router.c 120 KB

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  1. /* Copyright (c) 2001 Matej Pfajfar.
  2. * Copyright (c) 2001-2004, Roger Dingledine.
  3. * Copyright (c) 2004-2006, Roger Dingledine, Nick Mathewson.
  4. * Copyright (c) 2007-2016, The Tor Project, Inc. */
  5. /* See LICENSE for licensing information */
  6. #define ROUTER_PRIVATE
  7. #include "or.h"
  8. #include "circuitbuild.h"
  9. #include "circuitlist.h"
  10. #include "circuituse.h"
  11. #include "config.h"
  12. #include "connection.h"
  13. #include "control.h"
  14. #include "crypto_curve25519.h"
  15. #include "directory.h"
  16. #include "dirserv.h"
  17. #include "dns.h"
  18. #include "geoip.h"
  19. #include "hibernate.h"
  20. #include "main.h"
  21. #include "networkstatus.h"
  22. #include "nodelist.h"
  23. #include "policies.h"
  24. #include "protover.h"
  25. #include "relay.h"
  26. #include "rephist.h"
  27. #include "router.h"
  28. #include "routerkeys.h"
  29. #include "routerlist.h"
  30. #include "routerparse.h"
  31. #include "statefile.h"
  32. #include "torcert.h"
  33. #include "transports.h"
  34. #include "routerset.h"
  35. /**
  36. * \file router.c
  37. * \brief OR functionality, including key maintenance, generating
  38. * and uploading server descriptors, retrying OR connections.
  39. **/
  40. /************************************************************/
  41. /*****
  42. * Key management: ORs only.
  43. *****/
  44. /** Private keys for this OR. There is also an SSL key managed by tortls.c.
  45. */
  46. static tor_mutex_t *key_lock=NULL;
  47. static time_t onionkey_set_at=0; /**< When was onionkey last changed? */
  48. /** Current private onionskin decryption key: used to decode CREATE cells. */
  49. static crypto_pk_t *onionkey=NULL;
  50. /** Previous private onionskin decryption key: used to decode CREATE cells
  51. * generated by clients that have an older version of our descriptor. */
  52. static crypto_pk_t *lastonionkey=NULL;
  53. /** Current private ntor secret key: used to perform the ntor handshake. */
  54. static curve25519_keypair_t curve25519_onion_key;
  55. /** Previous private ntor secret key: used to perform the ntor handshake
  56. * with clients that have an older version of our descriptor. */
  57. static curve25519_keypair_t last_curve25519_onion_key;
  58. /** Private server "identity key": used to sign directory info and TLS
  59. * certificates. Never changes. */
  60. static crypto_pk_t *server_identitykey=NULL;
  61. /** Digest of server_identitykey. */
  62. static char server_identitykey_digest[DIGEST_LEN];
  63. /** Private client "identity key": used to sign bridges' and clients'
  64. * outbound TLS certificates. Regenerated on startup and on IP address
  65. * change. */
  66. static crypto_pk_t *client_identitykey=NULL;
  67. /** Signing key used for v3 directory material; only set for authorities. */
  68. static crypto_pk_t *authority_signing_key = NULL;
  69. /** Key certificate to authenticate v3 directory material; only set for
  70. * authorities. */
  71. static authority_cert_t *authority_key_certificate = NULL;
  72. /** For emergency V3 authority key migration: An extra signing key that we use
  73. * with our old (obsolete) identity key for a while. */
  74. static crypto_pk_t *legacy_signing_key = NULL;
  75. /** For emergency V3 authority key migration: An extra certificate to
  76. * authenticate legacy_signing_key with our obsolete identity key.*/
  77. static authority_cert_t *legacy_key_certificate = NULL;
  78. /* (Note that v3 authorities also have a separate "authority identity key",
  79. * but this key is never actually loaded by the Tor process. Instead, it's
  80. * used by tor-gencert to sign new signing keys and make new key
  81. * certificates. */
  82. /** Replace the current onion key with <b>k</b>. Does not affect
  83. * lastonionkey; to update lastonionkey correctly, call rotate_onion_key().
  84. */
  85. static void
  86. set_onion_key(crypto_pk_t *k)
  87. {
  88. if (onionkey && crypto_pk_eq_keys(onionkey, k)) {
  89. /* k is already our onion key; free it and return */
  90. crypto_pk_free(k);
  91. return;
  92. }
  93. tor_mutex_acquire(key_lock);
  94. crypto_pk_free(onionkey);
  95. onionkey = k;
  96. tor_mutex_release(key_lock);
  97. mark_my_descriptor_dirty("set onion key");
  98. }
  99. /** Return the current onion key. Requires that the onion key has been
  100. * loaded or generated. */
  101. crypto_pk_t *
  102. get_onion_key(void)
  103. {
  104. tor_assert(onionkey);
  105. return onionkey;
  106. }
  107. /** Store a full copy of the current onion key into *<b>key</b>, and a full
  108. * copy of the most recent onion key into *<b>last</b>.
  109. */
  110. void
  111. dup_onion_keys(crypto_pk_t **key, crypto_pk_t **last)
  112. {
  113. tor_assert(key);
  114. tor_assert(last);
  115. tor_mutex_acquire(key_lock);
  116. tor_assert(onionkey);
  117. *key = crypto_pk_copy_full(onionkey);
  118. if (lastonionkey)
  119. *last = crypto_pk_copy_full(lastonionkey);
  120. else
  121. *last = NULL;
  122. tor_mutex_release(key_lock);
  123. }
  124. /** Return the current secret onion key for the ntor handshake. Must only
  125. * be called from the main thread. */
  126. static const curve25519_keypair_t *
  127. get_current_curve25519_keypair(void)
  128. {
  129. return &curve25519_onion_key;
  130. }
  131. /** Return a map from KEYID (the key itself) to keypairs for use in the ntor
  132. * handshake. Must only be called from the main thread. */
  133. di_digest256_map_t *
  134. construct_ntor_key_map(void)
  135. {
  136. di_digest256_map_t *m = NULL;
  137. dimap_add_entry(&m,
  138. curve25519_onion_key.pubkey.public_key,
  139. tor_memdup(&curve25519_onion_key,
  140. sizeof(curve25519_keypair_t)));
  141. if (!tor_mem_is_zero((const char*)
  142. last_curve25519_onion_key.pubkey.public_key,
  143. CURVE25519_PUBKEY_LEN)) {
  144. dimap_add_entry(&m,
  145. last_curve25519_onion_key.pubkey.public_key,
  146. tor_memdup(&last_curve25519_onion_key,
  147. sizeof(curve25519_keypair_t)));
  148. }
  149. return m;
  150. }
  151. /** Helper used to deallocate a di_digest256_map_t returned by
  152. * construct_ntor_key_map. */
  153. static void
  154. ntor_key_map_free_helper(void *arg)
  155. {
  156. curve25519_keypair_t *k = arg;
  157. memwipe(k, 0, sizeof(*k));
  158. tor_free(k);
  159. }
  160. /** Release all storage from a keymap returned by construct_ntor_key_map. */
  161. void
  162. ntor_key_map_free(di_digest256_map_t *map)
  163. {
  164. if (!map)
  165. return;
  166. dimap_free(map, ntor_key_map_free_helper);
  167. }
  168. /** Return the time when the onion key was last set. This is either the time
  169. * when the process launched, or the time of the most recent key rotation since
  170. * the process launched.
  171. */
  172. time_t
  173. get_onion_key_set_at(void)
  174. {
  175. return onionkey_set_at;
  176. }
  177. /** Set the current server identity key to <b>k</b>.
  178. */
  179. void
  180. set_server_identity_key(crypto_pk_t *k)
  181. {
  182. crypto_pk_free(server_identitykey);
  183. server_identitykey = k;
  184. crypto_pk_get_digest(server_identitykey, server_identitykey_digest);
  185. }
  186. /** Make sure that we have set up our identity keys to match or not match as
  187. * appropriate, and die with an assertion if we have not. */
  188. static void
  189. assert_identity_keys_ok(void)
  190. {
  191. if (1)
  192. return;
  193. tor_assert(client_identitykey);
  194. if (public_server_mode(get_options())) {
  195. /* assert that we have set the client and server keys to be equal */
  196. tor_assert(server_identitykey);
  197. tor_assert(crypto_pk_eq_keys(client_identitykey, server_identitykey));
  198. } else {
  199. /* assert that we have set the client and server keys to be unequal */
  200. if (server_identitykey)
  201. tor_assert(!crypto_pk_eq_keys(client_identitykey, server_identitykey));
  202. }
  203. }
  204. /** Returns the current server identity key; requires that the key has
  205. * been set, and that we are running as a Tor server.
  206. */
  207. crypto_pk_t *
  208. get_server_identity_key(void)
  209. {
  210. tor_assert(server_identitykey);
  211. tor_assert(server_mode(get_options()));
  212. assert_identity_keys_ok();
  213. return server_identitykey;
  214. }
  215. /** Return true iff we are a server and the server identity key
  216. * has been set. */
  217. int
  218. server_identity_key_is_set(void)
  219. {
  220. return server_mode(get_options()) && server_identitykey != NULL;
  221. }
  222. /** Set the current client identity key to <b>k</b>.
  223. */
  224. void
  225. set_client_identity_key(crypto_pk_t *k)
  226. {
  227. crypto_pk_free(client_identitykey);
  228. client_identitykey = k;
  229. }
  230. /** Returns the current client identity key for use on outgoing TLS
  231. * connections; requires that the key has been set.
  232. */
  233. crypto_pk_t *
  234. get_tlsclient_identity_key(void)
  235. {
  236. tor_assert(client_identitykey);
  237. assert_identity_keys_ok();
  238. return client_identitykey;
  239. }
  240. /** Return true iff the client identity key has been set. */
  241. int
  242. client_identity_key_is_set(void)
  243. {
  244. return client_identitykey != NULL;
  245. }
  246. /** Return the key certificate for this v3 (voting) authority, or NULL
  247. * if we have no such certificate. */
  248. MOCK_IMPL(authority_cert_t *,
  249. get_my_v3_authority_cert, (void))
  250. {
  251. return authority_key_certificate;
  252. }
  253. /** Return the v3 signing key for this v3 (voting) authority, or NULL
  254. * if we have no such key. */
  255. crypto_pk_t *
  256. get_my_v3_authority_signing_key(void)
  257. {
  258. return authority_signing_key;
  259. }
  260. /** If we're an authority, and we're using a legacy authority identity key for
  261. * emergency migration purposes, return the certificate associated with that
  262. * key. */
  263. authority_cert_t *
  264. get_my_v3_legacy_cert(void)
  265. {
  266. return legacy_key_certificate;
  267. }
  268. /** If we're an authority, and we're using a legacy authority identity key for
  269. * emergency migration purposes, return that key. */
  270. crypto_pk_t *
  271. get_my_v3_legacy_signing_key(void)
  272. {
  273. return legacy_signing_key;
  274. }
  275. /** Replace the previous onion key with the current onion key, and generate
  276. * a new previous onion key. Immediately after calling this function,
  277. * the OR should:
  278. * - schedule all previous cpuworkers to shut down _after_ processing
  279. * pending work. (This will cause fresh cpuworkers to be generated.)
  280. * - generate and upload a fresh routerinfo.
  281. */
  282. void
  283. rotate_onion_key(void)
  284. {
  285. char *fname, *fname_prev;
  286. crypto_pk_t *prkey = NULL;
  287. or_state_t *state = get_or_state();
  288. curve25519_keypair_t new_curve25519_keypair;
  289. time_t now;
  290. fname = get_datadir_fname2("keys", "secret_onion_key");
  291. fname_prev = get_datadir_fname2("keys", "secret_onion_key.old");
  292. /* There isn't much point replacing an old key with an empty file */
  293. if (file_status(fname) == FN_FILE) {
  294. if (replace_file(fname, fname_prev))
  295. goto error;
  296. }
  297. if (!(prkey = crypto_pk_new())) {
  298. log_err(LD_GENERAL,"Error constructing rotated onion key");
  299. goto error;
  300. }
  301. if (crypto_pk_generate_key(prkey)) {
  302. log_err(LD_BUG,"Error generating onion key");
  303. goto error;
  304. }
  305. if (crypto_pk_write_private_key_to_filename(prkey, fname)) {
  306. log_err(LD_FS,"Couldn't write generated onion key to \"%s\".", fname);
  307. goto error;
  308. }
  309. tor_free(fname);
  310. tor_free(fname_prev);
  311. fname = get_datadir_fname2("keys", "secret_onion_key_ntor");
  312. fname_prev = get_datadir_fname2("keys", "secret_onion_key_ntor.old");
  313. if (curve25519_keypair_generate(&new_curve25519_keypair, 1) < 0)
  314. goto error;
  315. /* There isn't much point replacing an old key with an empty file */
  316. if (file_status(fname) == FN_FILE) {
  317. if (replace_file(fname, fname_prev))
  318. goto error;
  319. }
  320. if (curve25519_keypair_write_to_file(&new_curve25519_keypair, fname,
  321. "onion") < 0) {
  322. log_err(LD_FS,"Couldn't write curve25519 onion key to \"%s\".",fname);
  323. goto error;
  324. }
  325. log_info(LD_GENERAL, "Rotating onion key");
  326. tor_mutex_acquire(key_lock);
  327. crypto_pk_free(lastonionkey);
  328. lastonionkey = onionkey;
  329. onionkey = prkey;
  330. memcpy(&last_curve25519_onion_key, &curve25519_onion_key,
  331. sizeof(curve25519_keypair_t));
  332. memcpy(&curve25519_onion_key, &new_curve25519_keypair,
  333. sizeof(curve25519_keypair_t));
  334. now = time(NULL);
  335. state->LastRotatedOnionKey = onionkey_set_at = now;
  336. tor_mutex_release(key_lock);
  337. mark_my_descriptor_dirty("rotated onion key");
  338. or_state_mark_dirty(state, get_options()->AvoidDiskWrites ? now+3600 : 0);
  339. goto done;
  340. error:
  341. log_warn(LD_GENERAL, "Couldn't rotate onion key.");
  342. if (prkey)
  343. crypto_pk_free(prkey);
  344. done:
  345. memwipe(&new_curve25519_keypair, 0, sizeof(new_curve25519_keypair));
  346. tor_free(fname);
  347. tor_free(fname_prev);
  348. }
  349. /** Log greeting message that points to new relay lifecycle document the
  350. * first time this function has been called.
  351. */
  352. static void
  353. log_new_relay_greeting(void)
  354. {
  355. static int already_logged = 0;
  356. if (already_logged)
  357. return;
  358. tor_log(LOG_NOTICE, LD_GENERAL, "You are running a new relay. "
  359. "Thanks for helping the Tor network! If you wish to know "
  360. "what will happen in the upcoming weeks regarding its usage, "
  361. "have a look at https://blog.torproject.org/blog/lifecycle-of"
  362. "-a-new-relay");
  363. already_logged = 1;
  364. }
  365. /** Try to read an RSA key from <b>fname</b>. If <b>fname</b> doesn't exist
  366. * and <b>generate</b> is true, create a new RSA key and save it in
  367. * <b>fname</b>. Return the read/created key, or NULL on error. Log all
  368. * errors at level <b>severity</b>. If <b>log_greeting</b> is non-zero and a
  369. * new key was created, log_new_relay_greeting() is called.
