6c1aeb7529793dc00704682d7a4f465ab1371e2c
[u/mdw/putty] / ssh.c
1 #include <stdio.h>
2 #include <stdlib.h>
3 #include <stdarg.h>
4 #include <assert.h>
5
6 #include "putty.h"
7 #include "tree234.h"
8 #include "ssh.h"
9
10 #ifndef FALSE
11 #define FALSE 0
12 #endif
13 #ifndef TRUE
14 #define TRUE 1
15 #endif
16
17 #define SSH1_MSG_DISCONNECT 1 /* 0x1 */
18 #define SSH1_SMSG_PUBLIC_KEY 2 /* 0x2 */
19 #define SSH1_CMSG_SESSION_KEY 3 /* 0x3 */
20 #define SSH1_CMSG_USER 4 /* 0x4 */
21 #define SSH1_CMSG_AUTH_RSA 6 /* 0x6 */
22 #define SSH1_SMSG_AUTH_RSA_CHALLENGE 7 /* 0x7 */
23 #define SSH1_CMSG_AUTH_RSA_RESPONSE 8 /* 0x8 */
24 #define SSH1_CMSG_AUTH_PASSWORD 9 /* 0x9 */
25 #define SSH1_CMSG_REQUEST_PTY 10 /* 0xa */
26 #define SSH1_CMSG_WINDOW_SIZE 11 /* 0xb */
27 #define SSH1_CMSG_EXEC_SHELL 12 /* 0xc */
28 #define SSH1_CMSG_EXEC_CMD 13 /* 0xd */
29 #define SSH1_SMSG_SUCCESS 14 /* 0xe */
30 #define SSH1_SMSG_FAILURE 15 /* 0xf */
31 #define SSH1_CMSG_STDIN_DATA 16 /* 0x10 */
32 #define SSH1_SMSG_STDOUT_DATA 17 /* 0x11 */
33 #define SSH1_SMSG_STDERR_DATA 18 /* 0x12 */
34 #define SSH1_CMSG_EOF 19 /* 0x13 */
35 #define SSH1_SMSG_EXIT_STATUS 20 /* 0x14 */
36 #define SSH1_MSG_CHANNEL_OPEN_CONFIRMATION 21 /* 0x15 */
37 #define SSH1_MSG_CHANNEL_OPEN_FAILURE 22 /* 0x16 */
38 #define SSH1_MSG_CHANNEL_DATA 23 /* 0x17 */
39 #define SSH1_MSG_CHANNEL_CLOSE 24 /* 0x18 */
40 #define SSH1_MSG_CHANNEL_CLOSE_CONFIRMATION 25 /* 0x19 */
41 #define SSH1_SMSG_X11_OPEN 27 /* 0x1b */
42 #define SSH1_CMSG_PORT_FORWARD_REQUEST 28 /* 0x1c */
43 #define SSH1_MSG_PORT_OPEN 29 /* 0x1d */
44 #define SSH1_CMSG_AGENT_REQUEST_FORWARDING 30 /* 0x1e */
45 #define SSH1_SMSG_AGENT_OPEN 31 /* 0x1f */
46 #define SSH1_MSG_IGNORE 32 /* 0x20 */
47 #define SSH1_CMSG_EXIT_CONFIRMATION 33 /* 0x21 */
48 #define SSH1_CMSG_X11_REQUEST_FORWARDING 34 /* 0x22 */
49 #define SSH1_CMSG_AUTH_RHOSTS_RSA 35 /* 0x23 */
50 #define SSH1_MSG_DEBUG 36 /* 0x24 */
51 #define SSH1_CMSG_REQUEST_COMPRESSION 37 /* 0x25 */
52 #define SSH1_CMSG_AUTH_TIS 39 /* 0x27 */
53 #define SSH1_SMSG_AUTH_TIS_CHALLENGE 40 /* 0x28 */
54 #define SSH1_CMSG_AUTH_TIS_RESPONSE 41 /* 0x29 */
55 #define SSH1_CMSG_AUTH_CCARD 70 /* 0x46 */
56 #define SSH1_SMSG_AUTH_CCARD_CHALLENGE 71 /* 0x47 */
57 #define SSH1_CMSG_AUTH_CCARD_RESPONSE 72 /* 0x48 */
58
59 #define SSH1_AUTH_TIS 5 /* 0x5 */
60 #define SSH1_AUTH_CCARD 16 /* 0x10 */
61
62 #define SSH1_PROTOFLAG_SCREEN_NUMBER 1 /* 0x1 */
63 /* Mask for protoflags we will echo back to server if seen */
64 #define SSH1_PROTOFLAGS_SUPPORTED 0 /* 0x1 */
65
66 #define SSH2_MSG_DISCONNECT 1 /* 0x1 */
67 #define SSH2_MSG_IGNORE 2 /* 0x2 */
68 #define SSH2_MSG_UNIMPLEMENTED 3 /* 0x3 */
69 #define SSH2_MSG_DEBUG 4 /* 0x4 */
70 #define SSH2_MSG_SERVICE_REQUEST 5 /* 0x5 */
71 #define SSH2_MSG_SERVICE_ACCEPT 6 /* 0x6 */
72 #define SSH2_MSG_KEXINIT 20 /* 0x14 */
73 #define SSH2_MSG_NEWKEYS 21 /* 0x15 */
74 #define SSH2_MSG_KEXDH_INIT 30 /* 0x1e */
75 #define SSH2_MSG_KEXDH_REPLY 31 /* 0x1f */
76 #define SSH2_MSG_KEX_DH_GEX_REQUEST 30 /* 0x1e */
77 #define SSH2_MSG_KEX_DH_GEX_GROUP 31 /* 0x1f */
78 #define SSH2_MSG_KEX_DH_GEX_INIT 32 /* 0x20 */
79 #define SSH2_MSG_KEX_DH_GEX_REPLY 33 /* 0x21 */
80 #define SSH2_MSG_USERAUTH_REQUEST 50 /* 0x32 */
81 #define SSH2_MSG_USERAUTH_FAILURE 51 /* 0x33 */
82 #define SSH2_MSG_USERAUTH_SUCCESS 52 /* 0x34 */
83 #define SSH2_MSG_USERAUTH_BANNER 53 /* 0x35 */
84 #define SSH2_MSG_USERAUTH_PK_OK 60 /* 0x3c */
85 #define SSH2_MSG_USERAUTH_PASSWD_CHANGEREQ 60 /* 0x3c */
86 #define SSH2_MSG_USERAUTH_INFO_REQUEST 60 /* 0x3c */
87 #define SSH2_MSG_USERAUTH_INFO_RESPONSE 61 /* 0x3d */
88 #define SSH2_MSG_GLOBAL_REQUEST 80 /* 0x50 */
89 #define SSH2_MSG_REQUEST_SUCCESS 81 /* 0x51 */
90 #define SSH2_MSG_REQUEST_FAILURE 82 /* 0x52 */
91 #define SSH2_MSG_CHANNEL_OPEN 90 /* 0x5a */
92 #define SSH2_MSG_CHANNEL_OPEN_CONFIRMATION 91 /* 0x5b */
93 #define SSH2_MSG_CHANNEL_OPEN_FAILURE 92 /* 0x5c */
94 #define SSH2_MSG_CHANNEL_WINDOW_ADJUST 93 /* 0x5d */
95 #define SSH2_MSG_CHANNEL_DATA 94 /* 0x5e */
96 #define SSH2_MSG_CHANNEL_EXTENDED_DATA 95 /* 0x5f */
97 #define SSH2_MSG_CHANNEL_EOF 96 /* 0x60 */
98 #define SSH2_MSG_CHANNEL_CLOSE 97 /* 0x61 */
99 #define SSH2_MSG_CHANNEL_REQUEST 98 /* 0x62 */
100 #define SSH2_MSG_CHANNEL_SUCCESS 99 /* 0x63 */
101 #define SSH2_MSG_CHANNEL_FAILURE 100 /* 0x64 */
102
103 /*
104 * Packet type contexts, so that ssh2_pkt_type can correctly decode
105 * the ambiguous type numbers back into the correct type strings.
106 */
107 #define SSH2_PKTCTX_DHGROUP1 0x0001
108 #define SSH2_PKTCTX_DHGEX 0x0002
109 #define SSH2_PKTCTX_PUBLICKEY 0x0010
110 #define SSH2_PKTCTX_PASSWORD 0x0020
111 #define SSH2_PKTCTX_KBDINTER 0x0040
112 #define SSH2_PKTCTX_AUTH_MASK 0x00F0
113
114 #define SSH2_DISCONNECT_HOST_NOT_ALLOWED_TO_CONNECT 1 /* 0x1 */
115 #define SSH2_DISCONNECT_PROTOCOL_ERROR 2 /* 0x2 */
116 #define SSH2_DISCONNECT_KEY_EXCHANGE_FAILED 3 /* 0x3 */
117 #define SSH2_DISCONNECT_HOST_AUTHENTICATION_FAILED 4 /* 0x4 */
118 #define SSH2_DISCONNECT_MAC_ERROR 5 /* 0x5 */
119 #define SSH2_DISCONNECT_COMPRESSION_ERROR 6 /* 0x6 */
120 #define SSH2_DISCONNECT_SERVICE_NOT_AVAILABLE 7 /* 0x7 */
121 #define SSH2_DISCONNECT_PROTOCOL_VERSION_NOT_SUPPORTED 8 /* 0x8 */
122 #define SSH2_DISCONNECT_HOST_KEY_NOT_VERIFIABLE 9 /* 0x9 */
123 #define SSH2_DISCONNECT_CONNECTION_LOST 10 /* 0xa */
124 #define SSH2_DISCONNECT_BY_APPLICATION 11 /* 0xb */
125 #define SSH2_DISCONNECT_TOO_MANY_CONNECTIONS 12 /* 0xc */
126 #define SSH2_DISCONNECT_AUTH_CANCELLED_BY_USER 13 /* 0xd */
127 #define SSH2_DISCONNECT_NO_MORE_AUTH_METHODS_AVAILABLE 14 /* 0xe */
128 #define SSH2_DISCONNECT_ILLEGAL_USER_NAME 15 /* 0xf */
129
130 static const char *const ssh2_disconnect_reasons[] = {
131 NULL,
132 "SSH_DISCONNECT_HOST_NOT_ALLOWED_TO_CONNECT",
133 "SSH_DISCONNECT_PROTOCOL_ERROR",
134 "SSH_DISCONNECT_KEY_EXCHANGE_FAILED",
135 "SSH_DISCONNECT_HOST_AUTHENTICATION_FAILED",
136 "SSH_DISCONNECT_MAC_ERROR",
137 "SSH_DISCONNECT_COMPRESSION_ERROR",
138 "SSH_DISCONNECT_SERVICE_NOT_AVAILABLE",
139 "SSH_DISCONNECT_PROTOCOL_VERSION_NOT_SUPPORTED",
140 "SSH_DISCONNECT_HOST_KEY_NOT_VERIFIABLE",
141 "SSH_DISCONNECT_CONNECTION_LOST",
142 "SSH_DISCONNECT_BY_APPLICATION",
143 "SSH_DISCONNECT_TOO_MANY_CONNECTIONS",
144 "SSH_DISCONNECT_AUTH_CANCELLED_BY_USER",
145 "SSH_DISCONNECT_NO_MORE_AUTH_METHODS_AVAILABLE",
146 "SSH_DISCONNECT_ILLEGAL_USER_NAME",
147 };
148
149 #define SSH2_OPEN_ADMINISTRATIVELY_PROHIBITED 1 /* 0x1 */
150 #define SSH2_OPEN_CONNECT_FAILED 2 /* 0x2 */
151 #define SSH2_OPEN_UNKNOWN_CHANNEL_TYPE 3 /* 0x3 */
152 #define SSH2_OPEN_RESOURCE_SHORTAGE 4 /* 0x4 */
153
154 #define SSH2_EXTENDED_DATA_STDERR 1 /* 0x1 */
155
156 /*
157 * Various remote-bug flags.
158 */
159 #define BUG_CHOKES_ON_SSH1_IGNORE 1
160 #define BUG_SSH2_HMAC 2
161 #define BUG_NEEDS_SSH1_PLAIN_PASSWORD 4
162 #define BUG_CHOKES_ON_RSA 8
163 #define BUG_SSH2_RSA_PADDING 16
164 #define BUG_SSH2_DERIVEKEY 32
165 #define BUG_SSH2_DH_GEX 64
166 #define BUG_SSH2_PK_SESSIONID 128
167
168 #define translate(x) if (type == x) return #x
169 #define translatec(x,ctx) if (type == x && (pkt_ctx & ctx)) return #x
170 static char *ssh1_pkt_type(int type)
171 {
172 translate(SSH1_MSG_DISCONNECT);
173 translate(SSH1_SMSG_PUBLIC_KEY);
174 translate(SSH1_CMSG_SESSION_KEY);
175 translate(SSH1_CMSG_USER);
176 translate(SSH1_CMSG_AUTH_RSA);
177 translate(SSH1_SMSG_AUTH_RSA_CHALLENGE);
178 translate(SSH1_CMSG_AUTH_RSA_RESPONSE);
179 translate(SSH1_CMSG_AUTH_PASSWORD);
180 translate(SSH1_CMSG_REQUEST_PTY);
181 translate(SSH1_CMSG_WINDOW_SIZE);
182 translate(SSH1_CMSG_EXEC_SHELL);
183 translate(SSH1_CMSG_EXEC_CMD);
184 translate(SSH1_SMSG_SUCCESS);
185 translate(SSH1_SMSG_FAILURE);
186 translate(SSH1_CMSG_STDIN_DATA);
187 translate(SSH1_SMSG_STDOUT_DATA);
188 translate(SSH1_SMSG_STDERR_DATA);
189 translate(SSH1_CMSG_EOF);
190 translate(SSH1_SMSG_EXIT_STATUS);
191 translate(SSH1_MSG_CHANNEL_OPEN_CONFIRMATION);
192 translate(SSH1_MSG_CHANNEL_OPEN_FAILURE);
193 translate(SSH1_MSG_CHANNEL_DATA);
194 translate(SSH1_MSG_CHANNEL_CLOSE);
195 translate(SSH1_MSG_CHANNEL_CLOSE_CONFIRMATION);
196 translate(SSH1_SMSG_X11_OPEN);
197 translate(SSH1_CMSG_PORT_FORWARD_REQUEST);
198 translate(SSH1_MSG_PORT_OPEN);
199 translate(SSH1_CMSG_AGENT_REQUEST_FORWARDING);
200 translate(SSH1_SMSG_AGENT_OPEN);
201 translate(SSH1_MSG_IGNORE);
202 translate(SSH1_CMSG_EXIT_CONFIRMATION);
203 translate(SSH1_CMSG_X11_REQUEST_FORWARDING);
204 translate(SSH1_CMSG_AUTH_RHOSTS_RSA);
205 translate(SSH1_MSG_DEBUG);
206 translate(SSH1_CMSG_REQUEST_COMPRESSION);
207 translate(SSH1_CMSG_AUTH_TIS);
208 translate(SSH1_SMSG_AUTH_TIS_CHALLENGE);
209 translate(SSH1_CMSG_AUTH_TIS_RESPONSE);
210 translate(SSH1_CMSG_AUTH_CCARD);
211 translate(SSH1_SMSG_AUTH_CCARD_CHALLENGE);
212 translate(SSH1_CMSG_AUTH_CCARD_RESPONSE);
213 return "unknown";
214 }
215 static char *ssh2_pkt_type(int pkt_ctx, int type)
216 {
217 translate(SSH2_MSG_DISCONNECT);
218 translate(SSH2_MSG_IGNORE);
219 translate(SSH2_MSG_UNIMPLEMENTED);
220 translate(SSH2_MSG_DEBUG);
221 translate(SSH2_MSG_SERVICE_REQUEST);
222 translate(SSH2_MSG_SERVICE_ACCEPT);
223 translate(SSH2_MSG_KEXINIT);
224 translate(SSH2_MSG_NEWKEYS);
225 translatec(SSH2_MSG_KEXDH_INIT, SSH2_PKTCTX_DHGROUP1);
226 translatec(SSH2_MSG_KEXDH_REPLY, SSH2_PKTCTX_DHGROUP1);
227 translatec(SSH2_MSG_KEX_DH_GEX_REQUEST, SSH2_PKTCTX_DHGEX);
228 translatec(SSH2_MSG_KEX_DH_GEX_GROUP, SSH2_PKTCTX_DHGEX);
229 translatec(SSH2_MSG_KEX_DH_GEX_INIT, SSH2_PKTCTX_DHGEX);
230 translatec(SSH2_MSG_KEX_DH_GEX_REPLY, SSH2_PKTCTX_DHGEX);
231 translate(SSH2_MSG_USERAUTH_REQUEST);
232 translate(SSH2_MSG_USERAUTH_FAILURE);
233 translate(SSH2_MSG_USERAUTH_SUCCESS);
234 translate(SSH2_MSG_USERAUTH_BANNER);
235 translatec(SSH2_MSG_USERAUTH_PK_OK, SSH2_PKTCTX_PUBLICKEY);
236 translatec(SSH2_MSG_USERAUTH_PASSWD_CHANGEREQ, SSH2_PKTCTX_PASSWORD);
237 translatec(SSH2_MSG_USERAUTH_INFO_REQUEST, SSH2_PKTCTX_KBDINTER);
238 translatec(SSH2_MSG_USERAUTH_INFO_RESPONSE, SSH2_PKTCTX_KBDINTER);
239 translate(SSH2_MSG_GLOBAL_REQUEST);
240 translate(SSH2_MSG_REQUEST_SUCCESS);
241 translate(SSH2_MSG_REQUEST_FAILURE);
242 translate(SSH2_MSG_CHANNEL_OPEN);
243 translate(SSH2_MSG_CHANNEL_OPEN_CONFIRMATION);
244 translate(SSH2_MSG_CHANNEL_OPEN_FAILURE);
245 translate(SSH2_MSG_CHANNEL_WINDOW_ADJUST);
246 translate(SSH2_MSG_CHANNEL_DATA);
247 translate(SSH2_MSG_CHANNEL_EXTENDED_DATA);
248 translate(SSH2_MSG_CHANNEL_EOF);
249 translate(SSH2_MSG_CHANNEL_CLOSE);
250 translate(SSH2_MSG_CHANNEL_REQUEST);
251 translate(SSH2_MSG_CHANNEL_SUCCESS);
252 translate(SSH2_MSG_CHANNEL_FAILURE);
253 return "unknown";
254 }
255 #undef translate
256 #undef translatec
257
258 #define GET_32BIT(cp) \
259 (((unsigned long)(unsigned char)(cp)[0] << 24) | \
260 ((unsigned long)(unsigned char)(cp)[1] << 16) | \
261 ((unsigned long)(unsigned char)(cp)[2] << 8) | \
262 ((unsigned long)(unsigned char)(cp)[3]))
263
264 #define PUT_32BIT(cp, value) { \
265 (cp)[0] = (unsigned char)((value) >> 24); \
266 (cp)[1] = (unsigned char)((value) >> 16); \
267 (cp)[2] = (unsigned char)((value) >> 8); \
268 (cp)[3] = (unsigned char)(value); }
269
270 enum { PKT_END, PKT_INT, PKT_CHAR, PKT_DATA, PKT_STR, PKT_BIGNUM };
271
272 /*
273 * Coroutine mechanics for the sillier bits of the code. If these
274 * macros look impenetrable to you, you might find it helpful to
275 * read
276 *
277 * http://www.chiark.greenend.org.uk/~sgtatham/coroutines.html
278 *
279 * which explains the theory behind these macros.
280 *
281 * In particular, if you are getting `case expression not constant'
282 * errors when building with MS Visual Studio, this is because MS's
283 * Edit and Continue debugging feature causes their compiler to
284 * violate ANSI C. To disable Edit and Continue debugging:
285 *
286 * - right-click ssh.c in the FileView
287 * - click Settings
288 * - select the C/C++ tab and the General category
289 * - under `Debug info:', select anything _other_ than `Program
290 * Database for Edit and Continue'.
291 */
292 #define crBegin(v) { int *crLine = &v; switch(v) { case 0:;
293 #define crState(t) \
294 struct t *s; \
295 if (!ssh->t) ssh->t = snew(struct t); \
296 s = ssh->t;
297 #define crFinish(z) } *crLine = 0; return (z); }
298 #define crFinishV } *crLine = 0; return; }
299 #define crReturn(z) \
300 do {\
301 *crLine =__LINE__; return (z); case __LINE__:;\
302 } while (0)
303 #define crReturnV \
304 do {\
305 *crLine=__LINE__; return; case __LINE__:;\
306 } while (0)
307 #define crStop(z) do{ *crLine = 0; return (z); }while(0)
308 #define crStopV do{ *crLine = 0; return; }while(0)
309 #define crWaitUntil(c) do { crReturn(0); } while (!(c))
310 #define crWaitUntilV(c) do { crReturnV; } while (!(c))
311
312 typedef struct ssh_tag *Ssh;
313
314 static void ssh2_pkt_init(Ssh, int pkt_type);
315 static void ssh2_pkt_addbool(Ssh, unsigned char value);
316 static void ssh2_pkt_adduint32(Ssh, unsigned long value);
317 static void ssh2_pkt_addstring_start(Ssh);
318 static void ssh2_pkt_addstring_str(Ssh, char *data);
319 static void ssh2_pkt_addstring_data(Ssh, char *data, int len);
320 static void ssh2_pkt_addstring(Ssh, char *data);
321 static unsigned char *ssh2_mpint_fmt(Bignum b, int *len);
322 static void ssh2_pkt_addmp(Ssh, Bignum b);
323 static int ssh2_pkt_construct(Ssh);
324 static void ssh2_pkt_send(Ssh);
325 static int do_ssh1_login(Ssh ssh, unsigned char *in, int inlen, int ispkt);
326 static void do_ssh2_authconn(Ssh ssh, unsigned char *in, int inlen, int ispkt);
327
328 /*
329 * Buffer management constants. There are several of these for
330 * various different purposes:
331 *
332 * - SSH1_BUFFER_LIMIT is the amount of backlog that must build up
333 * on a local data stream before we throttle the whole SSH
334 * connection (in SSH1 only). Throttling the whole connection is
335 * pretty drastic so we set this high in the hope it won't
336 * happen very often.
337 *
338 * - SSH_MAX_BACKLOG is the amount of backlog that must build up
339 * on the SSH connection itself before we defensively throttle
340 * _all_ local data streams. This is pretty drastic too (though
341 * thankfully unlikely in SSH2 since the window mechanism should
342 * ensure that the server never has any need to throttle its end
343 * of the connection), so we set this high as well.
344 *
345 * - OUR_V2_WINSIZE is the maximum window size we present on SSH2
346 * channels.
347 */
348
349 #define SSH1_BUFFER_LIMIT 32768
350 #define SSH_MAX_BACKLOG 32768
351 #define OUR_V2_WINSIZE 16384
352
353 const static struct ssh_kex *kex_algs[] = {
354 &ssh_diffiehellman_gex,
355 &ssh_diffiehellman
356 };
357
358 const static struct ssh_signkey *hostkey_algs[] = { &ssh_rsa, &ssh_dss };
359
360 static void *nullmac_make_context(void)
361 {
362 return NULL;
363 }
364 static void nullmac_free_context(void *handle)
365 {
366 }
367 static void nullmac_key(void *handle, unsigned char *key)
368 {
369 }
370 static void nullmac_generate(void *handle, unsigned char *blk, int len,
371 unsigned long seq)
372 {
373 }
374 static int nullmac_verify(void *handle, unsigned char *blk, int len,
375 unsigned long seq)
376 {
377 return 1;
378 }
379 const static struct ssh_mac ssh_mac_none = {
380 nullmac_make_context, nullmac_free_context, nullmac_key,
381 nullmac_generate, nullmac_verify, "none", 0
382 };
383 const static struct ssh_mac *macs[] = {
384 &ssh_sha1, &ssh_md5, &ssh_mac_none
385 };
386 const static struct ssh_mac *buggymacs[] = {
387 &ssh_sha1_buggy, &ssh_md5, &ssh_mac_none
388 };
389
390 static void *ssh_comp_none_init(void)
391 {
392 return NULL;
393 }
394 static void ssh_comp_none_cleanup(void *handle)
395 {
396 }
397 static int ssh_comp_none_block(void *handle, unsigned char *block, int len,
398 unsigned char **outblock, int *outlen)
399 {
400 return 0;
401 }
402 static int ssh_comp_none_disable(void *handle)
403 {
404 return 0;
405 }
406 const static struct ssh_compress ssh_comp_none = {
407 "none",
408 ssh_comp_none_init, ssh_comp_none_cleanup, ssh_comp_none_block,
409 ssh_comp_none_init, ssh_comp_none_cleanup, ssh_comp_none_block,
410 ssh_comp_none_disable, NULL
411 };
412 extern const struct ssh_compress ssh_zlib;
413 const static struct ssh_compress *compressions[] = {
414 &ssh_zlib, &ssh_comp_none
415 };
416
417 enum { /* channel types */
418 CHAN_MAINSESSION,
419 CHAN_X11,
420 CHAN_AGENT,
421 CHAN_SOCKDATA,
422 CHAN_SOCKDATA_DORMANT /* one the remote hasn't confirmed */
423 };
424
425 /*
426 * 2-3-4 tree storing channels.
427 */
428 struct ssh_channel {
429 Ssh ssh; /* pointer back to main context */
430 unsigned remoteid, localid;
431 int type;
432 /*
433 * In SSH1, this value contains four bits:
434 *
435 * 1 We have sent SSH1_MSG_CHANNEL_CLOSE.
436 * 2 We have sent SSH1_MSG_CHANNEL_CLOSE_CONFIRMATION.
437 * 4 We have received SSH1_MSG_CHANNEL_CLOSE.
438 * 8 We have received SSH1_MSG_CHANNEL_CLOSE_CONFIRMATION.
439 *
440 * A channel is completely finished with when all four bits are set.
441 */
442 int closes;
443 union {
444 struct ssh1_data_channel {
445 int throttling;
446 } v1;
447 struct ssh2_data_channel {
448 bufchain outbuffer;
449 unsigned remwindow, remmaxpkt;
450 unsigned locwindow;
451 } v2;
452 } v;
453 union {
454 struct ssh_agent_channel {
455 unsigned char *message;
456 unsigned char msglen[4];
457 int lensofar, totallen;
458 } a;
459 struct ssh_x11_channel {
460 Socket s;
461 } x11;
462 struct ssh_pfd_channel {
463 Socket s;
464 } pfd;
465 } u;
466 };
467
468 /*
469 * 2-3-4 tree storing remote->local port forwardings. SSH 1 and SSH
470 * 2 use this structure in different ways, reflecting SSH 2's
471 * altogether saner approach to port forwarding.
472 *
473 * In SSH 1, you arrange a remote forwarding by sending the server
474 * the remote port number, and the local destination host:port.
475 * When a connection comes in, the server sends you back that
476 * host:port pair, and you connect to it. This is a ready-made
477 * security hole if you're not on the ball: a malicious server
478 * could send you back _any_ host:port pair, so if you trustingly
479 * connect to the address it gives you then you've just opened the
480 * entire inside of your corporate network just by connecting
481 * through it to a dodgy SSH server. Hence, we must store a list of
482 * host:port pairs we _are_ trying to forward to, and reject a
483 * connection request from the server if it's not in the list.
484 *
485 * In SSH 2, each side of the connection minds its own business and
486 * doesn't send unnecessary information to the other. You arrange a
487 * remote forwarding by sending the server just the remote port
488 * number. When a connection comes in, the server tells you which
489 * of its ports was connected to; and _you_ have to remember what
490 * local host:port pair went with that port number.
491 *
492 * Hence: in SSH 1 this structure stores host:port pairs we intend
493 * to allow connections to, and is indexed by those host:port
494 * pairs. In SSH 2 it stores a mapping from source port to
495 * destination host:port pair, and is indexed by source port.
496 */
497 struct ssh_rportfwd {
498 unsigned sport, dport;
499 char dhost[256];
500 };
501
502 struct Packet {
503 long length;
504 int type;
505 unsigned char *data;
506 unsigned char *body;
507 long savedpos;
508 long maxlen;
509 };
510
511 static void ssh1_protocol(Ssh ssh, unsigned char *in, int inlen, int ispkt);
512 static void ssh2_protocol(Ssh ssh, unsigned char *in, int inlen, int ispkt);
513 static void ssh_size(void *handle, int width, int height);
514 static void ssh_special(void *handle, Telnet_Special);
515 static int ssh2_try_send(struct ssh_channel *c);
516 static void ssh2_add_channel_data(struct ssh_channel *c, char *buf, int len);
517 static void ssh_throttle_all(Ssh ssh, int enable, int bufsize);
518 static void ssh2_set_window(struct ssh_channel *c, unsigned newwin);
519 static int ssh_sendbuffer(void *handle);
520 static void ssh_do_close(Ssh ssh);
521
522 struct rdpkt1_state_tag {
523 long len, pad, biglen, to_read;
524 unsigned long realcrc, gotcrc;
525 unsigned char *p;
526 int i;
527 int chunk;
528 };
529
530 struct rdpkt2_state_tag {
531 long len, pad, payload, packetlen, maclen;
532 int i;
533 int cipherblk;
534 unsigned long incoming_sequence;
535 };
536
537 struct ssh_tag {
538 const struct plug_function_table *fn;
539 /* the above field _must_ be first in the structure */
540
541 SHA_State exhash, exhashbase;
542
543 Socket s;
544
545 void *ldisc;
546 void *logctx;
547
548 unsigned char session_key[32];
549 int v1_compressing;
550 int v1_remote_protoflags;
551 int v1_local_protoflags;
552 int agentfwd_enabled;
553 int X11_fwd_enabled;
554 int remote_bugs;
555 const struct ssh_cipher *cipher;
556 void *v1_cipher_ctx;
557 void *crcda_ctx;
558 const struct ssh2_cipher *cscipher, *sccipher;
559 void *cs_cipher_ctx, *sc_cipher_ctx;
560 const struct ssh_mac *csmac, *scmac;
561 void *cs_mac_ctx, *sc_mac_ctx;
562 const struct ssh_compress *cscomp, *sccomp;
563 void *cs_comp_ctx, *sc_comp_ctx;
564 const struct ssh_kex *kex;
565 const struct ssh_signkey *hostkey;
566 unsigned char v2_session_id[20];
567 void *kex_ctx;
568
569 char *savedhost;
570 int savedport;
571 int send_ok;
572 int echoing, editing;
573
574 void *frontend;
575
576 int term_width, term_height;
577
578 tree234 *channels; /* indexed by local id */
579 struct ssh_channel *mainchan; /* primary session channel */
580 int exitcode;
581
582 tree234 *rportfwds;
583
584 enum {
585 SSH_STATE_PREPACKET,
586 SSH_STATE_BEFORE_SIZE,
587 SSH_STATE_INTERMED,
588 SSH_STATE_SESSION,
589 SSH_STATE_CLOSED
590 } state;
591
592 int size_needed, eof_needed;
593
594 struct Packet pktin;
595 struct Packet pktout;
596 unsigned char *deferred_send_data;
597 int deferred_len, deferred_size;
598
599 /*
600 * Gross hack: pscp will try to start SFTP but fall back to
601 * scp1 if that fails. This variable is the means by which
602 * scp.c can reach into the SSH code and find out which one it
603 * got.
604 */
605 int fallback_cmd;
606
607 /*
608 * Used for username and password input.
