portfwd.c 37 KB

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  1. /*
  2. * SSH port forwarding.
  3. */
  4. #include <assert.h>
  5. #include <stdio.h>
  6. #include <stdlib.h>
  7. #include "putty.h"
  8. #include "ssh.h"
  9. #include "sshchan.h"
  10. /*
  11. * Enumeration of values that live in the 'socks_state' field of
  12. * struct PortForwarding.
  13. */
  14. typedef enum {
  15. SOCKS_NONE, /* direct connection (no SOCKS, or SOCKS already done) */
  16. SOCKS_INITIAL, /* don't know if we're SOCKS 4 or 5 yet */
  17. SOCKS_4, /* expect a SOCKS 4 (or 4A) connection message */
  18. SOCKS_5_INITIAL, /* expect a SOCKS 5 preliminary message */
  19. SOCKS_5_CONNECT /* expect a SOCKS 5 connection message */
  20. } SocksState;
  21. typedef struct PortForwarding {
  22. SshChannel *c; /* channel structure held by SSH connection layer */
  23. ConnectionLayer *cl; /* the connection layer itself */
  24. /* Note that ssh need not be filled in if c is non-NULL */
  25. Socket *s;
  26. bool input_wanted;
  27. bool ready;
  28. SocksState socks_state;
  29. /*
  30. * `hostname' and `port' are the real hostname and port, once
  31. * we know what we're connecting to.
  32. */
  33. char *hostname;
  34. int port;
  35. /*
  36. * `socksbuf' is the buffer we use to accumulate the initial SOCKS
  37. * segment of the incoming data, plus anything after that that we
  38. * receive before we're ready to send data to the SSH server.
  39. */
  40. strbuf *socksbuf;
  41. size_t socksbuf_consumed;
  42. Plug plug;
  43. Channel chan;
  44. } PortForwarding;
  45. struct PortListener {
  46. ConnectionLayer *cl;
  47. Socket *s;
  48. bool is_dynamic;
  49. /*
  50. * `hostname' and `port' are the real hostname and port, for
  51. * ordinary forwardings.
  52. */
  53. char *hostname;
  54. int port;
  55. Plug plug;
  56. };
  57. static struct PortForwarding *new_portfwd_state(void)
  58. {
  59. struct PortForwarding *pf = snew(struct PortForwarding);
  60. pf->hostname = NULL;
  61. pf->socksbuf = NULL;
  62. return pf;
  63. }
  64. static void free_portfwd_state(struct PortForwarding *pf)
  65. {
  66. if (!pf)
  67. return;
  68. sfree(pf->hostname);
  69. if (pf->socksbuf)
  70. strbuf_free(pf->socksbuf);
  71. sfree(pf);
  72. }
  73. static struct PortListener *new_portlistener_state(void)
  74. {
  75. struct PortListener *pl = snew(struct PortListener);
  76. pl->hostname = NULL;
  77. return pl;
  78. }
  79. static void free_portlistener_state(struct PortListener *pl)
  80. {
  81. if (!pl)
  82. return;
  83. sfree(pl->hostname);
  84. sfree(pl);
  85. }
  86. static void pfd_log(Plug *plug, int type, SockAddr *addr, int port,
  87. const char *error_msg, int error_code)
  88. {
  89. /* we have to dump these since we have no interface to logging.c */
  90. }
  91. static void pfl_log(Plug *plug, int type, SockAddr *addr, int port,
  92. const char *error_msg, int error_code)
  93. {
  94. /* we have to dump these since we have no interface to logging.c */
  95. }
  96. static void pfd_close(struct PortForwarding *pf);
  97. static void pfd_closing(Plug *plug, const char *error_msg, int error_code,
  98. bool calling_back)
  99. {
  100. struct PortForwarding *pf =
  101. container_of(plug, struct PortForwarding, plug);
  102. if (error_msg) {
  103. /*
  104. * Socket error. Slam the connection instantly shut.
  105. */
  106. if (pf->c) {
  107. sshfwd_initiate_close(pf->c, error_msg);
  108. } else {
  109. /*
  110. * We might not have an SSH channel, if a socket error
  111. * occurred during SOCKS negotiation. If not, we must
  112. * clean ourself up without sshfwd_initiate_close's call
  113. * back to pfd_close.
  114. */
  115. pfd_close(pf);
  116. }
  117. } else {
  118. /*
  119. * Ordinary EOF received on socket. Send an EOF on the SSH
  120. * channel.