  370. */
  371. crypto_pk_t *
  372. init_key_from_file(const char *fname, int generate, int severity,
  373. int log_greeting)
  374. {
  375. crypto_pk_t *prkey = NULL;
  376. if (!(prkey = crypto_pk_new())) {
  377. tor_log(severity, LD_GENERAL,"Error constructing key");
  378. goto error;
  379. }
  380. switch (file_status(fname)) {
  381. case FN_DIR:
  382. case FN_ERROR:
  383. tor_log(severity, LD_FS,"Can't read key from \"%s\"", fname);
  384. goto error;
  385. /* treat empty key files as if the file doesn't exist, and,
  386. * if generate is set, replace the empty file in
  387. * crypto_pk_write_private_key_to_filename() */
  388. case FN_NOENT:
  389. case FN_EMPTY:
  390. if (generate) {
  391. if (!have_lockfile()) {
  392. if (try_locking(get_options(), 0)<0) {
  393. /* Make sure that --list-fingerprint only creates new keys
  394. * if there is no possibility for a deadlock. */
  395. tor_log(severity, LD_FS, "Another Tor process has locked \"%s\". "
  396. "Not writing any new keys.", fname);
  397. /*XXXX The 'other process' might make a key in a second or two;
  398. * maybe we should wait for it. */
  399. goto error;
  400. }
  401. }
  402. log_info(LD_GENERAL, "No key found in \"%s\"; generating fresh key.",
  403. fname);
  404. if (crypto_pk_generate_key(prkey)) {
  405. tor_log(severity, LD_GENERAL,"Error generating onion key");
  406. goto error;
  407. }
  408. if (crypto_pk_check_key(prkey) <= 0) {
  409. tor_log(severity, LD_GENERAL,"Generated key seems invalid");
  410. goto error;
  411. }
  412. log_info(LD_GENERAL, "Generated key seems valid");
  413. if (log_greeting) {
  414. log_new_relay_greeting();
  415. }
  416. if (crypto_pk_write_private_key_to_filename(prkey, fname)) {
  417. tor_log(severity, LD_FS,
  418. "Couldn't write generated key to \"%s\".", fname);
  419. goto error;
  420. }
  421. } else {
  422. log_info(LD_GENERAL, "No key found in \"%s\"", fname);
  423. }
  424. return prkey;
  425. case FN_FILE:
  426. if (crypto_pk_read_private_key_from_filename(prkey, fname)) {
  427. tor_log(severity, LD_GENERAL,"Error loading private key.");
  428. goto error;
  429. }
  430. return prkey;
  431. default:
  432. tor_assert(0);
  433. }
  434. error:
  435. if (prkey)
  436. crypto_pk_free(prkey);
  437. return NULL;
  438. }
  439. /** Load a curve25519 keypair from the file <b>fname</b>, writing it into
  440. * <b>keys_out</b>. If the file isn't found, or is empty, and <b>generate</b>
  441. * is true, create a new keypair and write it into the file. If there are
  442. * errors, log them at level <b>severity</b>. Generate files using <b>tag</b>
  443. * in their ASCII wrapper. */
  444. static int
  445. init_curve25519_keypair_from_file(curve25519_keypair_t *keys_out,
  446. const char *fname,
  447. int generate,
  448. int severity,
  449. const char *tag)
  450. {
  451. switch (file_status(fname)) {
  452. case FN_DIR:
  453. case FN_ERROR:
  454. tor_log(severity, LD_FS,"Can't read key from \"%s\"", fname);
  455. goto error;
  456. /* treat empty key files as if the file doesn't exist, and, if generate
  457. * is set, replace the empty file in curve25519_keypair_write_to_file() */
  458. case FN_NOENT:
  459. case FN_EMPTY:
  460. if (generate) {
  461. if (!have_lockfile()) {
  462. if (try_locking(get_options(), 0)<0) {
  463. /* Make sure that --list-fingerprint only creates new keys
  464. * if there is no possibility for a deadlock. */
  465. tor_log(severity, LD_FS, "Another Tor process has locked \"%s\". "
  466. "Not writing any new keys.", fname);
  467. /*XXXX The 'other process' might make a key in a second or two;
  468. * maybe we should wait for it. */
  469. goto error;
  470. }
  471. }
  472. log_info(LD_GENERAL, "No key found in \"%s\"; generating fresh key.",
  473. fname);
  474. if (curve25519_keypair_generate(keys_out, 1) < 0)
  475. goto error;
  476. if (curve25519_keypair_write_to_file(keys_out, fname, tag)<0) {
  477. tor_log(severity, LD_FS,
  478. "Couldn't write generated key to \"%s\".", fname);
  479. memwipe(keys_out, 0, sizeof(*keys_out));
  480. goto error;
  481. }
  482. } else {
  483. log_info(LD_GENERAL, "No key found in \"%s\"", fname);
  484. }
  485. return 0;
  486. case FN_FILE:
  487. {
  488. char *tag_in=NULL;
  489. if (curve25519_keypair_read_from_file(keys_out, &tag_in, fname) < 0) {
  490. tor_log(severity, LD_GENERAL,"Error loading private key.");
  491. tor_free(tag_in);
  492. goto error;
  493. }
  494. if (!tag_in || strcmp(tag_in, tag)) {
  495. tor_log(severity, LD_GENERAL,"Unexpected tag %s on private key.",
  496. escaped(tag_in));
  497. tor_free(tag_in);
  498. goto error;
  499. }
  500. tor_free(tag_in);
  501. return 0;
  502. }
  503. default:
  504. tor_assert(0);
  505. }
  506. error:
  507. return -1;
  508. }
  509. /** Try to load the vote-signing private key and certificate for being a v3
  510. * directory authority, and make sure they match. If <b>legacy</b>, load a
  511. * legacy key/cert set for emergency key migration; otherwise load the regular
  512. * key/cert set. On success, store them into *<b>key_out</b> and
  513. * *<b>cert_out</b> respectively, and return 0. On failure, return -1. */
  514. static int
  515. load_authority_keyset(int legacy, crypto_pk_t **key_out,
  516. authority_cert_t **cert_out)
  517. {
  518. int r = -1;
  519. char *fname = NULL, *cert = NULL;
  520. const char *eos = NULL;
  521. crypto_pk_t *signing_key = NULL;
  522. authority_cert_t *parsed = NULL;
  523. fname = get_datadir_fname2("keys",
  524. legacy ? "legacy_signing_key" : "authority_signing_key");
  525. signing_key = init_key_from_file(fname, 0, LOG_INFO, 0);
  526. if (!signing_key) {
  527. log_warn(LD_DIR, "No version 3 directory key found in %s", fname);
  528. goto done;
  529. }
  530. tor_free(fname);
  531. fname = get_datadir_fname2("keys",
  532. legacy ? "legacy_certificate" : "authority_certificate");
  533. cert = read_file_to_str(fname, 0, NULL);
  534. if (!cert) {
  535. log_warn(LD_DIR, "Signing key found, but no certificate found in %s",
  536. fname);
  537. goto done;
  538. }
  539. parsed = authority_cert_parse_from_string(cert, &eos);
  540. if (!parsed) {
  541. log_warn(LD_DIR, "Unable to parse certificate in %s", fname);
  542. goto done;
  543. }
  544. if (!crypto_pk_eq_keys(signing_key, parsed->signing_key)) {
  545. log_warn(LD_DIR, "Stored signing key does not match signing key in "
  546. "certificate");
  547. goto done;
  548. }
  549. crypto_pk_free(*key_out);
  550. authority_cert_free(*cert_out);
  551. *key_out = signing_key;
  552. *cert_out = parsed;
  553. r = 0;
  554. signing_key = NULL;
  555. parsed = NULL;
  556. done:
  557. tor_free(fname);
  558. tor_free(cert);
  559. crypto_pk_free(signing_key);
  560. authority_cert_free(parsed);
  561. return r;
  562. }
  563. /** Load the v3 (voting) authority signing key and certificate, if they are
  564. * present. Return -1 if anything is missing, mismatched, or unloadable;
  565. * return 0 on success. */
  566. static int
  567. init_v3_authority_keys(void)
  568. {
  569. if (load_authority_keyset(0, &authority_signing_key,
  570. &authority_key_certificate)<0)
  571. return -1;
  572. if (get_options()->V3AuthUseLegacyKey &&
  573. load_authority_keyset(1, &legacy_signing_key,
  574. &legacy_key_certificate)<0)
  575. return -1;
  576. return 0;
  577. }
  578. /** If we're a v3 authority, check whether we have a certificate that's
  579. * likely to expire soon. Warn if we do, but not too often. */
  580. void
  581. v3_authority_check_key_expiry(void)
  582. {
  583. time_t now, expires;
  584. static time_t last_warned = 0;
  585. int badness, time_left, warn_interval;
  586. if (!authdir_mode_v3(get_options()) || !authority_key_certificate)
  587. return;
  588. now = time(NULL);
  589. expires = authority_key_certificate->expires;
  590. time_left = (int)( expires - now );
  591. if (time_left <= 0) {
  592. badness = LOG_ERR;
  593. warn_interval = 60*60;
  594. } else if (time_left <= 24*60*60) {
  595. badness = LOG_WARN;
  596. warn_interval = 60*60;
  597. } else if (time_left <= 24*60*60*7) {
  598. badness = LOG_WARN;
  599. warn_interval = 24*60*60;
  600. } else if (time_left <= 24*60*60*30) {
  601. badness = LOG_WARN;
  602. warn_interval = 24*60*60*5;
  603. } else {
  604. return;
  605. }
  606. if (last_warned + warn_interval > now)
  607. return;
  608. if (time_left <= 0) {
  609. tor_log(badness, LD_DIR, "Your v3 authority certificate has expired."
  610. " Generate a new one NOW.");
  611. } else if (time_left <= 24*60*60) {
  612. tor_log(badness, LD_DIR, "Your v3 authority certificate expires in %d "
  613. "hours; Generate a new one NOW.", time_left/(60*60));
  614. } else {
  615. tor_log(badness, LD_DIR, "Your v3 authority certificate expires in %d "
  616. "days; Generate a new one soon.", time_left/(24*60*60));
  617. }
  618. last_warned = now;
  619. }
  620. /** Set up Tor's TLS contexts, based on our configuration and keys. Return 0
  621. * on success, and -1 on failure. */
  622. int
  623. router_initialize_tls_context(void)
  624. {
  625. unsigned int flags = 0;
  626. const or_options_t *options = get_options();
  627. int lifetime = options->SSLKeyLifetime;
  628. if (public_server_mode(options))
  629. flags |= TOR_TLS_CTX_IS_PUBLIC_SERVER;
  630. if (options->TLSECGroup) {
  631. if (!strcasecmp(options->TLSECGroup, "P256"))
  632. flags |= TOR_TLS_CTX_USE_ECDHE_P256;
  633. else if (!strcasecmp(options->TLSECGroup, "P224"))
  634. flags |= TOR_TLS_CTX_USE_ECDHE_P224;
  635. }
  636. if (!lifetime) { /* we should guess a good ssl cert lifetime */
  637. /* choose between 5 and 365 days, and round to the day */
  638. unsigned int five_days = 5*24*3600;
  639. unsigned int one_year = 365*24*3600;
  640. lifetime = crypto_rand_int_range(five_days, one_year);
  641. lifetime -= lifetime % (24*3600);
  642. if (crypto_rand_int(2)) {
  643. /* Half the time we expire at midnight, and half the time we expire
  644. * one second before midnight. (Some CAs wobble their expiry times a
  645. * bit in practice, perhaps to reduce collision attacks; see ticket
  646. * 8443 for details about observed certs in the wild.) */
  647. lifetime--;
  648. }
  649. }
  650. /* It's ok to pass lifetime in as an unsigned int, since
  651. * config_parse_interval() checked it. */
  652. return tor_tls_context_init(flags,
  653. get_tlsclient_identity_key(),
  654. server_mode(options) ?
  655. get_server_identity_key() : NULL,
  656. (unsigned int)lifetime);
  657. }
  658. /** Compute fingerprint (or hashed fingerprint if hashed is 1) and write
  659. * it to 'fingerprint' (or 'hashed-fingerprint'). Return 0 on success, or
  660. * -1 if Tor should die,
  661. */
  662. STATIC int
  663. router_write_fingerprint(int hashed)
  664. {
  665. char *keydir = NULL, *cp = NULL;
  666. const char *fname = hashed ? "hashed-fingerprint" :
  667. "fingerprint";
  668. char fingerprint[FINGERPRINT_LEN+1];
  669. const or_options_t *options = get_options();
  670. char *fingerprint_line = NULL;
  671. int result = -1;
  672. keydir = get_datadir_fname(fname);
  673. log_info(LD_GENERAL,"Dumping %sfingerprint to \"%s\"...",
  674. hashed ? "hashed " : "", keydir);
  675. if (!hashed) {
  676. if (crypto_pk_get_fingerprint(get_server_identity_key(),
  677. fingerprint, 0) < 0) {
  678. log_err(LD_GENERAL,"Error computing fingerprint");
  679. goto done;
  680. }
  681. } else {
  682. if (crypto_pk_get_hashed_fingerprint(get_server_identity_key(),
  683. fingerprint) < 0) {
  684. log_err(LD_GENERAL,"Error computing hashed fingerprint");
  685. goto done;
  686. }
  687. }
  688. tor_asprintf(&fingerprint_line, "%s %s\n", options->Nickname, fingerprint);
  689. /* Check whether we need to write the (hashed-)fingerprint file. */
  690. cp = read_file_to_str(keydir, RFTS_IGNORE_MISSING, NULL);
  691. if (!cp || strcmp(cp, fingerprint_line)) {
  692. if (write_str_to_file(keydir, fingerprint_line, 0)) {
  693. log_err(LD_FS, "Error writing %sfingerprint line to file",
  694. hashed ? "hashed " : "");
  695. goto done;
  696. }
  697. }
  698. log_notice(LD_GENERAL, "Your Tor %s identity key fingerprint is '%s %s'",
  699. hashed ? "bridge's hashed" : "server's", options->Nickname,
  700. fingerprint);
  701. result = 0;
  702. done:
  703. tor_free(cp);
  704. tor_free(keydir);
  705. tor_free(fingerprint_line);
  706. return result;
  707. }
  708. static int
  709. init_keys_common(void)
  710. {
  711. if (!key_lock)
  712. key_lock = tor_mutex_new();
  713. /* There are a couple of paths that put us here before we've asked
  714. * openssl to initialize itself. */
  715. if (crypto_global_init(get_options()->HardwareAccel,
  716. get_options()->AccelName,
  717. get_options()->AccelDir)) {
  718. log_err(LD_BUG, "Unable to initialize OpenSSL. Exiting.");
  719. return -1;
  720. }
  721. return 0;
  722. }
  723. int
  724. init_keys_client(void)
  725. {
  726. crypto_pk_t *prkey;
  727. if (init_keys_common() < 0)
  728. return -1;
  729. if (!(prkey = crypto_pk_new()))
  730. return -1;
  731. if (crypto_pk_generate_key(prkey)) {
  732. crypto_pk_free(prkey);
  733. return -1;
  734. }
  735. set_client_identity_key(prkey);
  736. /* Create a TLS context. */
  737. if (router_initialize_tls_context() < 0) {
  738. log_err(LD_GENERAL,"Error creating TLS context for Tor client.");
  739. return -1;
  740. }
  741. return 0;
  742. }
  743. /** Initialize all OR private keys, and the TLS context, as necessary.
  744. * On OPs, this only initializes the tls context. Return 0 on success,
  745. * or -1 if Tor should die.
  746. */
  747. int
  748. init_keys(void)
  749. {
  750. char *keydir;
  751. const char *mydesc;
  752. crypto_pk_t *prkey;
  753. char digest[DIGEST_LEN];
  754. char v3_digest[DIGEST_LEN];
  755. const or_options_t *options = get_options();
  756. dirinfo_type_t type;
  757. time_t now = time(NULL);
  758. dir_server_t *ds;
  759. int v3_digest_set = 0;
  760. authority_cert_t *cert = NULL;
  761. /* OP's don't need persistent keys; just make up an identity and
  762. * initialize the TLS context. */
  763. if (!server_mode(options)) {
  764. return init_keys_client();
  765. }
  766. if (init_keys_common() < 0)
  767. return -1;
  768. /* Make sure DataDirectory exists, and is private. */
  769. if (check_private_dir(options->DataDirectory, CPD_CREATE, options->User)) {
  770. return -1;
  771. }
  772. /* Check the key directory. */
  773. keydir = get_datadir_fname("keys");
  774. if (check_private_dir(keydir, CPD_CREATE, options->User)) {
  775. tor_free(keydir);
  776. return -1;
  777. }
  778. tor_free(keydir);
  779. /* 1a. Read v3 directory authority key/cert information. */
  780. memset(v3_digest, 0, sizeof(v3_digest));
  781. if (authdir_mode_v3(options)) {
  782. if (init_v3_authority_keys()<0) {
  783. log_err(LD_GENERAL, "We're configured as a V3 authority, but we "
  784. "were unable to load our v3 authority keys and certificate! "
  785. "Use tor-gencert to generate them. Dying.");
  786. return -1;
  787. }
  788. cert = get_my_v3_authority_cert();
  789. if (cert) {
  790. crypto_pk_get_digest(get_my_v3_authority_cert()->identity_key,
  791. v3_digest);
  792. v3_digest_set = 1;
  793. }
  794. }
  795. /* 1b. Read identity key. Make it if none is found. */
  796. keydir = get_datadir_fname2("keys", "secret_id_key");
  797. log_info(LD_GENERAL,"Reading/making identity key \"%s\"...",keydir);
  798. prkey = init_key_from_file(keydir, 1, LOG_ERR, 1);
  799. tor_free(keydir);
  800. if (!prkey) return -1;
  801. set_server_identity_key(prkey);
  802. /* 1c. If we are configured as a bridge, generate a client key;
  803. * otherwise, set the server identity key as our client identity
  804. * key. */
  805. if (public_server_mode(options)) {
  806. set_client_identity_key(crypto_pk_dup_key(prkey)); /* set above */
  807. } else {
  808. if (!(prkey = crypto_pk_new()))
  809. return -1;
  810. if (crypto_pk_generate_key(prkey)) {
  811. crypto_pk_free(prkey);
  812. return -1;
  813. }
  814. set_client_identity_key(prkey);
  815. }
  816. /* 1d. Load all ed25519 keys */
  817. if (load_ed_keys(options,now) < 0)
  818. return -1;
  819. /* 2. Read onion key. Make it if none is found. */
  820. keydir = get_datadir_fname2("keys", "secret_onion_key");
  821. log_info(LD_GENERAL,"Reading/making onion key \"%s\"...",keydir);
  822. prkey = init_key_from_file(keydir, 1, LOG_ERR, 1);
  823. tor_free(keydir);
  824. if (!prkey) return -1;
  825. set_onion_key(prkey);
  826. if (options->command == CMD_RUN_TOR) {
  827. /* only mess with the state file if we're actually running Tor */
  828. or_state_t *state = get_or_state();
  829. if (state->LastRotatedOnionKey > 100 && state->LastRotatedOnionKey < now) {
  830. /* We allow for some parsing slop, but we don't want to risk accepting
  831. * values in the distant future. If we did, we might never rotate the
  832. * onion key. */
  833. onionkey_set_at = state->LastRotatedOnionKey;
  834. } else {
  835. /* We have no LastRotatedOnionKey set; either we just created the key
  836. * or it's a holdover from 0.1.2.4-alpha-dev or earlier. In either case,
  837. * start the clock ticking now so that we will eventually rotate it even
  838. * if we don't stay up for a full MIN_ONION_KEY_LIFETIME. */
  839. state->LastRotatedOnionKey = onionkey_set_at = now;
  840. or_state_mark_dirty(state, options->AvoidDiskWrites ?
  841. time(NULL)+3600 : 0);
  842. }
  843. }
  844. keydir = get_datadir_fname2("keys", "secret_onion_key.old");
  845. if (!lastonionkey && file_status(keydir) == FN_FILE) {
  846. /* Load keys from non-empty files only.
  847. * Missing old keys won't be replaced with freshly generated keys. */
  848. prkey = init_key_from_file(keydir, 0, LOG_ERR, 0);
  849. if (prkey)
  850. lastonionkey = prkey;
  851. }
  852. tor_free(keydir);
  853. {
  854. /* 2b. Load curve25519 onion keys. */
  855. int r;
  856. keydir = get_datadir_fname2("keys", "secret_onion_key_ntor");
  857. r = init_curve25519_keypair_from_file(&curve25519_onion_key,
  858. keydir, 1, LOG_ERR, "onion");
  859. tor_free(keydir);
  860. if (r<0)
  861. return -1;
  862. keydir = get_datadir_fname2("keys", "secret_onion_key_ntor.old");
  863. if (tor_mem_is_zero((const char *)
  864. last_curve25519_onion_key.pubkey.public_key,
  865. CURVE25519_PUBKEY_LEN) &&
  866. file_status(keydir) == FN_FILE) {
  867. /* Load keys from non-empty files only.