609 */
610 char *userpass_input_buffer;
611 int userpass_input_buflen;
612 int userpass_input_bufpos;
613 int userpass_input_echo;
614
615 char *portfwd_strptr;
616 int pkt_ctx;
617
618 void *x11auth;
619
620 int version;
621 int v1_throttle_count;
622 int overall_bufsize;
623 int throttled_all;
624 int v1_stdout_throttling;
625 int v2_outgoing_sequence;
626
627 int ssh1_rdpkt_crstate;
628 int ssh2_rdpkt_crstate;
629 int do_ssh_init_crstate;
630 int ssh_gotdata_crstate;
631 int ssh1_protocol_crstate;
632 int do_ssh1_login_crstate;
633 int do_ssh2_transport_crstate;
634 int do_ssh2_authconn_crstate;
635
636 void *do_ssh_init_state;
637 void *do_ssh1_login_state;
638 void *do_ssh2_transport_state;
639 void *do_ssh2_authconn_state;
640
641 struct rdpkt1_state_tag rdpkt1_state;
642 struct rdpkt2_state_tag rdpkt2_state;
643
644 void (*protocol) (Ssh ssh, unsigned char *in, int inlen, int ispkt);
645 int (*s_rdpkt) (Ssh ssh, unsigned char **data, int *datalen);
646
647 /*
648 * We maintain a full _copy_ of a Config structure here, not
649 * merely a pointer to it. That way, when we're passed a new
650 * one for reconfiguration, we can check the differences and
651 * potentially reconfigure port forwardings etc in mid-session.
652 */
653 Config cfg;
654
655 /*
656 * Used to transfer data back from async agent callbacks.
657 */
658 void *agent_response;
659 int agent_response_len;
660 };
661
662 #define logevent(s) logevent(ssh->frontend, s)
663
664 /* logevent, only printf-formatted. */
665 static void logeventf(Ssh ssh, const char *fmt, ...)
666 {
667 va_list ap;
668 char *buf;
669
670 va_start(ap, fmt);
671 buf = dupvprintf(fmt, ap);
672 va_end(ap);
673 logevent(buf);
674 sfree(buf);
675 }
676
677 #define bombout(msg) \
678 do { \
679 char *text = dupprintf msg; \
680 ssh_do_close(ssh); \
681 logevent(text); \
682 connection_fatal(ssh->frontend, "%s", text); \
683 sfree(text); \
684 } while (0)
685
686 static int ssh_channelcmp(void *av, void *bv)
687 {
688 struct ssh_channel *a = (struct ssh_channel *) av;
689 struct ssh_channel *b = (struct ssh_channel *) bv;
690 if (a->localid < b->localid)
691 return -1;
692 if (a->localid > b->localid)
693 return +1;
694 return 0;
695 }
696 static int ssh_channelfind(void *av, void *bv)
697 {
698 unsigned *a = (unsigned *) av;
699 struct ssh_channel *b = (struct ssh_channel *) bv;
700 if (*a < b->localid)
701 return -1;
702 if (*a > b->localid)
703 return +1;
704 return 0;
705 }
706
707 static int ssh_rportcmp_ssh1(void *av, void *bv)
708 {
709 struct ssh_rportfwd *a = (struct ssh_rportfwd *) av;
710 struct ssh_rportfwd *b = (struct ssh_rportfwd *) bv;
711 int i;
712 if ( (i = strcmp(a->dhost, b->dhost)) != 0)
713 return i < 0 ? -1 : +1;
714 if (a->dport > b->dport)
715 return +1;
716 if (a->dport < b->dport)
717 return -1;
718 return 0;
719 }
720
721 static int ssh_rportcmp_ssh2(void *av, void *bv)
722 {
723 struct ssh_rportfwd *a = (struct ssh_rportfwd *) av;
724 struct ssh_rportfwd *b = (struct ssh_rportfwd *) bv;
725
726 if (a->sport > b->sport)
727 return +1;
728 if (a->sport < b->sport)
729 return -1;
730 return 0;
731 }
732
733 static int alloc_channel_id(Ssh ssh)
734 {
735 const unsigned CHANNEL_NUMBER_OFFSET = 256;
736 unsigned low, high, mid;
737 int tsize;
738 struct ssh_channel *c;
739
740 /*
741 * First-fit allocation of channel numbers: always pick the
742 * lowest unused one. To do this, binary-search using the
743 * counted B-tree to find the largest channel ID which is in a
744 * contiguous sequence from the beginning. (Precisely
745 * everything in that sequence must have ID equal to its tree
746 * index plus CHANNEL_NUMBER_OFFSET.)
747 */
748 tsize = count234(ssh->channels);
749
750 low = -1;
751 high = tsize;
752 while (high - low > 1) {
753 mid = (high + low) / 2;
754 c = index234(ssh->channels, mid);
755 if (c->localid == mid + CHANNEL_NUMBER_OFFSET)
756 low = mid; /* this one is fine */
757 else
758 high = mid; /* this one is past it */
759 }
760 /*
761 * Now low points to either -1, or the tree index of the
762 * largest ID in the initial sequence.
763 */
764 {
765 unsigned i = low + 1 + CHANNEL_NUMBER_OFFSET;
766 assert(NULL == find234(ssh->channels, &i, ssh_channelfind));
767 }
768 return low + 1 + CHANNEL_NUMBER_OFFSET;
769 }
770
771 static void c_write(Ssh ssh, const char *buf, int len)
772 {
773 if ((flags & FLAG_STDERR)) {
774 int i;
775 for (i = 0; i < len; i++)
776 if (buf[i] != '\r')
777 fputc(buf[i], stderr);
778 return;
779 }
780 from_backend(ssh->frontend, 1, buf, len);
781 }
782
783 static void c_write_untrusted(Ssh ssh, const char *buf, int len)
784 {
785 int i;
786 for (i = 0; i < len; i++) {
787 if (buf[i] == '\n')
788 c_write(ssh, "\r\n", 2);
789 else if ((buf[i] & 0x60) || (buf[i] == '\r'))
790 c_write(ssh, buf + i, 1);
791 }
792 }
793
794 static void c_write_str(Ssh ssh, const char *buf)
795 {
796 c_write(ssh, buf, strlen(buf));
797 }
798
799 /*
800 * Collect incoming data in the incoming packet buffer.
801 * Decipher and verify the packet when it is completely read.
802 * Drop SSH1_MSG_DEBUG and SSH1_MSG_IGNORE packets.
803 * Update the *data and *datalen variables.
804 * Return the additional nr of bytes needed, or 0 when
805 * a complete packet is available.
806 */
807 static int ssh1_rdpkt(Ssh ssh, unsigned char **data, int *datalen)
808 {
809 struct rdpkt1_state_tag *st = &ssh->rdpkt1_state;
810
811 crBegin(ssh->ssh1_rdpkt_crstate);
812
813 next_packet:
814
815 ssh->pktin.type = 0;
816 ssh->pktin.length = 0;
817
818 for (st->i = st->len = 0; st->i < 4; st->i++) {
819 while ((*datalen) == 0)
820 crReturn(4 - st->i);
821 st->len = (st->len << 8) + **data;
822 (*data)++, (*datalen)--;
823 }
824
825 st->pad = 8 - (st->len % 8);
826 st->biglen = st->len + st->pad;
827 ssh->pktin.length = st->len - 5;
828
829 if (ssh->pktin.maxlen < st->biglen) {
830 ssh->pktin.maxlen = st->biglen;
831 ssh->pktin.data = sresize(ssh->pktin.data, st->biglen + APIEXTRA,
832 unsigned char);
833 }
834
835 st->to_read = st->biglen;
836 st->p = ssh->pktin.data;
837 while (st->to_read > 0) {
838 st->chunk = st->to_read;
839 while ((*datalen) == 0)
840 crReturn(st->to_read);
841 if (st->chunk > (*datalen))
842 st->chunk = (*datalen);
843 memcpy(st->p, *data, st->chunk);
844 *data += st->chunk;
845 *datalen -= st->chunk;
846 st->p += st->chunk;
847 st->to_read -= st->chunk;
848 }
849
850 if (ssh->cipher && detect_attack(ssh->crcda_ctx, ssh->pktin.data,
851 st->biglen, NULL)) {
852 bombout(("Network attack (CRC compensation) detected!"));
853 crStop(0);
854 }
855
856 if (ssh->cipher)
857 ssh->cipher->decrypt(ssh->v1_cipher_ctx, ssh->pktin.data, st->biglen);
858
859 st->realcrc = crc32_compute(ssh->pktin.data, st->biglen - 4);
860 st->gotcrc = GET_32BIT(ssh->pktin.data + st->biglen - 4);
861 if (st->gotcrc != st->realcrc) {
862 bombout(("Incorrect CRC received on packet"));
863 crStop(0);
864 }
865
866 ssh->pktin.body = ssh->pktin.data + st->pad + 1;
867
868 if (ssh->v1_compressing) {
869 unsigned char *decompblk;
870 int decomplen;
871 if (!zlib_decompress_block(ssh->sc_comp_ctx,
872 ssh->pktin.body - 1, ssh->pktin.length + 1,
873 &decompblk, &decomplen)) {
874 bombout(("Zlib decompression encountered invalid data"));
875 crStop(0);
876 }
877
878 if (ssh->pktin.maxlen < st->pad + decomplen) {
879 ssh->pktin.maxlen = st->pad + decomplen;
880 ssh->pktin.data = sresize(ssh->pktin.data,
881 ssh->pktin.maxlen + APIEXTRA,
882 unsigned char);
883 ssh->pktin.body = ssh->pktin.data + st->pad + 1;
884 }
885
886 memcpy(ssh->pktin.body - 1, decompblk, decomplen);
887 sfree(decompblk);
888 ssh->pktin.length = decomplen - 1;
889 }
890
891 ssh->pktin.type = ssh->pktin.body[-1];
892
893 if (ssh->logctx)
894 log_packet(ssh->logctx,
895 PKT_INCOMING, ssh->pktin.type,
896 ssh1_pkt_type(ssh->pktin.type),
897 ssh->pktin.body, ssh->pktin.length);
898
899 if (ssh->pktin.type == SSH1_SMSG_STDOUT_DATA ||
900 ssh->pktin.type == SSH1_SMSG_STDERR_DATA ||
901 ssh->pktin.type == SSH1_MSG_DEBUG ||
902 ssh->pktin.type == SSH1_SMSG_AUTH_TIS_CHALLENGE ||
903 ssh->pktin.type == SSH1_SMSG_AUTH_CCARD_CHALLENGE) {
904 long stringlen = GET_32BIT(ssh->pktin.body);
905 if (stringlen + 4 != ssh->pktin.length) {
906 bombout(("Received data packet with bogus string length"));
907 crStop(0);
908 }
909 }
910
911 if (ssh->pktin.type == SSH1_MSG_DEBUG) {
912 /* log debug message */
913 char buf[512];
914 int stringlen = GET_32BIT(ssh->pktin.body);
915 strcpy(buf, "Remote debug message: ");
916 if (stringlen > 480)
917 stringlen = 480;
918 memcpy(buf + 8, ssh->pktin.body + 4, stringlen);
919 buf[8 + stringlen] = '\0';
920 logevent(buf);
921 goto next_packet;
922 } else if (ssh->pktin.type == SSH1_MSG_IGNORE) {
923 /* do nothing */
924 goto next_packet;
925 }
926
927 if (ssh->pktin.type == SSH1_MSG_DISCONNECT) {
928 /* log reason code in disconnect message */
929 char buf[256];
930 unsigned msglen = GET_32BIT(ssh->pktin.body);
931 unsigned nowlen;
932 strcpy(buf, "Remote sent disconnect: ");
933 nowlen = strlen(buf);
934 if (msglen > sizeof(buf) - nowlen - 1)
935 msglen = sizeof(buf) - nowlen - 1;
936 memcpy(buf + nowlen, ssh->pktin.body + 4, msglen);
937 buf[nowlen + msglen] = '\0';
938 /* logevent(buf); (this is now done within the bombout macro) */
939 bombout(("Server sent disconnect message:\n\"%s\"", buf+nowlen));
940 crStop(0);
941 }
942
943 crFinish(0);
944 }
945
946 static int ssh2_rdpkt(Ssh ssh, unsigned char **data, int *datalen)
947 {
948 struct rdpkt2_state_tag *st = &ssh->rdpkt2_state;
949
950 crBegin(ssh->ssh2_rdpkt_crstate);
951
952 next_packet:
953 ssh->pktin.type = 0;
954 ssh->pktin.length = 0;
955 if (ssh->sccipher)
956 st->cipherblk = ssh->sccipher->blksize;
957 else
958 st->cipherblk = 8;
959 if (st->cipherblk < 8)
960 st->cipherblk = 8;
961
962 if (ssh->pktin.maxlen < st->cipherblk) {
963 ssh->pktin.maxlen = st->cipherblk;
964 ssh->pktin.data = sresize(ssh->pktin.data, st->cipherblk + APIEXTRA,
965 unsigned char);
966 }
967
968 /*
969 * Acquire and decrypt the first block of the packet. This will
970 * contain the length and padding details.
971 */
972 for (st->i = st->len = 0; st->i < st->cipherblk; st->i++) {
973 while ((*datalen) == 0)
974 crReturn(st->cipherblk - st->i);
975 ssh->pktin.data[st->i] = *(*data)++;
976 (*datalen)--;
977 }
978
979 if (ssh->sccipher)
980 ssh->sccipher->decrypt(ssh->sc_cipher_ctx,
981 ssh->pktin.data, st->cipherblk);
982
983 /*
984 * Now get the length and padding figures.
985 */
986 st->len = GET_32BIT(ssh->pktin.data);
987 st->pad = ssh->pktin.data[4];
988
989 /*
990 * _Completely_ silly lengths should be stomped on before they
991 * do us any more damage.
992 */
993 if (st->len < 0 || st->pad < 0 || st->len + st->pad < 0) {
994 bombout(("Incoming packet was garbled on decryption"));
995 crStop(0);
996 }
997
998 /*
999 * This enables us to deduce the payload length.
1000 */
1001 st->payload = st->len - st->pad - 1;
1002
1003 ssh->pktin.length = st->payload + 5;
1004
1005 /*
1006 * So now we can work out the total packet length.
1007 */
1008 st->packetlen = st->len + 4;
1009 st->maclen = ssh->scmac ? ssh->scmac->len : 0;
1010
1011 /*
1012 * Adjust memory allocation if packet is too big.
1013 */
1014 if (ssh->pktin.maxlen < st->packetlen + st->maclen) {
1015 ssh->pktin.maxlen = st->packetlen + st->maclen;
1016 ssh->pktin.data = sresize(ssh->pktin.data,
1017 ssh->pktin.maxlen + APIEXTRA,
1018 unsigned char);
1019 }
1020
1021 /*
1022 * Read and decrypt the remainder of the packet.
1023 */
1024 for (st->i = st->cipherblk; st->i < st->packetlen + st->maclen;
1025 st->i++) {
1026 while ((*datalen) == 0)
1027 crReturn(st->packetlen + st->maclen - st->i);
1028 ssh->pktin.data[st->i] = *(*data)++;
1029 (*datalen)--;
1030 }
1031 /* Decrypt everything _except_ the MAC. */
1032 if (ssh->sccipher)
1033 ssh->sccipher->decrypt(ssh->sc_cipher_ctx,
1034 ssh->pktin.data + st->cipherblk,
1035 st->packetlen - st->cipherblk);
1036
1037 /*
1038 * Check the MAC.
1039 */
1040 if (ssh->scmac
1041 && !ssh->scmac->verify(ssh->sc_mac_ctx, ssh->pktin.data, st->len + 4,
1042 st->incoming_sequence)) {
1043 bombout(("Incorrect MAC received on packet"));
1044 crStop(0);
1045 }
1046 st->incoming_sequence++; /* whether or not we MACed */
1047
1048 /*
1049 * Decompress packet payload.
1050 */
1051 {
1052 unsigned char *newpayload;
1053 int newlen;
1054 if (ssh->sccomp &&
1055 ssh->sccomp->decompress(ssh->sc_comp_ctx,
1056 ssh->pktin.data + 5, ssh->pktin.length - 5,
1057 &newpayload, &newlen)) {
1058 if (ssh->pktin.maxlen < newlen + 5) {
1059 ssh->pktin.maxlen = newlen + 5;
1060 ssh->pktin.data = sresize(ssh->pktin.data,
1061 ssh->pktin.maxlen + APIEXTRA,
1062 unsigned char);
1063 }
1064 ssh->pktin.length = 5 + newlen;
1065 memcpy(ssh->pktin.data + 5, newpayload, newlen);
1066 sfree(newpayload);
1067 }
1068 }
1069
1070 ssh->pktin.savedpos = 6;
1071 ssh->pktin.type = ssh->pktin.data[5];
1072
1073 if (ssh->logctx)
1074 log_packet(ssh->logctx, PKT_INCOMING, ssh->pktin.type,
1075 ssh2_pkt_type(ssh->pkt_ctx, ssh->pktin.type),
1076 ssh->pktin.data+6, ssh->pktin.length-6);
1077
1078 switch (ssh->pktin.type) {
1079 /*
1080 * These packets we must handle instantly.
1081 */
1082 case SSH2_MSG_DISCONNECT:
1083 {
1084 /* log reason code in disconnect message */
1085 char *buf;
1086 int nowlen;
1087 int reason = GET_32BIT(ssh->pktin.data + 6);
1088 unsigned msglen = GET_32BIT(ssh->pktin.data + 10);
1089
1090 if (reason > 0 && reason < lenof(ssh2_disconnect_reasons)) {
1091 buf = dupprintf("Received disconnect message (%s)",
1092 ssh2_disconnect_reasons[reason]);
1093 } else {
1094 buf = dupprintf("Received disconnect message (unknown"
1095 " type %d)", reason);
1096 }
1097 logevent(buf);
1098 sfree(buf);
1099 buf = dupprintf("Disconnection message text: %n%.*s",
1100 &nowlen, msglen, ssh->pktin.data + 14);
1101 logevent(buf);
1102 bombout(("Server sent disconnect message\ntype %d (%s):\n\"%s\"",
1103 reason,
1104 (reason > 0 && reason < lenof(ssh2_disconnect_reasons)) ?
1105 ssh2_disconnect_reasons[reason] : "unknown",
1106 buf+nowlen));
1107 sfree(buf);
1108 crStop(0);
1109 }
1110 break;
1111 case SSH2_MSG_IGNORE:
1112 goto next_packet;
1113 case SSH2_MSG_DEBUG:
1114 {
1115 /* log the debug message */
1116 char buf[512];
1117 /* int display = ssh->pktin.body[6]; */
1118 int stringlen = GET_32BIT(ssh->pktin.data+7);
1119 int prefix;
1120 strcpy(buf, "Remote debug message: ");
1121 prefix = strlen(buf);
1122 if (stringlen > (int)(sizeof(buf)-prefix-1))
1123 stringlen = sizeof(buf)-prefix-1;
1124 memcpy(buf + prefix, ssh->pktin.data + 11, stringlen);
1125 buf[prefix + stringlen] = '\0';
1126 logevent(buf);
1127 }
1128 goto next_packet; /* FIXME: print the debug message */
1129
1130 /*
1131 * These packets we need do nothing about here.
1132 */
1133 case SSH2_MSG_UNIMPLEMENTED:
1134 case SSH2_MSG_SERVICE_REQUEST:
1135 case SSH2_MSG_SERVICE_ACCEPT:
1136 case SSH2_MSG_KEXINIT:
1137 case SSH2_MSG_NEWKEYS:
1138 case SSH2_MSG_KEXDH_INIT:
1139 case SSH2_MSG_KEXDH_REPLY:
1140 /* case SSH2_MSG_KEX_DH_GEX_REQUEST: duplicate case value */
1141 /* case SSH2_MSG_KEX_DH_GEX_GROUP: duplicate case value */
1142 case SSH2_MSG_KEX_DH_GEX_INIT:
1143 case SSH2_MSG_KEX_DH_GEX_REPLY:
1144 case SSH2_MSG_USERAUTH_REQUEST:
1145 case SSH2_MSG_USERAUTH_FAILURE:
1146 case SSH2_MSG_USERAUTH_SUCCESS:
1147 case SSH2_MSG_USERAUTH_BANNER:
1148 case SSH2_MSG_USERAUTH_PK_OK:
1149 /* case SSH2_MSG_USERAUTH_PASSWD_CHANGEREQ: duplicate case value */
1150 /* case SSH2_MSG_USERAUTH_INFO_REQUEST: duplicate case value */
1151 case SSH2_MSG_USERAUTH_INFO_RESPONSE:
1152 case SSH2_MSG_GLOBAL_REQUEST:
1153 case SSH2_MSG_REQUEST_SUCCESS:
1154 case SSH2_MSG_REQUEST_FAILURE:
1155 case SSH2_MSG_CHANNEL_OPEN:
1156 case SSH2_MSG_CHANNEL_OPEN_CONFIRMATION:
1157 case SSH2_MSG_CHANNEL_OPEN_FAILURE:
1158 case SSH2_MSG_CHANNEL_WINDOW_ADJUST:
1159 case SSH2_MSG_CHANNEL_DATA:
1160 case SSH2_MSG_CHANNEL_EXTENDED_DATA:
1161 case SSH2_MSG_CHANNEL_EOF:
1162 case SSH2_MSG_CHANNEL_CLOSE:
1163 case SSH2_MSG_CHANNEL_REQUEST:
1164 case SSH2_MSG_CHANNEL_SUCCESS:
1165 case SSH2_MSG_CHANNEL_FAILURE:
1166 break;
1167
1168 /*
1169 * For anything else we send SSH2_MSG_UNIMPLEMENTED.
1170 */
1171 default:
1172 ssh2_pkt_init(ssh, SSH2_MSG_UNIMPLEMENTED);
1173 ssh2_pkt_adduint32(ssh, st->incoming_sequence - 1);
1174 ssh2_pkt_send(ssh);
1175 break;
1176 }
1177
1178 crFinish(0);
1179 }
1180
1181 static void ssh1_pktout_size(Ssh ssh, int len)
1182 {
1183 int pad, biglen;
1184
1185 len += 5; /* type and CRC */
1186 pad = 8 - (len % 8);
1187 biglen = len + pad;
1188
1189 ssh->pktout.length = len - 5;
1190 if (ssh->pktout.maxlen < biglen) {
1191 ssh->pktout.maxlen = biglen;
1192 #ifdef MSCRYPTOAPI
1193 /* Allocate enough buffer space for extra block
1194 * for MS CryptEncrypt() */
1195 ssh->pktout.data = sresize(ssh->pktout.data, biglen + 12,
1196 unsigned char);
1197 #else
1198 ssh->pktout.data = sresize(ssh->pktout.data, biglen + 4,
1199 unsigned char);
1200 #endif
1201 }
1202 ssh->pktout.body = ssh->pktout.data + 4 + pad + 1;
1203 }
1204
1205 static void s_wrpkt_start(Ssh ssh, int type, int len)
1206 {
1207 ssh1_pktout_size(ssh, len);
1208 ssh->pktout.type = type;
1209 }
1210
1211 static int s_wrpkt_prepare(Ssh ssh)
1212 {
1213 int pad, biglen, i;
1214 unsigned long crc;
1215 #ifdef __SC__
1216 /*
1217 * XXX various versions of SC (including 8.8.4) screw up the
1218 * register allocation in this function and use the same register
1219 * (D6) for len and as a temporary, with predictable results. The
1220 * following sledgehammer prevents this.
1221 */
1222 volatile
1223 #endif
1224 int len;
1225
1226 ssh->pktout.body[-1] = ssh->pktout.type;
1227
1228 if (ssh->logctx)
1229 log_packet(ssh->logctx, PKT_OUTGOING, ssh->pktout.type,
1230 ssh1_pkt_type(ssh->pktout.type),
1231 ssh->pktout.body, ssh->pktout.length);
1232
1233 if (ssh->v1_compressing) {
1234 unsigned char *compblk;
1235 int complen;
1236 zlib_compress_block(ssh->cs_comp_ctx,
1237 ssh->pktout.body - 1, ssh->pktout.length + 1,
1238 &compblk, &complen);
1239 ssh1_pktout_size(ssh, complen - 1);
1240 memcpy(ssh->pktout.body - 1, compblk, complen);
1241 sfree(compblk);
1242 }
1243
1244 len = ssh->pktout.length + 5; /* type and CRC */
1245 pad = 8 - (len % 8);
1246 biglen = len + pad;
1247
1248 for (i = 0; i < pad; i++)
1249 ssh->pktout.data[i + 4] = random_byte();
1250 crc = crc32_compute(ssh->pktout.data + 4, biglen - 4);
1251 PUT_32BIT(ssh->pktout.data + biglen, crc);
1252 PUT_32BIT(ssh->pktout.data, len);
1253
1254 if (ssh->cipher)
1255 ssh->cipher->encrypt(ssh->v1_cipher_ctx, ssh->pktout.data + 4, biglen);
1256
1257 return biglen + 4;
1258 }
1259
1260 static void s_wrpkt(Ssh ssh)
1261 {
1262 int len, backlog;
1263 len = s_wrpkt_prepare(ssh);
1264 backlog = sk_write(ssh->s, (char *)ssh->pktout.data, len);
1265 if (backlog > SSH_MAX_BACKLOG)
1266 ssh_throttle_all(ssh, 1, backlog);
1267 }
1268
1269 static void s_wrpkt_defer(Ssh ssh)
1270 {
1271 int len;
1272 len = s_wrpkt_prepare(ssh);
1273 if (ssh->deferred_len + len > ssh->deferred_size) {
1274 ssh->deferred_size = ssh->deferred_len + len + 128;
1275 ssh->deferred_send_data = sresize(ssh->deferred_send_data,
1276 ssh->deferred_size,
1277 unsigned char);
1278 }
1279 memcpy(ssh->deferred_send_data + ssh->deferred_len, ssh->pktout.data, len);
1280 ssh->deferred_len += len;
1281 }
1282
1283 /*
1284 * Construct a packet with the specified contents.
1285 */
1286 static void construct_packet(Ssh ssh, int pkttype, va_list ap1, va_list ap2)
1287 {
1288 unsigned char *p, *argp, argchar;
1289 unsigned long argint;
1290 int pktlen, argtype, arglen;
1291 Bignum bn;
1292
1293 pktlen = 0;
1294 while ((argtype = va_arg(ap1, int)) != PKT_END) {
1295 switch (argtype) {
1296 case PKT_INT:
1297 (void) va_arg(ap1, int);
1298 pktlen += 4;
1299 break;
1300 case PKT_CHAR:
1301 (void) va_arg(ap1, int);
1302 pktlen++;
1303 break;
1304 case PKT_DATA:
1305 (void) va_arg(ap1, unsigned char *);
1306 arglen = va_arg(ap1, int);
1307 pktlen += arglen;
1308 break;
1309 case PKT_STR:
1310 argp = va_arg(ap1, unsigned char *);
1311 arglen = strlen((char *)argp);
1312 pktlen += 4 + arglen;
1313 break;
1314 case PKT_BIGNUM:
1315 bn = va_arg(ap1, Bignum);
1316 pktlen += ssh1_bignum_length(bn);
1317 break;
1318 default:
1319 assert(0);
1320 }
1321 }
1322
1323 s_wrpkt_start(ssh, pkttype, pktlen);
1324 p = ssh->pktout.body;
1325
1326 while ((argtype = va_arg(ap2, int)) != PKT_END) {
1327 switch (argtype) {
1328 case PKT_INT:
1329 argint = va_arg(ap2, int);
1330 PUT_32BIT(p, argint);
1331 p += 4;
1332 break;
1333 case PKT_CHAR:
1334 argchar = (unsigned char) va_arg(ap2, int);
1335 *p = argchar;
1336 p++;
1337 break;
1338 case PKT_DATA:
1339 argp = va_arg(ap2, unsigned char *);
1340 arglen = va_arg(ap2, int);
1341 memcpy(p, argp, arglen);
1342 p += arglen;
1343 break;
1344 case PKT_STR:
1345 argp = va_arg(ap2, unsigned char *);
1346 arglen = strlen((char *)argp);
1347 PUT_32BIT(p, arglen);
1348 memcpy(p + 4, argp, arglen);
1349 p += 4 + arglen;
1350 break;
1351 case PKT_BIGNUM:
1352 bn = va_arg(ap2, Bignum);
1353 p += ssh1_write_bignum(p, bn);
1354 break;
1355 }
1356 }
1357 }
1358
1359 static void send_packet(Ssh ssh, int pkttype, ...)
1360 {
1361 va_list ap1, ap2;
1362 va_start(ap1, pkttype);
1363 va_start(ap2, pkttype);
1364 construct_packet(ssh, pkttype, ap1, ap2);
1365 s_wrpkt(ssh);
1366 }
1367
1368 static void defer_packet(Ssh ssh, int pkttype, ...)
1369 {
1370 va_list ap1, ap2;
1371 va_start(ap1, pkttype);
1372 va_start(ap2, pkttype);
1373 construct_packet(ssh, pkttype, ap1, ap2);
1374 s_wrpkt_defer(ssh);
1375 }
1376
1377 static int ssh_versioncmp(char *a, char *b)
1378 {
1379 char *ae, *be;
1380 unsigned long av, bv;
1381
1382 av = strtoul(a, &ae, 10);
1383 bv = strtoul(b, &be, 10);
1384 if (av != bv)
1385 return (av < bv ? -1 : +1);
1386 if (*ae == '.')
1387 ae++;
1388 if (*be == '.')
1389 be++;
1390 av = strtoul(ae, &ae, 10);
1391 bv = strtoul(be, &be, 10);
1392 if (av != bv)
1393 return (av < bv ? -1 : +1);
1394 return 0;
1395 }
1396
1397 /*
1398 * Utility routines for putting an SSH-protocol `string' and
1399 * `uint32' into a SHA state.
1400 */
1401 #include <stdio.h>
1402 static void sha_string(SHA_State * s, void *str, int len)
1403 {
1404 unsigned char lenblk[4];
1405 PUT_32BIT(lenblk, len);
1406 SHA_Bytes(s, lenblk, 4);
1407 SHA_Bytes(s, str, len);
1408 }
1409
1410 static void sha_uint32(SHA_State * s, unsigned i)
1411 {
1412 unsigned char intblk[4];
1413 PUT_32BIT(intblk, i);
1414 SHA_Bytes(s, intblk, 4);
1415 }
1416
1417 /*
1418 * SSH2 packet construction functions.
