sdprintf("RESENDING: %s", q->query);
  333. dns_send_query(q);
  334. }
  335. }
  336. }
  337. */
  338. /*
  339. void dns_create_timeout_timer(dns_query_t **qm, const char *query, int timeout)
  340. {
  341. dns_query_t *q = *qm;
  342. egg_timeval_t howlong;
  343. howlong.sec = timeout;
  344. howlong.usec = 0;
  345. q->timer_id = timer_create_complex(&howlong, query, (Function) async_timeout, (void *) q->id, 0);
  346. }
  347. */
  348. /* Perform an async dns lookup. This is host -> ip. For ip -> host, use
  349. * egg_dns_reverse(). We return a dns id that you can use to cancel the
  350. * lookup. */
  351. int egg_dns_lookup(const char *host, interval_t timeout, dns_callback_t callback, void *client_data)
  352. {
  353. dns_query_t *q = NULL;
  354. int i, cache_id;
  355. sdprintf("egg_dns_lookup(%s, %d)", host, timeout);
  356. if (is_dotted_ip(host)) {
  357. /* If it's already an ip, we're done. */
  358. dns_answer_t answer;
  359. answer_init(&answer);
  360. answer_add(&answer, host);
  361. callback(-1, client_data, host, answer.list);
  362. answer_free(&answer);
  363. return(-1);
  364. }
  365. /* Ok, now see if it's in our host cache. */
  366. for (i = 0; i < nhosts; i++) {
  367. if (!egg_strcasecmp(host, hosts[i].host)) {
  368. dns_answer_t answer;
  369. answer_init(&answer);
  370. answer_add(&answer, hosts[i].ip);
  371. callback(-1, client_data, host, answer.list);
  372. answer_free(&answer);
  373. return(-1);
  374. }
  375. }
  376. cache_id = cache_find(host);
  377. if (cache_id >= 0) {
  378. shuffleArray(cache[cache_id].answer.list, cache[cache_id].answer.len);
  379. callback(-1, client_data, host, cache[cache_id].answer.list);
  380. return(-1);
  381. }
  382. /* check if the query was already made */
  383. if (find_query(host))
  384. return(-2);
  385. /* Allocate our query struct. */
  386. q = alloc_query(client_data, callback, host);
  387. dns_send_query(q);
  388. // /* setup a timer to detect dead ns */
  389. // dns_create_timeout_timer(&q, host, timeout);
  390. /* Send the ipv4 query. */
  391. return(q->id);
  392. }
  393. /* Perform an async dns reverse lookup. This does ip -> host. For host -> ip
  394. * use egg_dns_lookup(). We return a dns id that you can use to cancel the
  395. * lookup. */
  396. int egg_dns_reverse(const char *ip, interval_t timeout, dns_callback_t callback, void *client_data)
  397. {
  398. dns_query_t *q;
  399. int i, cache_id;
  400. sdprintf("egg_dns_reverse(%s, %d)", ip, timeout);
  401. if (!is_dotted_ip(ip)) {
  402. /* If it's not a valid ip, don't even make the request. */
  403. callback(-1, client_data, ip, NULL);
  404. return(-1);
  405. }
  406. /* Ok, see if we have it in our host cache. */
  407. for (i = 0; i < nhosts; i++) {
  408. if (!egg_strcasecmp(hosts[i].ip, ip)) {
  409. dns_answer_t answer;
  410. answer_init(&answer);
  411. answer_add(&answer, hosts[i].host);
  412. callback(-1, client_data, ip, answer.list);
  413. answer_free(&answer);
  414. return(-1);
  415. }
  416. }
  417. cache_id = cache_find(ip);
  418. if (cache_id >= 0) {
  419. shuffleArray(cache[cache_id].answer.list, cache[cache_id].answer.len);
  420. callback(-1, client_data, ip, cache[cache_id].answer.list);
  421. return(-1);
  422. }
  423. /* check if the query was already made */
  424. if (find_query(ip))
  425. return(-1);
  426. q = alloc_query(client_data, callback, ip);
  427. /* We need to transform the ip address into the proper form
  428. * for reverse lookup. */
  429. if (strchr(ip, ':')) {
  430. char temp[128] = "";
  431. socket_ipv6_to_dots(ip, temp);