  868. * Missing old keys won't be replaced with freshly generated keys. */
  869. init_curve25519_keypair_from_file(&last_curve25519_onion_key,
  870. keydir, 0, LOG_ERR, "onion");
  871. }
  872. tor_free(keydir);
  873. }
  874. /* 3. Initialize link key and TLS context. */
  875. if (router_initialize_tls_context() < 0) {
  876. log_err(LD_GENERAL,"Error initializing TLS context");
  877. return -1;
  878. }
  879. /* 3b. Get an ed25519 link certificate. Note that we need to do this
  880. * after we set up the TLS context */
  881. if (generate_ed_link_cert(options, now) < 0) {
  882. log_err(LD_GENERAL,"Couldn't make link cert");
  883. return -1;
  884. }
  885. /* 4. Build our router descriptor. */
  886. /* Must be called after keys are initialized. */
  887. mydesc = router_get_my_descriptor();
  888. if (authdir_mode_handles_descs(options, ROUTER_PURPOSE_GENERAL)) {
  889. const char *m = NULL;
  890. routerinfo_t *ri;
  891. /* We need to add our own fingerprint so it gets recognized. */
  892. if (dirserv_add_own_fingerprint(get_server_identity_key())) {
  893. log_err(LD_GENERAL,"Error adding own fingerprint to set of relays");
  894. return -1;
  895. }
  896. if (mydesc) {
  897. was_router_added_t added;
  898. ri = router_parse_entry_from_string(mydesc, NULL, 1, 0, NULL, NULL);
  899. if (!ri) {
  900. log_err(LD_GENERAL,"Generated a routerinfo we couldn't parse.");
  901. return -1;
  902. }
  903. added = dirserv_add_descriptor(ri, &m, "self");
  904. if (!WRA_WAS_ADDED(added)) {
  905. if (!WRA_WAS_OUTDATED(added)) {
  906. log_err(LD_GENERAL, "Unable to add own descriptor to directory: %s",
  907. m?m:"<unknown error>");
  908. return -1;
  909. } else {
  910. /* If the descriptor was outdated, that's ok. This can happen
  911. * when some config options are toggled that affect workers, but
  912. * we don't really need new keys yet so the descriptor doesn't
  913. * change and the old one is still fresh. */
  914. log_info(LD_GENERAL, "Couldn't add own descriptor to directory "
  915. "after key init: %s This is usually not a problem.",
  916. m?m:"<unknown error>");
  917. }
  918. }
  919. }
  920. }
  921. /* 5. Dump fingerprint and possibly hashed fingerprint to files. */
  922. if (router_write_fingerprint(0)) {
  923. log_err(LD_FS, "Error writing fingerprint to file");
  924. return -1;
  925. }
  926. if (!public_server_mode(options) && router_write_fingerprint(1)) {
  927. log_err(LD_FS, "Error writing hashed fingerprint to file");
  928. return -1;
  929. }
  930. if (!authdir_mode(options))
  931. return 0;
  932. /* 6. [authdirserver only] load approved-routers file */
  933. if (dirserv_load_fingerprint_file() < 0) {
  934. log_err(LD_GENERAL,"Error loading fingerprints");
  935. return -1;
  936. }
  937. /* 6b. [authdirserver only] add own key to approved directories. */
  938. crypto_pk_get_digest(get_server_identity_key(), digest);
  939. type = ((options->V3AuthoritativeDir ?
  940. (V3_DIRINFO|MICRODESC_DIRINFO|EXTRAINFO_DIRINFO) : NO_DIRINFO) |
  941. (options->BridgeAuthoritativeDir ? BRIDGE_DIRINFO : NO_DIRINFO));
  942. ds = router_get_trusteddirserver_by_digest(digest);
  943. if (!ds) {
  944. ds = trusted_dir_server_new(options->Nickname, NULL,
  945. router_get_advertised_dir_port(options, 0),
  946. router_get_advertised_or_port(options),
  947. NULL,
  948. digest,
  949. v3_digest,
  950. type, 0.0);
  951. if (!ds) {
  952. log_err(LD_GENERAL,"We want to be a directory authority, but we "
  953. "couldn't add ourselves to the authority list. Failing.");
  954. return -1;
  955. }
  956. dir_server_add(ds);
  957. }
  958. if (ds->type != type) {
  959. log_warn(LD_DIR, "Configured authority type does not match authority "
  960. "type in DirAuthority list. Adjusting. (%d v %d)",
  961. type, ds->type);
  962. ds->type = type;
  963. }
  964. if (v3_digest_set && (ds->type & V3_DIRINFO) &&
  965. tor_memneq(v3_digest, ds->v3_identity_digest, DIGEST_LEN)) {
  966. log_warn(LD_DIR, "V3 identity key does not match identity declared in "
  967. "DirAuthority line. Adjusting.");
  968. memcpy(ds->v3_identity_digest, v3_digest, DIGEST_LEN);
  969. }
  970. if (cert) { /* add my own cert to the list of known certs */
  971. log_info(LD_DIR, "adding my own v3 cert");
  972. if (trusted_dirs_load_certs_from_string(
  973. cert->cache_info.signed_descriptor_body,
  974. TRUSTED_DIRS_CERTS_SRC_SELF, 0,
  975. NULL)<0) {
  976. log_warn(LD_DIR, "Unable to parse my own v3 cert! Failing.");
  977. return -1;
  978. }
  979. }
  980. return 0; /* success */
  981. }
  982. /* Keep track of whether we should upload our server descriptor,
  983. * and what type of server we are.
  984. */
  985. /** Whether we can reach our ORPort from the outside. */
  986. static int can_reach_or_port = 0;
  987. /** Whether we can reach our DirPort from the outside. */
  988. static int can_reach_dir_port = 0;
  989. /** Forget what we have learned about our reachability status. */
  990. void
  991. router_reset_reachability(void)
  992. {
  993. can_reach_or_port = can_reach_dir_port = 0;
  994. }
  995. /** Return 1 if we won't do reachability checks, because:
  996. * - AssumeReachable is set, or
  997. * - the network is disabled.
  998. * Otherwise, return 0.
  999. */
  1000. static int
  1001. router_reachability_checks_disabled(const or_options_t *options)
  1002. {
  1003. return options->AssumeReachable ||
  1004. net_is_disabled();
  1005. }
  1006. /** Return 0 if we need to do an ORPort reachability check, because:
  1007. * - no reachability check has been done yet, or
  1008. * - we've initiated reachability checks, but none have succeeded.
  1009. * Return 1 if we don't need to do an ORPort reachability check, because:
  1010. * - we've seen a successful reachability check, or
  1011. * - AssumeReachable is set, or
  1012. * - the network is disabled.
  1013. */
  1014. int
  1015. check_whether_orport_reachable(const or_options_t *options)
  1016. {
  1017. int reach_checks_disabled = router_reachability_checks_disabled(options);
  1018. return reach_checks_disabled ||
  1019. can_reach_or_port;
  1020. }
  1021. /** Return 0 if we need to do a DirPort reachability check, because:
  1022. * - no reachability check has been done yet, or
  1023. * - we've initiated reachability checks, but none have succeeded.
  1024. * Return 1 if we don't need to do a DirPort reachability check, because:
  1025. * - we've seen a successful reachability check, or
  1026. * - there is no DirPort set, or
  1027. * - AssumeReachable is set, or
  1028. * - the network is disabled.
  1029. */
  1030. int
  1031. check_whether_dirport_reachable(const or_options_t *options)
  1032. {
  1033. int reach_checks_disabled = router_reachability_checks_disabled(options) ||
  1034. !options->DirPort_set;
  1035. return reach_checks_disabled ||
  1036. can_reach_dir_port;
  1037. }
  1038. /** The lower threshold of remaining bandwidth required to advertise (or
  1039. * automatically provide) directory services */
  1040. /* XXX Should this be increased? */
  1041. #define MIN_BW_TO_ADVERTISE_DIRSERVER 51200
  1042. /** Return true iff we have enough configured bandwidth to cache directory
  1043. * information. */
  1044. static int
  1045. router_has_bandwidth_to_be_dirserver(const or_options_t *options)
  1046. {
  1047. if (options->BandwidthRate < MIN_BW_TO_ADVERTISE_DIRSERVER) {
  1048. return 0;
  1049. }
  1050. if (options->RelayBandwidthRate > 0 &&
  1051. options->RelayBandwidthRate < MIN_BW_TO_ADVERTISE_DIRSERVER) {
  1052. return 0;
  1053. }
  1054. return 1;
  1055. }
  1056. /** Helper: Return 1 if we have sufficient resources for serving directory
  1057. * requests, return 0 otherwise.
  1058. * dir_port is either 0 or the configured DirPort number.
  1059. * If AccountingMax is set less than our advertised bandwidth, then don't
  1060. * serve requests. Likewise, if our advertised bandwidth is less than
  1061. * MIN_BW_TO_ADVERTISE_DIRSERVER, don't bother trying to serve requests.
  1062. */
  1063. static int
  1064. router_should_be_directory_server(const or_options_t *options, int dir_port)
  1065. {
  1066. static int advertising=1; /* start out assuming we will advertise */
  1067. int new_choice=1;
  1068. const char *reason = NULL;
  1069. if (accounting_is_enabled(options) &&
  1070. get_options()->AccountingRule != ACCT_IN) {
  1071. /* Don't spend bytes for directory traffic if we could end up hibernating,
  1072. * but allow DirPort otherwise. Some people set AccountingMax because
  1073. * they're confused or to get statistics. Directory traffic has a much
  1074. * larger effect on output than input so there is no reason to turn it
  1075. * off if using AccountingRule in. */
  1076. int interval_length = accounting_get_interval_length();
  1077. uint32_t effective_bw = get_effective_bwrate(options);
  1078. uint64_t acc_bytes;
  1079. if (!interval_length) {
  1080. log_warn(LD_BUG, "An accounting interval is not allowed to be zero "
  1081. "seconds long. Raising to 1.");
  1082. interval_length = 1;
  1083. }
  1084. log_info(LD_GENERAL, "Calculating whether to advertise %s: effective "
  1085. "bwrate: %u, AccountingMax: "U64_FORMAT", "
  1086. "accounting interval length %d",
  1087. dir_port ? "dirport" : "begindir",
  1088. effective_bw, U64_PRINTF_ARG(options->AccountingMax),
  1089. interval_length);
  1090. acc_bytes = options->AccountingMax;
  1091. if (get_options()->AccountingRule == ACCT_SUM)
  1092. acc_bytes /= 2;
  1093. if (effective_bw >=
  1094. acc_bytes / interval_length) {
  1095. new_choice = 0;
  1096. reason = "AccountingMax enabled";
  1097. }
  1098. } else if (! router_has_bandwidth_to_be_dirserver(options)) {
  1099. /* if we're advertising a small amount */
  1100. new_choice = 0;
  1101. reason = "BandwidthRate under 50KB";
  1102. }
  1103. if (advertising != new_choice) {
  1104. if (new_choice == 1) {
  1105. if (dir_port > 0)
  1106. log_notice(LD_DIR, "Advertising DirPort as %d", dir_port);
  1107. else
  1108. log_notice(LD_DIR, "Advertising directory service support");
  1109. } else {
  1110. tor_assert(reason);
  1111. log_notice(LD_DIR, "Not advertising Dir%s (Reason: %s)",
  1112. dir_port ? "Port" : "ectory Service support", reason);
  1113. }
  1114. advertising = new_choice;
  1115. }
  1116. return advertising;
  1117. }
  1118. /** Return 1 if we are configured to accept either relay or directory requests
  1119. * from clients and we aren't at risk of exceeding our bandwidth limits, thus
  1120. * we should be a directory server. If not, return 0.
  1121. */
  1122. int
  1123. dir_server_mode(const or_options_t *options)
  1124. {
  1125. if (!options->DirCache)
  1126. return 0;
  1127. return options->DirPort_set ||
  1128. (server_mode(options) && router_has_bandwidth_to_be_dirserver(options));
  1129. }
  1130. /** Look at a variety of factors, and return 0 if we don't want to
  1131. * advertise the fact that we have a DirPort open or begindir support, else
  1132. * return 1.
  1133. *
  1134. * Where dir_port or supports_tunnelled_dir_requests are not relevant, they
  1135. * must be 0.
  1136. *
  1137. * Log a helpful message if we change our mind about whether to publish.
  1138. */
  1139. static int
  1140. decide_to_advertise_dir_impl(const or_options_t *options,
  1141. uint16_t dir_port,
  1142. int supports_tunnelled_dir_requests)
  1143. {
  1144. /* Part one: reasons to publish or not publish that aren't
  1145. * worth mentioning to the user, either because they're obvious
  1146. * or because they're normal behavior. */
  1147. /* short circuit the rest of the function */
  1148. if (!dir_port && !supports_tunnelled_dir_requests)
  1149. return 0;
  1150. if (authdir_mode(options)) /* always publish */
  1151. return 1;
  1152. if (net_is_disabled())
  1153. return 0;
  1154. if (dir_port && !router_get_advertised_dir_port(options, dir_port))
  1155. return 0;
  1156. if (supports_tunnelled_dir_requests &&
  1157. !router_get_advertised_or_port(options))
  1158. return 0;
  1159. /* Part two: consider config options that could make us choose to
  1160. * publish or not publish that the user might find surprising. */
  1161. return router_should_be_directory_server(options, dir_port);
  1162. }
  1163. /** Front-end to decide_to_advertise_dir_impl(): return 0 if we don't want to
  1164. * advertise the fact that we have a DirPort open, else return the
  1165. * DirPort we want to advertise.
  1166. */
  1167. static int
  1168. decide_to_advertise_dirport(const or_options_t *options, uint16_t dir_port)
  1169. {
  1170. /* supports_tunnelled_dir_requests is not relevant, pass 0 */
  1171. return decide_to_advertise_dir_impl(options, dir_port, 0) ? dir_port : 0;
  1172. }
  1173. /** Front-end to decide_to_advertise_dir_impl(): return 0 if we don't want to
  1174. * advertise the fact that we support begindir requests, else return 1.
  1175. */
  1176. static int
  1177. decide_to_advertise_begindir(const or_options_t *options,
  1178. int supports_tunnelled_dir_requests)
  1179. {
  1180. /* dir_port is not relevant, pass 0 */
  1181. return decide_to_advertise_dir_impl(options, 0,
  1182. supports_tunnelled_dir_requests);
  1183. }
  1184. /** Allocate and return a new extend_info_t that can be used to build
  1185. * a circuit to or through the router <b>r</b>. Uses the primary
  1186. * address of the router, so should only be called on a server. */
  1187. static extend_info_t *
  1188. extend_info_from_router(const routerinfo_t *r)
  1189. {
  1190. tor_addr_port_t ap;
  1191. tor_assert(r);
  1192. /* Make sure we don't need to check address reachability */
  1193. tor_assert_nonfatal(router_skip_or_reachability(get_options(), 0));
  1194. router_get_prim_orport(r, &ap);
  1195. return extend_info_new(r->nickname, r->cache_info.identity_digest,
  1196. r->onion_pkey, r->onion_curve25519_pkey,
  1197. &ap.addr, ap.port);
  1198. }
  1199. /** Some time has passed, or we just got new directory information.
  1200. * See if we currently believe our ORPort or DirPort to be
  1201. * unreachable. If so, launch a new test for it.
  1202. *
  1203. * For ORPort, we simply try making a circuit that ends at ourselves.
  1204. * Success is noticed in onionskin_answer().
  1205. *
  1206. * For DirPort, we make a connection via Tor to our DirPort and ask
  1207. * for our own server descriptor.
  1208. * Success is noticed in connection_dir_client_reached_eof().
  1209. */
  1210. void
  1211. consider_testing_reachability(int test_or, int test_dir)
  1212. {
  1213. const routerinfo_t *me = router_get_my_routerinfo();
  1214. const or_options_t *options = get_options();
  1215. int orport_reachable = check_whether_orport_reachable(options);
  1216. tor_addr_t addr;
  1217. if (!me)
  1218. return;
  1219. if (routerset_contains_router(options->ExcludeNodes, me, -1) &&
  1220. options->StrictNodes) {
  1221. /* If we've excluded ourself, and StrictNodes is set, we can't test
  1222. * ourself. */
  1223. if (test_or || test_dir) {
  1224. #define SELF_EXCLUDED_WARN_INTERVAL 3600
  1225. static ratelim_t warning_limit=RATELIM_INIT(SELF_EXCLUDED_WARN_INTERVAL);
  1226. log_fn_ratelim(&warning_limit, LOG_WARN, LD_CIRC,
  1227. "Can't peform self-tests for this relay: we have "
  1228. "listed ourself in ExcludeNodes, and StrictNodes is set. "
  1229. "We cannot learn whether we are usable, and will not "
  1230. "be able to advertise ourself.");
  1231. }
  1232. return;
  1233. }
  1234. if (test_or && (!orport_reachable || !circuit_enough_testing_circs())) {
  1235. extend_info_t *ei = extend_info_from_router(me);
  1236. /* XXX IPv6 self testing */
  1237. log_info(LD_CIRC, "Testing %s of my ORPort: %s:%d.",
  1238. !orport_reachable ? "reachability" : "bandwidth",
  1239. fmt_addr32(me->addr), me->or_port);
  1240. circuit_launch_by_extend_info(CIRCUIT_PURPOSE_TESTING, ei,
  1241. CIRCLAUNCH_NEED_CAPACITY|CIRCLAUNCH_IS_INTERNAL);
  1242. extend_info_free(ei);
  1243. }
  1244. /* XXX IPv6 self testing */
  1245. tor_addr_from_ipv4h(&addr, me->addr);
  1246. if (test_dir && !check_whether_dirport_reachable(options) &&
  1247. !connection_get_by_type_addr_port_purpose(
  1248. CONN_TYPE_DIR, &addr, me->dir_port,
  1249. DIR_PURPOSE_FETCH_SERVERDESC)) {
  1250. /* ask myself, via tor, for my server descriptor. */
  1251. directory_initiate_command(&addr, me->or_port,
  1252. &addr, me->dir_port,
  1253. me->cache_info.identity_digest,
  1254. DIR_PURPOSE_FETCH_SERVERDESC,
  1255. ROUTER_PURPOSE_GENERAL,
  1256. DIRIND_ANON_DIRPORT, "authority.z", NULL, 0, 0);
  1257. }
  1258. }
  1259. /** Annotate that we found our ORPort reachable. */
  1260. void
  1261. router_orport_found_reachable(void)
  1262. {
  1263. const routerinfo_t *me = router_get_my_routerinfo();
  1264. const or_options_t *options = get_options();
  1265. if (!can_reach_or_port && me) {
  1266. char *address = tor_dup_ip(me->addr);
  1267. log_notice(LD_OR,"Self-testing indicates your ORPort is reachable from "
  1268. "the outside. Excellent.%s",
  1269. options->PublishServerDescriptor_ != NO_DIRINFO
  1270. && check_whether_dirport_reachable(options) ?
  1271. " Publishing server descriptor." : "");
  1272. can_reach_or_port = 1;
  1273. mark_my_descriptor_dirty("ORPort found reachable");
  1274. /* This is a significant enough change to upload immediately,
  1275. * at least in a test network */
  1276. if (options->TestingTorNetwork == 1) {
  1277. reschedule_descriptor_update_check();
  1278. }
  1279. control_event_server_status(LOG_NOTICE,
  1280. "REACHABILITY_SUCCEEDED ORADDRESS=%s:%d",
  1281. address, me->or_port);
  1282. tor_free(address);
  1283. }
  1284. }
  1285. /** Annotate that we found our DirPort reachable. */
  1286. void
  1287. router_dirport_found_reachable(void)
  1288. {
  1289. const routerinfo_t *me = router_get_my_routerinfo();
  1290. const or_options_t *options = get_options();
  1291. if (!can_reach_dir_port && me) {
  1292. char *address = tor_dup_ip(me->addr);
  1293. log_notice(LD_DIRSERV,"Self-testing indicates your DirPort is reachable "
  1294. "from the outside. Excellent.%s",
  1295. options->PublishServerDescriptor_ != NO_DIRINFO
  1296. && check_whether_orport_reachable(options) ?