1419 */
1420 static void ssh2_pkt_ensure(Ssh ssh, int length)
1421 {
1422 if (ssh->pktout.maxlen < length) {
1423 ssh->pktout.maxlen = length + 256;
1424 ssh->pktout.data = sresize(ssh->pktout.data,
1425 ssh->pktout.maxlen + APIEXTRA,
1426 unsigned char);
1427 if (!ssh->pktout.data)
1428 fatalbox("Out of memory");
1429 }
1430 }
1431 static void ssh2_pkt_adddata(Ssh ssh, void *data, int len)
1432 {
1433 ssh->pktout.length += len;
1434 ssh2_pkt_ensure(ssh, ssh->pktout.length);
1435 memcpy(ssh->pktout.data + ssh->pktout.length - len, data, len);
1436 }
1437 static void ssh2_pkt_addbyte(Ssh ssh, unsigned char byte)
1438 {
1439 ssh2_pkt_adddata(ssh, &byte, 1);
1440 }
1441 static void ssh2_pkt_init(Ssh ssh, int pkt_type)
1442 {
1443 ssh->pktout.length = 5;
1444 ssh2_pkt_addbyte(ssh, (unsigned char) pkt_type);
1445 }
1446 static void ssh2_pkt_addbool(Ssh ssh, unsigned char value)
1447 {
1448 ssh2_pkt_adddata(ssh, &value, 1);
1449 }
1450 static void ssh2_pkt_adduint32(Ssh ssh, unsigned long value)
1451 {
1452 unsigned char x[4];
1453 PUT_32BIT(x, value);
1454 ssh2_pkt_adddata(ssh, x, 4);
1455 }
1456 static void ssh2_pkt_addstring_start(Ssh ssh)
1457 {
1458 ssh2_pkt_adduint32(ssh, 0);
1459 ssh->pktout.savedpos = ssh->pktout.length;
1460 }
1461 static void ssh2_pkt_addstring_str(Ssh ssh, char *data)
1462 {
1463 ssh2_pkt_adddata(ssh, data, strlen(data));
1464 PUT_32BIT(ssh->pktout.data + ssh->pktout.savedpos - 4,
1465 ssh->pktout.length - ssh->pktout.savedpos);
1466 }
1467 static void ssh2_pkt_addstring_data(Ssh ssh, char *data, int len)
1468 {
1469 ssh2_pkt_adddata(ssh, data, len);
1470 PUT_32BIT(ssh->pktout.data + ssh->pktout.savedpos - 4,
1471 ssh->pktout.length - ssh->pktout.savedpos);
1472 }
1473 static void ssh2_pkt_addstring(Ssh ssh, char *data)
1474 {
1475 ssh2_pkt_addstring_start(ssh);
1476 ssh2_pkt_addstring_str(ssh, data);
1477 }
1478 static unsigned char *ssh2_mpint_fmt(Bignum b, int *len)
1479 {
1480 unsigned char *p;
1481 int i, n = (bignum_bitcount(b) + 7) / 8;
1482 p = snewn(n + 1, unsigned char);
1483 if (!p)
1484 fatalbox("out of memory");
1485 p[0] = 0;
1486 for (i = 1; i <= n; i++)
1487 p[i] = bignum_byte(b, n - i);
1488 i = 0;
1489 while (i <= n && p[i] == 0 && (p[i + 1] & 0x80) == 0)
1490 i++;
1491 memmove(p, p + i, n + 1 - i);
1492 *len = n + 1 - i;
1493 return p;
1494 }
1495 static void ssh2_pkt_addmp(Ssh ssh, Bignum b)
1496 {
1497 unsigned char *p;
1498 int len;
1499 p = ssh2_mpint_fmt(b, &len);
1500 ssh2_pkt_addstring_start(ssh);
1501 ssh2_pkt_addstring_data(ssh, (char *)p, len);
1502 sfree(p);
1503 }
1504
1505 /*
1506 * Construct an SSH2 final-form packet: compress it, encrypt it,
1507 * put the MAC on it. Final packet, ready to be sent, is stored in
1508 * ssh->pktout.data. Total length is returned.
1509 */
1510 static int ssh2_pkt_construct(Ssh ssh)
1511 {
1512 int cipherblk, maclen, padding, i;
1513
1514 if (ssh->logctx)
1515 log_packet(ssh->logctx, PKT_OUTGOING, ssh->pktout.data[5],
1516 ssh2_pkt_type(ssh->pkt_ctx, ssh->pktout.data[5]),
1517 ssh->pktout.data + 6, ssh->pktout.length - 6);
1518
1519 /*
1520 * Compress packet payload.
1521 */
1522 {
1523 unsigned char *newpayload;
1524 int newlen;
1525 if (ssh->cscomp &&
1526 ssh->cscomp->compress(ssh->cs_comp_ctx, ssh->pktout.data + 5,
1527 ssh->pktout.length - 5,
1528 &newpayload, &newlen)) {
1529 ssh->pktout.length = 5;
1530 ssh2_pkt_adddata(ssh, newpayload, newlen);
1531 sfree(newpayload);
1532 }
1533 }
1534
1535 /*
1536 * Add padding. At least four bytes, and must also bring total
1537 * length (minus MAC) up to a multiple of the block size.
1538 */
1539 cipherblk = ssh->cscipher ? ssh->cscipher->blksize : 8; /* block size */
1540 cipherblk = cipherblk < 8 ? 8 : cipherblk; /* or 8 if blksize < 8 */
1541 padding = 4;
1542 padding +=
1543 (cipherblk - (ssh->pktout.length + padding) % cipherblk) % cipherblk;
1544 maclen = ssh->csmac ? ssh->csmac->len : 0;
1545 ssh2_pkt_ensure(ssh, ssh->pktout.length + padding + maclen);
1546 ssh->pktout.data[4] = padding;
1547 for (i = 0; i < padding; i++)
1548 ssh->pktout.data[ssh->pktout.length + i] = random_byte();
1549 PUT_32BIT(ssh->pktout.data, ssh->pktout.length + padding - 4);
1550 if (ssh->csmac)
1551 ssh->csmac->generate(ssh->cs_mac_ctx, ssh->pktout.data,
1552 ssh->pktout.length + padding,
1553 ssh->v2_outgoing_sequence);
1554 ssh->v2_outgoing_sequence++; /* whether or not we MACed */
1555
1556 if (ssh->cscipher)
1557 ssh->cscipher->encrypt(ssh->cs_cipher_ctx,
1558 ssh->pktout.data, ssh->pktout.length + padding);
1559
1560 /* Ready-to-send packet starts at ssh->pktout.data. We return length. */
1561 return ssh->pktout.length + padding + maclen;
1562 }
1563
1564 /*
1565 * Construct and send an SSH2 packet immediately.
1566 */
1567 static void ssh2_pkt_send(Ssh ssh)
1568 {
1569 int len;
1570 int backlog;
1571 len = ssh2_pkt_construct(ssh);
1572 backlog = sk_write(ssh->s, (char *)ssh->pktout.data, len);
1573 if (backlog > SSH_MAX_BACKLOG)
1574 ssh_throttle_all(ssh, 1, backlog);
1575 }
1576
1577 /*
1578 * Construct an SSH2 packet and add it to a deferred data block.
1579 * Useful for sending multiple packets in a single sk_write() call,
1580 * to prevent a traffic-analysing listener from being able to work
1581 * out the length of any particular packet (such as the password
1582 * packet).
1583 *
1584 * Note that because SSH2 sequence-numbers its packets, this can
1585 * NOT be used as an m4-style `defer' allowing packets to be
1586 * constructed in one order and sent in another.
1587 */
1588 static void ssh2_pkt_defer(Ssh ssh)
1589 {
1590 int len = ssh2_pkt_construct(ssh);
1591 if (ssh->deferred_len + len > ssh->deferred_size) {
1592 ssh->deferred_size = ssh->deferred_len + len + 128;
1593 ssh->deferred_send_data = sresize(ssh->deferred_send_data,
1594 ssh->deferred_size,
1595 unsigned char);
1596 }
1597 memcpy(ssh->deferred_send_data + ssh->deferred_len, ssh->pktout.data, len);
1598 ssh->deferred_len += len;
1599 }
1600
1601 /*
1602 * Send the whole deferred data block constructed by
1603 * ssh2_pkt_defer() or SSH1's defer_packet().
1604 */
1605 static void ssh_pkt_defersend(Ssh ssh)
1606 {
1607 int backlog;
1608 backlog = sk_write(ssh->s, (char *)ssh->deferred_send_data,
1609 ssh->deferred_len);
1610 ssh->deferred_len = ssh->deferred_size = 0;
1611 sfree(ssh->deferred_send_data);
1612 ssh->deferred_send_data = NULL;
1613 if (backlog > SSH_MAX_BACKLOG)
1614 ssh_throttle_all(ssh, 1, backlog);
1615 }
1616
1617 #if 0
1618 void bndebug(char *string, Bignum b)
1619 {
1620 unsigned char *p;
1621 int i, len;
1622 p = ssh2_mpint_fmt(b, &len);
1623 debug(("%s", string));
1624 for (i = 0; i < len; i++)
1625 debug((" %02x", p[i]));
1626 debug(("\n"));
1627 sfree(p);
1628 }
1629 #endif
1630
1631 static void sha_mpint(SHA_State * s, Bignum b)
1632 {
1633 unsigned char *p;
1634 int len;
1635 p = ssh2_mpint_fmt(b, &len);
1636 sha_string(s, p, len);
1637 sfree(p);
1638 }
1639
1640 /*
1641 * SSH2 packet decode functions.
1642 */
1643 static unsigned long ssh2_pkt_getuint32(Ssh ssh)
1644 {
1645 unsigned long value;
1646 if (ssh->pktin.length - ssh->pktin.savedpos < 4)
1647 return 0; /* arrgh, no way to decline (FIXME?) */
1648 value = GET_32BIT(ssh->pktin.data + ssh->pktin.savedpos);
1649 ssh->pktin.savedpos += 4;
1650 return value;
1651 }
1652 static int ssh2_pkt_getbool(Ssh ssh)
1653 {
1654 unsigned long value;
1655 if (ssh->pktin.length - ssh->pktin.savedpos < 1)
1656 return 0; /* arrgh, no way to decline (FIXME?) */
1657 value = ssh->pktin.data[ssh->pktin.savedpos] != 0;
1658 ssh->pktin.savedpos++;
1659 return value;
1660 }
1661 static void ssh2_pkt_getstring(Ssh ssh, char **p, int *length)
1662 {
1663 int len;
1664 *p = NULL;
1665 *length = 0;
1666 if (ssh->pktin.length - ssh->pktin.savedpos < 4)
1667 return;
1668 len = GET_32BIT(ssh->pktin.data + ssh->pktin.savedpos);
1669 if (len < 0)
1670 return;
1671 *length = len;
1672 ssh->pktin.savedpos += 4;
1673 if (ssh->pktin.length - ssh->pktin.savedpos < *length)
1674 return;
1675 *p = (char *)(ssh->pktin.data + ssh->pktin.savedpos);
1676 ssh->pktin.savedpos += *length;
1677 }
1678 static Bignum ssh2_pkt_getmp(Ssh ssh)
1679 {
1680 char *p;
1681 int length;
1682 Bignum b;
1683
1684 ssh2_pkt_getstring(ssh, &p, &length);
1685 if (!p)
1686 return NULL;
1687 if (p[0] & 0x80) {
1688 bombout(("internal error: Can't handle negative mpints"));
1689 return NULL;
1690 }
1691 b = bignum_from_bytes((unsigned char *)p, length);
1692 return b;
1693 }
1694
1695 /*
1696 * Helper function to add an SSH2 signature blob to a packet.
1697 * Expects to be shown the public key blob as well as the signature
1698 * blob. Normally works just like ssh2_pkt_addstring, but will
1699 * fiddle with the signature packet if necessary for
1700 * BUG_SSH2_RSA_PADDING.
1701 */
1702 static void ssh2_add_sigblob(Ssh ssh, void *pkblob_v, int pkblob_len,
1703 void *sigblob_v, int sigblob_len)
1704 {
1705 unsigned char *pkblob = (unsigned char *)pkblob_v;
1706 unsigned char *sigblob = (unsigned char *)sigblob_v;
1707
1708 /* dmemdump(pkblob, pkblob_len); */
1709 /* dmemdump(sigblob, sigblob_len); */
1710
1711 /*
1712 * See if this is in fact an ssh-rsa signature and a buggy
1713 * server; otherwise we can just do this the easy way.
1714 */
1715 if ((ssh->remote_bugs & BUG_SSH2_RSA_PADDING) &&
1716 (GET_32BIT(pkblob) == 7 && !memcmp(pkblob+4, "ssh-rsa", 7))) {
1717 int pos, len, siglen;
1718
1719 /*
1720 * Find the byte length of the modulus.
1721 */
1722
1723 pos = 4+7; /* skip over "ssh-rsa" */
1724 pos += 4 + GET_32BIT(pkblob+pos); /* skip over exponent */
1725 len = GET_32BIT(pkblob+pos); /* find length of modulus */
1726 pos += 4; /* find modulus itself */
1727 while (len > 0 && pkblob[pos] == 0)
1728 len--, pos++;
1729 /* debug(("modulus length is %d\n", len)); */
1730
1731 /*
1732 * Now find the signature integer.
1733 */
1734 pos = 4+7; /* skip over "ssh-rsa" */
1735 siglen = GET_32BIT(sigblob+pos);
1736 /* debug(("signature length is %d\n", siglen)); */
1737
1738 if (len != siglen) {
1739 unsigned char newlen[4];
1740 ssh2_pkt_addstring_start(ssh);
1741 ssh2_pkt_addstring_data(ssh, (char *)sigblob, pos);
1742 /* dmemdump(sigblob, pos); */
1743 pos += 4; /* point to start of actual sig */
1744 PUT_32BIT(newlen, len);
1745 ssh2_pkt_addstring_data(ssh, (char *)newlen, 4);
1746 /* dmemdump(newlen, 4); */
1747 newlen[0] = 0;
1748 while (len-- > siglen) {
1749 ssh2_pkt_addstring_data(ssh, (char *)newlen, 1);
1750 /* dmemdump(newlen, 1); */
1751 }
1752 ssh2_pkt_addstring_data(ssh, (char *)(sigblob+pos), siglen);
1753 /* dmemdump(sigblob+pos, siglen); */
1754 return;
1755 }
1756
1757 /* Otherwise fall through and do it the easy way. */
1758 }
1759
1760 ssh2_pkt_addstring_start(ssh);
1761 ssh2_pkt_addstring_data(ssh, (char *)sigblob, sigblob_len);
1762 }
1763
1764 /*
1765 * Examine the remote side's version string and compare it against
1766 * a list of known buggy implementations.
1767 */
1768 static void ssh_detect_bugs(Ssh ssh, char *vstring)
1769 {
1770 char *imp; /* pointer to implementation part */
1771 imp = vstring;
1772 imp += strcspn(imp, "-");
1773 if (*imp) imp++;
1774 imp += strcspn(imp, "-");
1775 if (*imp) imp++;
1776
1777 ssh->remote_bugs = 0;
1778
1779 if (ssh->cfg.sshbug_ignore1 == FORCE_ON ||
1780 (ssh->cfg.sshbug_ignore1 == AUTO &&
1781 (!strcmp(imp, "1.2.18") || !strcmp(imp, "1.2.19") ||
1782 !strcmp(imp, "1.2.20") || !strcmp(imp, "1.2.21") ||
1783 !strcmp(imp, "1.2.22") || !strcmp(imp, "Cisco-1.25") ||
1784 !strcmp(imp, "OSU_1.4alpha3")))) {
1785 /*
1786 * These versions don't support SSH1_MSG_IGNORE, so we have
1787 * to use a different defence against password length
1788 * sniffing.
1789 */
1790 ssh->remote_bugs |= BUG_CHOKES_ON_SSH1_IGNORE;
1791 logevent("We believe remote version has SSH1 ignore bug");
1792 }
1793
1794 if (ssh->cfg.sshbug_plainpw1 == FORCE_ON ||
1795 (ssh->cfg.sshbug_plainpw1 == AUTO &&
1796 (!strcmp(imp, "Cisco-1.25") || !strcmp(imp, "OSU_1.4alpha3")))) {
1797 /*
1798 * These versions need a plain password sent; they can't
1799 * handle having a null and a random length of data after
1800 * the password.
1801 */
1802 ssh->remote_bugs |= BUG_NEEDS_SSH1_PLAIN_PASSWORD;
1803 logevent("We believe remote version needs a plain SSH1 password");
1804 }
1805
1806 if (ssh->cfg.sshbug_rsa1 == FORCE_ON ||
1807 (ssh->cfg.sshbug_rsa1 == AUTO &&
1808 (!strcmp(imp, "Cisco-1.25")))) {
1809 /*
1810 * These versions apparently have no clue whatever about
1811 * RSA authentication and will panic and die if they see
1812 * an AUTH_RSA message.
1813 */
1814 ssh->remote_bugs |= BUG_CHOKES_ON_RSA;
1815 logevent("We believe remote version can't handle RSA authentication");
1816 }
1817
1818 if (ssh->cfg.sshbug_hmac2 == FORCE_ON ||
1819 (ssh->cfg.sshbug_hmac2 == AUTO &&
1820 !wc_match("* VShell", imp) &&
1821 (wc_match("2.1.0*", imp) || wc_match("2.0.*", imp) ||
1822 wc_match("2.2.0*", imp) || wc_match("2.3.0*", imp) ||
1823 wc_match("2.1 *", imp)))) {
1824 /*
1825 * These versions have the HMAC bug.
1826 */
1827 ssh->remote_bugs |= BUG_SSH2_HMAC;
1828 logevent("We believe remote version has SSH2 HMAC bug");
1829 }
1830
1831 if (ssh->cfg.sshbug_derivekey2 == FORCE_ON ||
1832 (ssh->cfg.sshbug_derivekey2 == AUTO &&
1833 !wc_match("* VShell", imp) &&
1834 (wc_match("2.0.0*", imp) || wc_match("2.0.10*", imp) ))) {
1835 /*
1836 * These versions have the key-derivation bug (failing to
1837 * include the literal shared secret in the hashes that
1838 * generate the keys).
1839 */
1840 ssh->remote_bugs |= BUG_SSH2_DERIVEKEY;
1841 logevent("We believe remote version has SSH2 key-derivation bug");
1842 }
1843
1844 if (ssh->cfg.sshbug_rsapad2 == FORCE_ON ||
1845 (ssh->cfg.sshbug_rsapad2 == AUTO &&
1846 (wc_match("OpenSSH_2.[5-9]*", imp) ||
1847 wc_match("OpenSSH_3.[0-2]*", imp)))) {
1848 /*
1849 * These versions have the SSH2 RSA padding bug.
1850 */
1851 ssh->remote_bugs |= BUG_SSH2_RSA_PADDING;
1852 logevent("We believe remote version has SSH2 RSA padding bug");
1853 }
1854
1855 if (ssh->cfg.sshbug_pksessid2 == FORCE_ON ||
1856 (ssh->cfg.sshbug_pksessid2 == AUTO &&
1857 wc_match("OpenSSH_2.[0-2]*", imp))) {
1858 /*
1859 * These versions have the SSH2 session-ID bug in
1860 * public-key authentication.
1861 */
1862 ssh->remote_bugs |= BUG_SSH2_PK_SESSIONID;
1863 logevent("We believe remote version has SSH2 public-key-session-ID bug");
1864 }
1865
1866 if (ssh->cfg.sshbug_dhgex2 == FORCE_ON) {
1867 /*
1868 * User specified the SSH2 DH GEX bug.
1869 */
1870 ssh->remote_bugs |= BUG_SSH2_DH_GEX;
1871 logevent("We believe remote version has SSH2 DH group exchange bug");
1872 }
1873 }
1874
1875 static int do_ssh_init(Ssh ssh, unsigned char c)
1876 {
1877 struct do_ssh_init_state {
1878 int vslen;
1879 char version[10];
1880 char *vstring;
1881 int vstrsize;
1882 int i;
1883 int proto1, proto2;
1884 };
1885 crState(do_ssh_init_state);
1886
1887 crBegin(ssh->do_ssh_init_crstate);
1888
1889 /* Search for the string "SSH-" in the input. */
1890 s->i = 0;
1891 while (1) {
1892 static const int transS[] = { 1, 2, 2, 1 };
1893 static const int transH[] = { 0, 0, 3, 0 };
1894 static const int transminus[] = { 0, 0, 0, -1 };
1895 if (c == 'S')
1896 s->i = transS[s->i];
1897 else if (c == 'H')
1898 s->i = transH[s->i];
1899 else if (c == '-')
1900 s->i = transminus[s->i];
1901 else
1902 s->i = 0;
1903 if (s->i < 0)
1904 break;
1905 crReturn(1); /* get another character */
1906 }
1907
1908 s->vstrsize = 16;
1909 s->vstring = snewn(s->vstrsize, char);
1910 strcpy(s->vstring, "SSH-");
1911 s->vslen = 4;
1912 s->i = 0;
1913 while (1) {
1914 crReturn(1); /* get another char */
1915 if (s->vslen >= s->vstrsize - 1) {
1916 s->vstrsize += 16;
1917 s->vstring = sresize(s->vstring, s->vstrsize, char);
1918 }
1919 s->vstring[s->vslen++] = c;
1920 if (s->i >= 0) {
1921 if (c == '-') {
1922 s->version[s->i] = '\0';
1923 s->i = -1;
1924 } else if (s->i < sizeof(s->version) - 1)
1925 s->version[s->i++] = c;
1926 } else if (c == '\012')
1927 break;
1928 }
1929
1930 ssh->agentfwd_enabled = FALSE;
1931 ssh->rdpkt2_state.incoming_sequence = 0;
1932
1933 s->vstring[s->vslen] = 0;
1934 s->vstring[strcspn(s->vstring, "\r\n")] = '\0';/* remove EOL chars */
1935 {
1936 char *vlog;
1937 vlog = snewn(20 + s->vslen, char);
1938 sprintf(vlog, "Server version: %s", s->vstring);
1939 logevent(vlog);
1940 sfree(vlog);
1941 }
1942 ssh_detect_bugs(ssh, s->vstring);
1943
1944 /*
1945 * Decide which SSH protocol version to support.
1946 */
1947
1948 /* Anything strictly below "2.0" means protocol 1 is supported. */
1949 s->proto1 = ssh_versioncmp(s->version, "2.0") < 0;
1950 /* Anything greater or equal to "1.99" means protocol 2 is supported. */
1951 s->proto2 = ssh_versioncmp(s->version, "1.99") >= 0;
1952
1953 if (ssh->cfg.sshprot == 0 && !s->proto1) {
1954 bombout(("SSH protocol version 1 required by user but not provided by server"));
1955 crStop(0);
1956 }
1957 if (ssh->cfg.sshprot == 3 && !s->proto2) {
1958 bombout(("SSH protocol version 2 required by user but not provided by server"));
1959 crStop(0);
1960 }
1961
1962 if (s->proto2 && (ssh->cfg.sshprot >= 2 || !s->proto1)) {
1963 /*
1964 * Use v2 protocol.
1965 */
1966 char verstring[80], vlog[100];
1967 sprintf(verstring, "SSH-2.0-%s", sshver);
1968 SHA_Init(&ssh->exhashbase);
1969 /*
1970 * Hash our version string and their version string.
1971 */
1972 sha_string(&ssh->exhashbase, verstring, strlen(verstring));
1973 sha_string(&ssh->exhashbase, s->vstring, strcspn(s->vstring, "\r\n"));
1974 sprintf(vlog, "We claim version: %s", verstring);
1975 logevent(vlog);
1976 strcat(verstring, "\012");
1977 logevent("Using SSH protocol version 2");
1978 sk_write(ssh->s, verstring, strlen(verstring));
1979 ssh->protocol = ssh2_protocol;
1980 ssh->version = 2;
1981 ssh->s_rdpkt = ssh2_rdpkt;
1982 } else {
1983 /*
1984 * Use v1 protocol.
1985 */
1986 char verstring[80], vlog[100];
1987 sprintf(verstring, "SSH-%s-%s",
1988 (ssh_versioncmp(s->version, "1.5") <= 0 ? s->version : "1.5"),
1989 sshver);
1990 sprintf(vlog, "We claim version: %s", verstring);
1991 logevent(vlog);
1992 strcat(verstring, "\012");
1993
1994 logevent("Using SSH protocol version 1");
1995 sk_write(ssh->s, verstring, strlen(verstring));
1996 ssh->protocol = ssh1_protocol;
1997 ssh->version = 1;
1998 ssh->s_rdpkt = ssh1_rdpkt;
1999 }
2000 update_specials_menu(ssh->frontend);
2001 ssh->state = SSH_STATE_BEFORE_SIZE;
2002
2003 sfree(s->vstring);
2004
2005 crFinish(0);
2006 }
2007
2008 static void ssh_gotdata(Ssh ssh, unsigned char *data, int datalen)
2009 {
2010 crBegin(ssh->ssh_gotdata_crstate);
2011
2012 /*
2013 * To begin with, feed the characters one by one to the
2014 * protocol initialisation / selection function do_ssh_init().
2015 * When that returns 0, we're done with the initial greeting
2016 * exchange and can move on to packet discipline.
2017 */
2018 while (1) {
2019 int ret; /* need not be kept across crReturn */
2020 if (datalen == 0)
2021 crReturnV; /* more data please */
2022 ret = do_ssh_init(ssh, *data);
2023 data++;
2024 datalen--;
2025 if (ret == 0)
2026 break;
2027 }
2028
2029 /*
2030 * We emerge from that loop when the initial negotiation is
2031 * over and we have selected an s_rdpkt function. Now pass
2032 * everything to s_rdpkt, and then pass the resulting packets
2033 * to the proper protocol handler.
2034 */
2035 if (datalen == 0)
2036 crReturnV;
2037 while (1) {
2038 while (datalen > 0) {
2039 if (ssh->s_rdpkt(ssh, &data, &datalen) == 0) {
2040 if (ssh->state == SSH_STATE_CLOSED) {
2041 return;
2042 }
2043 ssh->protocol(ssh, NULL, 0, 1);
2044 if (ssh->state == SSH_STATE_CLOSED) {
2045 return;
2046 }
2047 }
2048 }
2049 crReturnV;
2050 }
2051 crFinishV;
2052 }
2053
2054 static void ssh_do_close(Ssh ssh)
2055 {
2056 int i;
2057 struct ssh_channel *c;
2058
2059 ssh->state = SSH_STATE_CLOSED;
2060 if (ssh->s) {
2061 sk_close(ssh->s);
2062 ssh->s = NULL;
2063 }
2064 /*
2065 * Now we must shut down any port and X forwardings going
2066 * through this connection.
2067 */
2068 if (ssh->channels) {
2069 for (i = 0; NULL != (c = index234(ssh->channels, i)); i++) {
2070 switch (c->type) {
2071 case CHAN_X11:
2072 x11_close(c->u.x11.s);
2073 break;
2074 case CHAN_SOCKDATA:
2075 pfd_close(c->u.pfd.s);
2076 break;
2077 }
2078 del234(ssh->channels, c);
2079 if (ssh->version == 2)
2080 bufchain_clear(&c->v.v2.outbuffer);
2081 sfree(c);
2082 }
2083 }
2084 }
2085
2086 static int ssh_closing(Plug plug, const char *error_msg, int error_code,
2087 int calling_back)
2088 {
2089 Ssh ssh = (Ssh) plug;
2090 ssh_do_close(ssh);
2091 if (error_msg) {
2092 /* A socket error has occurred. */
2093 logevent(error_msg);
2094 connection_fatal(ssh->frontend, "%s", error_msg);
2095 } else {
2096 /* Otherwise, the remote side closed the connection normally. */
2097 }
2098 return 0;
2099 }
2100
2101 static int ssh_receive(Plug plug, int urgent, char *data, int len)
2102 {
2103 Ssh ssh = (Ssh) plug;
2104 ssh_gotdata(ssh, (unsigned char *)data, len);
2105 if (ssh->state == SSH_STATE_CLOSED) {
2106 ssh_do_close(ssh);
2107 return 0;
2108 }
2109 return 1;
2110 }
2111
2112 static void ssh_sent(Plug plug, int bufsize)
2113 {
2114 Ssh ssh = (Ssh) plug;
2115 /*
2116 * If the send backlog on the SSH socket itself clears, we
2117 * should unthrottle the whole world if it was throttled.
2118 */
2119 if (bufsize < SSH_MAX_BACKLOG)
2120 ssh_throttle_all(ssh, 0, bufsize);
2121 }
2122
2123 /*
2124 * Connect to specified host and port.
2125 * Returns an error message, or NULL on success.
2126 * Also places the canonical host name into `realhost'. It must be
2127 * freed by the caller.
2128 */
2129 static const char *connect_to_host(Ssh ssh, char *host, int port,
2130 char **realhost, int nodelay)
2131 {
2132 static const struct plug_function_table fn_table = {
2133 ssh_closing,
2134 ssh_receive,
2135 ssh_sent,
2136 NULL
2137 };
2138
2139 SockAddr addr;
2140 const char *err;
2141
2142 ssh->savedhost = snewn(1 + strlen(host), char);
2143 if (!ssh->savedhost)
2144 fatalbox("Out of memory");
2145 strcpy(ssh->savedhost, host);
2146
2147 if (port < 0)
2148 port = 22; /* default ssh port */
2149 ssh->savedport = port;
2150
2151 /*
2152 * Try to find host.
2153 */
2154 logeventf(ssh, "Looking up host \"%s\"", host);
2155 addr = name_lookup(host, port, realhost, &ssh->cfg);
2156 if ((err = sk_addr_error(addr)) != NULL) {
2157 sk_addr_free(addr);
2158 return err;
2159 }
2160
2161 /*
2162 * Open socket.
2163 */
2164 {
2165 char addrbuf[100];
2166 sk_getaddr(addr, addrbuf, 100);
2167 logeventf(ssh, "Connecting to %s port %d", addrbuf, port);
2168 }
2169 ssh->fn = &fn_table;
2170 ssh->s = new_connection(addr, *realhost, port,
2171 0, 1, nodelay, (Plug) ssh, &ssh->cfg);
2172 if ((err = sk_socket_error(ssh->s)) != NULL) {
2173 ssh->s = NULL;
2174 return err;
2175 }
2176
2177 return NULL;
2178 }
2179
2180 /*
2181 * Throttle or unthrottle the SSH connection.
2182 */
2183 static void ssh1_throttle(Ssh ssh, int adjust)
2184 {
2185 int old_count = ssh->v1_throttle_count;
2186 ssh->v1_throttle_count += adjust;
2187 assert(ssh->v1_throttle_count >= 0);
2188 if (ssh->v1_throttle_count && !old_count) {
2189 sk_set_frozen(ssh->s, 1);
2190 } else if (!ssh->v1_throttle_count && old_count) {
2191 sk_set_frozen(ssh->s, 0);
2192 }
2193 }
2194
2195 /*
2196 * Throttle or unthrottle _all_ local data streams (for when sends
2197 * on the SSH connection itself back up).
2198 */
2199 static void ssh_throttle_all(Ssh ssh, int enable, int bufsize)
2200 {
2201 int i;
2202 struct ssh_channel *c;
2203
2204 if (enable == ssh->throttled_all)
2205 return;
2206 ssh->throttled_all = enable;
2207 ssh->overall_bufsize = bufsize;
2208 if (!ssh->channels)
2209 return;
2210 for (i = 0; NULL != (c = index234(ssh->channels, i)); i++) {
2211 switch (c->type) {
2212 case CHAN_MAINSESSION:
2213 /*
2214 * This is treated separately, outside the switch.
2215 */
2216 break;
2217 case CHAN_X11:
2218 x11_override_throttle(c->u.x11.s, enable);
2219 break;
2220 case CHAN_AGENT:
2221 /* Agent channels require no buffer management. */
2222 break;
2223 case CHAN_SOCKDATA:
2224 pfd_override_throttle(c->u.pfd.s, enable);
2225 break;
2226 }
2227 }
2228 }
2229
2230 /*
2231 * Username and password input, abstracted off into routines
2232 * reusable in several places - even between SSH1 and SSH2.
2233 */
2234
2235 /* Set up a username or password input loop on a given buffer. */
2236 static void setup_userpass_input(Ssh ssh, char *buffer, int buflen, int echo)
2237 {
2238 ssh->userpass_input_buffer = buffer;
2239 ssh->userpass_input_buflen = buflen;
2240 ssh->userpass_input_bufpos = 0;
2241 ssh->userpass_input_echo = echo;
2242 }
2243
2244 /*
2245 * Process some terminal data in the course of username/password
2246 * input. Returns >0 for success (line of input returned in
2247 * buffer), <0 for failure (user hit ^C/^D, bomb out and exit), 0
2248 * for inconclusive (keep waiting for more input please).