  432. sdprintf("dots: %s", temp);
  433. size_t iplen = strlen(temp) + 9 + 1;
  434. q->ip = (char *) my_calloc(1, iplen);
  435. // reverse_ip(temp, q->ip);
  436. strlcat(q->ip, temp, iplen);
  437. strlcat(q->ip, "ip6.arpa", iplen);
  438. sdprintf("reversed ipv6 ip: %s", q->ip);
  439. }
  440. else {
  441. size_t iplen = strlen(ip) + 13 + 1;
  442. q->ip = (char *) my_calloc(1, iplen);
  443. reverse_ip(ip, q->ip);
  444. strlcat(q->ip, ".in-addr.arpa", iplen);
  445. }
  446. dns_send_query(q);
  447. // /* setup timer to detect dead ns */
  448. // dns_create_timeout_timer(&q, ip, timeout);
  449. return(q->id);
  450. }
  451. //static int dns_on_read(void *client_data, int idx, char *buf, int len)
  452. static void dns_on_read(int idx, char *buf, int atr)
  453. {
  454. dcc[idx].timeval = now;
  455. // if (resend_on_read) {
  456. // resend_on_read = 0;
  457. // dns_resend_queries();
  458. // return;
  459. // }
  460. atr = read(dcc[idx].sock, buf, 512);
  461. if (atr == -1) {
  462. if (errno == EAGAIN)
  463. atr = read(dcc[idx].sock, buf, 512);
  464. if (atr == -1) {
  465. dns_on_eof(idx);
  466. return;
  467. }
  468. }
  469. sdprintf("SETTING TIMEOUT to 0");
  470. dns_handler.timeout_val = 0;
  471. if (parse_reply(buf, atr))
  472. dns_on_eof(idx);
  473. return;
  474. }
  475. static void dns_on_eof(int idx)
  476. {
  477. sdprintf("EOF on dns idx: %d sock: %d (%s)", idx, dcc[idx].sock, dcc[idx].host);
  478. dns_reinit(idx);
  479. return;
  480. }
  481. /* for .restart
  482. int egg_dns_shutdown(void)
  483. {
  484. int i;
  485. if (nservers > 0) {
  486. for (i = 0; i < nservers; i++) {
  487. if (servers[i].ip) free(servers[i].ip);
  488. }
  489. free(servers); servers = NULL;
  490. nservers = 0;
  491. }
  492. if (nhosts > 0) {
  493. for (i = 0; i < nhosts; i++) {
  494. if (hosts[i].host) free(hosts[i].host);
  495. if (hosts[i].ip) free(hosts[i].ip);
  496. }
  497. free(hosts); hosts = NULL;
  498. nhosts = 0;
  499. }
  500. return (0);
  501. }
  502. */
  503. static const char *dns_next_server()
  504. {
  505. if (!servers || nservers < 1) return("127.0.0.1");
  506. cur_server++;
  507. if (cur_server >= nservers) cur_server = 0;
  508. return(servers[cur_server].ip);
  509. }
  510. static void add_dns_server(char *ip)
  511. {
  512. servers = (dns_server_t *) my_realloc(servers, (nservers+1)*sizeof(*servers));
  513. servers[nservers].ip = strdup(ip);
  514. nservers++;
  515. sdprintf("Added NS: %s", ip);
  516. }
  517. static void add_host(char *host, char *ip)
  518. {
  519. hosts = (dns_host_t *) my_realloc(hosts, (nhosts+1)*sizeof(*hosts));
  520. hosts[nhosts].host = strdup(host);
  521. hosts[nhosts].ip = strdup(ip);
  522. nhosts++;
  523. }
  524. static int cache_expired(int id)
  525. {
  526. if (cache[id].expiretime && (now >= cache[id].expiretime)) return(1);
  527. return (0);
  528. }
  529. static void cache_del(int id)
  530. {
  531. answer_free(&cache[id].answer);
  532. free(cache[id].query);
  533. cache[id].expiretime = 0;
  534. ncache--;
  535. if (id < ncache) egg_memcpy(&cache[id], &cache[ncache], sizeof(dns_cache_t));
  536. else egg_bzero(&cache[id], sizeof(dns_cache_t));
  537. cache = (dns_cache_t *) my_realloc(cache, (ncache+1)*sizeof(*cache));
  538. }
  539. static void cache_add(const char *query, dns_answer_t *answer)
  540. {
  541. int i;
  542. cache = (dns_cache_t *) my_realloc(cache, (ncache+1)*sizeof(*cache));
  543. egg_bzero(&cache[ncache], sizeof(cache[ncache]));
  544. cache[ncache].query = strdup(query);
  545. answer_init(&cache[ncache].answer);