  121. */
  122. if (pf->c)
  123. sshfwd_write_eof(pf->c);
  124. }
  125. }
  126. static void pfl_terminate(struct PortListener *pl);
  127. static void pfl_closing(Plug *plug, const char *error_msg, int error_code,
  128. bool calling_back)
  129. {
  130. struct PortListener *pl = (struct PortListener *) plug;
  131. pfl_terminate(pl);
  132. }
  133. static SshChannel *wrap_lportfwd_open(
  134. ConnectionLayer *cl, const char *hostname, int port,
  135. Socket *s, Channel *chan)
  136. {
  137. SocketPeerInfo *pi;
  138. char *description;
  139. SshChannel *toret;
  140. pi = sk_peer_info(s);
  141. if (pi && pi->log_text) {
  142. description = dupprintf("forwarding from %s", pi->log_text);
  143. } else {
  144. description = dupstr("forwarding");
  145. }
  146. toret = ssh_lportfwd_open(cl, hostname, port, description, pi, chan);
  147. sk_free_peer_info(pi);
  148. sfree(description);
  149. return toret;
  150. }
  151. static char *ipv4_to_string(unsigned ipv4)
  152. {
  153. return dupprintf("%u.%u.%u.%u",
  154. (ipv4 >> 24) & 0xFF, (ipv4 >> 16) & 0xFF,
  155. (ipv4 >> 8) & 0xFF, (ipv4 ) & 0xFF);
  156. }
  157. static char *ipv6_to_string(ptrlen ipv6)
  158. {
  159. const unsigned char *addr = ipv6.ptr;
  160. assert(ipv6.len == 16);
  161. return dupprintf("%04x:%04x:%04x:%04x:%04x:%04x:%04x:%04x",
  162. (unsigned)GET_16BIT_MSB_FIRST(addr + 0),
  163. (unsigned)GET_16BIT_MSB_FIRST(addr + 2),
  164. (unsigned)GET_16BIT_MSB_FIRST(addr + 4),
  165. (unsigned)GET_16BIT_MSB_FIRST(addr + 6),
  166. (unsigned)GET_16BIT_MSB_FIRST(addr + 8),
  167. (unsigned)GET_16BIT_MSB_FIRST(addr + 10),
  168. (unsigned)GET_16BIT_MSB_FIRST(addr + 12),
  169. (unsigned)GET_16BIT_MSB_FIRST(addr + 14));
  170. }
  171. static void pfd_receive(Plug *plug, int urgent, const char *data, size_t len)
  172. {
  173. struct PortForwarding *pf =
  174. container_of(plug, struct PortForwarding, plug);
  175. if (len == 0)
  176. return;
  177. if (pf->socks_state != SOCKS_NONE) {
  178. BinarySource src[1];
  179. /*
  180. * Store all the data we've got in socksbuf.
  181. */
  182. put_data(pf->socksbuf, data, len);
  183. /*
  184. * Check the start of socksbuf to see if it's a valid and
  185. * complete message in the SOCKS exchange.
  186. */
  187. if (pf->socks_state == SOCKS_INITIAL) {
  188. /* Preliminary: check the first byte of the data (which we
  189. * _must_ have by now) to find out which SOCKS major
  190. * version we're speaking. */
  191. switch (pf->socksbuf->u[0]) {
  192. case 4:
  193. pf->socks_state = SOCKS_4;
  194. break;
  195. case 5:
  196. pf->socks_state = SOCKS_5_INITIAL;
  197. break;
  198. default:
  199. pfd_close(pf); /* unrecognised version */
  200. return;
  201. }
  202. }
  203. BinarySource_BARE_INIT(src, pf->socksbuf->u, pf->socksbuf->len);
  204. get_data(src, pf->socksbuf_consumed);
  205. while (pf->socks_state != SOCKS_NONE) {
  206. unsigned socks_version, message_type, reserved_byte;
  207. unsigned reply_code, port, ipv4, method;
  208. ptrlen methods;
  209. const char *socks4_hostname;
  210. strbuf *output;
  211. switch (pf->socks_state) {
  212. case SOCKS_INITIAL:
  213. case SOCKS_NONE:
  214. unreachable("These case values cannot appear");
  215. case SOCKS_4:
  216. /* SOCKS 4/4A connect message */
  217. socks_version = get_byte(src);
  218. message_type = get_byte(src);
  219. if (get_err(src) == BSE_OUT_OF_DATA)
  220. return;
  221. if (socks_version == 4 && message_type == 1) {
  222. /* CONNECT message */
  223. bool name_based = false;
  224. port = get_uint16(src);
  225. ipv4 = get_uint32(src);
  226. if (ipv4 > 0x00000000 && ipv4 < 0x00000100) {
  227. /*
  228. * Addresses in this range indicate the SOCKS 4A
  229. * extension to specify a hostname, which comes
  230. * after the username.