  1297. " Publishing server descriptor." : "");
  1298. can_reach_dir_port = 1;
  1299. if (decide_to_advertise_dirport(options, me->dir_port)) {
  1300. mark_my_descriptor_dirty("DirPort found reachable");
  1301. /* This is a significant enough change to upload immediately,
  1302. * at least in a test network */
  1303. if (options->TestingTorNetwork == 1) {
  1304. reschedule_descriptor_update_check();
  1305. }
  1306. }
  1307. control_event_server_status(LOG_NOTICE,
  1308. "REACHABILITY_SUCCEEDED DIRADDRESS=%s:%d",
  1309. address, me->dir_port);
  1310. tor_free(address);
  1311. }
  1312. }
  1313. /** We have enough testing circuits open. Send a bunch of "drop"
  1314. * cells down each of them, to exercise our bandwidth. */
  1315. void
  1316. router_perform_bandwidth_test(int num_circs, time_t now)
  1317. {
  1318. int num_cells = (int)(get_options()->BandwidthRate * 10 /
  1319. CELL_MAX_NETWORK_SIZE);
  1320. int max_cells = num_cells < CIRCWINDOW_START ?
  1321. num_cells : CIRCWINDOW_START;
  1322. int cells_per_circuit = max_cells / num_circs;
  1323. origin_circuit_t *circ = NULL;
  1324. log_notice(LD_OR,"Performing bandwidth self-test...done.");
  1325. while ((circ = circuit_get_next_by_pk_and_purpose(circ, NULL,
  1326. CIRCUIT_PURPOSE_TESTING))) {
  1327. /* dump cells_per_circuit drop cells onto this circ */
  1328. int i = cells_per_circuit;
  1329. if (circ->base_.state != CIRCUIT_STATE_OPEN)
  1330. continue;
  1331. circ->base_.timestamp_dirty = now;
  1332. while (i-- > 0) {
  1333. if (relay_send_command_from_edge(0, TO_CIRCUIT(circ),
  1334. RELAY_COMMAND_DROP,
  1335. NULL, 0, circ->cpath->prev)<0) {
  1336. return; /* stop if error */
  1337. }
  1338. }
  1339. }
  1340. }
  1341. /** Return true iff our network is in some sense disabled: either we're
  1342. * hibernating, entering hibernation, or the network is turned off with
  1343. * DisableNetwork. */
  1344. int
  1345. net_is_disabled(void)
  1346. {
  1347. return get_options()->DisableNetwork || we_are_hibernating();
  1348. }
  1349. /** Return true iff we believe ourselves to be an authoritative
  1350. * directory server.
  1351. */
  1352. int
  1353. authdir_mode(const or_options_t *options)
  1354. {
  1355. return options->AuthoritativeDir != 0;
  1356. }
  1357. /** Return true iff we believe ourselves to be a v3 authoritative
  1358. * directory server.
  1359. */
  1360. int
  1361. authdir_mode_v3(const or_options_t *options)
  1362. {
  1363. return authdir_mode(options) && options->V3AuthoritativeDir != 0;
  1364. }
  1365. /** Return true iff we are a v3 directory authority. */
  1366. int
  1367. authdir_mode_any_main(const or_options_t *options)
  1368. {
  1369. return options->V3AuthoritativeDir;
  1370. }
  1371. /** Return true if we believe ourselves to be any kind of
  1372. * authoritative directory beyond just a hidserv authority. */
  1373. int
  1374. authdir_mode_any_nonhidserv(const or_options_t *options)
  1375. {
  1376. return options->BridgeAuthoritativeDir ||
  1377. authdir_mode_any_main(options);
  1378. }
  1379. /** Return true iff we are an authoritative directory server that is
  1380. * authoritative about receiving and serving descriptors of type
  1381. * <b>purpose</b> on its dirport. Use -1 for "any purpose". */
  1382. int
  1383. authdir_mode_handles_descs(const or_options_t *options, int purpose)
  1384. {
  1385. if (purpose < 0)
  1386. return authdir_mode_any_nonhidserv(options);
  1387. else if (purpose == ROUTER_PURPOSE_GENERAL)
  1388. return authdir_mode_any_main(options);
  1389. else if (purpose == ROUTER_PURPOSE_BRIDGE)
  1390. return (options->BridgeAuthoritativeDir);
  1391. else
  1392. return 0;
  1393. }
  1394. /** Return true iff we are an authoritative directory server that
  1395. * publishes its own network statuses.
  1396. */
  1397. int
  1398. authdir_mode_publishes_statuses(const or_options_t *options)
  1399. {
  1400. if (authdir_mode_bridge(options))
  1401. return 0;
  1402. return authdir_mode_any_nonhidserv(options);
  1403. }
  1404. /** Return true iff we are an authoritative directory server that
  1405. * tests reachability of the descriptors it learns about.
  1406. */
  1407. int
  1408. authdir_mode_tests_reachability(const or_options_t *options)
  1409. {
  1410. return authdir_mode_handles_descs(options, -1);
  1411. }
  1412. /** Return true iff we believe ourselves to be a bridge authoritative
  1413. * directory server.
  1414. */
  1415. int
  1416. authdir_mode_bridge(const or_options_t *options)
  1417. {
  1418. return authdir_mode(options) && options->BridgeAuthoritativeDir != 0;
  1419. }
  1420. /** Return true iff we are trying to be a server.
  1421. */
  1422. MOCK_IMPL(int,
  1423. server_mode,(const or_options_t *options))
  1424. {
  1425. if (options->ClientOnly) return 0;
  1426. /* XXXX I believe we can kill off ORListenAddress here.*/
  1427. return (options->ORPort_set || options->ORListenAddress);
  1428. }
  1429. /** Return true iff we are trying to be a non-bridge server.
  1430. */
  1431. MOCK_IMPL(int,
  1432. public_server_mode,(const or_options_t *options))
  1433. {
  1434. if (!server_mode(options)) return 0;
  1435. return (!options->BridgeRelay);
  1436. }
  1437. /** Return true iff the combination of options in <b>options</b> and parameters
  1438. * in the consensus mean that we don't want to allow exits from circuits
  1439. * we got from addresses not known to be servers. */
  1440. int
  1441. should_refuse_unknown_exits(const or_options_t *options)
  1442. {
  1443. if (options->RefuseUnknownExits != -1) {
  1444. return options->RefuseUnknownExits;
  1445. } else {
  1446. return networkstatus_get_param(NULL, "refuseunknownexits", 1, 0, 1);
  1447. }
  1448. }
  1449. /** Remember if we've advertised ourselves to the dirservers. */
  1450. static int server_is_advertised=0;
  1451. /** Return true iff we have published our descriptor lately.
  1452. */
  1453. MOCK_IMPL(int,
  1454. advertised_server_mode,(void))
  1455. {
  1456. return server_is_advertised;
  1457. }
  1458. /**
  1459. * Called with a boolean: set whether we have recently published our
  1460. * descriptor.
  1461. */
  1462. static void
  1463. set_server_advertised(int s)
  1464. {
  1465. server_is_advertised = s;
  1466. }
  1467. /** Return true iff we are trying to proxy client connections. */
  1468. int
  1469. proxy_mode(const or_options_t *options)
  1470. {
  1471. (void)options;
  1472. SMARTLIST_FOREACH_BEGIN(get_configured_ports(), const port_cfg_t *, p) {
  1473. if (p->type == CONN_TYPE_AP_LISTENER ||
  1474. p->type == CONN_TYPE_AP_TRANS_LISTENER ||
  1475. p->type == CONN_TYPE_AP_DNS_LISTENER ||
  1476. p->type == CONN_TYPE_AP_NATD_LISTENER)
  1477. return 1;
  1478. } SMARTLIST_FOREACH_END(p);
  1479. return 0;
  1480. }
  1481. /** Decide if we're a publishable server. We are a publishable server if:
  1482. * - We don't have the ClientOnly option set
  1483. * and
  1484. * - We have the PublishServerDescriptor option set to non-empty
  1485. * and
  1486. * - We have ORPort set
  1487. * and
  1488. * - We believe our ORPort and DirPort (if present) are reachable from
  1489. * the outside; or
  1490. * - We believe our ORPort is reachable from the outside, and we can't
  1491. * check our DirPort because the consensus has no exits; or
  1492. * - We are an authoritative directory server.
  1493. */
  1494. static int
  1495. decide_if_publishable_server(void)
  1496. {
  1497. const or_options_t *options = get_options();
  1498. if (options->ClientOnly)
  1499. return 0;
  1500. if (options->PublishServerDescriptor_ == NO_DIRINFO)
  1501. return 0;
  1502. if (!server_mode(options))
  1503. return 0;
  1504. if (authdir_mode(options))
  1505. return 1;
  1506. if (!router_get_advertised_or_port(options))
  1507. return 0;
  1508. if (!check_whether_orport_reachable(options))
  1509. return 0;
  1510. if (router_have_consensus_path() == CONSENSUS_PATH_INTERNAL) {
  1511. /* All set: there are no exits in the consensus (maybe this is a tiny
  1512. * test network), so we can't check our DirPort reachability. */
  1513. return 1;
  1514. } else {
  1515. return check_whether_dirport_reachable(options);
  1516. }
  1517. }
  1518. /** Initiate server descriptor upload as reasonable (if server is publishable,
  1519. * etc). <b>force</b> is as for router_upload_dir_desc_to_dirservers.
  1520. *
  1521. * We need to rebuild the descriptor if it's dirty even if we're not
  1522. * uploading, because our reachability testing *uses* our descriptor to
  1523. * determine what IP address and ports to test.
  1524. */
  1525. void
  1526. consider_publishable_server(int force)
  1527. {
  1528. int rebuilt;
  1529. if (!server_mode(get_options()))
  1530. return;
  1531. rebuilt = router_rebuild_descriptor(0);
  1532. if (decide_if_publishable_server()) {
  1533. set_server_advertised(1);
  1534. if (rebuilt == 0)
  1535. router_upload_dir_desc_to_dirservers(force);
  1536. } else {
  1537. set_server_advertised(0);
  1538. }
  1539. }
  1540. /** Return the port of the first active listener of type
  1541. * <b>listener_type</b>. */
  1542. /** XXX not a very good interface. it's not reliable when there are
  1543. multiple listeners. */
  1544. uint16_t
  1545. router_get_active_listener_port_by_type_af(int listener_type,
  1546. sa_family_t family)
  1547. {
  1548. /* Iterate all connections, find one of the right kind and return
  1549. the port. Not very sophisticated or fast, but effective. */
  1550. smartlist_t *conns = get_connection_array();
  1551. SMARTLIST_FOREACH_BEGIN(conns, connection_t *, conn) {
  1552. if (conn->type == listener_type && !conn->marked_for_close &&
  1553. conn->socket_family == family) {
  1554. return conn->port;
  1555. }
  1556. } SMARTLIST_FOREACH_END(conn);
  1557. return 0;
  1558. }
  1559. /** Return the port that we should advertise as our ORPort; this is either
  1560. * the one configured in the ORPort option, or the one we actually bound to
  1561. * if ORPort is "auto".
  1562. */
  1563. uint16_t
  1564. router_get_advertised_or_port(const or_options_t *options)
  1565. {
  1566. return router_get_advertised_or_port_by_af(options, AF_INET);
  1567. }
  1568. /** As router_get_advertised_or_port(), but allows an address family argument.
  1569. */
  1570. uint16_t
  1571. router_get_advertised_or_port_by_af(const or_options_t *options,
  1572. sa_family_t family)
  1573. {
  1574. int port = get_first_advertised_port_by_type_af(CONN_TYPE_OR_LISTENER,
  1575. family);
  1576. (void)options;
  1577. /* If the port is in 'auto' mode, we have to use
  1578. router_get_listener_port_by_type(). */
  1579. if (port == CFG_AUTO_PORT)
  1580. return router_get_active_listener_port_by_type_af(CONN_TYPE_OR_LISTENER,
  1581. family);
  1582. return port;
  1583. }
  1584. /** Return the port that we should advertise as our DirPort;
  1585. * this is one of three possibilities:
  1586. * The one that is passed as <b>dirport</b> if the DirPort option is 0, or
  1587. * the one configured in the DirPort option,
  1588. * or the one we actually bound to if DirPort is "auto". */
  1589. uint16_t
  1590. router_get_advertised_dir_port(const or_options_t *options, uint16_t dirport)
  1591. {
  1592. int dirport_configured = get_primary_dir_port();
  1593. (void)options;
  1594. if (!dirport_configured)
  1595. return dirport;
  1596. if (dirport_configured == CFG_AUTO_PORT)
  1597. return router_get_active_listener_port_by_type_af(CONN_TYPE_DIR_LISTENER,
  1598. AF_INET);
  1599. return dirport_configured;
  1600. }
  1601. /*
  1602. * OR descriptor generation.
  1603. */
  1604. /** My routerinfo. */
  1605. static routerinfo_t *desc_routerinfo = NULL;
  1606. /** My extrainfo */
  1607. static extrainfo_t *desc_extrainfo = NULL;
  1608. /** Why did we most recently decide to regenerate our descriptor? Used to
  1609. * tell the authorities why we're sending it to them. */
  1610. static const char *desc_gen_reason = NULL;
  1611. /** Since when has our descriptor been "clean"? 0 if we need to regenerate it
  1612. * now. */
  1613. static time_t desc_clean_since = 0;
  1614. /** Why did we mark the descriptor dirty? */
  1615. static const char *desc_dirty_reason = NULL;
  1616. /** Boolean: do we need to regenerate the above? */
  1617. static int desc_needs_upload = 0;
  1618. /** OR only: If <b>force</b> is true, or we haven't uploaded this
  1619. * descriptor successfully yet, try to upload our signed descriptor to
  1620. * all the directory servers we know about.
  1621. */
  1622. void
  1623. router_upload_dir_desc_to_dirservers(int force)
  1624. {
  1625. const routerinfo_t *ri;
  1626. extrainfo_t *ei;
  1627. char *msg;
  1628. size_t desc_len, extra_len = 0, total_len;
  1629. dirinfo_type_t auth = get_options()->PublishServerDescriptor_;
  1630. ri = router_get_my_routerinfo();
  1631. if (!ri) {
  1632. log_info(LD_GENERAL, "No descriptor; skipping upload");
  1633. return;
  1634. }
  1635. ei = router_get_my_extrainfo();
  1636. if (auth == NO_DIRINFO)
  1637. return;
  1638. if (!force && !desc_needs_upload)
  1639. return;
  1640. log_info(LD_OR, "Uploading relay descriptor to directory authorities%s",
  1641. force ? " (forced)" : "");
  1642. desc_needs_upload = 0;
  1643. desc_len = ri->cache_info.signed_descriptor_len;
  1644. extra_len = ei ? ei->cache_info.signed_descriptor_len : 0;
  1645. total_len = desc_len + extra_len + 1;
  1646. msg = tor_malloc(total_len);
  1647. memcpy(msg, ri->cache_info.signed_descriptor_body, desc_len);
  1648. if (ei) {
  1649. memcpy(msg+desc_len, ei->cache_info.signed_descriptor_body, extra_len);
  1650. }
  1651. msg[desc_len+extra_len] = 0;
  1652. directory_post_to_dirservers(DIR_PURPOSE_UPLOAD_DIR,
  1653. (auth & BRIDGE_DIRINFO) ?
  1654. ROUTER_PURPOSE_BRIDGE :
  1655. ROUTER_PURPOSE_GENERAL,
  1656. auth, msg, desc_len, extra_len);
  1657. tor_free(msg);
  1658. }
  1659. /** OR only: Check whether my exit policy says to allow connection to
  1660. * conn. Return 0 if we accept; non-0 if we reject.
  1661. */
  1662. int
  1663. router_compare_to_my_exit_policy(const tor_addr_t *addr, uint16_t port)
  1664. {
  1665. const routerinfo_t *me = router_get_my_routerinfo();
  1666. if (!me) /* make sure routerinfo exists */
  1667. return -1;
  1668. /* make sure it's resolved to something. this way we can't get a
  1669. 'maybe' below. */
  1670. if (tor_addr_is_null(addr))
  1671. return -1;
  1672. /* look at router_get_my_routerinfo()->exit_policy for both the v4 and the
  1673. * v6 policies. The exit_policy field in router_get_my_routerinfo() is a
  1674. * bit unusual, in that it contains IPv6 and IPv6 entries. We don't want to
  1675. * look at router_get_my_routerinfo()->ipv6_exit_policy, since that's a port
  1676. * summary. */
  1677. if ((tor_addr_family(addr) == AF_INET ||
  1678. tor_addr_family(addr) == AF_INET6)) {
  1679. return compare_tor_addr_to_addr_policy(addr, port,
  1680. me->exit_policy) != ADDR_POLICY_ACCEPTED;
  1681. #if 0
  1682. } else if (tor_addr_family(addr) == AF_INET6) {
  1683. return get_options()->IPv6Exit &&
  1684. desc_routerinfo->ipv6_exit_policy &&
  1685. compare_tor_addr_to_short_policy(addr, port,
  1686. me->ipv6_exit_policy) != ADDR_POLICY_ACCEPTED;
  1687. #endif
  1688. } else {
  1689. return -1;
  1690. }
  1691. }
  1692. /** Return true iff my exit policy is reject *:*. Return -1 if we don't
  1693. * have a descriptor */
  1694. MOCK_IMPL(int,
  1695. router_my_exit_policy_is_reject_star,(void))
  1696. {
  1697. if (!router_get_my_routerinfo()) /* make sure routerinfo exists */
  1698. return -1;
  1699. return router_get_my_routerinfo()->policy_is_reject_star;
  1700. }
  1701. /** Return true iff I'm a server and <b>digest</b> is equal to
  1702. * my server identity key digest. */
  1703. int
  1704. router_digest_is_me(const char *digest)
  1705. {
  1706. return (server_identitykey &&
  1707. tor_memeq(server_identitykey_digest, digest, DIGEST_LEN));
  1708. }
  1709. /** Return my identity digest. */
  1710. const uint8_t *
  1711. router_get_my_id_digest(void)
  1712. {
  1713. return (const uint8_t *)server_identitykey_digest;
  1714. }
  1715. /** Return true iff I'm a server and <b>digest</b> is equal to
  1716. * my identity digest. */
  1717. int
  1718. router_extrainfo_digest_is_me(const char *digest)
  1719. {
  1720. extrainfo_t *ei = router_get_my_extrainfo();
  1721. if (!ei)
  1722. return 0;
  1723. return tor_memeq(digest,
  1724. ei->cache_info.signed_descriptor_digest,
  1725. DIGEST_LEN);
  1726. }
  1727. /** A wrapper around router_digest_is_me(). */
  1728. int
  1729. router_is_me(const routerinfo_t *router)
  1730. {
  1731. return router_digest_is_me(router->cache_info.identity_digest);
  1732. }
  1733. /** Return a routerinfo for this OR, rebuilding a fresh one if
  1734. * necessary. Return NULL on error, or if called on an OP. */
  1735. MOCK_IMPL(const routerinfo_t *,
  1736. router_get_my_routerinfo,(void))
  1737. {
  1738. if (!server_mode(get_options()))
  1739. return NULL;
  1740. if (router_rebuild_descriptor(0))
  1741. return NULL;
  1742. return desc_routerinfo;
  1743. }
  1744. /** OR only: Return a signed server descriptor for this OR, rebuilding a fresh
  1745. * one if necessary. Return NULL on error.