2249 */
2250 static int process_userpass_input(Ssh ssh, unsigned char *in, int inlen)
2251 {
2252 char c;
2253
2254 while (inlen--) {
2255 switch (c = *in++) {
2256 case 10:
2257 case 13:
2258 ssh->userpass_input_buffer[ssh->userpass_input_bufpos] = 0;
2259 ssh->userpass_input_buffer[ssh->userpass_input_buflen-1] = 0;
2260 return +1;
2261 break;
2262 case 8:
2263 case 127:
2264 if (ssh->userpass_input_bufpos > 0) {
2265 if (ssh->userpass_input_echo)
2266 c_write_str(ssh, "\b \b");
2267 ssh->userpass_input_bufpos--;
2268 }
2269 break;
2270 case 21:
2271 case 27:
2272 while (ssh->userpass_input_bufpos > 0) {
2273 if (ssh->userpass_input_echo)
2274 c_write_str(ssh, "\b \b");
2275 ssh->userpass_input_bufpos--;
2276 }
2277 break;
2278 case 3:
2279 case 4:
2280 return -1;
2281 break;
2282 default:
2283 /*
2284 * This simplistic check for printability is disabled
2285 * when we're doing password input, because some people
2286 * have control characters in their passwords.o
2287 */
2288 if ((!ssh->userpass_input_echo ||
2289 (c >= ' ' && c <= '~') ||
2290 ((unsigned char) c >= 160))
2291 && ssh->userpass_input_bufpos < ssh->userpass_input_buflen-1) {
2292 ssh->userpass_input_buffer[ssh->userpass_input_bufpos++] = c;
2293 if (ssh->userpass_input_echo)
2294 c_write(ssh, &c, 1);
2295 }
2296 break;
2297 }
2298 }
2299 return 0;
2300 }
2301
2302 static void ssh_agent_callback(void *sshv, void *reply, int replylen)
2303 {
2304 Ssh ssh = (Ssh) sshv;
2305
2306 ssh->agent_response = reply;
2307 ssh->agent_response_len = replylen;
2308
2309 if (ssh->version == 1)
2310 do_ssh1_login(ssh, NULL, -1, 0);
2311 else
2312 do_ssh2_authconn(ssh, NULL, -1, 0);
2313 }
2314
2315 static void ssh_agentf_callback(void *cv, void *reply, int replylen)
2316 {
2317 struct ssh_channel *c = (struct ssh_channel *)cv;
2318 Ssh ssh = c->ssh;
2319 void *sentreply = reply;
2320
2321 if (!sentreply) {
2322 /* Fake SSH_AGENT_FAILURE. */
2323 sentreply = "\0\0\0\1\5";
2324 replylen = 5;
2325 }
2326 if (ssh->version == 2) {
2327 ssh2_add_channel_data(c, sentreply, replylen);
2328 ssh2_try_send(c);
2329 } else {
2330 send_packet(ssh, SSH1_MSG_CHANNEL_DATA,
2331 PKT_INT, c->remoteid,
2332 PKT_INT, replylen,
2333 PKT_DATA, sentreply, replylen,
2334 PKT_END);
2335 }
2336 if (reply)
2337 sfree(reply);
2338 }
2339
2340 /*
2341 * Handle the key exchange and user authentication phases.
2342 */
2343 static int do_ssh1_login(Ssh ssh, unsigned char *in, int inlen, int ispkt)
2344 {
2345 int i, j;
2346 unsigned char cookie[8];
2347 struct RSAKey servkey, hostkey;
2348 struct MD5Context md5c;
2349 struct do_ssh1_login_state {
2350 int len;
2351 unsigned char *rsabuf, *keystr1, *keystr2;
2352 unsigned long supported_ciphers_mask, supported_auths_mask;
2353 int tried_publickey, tried_agent;
2354 int tis_auth_refused, ccard_auth_refused;
2355 unsigned char session_id[16];
2356 int cipher_type;
2357 char username[100];
2358 void *publickey_blob;
2359 int publickey_bloblen;
2360 char password[100];
2361 char prompt[200];
2362 int pos;
2363 char c;
2364 int pwpkt_type;
2365 unsigned char request[5], *response, *p;
2366 int responselen;
2367 int keyi, nkeys;
2368 int authed;
2369 struct RSAKey key;
2370 Bignum challenge;
2371 char *commentp;
2372 int commentlen;
2373 };
2374 crState(do_ssh1_login_state);
2375
2376 crBegin(ssh->do_ssh1_login_crstate);
2377
2378 if (!ispkt)
2379 crWaitUntil(ispkt);
2380
2381 if (ssh->pktin.type != SSH1_SMSG_PUBLIC_KEY) {
2382 bombout(("Public key packet not received"));
2383 crStop(0);
2384 }
2385
2386 logevent("Received public keys");
2387
2388 memcpy(cookie, ssh->pktin.body, 8);
2389
2390 i = makekey(ssh->pktin.body + 8, &servkey, &s->keystr1, 0);
2391 j = makekey(ssh->pktin.body + 8 + i, &hostkey, &s->keystr2, 0);
2392
2393 /*
2394 * Log the host key fingerprint.
2395 */
2396 {
2397 char logmsg[80];
2398 logevent("Host key fingerprint is:");
2399 strcpy(logmsg, " ");
2400 hostkey.comment = NULL;
2401 rsa_fingerprint(logmsg + strlen(logmsg),
2402 sizeof(logmsg) - strlen(logmsg), &hostkey);
2403 logevent(logmsg);
2404 }
2405
2406 ssh->v1_remote_protoflags = GET_32BIT(ssh->pktin.body + 8 + i + j);
2407 s->supported_ciphers_mask = GET_32BIT(ssh->pktin.body + 12 + i + j);
2408 s->supported_auths_mask = GET_32BIT(ssh->pktin.body + 16 + i + j);
2409
2410 ssh->v1_local_protoflags =
2411 ssh->v1_remote_protoflags & SSH1_PROTOFLAGS_SUPPORTED;
2412 ssh->v1_local_protoflags |= SSH1_PROTOFLAG_SCREEN_NUMBER;
2413
2414 MD5Init(&md5c);
2415 MD5Update(&md5c, s->keystr2, hostkey.bytes);
2416 MD5Update(&md5c, s->keystr1, servkey.bytes);
2417 MD5Update(&md5c, ssh->pktin.body, 8);
2418 MD5Final(s->session_id, &md5c);
2419
2420 for (i = 0; i < 32; i++)
2421 ssh->session_key[i] = random_byte();
2422
2423 s->len = (hostkey.bytes > servkey.bytes ? hostkey.bytes : servkey.bytes);
2424
2425 s->rsabuf = snewn(s->len, unsigned char);
2426 if (!s->rsabuf)
2427 fatalbox("Out of memory");
2428
2429 /*
2430 * Verify the host key.
2431 */
2432 {
2433 /*
2434 * First format the key into a string.
2435 */
2436 int len = rsastr_len(&hostkey);
2437 char fingerprint[100];
2438 char *keystr = snewn(len, char);
2439 if (!keystr)
2440 fatalbox("Out of memory");
2441 rsastr_fmt(keystr, &hostkey);
2442 rsa_fingerprint(fingerprint, sizeof(fingerprint), &hostkey);
2443 verify_ssh_host_key(ssh->frontend,
2444 ssh->savedhost, ssh->savedport, "rsa", keystr,
2445 fingerprint);
2446 sfree(keystr);
2447 }
2448
2449 for (i = 0; i < 32; i++) {
2450 s->rsabuf[i] = ssh->session_key[i];
2451 if (i < 16)
2452 s->rsabuf[i] ^= s->session_id[i];
2453 }
2454
2455 if (hostkey.bytes > servkey.bytes) {
2456 rsaencrypt(s->rsabuf, 32, &servkey);
2457 rsaencrypt(s->rsabuf, servkey.bytes, &hostkey);
2458 } else {
2459 rsaencrypt(s->rsabuf, 32, &hostkey);
2460 rsaencrypt(s->rsabuf, hostkey.bytes, &servkey);
2461 }
2462
2463 logevent("Encrypted session key");
2464
2465 {
2466 int cipher_chosen = 0, warn = 0;
2467 char *cipher_string = NULL;
2468 int i;
2469 for (i = 0; !cipher_chosen && i < CIPHER_MAX; i++) {
2470 int next_cipher = ssh->cfg.ssh_cipherlist[i];
2471 if (next_cipher == CIPHER_WARN) {
2472 /* If/when we choose a cipher, warn about it */
2473 warn = 1;
2474 } else if (next_cipher == CIPHER_AES) {
2475 /* XXX Probably don't need to mention this. */
2476 logevent("AES not supported in SSH1, skipping");
2477 } else {
2478 switch (next_cipher) {
2479 case CIPHER_3DES: s->cipher_type = SSH_CIPHER_3DES;
2480 cipher_string = "3DES"; break;
2481 case CIPHER_BLOWFISH: s->cipher_type = SSH_CIPHER_BLOWFISH;
2482 cipher_string = "Blowfish"; break;
2483 case CIPHER_DES: s->cipher_type = SSH_CIPHER_DES;
2484 cipher_string = "single-DES"; break;
2485 }
2486 if (s->supported_ciphers_mask & (1 << s->cipher_type))
2487 cipher_chosen = 1;
2488 }
2489 }
2490 if (!cipher_chosen) {
2491 if ((s->supported_ciphers_mask & (1 << SSH_CIPHER_3DES)) == 0)
2492 bombout(("Server violates SSH 1 protocol by not "
2493 "supporting 3DES encryption"));
2494 else
2495 /* shouldn't happen */
2496 bombout(("No supported ciphers found"));
2497 crStop(0);
2498 }
2499
2500 /* Warn about chosen cipher if necessary. */
2501 if (warn)
2502 askcipher(ssh->frontend, cipher_string, 0);
2503 }
2504
2505 switch (s->cipher_type) {
2506 case SSH_CIPHER_3DES:
2507 logevent("Using 3DES encryption");
2508 break;
2509 case SSH_CIPHER_DES:
2510 logevent("Using single-DES encryption");
2511 break;
2512 case SSH_CIPHER_BLOWFISH:
2513 logevent("Using Blowfish encryption");
2514 break;
2515 }
2516
2517 send_packet(ssh, SSH1_CMSG_SESSION_KEY,
2518 PKT_CHAR, s->cipher_type,
2519 PKT_DATA, cookie, 8,
2520 PKT_CHAR, (s->len * 8) >> 8, PKT_CHAR, (s->len * 8) & 0xFF,
2521 PKT_DATA, s->rsabuf, s->len,
2522 PKT_INT, ssh->v1_local_protoflags, PKT_END);
2523
2524 logevent("Trying to enable encryption...");
2525
2526 sfree(s->rsabuf);
2527
2528 ssh->cipher = (s->cipher_type == SSH_CIPHER_BLOWFISH ? &ssh_blowfish_ssh1 :
2529 s->cipher_type == SSH_CIPHER_DES ? &ssh_des :
2530 &ssh_3des);
2531 ssh->v1_cipher_ctx = ssh->cipher->make_context();
2532 ssh->cipher->sesskey(ssh->v1_cipher_ctx, ssh->session_key);
2533 logeventf(ssh, "Initialised %s encryption", ssh->cipher->text_name);
2534
2535 ssh->crcda_ctx = crcda_make_context();
2536 logevent("Installing CRC compensation attack detector");
2537
2538 if (servkey.modulus) {
2539 sfree(servkey.modulus);
2540 servkey.modulus = NULL;
2541 }
2542 if (servkey.exponent) {
2543 sfree(servkey.exponent);
2544 servkey.exponent = NULL;
2545 }
2546 if (hostkey.modulus) {
2547 sfree(hostkey.modulus);
2548 hostkey.modulus = NULL;
2549 }
2550 if (hostkey.exponent) {
2551 sfree(hostkey.exponent);
2552 hostkey.exponent = NULL;
2553 }
2554 crWaitUntil(ispkt);
2555
2556 if (ssh->pktin.type != SSH1_SMSG_SUCCESS) {
2557 bombout(("Encryption not successfully enabled"));
2558 crStop(0);
2559 }
2560
2561 logevent("Successfully started encryption");
2562
2563 fflush(stdout);
2564 {
2565 if ((flags & FLAG_INTERACTIVE) && !*ssh->cfg.username) {
2566 if (ssh_get_line && !ssh_getline_pw_only) {
2567 if (!ssh_get_line("login as: ",
2568 s->username, sizeof(s->username), FALSE)) {
2569 /*
2570 * get_line failed to get a username.
2571 * Terminate.
2572 */
2573 logevent("No username provided. Abandoning session.");
2574 ssh_closing((Plug)ssh, NULL, 0, 0);
2575 crStop(1);
2576 }
2577 } else {
2578 int ret; /* need not be kept over crReturn */
2579 c_write_str(ssh, "login as: ");
2580 ssh->send_ok = 1;
2581
2582 setup_userpass_input(ssh, s->username, sizeof(s->username), 1);
2583 do {
2584 crWaitUntil(!ispkt);
2585 ret = process_userpass_input(ssh, in, inlen);
2586 } while (ret == 0);
2587 if (ret < 0)
2588 cleanup_exit(0);
2589 c_write_str(ssh, "\r\n");
2590 }
2591 } else {
2592 strncpy(s->username, ssh->cfg.username, sizeof(s->username));
2593 s->username[sizeof(s->username)-1] = '\0';
2594 }
2595
2596 send_packet(ssh, SSH1_CMSG_USER, PKT_STR, s->username, PKT_END);
2597 {
2598 char userlog[22 + sizeof(s->username)];
2599 sprintf(userlog, "Sent username \"%s\"", s->username);
2600 logevent(userlog);
2601 if (flags & FLAG_INTERACTIVE &&
2602 (!((flags & FLAG_STDERR) && (flags & FLAG_VERBOSE)))) {
2603 strcat(userlog, "\r\n");
2604 c_write_str(ssh, userlog);
2605 }
2606 }
2607 }
2608
2609 crWaitUntil(ispkt);
2610
2611 if ((ssh->remote_bugs & BUG_CHOKES_ON_RSA)) {
2612 /* We must not attempt PK auth. Pretend we've already tried it. */
2613 s->tried_publickey = s->tried_agent = 1;
2614 } else {
2615 s->tried_publickey = s->tried_agent = 0;
2616 }
2617 s->tis_auth_refused = s->ccard_auth_refused = 0;
2618 /* Load the public half of ssh->cfg.keyfile so we notice if it's in Pageant */
2619 if (!filename_is_null(ssh->cfg.keyfile)) {
2620 if (!rsakey_pubblob(&ssh->cfg.keyfile,
2621 &s->publickey_blob, &s->publickey_bloblen, NULL))
2622 s->publickey_blob = NULL;
2623 } else
2624 s->publickey_blob = NULL;
2625
2626 while (ssh->pktin.type == SSH1_SMSG_FAILURE) {
2627 s->pwpkt_type = SSH1_CMSG_AUTH_PASSWORD;
2628
2629 if (agent_exists() && !s->tried_agent) {
2630 /*
2631 * Attempt RSA authentication using Pageant.
2632 */
2633 void *r;
2634
2635 s->authed = FALSE;
2636 s->tried_agent = 1;
2637 logevent("Pageant is running. Requesting keys.");
2638
2639 /* Request the keys held by the agent. */
2640 PUT_32BIT(s->request, 1);
2641 s->request[4] = SSH1_AGENTC_REQUEST_RSA_IDENTITIES;
2642 if (!agent_query(s->request, 5, &r, &s->responselen,
2643 ssh_agent_callback, ssh)) {
2644 do {
2645 crReturn(0);
2646 if (ispkt) {
2647 bombout(("Unexpected data from server while waiting"
2648 " for agent response"));
2649 crStop(0);
2650 }
2651 } while (ispkt || inlen > 0);
2652 r = ssh->agent_response;
2653 s->responselen = ssh->agent_response_len;
2654 }
2655 s->response = (unsigned char *) r;
2656 if (s->response && s->responselen >= 5 &&
2657 s->response[4] == SSH1_AGENT_RSA_IDENTITIES_ANSWER) {
2658 s->p = s->response + 5;
2659 s->nkeys = GET_32BIT(s->p);
2660 s->p += 4;
2661 {
2662 char buf[64];
2663 sprintf(buf, "Pageant has %d SSH1 keys", s->nkeys);
2664 logevent(buf);
2665 }
2666 for (s->keyi = 0; s->keyi < s->nkeys; s->keyi++) {
2667 {
2668 char buf[64];
2669 sprintf(buf, "Trying Pageant key #%d", s->keyi);
2670 logevent(buf);
2671 }
2672 if (s->publickey_blob &&
2673 !memcmp(s->p, s->publickey_blob,
2674 s->publickey_bloblen)) {
2675 logevent("This key matches configured key file");
2676 s->tried_publickey = 1;
2677 }
2678 s->p += 4;
2679 s->p += ssh1_read_bignum(s->p, &s->key.exponent);
2680 s->p += ssh1_read_bignum(s->p, &s->key.modulus);
2681 s->commentlen = GET_32BIT(s->p);
2682 s->p += 4;
2683 s->commentp = (char *)s->p;
2684 s->p += s->commentlen;
2685 send_packet(ssh, SSH1_CMSG_AUTH_RSA,
2686 PKT_BIGNUM, s->key.modulus, PKT_END);
2687 crWaitUntil(ispkt);
2688 if (ssh->pktin.type != SSH1_SMSG_AUTH_RSA_CHALLENGE) {
2689 logevent("Key refused");
2690 continue;
2691 }
2692 logevent("Received RSA challenge");
2693 ssh1_read_bignum(ssh->pktin.body, &s->challenge);
2694 {
2695 char *agentreq, *q, *ret;
2696 void *vret;
2697 int len, retlen;
2698 len = 1 + 4; /* message type, bit count */
2699 len += ssh1_bignum_length(s->key.exponent);
2700 len += ssh1_bignum_length(s->key.modulus);
2701 len += ssh1_bignum_length(s->challenge);
2702 len += 16; /* session id */
2703 len += 4; /* response format */
2704 agentreq = snewn(4 + len, char);
2705 PUT_32BIT(agentreq, len);
2706 q = agentreq + 4;
2707 *q++ = SSH1_AGENTC_RSA_CHALLENGE;
2708 PUT_32BIT(q, bignum_bitcount(s->key.modulus));
2709 q += 4;
2710 q += ssh1_write_bignum(q, s->key.exponent);
2711 q += ssh1_write_bignum(q, s->key.modulus);
2712 q += ssh1_write_bignum(q, s->challenge);
2713 memcpy(q, s->session_id, 16);
2714 q += 16;
2715 PUT_32BIT(q, 1); /* response format */
2716 if (!agent_query(agentreq, len + 4, &vret, &retlen,
2717 ssh_agent_callback, ssh)) {
2718 sfree(agentreq);
2719 do {
2720 crReturn(0);
2721 if (ispkt) {
2722 bombout(("Unexpected data from server"
2723 " while waiting for agent"
2724 " response"));
2725 crStop(0);
2726 }
2727 } while (ispkt || inlen > 0);
2728 vret = ssh->agent_response;
2729 retlen = ssh->agent_response_len;
2730 } else
2731 sfree(agentreq);
2732 ret = vret;
2733 if (ret) {
2734 if (ret[4] == SSH1_AGENT_RSA_RESPONSE) {
2735 logevent("Sending Pageant's response");
2736 send_packet(ssh, SSH1_CMSG_AUTH_RSA_RESPONSE,
2737 PKT_DATA, ret + 5, 16,
2738 PKT_END);
2739 sfree(ret);
2740 crWaitUntil(ispkt);
2741 if (ssh->pktin.type == SSH1_SMSG_SUCCESS) {
2742 logevent
2743 ("Pageant's response accepted");
2744 if (flags & FLAG_VERBOSE) {
2745 c_write_str(ssh, "Authenticated using"
2746 " RSA key \"");
2747 c_write(ssh, s->commentp,
2748 s->commentlen);
2749 c_write_str(ssh, "\" from agent\r\n");
2750 }
2751 s->authed = TRUE;
2752 } else
2753 logevent
2754 ("Pageant's response not accepted");
2755 } else {
2756 logevent
2757 ("Pageant failed to answer challenge");
2758 sfree(ret);
2759 }
2760 } else {
2761 logevent("No reply received from Pageant");
2762 }
2763 }
2764 freebn(s->key.exponent);
2765 freebn(s->key.modulus);
2766 freebn(s->challenge);
2767 if (s->authed)
2768 break;
2769 }
2770 sfree(s->response);
2771 }
2772 if (s->authed)
2773 break;
2774 }
2775 if (!filename_is_null(ssh->cfg.keyfile) && !s->tried_publickey)
2776 s->pwpkt_type = SSH1_CMSG_AUTH_RSA;
2777
2778 if (ssh->cfg.try_tis_auth &&
2779 (s->supported_auths_mask & (1 << SSH1_AUTH_TIS)) &&
2780 !s->tis_auth_refused) {
2781 s->pwpkt_type = SSH1_CMSG_AUTH_TIS_RESPONSE;
2782 logevent("Requested TIS authentication");
2783 send_packet(ssh, SSH1_CMSG_AUTH_TIS, PKT_END);
2784 crWaitUntil(ispkt);
2785 if (ssh->pktin.type != SSH1_SMSG_AUTH_TIS_CHALLENGE) {
2786 logevent("TIS authentication declined");
2787 if (flags & FLAG_INTERACTIVE)
2788 c_write_str(ssh, "TIS authentication refused.\r\n");
2789 s->tis_auth_refused = 1;
2790 continue;
2791 } else {
2792 int challengelen = GET_32BIT(ssh->pktin.body);
2793 logevent("Received TIS challenge");
2794 if (challengelen > sizeof(s->prompt) - 1)
2795 challengelen = sizeof(s->prompt) - 1;/* prevent overrun */
2796 memcpy(s->prompt, ssh->pktin.body + 4, challengelen);
2797 /* Prompt heuristic comes from OpenSSH */
2798 strncpy(s->prompt + challengelen,
2799 memchr(s->prompt, '\n', challengelen) ?
2800 "": "\r\nResponse: ",
2801 (sizeof s->prompt) - challengelen);
2802 s->prompt[(sizeof s->prompt) - 1] = '\0';
2803 }
2804 }
2805 if (ssh->cfg.try_tis_auth &&
2806 (s->supported_auths_mask & (1 << SSH1_AUTH_CCARD)) &&
2807 !s->ccard_auth_refused) {
2808 s->pwpkt_type = SSH1_CMSG_AUTH_CCARD_RESPONSE;
2809 logevent("Requested CryptoCard authentication");
2810 send_packet(ssh, SSH1_CMSG_AUTH_CCARD, PKT_END);
2811 crWaitUntil(ispkt);
2812 if (ssh->pktin.type != SSH1_SMSG_AUTH_CCARD_CHALLENGE) {
2813 logevent("CryptoCard authentication declined");
2814 c_write_str(ssh, "CryptoCard authentication refused.\r\n");
2815 s->ccard_auth_refused = 1;
2816 continue;
2817 } else {
2818 int challengelen = GET_32BIT(ssh->pktin.body);
2819 logevent("Received CryptoCard challenge");
2820 if (challengelen > sizeof(s->prompt) - 1)
2821 challengelen = sizeof(s->prompt) - 1;/* prevent overrun */
2822 memcpy(s->prompt, ssh->pktin.body + 4, challengelen);
2823 strncpy(s->prompt + challengelen,
2824 memchr(s->prompt, '\n', challengelen) ?
2825 "" : "\r\nResponse: ",
2826 sizeof(s->prompt) - challengelen);
2827 s->prompt[sizeof(s->prompt) - 1] = '\0';
2828 }
2829 }
2830 if (s->pwpkt_type == SSH1_CMSG_AUTH_PASSWORD) {
2831 sprintf(s->prompt, "%.90s@%.90s's password: ",
2832 s->username, ssh->savedhost);
2833 }
2834 if (s->pwpkt_type == SSH1_CMSG_AUTH_RSA) {
2835 char *comment = NULL;
2836 int type;
2837 char msgbuf[256];
2838 if (flags & FLAG_VERBOSE)
2839 c_write_str(ssh, "Trying public key authentication.\r\n");
2840 logeventf(ssh, "Trying public key \"%s\"",
2841 filename_to_str(&ssh->cfg.keyfile));
2842 type = key_type(&ssh->cfg.keyfile);
2843 if (type != SSH_KEYTYPE_SSH1) {
2844 sprintf(msgbuf, "Key is of wrong type (%s)",
2845 key_type_to_str(type));
2846 logevent(msgbuf);
2847 c_write_str(ssh, msgbuf);
2848 c_write_str(ssh, "\r\n");
2849 s->tried_publickey = 1;
2850 continue;
2851 }
2852 if (!rsakey_encrypted(&ssh->cfg.keyfile, &comment)) {
2853 if (flags & FLAG_VERBOSE)
2854 c_write_str(ssh, "No passphrase required.\r\n");
2855 goto tryauth;
2856 }
2857 sprintf(s->prompt, "Passphrase for key \"%.100s\": ", comment);
2858 sfree(comment);
2859 }
2860
2861 /*
2862 * Show password prompt, having first obtained it via a TIS
2863 * or CryptoCard exchange if we're doing TIS or CryptoCard
2864 * authentication.
2865 */
2866 if (ssh_get_line) {
2867 if (!ssh_get_line(s->prompt, s->password,
2868 sizeof(s->password), TRUE)) {
2869 /*
2870 * get_line failed to get a password (for example
2871 * because one was supplied on the command line
2872 * which has already failed to work). Terminate.
2873 */
2874 send_packet(ssh, SSH1_MSG_DISCONNECT,
2875 PKT_STR, "No more passwords available to try",
2876 PKT_END);
2877 logevent("Unable to authenticate");
2878 connection_fatal(ssh->frontend, "Unable to authenticate");
2879 ssh_closing((Plug)ssh, NULL, 0, 0);
2880 crStop(1);
2881 }
2882 } else {
2883 /* Prompt may have come from server. We've munged it a bit, so
2884 * we know it to be zero-terminated at least once. */
2885 int ret; /* need not be saved over crReturn */
2886 c_write_untrusted(ssh, s->prompt, strlen(s->prompt));
2887 s->pos = 0;
2888
2889 setup_userpass_input(ssh, s->password, sizeof(s->password), 0);
2890 do {
2891 crWaitUntil(!ispkt);
2892 ret = process_userpass_input(ssh, in, inlen);
2893 } while (ret == 0);
2894 if (ret < 0)
2895 cleanup_exit(0);
2896 c_write_str(ssh, "\r\n");
2897 }
2898
2899 tryauth:
2900 if (s->pwpkt_type == SSH1_CMSG_AUTH_RSA) {
2901 /*
2902 * Try public key authentication with the specified
2903 * key file.
2904 */
2905 s->tried_publickey = 1;
2906
2907 {
2908 const char *error = NULL;
2909 int ret = loadrsakey(&ssh->cfg.keyfile, &s->key, s->password,
2910 &error);
2911 if (ret == 0) {
2912 c_write_str(ssh, "Couldn't load private key from ");
2913 c_write_str(ssh, filename_to_str(&ssh->cfg.keyfile));
2914 c_write_str(ssh, " (");
2915 c_write_str(ssh, error);
2916 c_write_str(ssh, ").\r\n");
2917 continue; /* go and try password */
2918 }
2919 if (ret == -1) {
2920 c_write_str(ssh, "Wrong passphrase.\r\n");
2921 s->tried_publickey = 0;
2922 continue; /* try again */
2923 }
2924 }
2925
2926 /*
2927 * Send a public key attempt.
2928 */
2929 send_packet(ssh, SSH1_CMSG_AUTH_RSA,
2930 PKT_BIGNUM, s->key.modulus, PKT_END);
2931
2932 crWaitUntil(ispkt);
2933 if (ssh->pktin.type == SSH1_SMSG_FAILURE) {
2934 c_write_str(ssh, "Server refused our public key.\r\n");
2935 continue; /* go and try password */
2936 }
2937 if (ssh->pktin.type != SSH1_SMSG_AUTH_RSA_CHALLENGE) {
2938 bombout(("Bizarre response to offer of public key"));
2939 crStop(0);
2940 }
2941
2942 {
2943 int i;
2944 unsigned char buffer[32];
2945 Bignum challenge, response;
2946
2947 ssh1_read_bignum(ssh->pktin.body, &challenge);
2948 response = rsadecrypt(challenge, &s->key);
2949 freebn(s->key.private_exponent);/* burn the evidence */
2950
2951 for (i = 0; i < 32; i++) {
2952 buffer[i] = bignum_byte(response, 31 - i);
2953 }
2954
2955 MD5Init(&md5c);
2956 MD5Update(&md5c, buffer, 32);
2957 MD5Update(&md5c, s->session_id, 16);
2958 MD5Final(buffer, &md5c);
2959
2960 send_packet(ssh, SSH1_CMSG_AUTH_RSA_RESPONSE,
2961 PKT_DATA, buffer, 16, PKT_END);
2962
2963 freebn(challenge);
2964 freebn(response);
2965 }
2966
2967 crWaitUntil(ispkt);
2968 if (ssh->pktin.type == SSH1_SMSG_FAILURE) {
2969 if (flags & FLAG_VERBOSE)
2970 c_write_str(ssh, "Failed to authenticate with"
2971 " our public key.\r\n");
2972 continue; /* go and try password */
2973 } else if (ssh->pktin.type != SSH1_SMSG_SUCCESS) {
2974 bombout(("Bizarre response to RSA authentication response"));
2975 crStop(0);
2976 }
2977
2978 break; /* we're through! */
2979 } else {
2980 if (s->pwpkt_type == SSH1_CMSG_AUTH_PASSWORD) {
2981 /*
2982 * Defence against traffic analysis: we send a
2983 * whole bunch of packets containing strings of
2984 * different lengths. One of these strings is the
2985 * password, in a SSH1_CMSG_AUTH_PASSWORD packet.
2986 * The others are all random data in
2987 * SSH1_MSG_IGNORE packets. This way a passive
2988 * listener can't tell which is the password, and
2989 * hence can't deduce the password length.
2990 *
2991 * Anybody with a password length greater than 16
2992 * bytes is going to have enough entropy in their
2993 * password that a listener won't find it _that_
2994 * much help to know how long it is. So what we'll
2995 * do is:
2996 *
2997 * - if password length < 16, we send 15 packets
2998 * containing string lengths 1 through 15
2999 *
3000 * - otherwise, we let N be the nearest multiple
3001 * of 8 below the password length, and send 8
3002 * packets containing string lengths N through
3003 * N+7. This won't obscure the order of
3004 * magnitude of the password length, but it will
3005 * introduce a bit of extra uncertainty.
3006 *
3007 * A few servers (the old 1.2.18 through 1.2.22)
3008 * can't deal with SSH1_MSG_IGNORE. For these
3009 * servers, we need an alternative defence. We make
3010 * use of the fact that the password is interpreted
3011 * as a C string: so we can append a NUL, then some
3012 * random data.
3013 *
3014 * One server (a Cisco one) can deal with neither
3015 * SSH1_MSG_IGNORE _nor_ a padded password string.
3016 * For this server we are left with no defences
3017 * against password length sniffing.
3018 */
3019 if (!(ssh->remote_bugs & BUG_CHOKES_ON_SSH1_IGNORE)) {
3020 /*
3021 * The server can deal with SSH1_MSG_IGNORE, so
3022 * we can use the primary defence.