  231. */
  232. name_based = true;
  233. }
  234. get_asciz(src); /* skip username */
  235. socks4_hostname = name_based ? get_asciz(src) : NULL;
  236. if (get_err(src) == BSE_OUT_OF_DATA)
  237. return;
  238. if (get_err(src))
  239. goto socks4_reject;
  240. pf->port = port;
  241. if (name_based) {
  242. pf->hostname = dupstr(socks4_hostname);
  243. } else {
  244. pf->hostname = ipv4_to_string(ipv4);
  245. }
  246. output = strbuf_new();
  247. put_byte(output, 0); /* reply version */
  248. put_byte(output, 90); /* SOCKS 4 'request granted' */
  249. put_uint16(output, 0); /* null port field */
  250. put_uint32(output, 0); /* null address field */
  251. sk_write(pf->s, output->u, output->len);
  252. strbuf_free(output);
  253. pf->socks_state = SOCKS_NONE;
  254. pf->socksbuf_consumed = src->pos;
  255. break;
  256. }
  257. socks4_reject:
  258. output = strbuf_new();
  259. put_byte(output, 0); /* reply version */
  260. put_byte(output, 91); /* SOCKS 4 'request rejected' */
  261. put_uint16(output, 0); /* null port field */
  262. put_uint32(output, 0); /* null address field */
  263. sk_write(pf->s, output->u, output->len);
  264. strbuf_free(output);
  265. pfd_close(pf);
  266. return;
  267. case SOCKS_5_INITIAL:
  268. /* SOCKS 5 initial method list */
  269. socks_version = get_byte(src);
  270. methods = get_pstring(src);
  271. method = 0xFF; /* means 'no usable method found' */
  272. {
  273. int i;
  274. for (i = 0; i < methods.len; i++) {
  275. if (((const unsigned char *)methods.ptr)[i] == 0 ) {
  276. method = 0; /* no auth */
  277. break;
  278. }
  279. }
  280. }
  281. if (get_err(src) == BSE_OUT_OF_DATA)
  282. return;
  283. if (get_err(src))
  284. method = 0xFF;
  285. output = strbuf_new();
  286. put_byte(output, 5); /* SOCKS version */
  287. put_byte(output, method); /* selected auth method */
  288. sk_write(pf->s, output->u, output->len);
  289. strbuf_free(output);
  290. if (method == 0xFF) {
  291. pfd_close(pf);
  292. return;
  293. }
  294. pf->socks_state = SOCKS_5_CONNECT;
  295. pf->socksbuf_consumed = src->pos;
  296. break;
  297. case SOCKS_5_CONNECT:
  298. /* SOCKS 5 connect message */
  299. socks_version = get_byte(src);
  300. message_type = get_byte(src);
  301. reserved_byte = get_byte(src);
  302. if (socks_version == 5 && message_type == 1 &&
  303. reserved_byte == 0) {
  304. reply_code = 0; /* success */
  305. switch (get_byte(src)) {
  306. case 1: /* IPv4 */
  307. pf->hostname = ipv4_to_string(get_uint32(src));
  308. break;
  309. case 4: /* IPv6 */
  310. pf->hostname = ipv6_to_string(get_data(src, 16));
  311. break;
  312. case 3: /* unresolved domain name */
  313. pf->hostname = mkstr(get_pstring(src));
  314. break;
  315. default:
  316. pf->hostname = NULL;
  317. reply_code = 8; /* address type not supported */
  318. break;
  319. }
  320. pf->port = get_uint16(src);
  321. } else {
  322. reply_code = 7; /* command not supported */
  323. }
  324. if (get_err(src) == BSE_OUT_OF_DATA)
  325. return;
  326. if (get_err(src))
  327. reply_code = 1; /* general server failure */
  328. output = strbuf_new();
  329. put_byte(output, 5); /* SOCKS version */
  330. put_byte(output, reply_code);
  331. put_byte(output, 0); /* reserved */
  332. put_byte(output, 1); /* IPv4 address follows */
  333. put_uint32(output, 0); /* bound IPv4 address (unused) */
  334. put_uint16(output, 0); /* bound port number (unused) */
  335. sk_write(pf->s, output->u, output->len);
  336. strbuf_free(output);
  337. if (reply_code != 0) {
  338. pfd_close(pf);
  339. return;
  340. }
  341. pf->socks_state = SOCKS_NONE;
  342. pf->socksbuf_consumed = src->pos;
  343. break;
  344. }
  345. }
  346. /*
  347. * We come here when we're ready to make an actual
  348. * connection.
  349. */
  350. /*
  351. * Freeze the socket until the SSH server confirms the
  352. * connection.
  353. */
  354. sk_set_frozen(pf->s, 1);
  355. pf->c = wrap_lportfwd_open(pf->cl, pf->hostname, pf->port, pf->s,
  356. &pf->chan);
  357. }
  358. if (pf->ready)
  359. sshfwd_write(pf->c, data, len);
  360. }
  361. static void pfd_sent(Plug *plug, size_t bufsize)
  362. {
  363. struct PortForwarding *pf =
  364. container_of(plug, struct PortForwarding, plug);
  365. if (pf->c)
  366. sshfwd_unthrottle(pf->c, bufsize);
  367. }
  368. static const PlugVtable PortForwarding_plugvt = {
  369. pfd_log,
  370. pfd_closing,
  371. pfd_receive,
  372. pfd_sent,
  373. NULL
  374. };
  375. static void pfd_chan_free(Channel *chan);
  376. static void pfd_open_confirmation(Channel *chan);
  377. static void pfd_open_failure(Channel *chan, const char *errtext);
  378. static size_t pfd_send(
  379. Channel *chan, bool is_stderr, const void *data, size_t len);
  380. static void pfd_send_eof(Channel *chan);