  1746. */
  1747. const char *
  1748. router_get_my_descriptor(void)
  1749. {
  1750. const char *body;
  1751. const routerinfo_t *me = router_get_my_routerinfo();
  1752. if (! me)
  1753. return NULL;
  1754. tor_assert(me->cache_info.saved_location == SAVED_NOWHERE);
  1755. body = signed_descriptor_get_body(&me->cache_info);
  1756. /* Make sure this is nul-terminated. */
  1757. tor_assert(!body[me->cache_info.signed_descriptor_len]);
  1758. log_debug(LD_GENERAL,"my desc is '%s'", body);
  1759. return body;
  1760. }
  1761. /** Return the extrainfo document for this OR, or NULL if we have none.
  1762. * Rebuilt it (and the server descriptor) if necessary. */
  1763. extrainfo_t *
  1764. router_get_my_extrainfo(void)
  1765. {
  1766. if (!server_mode(get_options()))
  1767. return NULL;
  1768. if (router_rebuild_descriptor(0))
  1769. return NULL;
  1770. return desc_extrainfo;
  1771. }
  1772. /** Return a human-readable string describing what triggered us to generate
  1773. * our current descriptor, or NULL if we don't know. */
  1774. const char *
  1775. router_get_descriptor_gen_reason(void)
  1776. {
  1777. return desc_gen_reason;
  1778. }
  1779. /** A list of nicknames that we've warned about including in our family
  1780. * declaration verbatim rather than as digests. */
  1781. static smartlist_t *warned_nonexistent_family = NULL;
  1782. static int router_guess_address_from_dir_headers(uint32_t *guess);
  1783. /** Make a current best guess at our address, either because
  1784. * it's configured in torrc, or because we've learned it from
  1785. * dirserver headers. Place the answer in *<b>addr</b> and return
  1786. * 0 on success, else return -1 if we have no guess. */
  1787. MOCK_IMPL(int,
  1788. router_pick_published_address,(const or_options_t *options, uint32_t *addr))
  1789. {
  1790. *addr = get_last_resolved_addr();
  1791. if (!*addr &&
  1792. resolve_my_address(LOG_INFO, options, addr, NULL, NULL) < 0) {
  1793. log_info(LD_CONFIG, "Could not determine our address locally. "
  1794. "Checking if directory headers provide any hints.");
  1795. if (router_guess_address_from_dir_headers(addr) < 0) {
  1796. log_info(LD_CONFIG, "No hints from directory headers either. "
  1797. "Will try again later.");
  1798. return -1;
  1799. }
  1800. }
  1801. log_info(LD_CONFIG,"Success: chose address '%s'.", fmt_addr32(*addr));
  1802. return 0;
  1803. }
  1804. /* Like router_check_descriptor_address_consistency, but specifically for the
  1805. * ORPort or DirPort.
  1806. * listener_type is either CONN_TYPE_OR_LISTENER or CONN_TYPE_DIR_LISTENER. */
  1807. static void
  1808. router_check_descriptor_address_port_consistency(uint32_t ipv4h_desc_addr,
  1809. int listener_type)
  1810. {
  1811. tor_assert(listener_type == CONN_TYPE_OR_LISTENER ||
  1812. listener_type == CONN_TYPE_DIR_LISTENER);
  1813. /* The first advertised Port may be the magic constant CFG_AUTO_PORT.
  1814. */
  1815. int port_v4_cfg = get_first_advertised_port_by_type_af(listener_type,
  1816. AF_INET);
  1817. if (port_v4_cfg != 0 &&
  1818. !port_exists_by_type_addr32h_port(listener_type,
  1819. ipv4h_desc_addr, port_v4_cfg, 1)) {
  1820. const tor_addr_t *port_addr = get_first_advertised_addr_by_type_af(
  1821. listener_type,
  1822. AF_INET);
  1823. /* If we're building a descriptor with no advertised address,
  1824. * something is terribly wrong. */
  1825. tor_assert(port_addr);
  1826. tor_addr_t desc_addr;
  1827. char port_addr_str[TOR_ADDR_BUF_LEN];
  1828. char desc_addr_str[TOR_ADDR_BUF_LEN];
  1829. tor_addr_to_str(port_addr_str, port_addr, TOR_ADDR_BUF_LEN, 0);
  1830. tor_addr_from_ipv4h(&desc_addr, ipv4h_desc_addr);
  1831. tor_addr_to_str(desc_addr_str, &desc_addr, TOR_ADDR_BUF_LEN, 0);
  1832. const char *listener_str = (listener_type == CONN_TYPE_OR_LISTENER ?
  1833. "OR" : "Dir");
  1834. log_warn(LD_CONFIG, "The IPv4 %sPort address %s does not match the "
  1835. "descriptor address %s. If you have a static public IPv4 "
  1836. "address, use 'Address <IPv4>' and 'OutboundBindAddress "
  1837. "<IPv4>'. If you are behind a NAT, use two %sPort lines: "
  1838. "'%sPort <PublicPort> NoListen' and '%sPort <InternalPort> "
  1839. "NoAdvertise'.",
  1840. listener_str, port_addr_str, desc_addr_str, listener_str,
  1841. listener_str, listener_str);
  1842. }
  1843. }
  1844. /* Tor relays only have one IPv4 address in the descriptor, which is derived
  1845. * from the Address torrc option, or guessed using various methods in
  1846. * router_pick_published_address().
  1847. * Warn the operator if there is no ORPort on the descriptor address
  1848. * ipv4h_desc_addr.
  1849. * Warn the operator if there is no DirPort on the descriptor address.
  1850. * This catches a few common config errors:
  1851. * - operators who expect ORPorts and DirPorts to be advertised on the
  1852. * ports' listen addresses, rather than the torrc Address (or guessed
  1853. * addresses in the absence of an Address config). This includes
  1854. * operators who attempt to put their ORPort and DirPort on different
  1855. * addresses;
  1856. * - discrepancies between guessed addresses and configured listen
  1857. * addresses (when the Address option isn't set).
  1858. * If a listener is listening on all IPv4 addresses, it is assumed that it
  1859. * is listening on the configured Address, and no messages are logged.
  1860. * If an operators has specified NoAdvertise ORPorts in a NAT setting,
  1861. * no messages are logged, unless they have specified other advertised
  1862. * addresses.
  1863. * The message tells operators to configure an ORPort and DirPort that match
  1864. * the Address (using NoListen if needed).
  1865. */
  1866. static void
  1867. router_check_descriptor_address_consistency(uint32_t ipv4h_desc_addr)
  1868. {
  1869. router_check_descriptor_address_port_consistency(ipv4h_desc_addr,
  1870. CONN_TYPE_OR_LISTENER);
  1871. router_check_descriptor_address_port_consistency(ipv4h_desc_addr,
  1872. CONN_TYPE_DIR_LISTENER);
  1873. }
  1874. /** Build a fresh routerinfo, signed server descriptor, and extra-info document
  1875. * for this OR. Set r to the generated routerinfo, e to the generated
  1876. * extra-info document. Return 0 on success, -1 on temporary error. Failure to
  1877. * generate an extra-info document is not an error and is indicated by setting
  1878. * e to NULL. Caller is responsible for freeing generated documents if 0 is
  1879. * returned.
  1880. */
  1881. int
  1882. router_build_fresh_descriptor(routerinfo_t **r, extrainfo_t **e)
  1883. {
  1884. routerinfo_t *ri;
  1885. extrainfo_t *ei;
  1886. uint32_t addr;
  1887. char platform[256];
  1888. int hibernating = we_are_hibernating();
  1889. const or_options_t *options = get_options();
  1890. if (router_pick_published_address(options, &addr) < 0) {
  1891. log_warn(LD_CONFIG, "Don't know my address while generating descriptor");
  1892. return -1;
  1893. }
  1894. /* Log a message if the address in the descriptor doesn't match the ORPort
  1895. * and DirPort addresses configured by the operator. */
  1896. router_check_descriptor_address_consistency(addr);
  1897. ri = tor_malloc_zero(sizeof(routerinfo_t));
  1898. ri->cache_info.routerlist_index = -1;
  1899. ri->nickname = tor_strdup(options->Nickname);
  1900. ri->addr = addr;
  1901. ri->or_port = router_get_advertised_or_port(options);
  1902. ri->dir_port = router_get_advertised_dir_port(options, 0);
  1903. ri->supports_tunnelled_dir_requests =
  1904. directory_permits_begindir_requests(options);
  1905. ri->cache_info.published_on = time(NULL);
  1906. ri->onion_pkey = crypto_pk_dup_key(get_onion_key()); /* must invoke from
  1907. * main thread */
  1908. ri->onion_curve25519_pkey =
  1909. tor_memdup(&get_current_curve25519_keypair()->pubkey,
  1910. sizeof(curve25519_public_key_t));
  1911. /* For now, at most one IPv6 or-address is being advertised. */
  1912. {
  1913. const port_cfg_t *ipv6_orport = NULL;
  1914. SMARTLIST_FOREACH_BEGIN(get_configured_ports(), const port_cfg_t *, p) {
  1915. if (p->type == CONN_TYPE_OR_LISTENER &&
  1916. ! p->server_cfg.no_advertise &&
  1917. ! p->server_cfg.bind_ipv4_only &&
  1918. tor_addr_family(&p->addr) == AF_INET6) {
  1919. /* Like IPv4, if the relay is configured using the default
  1920. * authorities, disallow internal IPs. Otherwise, allow them. */
  1921. const int default_auth = (!options->DirAuthorities &&
  1922. !options->AlternateDirAuthority);
  1923. if (! tor_addr_is_internal(&p->addr, 0) || ! default_auth) {
  1924. ipv6_orport = p;
  1925. break;
  1926. } else {
  1927. char addrbuf[TOR_ADDR_BUF_LEN];
  1928. log_warn(LD_CONFIG,
  1929. "Unable to use configured IPv6 address \"%s\" in a "
  1930. "descriptor. Skipping it. "
  1931. "Try specifying a globally reachable address explicitly.",
  1932. tor_addr_to_str(addrbuf, &p->addr, sizeof(addrbuf), 1));
  1933. }
  1934. }
  1935. } SMARTLIST_FOREACH_END(p);
  1936. if (ipv6_orport) {
  1937. tor_addr_copy(&ri->ipv6_addr, &ipv6_orport->addr);
  1938. ri->ipv6_orport = ipv6_orport->port;
  1939. }
  1940. }
  1941. ri->identity_pkey = crypto_pk_dup_key(get_server_identity_key());
  1942. if (crypto_pk_get_digest(ri->identity_pkey,
  1943. ri->cache_info.identity_digest)<0) {
  1944. routerinfo_free(ri);
  1945. return -1;
  1946. }
  1947. ri->cache_info.signing_key_cert =
  1948. tor_cert_dup(get_master_signing_key_cert());
  1949. get_platform_str(platform, sizeof(platform));
  1950. ri->platform = tor_strdup(platform);
  1951. ri->protocol_list = tor_strdup(get_supported_protocols());
  1952. /* compute ri->bandwidthrate as the min of various options */
  1953. ri->bandwidthrate = get_effective_bwrate(options);
  1954. /* and compute ri->bandwidthburst similarly */
  1955. ri->bandwidthburst = get_effective_bwburst(options);
  1956. ri->bandwidthcapacity = hibernating ? 0 : rep_hist_bandwidth_assess();
  1957. if (dns_seems_to_be_broken() || has_dns_init_failed()) {
  1958. /* DNS is screwed up; don't claim to be an exit. */
  1959. policies_exit_policy_append_reject_star(&ri->exit_policy);
  1960. } else {
  1961. policies_parse_exit_policy_from_options(options,ri->addr,&ri->ipv6_addr,
  1962. &ri->exit_policy);
  1963. }
  1964. ri->policy_is_reject_star =
  1965. policy_is_reject_star(ri->exit_policy, AF_INET) &&
  1966. policy_is_reject_star(ri->exit_policy, AF_INET6);
  1967. if (options->IPv6Exit) {
  1968. char *p_tmp = policy_summarize(ri->exit_policy, AF_INET6);
  1969. if (p_tmp)
  1970. ri->ipv6_exit_policy = parse_short_policy(p_tmp);
  1971. tor_free(p_tmp);
  1972. }
  1973. if (options->MyFamily && ! options->BridgeRelay) {
  1974. smartlist_t *family;
  1975. if (!warned_nonexistent_family)
  1976. warned_nonexistent_family = smartlist_new();
  1977. family = smartlist_new();
  1978. ri->declared_family = smartlist_new();
  1979. smartlist_split_string(family, options->MyFamily, ",",
  1980. SPLIT_SKIP_SPACE|SPLIT_IGNORE_BLANK|SPLIT_STRIP_SPACE, 0);
  1981. SMARTLIST_FOREACH_BEGIN(family, char *, name) {
  1982. const node_t *member;
  1983. if (!strcasecmp(name, options->Nickname))
  1984. goto skip; /* Don't list ourself, that's redundant */
  1985. else
  1986. member = node_get_by_nickname(name, 1);
  1987. if (!member) {
  1988. int is_legal = is_legal_nickname_or_hexdigest(name);
  1989. if (!smartlist_contains_string(warned_nonexistent_family, name) &&
  1990. !is_legal_hexdigest(name)) {
  1991. if (is_legal)
  1992. log_warn(LD_CONFIG,
  1993. "I have no descriptor for the router named \"%s\" in my "
  1994. "declared family; I'll use the nickname as is, but "
  1995. "this may confuse clients.", name);
  1996. else
  1997. log_warn(LD_CONFIG, "There is a router named \"%s\" in my "
  1998. "declared family, but that isn't a legal nickname. "
  1999. "Skipping it.", escaped(name));
  2000. smartlist_add(warned_nonexistent_family, tor_strdup(name));
  2001. }
  2002. if (is_legal) {
  2003. smartlist_add(ri->declared_family, name);
  2004. name = NULL;
  2005. }
  2006. } else if (router_digest_is_me(member->identity)) {
  2007. /* Don't list ourself in our own family; that's redundant */
  2008. /* XXX shouldn't be possible */
  2009. } else {
  2010. char *fp = tor_malloc(HEX_DIGEST_LEN+2);
  2011. fp[0] = '$';
  2012. base16_encode(fp+1,HEX_DIGEST_LEN+1,
  2013. member->identity, DIGEST_LEN);
  2014. smartlist_add(ri->declared_family, fp);
  2015. if (smartlist_contains_string(warned_nonexistent_family, name))
  2016. smartlist_string_remove(warned_nonexistent_family, name);
  2017. }
  2018. skip:
  2019. tor_free(name);
  2020. } SMARTLIST_FOREACH_END(name);
  2021. /* remove duplicates from the list */
  2022. smartlist_sort_strings(ri->declared_family);
  2023. smartlist_uniq_strings(ri->declared_family);
  2024. smartlist_free(family);
  2025. }
  2026. /* Now generate the extrainfo. */
  2027. ei = tor_malloc_zero(sizeof(extrainfo_t));
  2028. ei->cache_info.is_extrainfo = 1;
  2029. strlcpy(ei->nickname, get_options()->Nickname, sizeof(ei->nickname));
  2030. ei->cache_info.published_on = ri->cache_info.published_on;
  2031. ei->cache_info.signing_key_cert =
  2032. tor_cert_dup(get_master_signing_key_cert());
  2033. memcpy(ei->cache_info.identity_digest, ri->cache_info.identity_digest,
  2034. DIGEST_LEN);
  2035. if (extrainfo_dump_to_string(&ei->cache_info.signed_descriptor_body,
  2036. ei, get_server_identity_key(),
  2037. get_master_signing_keypair()) < 0) {
  2038. log_warn(LD_BUG, "Couldn't generate extra-info descriptor.");
  2039. extrainfo_free(ei);
  2040. ei = NULL;
  2041. } else {
  2042. ei->cache_info.signed_descriptor_len =
  2043. strlen(ei->cache_info.signed_descriptor_body);
  2044. router_get_extrainfo_hash(ei->cache_info.signed_descriptor_body,
  2045. ei->cache_info.signed_descriptor_len,
  2046. ei->cache_info.signed_descriptor_digest);
  2047. crypto_digest256((char*) ei->digest256,
  2048. ei->cache_info.signed_descriptor_body,
  2049. ei->cache_info.signed_descriptor_len,
  2050. DIGEST_SHA256);
  2051. }
  2052. /* Now finish the router descriptor. */
  2053. if (ei) {
  2054. memcpy(ri->cache_info.extra_info_digest,
  2055. ei->cache_info.signed_descriptor_digest,
  2056. DIGEST_LEN);
  2057. memcpy(ri->cache_info.extra_info_digest256,
  2058. ei->digest256,
  2059. DIGEST256_LEN);
  2060. } else {
  2061. /* ri was allocated with tor_malloc_zero, so there is no need to
  2062. * zero ri->cache_info.extra_info_digest here. */
  2063. }
  2064. if (! (ri->cache_info.signed_descriptor_body =
  2065. router_dump_router_to_string(ri, get_server_identity_key(),
  2066. get_onion_key(),
  2067. get_current_curve25519_keypair(),
  2068. get_master_signing_keypair())) ) {
  2069. log_warn(LD_BUG, "Couldn't generate router descriptor.");
  2070. routerinfo_free(ri);
  2071. extrainfo_free(ei);
  2072. return -1;
  2073. }
  2074. ri->cache_info.signed_descriptor_len =
  2075. strlen(ri->cache_info.signed_descriptor_body);
  2076. ri->purpose =
  2077. options->BridgeRelay ? ROUTER_PURPOSE_BRIDGE : ROUTER_PURPOSE_GENERAL;
  2078. if (options->BridgeRelay) {
  2079. /* Bridges shouldn't be able to send their descriptors unencrypted,
  2080. anyway, since they don't have a DirPort, and always connect to the
  2081. bridge authority anonymously. But just in case they somehow think of
  2082. sending them on an unencrypted connection, don't allow them to try. */
  2083. ri->cache_info.send_unencrypted = 0;
  2084. if (ei)
  2085. ei->cache_info.send_unencrypted = 0;
  2086. } else {
  2087. ri->cache_info.send_unencrypted = 1;
  2088. if (ei)
  2089. ei->cache_info.send_unencrypted = 1;
  2090. }
  2091. router_get_router_hash(ri->cache_info.signed_descriptor_body,
  2092. strlen(ri->cache_info.signed_descriptor_body),
  2093. ri->cache_info.signed_descriptor_digest);
  2094. if (ei) {
  2095. tor_assert(!