  546. for (i = 0; i < answer->len; i++)
  547. answer_add(&cache[ncache].answer, answer->list[i]);
  548. cache[ncache].expiretime = now + answer->ttl;
  549. ncache++;
  550. }
  551. static int cache_find(const char *query)
  552. {
  553. int i;
  554. for (i = 0; i < ncache; i++)
  555. if (!egg_strcasecmp(cache[i].query, query)) return (i);
  556. return (-1);
  557. }
  558. void dns_cache_flush()
  559. {
  560. int i = 0;
  561. for (i = 0; i < ncache; i++) {
  562. cache_del(i);
  563. if (i == ncache) break;
  564. i--;
  565. }
  566. }
  567. static int read_thing(char *buf, char *ip)
  568. {
  569. int skip, len;
  570. skip = strspn(buf, separators);
  571. buf += skip;
  572. len = strcspn(buf, separators);
  573. egg_memcpy(ip, buf, len);
  574. ip[len] = 0;
  575. return(skip + len);
  576. }
  577. static void read_resolv(char *fname)
  578. {
  579. FILE *fp;
  580. char buf[512], ip[512];
  581. fp = fopen(fname, "r");
  582. if (!fp) return;
  583. while (fgets(buf, sizeof(buf), fp)) {
  584. if (!strncasecmp(buf, "nameserver", 10)) {
  585. read_thing(buf+10, ip);
  586. if (strlen(ip)) add_dns_server(ip);
  587. }
  588. }
  589. fclose(fp);
  590. }
  591. static void read_hosts(char *fname)
  592. {
  593. FILE *fp;
  594. char buf[512], ip[512], host[512];
  595. int skip, n;
  596. fp = fopen(fname, "r");
  597. if (!fp) return;
  598. while (fgets(buf, sizeof(buf), fp)) {
  599. if (strchr(buf, '#')) continue;
  600. skip = read_thing(buf, ip);
  601. if (!strlen(ip)) continue;
  602. while ((n = read_thing(buf+skip, host))) {
  603. skip += n;
  604. if (strlen(host)) add_host(host, ip);
  605. }
  606. }
  607. fclose(fp);
  608. }
  609. static int make_header(char *buf, int id)
  610. {
  611. _dns_header.question_count = htons(1);
  612. // _dns_header.id = htons(id);
  613. _dns_header.id = id;
  614. egg_memcpy(buf, &_dns_header, HEAD_SIZE);
  615. return(HEAD_SIZE);
  616. }
  617. static int cut_host(const char *host, char *query)
  618. {
  619. char *period, *orig;
  620. int len;
  621. orig = query;
  622. while ((period = strchr(host, '.'))) {
  623. len = period - host;
  624. if (len > 63) return(-1);
  625. *query++ = len;
  626. egg_memcpy(query, host, len);
  627. query += len;
  628. host = period+1;
  629. }
  630. len = strlen(host);
  631. if (len) {
  632. *query++ = len;
  633. egg_memcpy(query, host, len);
  634. query += len;
  635. }
  636. *query++ = 0;
  637. return(query-orig);
  638. }
  639. static int reverse_ip(const char *host, char *reverse)
  640. {
  641. char *period;
  642. int offset, len;
  643. period = strchr(host, '.');
  644. if (!period) {
  645. len = strlen(host);
  646. egg_memcpy(reverse, host, len);
  647. return(len);
  648. }
  649. else {
  650. len = period - host;
  651. offset = reverse_ip(host+len+1, reverse);
  652. reverse[offset++] = '.';
  653. egg_memcpy(reverse+offset, host, len);
  654. reverse[offset+len] = 0;
  655. return(offset+len);
  656. }
  657. }
  658. int egg_dns_cancel(int id, int issue_callback)
  659. {
  660. dns_query_t *q, *prev = NULL;
  661. for (q = query_head; q; q = q->next) {
  662. if (q->id == id) break;
  663. prev = q;
  664. }
  665. if (!q) return(-1);
  666. if (prev) prev->next = q->next;
  667. else query_head = q->next;
  668. sdprintf("Cancelling query: %s", q->query);
  669. if (issue_callback) q->callback(q->id, q->client_data, q->query, NULL);
  670. if (q->ip)
  671. free(q->ip);
  672. free(q->query);
  673. free(q);
  674. return(0);
  675. }
  676. static int skip_name(unsigned char *ptr)
  677. {
  678. int len;