  381. static void pfd_set_input_wanted(Channel *chan, bool wanted);
  382. static char *pfd_log_close_msg(Channel *chan);
  383. static const struct ChannelVtable PortForwarding_channelvt = {
  384. pfd_chan_free,
  385. pfd_open_confirmation,
  386. pfd_open_failure,
  387. pfd_send,
  388. pfd_send_eof,
  389. pfd_set_input_wanted,
  390. pfd_log_close_msg,
  391. chan_default_want_close,
  392. chan_no_exit_status,
  393. chan_no_exit_signal,
  394. chan_no_exit_signal_numeric,
  395. chan_no_run_shell,
  396. chan_no_run_command,
  397. chan_no_run_subsystem,
  398. chan_no_enable_x11_forwarding,
  399. chan_no_enable_agent_forwarding,
  400. chan_no_allocate_pty,
  401. chan_no_set_env,
  402. chan_no_send_break,
  403. chan_no_send_signal,
  404. chan_no_change_window_size,
  405. chan_no_request_response,
  406. };
  407. Channel *portfwd_raw_new(ConnectionLayer *cl, Plug **plug)
  408. {
  409. struct PortForwarding *pf;
  410. pf = new_portfwd_state();
  411. pf->plug.vt = &PortForwarding_plugvt;
  412. pf->chan.initial_fixed_window_size = 0;
  413. pf->chan.vt = &PortForwarding_channelvt;
  414. pf->input_wanted = true;
  415. pf->c = NULL;
  416. pf->cl = cl;
  417. pf->input_wanted = true;
  418. pf->ready = false;
  419. pf->socks_state = SOCKS_NONE;
  420. pf->hostname = NULL;
  421. pf->port = 0;
  422. *plug = &pf->plug;
  423. return &pf->chan;
  424. }
  425. void portfwd_raw_free(Channel *pfchan)
  426. {
  427. struct PortForwarding *pf;
  428. assert(pfchan->vt == &PortForwarding_channelvt);
  429. pf = container_of(pfchan, struct PortForwarding, chan);
  430. free_portfwd_state(pf);
  431. }
  432. void portfwd_raw_setup(Channel *pfchan, Socket *s, SshChannel *sc)
  433. {
  434. struct PortForwarding *pf;
  435. assert(pfchan->vt == &PortForwarding_channelvt);
  436. pf = container_of(pfchan, struct PortForwarding, chan);
  437. pf->s = s;
  438. pf->c = sc;
  439. }
  440. /*
  441. called when someone connects to the local port
  442. */
  443. static int pfl_accepting(Plug *p, accept_fn_t constructor, accept_ctx_t ctx)
  444. {
  445. struct PortListener *pl = container_of(p, struct PortListener, plug);
  446. struct PortForwarding *pf;
  447. Channel *chan;
  448. Plug *plug;
  449. Socket *s;
  450. const char *err;
  451. chan = portfwd_raw_new(pl->cl, &plug);
  452. s = constructor(ctx, plug);
  453. if ((err = sk_socket_error(s)) != NULL) {
  454. portfwd_raw_free(chan);
  455. return 1;
  456. }
  457. pf = container_of(chan, struct PortForwarding, chan);
  458. if (pl->is_dynamic) {
  459. pf->s = s;
  460. pf->socks_state = SOCKS_INITIAL;
  461. pf->socksbuf = strbuf_new();
  462. pf->socksbuf_consumed = 0;
  463. pf->port = 0; /* "hostname" buffer is so far empty */
  464. sk_set_frozen(s, 0); /* we want to receive SOCKS _now_! */
  465. } else {
  466. pf->hostname = dupstr(pl->hostname);
  467. pf->port = pl->port;
  468. portfwd_raw_setup(
  469. chan, s,
  470. wrap_lportfwd_open(pl->cl, pf->hostname, pf->port, s, &pf->chan));
  471. }
  472. return 0;
  473. }
  474. static const PlugVtable PortListener_plugvt = {
  475. pfl_log,
  476. pfl_closing,
  477. NULL, /* recv */
  478. NULL, /* send */
  479. pfl_accepting
  480. };
  481. /*
  482. * Add a new port-forwarding listener from srcaddr:port -> desthost:destport.
  483. *
  484. * desthost == NULL indicates dynamic SOCKS port forwarding.
  485. *
  486. * On success, returns NULL and fills in *pl_ret. On error, returns a
  487. * dynamically allocated error message string.
  488. */
  489. static char *pfl_listen(const char *desthost, int destport,
  490. const char *srcaddr, int port,
  491. ConnectionLayer *cl, Conf *conf,
  492. struct PortListener **pl_ret, int address_family)
  493. {
  494. const char *err;
  495. struct PortListener *pl;
  496. /*
  497. * Open socket.
  498. */
  499. pl = *pl_ret = new_portlistener_state();
  500. pl->plug.vt = &PortListener_plugvt;
  501. if (desthost) {
  502. pl->hostname = dupstr(desthost);
  503. pl->port = destport;
  504. pl->is_dynamic = false;
  505. } else
  506. pl->is_dynamic = true;
  507. pl->cl = cl;
  508. pl->s = new_listener(srcaddr, port, &pl->plug,
  509. !conf_get_bool(conf, CONF_lport_acceptall),
  510. conf, address_family);
  511. if ((err = sk_socket_error(pl->s)) != NULL) {
  512. char *err_ret = dupstr(err);
  513. sk_close(pl->s);
  514. free_portlistener_state(pl);
  515. *pl_ret = NULL;
  516. return err_ret;
  517. }
  518. return NULL;
  519. }
  520. static char *pfd_log_close_msg(Channel *chan)
  521. {
  522. return dupstr("Forwarded port closed");
  523. }
  524. static void pfd_close(struct PortForwarding *pf)
  525. {
  526. if (!pf)
  527. return;
  528. sk_close(pf->s);
  529. free_portfwd_state(pf);
  530. }
  531. /*
  532. * Terminate a listener.