  2096. routerinfo_incompatible_with_extrainfo(ri->identity_pkey, ei,
  2097. &ri->cache_info, NULL));
  2098. }
  2099. *r = ri;
  2100. *e = ei;
  2101. return 0;
  2102. }
  2103. /** If <b>force</b> is true, or our descriptor is out-of-date, rebuild a fresh
  2104. * routerinfo, signed server descriptor, and extra-info document for this OR.
  2105. * Return 0 on success, -1 on temporary error.
  2106. */
  2107. int
  2108. router_rebuild_descriptor(int force)
  2109. {
  2110. routerinfo_t *ri;
  2111. extrainfo_t *ei;
  2112. uint32_t addr;
  2113. const or_options_t *options = get_options();
  2114. if (desc_clean_since && !force)
  2115. return 0;
  2116. if (router_pick_published_address(options, &addr) < 0 ||
  2117. router_get_advertised_or_port(options) == 0) {
  2118. /* Stop trying to rebuild our descriptor every second. We'll
  2119. * learn that it's time to try again when ip_address_changed()
  2120. * marks it dirty. */
  2121. desc_clean_since = time(NULL);
  2122. return -1;
  2123. }
  2124. log_info(LD_OR, "Rebuilding relay descriptor%s", force ? " (forced)" : "");
  2125. if (router_build_fresh_descriptor(&ri, &ei) < 0) {
  2126. return -1;
  2127. }
  2128. routerinfo_free(desc_routerinfo);
  2129. desc_routerinfo = ri;
  2130. extrainfo_free(desc_extrainfo);
  2131. desc_extrainfo = ei;
  2132. desc_clean_since = time(NULL);
  2133. desc_needs_upload = 1;
  2134. desc_gen_reason = desc_dirty_reason;
  2135. desc_dirty_reason = NULL;
  2136. control_event_my_descriptor_changed();
  2137. return 0;
  2138. }
  2139. /** If our router descriptor ever goes this long without being regenerated
  2140. * because something changed, we force an immediate regenerate-and-upload. */
  2141. #define FORCE_REGENERATE_DESCRIPTOR_INTERVAL (18*60*60)
  2142. /** If our router descriptor seems to be missing or unacceptable according
  2143. * to the authorities, regenerate and reupload it _this_ often. */
  2144. #define FAST_RETRY_DESCRIPTOR_INTERVAL (90*60)
  2145. /** Mark descriptor out of date if it's been "too long" since we last tried
  2146. * to upload one. */
  2147. void
  2148. mark_my_descriptor_dirty_if_too_old(time_t now)
  2149. {
  2150. networkstatus_t *ns;
  2151. const routerstatus_t *rs;
  2152. const char *retry_fast_reason = NULL; /* Set if we should retry frequently */
  2153. const time_t slow_cutoff = now - FORCE_REGENERATE_DESCRIPTOR_INTERVAL;
  2154. const time_t fast_cutoff = now - FAST_RETRY_DESCRIPTOR_INTERVAL;
  2155. /* If it's already dirty, don't mark it. */
  2156. if (! desc_clean_since)
  2157. return;
  2158. /* If it's older than FORCE_REGENERATE_DESCRIPTOR_INTERVAL, it's always
  2159. * time to rebuild it. */
  2160. if (desc_clean_since < slow_cutoff) {
  2161. mark_my_descriptor_dirty("time for new descriptor");
  2162. return;
  2163. }
  2164. /* Now we see whether we want to be retrying frequently or no. The
  2165. * rule here is that we'll retry frequently if we aren't listed in the
  2166. * live consensus we have, or if the publication time of the
  2167. * descriptor listed for us in the consensus is very old. */
  2168. ns = networkstatus_get_live_consensus(now);
  2169. if (ns) {
  2170. rs = networkstatus_vote_find_entry(ns, server_identitykey_digest);
  2171. if (rs == NULL)
  2172. retry_fast_reason = "not listed in consensus";
  2173. else if (rs->published_on < slow_cutoff)
  2174. retry_fast_reason = "version listed in consensus is quite old";
  2175. }
  2176. if (retry_fast_reason && desc_clean_since < fast_cutoff)
  2177. mark_my_descriptor_dirty(retry_fast_reason);
  2178. }
  2179. /** Call when the current descriptor is out of date. */
  2180. void
  2181. mark_my_descriptor_dirty(const char *reason)
  2182. {
  2183. const or_options_t *options = get_options();
  2184. if (server_mode(options) && options->PublishServerDescriptor_)
  2185. log_info(LD_OR, "Decided to publish new relay descriptor: %s", reason);
  2186. desc_clean_since = 0;
  2187. if (!desc_dirty_reason)
  2188. desc_dirty_reason = reason;
  2189. }
  2190. /** How frequently will we republish our descriptor because of large (factor
  2191. * of 2) shifts in estimated bandwidth? Note: We don't use this constant
  2192. * if our previous bandwidth estimate was exactly 0. */
  2193. #define MAX_BANDWIDTH_CHANGE_FREQ (20*60)
  2194. /** Check whether bandwidth has changed a lot since the last time we announced
  2195. * bandwidth. If so, mark our descriptor dirty. */
  2196. void
  2197. check_descriptor_bandwidth_changed(time_t now)
  2198. {
  2199. static time_t last_changed = 0;
  2200. uint64_t prev, cur;
  2201. if (!router_get_my_routerinfo())
  2202. return;
  2203. prev = router_get_my_routerinfo()->bandwidthcapacity;
  2204. cur = we_are_hibernating() ? 0 : rep_hist_bandwidth_assess();
  2205. if ((prev != cur && (!prev || !cur)) ||
  2206. cur > prev*2 ||
  2207. cur < prev/2) {
  2208. if (last_changed+MAX_BANDWIDTH_CHANGE_FREQ < now || !prev) {
  2209. log_info(LD_GENERAL,
  2210. "Measured bandwidth has changed; rebuilding descriptor.");
  2211. mark_my_descriptor_dirty("bandwidth has changed");
  2212. last_changed = now;
  2213. }
  2214. }
  2215. }
  2216. /** Note at log level severity that our best guess of address has changed from
  2217. * <b>prev</b> to <b>cur</b>. */
  2218. static void
  2219. log_addr_has_changed(int severity,
  2220. const tor_addr_t *prev,
  2221. const tor_addr_t *cur,
  2222. const char *source)
  2223. {
  2224. char addrbuf_prev[TOR_ADDR_BUF_LEN];
  2225. char addrbuf_cur[TOR_ADDR_BUF_LEN];
  2226. if (tor_addr_to_str(addrbuf_prev, prev, sizeof(addrbuf_prev), 1) == NULL)
  2227. strlcpy(addrbuf_prev, "???", TOR_ADDR_BUF_LEN);
  2228. if (tor_addr_to_str(addrbuf_cur, cur, sizeof(addrbuf_cur), 1) == NULL)
  2229. strlcpy(addrbuf_cur, "???", TOR_ADDR_BUF_LEN);
  2230. if (!tor_addr_is_null(prev))
  2231. log_fn(severity, LD_GENERAL,
  2232. "Our IP Address has changed from %s to %s; "
  2233. "rebuilding descriptor (source: %s).",
  2234. addrbuf_prev, addrbuf_cur, source);
  2235. else
  2236. log_notice(LD_GENERAL,
  2237. "Guessed our IP address as %s (source: %s).",
  2238. addrbuf_cur, source);
  2239. }
  2240. /** Check whether our own address as defined by the Address configuration
  2241. * has changed. This is for routers that get their address from a service
  2242. * like dyndns. If our address has changed, mark our descriptor dirty. */
  2243. void
  2244. check_descriptor_ipaddress_changed(time_t now)
  2245. {
  2246. uint32_t prev, cur;
  2247. const or_options_t *options = get_options();
  2248. const char *method = NULL;
  2249. char *hostname = NULL;
  2250. (void) now;
  2251. if (router_get_my_routerinfo() == NULL)
  2252. return;
  2253. /* XXXX ipv6 */
  2254. prev = router_get_my_routerinfo()->addr;
  2255. if (resolve_my_address(LOG_INFO, options, &cur, &method, &hostname) < 0) {
  2256. log_info(LD_CONFIG,"options->Address didn't resolve into an IP.");
  2257. return;
  2258. }
  2259. if (prev != cur) {
  2260. char *source;
  2261. tor_addr_t tmp_prev, tmp_cur;
  2262. tor_addr_from_ipv4h(&tmp_prev, prev);
  2263. tor_addr_from_ipv4h(&tmp_cur, cur);
  2264. tor_asprintf(&source, "METHOD=%s%s%s", method,
  2265. hostname ? " HOSTNAME=" : "",
  2266. hostname ? hostname : "");
  2267. log_addr_has_changed(LOG_NOTICE, &tmp_prev, &tmp_cur, source);
  2268. tor_free(source);
  2269. ip_address_changed(0);
  2270. }
  2271. tor_free(hostname);
  2272. }
  2273. /** The most recently guessed value of our IP address, based on directory
  2274. * headers. */
  2275. static tor_addr_t last_guessed_ip = TOR_ADDR_NULL;
  2276. /** A directory server <b>d_conn</b> told us our IP address is
  2277. * <b>suggestion</b>.
  2278. * If this address is different from the one we think we are now, and
  2279. * if our computer doesn't actually know its IP address, then switch. */
  2280. void
  2281. router_new_address_suggestion(const char *suggestion,
  2282. const dir_connection_t *d_conn)
  2283. {
  2284. tor_addr_t addr;
  2285. uint32_t cur = 0; /* Current IPv4 address. */
  2286. const or_options_t *options = get_options();
  2287. /* first, learn what the IP address actually is */
  2288. if (tor_addr_parse(&addr, suggestion) == -1) {
  2289. log_debug(LD_DIR, "Malformed X-Your-Address-Is header %s. Ignoring.",
  2290. escaped(suggestion));
  2291. return;
  2292. }
  2293. log_debug(LD_DIR, "Got X-Your-Address-Is: %s.", suggestion);
  2294. if (!server_mode(options)) {
  2295. tor_addr_copy(&last_guessed_ip, &addr);
  2296. return;
  2297. }
  2298. /* XXXX ipv6 */
  2299. cur = get_last_resolved_addr();
  2300. if (cur ||
  2301. resolve_my_address(LOG_INFO, options, &cur, NULL, NULL) >= 0) {
  2302. /* We're all set -- we already know our address. Great. */
  2303. tor_addr_from_ipv4h(&last_guessed_ip, cur); /* store it in case we
  2304. need it later */
  2305. return;
  2306. }
  2307. if (tor_addr_is_internal(&addr, 0)) {
  2308. /* Don't believe anybody who says our IP is, say, 127.0.0.1. */
  2309. return;
  2310. }
  2311. if (tor_addr_eq(&d_conn->base_.addr, &addr)) {
  2312. /* Don't believe anybody who says our IP is their IP. */
  2313. log_debug(LD_DIR, "A directory server told us our IP address is %s, "
  2314. "but they are just reporting their own IP address. Ignoring.",
  2315. suggestion);
  2316. return;
  2317. }
  2318. /* Okay. We can't resolve our own address, and X-Your-Address-Is is giving
  2319. * us an answer different from what we had the last time we managed to
  2320. * resolve it. */
  2321. if (!tor_addr_eq(&last_guessed_ip, &addr)) {
  2322. control_event_server_status(LOG_NOTICE,
  2323. "EXTERNAL_ADDRESS ADDRESS=%s METHOD=DIRSERV",
  2324. suggestion);
  2325. log_addr_has_changed(LOG_NOTICE, &last_guessed_ip, &addr,
  2326. d_conn->base_.address);
  2327. ip_address_changed(0);
  2328. tor_addr_copy(&last_guessed_ip, &addr); /* router_rebuild_descriptor()
  2329. will fetch it */
  2330. }
  2331. }
  2332. /** We failed to resolve our address locally, but we'd like to build
  2333. * a descriptor and publish / test reachability. If we have a guess
  2334. * about our address based on directory headers, answer it and return
  2335. * 0; else return -1. */
  2336. static int
  2337. router_guess_address_from_dir_headers(uint32_t *guess)
  2338. {
  2339. if (!tor_addr_is_null(&last_guessed_ip)) {
  2340. *guess = tor_addr_to_ipv4h(&last_guessed_ip);
  2341. return 0;
  2342. }
  2343. return -1;
  2344. }
  2345. /** Set <b>platform</b> (max length <b>len</b>) to a NUL-terminated short
  2346. * string describing the version of Tor and the operating system we're
  2347. * currently running on.
  2348. */
  2349. STATIC void
  2350. get_platform_str(char *platform, size_t len)
  2351. {
  2352. tor_snprintf(platform, len, "Tor %s on %s",
  2353. get_short_version(), get_uname());
  2354. }
  2355. /* XXX need to audit this thing and count fenceposts. maybe
  2356. * refactor so we don't have to keep asking if we're
  2357. * near the end of maxlen?
  2358. */
  2359. #define DEBUG_ROUTER_DUMP_ROUTER_TO_STRING
  2360. /** OR only: Given a routerinfo for this router, and an identity key to sign
  2361. * with, encode the routerinfo as a signed server descriptor and return a new
  2362. * string encoding the result, or NULL on failure.
  2363. */
  2364. char *
  2365. router_dump_router_to_string(routerinfo_t *router,
  2366. const crypto_pk_t *ident_key,
  2367. const crypto_pk_t *tap_key,
  2368. const curve25519_keypair_t *ntor_keypair,
  2369. const ed25519_keypair_t *signing_keypair)
  2370. {
  2371. char *address = NULL;
  2372. char *onion_pkey = NULL; /* Onion key, PEM-encoded. */
  2373. char *identity_pkey = NULL; /* Identity key, PEM-encoded. */
  2374. char digest[DIGEST256_LEN];
  2375. char published[ISO_TIME_LEN+1];
  2376. char fingerprint[FINGERPRINT_LEN+1];
  2377. char *extra_info_line = NULL;
  2378. size_t onion_pkeylen, identity_pkeylen;
  2379. char *family_line = NULL;
  2380. char *extra_or_address = NULL;
  2381. const or_options_t *options = get_options();
  2382. smartlist_t *chunks = NULL;
  2383. char *output = NULL;
  2384. const int emit_ed_sigs = signing_keypair &&
  2385. router->cache_info.signing_key_cert;
  2386. char *ed_cert_line = NULL;
  2387. char *rsa_tap_cc_line = NULL;
  2388. char *ntor_cc_line = NULL;
  2389. char *proto_line = NULL;
  2390. /* Make sure the identity key matches the one in the routerinfo. */
  2391. if (!crypto_pk_eq_keys(ident_key, router->identity_pkey)) {
  2392. log_warn(LD_BUG,"Tried to sign a router with a private key that didn't "
  2393. "match router's public key!");
  2394. goto err;
  2395. }
  2396. if (emit_ed_sigs) {
  2397. if (!router->cache_info.signing_key_cert->signing_key_included ||
  2398. !ed25519_pubkey_eq(&router->cache_info.signing_key_cert->signed_key,
  2399. &signing_keypair->pubkey)) {
  2400. log_warn(LD_BUG, "Tried to sign a router descriptor with a mismatched "
  2401. "ed25519 key chain %d",
  2402. router->cache_info.signing_key_cert->signing_key_included);
  2403. goto err;
  2404. }
  2405. }
  2406. /* record our fingerprint, so we can include it in the descriptor */
  2407. if (crypto_pk_get_fingerprint(router->identity_pkey, fingerprint, 1)<0) {
  2408. log_err(LD_BUG,"Error computing fingerprint");
  2409. goto err;
  2410. }
  2411. if (emit_ed_sigs) {
  2412. /* Encode ed25519 signing cert */
  2413. char ed_cert_base64[256];
  2414. char ed_fp_base64[ED25519_BASE64_LEN+1];
  2415. if (base64_encode(ed_cert_base64, sizeof(ed_cert_base64),
  2416. (const char*)router->cache_info.signing_key_cert->encoded,
  2417. router->cache_info.signing_key_cert->encoded_len,
  2418. BASE64_ENCODE_MULTILINE) < 0) {
  2419. log_err(LD_BUG,"Couldn't base64-encode signing key certificate!");
  2420. goto err;
  2421. }
  2422. if (ed25519_public_to_base64(ed_fp_base64,
  2423. &router->cache_info.signing_key_cert->signing_key)<0) {
  2424. log_err(LD_BUG,"Couldn't base64-encode identity key\n");
  2425. goto err;
  2426. }
  2427. tor_asprintf(&ed_cert_line, "identity-ed25519\n"
  2428. "-----BEGIN ED25519 CERT-----\n"
  2429. "%s"
  2430. "-----END ED25519 CERT-----\n"
  2431. "master-key-ed25519 %s\n",
  2432. ed_cert_base64, ed_fp_base64);
  2433. }
  2434. /* PEM-encode the onion key */
  2435. if (crypto_pk_write_public_key_to_string(router->onion_pkey,
  2436. &onion_pkey,&onion_pkeylen)<0) {
  2437. log_warn(LD_BUG,"write onion_pkey to string failed!");
  2438. goto err;
  2439. }
  2440. /* PEM-encode the identity key */
  2441. if (crypto_pk_write_public_key_to_string(router->identity_pkey,
  2442. &identity_pkey,&identity_pkeylen)<0) {
  2443. log_warn(LD_BUG,"write identity_pkey to string failed!");
  2444. goto err;
  2445. }
  2446. /* Cross-certify with RSA key */
  2447. if (tap_key && router->cache_info.signing_key_cert &&
  2448. router->cache_info.signing_key_cert->signing_key_included) {
  2449. char buf[256];
  2450. int tap_cc_len = 0;
  2451. uint8_t *tap_cc =
  2452. make_tap_onion_key_crosscert(tap_key,
  2453. &router->cache_info.signing_key_cert->signing_key,
  2454. router->identity_pkey,
  2455. &tap_cc_len);
  2456. if (!tap_cc) {
  2457. log_warn(LD_BUG,"make_tap_onion_key_crosscert failed!");
  2458. goto err;
  2459. }
  2460. if (base64_encode(buf, sizeof(buf), (const char*)tap_cc, tap_cc_len,
  2461. BASE64_ENCODE_MULTILINE) < 0) {
  2462. log_warn(LD_BUG,"base64_encode(rsa_crosscert) failed!");
  2463. tor_free(tap_cc);
  2464. goto err;
  2465. }
  2466. tor_free(tap_cc);
  2467. tor_asprintf(&rsa_tap_cc_line,
  2468. "onion-key-crosscert\n"
  2469. "-----BEGIN CROSSCERT-----\n"
  2470. "%s"
  2471. "-----END CROSSCERT-----\n", buf);
  2472. }
  2473. /* Cross-certify with onion keys */
  2474. if (ntor_keypair && router->cache_info.signing_key_cert &&
  2475. router->cache_info.signing_key_cert->signing_key_included) {
  2476. int sign = 0;
  2477. char buf[256];
  2478. /* XXXX Base the expiration date on the actual onion key expiration time?*/
  2479. tor_cert_t *cert =
  2480. make_ntor_onion_key_crosscert(ntor_keypair,
  2481. &router->cache_info.signing_key_cert->signing_key,
  2482. router->cache_info.published_on,
  2483. MIN_ONION_KEY_LIFETIME, &sign);
  2484. if (!cert) {
  2485. log_warn(LD_BUG,"make_ntor_onion_key_crosscert failed!");
  2486. goto err;
  2487. }
  2488. tor_assert(sign == 0 || sign == 1);
  2489. if (base64_encode(buf, sizeof(buf),
  2490. (const char*)cert->encoded, cert->encoded_len,
  2491. BASE64_ENCODE_MULTILINE)<0) {
  2492. log_warn(LD_BUG,"base64_encode(ntor_crosscert) failed!");
  2493. tor_cert_free(cert);
  2494. goto err;
  2495. }
  2496. tor_cert_free(cert);
  2497. tor_asprintf(&ntor_cc_line,
  2498. "ntor-onion-key-crosscert %d\n"
  2499. "-----BEGIN ED25519 CERT-----\n"
  2500. "%s"
  2501. "-----END ED25519 CERT-----\n", sign, buf);
  2502. }
  2503. /* Encode the publication time. */
  2504. format_iso_time(published, router->cache_info.published_on);
  2505. if (router->declared_family && smartlist_len(router->declared_family)) {
  2506. char *family = smartlist_join_strings(router->declared_family,
  2507. " ", 0, NULL);
  2508. tor_asprintf(&family_line, "family %s\n", family);
  2509. tor_free(family);
  2510. } else {
  2511. family_line = tor_strdup("");
  2512. }
  2513. if (!tor_digest_is_zero(router->cache_info.extra_info_digest)) {
  2514. char extra_info_digest[HEX_DIGEST_LEN+1];
  2515. base16_encode(extra_info_digest, sizeof(extra_info_digest),
  2516. router->cache_info.extra_info_digest, DIGEST_LEN);
  2517. if (!tor_digest256_is_zero(router->cache_info.extra_info_digest256)) {
  2518. char d256_64[BASE64_DIGEST256_LEN+1];
  2519. digest256_to_base64(d256_64, router->cache_info.extra_info_digest256);
  2520. tor_asprintf(&extra_info_line, "extra-info-digest %s %s\n",
  2521. extra_info_digest, d256_64);
  2522. } else {
  2523. tor_asprintf(&extra_info_line, "extra-info-digest %s\n",
  2524. extra_info_digest);
  2525. }
  2526. }
  2527. if (router->ipv6_orport &&
  2528. tor_addr_family(&router->ipv6_addr) == AF_INET6) {
  2529. char addr[TOR_ADDR_BUF_LEN];
  2530. const char *a;
  2531. a = tor_addr_to_str(addr, &router->ipv6_addr, sizeof(addr), 1);
  2532. if (a) {
  2533. tor_asprintf(&extra_or_address,
  2534. "or-address %s:%d\n", a, router->ipv6_orport);
  2535. log_debug(LD_OR, "My or-address line is <%s>", extra_or_address);
  2536. }
  2537. }
  2538. if (router->protocol_list) {
  2539. tor_asprintf(&proto_line, "proto %s\n", router->protocol_list);
  2540. } else {
  2541. proto_line = tor_strdup("");
  2542. }
  2543. address = tor_dup_ip(router->addr);
  2544. chunks = smartlist_new();
  2545. /* Generate the easy portion of the router descriptor. */
  2546. smartlist_add_asprintf(chunks,
  2547. "router %s %s %d 0 %d\n"
  2548. "%s"
  2549. "%s"
  2550. "platform %s\n"
  2551. "%s"
  2552. "published %s\n"
  2553. "fingerprint %s\n"
  2554. "uptime %ld\n"
  2555. "bandwidth %d %d %d\n"
  2556. "%s%s"
  2557. "onion-key\n%s"
  2558. "signing-key\n%s"
  2559. "%s%s"
  2560. "%s%s%s%s",
  2561. router->nickname,
  2562. address,
  2563. router->or_port,
  2564. decide_to_advertise_dirport(options, router->dir_port),
  2565. ed_cert_line ? ed_cert_line : "",
  2566. extra_or_address ? extra_or_address : "",
  2567. router->platform,
  2568. proto_line,
  2569. published,
  2570. fingerprint,
  2571. stats_n_seconds_working,
  2572. (int) router->bandwidthrate,
  2573. (int) router->bandwidthburst,
  2574. (int) router->bandwidthcapacity,
  2575. extra_info_line ? extra_info_line : "",
  2576. (options->DownloadExtraInfo || options->V3AuthoritativeDir) ?