3023 */
3024 int bottom, top, pwlen, i;
3025 char *randomstr;
3026
3027 pwlen = strlen(s->password);
3028 if (pwlen < 16) {
3029 bottom = 0; /* zero length passwords are OK! :-) */
3030 top = 15;
3031 } else {
3032 bottom = pwlen & ~7;
3033 top = bottom + 7;
3034 }
3035
3036 assert(pwlen >= bottom && pwlen <= top);
3037
3038 randomstr = snewn(top + 1, char);
3039
3040 for (i = bottom; i <= top; i++) {
3041 if (i == pwlen)
3042 defer_packet(ssh, s->pwpkt_type,
3043 PKT_STR, s->password, PKT_END);
3044 else {
3045 for (j = 0; j < i; j++) {
3046 do {
3047 randomstr[j] = random_byte();
3048 } while (randomstr[j] == '\0');
3049 }
3050 randomstr[i] = '\0';
3051 defer_packet(ssh, SSH1_MSG_IGNORE,
3052 PKT_STR, randomstr, PKT_END);
3053 }
3054 }
3055 logevent("Sending password with camouflage packets");
3056 ssh_pkt_defersend(ssh);
3057 sfree(randomstr);
3058 }
3059 else if (!(ssh->remote_bugs & BUG_NEEDS_SSH1_PLAIN_PASSWORD)) {
3060 /*
3061 * The server can't deal with SSH1_MSG_IGNORE
3062 * but can deal with padded passwords, so we
3063 * can use the secondary defence.
3064 */
3065 char string[64];
3066 char *ss;
3067 int len;
3068
3069 len = strlen(s->password);
3070 if (len < sizeof(string)) {
3071 ss = string;
3072 strcpy(string, s->password);
3073 len++; /* cover the zero byte */
3074 while (len < sizeof(string)) {
3075 string[len++] = (char) random_byte();
3076 }
3077 } else {
3078 ss = s->password;
3079 }
3080 logevent("Sending length-padded password");
3081 send_packet(ssh, s->pwpkt_type, PKT_INT, len,
3082 PKT_DATA, ss, len, PKT_END);
3083 } else {
3084 /*
3085 * The server has _both_
3086 * BUG_CHOKES_ON_SSH1_IGNORE and
3087 * BUG_NEEDS_SSH1_PLAIN_PASSWORD. There is
3088 * therefore nothing we can do.
3089 */
3090 int len;
3091 len = strlen(s->password);
3092 logevent("Sending unpadded password");
3093 send_packet(ssh, s->pwpkt_type, PKT_INT, len,
3094 PKT_DATA, s->password, len, PKT_END);
3095 }
3096 } else {
3097 send_packet(ssh, s->pwpkt_type, PKT_STR, s->password, PKT_END);
3098 }
3099 }
3100 logevent("Sent password");
3101 memset(s->password, 0, strlen(s->password));
3102 crWaitUntil(ispkt);
3103 if (ssh->pktin.type == SSH1_SMSG_FAILURE) {
3104 if (flags & FLAG_VERBOSE)
3105 c_write_str(ssh, "Access denied\r\n");
3106 logevent("Authentication refused");
3107 } else if (ssh->pktin.type != SSH1_SMSG_SUCCESS) {
3108 bombout(("Strange packet received, type %d", ssh->pktin.type));
3109 crStop(0);
3110 }
3111 }
3112
3113 logevent("Authentication successful");
3114
3115 crFinish(1);
3116 }
3117
3118 void sshfwd_close(struct ssh_channel *c)
3119 {
3120 Ssh ssh = c->ssh;
3121
3122 if (ssh->state != SSH_STATE_SESSION) {
3123 assert(ssh->state == SSH_STATE_CLOSED);
3124 return;
3125 }
3126
3127 if (c && !c->closes) {
3128 /*
3129 * If the channel's remoteid is -1, we have sent
3130 * CHANNEL_OPEN for this channel, but it hasn't even been
3131 * acknowledged by the server. So we must set a close flag
3132 * on it now, and then when the server acks the channel
3133 * open, we can close it then.
3134 */
3135 if (((int)c->remoteid) != -1) {
3136 if (ssh->version == 1) {
3137 send_packet(ssh, SSH1_MSG_CHANNEL_CLOSE, PKT_INT, c->remoteid,
3138 PKT_END);
3139 } else {
3140 ssh2_pkt_init(ssh, SSH2_MSG_CHANNEL_CLOSE);
3141 ssh2_pkt_adduint32(ssh, c->remoteid);
3142 ssh2_pkt_send(ssh);
3143 }
3144 }
3145 c->closes = 1; /* sent MSG_CLOSE */
3146 if (c->type == CHAN_X11) {
3147 c->u.x11.s = NULL;
3148 logevent("Forwarded X11 connection terminated");
3149 } else if (c->type == CHAN_SOCKDATA ||
3150 c->type == CHAN_SOCKDATA_DORMANT) {
3151 c->u.pfd.s = NULL;
3152 logevent("Forwarded port closed");
3153 }
3154 }
3155 }
3156
3157 int sshfwd_write(struct ssh_channel *c, char *buf, int len)
3158 {
3159 Ssh ssh = c->ssh;
3160
3161 if (ssh->state != SSH_STATE_SESSION) {
3162 assert(ssh->state == SSH_STATE_CLOSED);
3163 return 0;
3164 }
3165
3166 if (ssh->version == 1) {
3167 send_packet(ssh, SSH1_MSG_CHANNEL_DATA,
3168 PKT_INT, c->remoteid,
3169 PKT_INT, len, PKT_DATA, buf, len, PKT_END);
3170 /*
3171 * In SSH1 we can return 0 here - implying that forwarded
3172 * connections are never individually throttled - because
3173 * the only circumstance that can cause throttling will be
3174 * the whole SSH connection backing up, in which case
3175 * _everything_ will be throttled as a whole.
3176 */
3177 return 0;
3178 } else {
3179 ssh2_add_channel_data(c, buf, len);
3180 return ssh2_try_send(c);
3181 }
3182 }
3183
3184 void sshfwd_unthrottle(struct ssh_channel *c, int bufsize)
3185 {
3186 Ssh ssh = c->ssh;
3187
3188 if (ssh->state != SSH_STATE_SESSION) {
3189 assert(ssh->state == SSH_STATE_CLOSED);
3190 return;
3191 }
3192
3193 if (ssh->version == 1) {
3194 if (c->v.v1.throttling && bufsize < SSH1_BUFFER_LIMIT) {
3195 c->v.v1.throttling = 0;
3196 ssh1_throttle(ssh, -1);
3197 }
3198 } else {
3199 ssh2_set_window(c, OUR_V2_WINSIZE - bufsize);
3200 }
3201 }
3202
3203 static void ssh1_protocol(Ssh ssh, unsigned char *in, int inlen, int ispkt)
3204 {
3205 crBegin(ssh->ssh1_protocol_crstate);
3206
3207 random_init();
3208
3209 while (!do_ssh1_login(ssh, in, inlen, ispkt)) {
3210 crReturnV;
3211 }
3212 if (ssh->state == SSH_STATE_CLOSED)
3213 crReturnV;
3214
3215 if (ssh->cfg.agentfwd && agent_exists()) {
3216 logevent("Requesting agent forwarding");
3217 send_packet(ssh, SSH1_CMSG_AGENT_REQUEST_FORWARDING, PKT_END);
3218 do {
3219 crReturnV;
3220 } while (!ispkt);
3221 if (ssh->pktin.type != SSH1_SMSG_SUCCESS
3222 && ssh->pktin.type != SSH1_SMSG_FAILURE) {
3223 bombout(("Protocol confusion"));
3224 crStopV;
3225 } else if (ssh->pktin.type == SSH1_SMSG_FAILURE) {
3226 logevent("Agent forwarding refused");
3227 } else {
3228 logevent("Agent forwarding enabled");
3229 ssh->agentfwd_enabled = TRUE;
3230 }
3231 }
3232
3233 if (ssh->cfg.x11_forward) {
3234 char proto[20], data[64];
3235 logevent("Requesting X11 forwarding");
3236 ssh->x11auth = x11_invent_auth(proto, sizeof(proto),
3237 data, sizeof(data), ssh->cfg.x11_auth);
3238 x11_get_real_auth(ssh->x11auth, ssh->cfg.x11_display);
3239 if (ssh->v1_local_protoflags & SSH1_PROTOFLAG_SCREEN_NUMBER) {
3240 send_packet(ssh, SSH1_CMSG_X11_REQUEST_FORWARDING,
3241 PKT_STR, proto, PKT_STR, data,
3242 PKT_INT, x11_get_screen_number(ssh->cfg.x11_display),
3243 PKT_END);
3244 } else {
3245 send_packet(ssh, SSH1_CMSG_X11_REQUEST_FORWARDING,
3246 PKT_STR, proto, PKT_STR, data, PKT_END);
3247 }
3248 do {
3249 crReturnV;
3250 } while (!ispkt);
3251 if (ssh->pktin.type != SSH1_SMSG_SUCCESS
3252 && ssh->pktin.type != SSH1_SMSG_FAILURE) {
3253 bombout(("Protocol confusion"));
3254 crStopV;
3255 } else if (ssh->pktin.type == SSH1_SMSG_FAILURE) {
3256 logevent("X11 forwarding refused");
3257 } else {
3258 logevent("X11 forwarding enabled");
3259 ssh->X11_fwd_enabled = TRUE;
3260 }
3261 }
3262
3263 {
3264 char type;
3265 int n;
3266 int sport,dport,sserv,dserv;
3267 char sports[256], dports[256], saddr[256], host[256];
3268
3269 ssh->rportfwds = newtree234(ssh_rportcmp_ssh1);
3270 /* Add port forwardings. */
3271 ssh->portfwd_strptr = ssh->cfg.portfwd;
3272 while (*ssh->portfwd_strptr) {
3273 type = *ssh->portfwd_strptr++;
3274 saddr[0] = '\0';
3275 n = 0;
3276 while (*ssh->portfwd_strptr && *ssh->portfwd_strptr != '\t') {
3277 if (*ssh->portfwd_strptr == ':') {
3278 /*
3279 * We've seen a colon in the middle of the
3280 * source port number. This means that
3281 * everything we've seen until now is the
3282 * source _address_, so we'll move it into
3283 * saddr and start sports from the beginning
3284 * again.
3285 */
3286 ssh->portfwd_strptr++;
3287 sports[n] = '\0';
3288 strcpy(saddr, sports);
3289 n = 0;
3290 }
3291 if (n < 255) sports[n++] = *ssh->portfwd_strptr++;
3292 }
3293 sports[n] = 0;
3294 if (type != 'D') {
3295 if (*ssh->portfwd_strptr == '\t')
3296 ssh->portfwd_strptr++;
3297 n = 0;
3298 while (*ssh->portfwd_strptr && *ssh->portfwd_strptr != ':') {
3299 if (n < 255) host[n++] = *ssh->portfwd_strptr++;
3300 }
3301 host[n] = 0;
3302 if (*ssh->portfwd_strptr == ':')
3303 ssh->portfwd_strptr++;
3304 n = 0;
3305 while (*ssh->portfwd_strptr) {
3306 if (n < 255) dports[n++] = *ssh->portfwd_strptr++;
3307 }
3308 dports[n] = 0;
3309 ssh->portfwd_strptr++;
3310 dport = atoi(dports);
3311 dserv = 0;
3312 if (dport == 0) {
3313 dserv = 1;
3314 dport = net_service_lookup(dports);
3315 if (!dport) {
3316 logeventf(ssh, "Service lookup failed for"
3317 " destination port \"%s\"", dports);
3318 }
3319 }
3320 } else {
3321 while (*ssh->portfwd_strptr) ssh->portfwd_strptr++;
3322 dport = dserv = -1;
3323 ssh->portfwd_strptr++; /* eat the NUL and move to next one */
3324 }
3325 sport = atoi(sports);
3326 sserv = 0;
3327 if (sport == 0) {
3328 sserv = 1;
3329 sport = net_service_lookup(sports);
3330 if (!sport) {
3331 logeventf(ssh, "Service lookup failed for source"
3332 " port \"%s\"", sports);
3333 }
3334 }
3335 if (sport && dport) {
3336 if (type == 'L') {
3337 pfd_addforward(host, dport, *saddr ? saddr : NULL,
3338 sport, ssh, &ssh->cfg);
3339 logeventf(ssh, "Local port %.*s%.*s%.*s%.*s%d%.*s"
3340 " forwarding to %s:%.*s%.*s%d%.*s",
3341 (int)(*saddr?strlen(saddr):0), *saddr?saddr:NULL,
3342 (int)(*saddr?1:0), ":",
3343 (int)(sserv ? strlen(sports) : 0), sports,
3344 sserv, "(", sport, sserv, ")",
3345 host,
3346 (int)(dserv ? strlen(dports) : 0), dports,
3347 dserv, "(", dport, dserv, ")");
3348 } else if (type == 'D') {
3349 pfd_addforward(NULL, -1, *saddr ? saddr : NULL,
3350 sport, ssh, &ssh->cfg);
3351 logeventf(ssh, "Local port %.*s%.*s%.*s%.*s%d%.*s"
3352 " doing SOCKS dynamic forwarding",
3353 (int)(*saddr?strlen(saddr):0), *saddr?saddr:NULL,
3354 (int)(*saddr?1:0), ":",
3355 (int)(sserv ? strlen(sports) : 0), sports,
3356 sserv, "(", sport, sserv, ")");
3357 } else {
3358 struct ssh_rportfwd *pf;
3359 pf = snew(struct ssh_rportfwd);
3360 strcpy(pf->dhost, host);
3361 pf->dport = dport;
3362 if (saddr) {
3363 logeventf(ssh,
3364 "SSH1 cannot handle source address spec \"%s:%d\"; ignoring",
3365 saddr, sport);
3366 }
3367 if (add234(ssh->rportfwds, pf) != pf) {
3368 logeventf(ssh,
3369 "Duplicate remote port forwarding to %s:%d",
3370 host, dport);
3371 sfree(pf);
3372 } else {
3373 logeventf(ssh, "Requesting remote port %.*s%.*s%d%.*s"
3374 " forward to %s:%.*s%.*s%d%.*s",
3375 (int)(sserv ? strlen(sports) : 0), sports,
3376 sserv, "(", sport, sserv, ")",
3377 host,
3378 (int)(dserv ? strlen(dports) : 0), dports,
3379 dserv, "(", dport, dserv, ")");
3380 send_packet(ssh, SSH1_CMSG_PORT_FORWARD_REQUEST,
3381 PKT_INT, sport,
3382 PKT_STR, host,
3383 PKT_INT, dport,
3384 PKT_END);
3385 do {
3386 crReturnV;
3387 } while (!ispkt);
3388 if (ssh->pktin.type != SSH1_SMSG_SUCCESS
3389 && ssh->pktin.type != SSH1_SMSG_FAILURE) {
3390 bombout(("Protocol confusion"));
3391 crStopV;
3392 } else if (ssh->pktin.type == SSH1_SMSG_FAILURE) {
3393 c_write_str(ssh, "Server refused port"
3394 " forwarding\r\n");
3395 }
3396 logevent("Remote port forwarding enabled");
3397 }
3398 }
3399 }
3400 }
3401 }
3402
3403 if (!ssh->cfg.nopty) {
3404 send_packet(ssh, SSH1_CMSG_REQUEST_PTY,
3405 PKT_STR, ssh->cfg.termtype,
3406 PKT_INT, ssh->term_height,
3407 PKT_INT, ssh->term_width,
3408 PKT_INT, 0, PKT_INT, 0, PKT_CHAR, 0, PKT_END);
3409 ssh->state = SSH_STATE_INTERMED;
3410 do {
3411 crReturnV;
3412 } while (!ispkt);
3413 if (ssh->pktin.type != SSH1_SMSG_SUCCESS
3414 && ssh->pktin.type != SSH1_SMSG_FAILURE) {
3415 bombout(("Protocol confusion"));
3416 crStopV;
3417 } else if (ssh->pktin.type == SSH1_SMSG_FAILURE) {
3418 c_write_str(ssh, "Server refused to allocate pty\r\n");
3419 ssh->editing = ssh->echoing = 1;
3420 }
3421 logevent("Allocated pty");
3422 } else {
3423 ssh->editing = ssh->echoing = 1;
3424 }
3425
3426 if (ssh->cfg.compression) {
3427 send_packet(ssh, SSH1_CMSG_REQUEST_COMPRESSION, PKT_INT, 6, PKT_END);
3428 do {
3429 crReturnV;
3430 } while (!ispkt);
3431 if (ssh->pktin.type != SSH1_SMSG_SUCCESS
3432 && ssh->pktin.type != SSH1_SMSG_FAILURE) {
3433 bombout(("Protocol confusion"));
3434 crStopV;
3435 } else if (ssh->pktin.type == SSH1_SMSG_FAILURE) {
3436 c_write_str(ssh, "Server refused to compress\r\n");
3437 }
3438 logevent("Started compression");
3439 ssh->v1_compressing = TRUE;
3440 ssh->cs_comp_ctx = zlib_compress_init();
3441 logevent("Initialised zlib (RFC1950) compression");
3442 ssh->sc_comp_ctx = zlib_decompress_init();
3443 logevent("Initialised zlib (RFC1950) decompression");
3444 }
3445
3446 /*
3447 * Start the shell or command.
3448 *
3449 * Special case: if the first-choice command is an SSH2
3450 * subsystem (hence not usable here) and the second choice
3451 * exists, we fall straight back to that.
3452 */
3453 {
3454 char *cmd = ssh->cfg.remote_cmd_ptr;
3455
3456 if (ssh->cfg.ssh_subsys && ssh->cfg.remote_cmd_ptr2) {
3457 cmd = ssh->cfg.remote_cmd_ptr2;
3458 ssh->fallback_cmd = TRUE;
3459 }
3460 if (*cmd)
3461 send_packet(ssh, SSH1_CMSG_EXEC_CMD, PKT_STR, cmd, PKT_END);
3462 else
3463 send_packet(ssh, SSH1_CMSG_EXEC_SHELL, PKT_END);
3464 logevent("Started session");
3465 }
3466
3467 ssh->state = SSH_STATE_SESSION;
3468 if (ssh->size_needed)
3469 ssh_size(ssh, ssh->term_width, ssh->term_height);
3470 if (ssh->eof_needed)
3471 ssh_special(ssh, TS_EOF);
3472
3473 if (ssh->ldisc)
3474 ldisc_send(ssh->ldisc, NULL, 0, 0);/* cause ldisc to notice changes */
3475 ssh->send_ok = 1;
3476 ssh->channels = newtree234(ssh_channelcmp);
3477 while (1) {
3478 crReturnV;
3479 if (ispkt) {
3480 if (ssh->pktin.type == SSH1_SMSG_STDOUT_DATA ||
3481 ssh->pktin.type == SSH1_SMSG_STDERR_DATA) {
3482 long len = GET_32BIT(ssh->pktin.body);
3483 int bufsize =
3484 from_backend(ssh->frontend,
3485 ssh->pktin.type == SSH1_SMSG_STDERR_DATA,
3486 (char *)(ssh->pktin.body) + 4, len);
3487 if (!ssh->v1_stdout_throttling && bufsize > SSH1_BUFFER_LIMIT) {
3488 ssh->v1_stdout_throttling = 1;
3489 ssh1_throttle(ssh, +1);
3490 }
3491 } else if (ssh->pktin.type == SSH1_MSG_DISCONNECT) {
3492 ssh_closing((Plug)ssh, NULL, 0, 0);
3493 logevent("Received disconnect request");
3494 crStopV;
3495 } else if (ssh->pktin.type == SSH1_SMSG_X11_OPEN) {
3496 /* Remote side is trying to open a channel to talk to our
3497 * X-Server. Give them back a local channel number. */
3498 struct ssh_channel *c;
3499
3500 logevent("Received X11 connect request");
3501 /* Refuse if X11 forwarding is disabled. */
3502 if (!ssh->X11_fwd_enabled) {
3503 send_packet(ssh, SSH1_MSG_CHANNEL_OPEN_FAILURE,
3504 PKT_INT, GET_32BIT(ssh->pktin.body), PKT_END);
3505 logevent("Rejected X11 connect request");
3506 } else {
3507 c = snew(struct ssh_channel);
3508 c->ssh = ssh;
3509
3510 if (x11_init(&c->u.x11.s, ssh->cfg.x11_display, c,
3511 ssh->x11auth, NULL, -1, &ssh->cfg) != NULL) {
3512 logevent("opening X11 forward connection failed");
3513 sfree(c);
3514 send_packet(ssh, SSH1_MSG_CHANNEL_OPEN_FAILURE,
3515 PKT_INT, GET_32BIT(ssh->pktin.body),
3516 PKT_END);
3517 } else {
3518 logevent
3519 ("opening X11 forward connection succeeded");
3520 c->remoteid = GET_32BIT(ssh->pktin.body);
3521 c->localid = alloc_channel_id(ssh);
3522 c->closes = 0;
3523 c->v.v1.throttling = 0;
3524 c->type = CHAN_X11; /* identify channel type */
3525 add234(ssh->channels, c);
3526 send_packet(ssh, SSH1_MSG_CHANNEL_OPEN_CONFIRMATION,
3527 PKT_INT, c->remoteid, PKT_INT,
3528 c->localid, PKT_END);
3529 logevent("Opened X11 forward channel");
3530 }
3531 }
3532 } else if (ssh->pktin.type == SSH1_SMSG_AGENT_OPEN) {
3533 /* Remote side is trying to open a channel to talk to our
3534 * agent. Give them back a local channel number. */
3535 struct ssh_channel *c;
3536
3537 /* Refuse if agent forwarding is disabled. */
3538 if (!ssh->agentfwd_enabled) {
3539 send_packet(ssh, SSH1_MSG_CHANNEL_OPEN_FAILURE,
3540 PKT_INT, GET_32BIT(ssh->pktin.body), PKT_END);
3541 } else {
3542 c = snew(struct ssh_channel);
3543 c->ssh = ssh;
3544 c->remoteid = GET_32BIT(ssh->pktin.body);
3545 c->localid = alloc_channel_id(ssh);
3546 c->closes = 0;
3547 c->v.v1.throttling = 0;
3548 c->type = CHAN_AGENT; /* identify channel type */
3549 c->u.a.lensofar = 0;
3550 add234(ssh->channels, c);
3551 send_packet(ssh, SSH1_MSG_CHANNEL_OPEN_CONFIRMATION,
3552 PKT_INT, c->remoteid, PKT_INT, c->localid,
3553 PKT_END);
3554 }
3555 } else if (ssh->pktin.type == SSH1_MSG_PORT_OPEN) {
3556 /* Remote side is trying to open a channel to talk to a
3557 * forwarded port. Give them back a local channel number. */
3558 struct ssh_channel *c;
3559 struct ssh_rportfwd pf;
3560 int hostsize, port;
3561 char host[256], buf[1024];
3562 char *p, *h;
3563 const char *e;
3564 c = snew(struct ssh_channel);
3565 c->ssh = ssh;
3566
3567 hostsize = GET_32BIT(ssh->pktin.body+4);
3568 for (h = host, p = (char *)(ssh->pktin.body+8);
3569 hostsize != 0; hostsize--) {
3570 if (h+1 < host+sizeof(host))
3571 *h++ = *p;
3572 p++;
3573 }
3574 *h = 0;
3575 port = GET_32BIT(p);
3576
3577 strcpy(pf.dhost, host);
3578 pf.dport = port;
3579
3580 if (find234(ssh->rportfwds, &pf, NULL) == NULL) {
3581 sprintf(buf, "Rejected remote port open request for %s:%d",
3582 host, port);
3583 logevent(buf);
3584 send_packet(ssh, SSH1_MSG_CHANNEL_OPEN_FAILURE,
3585 PKT_INT, GET_32BIT(ssh->pktin.body), PKT_END);
3586 } else {
3587 sprintf(buf, "Received remote port open request for %s:%d",
3588 host, port);
3589 logevent(buf);
3590 e = pfd_newconnect(&c->u.pfd.s, host, port, c, &ssh->cfg);
3591 if (e != NULL) {
3592 char buf[256];
3593 sprintf(buf, "Port open failed: %s", e);
3594 logevent(buf);
3595 sfree(c);
3596 send_packet(ssh, SSH1_MSG_CHANNEL_OPEN_FAILURE,
3597 PKT_INT, GET_32BIT(ssh->pktin.body),
3598 PKT_END);
3599 } else {
3600 c->remoteid = GET_32BIT(ssh->pktin.body);
3601 c->localid = alloc_channel_id(ssh);
3602 c->closes = 0;
3603 c->v.v1.throttling = 0;
3604 c->type = CHAN_SOCKDATA; /* identify channel type */
3605 add234(ssh->channels, c);
3606 send_packet(ssh, SSH1_MSG_CHANNEL_OPEN_CONFIRMATION,
3607 PKT_INT, c->remoteid, PKT_INT,
3608 c->localid, PKT_END);
3609 logevent("Forwarded port opened successfully");
3610 }
3611 }
3612
3613 } else if (ssh->pktin.type == SSH1_MSG_CHANNEL_OPEN_CONFIRMATION) {
3614 unsigned int remoteid = GET_32BIT(ssh->pktin.body);
3615 unsigned int localid = GET_32BIT(ssh->pktin.body+4);
3616 struct ssh_channel *c;
3617
3618 c = find234(ssh->channels, &remoteid, ssh_channelfind);
3619 if (c && c->type == CHAN_SOCKDATA_DORMANT) {
3620 c->remoteid = localid;
3621 c->type = CHAN_SOCKDATA;
3622 c->v.v1.throttling = 0;
3623 pfd_confirm(c->u.pfd.s);
3624 }
3625
3626 if (c && c->closes) {
3627 /*
3628 * We have a pending close on this channel,
3629 * which we decided on before the server acked
3630 * the channel open. So now we know the
3631 * remoteid, we can close it again.
3632 */
3633 send_packet(ssh, SSH1_MSG_CHANNEL_CLOSE,
3634 PKT_INT, c->remoteid, PKT_END);
3635 }
3636
3637 } else if (ssh->pktin.type == SSH1_MSG_CHANNEL_OPEN_FAILURE) {
3638 unsigned int remoteid = GET_32BIT(ssh->pktin.body);
3639 struct ssh_channel *c;
3640
3641 c = find234(ssh->channels, &remoteid, ssh_channelfind);
3642 if (c && c->type == CHAN_SOCKDATA_DORMANT) {
3643 logevent("Forwarded connection refused by server");
3644 pfd_close(c->u.pfd.s);
3645 del234(ssh->channels, c);
3646 sfree(c);
3647 }
3648
3649 } else if (ssh->pktin.type == SSH1_MSG_CHANNEL_CLOSE ||
3650 ssh->pktin.type == SSH1_MSG_CHANNEL_CLOSE_CONFIRMATION) {
3651 /* Remote side closes a channel. */
3652 unsigned i = GET_32BIT(ssh->pktin.body);
3653 struct ssh_channel *c;
3654 c = find234(ssh->channels, &i, ssh_channelfind);
3655 if (c && ((int)c->remoteid) != -1) {
3656 int closetype;
3657 closetype =
3658 (ssh->pktin.type == SSH1_MSG_CHANNEL_CLOSE ? 1 : 2);
3659
3660 if ((c->closes == 0) && (c->type == CHAN_X11)) {
3661 logevent("Forwarded X11 connection terminated");
3662 assert(c->u.x11.s != NULL);
3663 x11_close(c->u.x11.s);
3664 c->u.x11.s = NULL;
3665 }
3666 if ((c->closes == 0) && (c->type == CHAN_SOCKDATA)) {
3667 logevent("Forwarded port closed");
3668 assert(c->u.pfd.s != NULL);
3669 pfd_close(c->u.pfd.s);
3670 c->u.pfd.s = NULL;
3671 }
3672
3673 c->closes |= (closetype << 2); /* seen this message */
3674 if (!(c->closes & closetype)) {
3675 send_packet(ssh, ssh->pktin.type, PKT_INT, c->remoteid,
3676 PKT_END);
3677 c->closes |= closetype; /* sent it too */
3678 }
3679
3680 if (c->closes == 15) {
3681 del234(ssh->channels, c);
3682 sfree(c);
3683 }
3684 } else {
3685 bombout(("Received CHANNEL_CLOSE%s for %s channel %d\n",
3686 ssh->pktin.type == SSH1_MSG_CHANNEL_CLOSE ? "" :
3687 "_CONFIRMATION", c ? "half-open" : "nonexistent",
3688 i));
3689 crStopV;
3690 }
3691 } else if (ssh->pktin.type == SSH1_MSG_CHANNEL_DATA) {
3692 /* Data sent down one of our channels. */
3693 int i = GET_32BIT(ssh->pktin.body);
3694 int len = GET_32BIT(ssh->pktin.body + 4);
3695 unsigned char *p = ssh->pktin.body + 8;
3696 struct ssh_channel *c;
3697 c = find234(ssh->channels, &i, ssh_channelfind);
3698 if (c) {
3699 int bufsize = 0;
3700 switch (c->type) {
3701 case CHAN_X11:
3702 bufsize = x11_send(c->u.x11.s, (char *)p, len);
3703 break;
3704 case CHAN_SOCKDATA:
3705 bufsize = pfd_send(c->u.pfd.s, (char *)p, len);
3706 break;
3707 case CHAN_AGENT:
3708 /* Data for an agent message. Buffer it. */
3709 while (len > 0) {
3710 if (c->u.a.lensofar < 4) {
3711 int l = min(4 - c->u.a.lensofar, len);
3712 memcpy(c->u.a.msglen + c->u.a.lensofar, p,
3713 l);
3714 p += l;
3715 len -= l;
3716 c->u.a.lensofar += l;
3717 }
3718 if (c->u.a.lensofar == 4) {
3719 c->u.a.totallen =
3720 4 + GET_32BIT(c->u.a.msglen);
3721 c->u.a.message = snewn(c->u.a.totallen,
3722 unsigned char);
3723 memcpy(c->u.a.message, c->u.a.msglen, 4);
3724 }
3725 if (c->u.a.lensofar >= 4 && len > 0) {
3726 int l =
3727 min(c->u.a.totallen - c->u.a.lensofar,
3728 len);
3729 memcpy(c->u.a.message + c->u.a.lensofar, p,
3730 l);
3731 p += l;
3732 len -= l;
3733 c->u.a.lensofar += l;
3734 }
3735 if (c->u.a.lensofar == c->u.a.totallen) {
3736 void *reply;
3737 int replylen;
3738 if (agent_query(c->u.a.message,
3739 c->u.a.totallen,
3740 &reply, &replylen,
3741 ssh_agentf_callback, c))
3742 ssh_agentf_callback(c, reply, replylen);
3743 sfree(c->u.a.message);
3744 c->u.a.lensofar = 0;
3745 }
3746 }
3747 bufsize = 0; /* agent channels never back up */
3748 break;
3749 }
3750 if (!c->v.v1.throttling && bufsize > SSH1_BUFFER_LIMIT) {
3751 c->v.v1.throttling = 1;
3752 ssh1_throttle(ssh, +1);
3753 }
3754 }
3755 } else if (ssh->pktin.type == SSH1_SMSG_SUCCESS) {
3756 /* may be from EXEC_SHELL on some servers */
3757 } else if (ssh->pktin.type == SSH1_SMSG_FAILURE) {
3758 /* may be from EXEC_SHELL on some servers
3759 * if no pty is available or in other odd cases. Ignore */
3760 } else if (ssh->pktin.type == SSH1_SMSG_EXIT_STATUS) {
3761 char buf[100];
3762 ssh->exitcode = GET_32BIT(ssh->pktin.body);
3763 sprintf(buf, "Server sent command exit status %d",
3764 ssh->exitcode);
3765 logevent(buf);
3766 send_packet(ssh, SSH1_CMSG_EXIT_CONFIRMATION, PKT_END);
3767 /*
3768 * In case `helpful' firewalls or proxies tack
3769 * extra human-readable text on the end of the
3770 * session which we might mistake for another
3771 * encrypted packet, we close the session once
3772 * we've sent EXIT_CONFIRMATION.