  533. */
  534. static void pfl_terminate(struct PortListener *pl)
  535. {
  536. if (!pl)
  537. return;
  538. sk_close(pl->s);
  539. free_portlistener_state(pl);
  540. }
  541. static void pfd_set_input_wanted(Channel *chan, bool wanted)
  542. {
  543. pinitassert(chan->vt == &PortForwarding_channelvt);
  544. PortForwarding *pf = container_of(chan, PortForwarding, chan);
  545. pf->input_wanted = wanted;
  546. sk_set_frozen(pf->s, !pf->input_wanted);
  547. }
  548. static void pfd_chan_free(Channel *chan)
  549. {
  550. pinitassert(chan->vt == &PortForwarding_channelvt);
  551. PortForwarding *pf = container_of(chan, PortForwarding, chan);
  552. pfd_close(pf);
  553. }
  554. /*
  555. * Called to send data down the raw connection.
  556. */
  557. static size_t pfd_send(
  558. Channel *chan, bool is_stderr, const void *data, size_t len)
  559. {
  560. pinitassert(chan->vt == &PortForwarding_channelvt);
  561. PortForwarding *pf = container_of(chan, PortForwarding, chan);
  562. return sk_write(pf->s, data, len);
  563. }
  564. static void pfd_send_eof(Channel *chan)
  565. {
  566. pinitassert(chan->vt == &PortForwarding_channelvt);
  567. PortForwarding *pf = container_of(chan, PortForwarding, chan);
  568. sk_write_eof(pf->s);
  569. }
  570. static void pfd_open_confirmation(Channel *chan)
  571. {
  572. pinitassert(chan->vt == &PortForwarding_channelvt);
  573. PortForwarding *pf = container_of(chan, PortForwarding, chan);
  574. pf->ready = true;
  575. sk_set_frozen(pf->s, 0);
  576. sk_write(pf->s, NULL, 0);
  577. if (pf->socksbuf) {
  578. sshfwd_write(pf->c, pf->socksbuf->u + pf->socksbuf_consumed,
  579. pf->socksbuf->len - pf->socksbuf_consumed);
  580. strbuf_free(pf->socksbuf);
  581. pf->socksbuf = NULL;
  582. }
  583. }
  584. static void pfd_open_failure(Channel *chan, const char *errtext)
  585. {
  586. pinitassert(chan->vt == &PortForwarding_channelvt);
  587. PortForwarding *pf = container_of(chan, PortForwarding, chan);
  588. logeventf(pf->cl->logctx,
  589. "Forwarded connection refused by remote%s%s",
  590. errtext ? ": " : "", errtext ? errtext : "");
  591. }
  592. /* ----------------------------------------------------------------------
  593. * Code to manage the complete set of currently active port
  594. * forwardings, and update it from Conf.
  595. */
  596. struct PortFwdRecord {
  597. enum { DESTROY, KEEP, CREATE } status;
  598. int type;
  599. unsigned sport, dport;
  600. char *saddr, *daddr;
  601. char *sserv, *dserv;
  602. struct ssh_rportfwd *remote;
  603. int addressfamily;
  604. struct PortListener *local;
  605. };
  606. static int pfr_cmp(void *av, void *bv)
  607. {
  608. PortFwdRecord *a = (PortFwdRecord *) av;
  609. PortFwdRecord *b = (PortFwdRecord *) bv;
  610. int i;
  611. if (a->type > b->type)
  612. return +1;
  613. if (a->type < b->type)
  614. return -1;
  615. if (a->addressfamily > b->addressfamily)
  616. return +1;
  617. if (a->addressfamily < b->addressfamily)
  618. return -1;
  619. if ( (i = nullstrcmp(a->saddr, b->saddr)) != 0)
  620. return i < 0 ? -1 : +1;
  621. if (a->sport > b->sport)
  622. return +1;
  623. if (a->sport < b->sport)
  624. return -1;
  625. if (a->type != 'D') {
  626. if ( (i = nullstrcmp(a->daddr, b->daddr)) != 0)
  627. return i < 0 ? -1 : +1;
  628. if (a->dport > b->dport)
  629. return +1;
  630. if (a->dport < b->dport)
  631. return -1;
  632. }
  633. return 0;
  634. }
  635. void pfr_free(PortFwdRecord *pfr)
  636. {
  637. /* Dispose of any listening socket. */
  638. if (pfr->local)
  639. pfl_terminate(pfr->local);
  640. sfree(pfr->saddr);
  641. sfree(pfr->daddr);
  642. sfree(pfr->sserv);
  643. sfree(pfr->dserv);
  644. sfree(pfr);
  645. }
  646. struct PortFwdManager {
  647. ConnectionLayer *cl;
  648. Conf *conf;
  649. tree234 *forwardings;
  650. };
  651. PortFwdManager *portfwdmgr_new(ConnectionLayer *cl)
  652. {
  653. PortFwdManager *mgr = snew(PortFwdManager);
  654. mgr->cl = cl;
  655. mgr->conf = NULL;
  656. mgr->forwardings = newtree234(pfr_cmp);
  657. return mgr;
  658. }
  659. void portfwdmgr_close(PortFwdManager *mgr, PortFwdRecord *pfr)
  660. {
  661. PortFwdRecord *realpfr = del234(mgr->forwardings, pfr);
  662. if (realpfr == pfr)
  663. pfr_free(pfr);
  664. }
  665. void portfwdmgr_close_all(PortFwdManager *mgr)
  666. {
  667. PortFwdRecord *pfr;
  668. while ((pfr = delpos234(mgr->forwardings, 0)) != NULL)
  669. pfr_free(pfr);
  670. }
  671. void portfwdmgr_free(PortFwdManager *mgr)
  672. {
  673. portfwdmgr_close_all(mgr);
  674. freetree234(mgr->forwardings);
  675. if (mgr->conf)
  676. conf_free(mgr->conf);
  677. sfree(mgr);
  678. }
  679. void portfwdmgr_config(PortFwdManager *mgr, Conf *conf)
  680. {
  681. PortFwdRecord *pfr;
  682. int i;
  683. char *key, *val;
  684. if (mgr->conf)
  685. conf_free(mgr->conf);
  686. mgr->conf = conf_copy(conf);
  687. /*
  688. * Go through the existing port forwardings and tag them
  689. * with status==DESTROY. Any that we want to keep will be
  690. * re-enabled (status==KEEP) as we go through the
  691. * configuration and find out which bits are the same as
  692. * they were before.