  2577. "caches-extra-info\n" : "",
  2578. onion_pkey, identity_pkey,
  2579. rsa_tap_cc_line ? rsa_tap_cc_line : "",
  2580. ntor_cc_line ? ntor_cc_line : "",
  2581. family_line,
  2582. we_are_hibernating() ? "hibernating 1\n" : "",
  2583. "hidden-service-dir\n",
  2584. options->AllowSingleHopExits ? "allow-single-hop-exits\n" : "");
  2585. if (options->ContactInfo && strlen(options->ContactInfo)) {
  2586. const char *ci = options->ContactInfo;
  2587. if (strchr(ci, '\n') || strchr(ci, '\r'))
  2588. ci = escaped(ci);
  2589. smartlist_add_asprintf(chunks, "contact %s\n", ci);
  2590. }
  2591. if (router->onion_curve25519_pkey) {
  2592. char kbuf[128];
  2593. base64_encode(kbuf, sizeof(kbuf),
  2594. (const char *)router->onion_curve25519_pkey->public_key,
  2595. CURVE25519_PUBKEY_LEN, BASE64_ENCODE_MULTILINE);
  2596. smartlist_add_asprintf(chunks, "ntor-onion-key %s", kbuf);
  2597. } else {
  2598. /* Authorities will start rejecting relays without ntor keys in 0.2.9 */
  2599. log_err(LD_BUG, "A relay must have an ntor onion key");
  2600. goto err;
  2601. }
  2602. /* Write the exit policy to the end of 's'. */
  2603. if (!router->exit_policy || !smartlist_len(router->exit_policy)) {
  2604. smartlist_add(chunks, tor_strdup("reject *:*\n"));
  2605. } else if (router->exit_policy) {
  2606. char *exit_policy = router_dump_exit_policy_to_string(router,1,0);
  2607. if (!exit_policy)
  2608. goto err;
  2609. smartlist_add_asprintf(chunks, "%s\n", exit_policy);
  2610. tor_free(exit_policy);
  2611. }
  2612. if (router->ipv6_exit_policy) {
  2613. char *p6 = write_short_policy(router->ipv6_exit_policy);
  2614. if (p6 && strcmp(p6, "reject 1-65535")) {
  2615. smartlist_add_asprintf(chunks,
  2616. "ipv6-policy %s\n", p6);
  2617. }
  2618. tor_free(p6);
  2619. }
  2620. if (decide_to_advertise_begindir(options,
  2621. router->supports_tunnelled_dir_requests)) {
  2622. smartlist_add(chunks, tor_strdup("tunnelled-dir-server\n"));
  2623. }
  2624. /* Sign the descriptor with Ed25519 */
  2625. if (emit_ed_sigs) {
  2626. smartlist_add(chunks, tor_strdup("router-sig-ed25519 "));
  2627. crypto_digest_smartlist_prefix(digest, DIGEST256_LEN,
  2628. ED_DESC_SIGNATURE_PREFIX,
  2629. chunks, "", DIGEST_SHA256);
  2630. ed25519_signature_t sig;
  2631. char buf[ED25519_SIG_BASE64_LEN+1];
  2632. if (ed25519_sign(&sig, (const uint8_t*)digest, DIGEST256_LEN,
  2633. signing_keypair) < 0)
  2634. goto err;
  2635. if (ed25519_signature_to_base64(buf, &sig) < 0)
  2636. goto err;
  2637. smartlist_add_asprintf(chunks, "%s\n", buf);
  2638. }
  2639. /* Sign the descriptor with RSA */
  2640. smartlist_add(chunks, tor_strdup("router-signature\n"));
  2641. crypto_digest_smartlist(digest, DIGEST_LEN, chunks, "", DIGEST_SHA1);
  2642. note_crypto_pk_op(SIGN_RTR);
  2643. {
  2644. char *sig;
  2645. if (!(sig = router_get_dirobj_signature(digest, DIGEST_LEN, ident_key))) {
  2646. log_warn(LD_BUG, "Couldn't sign router descriptor");
  2647. goto err;
  2648. }
  2649. smartlist_add(chunks, sig);
  2650. }
  2651. /* include a last '\n' */
  2652. smartlist_add(chunks, tor_strdup("\n"));
  2653. output = smartlist_join_strings(chunks, "", 0, NULL);
  2654. #ifdef DEBUG_ROUTER_DUMP_ROUTER_TO_STRING
  2655. {
  2656. char *s_dup;
  2657. const char *cp;
  2658. routerinfo_t *ri_tmp;
  2659. cp = s_dup = tor_strdup(output);
  2660. ri_tmp = router_parse_entry_from_string(cp, NULL, 1, 0, NULL, NULL);
  2661. if (!ri_tmp) {
  2662. log_err(LD_BUG,
  2663. "We just generated a router descriptor we can't parse.");
  2664. log_err(LD_BUG, "Descriptor was: <<%s>>", output);
  2665. goto err;
  2666. }
  2667. tor_free(s_dup);
  2668. routerinfo_free(ri_tmp);
  2669. }
  2670. #endif
  2671. goto done;
  2672. err:
  2673. tor_free(output); /* sets output to NULL */
  2674. done:
  2675. if (chunks) {
  2676. SMARTLIST_FOREACH(chunks, char *, cp, tor_free(cp));
  2677. smartlist_free(chunks);
  2678. }
  2679. tor_free(address);
  2680. tor_free(family_line);
  2681. tor_free(onion_pkey);
  2682. tor_free(identity_pkey);
  2683. tor_free(extra_or_address);
  2684. tor_free(ed_cert_line);
  2685. tor_free(rsa_tap_cc_line);
  2686. tor_free(ntor_cc_line);
  2687. tor_free(extra_info_line);
  2688. return output;
  2689. }
  2690. /**
  2691. * OR only: Given <b>router</b>, produce a string with its exit policy.
  2692. * If <b>include_ipv4</b> is true, include IPv4 entries.
  2693. * If <b>include_ipv6</b> is true, include IPv6 entries.
  2694. */
  2695. char *
  2696. router_dump_exit_policy_to_string(const routerinfo_t *router,
  2697. int include_ipv4,
  2698. int include_ipv6)
  2699. {
  2700. if ((!router->exit_policy) || (router->policy_is_reject_star)) {
  2701. return tor_strdup("reject *:*");
  2702. }
  2703. return policy_dump_to_string(router->exit_policy,
  2704. include_ipv4,
  2705. include_ipv6);
  2706. }
  2707. /** Copy the primary (IPv4) OR port (IP address and TCP port) for
  2708. * <b>router</b> into *<b>ap_out</b>. */
  2709. void
  2710. router_get_prim_orport(const routerinfo_t *router, tor_addr_port_t *ap_out)
  2711. {
  2712. tor_assert(ap_out != NULL);
  2713. tor_addr_from_ipv4h(&ap_out->addr, router->addr);
  2714. ap_out->port = router->or_port;
  2715. }
  2716. /** Return 1 if any of <b>router</b>'s addresses are <b>addr</b>.
  2717. * Otherwise return 0. */
  2718. int
  2719. router_has_addr(const routerinfo_t *router, const tor_addr_t *addr)
  2720. {
  2721. return
  2722. tor_addr_eq_ipv4h(addr, router->addr) ||
  2723. tor_addr_eq(&router->ipv6_addr, addr);
  2724. }
  2725. int
  2726. router_has_orport(const routerinfo_t *router, const tor_addr_port_t *orport)
  2727. {
  2728. return
  2729. (tor_addr_eq_ipv4h(&orport->addr, router->addr) &&
  2730. orport->port == router->or_port) ||
  2731. (tor_addr_eq(&orport->addr, &router->ipv6_addr) &&
  2732. orport->port == router->ipv6_orport);
  2733. }
  2734. /** Load the contents of <b>filename</b>, find the last line starting with
  2735. * <b>end_line</b>, ensure that its timestamp is not more than 25 hours in
  2736. * the past or more than 1 hour in the future with respect to <b>now</b>,
  2737. * and write the file contents starting with that line to *<b>out</b>.
  2738. * Return 1 for success, 0 if the file does not exist or is empty, or -1
  2739. * if the file does not contain a line matching these criteria or other
  2740. * failure. */
  2741. static int
  2742. load_stats_file(const char *filename, const char *end_line, time_t now,
  2743. char **out)
  2744. {
  2745. int r = -1;
  2746. char *fname = get_datadir_fname(filename);
  2747. char *contents, *start = NULL, *tmp, timestr[ISO_TIME_LEN+1];
  2748. time_t written;
  2749. switch (file_status(fname)) {
  2750. case FN_FILE:
  2751. /* X022 Find an alternative to reading the whole file to memory. */
  2752. if ((contents = read_file_to_str(fname, 0, NULL))) {
  2753. tmp = strstr(contents, end_line);
  2754. /* Find last block starting with end_line */
  2755. while (tmp) {
  2756. start = tmp;
  2757. tmp = strstr(tmp + 1, end_line);
  2758. }
  2759. if (!start)
  2760. goto notfound;
  2761. if (strlen(start) < strlen(end_line) + 1 + sizeof(timestr))
  2762. goto notfound;
  2763. strlcpy(timestr, start + 1 + strlen(end_line), sizeof(timestr));
  2764. if (parse_iso_time(timestr, &written) < 0)
  2765. goto notfound;
  2766. if (written < now - (25*60*60) || written > now + (1*60*60))
  2767. goto notfound;
  2768. *out = tor_strdup(start);
  2769. r = 1;
  2770. }
  2771. notfound:
  2772. tor_free(contents);
  2773. break;
  2774. /* treat empty stats files as if the file doesn't exist */
  2775. case FN_NOENT:
  2776. case FN_EMPTY:
  2777. r = 0;
  2778. break;
  2779. case FN_ERROR:
  2780. case FN_DIR:
  2781. default:
  2782. break;
  2783. }
  2784. tor_free(fname);
  2785. return r;
  2786. }
  2787. /** Write the contents of <b>extrainfo</b> and aggregated statistics to
  2788. * *<b>s_out</b>, signing them with <b>ident_key</b>. Return 0 on
  2789. * success, negative on failure. */
  2790. int
  2791. extrainfo_dump_to_string(char **s_out, extrainfo_t *extrainfo,
  2792. crypto_pk_t *ident_key,
  2793. const ed25519_keypair_t *signing_keypair)
  2794. {
  2795. const or_options_t *options = get_options();
  2796. char identity[HEX_DIGEST_LEN+1];
  2797. char published[ISO_TIME_LEN+1];
  2798. char digest[DIGEST_LEN];
  2799. char *bandwidth_usage;
  2800. int result;
  2801. static int write_stats_to_extrainfo = 1;
  2802. char sig[DIROBJ_MAX_SIG_LEN+1];
  2803. char *s = NULL, *pre, *contents, *cp, *s_dup = NULL;
  2804. time_t now = time(NULL);
  2805. smartlist_t *chunks = smartlist_new();
  2806. extrainfo_t *ei_tmp = NULL;
  2807. const int emit_ed_sigs = signing_keypair &&
  2808. extrainfo->cache_info.signing_key_cert;
  2809. char *ed_cert_line = NULL;
  2810. base16_encode(identity, sizeof(identity),
  2811. extrainfo->cache_info.identity_digest, DIGEST_LEN);
  2812. format_iso_time(published, extrainfo->cache_info.published_on);
  2813. bandwidth_usage = rep_hist_get_bandwidth_lines();
  2814. if (emit_ed_sigs) {
  2815. if (!extrainfo->cache_info.signing_key_cert->signing_key_included ||
  2816. !ed25519_pubkey_eq(&extrainfo->cache_info.signing_key_cert->signed_key,
  2817. &signing_keypair->pubkey)) {
  2818. log_warn(LD_BUG, "Tried to sign a extrainfo descriptor with a "
  2819. "mismatched ed25519 key chain %d",
  2820. extrainfo->cache_info.signing_key_cert->signing_key_included);
  2821. goto err;
  2822. }
  2823. char ed_cert_base64[256];
  2824. if (base64_encode(ed_cert_base64, sizeof(ed_cert_base64),
  2825. (const char*)extrainfo->cache_info.signing_key_cert->encoded,
  2826. extrainfo->cache_info.signing_key_cert->encoded_len,
  2827. BASE64_ENCODE_MULTILINE) < 0) {
  2828. log_err(LD_BUG,"Couldn't base64-encode signing key certificate!");
  2829. goto err;
  2830. }
  2831. tor_asprintf(&ed_cert_line, "identity-ed25519\n"
  2832. "-----BEGIN ED25519 CERT-----\n"
  2833. "%s"
  2834. "-----END ED25519 CERT-----\n", ed_cert_base64);
  2835. } else {
  2836. ed_cert_line = tor_strdup("");
  2837. }
  2838. tor_asprintf(&pre, "extra-info %s %s\n%spublished %s\n%s",
  2839. extrainfo->nickname, identity,
  2840. ed_cert_line,
  2841. published, bandwidth_usage);
  2842. smartlist_add(chunks, pre);
  2843. if (geoip_is_loaded(AF_INET))
  2844. smartlist_add_asprintf(chunks, "geoip-db-digest %s\n",
  2845. geoip_db_digest(AF_INET));
  2846. if (geoip_is_loaded(AF_INET6))
  2847. smartlist_add_asprintf(chunks, "geoip6-db-digest %s\n",
  2848. geoip_db_digest(AF_INET6));
  2849. if (options->ExtraInfoStatistics && write_stats_to_extrainfo) {
  2850. log_info(LD_GENERAL, "Adding stats to extra-info descriptor.");
  2851. if (options->DirReqStatistics &&
  2852. load_stats_file("stats"PATH_SEPARATOR"dirreq-stats",
  2853. "dirreq-stats-end", now, &contents) > 0) {
  2854. smartlist_add(chunks, contents);
  2855. }
  2856. if (options->HiddenServiceStatistics &&
  2857. load_stats_file("stats"PATH_SEPARATOR"hidserv-stats",
  2858. "hidserv-stats-end", now, &contents) > 0) {
  2859. smartlist_add(chunks, contents);
  2860. }
  2861. if (options->EntryStatistics &&
  2862. load_stats_file("stats"PATH_SEPARATOR"entry-stats",
  2863. "entry-stats-end", now, &contents) > 0) {
  2864. smartlist_add(chunks, contents);
  2865. }
  2866. if (options->CellStatistics &&
  2867. load_stats_file("stats"PATH_SEPARATOR"buffer-stats",
  2868. "cell-stats-end", now, &contents) > 0) {
  2869. smartlist_add(chunks, contents);
  2870. }
  2871. if (options->ExitPortStatistics &&
  2872. load_stats_file("stats"PATH_SEPARATOR"exit-stats",
  2873. "exit-stats-end", now, &contents) > 0) {
  2874. smartlist_add(chunks, contents);
  2875. }
  2876. if (options->ConnDirectionStatistics &&
  2877. load_stats_file("stats"PATH_SEPARATOR"conn-stats",
  2878. "conn-bi-direct", now, &contents) > 0) {
  2879. smartlist_add(chunks, contents);
  2880. }
  2881. }
  2882. /* Add information about the pluggable transports we support. */
  2883. if (options->ServerTransportPlugin) {
  2884. char *pluggable_transports = pt_get_extra_info_descriptor_string();
  2885. if (pluggable_transports)
  2886. smartlist_add(chunks, pluggable_transports);
  2887. }
  2888. if (should_record_bridge_info(options) && write_stats_to_extrainfo) {
  2889. const char *bridge_stats = geoip_get_bridge_stats_extrainfo(now);
  2890. if (bridge_stats) {
  2891. smartlist_add(chunks, tor_strdup(bridge_stats));
  2892. }
  2893. }
  2894. if (emit_ed_sigs) {
  2895. char sha256_digest[DIGEST256_LEN];
  2896. smartlist_add(chunks, tor_strdup("router-sig-ed25519 "));
  2897. crypto_digest_smartlist_prefix(sha256_digest, DIGEST256_LEN,
  2898. ED_DESC_SIGNATURE_PREFIX,
  2899. chunks, "", DIGEST_SHA256);
  2900. ed25519_signature_t ed_sig;
  2901. char buf[ED25519_SIG_BASE64_LEN+1];
  2902. if (ed25519_sign(&ed_sig, (const uint8_t*)sha256_digest, DIGEST256_LEN,
  2903. signing_keypair) < 0)
  2904. goto err;
  2905. if (ed25519_signature_to_base64(buf, &ed_sig) < 0)
  2906. goto err;
  2907. smartlist_add_asprintf(chunks, "%s\n", buf);
  2908. }
  2909. smartlist_add(chunks, tor_strdup("router-signature\n"));
  2910. s = smartlist_join_strings(chunks, "", 0, NULL);
  2911. while (strlen(s) > MAX_EXTRAINFO_UPLOAD_SIZE - DIROBJ_MAX_SIG_LEN) {
  2912. /* So long as there are at least two chunks (one for the initial