3773 */
3774 ssh_closing((Plug)ssh, NULL, 0, 0);
3775 crStopV;
3776 } else {
3777 bombout(("Strange packet received: type %d", ssh->pktin.type));
3778 crStopV;
3779 }
3780 } else {
3781 while (inlen > 0) {
3782 int len = min(inlen, 512);
3783 send_packet(ssh, SSH1_CMSG_STDIN_DATA,
3784 PKT_INT, len, PKT_DATA, in, len, PKT_END);
3785 in += len;
3786 inlen -= len;
3787 }
3788 }
3789 }
3790
3791 crFinishV;
3792 }
3793
3794 /*
3795 * Utility routine for decoding comma-separated strings in KEXINIT.
3796 */
3797 static int in_commasep_string(char *needle, char *haystack, int haylen)
3798 {
3799 int needlen;
3800 if (!needle || !haystack) /* protect against null pointers */
3801 return 0;
3802 needlen = strlen(needle);
3803 while (1) {
3804 /*
3805 * Is it at the start of the string?
3806 */
3807 if (haylen >= needlen && /* haystack is long enough */
3808 !memcmp(needle, haystack, needlen) && /* initial match */
3809 (haylen == needlen || haystack[needlen] == ',')
3810 /* either , or EOS follows */
3811 )
3812 return 1;
3813 /*
3814 * If not, search for the next comma and resume after that.
3815 * If no comma found, terminate.
3816 */
3817 while (haylen > 0 && *haystack != ',')
3818 haylen--, haystack++;
3819 if (haylen == 0)
3820 return 0;
3821 haylen--, haystack++; /* skip over comma itself */
3822 }
3823 }
3824
3825 /*
3826 * SSH2 key creation method.
3827 */
3828 static void ssh2_mkkey(Ssh ssh, Bignum K, unsigned char *H,
3829 unsigned char *sessid, char chr,
3830 unsigned char *keyspace)
3831 {
3832 SHA_State s;
3833 /* First 20 bytes. */
3834 SHA_Init(&s);
3835 if (!(ssh->remote_bugs & BUG_SSH2_DERIVEKEY))
3836 sha_mpint(&s, K);
3837 SHA_Bytes(&s, H, 20);
3838 SHA_Bytes(&s, &chr, 1);
3839 SHA_Bytes(&s, sessid, 20);
3840 SHA_Final(&s, keyspace);
3841 /* Next 20 bytes. */
3842 SHA_Init(&s);
3843 if (!(ssh->remote_bugs & BUG_SSH2_DERIVEKEY))
3844 sha_mpint(&s, K);
3845 SHA_Bytes(&s, H, 20);
3846 SHA_Bytes(&s, keyspace, 20);
3847 SHA_Final(&s, keyspace + 20);
3848 }
3849
3850 /*
3851 * Handle the SSH2 transport layer.
3852 */
3853 static int do_ssh2_transport(Ssh ssh, unsigned char *in, int inlen, int ispkt)
3854 {
3855 struct do_ssh2_transport_state {
3856 int nbits, pbits, warn;
3857 Bignum p, g, e, f, K;
3858 int kex_init_value, kex_reply_value;
3859 const struct ssh_mac **maclist;
3860 int nmacs;
3861 const struct ssh2_cipher *cscipher_tobe;
3862 const struct ssh2_cipher *sccipher_tobe;
3863 const struct ssh_mac *csmac_tobe;
3864 const struct ssh_mac *scmac_tobe;
3865 const struct ssh_compress *cscomp_tobe;
3866 const struct ssh_compress *sccomp_tobe;
3867 char *hostkeydata, *sigdata, *keystr, *fingerprint;
3868 int hostkeylen, siglen;
3869 void *hkey; /* actual host key */
3870 unsigned char exchange_hash[20];
3871 int n_preferred_ciphers;
3872 const struct ssh2_ciphers *preferred_ciphers[CIPHER_MAX];
3873 const struct ssh_compress *preferred_comp;
3874 int first_kex;
3875 };
3876 crState(do_ssh2_transport_state);
3877
3878 crBegin(ssh->do_ssh2_transport_crstate);
3879
3880 s->cscipher_tobe = s->sccipher_tobe = NULL;
3881 s->csmac_tobe = s->scmac_tobe = NULL;
3882 s->cscomp_tobe = s->sccomp_tobe = NULL;
3883
3884 random_init();
3885 s->first_kex = 1;
3886
3887 {
3888 int i;
3889 /*
3890 * Set up the preferred ciphers. (NULL => warn below here)
3891 */
3892 s->n_preferred_ciphers = 0;
3893 for (i = 0; i < CIPHER_MAX; i++) {
3894 switch (ssh->cfg.ssh_cipherlist[i]) {
3895 case CIPHER_BLOWFISH:
3896 s->preferred_ciphers[s->n_preferred_ciphers++] = &ssh2_blowfish;
3897 break;
3898 case CIPHER_DES:
3899 if (ssh->cfg.ssh2_des_cbc) {
3900 s->preferred_ciphers[s->n_preferred_ciphers++] = &ssh2_des;
3901 }
3902 break;
3903 case CIPHER_3DES:
3904 s->preferred_ciphers[s->n_preferred_ciphers++] = &ssh2_3des;
3905 break;
3906 case CIPHER_AES:
3907 s->preferred_ciphers[s->n_preferred_ciphers++] = &ssh2_aes;
3908 break;
3909 case CIPHER_WARN:
3910 /* Flag for later. Don't bother if it's the last in
3911 * the list. */
3912 if (i < CIPHER_MAX - 1) {
3913 s->preferred_ciphers[s->n_preferred_ciphers++] = NULL;
3914 }
3915 break;
3916 }
3917 }
3918 }
3919
3920 /*
3921 * Set up preferred compression.
3922 */
3923 if (ssh->cfg.compression)
3924 s->preferred_comp = &ssh_zlib;
3925 else
3926 s->preferred_comp = &ssh_comp_none;
3927
3928 /*
3929 * Be prepared to work around the buggy MAC problem.
3930 */
3931 if (ssh->remote_bugs & BUG_SSH2_HMAC)
3932 s->maclist = buggymacs, s->nmacs = lenof(buggymacs);
3933 else
3934 s->maclist = macs, s->nmacs = lenof(macs);
3935
3936 begin_key_exchange:
3937 {
3938 int i, j, cipherstr_started;
3939
3940 /*
3941 * Construct and send our key exchange packet.
3942 */
3943 ssh2_pkt_init(ssh, SSH2_MSG_KEXINIT);
3944 for (i = 0; i < 16; i++)
3945 ssh2_pkt_addbyte(ssh, (unsigned char) random_byte());
3946 /* List key exchange algorithms. */
3947 ssh2_pkt_addstring_start(ssh);
3948 for (i = 0; i < lenof(kex_algs); i++) {
3949 if (kex_algs[i] == &ssh_diffiehellman_gex &&
3950 (ssh->remote_bugs & BUG_SSH2_DH_GEX))
3951 continue;
3952 ssh2_pkt_addstring_str(ssh, kex_algs[i]->name);
3953 if (i < lenof(kex_algs) - 1)
3954 ssh2_pkt_addstring_str(ssh, ",");
3955 }
3956 /* List server host key algorithms. */
3957 ssh2_pkt_addstring_start(ssh);
3958 for (i = 0; i < lenof(hostkey_algs); i++) {
3959 ssh2_pkt_addstring_str(ssh, hostkey_algs[i]->name);
3960 if (i < lenof(hostkey_algs) - 1)
3961 ssh2_pkt_addstring_str(ssh, ",");
3962 }
3963 /* List client->server encryption algorithms. */
3964 ssh2_pkt_addstring_start(ssh);
3965 cipherstr_started = 0;
3966 for (i = 0; i < s->n_preferred_ciphers; i++) {
3967 const struct ssh2_ciphers *c = s->preferred_ciphers[i];
3968 if (!c) continue; /* warning flag */
3969 for (j = 0; j < c->nciphers; j++) {
3970 if (cipherstr_started)
3971 ssh2_pkt_addstring_str(ssh, ",");
3972 ssh2_pkt_addstring_str(ssh, c->list[j]->name);
3973 cipherstr_started = 1;
3974 }
3975 }
3976 /* List server->client encryption algorithms. */
3977 ssh2_pkt_addstring_start(ssh);
3978 cipherstr_started = 0;
3979 for (i = 0; i < s->n_preferred_ciphers; i++) {
3980 const struct ssh2_ciphers *c = s->preferred_ciphers[i];
3981 if (!c) continue; /* warning flag */
3982 for (j = 0; j < c->nciphers; j++) {
3983 if (cipherstr_started)
3984 ssh2_pkt_addstring_str(ssh, ",");
3985 ssh2_pkt_addstring_str(ssh, c->list[j]->name);
3986 cipherstr_started = 1;
3987 }
3988 }
3989 /* List client->server MAC algorithms. */
3990 ssh2_pkt_addstring_start(ssh);
3991 for (i = 0; i < s->nmacs; i++) {
3992 ssh2_pkt_addstring_str(ssh, s->maclist[i]->name);
3993 if (i < s->nmacs - 1)
3994 ssh2_pkt_addstring_str(ssh, ",");
3995 }
3996 /* List server->client MAC algorithms. */
3997 ssh2_pkt_addstring_start(ssh);
3998 for (i = 0; i < s->nmacs; i++) {
3999 ssh2_pkt_addstring_str(ssh, s->maclist[i]->name);
4000 if (i < s->nmacs - 1)
4001 ssh2_pkt_addstring_str(ssh, ",");
4002 }
4003 /* List client->server compression algorithms. */
4004 ssh2_pkt_addstring_start(ssh);
4005 for (i = 0; i < lenof(compressions) + 1; i++) {
4006 const struct ssh_compress *c =
4007 i == 0 ? s->preferred_comp : compressions[i - 1];
4008 ssh2_pkt_addstring_str(ssh, c->name);
4009 if (i < lenof(compressions))
4010 ssh2_pkt_addstring_str(ssh, ",");
4011 }
4012 /* List server->client compression algorithms. */
4013 ssh2_pkt_addstring_start(ssh);
4014 for (i = 0; i < lenof(compressions) + 1; i++) {
4015 const struct ssh_compress *c =
4016 i == 0 ? s->preferred_comp : compressions[i - 1];
4017 ssh2_pkt_addstring_str(ssh, c->name);
4018 if (i < lenof(compressions))
4019 ssh2_pkt_addstring_str(ssh, ",");
4020 }
4021 /* List client->server languages. Empty list. */
4022 ssh2_pkt_addstring_start(ssh);
4023 /* List server->client languages. Empty list. */
4024 ssh2_pkt_addstring_start(ssh);
4025 /* First KEX packet does _not_ follow, because we're not that brave. */
4026 ssh2_pkt_addbool(ssh, FALSE);
4027 /* Reserved. */
4028 ssh2_pkt_adduint32(ssh, 0);
4029 }
4030
4031 ssh->exhash = ssh->exhashbase;
4032 sha_string(&ssh->exhash, ssh->pktout.data + 5, ssh->pktout.length - 5);
4033
4034 ssh2_pkt_send(ssh);
4035
4036 if (!ispkt)
4037 crWaitUntil(ispkt);
4038 if (ssh->pktin.length > 5)
4039 sha_string(&ssh->exhash, ssh->pktin.data + 5, ssh->pktin.length - 5);
4040
4041 /*
4042 * Now examine the other side's KEXINIT to see what we're up
4043 * to.
4044 */
4045 {
4046 char *str;
4047 int i, j, len;
4048
4049 if (ssh->pktin.type != SSH2_MSG_KEXINIT) {
4050 bombout(("expected key exchange packet from server"));
4051 crStop(0);
4052 }
4053 ssh->kex = NULL;
4054 ssh->hostkey = NULL;
4055 s->cscipher_tobe = NULL;
4056 s->sccipher_tobe = NULL;
4057 s->csmac_tobe = NULL;
4058 s->scmac_tobe = NULL;
4059 s->cscomp_tobe = NULL;
4060 s->sccomp_tobe = NULL;
4061 ssh->pktin.savedpos += 16; /* skip garbage cookie */
4062 ssh2_pkt_getstring(ssh, &str, &len); /* key exchange algorithms */
4063 for (i = 0; i < lenof(kex_algs); i++) {
4064 if (kex_algs[i] == &ssh_diffiehellman_gex &&
4065 (ssh->remote_bugs & BUG_SSH2_DH_GEX))
4066 continue;
4067 if (in_commasep_string(kex_algs[i]->name, str, len)) {
4068 ssh->kex = kex_algs[i];
4069 break;
4070 }
4071 }
4072 ssh2_pkt_getstring(ssh, &str, &len); /* host key algorithms */
4073 for (i = 0; i < lenof(hostkey_algs); i++) {
4074 if (in_commasep_string(hostkey_algs[i]->name, str, len)) {
4075 ssh->hostkey = hostkey_algs[i];
4076 break;
4077 }
4078 }
4079 ssh2_pkt_getstring(ssh, &str, &len); /* client->server cipher */
4080 s->warn = 0;
4081 for (i = 0; i < s->n_preferred_ciphers; i++) {
4082 const struct ssh2_ciphers *c = s->preferred_ciphers[i];
4083 if (!c) {
4084 s->warn = 1;
4085 } else {
4086 for (j = 0; j < c->nciphers; j++) {
4087 if (in_commasep_string(c->list[j]->name, str, len)) {
4088 s->cscipher_tobe = c->list[j];
4089 break;
4090 }
4091 }
4092 }
4093 if (s->cscipher_tobe) {
4094 if (s->warn)
4095 askcipher(ssh->frontend, s->cscipher_tobe->name, 1);
4096 break;
4097 }
4098 }
4099 if (!s->cscipher_tobe) {
4100 bombout(("Couldn't agree a client-to-server cipher (available: %s)",
4101 str ? str : "(null)"));
4102 crStop(0);
4103 }
4104
4105 ssh2_pkt_getstring(ssh, &str, &len); /* server->client cipher */
4106 s->warn = 0;
4107 for (i = 0; i < s->n_preferred_ciphers; i++) {
4108 const struct ssh2_ciphers *c = s->preferred_ciphers[i];
4109 if (!c) {
4110 s->warn = 1;
4111 } else {
4112 for (j = 0; j < c->nciphers; j++) {
4113 if (in_commasep_string(c->list[j]->name, str, len)) {
4114 s->sccipher_tobe = c->list[j];
4115 break;
4116 }
4117 }
4118 }
4119 if (s->sccipher_tobe) {
4120 if (s->warn)
4121 askcipher(ssh->frontend, s->sccipher_tobe->name, 2);
4122 break;
4123 }
4124 }
4125 if (!s->sccipher_tobe) {
4126 bombout(("Couldn't agree a server-to-client cipher (available: %s)",
4127 str ? str : "(null)"));
4128 crStop(0);
4129 }
4130
4131 ssh2_pkt_getstring(ssh, &str, &len); /* client->server mac */
4132 for (i = 0; i < s->nmacs; i++) {
4133 if (in_commasep_string(s->maclist[i]->name, str, len)) {
4134 s->csmac_tobe = s->maclist[i];
4135 break;
4136 }
4137 }
4138 ssh2_pkt_getstring(ssh, &str, &len); /* server->client mac */
4139 for (i = 0; i < s->nmacs; i++) {
4140 if (in_commasep_string(s->maclist[i]->name, str, len)) {
4141 s->scmac_tobe = s->maclist[i];
4142 break;
4143 }
4144 }
4145 ssh2_pkt_getstring(ssh, &str, &len); /* client->server compression */
4146 for (i = 0; i < lenof(compressions) + 1; i++) {
4147 const struct ssh_compress *c =
4148 i == 0 ? s->preferred_comp : compressions[i - 1];
4149 if (in_commasep_string(c->name, str, len)) {
4150 s->cscomp_tobe = c;
4151 break;
4152 }
4153 }
4154 ssh2_pkt_getstring(ssh, &str, &len); /* server->client compression */
4155 for (i = 0; i < lenof(compressions) + 1; i++) {
4156 const struct ssh_compress *c =
4157 i == 0 ? s->preferred_comp : compressions[i - 1];
4158 if (in_commasep_string(c->name, str, len)) {
4159 s->sccomp_tobe = c;
4160 break;
4161 }
4162 }
4163 }
4164
4165 /*
4166 * Work out the number of bits of key we will need from the key
4167 * exchange. We start with the maximum key length of either
4168 * cipher...
4169 */
4170 {
4171 int csbits, scbits;
4172
4173 csbits = s->cscipher_tobe->keylen;
4174 scbits = s->sccipher_tobe->keylen;
4175 s->nbits = (csbits > scbits ? csbits : scbits);
4176 }
4177 /* The keys only have 160-bit entropy, since they're based on
4178 * a SHA-1 hash. So cap the key size at 160 bits. */
4179 if (s->nbits > 160)
4180 s->nbits = 160;
4181
4182 /*
4183 * If we're doing Diffie-Hellman group exchange, start by
4184 * requesting a group.
4185 */
4186 if (ssh->kex == &ssh_diffiehellman_gex) {
4187 logevent("Doing Diffie-Hellman group exchange");
4188 ssh->pkt_ctx |= SSH2_PKTCTX_DHGEX;
4189 /*
4190 * Work out how big a DH group we will need to allow that
4191 * much data.
4192 */
4193 s->pbits = 512 << ((s->nbits - 1) / 64);
4194 ssh2_pkt_init(ssh, SSH2_MSG_KEX_DH_GEX_REQUEST);
4195 ssh2_pkt_adduint32(ssh, s->pbits);
4196 ssh2_pkt_send(ssh);
4197
4198 crWaitUntil(ispkt);
4199 if (ssh->pktin.type != SSH2_MSG_KEX_DH_GEX_GROUP) {
4200 bombout(("expected key exchange group packet from server"));
4201 crStop(0);
4202 }
4203 s->p = ssh2_pkt_getmp(ssh);
4204 s->g = ssh2_pkt_getmp(ssh);
4205 ssh->kex_ctx = dh_setup_group(s->p, s->g);
4206 s->kex_init_value = SSH2_MSG_KEX_DH_GEX_INIT;
4207 s->kex_reply_value = SSH2_MSG_KEX_DH_GEX_REPLY;
4208 } else {
4209 ssh->pkt_ctx |= SSH2_PKTCTX_DHGROUP1;
4210 ssh->kex_ctx = dh_setup_group1();
4211 s->kex_init_value = SSH2_MSG_KEXDH_INIT;
4212 s->kex_reply_value = SSH2_MSG_KEXDH_REPLY;
4213 }
4214
4215 logevent("Doing Diffie-Hellman key exchange");
4216 /*
4217 * Now generate and send e for Diffie-Hellman.
4218 */
4219 s->e = dh_create_e(ssh->kex_ctx, s->nbits * 2);
4220 ssh2_pkt_init(ssh, s->kex_init_value);
4221 ssh2_pkt_addmp(ssh, s->e);
4222 ssh2_pkt_send(ssh);
4223
4224 crWaitUntil(ispkt);
4225 if (ssh->pktin.type != s->kex_reply_value) {
4226 bombout(("expected key exchange reply packet from server"));
4227 crStop(0);
4228 }
4229 ssh2_pkt_getstring(ssh, &s->hostkeydata, &s->hostkeylen);
4230 s->f = ssh2_pkt_getmp(ssh);
4231 ssh2_pkt_getstring(ssh, &s->sigdata, &s->siglen);
4232
4233 s->K = dh_find_K(ssh->kex_ctx, s->f);
4234
4235 sha_string(&ssh->exhash, s->hostkeydata, s->hostkeylen);
4236 if (ssh->kex == &ssh_diffiehellman_gex) {
4237 sha_uint32(&ssh->exhash, s->pbits);
4238 sha_mpint(&ssh->exhash, s->p);
4239 sha_mpint(&ssh->exhash, s->g);
4240 }
4241 sha_mpint(&ssh->exhash, s->e);
4242 sha_mpint(&ssh->exhash, s->f);
4243 sha_mpint(&ssh->exhash, s->K);
4244 SHA_Final(&ssh->exhash, s->exchange_hash);
4245
4246 dh_cleanup(ssh->kex_ctx);
4247 ssh->kex_ctx = NULL;
4248
4249 #if 0
4250 debug(("Exchange hash is:\n"));
4251 dmemdump(s->exchange_hash, 20);
4252 #endif
4253
4254 s->hkey = ssh->hostkey->newkey(s->hostkeydata, s->hostkeylen);
4255 if (!s->hkey ||
4256 !ssh->hostkey->verifysig(s->hkey, s->sigdata, s->siglen,
4257 (char *)s->exchange_hash, 20)) {
4258 bombout(("Server's host key did not match the signature supplied"));
4259 crStop(0);
4260 }
4261
4262 /*
4263 * Authenticate remote host: verify host key. (We've already
4264 * checked the signature of the exchange hash.)
4265 */
4266 s->keystr = ssh->hostkey->fmtkey(s->hkey);
4267 s->fingerprint = ssh->hostkey->fingerprint(s->hkey);
4268 verify_ssh_host_key(ssh->frontend,
4269 ssh->savedhost, ssh->savedport, ssh->hostkey->keytype,
4270 s->keystr, s->fingerprint);
4271 if (s->first_kex) { /* don't bother logging this in rekeys */
4272 logevent("Host key fingerprint is:");
4273 logevent(s->fingerprint);
4274 }
4275 sfree(s->fingerprint);
4276 sfree(s->keystr);
4277 ssh->hostkey->freekey(s->hkey);
4278
4279 /*
4280 * Send SSH2_MSG_NEWKEYS.
4281 */
4282 ssh2_pkt_init(ssh, SSH2_MSG_NEWKEYS);
4283 ssh2_pkt_send(ssh);
4284
4285 /*
4286 * Expect SSH2_MSG_NEWKEYS from server.
4287 */
4288 crWaitUntil(ispkt);
4289 if (ssh->pktin.type != SSH2_MSG_NEWKEYS) {
4290 bombout(("expected new-keys packet from server"));
4291 crStop(0);
4292 }
4293
4294 /*
4295 * Create and initialise session keys.
4296 */
4297 if (ssh->cs_cipher_ctx)
4298 ssh->cscipher->free_context(ssh->cs_cipher_ctx);
4299 ssh->cscipher = s->cscipher_tobe;
4300 ssh->cs_cipher_ctx = ssh->cscipher->make_context();
4301
4302 if (ssh->sc_cipher_ctx)
4303 ssh->sccipher->free_context(ssh->sc_cipher_ctx);
4304 ssh->sccipher = s->sccipher_tobe;
4305 ssh->sc_cipher_ctx = ssh->sccipher->make_context();
4306
4307 if (ssh->cs_mac_ctx)
4308 ssh->csmac->free_context(ssh->cs_mac_ctx);
4309 ssh->csmac = s->csmac_tobe;
4310 ssh->cs_mac_ctx = ssh->csmac->make_context();
4311
4312 if (ssh->sc_mac_ctx)
4313 ssh->scmac->free_context(ssh->sc_mac_ctx);
4314 ssh->scmac = s->scmac_tobe;
4315 ssh->sc_mac_ctx = ssh->scmac->make_context();
4316
4317 if (ssh->cs_comp_ctx)
4318 ssh->cscomp->compress_cleanup(ssh->cs_comp_ctx);
4319 ssh->cscomp = s->cscomp_tobe;
4320 ssh->cs_comp_ctx = ssh->cscomp->compress_init();
4321
4322 if (ssh->sc_comp_ctx)
4323 ssh->sccomp->decompress_cleanup(ssh->sc_comp_ctx);
4324 ssh->sccomp = s->sccomp_tobe;
4325 ssh->sc_comp_ctx = ssh->sccomp->decompress_init();
4326
4327 /*
4328 * Set IVs after keys. Here we use the exchange hash from the
4329 * _first_ key exchange.
4330 */
4331 {
4332 unsigned char keyspace[40];
4333 if (s->first_kex)
4334 memcpy(ssh->v2_session_id, s->exchange_hash,
4335 sizeof(s->exchange_hash));
4336 ssh2_mkkey(ssh,s->K,s->exchange_hash,ssh->v2_session_id,'C',keyspace);
4337 ssh->cscipher->setkey(ssh->cs_cipher_ctx, keyspace);
4338 ssh2_mkkey(ssh,s->K,s->exchange_hash,ssh->v2_session_id,'D',keyspace);
4339 ssh->sccipher->setkey(ssh->sc_cipher_ctx, keyspace);
4340 ssh2_mkkey(ssh,s->K,s->exchange_hash,ssh->v2_session_id,'A',keyspace);
4341 ssh->cscipher->setiv(ssh->cs_cipher_ctx, keyspace);
4342 ssh2_mkkey(ssh,s->K,s->exchange_hash,ssh->v2_session_id,'B',keyspace);
4343 ssh->sccipher->setiv(ssh->sc_cipher_ctx, keyspace);
4344 ssh2_mkkey(ssh,s->K,s->exchange_hash,ssh->v2_session_id,'E',keyspace);
4345 ssh->csmac->setkey(ssh->cs_mac_ctx, keyspace);
4346 ssh2_mkkey(ssh,s->K,s->exchange_hash,ssh->v2_session_id,'F',keyspace);
4347 ssh->scmac->setkey(ssh->sc_mac_ctx, keyspace);
4348 }
4349 logeventf(ssh, "Initialised %.200s client->server encryption",
4350 ssh->cscipher->text_name);
4351 logeventf(ssh, "Initialised %.200s server->client encryption",
4352 ssh->sccipher->text_name);
4353 if (ssh->cscomp->text_name)
4354 logeventf(ssh, "Initialised %s compression",
4355 ssh->cscomp->text_name);
4356 if (ssh->sccomp->text_name)
4357 logeventf(ssh, "Initialised %s decompression",
4358 ssh->sccomp->text_name);
4359 freebn(s->f);
4360 freebn(s->K);
4361 if (ssh->kex == &ssh_diffiehellman_gex) {
4362 freebn(s->g);
4363 freebn(s->p);
4364 }
4365
4366 /*
4367 * If this is the first key exchange phase, we must pass the
4368 * SSH2_MSG_NEWKEYS packet to the next layer, not because it
4369 * wants to see it but because it will need time to initialise
4370 * itself before it sees an actual packet. In subsequent key
4371 * exchange phases, we don't pass SSH2_MSG_NEWKEYS on, because
4372 * it would only confuse the layer above.
4373 */
4374 if (!s->first_kex) {
4375 crReturn(0);
4376 }
4377 s->first_kex = 0;
4378
4379 /*
4380 * Now we're encrypting. Begin returning 1 to the protocol main
4381 * function so that other things can run on top of the
4382 * transport. If we ever see a KEXINIT, we must go back to the
4383 * start.
4384 */
4385 while (!(ispkt && ssh->pktin.type == SSH2_MSG_KEXINIT)) {
4386 crReturn(1);
4387 }
4388 logevent("Server initiated key re-exchange");
4389 goto begin_key_exchange;
4390
4391 crFinish(1);
4392 }
4393
4394 /*
4395 * Add data to an SSH2 channel output buffer.
4396 */
4397 static void ssh2_add_channel_data(struct ssh_channel *c, char *buf,
4398 int len)
4399 {
4400 bufchain_add(&c->v.v2.outbuffer, buf, len);
4401 }
4402
4403 /*
4404 * Attempt to send data on an SSH2 channel.
4405 */
4406 static int ssh2_try_send(struct ssh_channel *c)
4407 {
4408 Ssh ssh = c->ssh;
4409
4410 while (c->v.v2.remwindow > 0 && bufchain_size(&c->v.v2.outbuffer) > 0) {
4411 int len;
4412 void *data;
4413 bufchain_prefix(&c->v.v2.outbuffer, &data, &len);
4414 if ((unsigned)len > c->v.v2.remwindow)
4415 len = c->v.v2.remwindow;
4416 if ((unsigned)len > c->v.v2.remmaxpkt)
4417 len = c->v.v2.remmaxpkt;
4418 ssh2_pkt_init(ssh, SSH2_MSG_CHANNEL_DATA);
4419 ssh2_pkt_adduint32(ssh, c->remoteid);
4420 ssh2_pkt_addstring_start(ssh);
4421 ssh2_pkt_addstring_data(ssh, data, len);
4422 ssh2_pkt_send(ssh);
4423 bufchain_consume(&c->v.v2.outbuffer, len);
4424 c->v.v2.remwindow -= len;
4425 }
4426
4427 /*
4428 * After having sent as much data as we can, return the amount
4429 * still buffered.
4430 */
4431 return bufchain_size(&c->v.v2.outbuffer);
4432 }
4433
4434 /*
4435 * Potentially enlarge the window on an SSH2 channel.
4436 */
4437 static void ssh2_set_window(struct ssh_channel *c, unsigned newwin)
4438 {
4439 Ssh ssh = c->ssh;
4440
4441 /*
4442 * Never send WINDOW_ADJUST for a channel that the remote side
4443 * already thinks it's closed; there's no point, since it won't
4444 * be sending any more data anyway.
4445 */
4446 if (c->closes != 0)
4447 return;
4448
4449 if (newwin > c->v.v2.locwindow) {
4450 ssh2_pkt_init(ssh, SSH2_MSG_CHANNEL_WINDOW_ADJUST);
4451 ssh2_pkt_adduint32(ssh, c->remoteid);
4452 ssh2_pkt_adduint32(ssh, newwin - c->v.v2.locwindow);
4453 ssh2_pkt_send(ssh);
4454 c->v.v2.locwindow = newwin;
4455 }
4456 }
4457
4458 /*
4459 * Handle the SSH2 userauth and connection layers.
4460 */
4461 static void do_ssh2_authconn(Ssh ssh, unsigned char *in, int inlen, int ispkt)
4462 {
4463 struct do_ssh2_authconn_state {
4464 enum {
4465 AUTH_INVALID, AUTH_PUBLICKEY_AGENT, AUTH_PUBLICKEY_FILE,
4466 AUTH_PASSWORD,
4467 AUTH_KEYBOARD_INTERACTIVE
4468 } method;
4469 enum {
4470 AUTH_TYPE_NONE,
4471 AUTH_TYPE_PUBLICKEY,
4472 AUTH_TYPE_PUBLICKEY_OFFER_LOUD,
4473 AUTH_TYPE_PUBLICKEY_OFFER_QUIET,
4474 AUTH_TYPE_PASSWORD,
4475 AUTH_TYPE_KEYBOARD_INTERACTIVE,
4476 AUTH_TYPE_KEYBOARD_INTERACTIVE_QUIET
4477 } type;
4478 int gotit, need_pw, can_pubkey, can_passwd, can_keyb_inter;
4479 int tried_pubkey_config, tried_agent, tried_keyb_inter;
4480 int kbd_inter_running;
4481 int we_are_in;
4482 int num_prompts, curr_prompt, echo;
4483 char username[100];
4484 int got_username;
4485 char pwprompt[200];
4486 char password[100];
4487 void *publickey_blob;
4488 int publickey_bloblen;
4489 unsigned char request[5], *response, *p;
4490 int responselen;
4491 int keyi, nkeys;
4492 int authed;
4493 char *pkblob, *alg, *commentp;
4494 int pklen, alglen, commentlen;
4495 int siglen, retlen, len;
4496 char *q, *agentreq, *ret;
4497 int try_send;
4498 };
4499 crState(do_ssh2_authconn_state);
4500
4501 crBegin(ssh->do_ssh2_authconn_crstate);
4502
4503 /*
4504 * Request userauth protocol, and await a response to it.