  693. */
  694. for (i = 0; (pfr = index234(mgr->forwardings, i)) != NULL; i++)
  695. pfr->status = DESTROY;
  696. for (val = conf_get_str_strs(conf, CONF_portfwd, NULL, &key);
  697. val != NULL;
  698. val = conf_get_str_strs(conf, CONF_portfwd, key, &key)) {
  699. char *kp, *kp2, *vp, *vp2;
  700. char address_family, type;
  701. int sport, dport, sserv, dserv;
  702. char *sports, *dports, *saddr, *host;
  703. kp = key;
  704. address_family = 'A';
  705. type = 'L';
  706. if (*kp == 'A' || *kp == '4' || *kp == '6')
  707. address_family = *kp++;
  708. if (*kp == 'L' || *kp == 'R')
  709. type = *kp++;
  710. if ((kp2 = host_strchr(kp, ':')) != NULL) {
  711. /*
  712. * There's a colon in the middle of the source port
  713. * string, which means that the part before it is
  714. * actually a source address.
  715. */
  716. char *saddr_tmp = dupprintf("%.*s", (int)(kp2 - kp), kp);
  717. saddr = host_strduptrim(saddr_tmp);
  718. sfree(saddr_tmp);
  719. sports = kp2+1;
  720. } else {
  721. saddr = NULL;
  722. sports = kp;
  723. }
  724. sport = atoi(sports);
  725. sserv = 0;
  726. if (sport == 0) {
  727. sserv = 1;
  728. sport = net_service_lookup(sports);
  729. if (!sport) {
  730. logeventf(mgr->cl->logctx, "Service lookup failed for source"
  731. " port \"%s\"", sports);
  732. }
  733. }
  734. if (type == 'L' && !strcmp(val, "D")) {
  735. /* dynamic forwarding */
  736. host = NULL;
  737. dports = NULL;
  738. dport = -1;
  739. dserv = 0;
  740. type = 'D';
  741. } else {
  742. /* ordinary forwarding */
  743. vp = val;
  744. vp2 = vp + host_strcspn(vp, ":");
  745. host = dupprintf("%.*s", (int)(vp2 - vp), vp);
  746. if (*vp2)
  747. vp2++;
  748. dports = vp2;
  749. dport = atoi(dports);
  750. dserv = 0;
  751. if (dport == 0) {
  752. dserv = 1;
  753. dport = net_service_lookup(dports);
  754. if (!dport) {
  755. logeventf(mgr->cl->logctx,
  756. "Service lookup failed for destination"
  757. " port \"%s\"", dports);
  758. }
  759. }
  760. }
  761. if (sport && dport) {
  762. /* Set up a description of the source port. */
  763. pfr = snew(PortFwdRecord);
  764. pfr->type = type;
  765. pfr->saddr = saddr;
  766. pfr->sserv = sserv ? dupstr(sports) : NULL;
  767. pfr->sport = sport;
  768. pfr->daddr = host;
  769. pfr->dserv = dserv ? dupstr(dports) : NULL;
  770. pfr->dport = dport;
  771. pfr->local = NULL;
  772. pfr->remote = NULL;
  773. pfr->addressfamily = (address_family == '4' ? ADDRTYPE_IPV4 :
  774. address_family == '6' ? ADDRTYPE_IPV6 :
  775. ADDRTYPE_UNSPEC);
  776. { // WINSCP
  777. PortFwdRecord *existing = add234(mgr->forwardings, pfr);
  778. if (existing != pfr) {
  779. if (existing->status == DESTROY) {
  780. /*
  781. * We already have a port forwarding up and running
  782. * with precisely these parameters. Hence, no need
  783. * to do anything; simply re-tag the existing one
  784. * as KEEP.
  785. */
  786. existing->status = KEEP;
  787. }
  788. /*
  789. * Anything else indicates that there was a duplicate
  790. * in our input, which we'll silently ignore.
  791. */
  792. pfr_free(pfr);
  793. } else {
  794. pfr->status = CREATE;
  795. }
  796. } // WINSCP
  797. } else {
  798. sfree(saddr);
  799. sfree(host);
  800. }
  801. }
  802. /*
  803. * Now go through and destroy any port forwardings which were
  804. * not re-enabled.