  679. unsigned char *start = ptr;
  680. while ((len = *ptr++) > 0) {
  681. if (len > 63) {
  682. ptr++;
  683. break;
  684. }
  685. else {
  686. ptr += len;
  687. }
  688. }
  689. return(ptr - start);
  690. }
  691. /*
  692. void print_header(dns_header_t &header)
  693. {
  694. #define dofield(_field) sdprintf("%s: %d\n", #_field, _field)
  695. dofield(header.id);
  696. dofield(header.question_count);
  697. dofield(header.answer_count);
  698. dofield(header.ar_count);
  699. dofield(header.ns_count);
  700. #undef dofield
  701. }
  702. void print_reply(dns_rr_t &reply)
  703. {
  704. #define dofield(_field) sdprintf("%s: %d\n", #_field, _field)
  705. dofield(reply.type);
  706. dofield(reply.dclass);
  707. dofield(reply.ttl);
  708. dofield(reply.rdlength);
  709. #undef dofield
  710. }
  711. */
  712. static int parse_reply(char *response, size_t nbytes)
  713. {
  714. dns_header_t header;
  715. dns_query_t *q = NULL, *prev = NULL;
  716. dns_rr_t reply;
  717. char result[512] = "";
  718. short rr;
  719. int r = -1;
  720. unsigned const char *eop = (unsigned char *) response + nbytes;
  721. unsigned char *ptr = (unsigned char *) response;
  722. egg_memcpy(&header, ptr, HEAD_SIZE);
  723. ptr += HEAD_SIZE;
  724. /* header.id is already in our order, echoed by the server */
  725. header.flags = ntohs(header.flags);
  726. header.question_count = ntohs(header.question_count);
  727. header.answer_count = ntohs(header.answer_count);
  728. header.ar_count = ntohs(header.ar_count);
  729. header.ns_count = ntohs(header.ns_count);
  730. // print_header(header);
  731. /* Find our copy of the query before proceeding. */
  732. for (q = query_head; q; q = q->next) {
  733. if (q->id == header.id) break;
  734. prev = q;
  735. }
  736. if (!q) return 0;
  737. // /* destroy our async timeout */
  738. // timer_destroy(q->timer_id);
  739. /* Pass over the questions. */
  740. for (rr = 0; rr < header.question_count; rr++) {
  741. ptr += skip_name(ptr);
  742. ptr += 4;
  743. }
  744. /* End of questions. */
  745. // for (rr = 0; rr < header.answer_count + header.ar_count + header.ns_count; rr++) {
  746. q->answers += header.answer_count;
  747. for (rr = 0; rr < header.answer_count; rr++) {
  748. result[0] = 0;
  749. /* Read in the answer. */
  750. ptr += skip_name(ptr);
  751. egg_memcpy(&reply, ptr, RR_SIZE);
  752. ptr += RR_SIZE;
  753. reply.type = ntohs(reply.type);
  754. reply.dclass = ntohs(reply.dclass);
  755. reply.rdlength = ntohs(reply.rdlength);
  756. reply.ttl = ntohl(reply.ttl);
  757. /* Save the lowest ttl */
  758. if (reply.ttl && ((!q->answer.ttl) || (q->answer.ttl > reply.ttl))) q->answer.ttl = reply.ttl;
  759. // print_reply(reply);
  760. switch (reply.type) {
  761. case DNS_A:
  762. egg_inet_ntop(AF_INET, ptr, result, 512);
  763. answer_add(&q->answer, result);
  764. break;
  765. case DNS_AAAA:
  766. #ifdef USE_IPV6
  767. egg_inet_ntop(AF_INET6, ptr, result, 512);
  768. answer_add(&q->answer, result);
  769. #endif /* USE_IPV6 */
  770. break;
  771. case DNS_PTR:
  772. r = my_dn_expand((const unsigned char *) response, eop, ptr, result, sizeof(result));
  773. if (r != -1 && result[0])
  774. answer_add(&q->answer, result);
  775. break;
  776. default:
  777. sdprintf("Unhandled DNS reply type: %d", reply.type);
  778. break;
  779. }
  780. ptr += reply.rdlength;
  781. if ((size_t) (ptr - (unsigned char*) response) > nbytes) {
  782. sdprintf("MALFORMED/TRUNCATED DNS PACKET detected (need TCP).");
  783. q->remaining = 0;
  784. break;
  785. }
  786. }