  2913. * extra-info line and one for the router-signature), we can keep removing
  2914. * things. */
  2915. if (smartlist_len(chunks) > 2) {
  2916. /* We remove the next-to-last element (remember, len-1 is the last
  2917. element), since we need to keep the router-signature element. */
  2918. int idx = smartlist_len(chunks) - 2;
  2919. char *e = smartlist_get(chunks, idx);
  2920. smartlist_del_keeporder(chunks, idx);
  2921. log_warn(LD_GENERAL, "We just generated an extra-info descriptor "
  2922. "with statistics that exceeds the 50 KB "
  2923. "upload limit. Removing last added "
  2924. "statistics.");
  2925. tor_free(e);
  2926. tor_free(s);
  2927. s = smartlist_join_strings(chunks, "", 0, NULL);
  2928. } else {
  2929. log_warn(LD_BUG, "We just generated an extra-info descriptors that "
  2930. "exceeds the 50 KB upload limit.");
  2931. goto err;
  2932. }
  2933. }
  2934. memset(sig, 0, sizeof(sig));
  2935. if (router_get_extrainfo_hash(s, strlen(s), digest) < 0 ||
  2936. router_append_dirobj_signature(sig, sizeof(sig), digest, DIGEST_LEN,
  2937. ident_key) < 0) {
  2938. log_warn(LD_BUG, "Could not append signature to extra-info "
  2939. "descriptor.");
  2940. goto err;
  2941. }
  2942. smartlist_add(chunks, tor_strdup(sig));
  2943. tor_free(s);
  2944. s = smartlist_join_strings(chunks, "", 0, NULL);
  2945. cp = s_dup = tor_strdup(s);
  2946. ei_tmp = extrainfo_parse_entry_from_string(cp, NULL, 1, NULL, NULL);
  2947. if (!ei_tmp) {
  2948. if (write_stats_to_extrainfo) {
  2949. log_warn(LD_GENERAL, "We just generated an extra-info descriptor "
  2950. "with statistics that we can't parse. Not "
  2951. "adding statistics to this or any future "
  2952. "extra-info descriptors.");
  2953. write_stats_to_extrainfo = 0;
  2954. result = extrainfo_dump_to_string(s_out, extrainfo, ident_key,
  2955. signing_keypair);
  2956. goto done;
  2957. } else {
  2958. log_warn(LD_BUG, "We just generated an extrainfo descriptor we "
  2959. "can't parse.");
  2960. goto err;
  2961. }
  2962. }
  2963. *s_out = s;
  2964. s = NULL; /* prevent free */
  2965. result = 0;
  2966. goto done;
  2967. err:
  2968. result = -1;
  2969. done:
  2970. tor_free(s);
  2971. SMARTLIST_FOREACH(chunks, char *, chunk, tor_free(chunk));
  2972. smartlist_free(chunks);
  2973. tor_free(s_dup);
  2974. tor_free(ed_cert_line);
  2975. extrainfo_free(ei_tmp);
  2976. tor_free(bandwidth_usage);
  2977. return result;
  2978. }
  2979. /** Return true iff <b>s</b> is a valid server nickname. (That is, a string
  2980. * containing between 1 and MAX_NICKNAME_LEN characters from
  2981. * LEGAL_NICKNAME_CHARACTERS.) */
  2982. int
  2983. is_legal_nickname(const char *s)
  2984. {
  2985. size_t len;
  2986. tor_assert(s);
  2987. len = strlen(s);
  2988. return len > 0 && len <= MAX_NICKNAME_LEN &&
  2989. strspn(s,LEGAL_NICKNAME_CHARACTERS) == len;
  2990. }
  2991. /** Return true iff <b>s</b> is a valid server nickname or
  2992. * hex-encoded identity-key digest. */
  2993. int
  2994. is_legal_nickname_or_hexdigest(const char *s)
  2995. {
  2996. if (*s!='$')
  2997. return is_legal_nickname(s);
  2998. else
  2999. return is_legal_hexdigest(s);
  3000. }
  3001. /** Return true iff <b>s</b> is a valid hex-encoded identity-key
  3002. * digest. (That is, an optional $, followed by 40 hex characters,
  3003. * followed by either nothing, or = or ~ followed by a nickname, or
  3004. * a character other than =, ~, or a hex character.)
  3005. */
  3006. int
  3007. is_legal_hexdigest(const char *s)
  3008. {
  3009. size_t len;
  3010. tor_assert(s);
  3011. if (s[0] == '$') s++;
  3012. len = strlen(s);
  3013. if (len > HEX_DIGEST_LEN) {
  3014. if (s[HEX_DIGEST_LEN] == '=' ||
  3015. s[HEX_DIGEST_LEN] == '~') {
  3016. if (!is_legal_nickname(s+HEX_DIGEST_LEN+1))
  3017. return 0;
  3018. } else {
  3019. return 0;
  3020. }
  3021. }
  3022. return (len >= HEX_DIGEST_LEN &&
  3023. strspn(s,HEX_CHARACTERS)==HEX_DIGEST_LEN);
  3024. }
  3025. /** Use <b>buf</b> (which must be at least NODE_DESC_BUF_LEN bytes long) to
  3026. * hold a human-readable description of a node with identity digest
  3027. * <b>id_digest</b>, named-status <b>is_named</b>, nickname <b>nickname</b>,
  3028. * and address <b>addr</b> or <b>addr32h</b>.
  3029. *
  3030. * The <b>nickname</b> and <b>addr</b> fields are optional and may be set to
  3031. * NULL. The <b>addr32h</b> field is optional and may be set to 0.
  3032. *
  3033. * Return a pointer to the front of <b>buf</b>.
  3034. */
  3035. const char *
  3036. format_node_description(char *buf,
  3037. const char *id_digest,
  3038. int is_named,
  3039. const char *nickname,
  3040. const tor_addr_t *addr,
  3041. uint32_t addr32h)
  3042. {
  3043. char *cp;
  3044. if (!buf)
  3045. return "<NULL BUFFER>";
  3046. buf[0] = '$';
  3047. base16_encode(buf+1, HEX_DIGEST_LEN+1, id_digest, DIGEST_LEN);
  3048. cp = buf+1+HEX_DIGEST_LEN;
  3049. if (nickname) {
  3050. buf[1+HEX_DIGEST_LEN] = is_named ? '=' : '~';
  3051. strlcpy(buf+1+HEX_DIGEST_LEN+1, nickname, MAX_NICKNAME_LEN+1);
  3052. cp += strlen(cp);
  3053. }
  3054. if (addr32h || addr) {
  3055. memcpy(cp, " at ", 4);
  3056. cp += 4;
  3057. if (addr) {
  3058. tor_addr_to_str(cp, addr, TOR_ADDR_BUF_LEN, 0);
  3059. } else {
  3060. struct in_addr in;
  3061. in.s_addr = htonl(addr32h);
  3062. tor_inet_ntoa(&in, cp, INET_NTOA_BUF_LEN);
  3063. }
  3064. }
  3065. return buf;
  3066. }
  3067. /** Use <b>buf</b> (which must be at least NODE_DESC_BUF_LEN bytes long) to
  3068. * hold a human-readable description of <b>ri</b>.
  3069. *
  3070. *
  3071. * Return a pointer to the front of <b>buf</b>.
  3072. */
  3073. const char *
  3074. router_get_description(char *buf, const routerinfo_t *ri)
  3075. {
  3076. if (!ri)
  3077. return "<null>";
  3078. return format_node_description(buf,
  3079. ri->cache_info.identity_digest,
  3080. router_is_named(ri),
  3081. ri->nickname,
  3082. NULL,
  3083. ri->addr);
  3084. }
  3085. /** Use <b>buf</b> (which must be at least NODE_DESC_BUF_LEN bytes long) to
  3086. * hold a human-readable description of <b>node</b>.
  3087. *
  3088. * Return a pointer to the front of <b>buf</b>.
  3089. */
  3090. const char *
  3091. node_get_description(char *buf, const node_t *node)
  3092. {
  3093. const char *nickname = NULL;
  3094. uint32_t addr32h = 0;
  3095. int is_named = 0;
  3096. if (!node)
  3097. return "<null>";
  3098. if (node->rs) {
  3099. nickname = node->rs->nickname;
  3100. is_named = node->rs->is_named;
  3101. addr32h = node->rs->addr;
  3102. } else if (node->ri) {
  3103. nickname = node->ri->nickname;
  3104. addr32h = node->ri->addr;
  3105. }
  3106. return format_node_description(buf,
  3107. node->identity,
  3108. is_named,
  3109. nickname,
  3110. NULL,
  3111. addr32h);
  3112. }
  3113. /** Use <b>buf</b> (which must be at least NODE_DESC_BUF_LEN bytes long) to
  3114. * hold a human-readable description of <b>rs</b>.
  3115. *
  3116. * Return a pointer to the front of <b>buf</b>.
  3117. */
  3118. const char *
  3119. routerstatus_get_description(char *buf, const routerstatus_t *rs)
  3120. {
  3121. if (!rs)
  3122. return "<null>";
  3123. return format_node_description(buf,
  3124. rs->identity_digest,
  3125. rs->is_named,
  3126. rs->nickname,
  3127. NULL,
  3128. rs->addr);
  3129. }
  3130. /** Use <b>buf</b> (which must be at least NODE_DESC_BUF_LEN bytes long) to
  3131. * hold a human-readable description of <b>ei</b>.
  3132. *
  3133. * Return a pointer to the front of <b>buf</b>.
  3134. */
  3135. const char *
  3136. extend_info_get_description(char *buf, const extend_info_t *ei)
  3137. {
  3138. if (!ei)
  3139. return "<null>";
  3140. return format_node_description(buf,
  3141. ei->identity_digest,
  3142. 0,
  3143. ei->nickname,
  3144. &ei->addr,
  3145. 0);
  3146. }
  3147. /** Return a human-readable description of the routerinfo_t <b>ri</b>.
  3148. *
  3149. * This function is not thread-safe. Each call to this function invalidates
  3150. * previous values returned by this function.
  3151. */
  3152. const char *
  3153. router_describe(const routerinfo_t *ri)
  3154. {
  3155. static char buf[NODE_DESC_BUF_LEN];
  3156. return router_get_description(buf, ri);
  3157. }
  3158. /** Return a human-readable description of the node_t <b>node</b>.
  3159. *
  3160. * This function is not thread-safe. Each call to this function invalidates
  3161. * previous values returned by this function.
  3162. */
  3163. const char *
  3164. node_describe(const node_t *node)
  3165. {
  3166. static char buf[NODE_DESC_BUF_LEN];
  3167. return node_get_description(buf, node);
  3168. }
  3169. /** Return a human-readable description of the routerstatus_t <b>rs</b>.
  3170. *
  3171. * This function is not thread-safe. Each call to this function invalidates
  3172. * previous values returned by this function.
  3173. */
  3174. const char *
  3175. routerstatus_describe(const routerstatus_t *rs)
  3176. {
  3177. static char buf[NODE_DESC_BUF_LEN];
  3178. return routerstatus_get_description(buf, rs);
  3179. }
  3180. /** Return a human-readable description of the extend_info_t <b>ri</b>.
  3181. *
  3182. * This function is not thread-safe. Each call to this function invalidates
  3183. * previous values returned by this function.
  3184. */
  3185. const char *
  3186. extend_info_describe(const extend_info_t *ei)
  3187. {
  3188. static char buf[NODE_DESC_BUF_LEN];
  3189. return extend_info_get_description(buf, ei);
  3190. }
  3191. /** Set <b>buf</b> (which must have MAX_VERBOSE_NICKNAME_LEN+1 bytes) to the
  3192. * verbose representation of the identity of <b>router</b>. The format is:
  3193. * A dollar sign.
  3194. * The upper-case hexadecimal encoding of the SHA1 hash of router's identity.
  3195. * A "=" if the router is named; a "~" if it is not.
  3196. * The router's nickname.
  3197. **/
  3198. void
  3199. router_get_verbose_nickname(char *buf, const routerinfo_t *router)
  3200. {
  3201. const char *good_digest = networkstatus_get_router_digest_by_nickname(
  3202. router->nickname);
  3203. int is_named = good_digest && tor_memeq(good_digest,
  3204. router->cache_info.identity_digest,
  3205. DIGEST_LEN);
  3206. buf[0] = '$';
  3207. base16_encode(buf+1, HEX_DIGEST_LEN+1, router->cache_info.identity_digest,
  3208. DIGEST_LEN);
  3209. buf[1+HEX_DIGEST_LEN] = is_named ? '=' : '~';
  3210. strlcpy(buf+1+HEX_DIGEST_LEN+1, router->nickname, MAX_NICKNAME_LEN+1);
  3211. }
  3212. /** Forget that we have issued any router-related warnings, so that we'll
  3213. * warn again if we see the same errors. */
  3214. void
  3215. router_reset_warnings(void)
  3216. {
  3217. if (warned_nonexistent_family) {
  3218. SMARTLIST_FOREACH(warned_nonexistent_family, char *, cp, tor_free(cp));
  3219. smartlist_clear(warned_nonexistent_family);
  3220. }
  3221. }
  3222. /** Given a router purpose, convert it to a string. Don't call this on
  3223. * ROUTER_PURPOSE_UNKNOWN: The whole point of that value is that we don't
  3224. * know its string representation. */
  3225. const char *
  3226. router_purpose_to_string(uint8_t p)
  3227. {
  3228. switch (p)
  3229. {
  3230. case ROUTER_PURPOSE_GENERAL: return "general";
  3231. case ROUTER_PURPOSE_BRIDGE: return "bridge";
  3232. case ROUTER_PURPOSE_CONTROLLER: return "controller";
  3233. default:
  3234. tor_assert(0);
  3235. }
  3236. return NULL;
  3237. }
  3238. /** Given a string, convert it to a router purpose. */
  3239. uint8_t
  3240. router_purpose_from_string(const char *s)
  3241. {
  3242. if (!strcmp(s, "general"))
  3243. return ROUTER_PURPOSE_GENERAL;
  3244. else if (!strcmp(s, "bridge"))
  3245. return ROUTER_PURPOSE_BRIDGE;
  3246. else if (!strcmp(s, "controller"))
  3247. return ROUTER_PURPOSE_CONTROLLER;
  3248. else
  3249. return ROUTER_PURPOSE_UNKNOWN;
  3250. }
  3251. /** Release all static resources held in router.c */
  3252. void
  3253. router_free_all(void)
  3254. {
  3255. crypto_pk_free(onionkey);
  3256. crypto_pk_free(lastonionkey);
  3257. crypto_pk_free(server_identitykey);
  3258. crypto_pk_free(client_identitykey);
  3259. tor_mutex_free(key_lock);
  3260. routerinfo_free(desc_routerinfo);
  3261. extrainfo_free(desc_extrainfo);
  3262. crypto_pk_free(authority_signing_key);
  3263. authority_cert_free(authority_key_certificate);
  3264. crypto_pk_free(legacy_signing_key);
  3265. authority_cert_free(legacy_key_certificate);
  3266. memwipe(&curve25519_onion_key, 0, sizeof(curve25519_onion_key));
  3267. memwipe(&last_curve25519_onion_key, 0, sizeof(last_curve25519_onion_key));
  3268. if (warned_nonexistent_family) {
  3269. SMARTLIST_FOREACH(warned_nonexistent_family, char *, cp, tor_free(cp));
  3270. smartlist_free(warned_nonexistent_family);
  3271. }
  3272. }
  3273. /** Return a smartlist of tor_addr_port_t's with all the OR ports of
  3274. <b>ri</b>. Note that freeing of the items in the list as well as
  3275. the smartlist itself is the callers responsibility. */
  3276. smartlist_t *
  3277. router_get_all_orports(const routerinfo_t *ri)
  3278. {
  3279. tor_assert(ri);
  3280. node_t fake_node;
  3281. memset(&fake_node, 0, sizeof(fake_node));
  3282. /* we don't modify ri, fake_node is passed as a const node_t *
  3283. */
  3284. fake_node.ri = (routerinfo_t *)ri;
  3285. return node_get_all_orports(&fake_node);
  3286. }