  805. */
  806. for (i = 0; (pfr = index234(mgr->forwardings, i)) != NULL; i++) {
  807. if (pfr->status == DESTROY) {
  808. char *message;
  809. message = dupprintf("%s port forwarding from %s%s%d",
  810. pfr->type == 'L' ? "local" :
  811. pfr->type == 'R' ? "remote" : "dynamic",
  812. pfr->saddr ? pfr->saddr : "",
  813. pfr->saddr ? ":" : "",
  814. pfr->sport);
  815. if (pfr->type != 'D') {
  816. char *msg2 = dupprintf("%s to %s:%d", message,
  817. pfr->daddr, pfr->dport);
  818. sfree(message);
  819. message = msg2;
  820. }
  821. logeventf(mgr->cl->logctx, "Cancelling %s", message);
  822. sfree(message);
  823. /* pfr->remote or pfr->local may be NULL if setting up a
  824. * forwarding failed. */
  825. if (pfr->remote) {
  826. /*
  827. * Cancel the port forwarding at the server
  828. * end.
  829. *
  830. * Actually closing the listening port on the server
  831. * side may fail - because in SSH-1 there's no message
  832. * in the protocol to request it!
  833. *
  834. * Instead, we simply remove the record of the
  835. * forwarding from our local end, so that any
  836. * connections the server tries to make on it are
  837. * rejected.
  838. */
  839. ssh_rportfwd_remove(mgr->cl, pfr->remote);
  840. } else if (pfr->local) {
  841. pfl_terminate(pfr->local);
  842. }
  843. delpos234(mgr->forwardings, i);
  844. pfr_free(pfr);
  845. i--; /* so we don't skip one in the list */
  846. }
  847. }
  848. /*
  849. * And finally, set up any new port forwardings (status==CREATE).
  850. */
  851. for (i = 0; (pfr = index234(mgr->forwardings, i)) != NULL; i++) {
  852. if (pfr->status == CREATE) {
  853. char *sportdesc, *dportdesc;
  854. sportdesc = dupprintf("%s%s%s%s%d%s",
  855. pfr->saddr ? pfr->saddr : "",
  856. pfr->saddr ? ":" : "",
  857. pfr->sserv ? pfr->sserv : "",
  858. pfr->sserv ? "(" : "",
  859. pfr->sport,
  860. pfr->sserv ? ")" : "");
  861. if (pfr->type == 'D') {
  862. dportdesc = NULL;
  863. } else {
  864. dportdesc = dupprintf("%s:%s%s%d%s",
  865. pfr->daddr,
  866. pfr->dserv ? pfr->dserv : "",
  867. pfr->dserv ? "(" : "",
  868. pfr->dport,
  869. pfr->dserv ? ")" : "");
  870. }
  871. if (pfr->type == 'L') {
  872. char *err = pfl_listen(pfr->daddr, pfr->dport,
  873. pfr->saddr, pfr->sport,
  874. mgr->cl, conf, &pfr->local,
  875. pfr->addressfamily);
  876. logeventf(mgr->cl->logctx,
  877. "Local %sport %s forwarding to %s%s%s",
  878. pfr->addressfamily == ADDRTYPE_IPV4 ? "IPv4 " :
  879. pfr->addressfamily == ADDRTYPE_IPV6 ? "IPv6 " : "",
  880. sportdesc, dportdesc,
  881. err ? " failed: " : "", err ? err : "");
  882. if (err)
  883. sfree(err);
  884. } else if (pfr->type == 'D') {
  885. char *err = pfl_listen(NULL, -1, pfr->saddr, pfr->sport,
  886. mgr->cl, conf, &pfr->local,
  887. pfr->addressfamily);
  888. logeventf(mgr->cl->logctx,
  889. "Local %sport %s SOCKS dynamic forwarding%s%s",
  890. pfr->addressfamily == ADDRTYPE_IPV4 ? "IPv4 " :
  891. pfr->addressfamily == ADDRTYPE_IPV6 ? "IPv6 " : "",
  892. sportdesc,
  893. err ? " failed: " : "", err ? err : "");
  894. if (err)
  895. sfree(err);
  896. } else {
  897. const char *shost;
  898. if (pfr->saddr) {
  899. shost = pfr->saddr;
  900. } else if (conf_get_bool(conf, CONF_rport_acceptall)) {
  901. shost = "";
  902. } else {
  903. shost = "localhost";
  904. }
  905. pfr->remote = ssh_rportfwd_alloc(
  906. mgr->cl, shost, pfr->sport, pfr->daddr, pfr->dport,
  907. pfr->addressfamily, sportdesc, pfr, NULL);
  908. if (!pfr->remote) {
  909. logeventf(mgr->cl->logctx,
  910. "Duplicate remote port forwarding to %s:%d",
  911. pfr->daddr, pfr->dport);
  912. pfr_free(pfr);
  913. } else {
  914. logeventf(mgr->cl->logctx, "Requesting remote port %s"
  915. " forward to %s", sportdesc, dportdesc);
  916. }
  917. }
  918. sfree(sportdesc);
  919. sfree(dportdesc);
  920. }
  921. }
  922. }
  923. bool portfwdmgr_listen(PortFwdManager *mgr, const char *host, int port,
  924. const char *keyhost, int keyport, Conf *conf)
  925. {
  926. PortFwdRecord *pfr;
  927. pfr = snew(PortFwdRecord);
  928. pfr->type = 'L';
  929. pfr->saddr = host ? dupstr(host) : NULL;
  930. pfr->daddr = keyhost ? dupstr(keyhost) : NULL;
  931. pfr->sserv = pfr->dserv = NULL;
  932. pfr->sport = port;
  933. pfr->dport = keyport;
  934. pfr->local = NULL;
  935. pfr->remote = NULL;
  936. pfr->addressfamily = ADDRTYPE_UNSPEC;
  937. { // WINSCP
  938. PortFwdRecord *existing = add234(mgr->forwardings, pfr);
  939. if (existing != pfr) {
  940. /*
  941. * We had this record already. Return failure.