  787. /* Don't continue if we haven't gotten all expected replies. */
  788. if (--q->remaining > 0) return 0;
  789. if (q->answer.len == 0) {
  790. sdprintf("Failed to get any answers for query");
  791. if (prev) prev->next = q->next;
  792. else query_head = q->next;
  793. q->callback(q->id, q->client_data, q->query, NULL);
  794. free(q->query);
  795. if (q->ip)
  796. free(q->ip);
  797. free(q);
  798. return 1; /* get a new server */
  799. }
  800. /* Ok, we have, so now issue the callback with the answers. */
  801. if (prev) prev->next = q->next;
  802. else query_head = q->next;
  803. cache_add(q->query, &q->answer);
  804. q->callback(q->id, q->client_data, q->query, q->answer.list);
  805. answer_free(&q->answer);
  806. free(q->query);
  807. if (q->ip)
  808. free(q->ip);
  809. free(q);
  810. return(0);
  811. }
  812. void tell_dnsdebug(int idx)
  813. {
  814. dns_query_t *q = NULL;
  815. int i, n = 0;
  816. dprintf(idx, "NS: %s\n", dns_ip);
  817. for (q = query_head; q; q = q->next)
  818. dprintf(idx, "DNS (%d) (%ds): %s\n", q->id, (int) (q->expiretime - now), q->query);
  819. // for (i = 0; i < nhosts; i++)
  820. // dprintf(idx, "HOST #%d: %s/%s\n", i, hosts[i].host, hosts[i].ip);
  821. for (i = 0; i < ncache; i++) {
  822. dprintf(idx, "cache(%d) %s expires in %ds\n", i, cache[i].query, (int) (cache[i].expiretime - now));
  823. for (n = 0; n < cache[i].answer.len; n++)
  824. dprintf(idx, "%d: %s\n", n, cache[i].answer.list[n]);
  825. }
  826. }
  827. static void expire_queries()
  828. {
  829. dns_query_t *q = NULL, *next = NULL;
  830. int i = 0;
  831. /* need to check for expired queries and either:
  832. a) recheck/change ns
  833. b) expire due to ttl
  834. */
  835. if (query_head) {
  836. for (q = query_head; q; q = q->next) {
  837. if (q->expiretime <= now) { /* set in alloc_query */
  838. if (q->next)
  839. next = q->next;
  840. egg_dns_cancel(q->id, 1);
  841. if (!next) break;
  842. q = next;
  843. }
  844. }
  845. }
  846. for (i = 0; i < ncache; i++) {
  847. if (cache_expired(i)) {
  848. cache_del(i);
  849. if (i == ncache) break;
  850. i--;
  851. }
  852. }
  853. }
  854. /* Read in .hosts and /etc/hosts and .resolv.conf and /etc/resolv.conf */
  855. int egg_dns_init()
  856. {
  857. _dns_header.flags = htons(1 << 8 | 1 << 7);
  858. read_resolv(".resolv.conf");
  859. read_resolv("/etc/resolv.conf");
  860. // read_hosts("/etc/hosts");
  861. read_hosts(".hosts");
  862. /* some backup servers, probably will never be used. */
  863. add_dns_server("4.2.2.2");
  864. add_dns_server("68.2.16.30"); //some cox ns
  865. add_dns_server("68.6.16.25"); //another cox
  866. /* root servers for future development (tracing down)
  867. add_dns_server("198.41.0.4");
  868. add_dns_server("192.228.79.201");
  869. add_dns_server("192.33.4.12");
  870. add_dns_server("128.8.10.90");
  871. add_dns_server("192.203.230.10");
  872. add_dns_server("192.5.5.241");
  873. add_dns_server("192.112.36.4");
  874. add_dns_server("128.63.2.53");
  875. add_dns_server("192.36.148.17");
  876. add_dns_server("192.58.128.30");
  877. add_dns_server("193.0.14.129");
  878. add_dns_server("198.32.64.12");
  879. add_dns_server("202.12.27.33");
  880. */
  881. timer_create_secs(3, "adns_check_expires", (Function) expire_queries);
  882. return(0);
  883. }
  884. bool valid_dns_id(int idx, int id)
  885. {
  886. if (id == -1)
  887. return 1;
  888. if (valid_idx(idx) && dcc[idx].dns_id && dcc[idx].dns_id == id)
  889. return 1;
  890. sdprintf("dns_id: %d is not associated with dead idx: %d", id, idx);
  891. return 0;
  892. }