4505 */
4506 ssh2_pkt_init(ssh, SSH2_MSG_SERVICE_REQUEST);
4507 ssh2_pkt_addstring(ssh, "ssh-userauth");
4508 ssh2_pkt_send(ssh);
4509 crWaitUntilV(ispkt);
4510 if (ssh->pktin.type != SSH2_MSG_SERVICE_ACCEPT) {
4511 bombout(("Server refused user authentication protocol"));
4512 crStopV;
4513 }
4514
4515 /*
4516 * We repeat this whole loop, including the username prompt,
4517 * until we manage a successful authentication. If the user
4518 * types the wrong _password_, they can be sent back to the
4519 * beginning to try another username, if this is configured on.
4520 * (If they specify a username in the config, they are never
4521 * asked, even if they do give a wrong password.)
4522 *
4523 * I think this best serves the needs of
4524 *
4525 * - the people who have no configuration, no keys, and just
4526 * want to try repeated (username,password) pairs until they
4527 * type both correctly
4528 *
4529 * - people who have keys and configuration but occasionally
4530 * need to fall back to passwords
4531 *
4532 * - people with a key held in Pageant, who might not have
4533 * logged in to a particular machine before; so they want to
4534 * type a username, and then _either_ their key will be
4535 * accepted, _or_ they will type a password. If they mistype
4536 * the username they will want to be able to get back and
4537 * retype it!
4538 */
4539 s->username[0] = '\0';
4540 s->got_username = FALSE;
4541 do {
4542 /*
4543 * Get a username.
4544 */
4545 if (s->got_username && !ssh->cfg.change_username) {
4546 /*
4547 * We got a username last time round this loop, and
4548 * with change_username turned off we don't try to get
4549 * it again.
4550 */
4551 } else if ((flags & FLAG_INTERACTIVE) && !*ssh->cfg.username) {
4552 if (ssh_get_line && !ssh_getline_pw_only) {
4553 if (!ssh_get_line("login as: ",
4554 s->username, sizeof(s->username), FALSE)) {
4555 /*
4556 * get_line failed to get a username.
4557 * Terminate.
4558 */
4559 logevent("No username provided. Abandoning session.");
4560 ssh_closing((Plug)ssh, NULL, 0, 0);
4561 crStopV;
4562 }
4563 } else {
4564 int ret; /* need not be saved across crReturn */
4565 c_write_str(ssh, "login as: ");
4566 ssh->send_ok = 1;
4567 setup_userpass_input(ssh, s->username, sizeof(s->username), 1);
4568 do {
4569 crWaitUntilV(!ispkt);
4570 ret = process_userpass_input(ssh, in, inlen);
4571 } while (ret == 0);
4572 if (ret < 0)
4573 cleanup_exit(0);
4574 c_write_str(ssh, "\r\n");
4575 }
4576 s->username[strcspn(s->username, "\n\r")] = '\0';
4577 } else {
4578 char *stuff;
4579 strncpy(s->username, ssh->cfg.username, sizeof(s->username));
4580 s->username[sizeof(s->username)-1] = '\0';
4581 if ((flags & FLAG_VERBOSE) || (flags & FLAG_INTERACTIVE)) {
4582 stuff = dupprintf("Using username \"%s\".\r\n", s->username);
4583 c_write_str(ssh, stuff);
4584 sfree(stuff);
4585 }
4586 }
4587 s->got_username = TRUE;
4588
4589 /*
4590 * Send an authentication request using method "none": (a)
4591 * just in case it succeeds, and (b) so that we know what
4592 * authentication methods we can usefully try next.
4593 */
4594 ssh->pkt_ctx &= ~SSH2_PKTCTX_AUTH_MASK;
4595
4596 ssh2_pkt_init(ssh, SSH2_MSG_USERAUTH_REQUEST);
4597 ssh2_pkt_addstring(ssh, s->username);
4598 ssh2_pkt_addstring(ssh, "ssh-connection");/* service requested */
4599 ssh2_pkt_addstring(ssh, "none"); /* method */
4600 ssh2_pkt_send(ssh);
4601 s->type = AUTH_TYPE_NONE;
4602 s->gotit = FALSE;
4603 s->we_are_in = FALSE;
4604
4605 s->tried_pubkey_config = FALSE;
4606 s->tried_agent = FALSE;
4607 s->tried_keyb_inter = FALSE;
4608 s->kbd_inter_running = FALSE;
4609 /* Load the pub half of ssh->cfg.keyfile so we notice if it's in Pageant */
4610 if (!filename_is_null(ssh->cfg.keyfile)) {
4611 int keytype;
4612 logeventf(ssh, "Reading private key file \"%.150s\"",
4613 filename_to_str(&ssh->cfg.keyfile));
4614 keytype = key_type(&ssh->cfg.keyfile);
4615 if (keytype == SSH_KEYTYPE_SSH2) {
4616 s->publickey_blob =
4617 ssh2_userkey_loadpub(&ssh->cfg.keyfile, NULL,
4618 &s->publickey_bloblen, NULL);
4619 } else {
4620 char *msgbuf;
4621 logeventf(ssh, "Unable to use this key file (%s)",
4622 key_type_to_str(keytype));
4623 msgbuf = dupprintf("Unable to use key file \"%.150s\""
4624 " (%s)\r\n",
4625 filename_to_str(&ssh->cfg.keyfile),
4626 key_type_to_str(keytype));
4627 c_write_str(ssh, msgbuf);
4628 sfree(msgbuf);
4629 s->publickey_blob = NULL;
4630 }
4631 } else
4632 s->publickey_blob = NULL;
4633
4634 while (1) {
4635 /*
4636 * Wait for the result of the last authentication request.
4637 */
4638 if (!s->gotit)
4639 crWaitUntilV(ispkt);
4640 while (ssh->pktin.type == SSH2_MSG_USERAUTH_BANNER) {
4641 char *banner;
4642 int size;
4643 /*
4644 * Don't show the banner if we're operating in
4645 * non-verbose non-interactive mode. (It's probably
4646 * a script, which means nobody will read the
4647 * banner _anyway_, and moreover the printing of
4648 * the banner will screw up processing on the
4649 * output of (say) plink.)
4650 */
4651 if (flags & (FLAG_VERBOSE | FLAG_INTERACTIVE)) {
4652 ssh2_pkt_getstring(ssh, &banner, &size);
4653 if (banner)
4654 c_write_untrusted(ssh, banner, size);
4655 }
4656 crWaitUntilV(ispkt);
4657 }
4658 if (ssh->pktin.type == SSH2_MSG_USERAUTH_SUCCESS) {
4659 logevent("Access granted");
4660 s->we_are_in = TRUE;
4661 break;
4662 }
4663
4664 if (s->kbd_inter_running &&
4665 ssh->pktin.type == SSH2_MSG_USERAUTH_INFO_REQUEST) {
4666 /*
4667 * This is either a further set-of-prompts packet
4668 * in keyboard-interactive authentication, or it's
4669 * the same one and we came back here with `gotit'
4670 * set. In the former case, we must reset the
4671 * curr_prompt variable.
4672 */
4673 if (!s->gotit)
4674 s->curr_prompt = 0;
4675 } else if (ssh->pktin.type != SSH2_MSG_USERAUTH_FAILURE) {
4676 bombout(("Strange packet received during authentication: type %d",
4677 ssh->pktin.type));
4678 crStopV;
4679 }
4680
4681 s->gotit = FALSE;
4682
4683 /*
4684 * OK, we're now sitting on a USERAUTH_FAILURE message, so
4685 * we can look at the string in it and know what we can
4686 * helpfully try next.
4687 */
4688 if (ssh->pktin.type == SSH2_MSG_USERAUTH_FAILURE) {
4689 char *methods;
4690 int methlen;
4691 ssh2_pkt_getstring(ssh, &methods, &methlen);
4692 s->kbd_inter_running = FALSE;
4693 if (!ssh2_pkt_getbool(ssh)) {
4694 /*
4695 * We have received an unequivocal Access
4696 * Denied. This can translate to a variety of
4697 * messages:
4698 *
4699 * - if we'd just tried "none" authentication,
4700 * it's not worth printing anything at all
4701 *
4702 * - if we'd just tried a public key _offer_,
4703 * the message should be "Server refused our
4704 * key" (or no message at all if the key
4705 * came from Pageant)
4706 *
4707 * - if we'd just tried anything else, the
4708 * message really should be "Access denied".
4709 *
4710 * Additionally, if we'd just tried password
4711 * authentication, we should break out of this
4712 * whole loop so as to go back to the username
4713 * prompt.
4714 */
4715 if (s->type == AUTH_TYPE_NONE) {
4716 /* do nothing */
4717 } else if (s->type == AUTH_TYPE_PUBLICKEY_OFFER_LOUD ||
4718 s->type == AUTH_TYPE_PUBLICKEY_OFFER_QUIET) {
4719 if (s->type == AUTH_TYPE_PUBLICKEY_OFFER_LOUD)
4720 c_write_str(ssh, "Server refused our key\r\n");
4721 logevent("Server refused public key");
4722 } else if (s->type==AUTH_TYPE_KEYBOARD_INTERACTIVE_QUIET) {
4723 /* server declined keyboard-interactive; ignore */
4724 } else {
4725 c_write_str(ssh, "Access denied\r\n");
4726 logevent("Access denied");
4727 if (s->type == AUTH_TYPE_PASSWORD) {
4728 s->we_are_in = FALSE;
4729 break;
4730 }
4731 }
4732 } else {
4733 c_write_str(ssh, "Further authentication required\r\n");
4734 logevent("Further authentication required");
4735 }
4736
4737 s->can_pubkey =
4738 in_commasep_string("publickey", methods, methlen);
4739 s->can_passwd =
4740 in_commasep_string("password", methods, methlen);
4741 s->can_keyb_inter = ssh->cfg.try_ki_auth &&
4742 in_commasep_string("keyboard-interactive", methods, methlen);
4743 }
4744
4745 s->method = 0;
4746 ssh->pkt_ctx &= ~SSH2_PKTCTX_AUTH_MASK;
4747 s->need_pw = FALSE;
4748
4749 /*
4750 * Most password/passphrase prompts will be
4751 * non-echoing, so we set this to 0 by default.
4752 * Exception is that some keyboard-interactive prompts
4753 * can be echoing, in which case we'll set this to 1.
4754 */
4755 s->echo = 0;
4756
4757 if (!s->method && s->can_pubkey &&
4758 agent_exists() && !s->tried_agent) {
4759 /*
4760 * Attempt public-key authentication using Pageant.
4761 */
4762 void *r;
4763 s->authed = FALSE;
4764
4765 ssh->pkt_ctx &= ~SSH2_PKTCTX_AUTH_MASK;
4766 ssh->pkt_ctx |= SSH2_PKTCTX_PUBLICKEY;
4767
4768 s->tried_agent = TRUE;
4769
4770 logevent("Pageant is running. Requesting keys.");
4771
4772 /* Request the keys held by the agent. */
4773 PUT_32BIT(s->request, 1);
4774 s->request[4] = SSH2_AGENTC_REQUEST_IDENTITIES;
4775 if (!agent_query(s->request, 5, &r, &s->responselen,
4776 ssh_agent_callback, ssh)) {
4777 do {
4778 crReturnV;
4779 if (ispkt) {
4780 bombout(("Unexpected data from server while"
4781 " waiting for agent response"));
4782 crStopV;
4783 }
4784 } while (ispkt || inlen > 0);
4785 r = ssh->agent_response;
4786 s->responselen = ssh->agent_response_len;
4787 }
4788 s->response = (unsigned char *) r;
4789 if (s->response && s->responselen >= 5 &&
4790 s->response[4] == SSH2_AGENT_IDENTITIES_ANSWER) {
4791 s->p = s->response + 5;
4792 s->nkeys = GET_32BIT(s->p);
4793 s->p += 4;
4794 {
4795 char buf[64];
4796 sprintf(buf, "Pageant has %d SSH2 keys", s->nkeys);
4797 logevent(buf);
4798 }
4799 for (s->keyi = 0; s->keyi < s->nkeys; s->keyi++) {
4800 void *vret;
4801
4802 {
4803 char buf[64];
4804 sprintf(buf, "Trying Pageant key #%d", s->keyi);
4805 logevent(buf);
4806 }
4807 s->pklen = GET_32BIT(s->p);
4808 s->p += 4;
4809 if (s->publickey_blob &&
4810 s->pklen == s->publickey_bloblen &&
4811 !memcmp(s->p, s->publickey_blob,
4812 s->publickey_bloblen)) {
4813 logevent("This key matches configured key file");
4814 s->tried_pubkey_config = 1;
4815 }
4816 s->pkblob = (char *)s->p;
4817 s->p += s->pklen;
4818 s->alglen = GET_32BIT(s->pkblob);
4819 s->alg = s->pkblob + 4;
4820 s->commentlen = GET_32BIT(s->p);
4821 s->p += 4;
4822 s->commentp = (char *)s->p;
4823 s->p += s->commentlen;
4824 ssh2_pkt_init(ssh, SSH2_MSG_USERAUTH_REQUEST);
4825 ssh2_pkt_addstring(ssh, s->username);
4826 ssh2_pkt_addstring(ssh, "ssh-connection"); /* service requested */
4827 ssh2_pkt_addstring(ssh, "publickey"); /* method */
4828 ssh2_pkt_addbool(ssh, FALSE); /* no signature included */
4829 ssh2_pkt_addstring_start(ssh);
4830 ssh2_pkt_addstring_data(ssh, s->alg, s->alglen);
4831 ssh2_pkt_addstring_start(ssh);
4832 ssh2_pkt_addstring_data(ssh, s->pkblob, s->pklen);
4833 ssh2_pkt_send(ssh);
4834
4835 crWaitUntilV(ispkt);
4836 if (ssh->pktin.type != SSH2_MSG_USERAUTH_PK_OK) {
4837 logevent("Key refused");
4838 continue;
4839 }
4840
4841 if (flags & FLAG_VERBOSE) {
4842 c_write_str(ssh, "Authenticating with "
4843 "public key \"");
4844 c_write(ssh, s->commentp, s->commentlen);
4845 c_write_str(ssh, "\" from agent\r\n");
4846 }
4847
4848 /*
4849 * Server is willing to accept the key.
4850 * Construct a SIGN_REQUEST.
4851 */
4852 ssh2_pkt_init(ssh, SSH2_MSG_USERAUTH_REQUEST);
4853 ssh2_pkt_addstring(ssh, s->username);
4854 ssh2_pkt_addstring(ssh, "ssh-connection"); /* service requested */
4855 ssh2_pkt_addstring(ssh, "publickey"); /* method */
4856 ssh2_pkt_addbool(ssh, TRUE);
4857 ssh2_pkt_addstring_start(ssh);
4858 ssh2_pkt_addstring_data(ssh, s->alg, s->alglen);
4859 ssh2_pkt_addstring_start(ssh);
4860 ssh2_pkt_addstring_data(ssh, s->pkblob, s->pklen);
4861
4862 s->siglen = ssh->pktout.length - 5 + 4 + 20;
4863 if (ssh->remote_bugs & BUG_SSH2_PK_SESSIONID)
4864 s->siglen -= 4;
4865 s->len = 1; /* message type */
4866 s->len += 4 + s->pklen; /* key blob */
4867 s->len += 4 + s->siglen; /* data to sign */
4868 s->len += 4; /* flags */
4869 s->agentreq = snewn(4 + s->len, char);
4870 PUT_32BIT(s->agentreq, s->len);
4871 s->q = s->agentreq + 4;
4872 *s->q++ = SSH2_AGENTC_SIGN_REQUEST;
4873 PUT_32BIT(s->q, s->pklen);
4874 s->q += 4;
4875 memcpy(s->q, s->pkblob, s->pklen);
4876 s->q += s->pklen;
4877 PUT_32BIT(s->q, s->siglen);
4878 s->q += 4;
4879 /* Now the data to be signed... */
4880 if (!(ssh->remote_bugs & BUG_SSH2_PK_SESSIONID)) {
4881 PUT_32BIT(s->q, 20);
4882 s->q += 4;
4883 }
4884 memcpy(s->q, ssh->v2_session_id, 20);
4885 s->q += 20;
4886 memcpy(s->q, ssh->pktout.data + 5,
4887 ssh->pktout.length - 5);
4888 s->q += ssh->pktout.length - 5;
4889 /* And finally the (zero) flags word. */
4890 PUT_32BIT(s->q, 0);
4891 if (!agent_query(s->agentreq, s->len + 4,
4892 &vret, &s->retlen,
4893 ssh_agent_callback, ssh)) {
4894 do {
4895 crReturnV;
4896 if (ispkt) {
4897 bombout(("Unexpected data from server"
4898 " while waiting for agent"
4899 " response"));
4900 crStopV;
4901 }
4902 } while (ispkt || inlen > 0);
4903 vret = ssh->agent_response;
4904 s->retlen = ssh->agent_response_len;
4905 }
4906 s->ret = vret;
4907 sfree(s->agentreq);
4908 if (s->ret) {
4909 if (s->ret[4] == SSH2_AGENT_SIGN_RESPONSE) {
4910 logevent("Sending Pageant's response");
4911 ssh2_add_sigblob(ssh, s->pkblob, s->pklen,
4912 s->ret + 9,
4913 GET_32BIT(s->ret + 5));
4914 ssh2_pkt_send(ssh);
4915 s->authed = TRUE;
4916 break;
4917 } else {
4918 logevent
4919 ("Pageant failed to answer challenge");
4920 sfree(s->ret);
4921 }
4922 }
4923 }
4924 if (s->authed)
4925 continue;
4926 }
4927 sfree(s->response);
4928 }
4929
4930 if (!s->method && s->can_pubkey && s->publickey_blob
4931 && !s->tried_pubkey_config) {
4932 unsigned char *pub_blob;
4933 char *algorithm, *comment;
4934 int pub_blob_len;
4935
4936 s->tried_pubkey_config = TRUE;
4937
4938 ssh->pkt_ctx &= ~SSH2_PKTCTX_AUTH_MASK;
4939 ssh->pkt_ctx |= SSH2_PKTCTX_PUBLICKEY;
4940
4941 /*
4942 * Try the public key supplied in the configuration.
4943 *
4944 * First, offer the public blob to see if the server is
4945 * willing to accept it.
4946 */
4947 pub_blob =
4948 (unsigned char *)ssh2_userkey_loadpub(&ssh->cfg.keyfile,
4949 &algorithm,
4950 &pub_blob_len,
4951 NULL);
4952 if (pub_blob) {
4953 ssh2_pkt_init(ssh, SSH2_MSG_USERAUTH_REQUEST);
4954 ssh2_pkt_addstring(ssh, s->username);
4955 ssh2_pkt_addstring(ssh, "ssh-connection"); /* service requested */
4956 ssh2_pkt_addstring(ssh, "publickey"); /* method */
4957 ssh2_pkt_addbool(ssh, FALSE); /* no signature included */
4958 ssh2_pkt_addstring(ssh, algorithm);
4959 ssh2_pkt_addstring_start(ssh);
4960 ssh2_pkt_addstring_data(ssh, (char *)pub_blob,
4961 pub_blob_len);
4962 ssh2_pkt_send(ssh);
4963 logevent("Offered public key"); /* FIXME */
4964
4965 crWaitUntilV(ispkt);
4966 if (ssh->pktin.type != SSH2_MSG_USERAUTH_PK_OK) {
4967 s->gotit = TRUE;
4968 s->type = AUTH_TYPE_PUBLICKEY_OFFER_LOUD;
4969 continue; /* key refused; give up on it */
4970 }
4971
4972 logevent("Offer of public key accepted");
4973 /*
4974 * Actually attempt a serious authentication using
4975 * the key.
4976 */
4977 if (ssh2_userkey_encrypted(&ssh->cfg.keyfile, &comment)) {
4978 sprintf(s->pwprompt,
4979 "Passphrase for key \"%.100s\": ",
4980 comment);
4981 s->need_pw = TRUE;
4982 } else {
4983 s->need_pw = FALSE;
4984 }
4985 c_write_str(ssh, "Authenticating with public key \"");
4986 c_write_str(ssh, comment);
4987 c_write_str(ssh, "\"\r\n");
4988 s->method = AUTH_PUBLICKEY_FILE;
4989 }
4990 }
4991
4992 if (!s->method && s->can_keyb_inter && !s->tried_keyb_inter) {
4993 s->method = AUTH_KEYBOARD_INTERACTIVE;
4994 s->type = AUTH_TYPE_KEYBOARD_INTERACTIVE;
4995 s->tried_keyb_inter = TRUE;
4996
4997 ssh->pkt_ctx &= ~SSH2_PKTCTX_AUTH_MASK;
4998 ssh->pkt_ctx |= SSH2_PKTCTX_KBDINTER;
4999
5000 ssh2_pkt_init(ssh, SSH2_MSG_USERAUTH_REQUEST);
5001 ssh2_pkt_addstring(ssh, s->username);
5002 ssh2_pkt_addstring(ssh, "ssh-connection"); /* service requested */
5003 ssh2_pkt_addstring(ssh, "keyboard-interactive"); /* method */
5004 ssh2_pkt_addstring(ssh, ""); /* lang */
5005 ssh2_pkt_addstring(ssh, "");
5006 ssh2_pkt_send(ssh);
5007
5008 crWaitUntilV(ispkt);
5009 if (ssh->pktin.type != SSH2_MSG_USERAUTH_INFO_REQUEST) {
5010 if (ssh->pktin.type == SSH2_MSG_USERAUTH_FAILURE)
5011 s->gotit = TRUE;
5012 logevent("Keyboard-interactive authentication refused");
5013 s->type = AUTH_TYPE_KEYBOARD_INTERACTIVE_QUIET;
5014 continue;
5015 }
5016
5017 s->kbd_inter_running = TRUE;
5018 s->curr_prompt = 0;
5019 }
5020
5021 if (s->kbd_inter_running) {
5022 s->method = AUTH_KEYBOARD_INTERACTIVE;
5023 s->type = AUTH_TYPE_KEYBOARD_INTERACTIVE;
5024 s->tried_keyb_inter = TRUE;
5025
5026 ssh->pkt_ctx &= ~SSH2_PKTCTX_AUTH_MASK;
5027 ssh->pkt_ctx |= SSH2_PKTCTX_KBDINTER;
5028
5029 if (s->curr_prompt == 0) {
5030 /*
5031 * We've got a fresh USERAUTH_INFO_REQUEST.
5032 * Display header data, and start going through
5033 * the prompts.
5034 */
5035 char *name, *inst, *lang;
5036 int name_len, inst_len, lang_len;
5037
5038 ssh2_pkt_getstring(ssh, &name, &name_len);
5039 ssh2_pkt_getstring(ssh, &inst, &inst_len);
5040 ssh2_pkt_getstring(ssh, &lang, &lang_len);
5041 if (name_len > 0) {
5042 c_write_untrusted(ssh, name, name_len);
5043 c_write_str(ssh, "\r\n");
5044 }
5045 if (inst_len > 0) {
5046 c_write_untrusted(ssh, inst, inst_len);
5047 c_write_str(ssh, "\r\n");
5048 }
5049 s->num_prompts = ssh2_pkt_getuint32(ssh);
5050 }
5051
5052 /*
5053 * If there are prompts remaining in the packet,
5054 * display one and get a response.
5055 */
5056 if (s->curr_prompt < s->num_prompts) {
5057 char *prompt;
5058 int prompt_len;
5059
5060 ssh2_pkt_getstring(ssh, &prompt, &prompt_len);
5061 if (prompt_len > 0) {
5062 strncpy(s->pwprompt, prompt, sizeof(s->pwprompt));
5063 s->pwprompt[prompt_len < sizeof(s->pwprompt) ?
5064 prompt_len : sizeof(s->pwprompt)-1] = '\0';
5065 } else {
5066 strcpy(s->pwprompt,
5067 "<server failed to send prompt>: ");
5068 }
5069 s->echo = ssh2_pkt_getbool(ssh);
5070 s->need_pw = TRUE;
5071 } else
5072 s->need_pw = FALSE;
5073 }
5074
5075 if (!s->method && s->can_passwd) {
5076 s->method = AUTH_PASSWORD;
5077 ssh->pkt_ctx &= ~SSH2_PKTCTX_AUTH_MASK;
5078 ssh->pkt_ctx |= SSH2_PKTCTX_PASSWORD;
5079 sprintf(s->pwprompt, "%.90s@%.90s's password: ", s->username,
5080 ssh->savedhost);
5081 s->need_pw = TRUE;
5082 }
5083
5084 if (s->need_pw) {
5085 if (ssh_get_line) {
5086 if (!ssh_get_line(s->pwprompt, s->password,
5087 sizeof(s->password), TRUE)) {
5088 /*
5089 * get_line failed to get a password (for
5090 * example because one was supplied on the
5091 * command line which has already failed to
5092 * work). Terminate.
5093 */
5094 ssh2_pkt_init(ssh, SSH2_MSG_DISCONNECT);
5095 ssh2_pkt_adduint32(ssh,SSH2_DISCONNECT_BY_APPLICATION);
5096 ssh2_pkt_addstring(ssh, "No more passwords available"
5097 " to try");
5098 ssh2_pkt_addstring(ssh, "en"); /* language tag */
5099 ssh2_pkt_send(ssh);
5100 logevent("Unable to authenticate");
5101 connection_fatal(ssh->frontend,
5102 "Unable to authenticate");
5103 ssh_closing((Plug)ssh, NULL, 0, 0);
5104 crStopV;
5105 }
5106 } else {
5107 int ret; /* need not be saved across crReturn */
5108 c_write_untrusted(ssh, s->pwprompt, strlen(s->pwprompt));
5109 ssh->send_ok = 1;
5110
5111 setup_userpass_input(ssh, s->password,
5112 sizeof(s->password), s->echo);
5113 do {
5114 crWaitUntilV(!ispkt);
5115 ret = process_userpass_input(ssh, in, inlen);
5116 } while (ret == 0);
5117 if (ret < 0)
5118 cleanup_exit(0);
5119 c_write_str(ssh, "\r\n");
5120 }
5121 }
5122
5123 if (s->method == AUTH_PUBLICKEY_FILE) {
5124 /*
5125 * We have our passphrase. Now try the actual authentication.
5126 */
5127 struct ssh2_userkey *key;
5128 const char *error = NULL;
5129
5130 key = ssh2_load_userkey(&ssh->cfg.keyfile, s->password,
5131 &error);
5132 if (key == SSH2_WRONG_PASSPHRASE || key == NULL) {
5133 if (key == SSH2_WRONG_PASSPHRASE) {
5134 c_write_str(ssh, "Wrong passphrase\r\n");
5135 s->tried_pubkey_config = FALSE;
5136 } else {
5137 c_write_str(ssh, "Unable to load private key (");
5138 c_write_str(ssh, error);
5139 c_write_str(ssh, ")\r\n");
5140 s->tried_pubkey_config = TRUE;
5141 }
5142 /* Send a spurious AUTH_NONE to return to the top. */
5143 ssh2_pkt_init(ssh, SSH2_MSG_USERAUTH_REQUEST);
5144 ssh2_pkt_addstring(ssh, s->username);
5145 ssh2_pkt_addstring(ssh, "ssh-connection"); /* service requested */
5146 ssh2_pkt_addstring(ssh, "none"); /* method */
5147 ssh2_pkt_send(ssh);
5148 s->type = AUTH_TYPE_NONE;
5149 } else {
5150 unsigned char *pkblob, *sigblob, *sigdata;
5151 int pkblob_len, sigblob_len, sigdata_len;
5152 int p;
5153
5154 /*
5155 * We have loaded the private key and the server
5156 * has announced that it's willing to accept it.
5157 * Hallelujah. Generate a signature and send it.
5158 */
5159 ssh2_pkt_init(ssh, SSH2_MSG_USERAUTH_REQUEST);
5160 ssh2_pkt_addstring(ssh, s->username);
5161 ssh2_pkt_addstring(ssh, "ssh-connection"); /* service requested */
5162 ssh2_pkt_addstring(ssh, "publickey"); /* method */
5163 ssh2_pkt_addbool(ssh, TRUE);
5164 ssh2_pkt_addstring(ssh, key->alg->name);
5165 pkblob = key->alg->public_blob(key->data, &pkblob_len);
5166 ssh2_pkt_addstring_start(ssh);
5167 ssh2_pkt_addstring_data(ssh, (char *)pkblob, pkblob_len);
5168
5169 /*
5170 * The data to be signed is:
5171 *
5172 * string session-id
5173 *
5174 * followed by everything so far placed in the
5175 * outgoing packet.
5176 */
5177 sigdata_len = ssh->pktout.length - 5 + 4 + 20;
5178 if (ssh->remote_bugs & BUG_SSH2_PK_SESSIONID)
5179 sigdata_len -= 4;
5180 sigdata = snewn(sigdata_len, unsigned char);
5181 p = 0;
5182 if (!(ssh->remote_bugs & BUG_SSH2_PK_SESSIONID)) {
5183 PUT_32BIT(sigdata+p, 20);
5184 p += 4;
5185 }
5186 memcpy(sigdata+p, ssh->v2_session_id, 20); p += 20;
5187 memcpy(sigdata+p, ssh->pktout.data + 5,
5188 ssh->pktout.length - 5);
5189 p += ssh->pktout.length - 5;
5190 assert(p == sigdata_len);
5191 sigblob = key->alg->sign(key->data, (char *)sigdata,
5192 sigdata_len, &sigblob_len);
5193 ssh2_add_sigblob(ssh, pkblob, pkblob_len,
5194 sigblob, sigblob_len);
5195 sfree(pkblob);
5196 sfree(sigblob);
5197 sfree(sigdata);
5198
5199 ssh2_pkt_send(ssh);
5200 s->type = AUTH_TYPE_PUBLICKEY;
5201 }
5202 } else if (s->method == AUTH_PASSWORD) {
5203 /*
5204 * We send the password packet lumped tightly together with
5205 * an SSH_MSG_IGNORE packet. The IGNORE packet contains a
5206 * string long enough to make the total length of the two
5207 * packets constant. This should ensure that a passive
5208 * listener doing traffic analyis can't work out the length
5209 * of the password.
5210 *
5211 * For this to work, we need an assumption about the
5212 * maximum length of the password packet. I think 256 is
5213 * pretty conservative. Anyone using a password longer than
5214 * that probably doesn't have much to worry about from
5215 * people who find out how long their password is!
5216 */
5217 ssh2_pkt_init(ssh, SSH2_MSG_USERAUTH_REQUEST);
5218 ssh2_pkt_addstring(ssh, s->username);
5219 ssh2_pkt_addstring(ssh, "ssh-connection"); /* service requested */
5220 ssh2_pkt_addstring(ssh, "password");
5221 ssh2_pkt_addbool(ssh, FALSE);
5222 ssh2_pkt_addstring(ssh, s->password);
5223 memset(s->password, 0, sizeof(s->password));
5224 ssh2_pkt_defer(ssh);
5225 /*
5226 * We'll include a string that's an exact multiple of the
5227 * cipher block size. If the cipher is NULL for some
5228 * reason, we don't do this trick at all because we gain
5229 * nothing by it.
5230 */
5231 if (ssh->cscipher) {
5232 int stringlen, i;
5233
5234 stringlen = (256 - ssh->deferred_len);
5235 stringlen += ssh->cscipher->blksize - 1;
5236 stringlen -= (stringlen % ssh->cscipher->blksize);
5237 if (ssh->cscomp) {
5238 /*
5239 * Temporarily disable actual compression,
5240 * so we can guarantee to get this string
5241 * exactly the length we want it. The
5242 * compression-disabling routine should
5243 * return an integer indicating how many
5244 * bytes we should adjust our string length
5245 * by.