  942. */
  943. pfr_free(pfr);
  944. return false;
  945. }
  946. } // WINSCP
  947. { // WINSCP
  948. char *err = pfl_listen(keyhost, keyport, host, port,
  949. mgr->cl, conf, &pfr->local, pfr->addressfamily);
  950. logeventf(mgr->cl->logctx,
  951. "%s on port %s:%d to forward to client%s%s",
  952. err ? "Failed to listen" : "Listening", host, port,
  953. err ? ": " : "", err ? err : "");
  954. if (err) {
  955. sfree(err);
  956. del234(mgr->forwardings, pfr);
  957. pfr_free(pfr);
  958. return false;
  959. }
  960. } // WINSCP
  961. return true;
  962. }
  963. bool portfwdmgr_unlisten(PortFwdManager *mgr, const char *host, int port)
  964. {
  965. PortFwdRecord pfr_key;
  966. pfr_key.type = 'L';
  967. /* Safe to cast the const away here, because it will only be used
  968. * by pfr_cmp, which won't write to the string */
  969. pfr_key.saddr = pfr_key.daddr = (char *)host;
  970. pfr_key.sserv = pfr_key.dserv = NULL;
  971. pfr_key.sport = pfr_key.dport = port;
  972. pfr_key.local = NULL;
  973. pfr_key.remote = NULL;
  974. pfr_key.addressfamily = ADDRTYPE_UNSPEC;
  975. { // WINSCP
  976. PortFwdRecord *pfr = del234(mgr->forwardings, &pfr_key);
  977. if (!pfr)
  978. return false;
  979. logeventf(mgr->cl->logctx, "Closing listening port %s:%d", host, port);
  980. pfr_free(pfr);
  981. } // WINSCP
  982. return true;
  983. }
  984. /*
  985. * Called when receiving a PORT OPEN from the server to make a
  986. * connection to a destination host.
  987. *
  988. * On success, returns NULL and fills in *pf_ret. On error, returns a
  989. * dynamically allocated error message string.
  990. */
  991. char *portfwdmgr_connect(PortFwdManager *mgr, Channel **chan_ret,
  992. char *hostname, int port, SshChannel *c,
  993. int addressfamily)
  994. {
  995. SockAddr *addr;
  996. const char *err;
  997. char *dummy_realhost = NULL;
  998. struct PortForwarding *pf;
  999. /*
  1000. * Try to find host.
  1001. */
  1002. addr = name_lookup(hostname, port, &dummy_realhost, mgr->conf,
  1003. addressfamily, NULL, NULL);
  1004. if ((err = sk_addr_error(addr)) != NULL) {
  1005. char *err_ret = dupstr(err);
  1006. sk_addr_free(addr);
  1007. sfree(dummy_realhost);
  1008. return err_ret;
  1009. }
  1010. /*
  1011. * Open socket.
  1012. */
  1013. pf = new_portfwd_state();
  1014. *chan_ret = &pf->chan;
  1015. pf->plug.vt = &PortForwarding_plugvt;
  1016. pf->chan.initial_fixed_window_size = 0;
  1017. pf->chan.vt = &PortForwarding_channelvt;
  1018. pf->input_wanted = true;
  1019. pf->ready = true;
  1020. pf->c = c;
  1021. pf->cl = mgr->cl;
  1022. pf->socks_state = SOCKS_NONE;
  1023. pf->s = new_connection(addr, dummy_realhost, port,
  1024. false, true, false, false, &pf->plug, mgr->conf);
  1025. sfree(dummy_realhost);
  1026. if ((err = sk_socket_error(pf->s)) != NULL) {
  1027. char *err_ret = dupstr(err);
  1028. sk_close(pf->s);
  1029. free_portfwd_state(pf);
  1030. *chan_ret = NULL;
  1031. return err_ret;
  1032. }
  1033. return NULL;
  1034. }
  1035. #ifdef MPEXT
  1036. #include "puttyexp.h"
  1037. int is_pfwd(Plug * plug)
  1038. {
  1039. return
  1040. (plug->vt->closing == pfd_closing) ||
  1041. (plug->vt->closing == pfl_closing);
  1042. }
  1043. Seat * get_pfwd_seat(Plug * plug)
  1044. {
  1045. LogContext * logctx;
  1046. if (plug->vt->closing == pfl_closing)
  1047. {
  1048. struct PortListener *pl = container_of(plug, struct PortListener, plug);
  1049. logctx = pl->cl->logctx;
  1050. }
  1051. else if (plug->vt->closing == pfd_closing)
  1052. {
  1053. struct PortForwarding *pf = container_of(plug, struct PortForwarding, plug);
  1054. logctx = pf->cl->logctx;
  1055. }
  1056. return get_log_seat(logctx);
  1057. }
  1058. #endif