5246 */
5247 stringlen -=
5248 ssh->cscomp->disable_compression(ssh->cs_comp_ctx);
5249 }
5250 ssh2_pkt_init(ssh, SSH2_MSG_IGNORE);
5251 ssh2_pkt_addstring_start(ssh);
5252 for (i = 0; i < stringlen; i++) {
5253 char c = (char) random_byte();
5254 ssh2_pkt_addstring_data(ssh, &c, 1);
5255 }
5256 ssh2_pkt_defer(ssh);
5257 }
5258 ssh_pkt_defersend(ssh);
5259 logevent("Sent password");
5260 s->type = AUTH_TYPE_PASSWORD;
5261 } else if (s->method == AUTH_KEYBOARD_INTERACTIVE) {
5262 if (s->curr_prompt == 0) {
5263 ssh2_pkt_init(ssh, SSH2_MSG_USERAUTH_INFO_RESPONSE);
5264 ssh2_pkt_adduint32(ssh, s->num_prompts);
5265 }
5266 if (s->need_pw) { /* only add pw if we just got one! */
5267 ssh2_pkt_addstring(ssh, s->password);
5268 memset(s->password, 0, sizeof(s->password));
5269 s->curr_prompt++;
5270 }
5271 if (s->curr_prompt >= s->num_prompts) {
5272 ssh2_pkt_send(ssh);
5273 } else {
5274 /*
5275 * If there are prompts remaining, we set
5276 * `gotit' so that we won't attempt to get
5277 * another packet. Then we go back round the
5278 * loop and will end up retrieving another
5279 * prompt out of the existing packet. Funky or
5280 * what?
5281 */
5282 s->gotit = TRUE;
5283 }
5284 s->type = AUTH_TYPE_KEYBOARD_INTERACTIVE;
5285 } else {
5286 c_write_str(ssh, "No supported authentication methods"
5287 " left to try!\r\n");
5288 logevent("No supported authentications offered."
5289 " Disconnecting");
5290 ssh2_pkt_init(ssh, SSH2_MSG_DISCONNECT);
5291 ssh2_pkt_adduint32(ssh, SSH2_DISCONNECT_BY_APPLICATION);
5292 ssh2_pkt_addstring(ssh, "No supported authentication"
5293 " methods available");
5294 ssh2_pkt_addstring(ssh, "en"); /* language tag */
5295 ssh2_pkt_send(ssh);
5296 ssh_closing((Plug)ssh, NULL, 0, 0);
5297 crStopV;
5298 }
5299 }
5300 } while (!s->we_are_in);
5301
5302 /*
5303 * Now we're authenticated for the connection protocol. The
5304 * connection protocol will automatically have started at this
5305 * point; there's no need to send SERVICE_REQUEST.
5306 */
5307
5308 /*
5309 * So now create a channel with a session in it.
5310 */
5311 ssh->channels = newtree234(ssh_channelcmp);
5312 ssh->mainchan = snew(struct ssh_channel);
5313 ssh->mainchan->ssh = ssh;
5314 ssh->mainchan->localid = alloc_channel_id(ssh);
5315 ssh2_pkt_init(ssh, SSH2_MSG_CHANNEL_OPEN);
5316 ssh2_pkt_addstring(ssh, "session");
5317 ssh2_pkt_adduint32(ssh, ssh->mainchan->localid);
5318 ssh->mainchan->v.v2.locwindow = OUR_V2_WINSIZE;
5319 ssh2_pkt_adduint32(ssh, ssh->mainchan->v.v2.locwindow);/* our window size */
5320 ssh2_pkt_adduint32(ssh, 0x4000UL); /* our max pkt size */
5321 ssh2_pkt_send(ssh);
5322 crWaitUntilV(ispkt);
5323 if (ssh->pktin.type != SSH2_MSG_CHANNEL_OPEN_CONFIRMATION) {
5324 bombout(("Server refused to open a session"));
5325 crStopV;
5326 /* FIXME: error data comes back in FAILURE packet */
5327 }
5328 if (ssh2_pkt_getuint32(ssh) != ssh->mainchan->localid) {
5329 bombout(("Server's channel confirmation cited wrong channel"));
5330 crStopV;
5331 }
5332 ssh->mainchan->remoteid = ssh2_pkt_getuint32(ssh);
5333 ssh->mainchan->type = CHAN_MAINSESSION;
5334 ssh->mainchan->closes = 0;
5335 ssh->mainchan->v.v2.remwindow = ssh2_pkt_getuint32(ssh);
5336 ssh->mainchan->v.v2.remmaxpkt = ssh2_pkt_getuint32(ssh);
5337 bufchain_init(&ssh->mainchan->v.v2.outbuffer);
5338 add234(ssh->channels, ssh->mainchan);
5339 logevent("Opened channel for session");
5340
5341 /*
5342 * Potentially enable X11 forwarding.
5343 */
5344 if (ssh->cfg.x11_forward) {
5345 char proto[20], data[64];
5346 logevent("Requesting X11 forwarding");
5347 ssh->x11auth = x11_invent_auth(proto, sizeof(proto),
5348 data, sizeof(data), ssh->cfg.x11_auth);
5349 x11_get_real_auth(ssh->x11auth, ssh->cfg.x11_display);
5350 ssh2_pkt_init(ssh, SSH2_MSG_CHANNEL_REQUEST);
5351 ssh2_pkt_adduint32(ssh, ssh->mainchan->remoteid);
5352 ssh2_pkt_addstring(ssh, "x11-req");
5353 ssh2_pkt_addbool(ssh, 1); /* want reply */
5354 ssh2_pkt_addbool(ssh, 0); /* many connections */
5355 ssh2_pkt_addstring(ssh, proto);
5356 ssh2_pkt_addstring(ssh, data);
5357 ssh2_pkt_adduint32(ssh, x11_get_screen_number(ssh->cfg.x11_display));
5358 ssh2_pkt_send(ssh);
5359
5360 do {
5361 crWaitUntilV(ispkt);
5362 if (ssh->pktin.type == SSH2_MSG_CHANNEL_WINDOW_ADJUST) {
5363 unsigned i = ssh2_pkt_getuint32(ssh);
5364 struct ssh_channel *c;
5365 c = find234(ssh->channels, &i, ssh_channelfind);
5366 if (!c)
5367 continue; /* nonexistent channel */
5368 c->v.v2.remwindow += ssh2_pkt_getuint32(ssh);
5369 }
5370 } while (ssh->pktin.type == SSH2_MSG_CHANNEL_WINDOW_ADJUST);
5371
5372 if (ssh->pktin.type != SSH2_MSG_CHANNEL_SUCCESS) {
5373 if (ssh->pktin.type != SSH2_MSG_CHANNEL_FAILURE) {
5374 bombout(("Unexpected response to X11 forwarding request:"
5375 " packet type %d", ssh->pktin.type));
5376 crStopV;
5377 }
5378 logevent("X11 forwarding refused");
5379 } else {
5380 logevent("X11 forwarding enabled");
5381 ssh->X11_fwd_enabled = TRUE;
5382 }
5383 }
5384
5385 /*
5386 * Enable port forwardings.
5387 */
5388 {
5389 char type;
5390 int n;
5391 int sport,dport,sserv,dserv;
5392 char sports[256], dports[256], saddr[256], host[256];
5393
5394 ssh->rportfwds = newtree234(ssh_rportcmp_ssh2);
5395 /* Add port forwardings. */
5396 ssh->portfwd_strptr = ssh->cfg.portfwd;
5397 while (*ssh->portfwd_strptr) {
5398 type = *ssh->portfwd_strptr++;
5399 saddr[0] = '\0';
5400 n = 0;
5401 while (*ssh->portfwd_strptr && *ssh->portfwd_strptr != '\t') {
5402 if (*ssh->portfwd_strptr == ':') {
5403 /*
5404 * We've seen a colon in the middle of the
5405 * source port number. This means that
5406 * everything we've seen until now is the
5407 * source _address_, so we'll move it into
5408 * saddr and start sports from the beginning
5409 * again.
5410 */
5411 ssh->portfwd_strptr++;
5412 sports[n] = '\0';
5413 strcpy(saddr, sports);
5414 n = 0;
5415 }
5416 if (n < 255) sports[n++] = *ssh->portfwd_strptr++;
5417 }
5418 sports[n] = 0;
5419 if (type != 'D') {
5420 if (*ssh->portfwd_strptr == '\t')
5421 ssh->portfwd_strptr++;
5422 n = 0;
5423 while (*ssh->portfwd_strptr && *ssh->portfwd_strptr != ':') {
5424 if (n < 255) host[n++] = *ssh->portfwd_strptr++;
5425 }
5426 host[n] = 0;
5427 if (*ssh->portfwd_strptr == ':')
5428 ssh->portfwd_strptr++;
5429 n = 0;
5430 while (*ssh->portfwd_strptr) {
5431 if (n < 255) dports[n++] = *ssh->portfwd_strptr++;
5432 }
5433 dports[n] = 0;
5434 ssh->portfwd_strptr++;
5435 dport = atoi(dports);
5436 dserv = 0;
5437 if (dport == 0) {
5438 dserv = 1;
5439 dport = net_service_lookup(dports);
5440 if (!dport) {
5441 logeventf(ssh, "Service lookup failed for destination"
5442 " port \"%s\"", dports);
5443 }
5444 }
5445 } else {
5446 while (*ssh->portfwd_strptr) ssh->portfwd_strptr++;
5447 dport = dserv = -1;
5448 ssh->portfwd_strptr++; /* eat the NUL and move to next one */
5449 }
5450 sport = atoi(sports);
5451 sserv = 0;
5452 if (sport == 0) {
5453 sserv = 1;
5454 sport = net_service_lookup(sports);
5455 if (!sport) {
5456 logeventf(ssh, "Service lookup failed for source"
5457 " port \"%s\"", sports);
5458 }
5459 }
5460 if (sport && dport) {
5461 if (type == 'L') {
5462 pfd_addforward(host, dport, *saddr ? saddr : NULL,
5463 sport, ssh, &ssh->cfg);
5464 logeventf(ssh, "Local port %.*s%.*s%.*s%.*s%d%.*s"
5465 " forwarding to %s:%.*s%.*s%d%.*s",
5466 (int)(*saddr?strlen(saddr):0), *saddr?saddr:NULL,
5467 (int)(*saddr?1:0), ":",
5468 (int)(sserv ? strlen(sports) : 0), sports,
5469 sserv, "(", sport, sserv, ")",
5470 host,
5471 (int)(dserv ? strlen(dports) : 0), dports,
5472 dserv, "(", dport, dserv, ")");
5473 } else if (type == 'D') {
5474 pfd_addforward(NULL, -1, *saddr ? saddr : NULL,
5475 sport, ssh, &ssh->cfg);
5476 logeventf(ssh, "Local port %.*s%.*s%.*s%.*s%d%.*s"
5477 " doing SOCKS dynamic forwarding",
5478 (int)(*saddr?strlen(saddr):0), *saddr?saddr:NULL,
5479 (int)(*saddr?1:0), ":",
5480 (int)(sserv ? strlen(sports) : 0), sports,
5481 sserv, "(", sport, sserv, ")");
5482 } else {
5483 struct ssh_rportfwd *pf;
5484 pf = snew(struct ssh_rportfwd);
5485 strcpy(pf->dhost, host);
5486 pf->dport = dport;
5487 pf->sport = sport;
5488 if (add234(ssh->rportfwds, pf) != pf) {
5489 logeventf(ssh, "Duplicate remote port forwarding"
5490 " to %s:%d", host, dport);
5491 sfree(pf);
5492 } else {
5493 logeventf(ssh, "Requesting remote port "
5494 "%.*s%.*s%.*s%.*s%d%.*s"
5495 " forward to %s:%.*s%.*s%d%.*s",
5496 (int)(*saddr?strlen(saddr):0),
5497 *saddr?saddr:NULL,
5498 (int)(*saddr?1:0), ":",
5499 (int)(sserv ? strlen(sports) : 0), sports,
5500 sserv, "(", sport, sserv, ")",
5501 host,
5502 (int)(dserv ? strlen(dports) : 0), dports,
5503 dserv, "(", dport, dserv, ")");
5504 ssh2_pkt_init(ssh, SSH2_MSG_GLOBAL_REQUEST);
5505 ssh2_pkt_addstring(ssh, "tcpip-forward");
5506 ssh2_pkt_addbool(ssh, 1);/* want reply */
5507 if (*saddr)
5508 ssh2_pkt_addstring(ssh, saddr);
5509 if (ssh->cfg.rport_acceptall)
5510 ssh2_pkt_addstring(ssh, "0.0.0.0");
5511 else
5512 ssh2_pkt_addstring(ssh, "127.0.0.1");
5513 ssh2_pkt_adduint32(ssh, sport);
5514 ssh2_pkt_send(ssh);
5515
5516 do {
5517 crWaitUntilV(ispkt);
5518 if (ssh->pktin.type == SSH2_MSG_CHANNEL_WINDOW_ADJUST) {
5519 unsigned i = ssh2_pkt_getuint32(ssh);
5520 struct ssh_channel *c;
5521 c = find234(ssh->channels, &i, ssh_channelfind);
5522 if (!c)
5523 continue;/* nonexistent channel */
5524 c->v.v2.remwindow += ssh2_pkt_getuint32(ssh);
5525 }
5526 } while (ssh->pktin.type == SSH2_MSG_CHANNEL_WINDOW_ADJUST);
5527
5528 if (ssh->pktin.type != SSH2_MSG_REQUEST_SUCCESS) {
5529 if (ssh->pktin.type != SSH2_MSG_REQUEST_FAILURE) {
5530 bombout(("Unexpected response to port "
5531 "forwarding request: packet type %d",
5532 ssh->pktin.type));
5533 crStopV;
5534 }
5535 logevent("Server refused this port forwarding");
5536 } else {
5537 logevent("Remote port forwarding enabled");
5538 }
5539 }
5540 }
5541 }
5542 }
5543 }
5544
5545 /*
5546 * Potentially enable agent forwarding.
5547 */
5548 if (ssh->cfg.agentfwd && agent_exists()) {
5549 logevent("Requesting OpenSSH-style agent forwarding");
5550 ssh2_pkt_init(ssh, SSH2_MSG_CHANNEL_REQUEST);
5551 ssh2_pkt_adduint32(ssh, ssh->mainchan->remoteid);
5552 ssh2_pkt_addstring(ssh, "auth-agent-req@openssh.com");
5553 ssh2_pkt_addbool(ssh, 1); /* want reply */
5554 ssh2_pkt_send(ssh);
5555
5556 do {
5557 crWaitUntilV(ispkt);
5558 if (ssh->pktin.type == SSH2_MSG_CHANNEL_WINDOW_ADJUST) {
5559 unsigned i = ssh2_pkt_getuint32(ssh);
5560 struct ssh_channel *c;
5561 c = find234(ssh->channels, &i, ssh_channelfind);
5562 if (!c)
5563 continue; /* nonexistent channel */
5564 c->v.v2.remwindow += ssh2_pkt_getuint32(ssh);
5565 }
5566 } while (ssh->pktin.type == SSH2_MSG_CHANNEL_WINDOW_ADJUST);
5567
5568 if (ssh->pktin.type != SSH2_MSG_CHANNEL_SUCCESS) {
5569 if (ssh->pktin.type != SSH2_MSG_CHANNEL_FAILURE) {
5570 bombout(("Unexpected response to agent forwarding request:"
5571 " packet type %d", ssh->pktin.type));
5572 crStopV;
5573 }
5574 logevent("Agent forwarding refused");
5575 } else {
5576 logevent("Agent forwarding enabled");
5577 ssh->agentfwd_enabled = TRUE;
5578 }
5579 }
5580
5581 /*
5582 * Now allocate a pty for the session.
5583 */
5584 if (!ssh->cfg.nopty) {
5585 ssh2_pkt_init(ssh, SSH2_MSG_CHANNEL_REQUEST);
5586 ssh2_pkt_adduint32(ssh, ssh->mainchan->remoteid); /* recipient channel */
5587 ssh2_pkt_addstring(ssh, "pty-req");
5588 ssh2_pkt_addbool(ssh, 1); /* want reply */
5589 ssh2_pkt_addstring(ssh, ssh->cfg.termtype);
5590 ssh2_pkt_adduint32(ssh, ssh->term_width);
5591 ssh2_pkt_adduint32(ssh, ssh->term_height);
5592 ssh2_pkt_adduint32(ssh, 0); /* pixel width */
5593 ssh2_pkt_adduint32(ssh, 0); /* pixel height */
5594 ssh2_pkt_addstring_start(ssh);
5595 ssh2_pkt_addstring_data(ssh, "\0", 1); /* TTY_OP_END, no special options */
5596 ssh2_pkt_send(ssh);
5597 ssh->state = SSH_STATE_INTERMED;
5598
5599 do {
5600 crWaitUntilV(ispkt);
5601 if (ssh->pktin.type == SSH2_MSG_CHANNEL_WINDOW_ADJUST) {
5602 unsigned i = ssh2_pkt_getuint32(ssh);
5603 struct ssh_channel *c;
5604 c = find234(ssh->channels, &i, ssh_channelfind);
5605 if (!c)
5606 continue; /* nonexistent channel */
5607 c->v.v2.remwindow += ssh2_pkt_getuint32(ssh);
5608 }
5609 } while (ssh->pktin.type == SSH2_MSG_CHANNEL_WINDOW_ADJUST);
5610
5611 if (ssh->pktin.type != SSH2_MSG_CHANNEL_SUCCESS) {
5612 if (ssh->pktin.type != SSH2_MSG_CHANNEL_FAILURE) {
5613 bombout(("Unexpected response to pty request:"
5614 " packet type %d", ssh->pktin.type));
5615 crStopV;
5616 }
5617 c_write_str(ssh, "Server refused to allocate pty\r\n");
5618 ssh->editing = ssh->echoing = 1;
5619 } else {
5620 logevent("Allocated pty");
5621 }
5622 } else {
5623 ssh->editing = ssh->echoing = 1;
5624 }
5625
5626 /*
5627 * Start a shell or a remote command. We may have to attempt
5628 * this twice if the config data has provided a second choice
5629 * of command.
5630 */
5631 while (1) {
5632 int subsys;
5633 char *cmd;
5634
5635 if (ssh->fallback_cmd) {
5636 subsys = ssh->cfg.ssh_subsys2;
5637 cmd = ssh->cfg.remote_cmd_ptr2;
5638 } else {
5639 subsys = ssh->cfg.ssh_subsys;
5640 cmd = ssh->cfg.remote_cmd_ptr;
5641 }
5642
5643 ssh2_pkt_init(ssh, SSH2_MSG_CHANNEL_REQUEST);
5644 ssh2_pkt_adduint32(ssh, ssh->mainchan->remoteid); /* recipient channel */
5645 if (subsys) {
5646 ssh2_pkt_addstring(ssh, "subsystem");
5647 ssh2_pkt_addbool(ssh, 1); /* want reply */
5648 ssh2_pkt_addstring(ssh, cmd);
5649 } else if (*cmd) {
5650 ssh2_pkt_addstring(ssh, "exec");
5651 ssh2_pkt_addbool(ssh, 1); /* want reply */
5652 ssh2_pkt_addstring(ssh, cmd);
5653 } else {
5654 ssh2_pkt_addstring(ssh, "shell");
5655 ssh2_pkt_addbool(ssh, 1); /* want reply */
5656 }
5657 ssh2_pkt_send(ssh);
5658 do {
5659 crWaitUntilV(ispkt);
5660 if (ssh->pktin.type == SSH2_MSG_CHANNEL_WINDOW_ADJUST) {
5661 unsigned i = ssh2_pkt_getuint32(ssh);
5662 struct ssh_channel *c;
5663 c = find234(ssh->channels, &i, ssh_channelfind);
5664 if (!c)
5665 continue; /* nonexistent channel */
5666 c->v.v2.remwindow += ssh2_pkt_getuint32(ssh);
5667 }
5668 } while (ssh->pktin.type == SSH2_MSG_CHANNEL_WINDOW_ADJUST);
5669 if (ssh->pktin.type != SSH2_MSG_CHANNEL_SUCCESS) {
5670 if (ssh->pktin.type != SSH2_MSG_CHANNEL_FAILURE) {
5671 bombout(("Unexpected response to shell/command request:"
5672 " packet type %d", ssh->pktin.type));
5673 crStopV;
5674 }
5675 /*
5676 * We failed to start the command. If this is the
5677 * fallback command, we really are finished; if it's
5678 * not, and if the fallback command exists, try falling
5679 * back to it before complaining.
5680 */
5681 if (!ssh->fallback_cmd && ssh->cfg.remote_cmd_ptr2 != NULL) {
5682 logevent("Primary command failed; attempting fallback");
5683 ssh->fallback_cmd = TRUE;
5684 continue;
5685 }
5686 bombout(("Server refused to start a shell/command"));
5687 crStopV;
5688 } else {
5689 logevent("Started a shell/command");
5690 }
5691 break;
5692 }
5693
5694 ssh->state = SSH_STATE_SESSION;
5695 if (ssh->size_needed)
5696 ssh_size(ssh, ssh->term_width, ssh->term_height);
5697 if (ssh->eof_needed)
5698 ssh_special(ssh, TS_EOF);
5699
5700 /*
5701 * Transfer data!
5702 */
5703 if (ssh->ldisc)
5704 ldisc_send(ssh->ldisc, NULL, 0, 0);/* cause ldisc to notice changes */
5705 ssh->send_ok = 1;
5706 while (1) {
5707 crReturnV;
5708 s->try_send = FALSE;
5709 if (ispkt) {
5710 if (ssh->pktin.type == SSH2_MSG_CHANNEL_DATA ||
5711 ssh->pktin.type == SSH2_MSG_CHANNEL_EXTENDED_DATA) {
5712 char *data;
5713 int length;
5714 unsigned i = ssh2_pkt_getuint32(ssh);
5715 struct ssh_channel *c;
5716 c = find234(ssh->channels, &i, ssh_channelfind);
5717 if (!c)
5718 continue; /* nonexistent channel */
5719 if (ssh->pktin.type == SSH2_MSG_CHANNEL_EXTENDED_DATA &&
5720 ssh2_pkt_getuint32(ssh) != SSH2_EXTENDED_DATA_STDERR)
5721 continue; /* extended but not stderr */
5722 ssh2_pkt_getstring(ssh, &data, &length);
5723 if (data) {
5724 int bufsize = 0;
5725 c->v.v2.locwindow -= length;
5726 switch (c->type) {
5727 case CHAN_MAINSESSION:
5728 bufsize =
5729 from_backend(ssh->frontend, ssh->pktin.type ==
5730 SSH2_MSG_CHANNEL_EXTENDED_DATA,
5731 data, length);
5732 break;
5733 case CHAN_X11:
5734 bufsize = x11_send(c->u.x11.s, data, length);
5735 break;
5736 case CHAN_SOCKDATA:
5737 bufsize = pfd_send(c->u.pfd.s, data, length);
5738 break;
5739 case CHAN_AGENT:
5740 while (length > 0) {
5741 if (c->u.a.lensofar < 4) {
5742 int l = min(4 - c->u.a.lensofar, length);
5743 memcpy(c->u.a.msglen + c->u.a.lensofar,
5744 data, l);
5745 data += l;
5746 length -= l;
5747 c->u.a.lensofar += l;
5748 }
5749 if (c->u.a.lensofar == 4) {
5750 c->u.a.totallen =
5751 4 + GET_32BIT(c->u.a.msglen);
5752 c->u.a.message = snewn(c->u.a.totallen,
5753 unsigned char);
5754 memcpy(c->u.a.message, c->u.a.msglen, 4);
5755 }
5756 if (c->u.a.lensofar >= 4 && length > 0) {
5757 int l =
5758 min(c->u.a.totallen - c->u.a.lensofar,
5759 length);
5760 memcpy(c->u.a.message + c->u.a.lensofar,
5761 data, l);
5762 data += l;
5763 length -= l;
5764 c->u.a.lensofar += l;
5765 }
5766 if (c->u.a.lensofar == c->u.a.totallen) {
5767 void *reply;
5768 int replylen;
5769 if (agent_query(c->u.a.message,
5770 c->u.a.totallen,
5771 &reply, &replylen,
5772 ssh_agentf_callback, c))
5773 ssh_agentf_callback(c, reply, replylen);
5774 sfree(c->u.a.message);
5775 c->u.a.lensofar = 0;
5776 }
5777 }
5778 bufsize = 0;
5779 break;
5780 }
5781 /*
5782 * If we are not buffering too much data,
5783 * enlarge the window again at the remote side.
5784 */
5785 if (bufsize < OUR_V2_WINSIZE)
5786 ssh2_set_window(c, OUR_V2_WINSIZE - bufsize);
5787 }
5788 } else if (ssh->pktin.type == SSH2_MSG_CHANNEL_EOF) {
5789 unsigned i = ssh2_pkt_getuint32(ssh);
5790 struct ssh_channel *c;
5791
5792 c = find234(ssh->channels, &i, ssh_channelfind);
5793 if (!c)
5794 continue; /* nonexistent channel */
5795
5796 if (c->type == CHAN_X11) {
5797 /*
5798 * Remote EOF on an X11 channel means we should
5799 * wrap up and close the channel ourselves.
5800 */
5801 x11_close(c->u.x11.s);
5802 sshfwd_close(c);
5803 } else if (c->type == CHAN_AGENT) {
5804 sshfwd_close(c);
5805 } else if (c->type == CHAN_SOCKDATA) {
5806 pfd_close(c->u.pfd.s);
5807 sshfwd_close(c);
5808 }
5809 } else if (ssh->pktin.type == SSH2_MSG_CHANNEL_CLOSE) {
5810 unsigned i = ssh2_pkt_getuint32(ssh);
5811 struct ssh_channel *c;
5812
5813 c = find234(ssh->channels, &i, ssh_channelfind);
5814 if (!c || ((int)c->remoteid) == -1) {
5815 bombout(("Received CHANNEL_CLOSE for %s channel %d\n",
5816 c ? "half-open" : "nonexistent", i));
5817 crStopV;
5818 }
5819 /* Do pre-close processing on the channel. */
5820 switch (c->type) {
5821 case CHAN_MAINSESSION:
5822 break; /* nothing to see here, move along */
5823 case CHAN_X11:
5824 if (c->u.x11.s != NULL)
5825 x11_close(c->u.x11.s);
5826 sshfwd_close(c);
5827 break;
5828 case CHAN_AGENT:
5829 sshfwd_close(c);
5830 break;
5831 case CHAN_SOCKDATA:
5832 if (c->u.pfd.s != NULL)
5833 pfd_close(c->u.pfd.s);
5834 sshfwd_close(c);
5835 break;
5836 }
5837 if (c->closes == 0) {
5838 ssh2_pkt_init(ssh, SSH2_MSG_CHANNEL_CLOSE);
5839 ssh2_pkt_adduint32(ssh, c->remoteid);
5840 ssh2_pkt_send(ssh);
5841 }
5842 del234(ssh->channels, c);
5843 bufchain_clear(&c->v.v2.outbuffer);
5844 sfree(c);
5845
5846 /*
5847 * See if that was the last channel left open.
5848 */
5849 if (count234(ssh->channels) == 0) {
5850 logevent("All channels closed. Disconnecting");
5851 #if 0
5852 /*
5853 * We used to send SSH_MSG_DISCONNECT here,
5854 * because I'd believed that _every_ conforming
5855 * SSH2 connection had to end with a disconnect
5856 * being sent by at least one side; apparently
5857 * I was wrong and it's perfectly OK to
5858 * unceremoniously slam the connection shut
5859 * when you're done, and indeed OpenSSH feels
5860 * this is more polite than sending a
5861 * DISCONNECT. So now we don't.
5862 */
5863 ssh2_pkt_init(ssh, SSH2_MSG_DISCONNECT);
5864 ssh2_pkt_adduint32(ssh, SSH2_DISCONNECT_BY_APPLICATION);
5865 ssh2_pkt_addstring(ssh, "All open channels closed");
5866 ssh2_pkt_addstring(ssh, "en"); /* language tag */
5867 ssh2_pkt_send(ssh);
5868 #endif
5869 ssh_closing((Plug)ssh, NULL, 0, 0);
5870 crStopV;
5871 }
5872 continue; /* remote sends close; ignore (FIXME) */
5873 } else if (ssh->pktin.type == SSH2_MSG_CHANNEL_WINDOW_ADJUST) {
5874 unsigned i = ssh2_pkt_getuint32(ssh);
5875 struct ssh_channel *c;
5876 c = find234(ssh->channels, &i, ssh_channelfind);
5877 if (!c || c->closes)
5878 continue; /* nonexistent or closing channel */
5879 c->v.v2.remwindow += ssh2_pkt_getuint32(ssh);
5880 s->try_send = TRUE;
5881 } else if (ssh->pktin.type == SSH2_MSG_CHANNEL_OPEN_CONFIRMATION) {
5882 unsigned i = ssh2_pkt_getuint32(ssh);
5883 struct ssh_channel *c;
5884 c = find234(ssh->channels, &i, ssh_channelfind);
5885 if (!c)
5886 continue; /* nonexistent channel */
5887 if (c->type != CHAN_SOCKDATA_DORMANT)
5888 continue; /* dunno why they're confirming this */
5889 c->remoteid = ssh2_pkt_getuint32(ssh);
5890 c->type = CHAN_SOCKDATA;
5891 c->v.v2.remwindow = ssh2_pkt_getuint32(ssh);
5892 c->v.v2.remmaxpkt = ssh2_pkt_getuint32(ssh);
5893 if (c->u.pfd.s)
5894 pfd_confirm(c->u.pfd.s);
5895 if (c->closes) {
5896 /*
5897 * We have a pending close on this channel,
5898 * which we decided on before the server acked
5899 * the channel open. So now we know the
5900 * remoteid, we can close it again.
5901 */
5902 ssh2_pkt_init(ssh, SSH2_MSG_CHANNEL_CLOSE);
5903 ssh2_pkt_adduint32(ssh, c->remoteid);
5904 ssh2_pkt_send(ssh);
5905 }
5906 } else if (ssh->pktin.type == SSH2_MSG_CHANNEL_OPEN_FAILURE) {
5907 unsigned i = ssh2_pkt_getuint32(ssh);
5908 struct ssh_channel *c;
5909 c = find234(ssh->channels, &i, ssh_channelfind);
5910 if (!c)
5911 continue; /* nonexistent channel */
5912 if (c->type != CHAN_SOCKDATA_DORMANT)
5913 continue; /* dunno why they're failing this */
5914
5915 logevent("Forwarded connection refused by server");
5916
5917 pfd_close(c->u.pfd.s);
5918
5919 del234(ssh->channels, c);
5920 sfree(c);
5921 } else if (ssh->pktin.type == SSH2_MSG_CHANNEL_REQUEST) {
5922 unsigned localid;
5923 char *type;
5924 int typelen, want_reply;
5925 struct ssh_channel *c;
5926
5927 localid = ssh2_pkt_getuint32(ssh);
5928 ssh2_pkt_getstring(ssh, &type, &typelen);
5929 want_reply = ssh2_pkt_getbool(ssh);
5930
5931 /*
5932 * First, check that the channel exists. Otherwise,
5933 * we can instantly disconnect with a rude message.
5934 */
5935 c = find234(ssh->channels, &localid, ssh_channelfind);
5936 if (!c) {
5937 char buf[80];
5938 sprintf(buf, "Received channel request for nonexistent"
5939 " channel %d", localid);
5940 logevent(buf);
5941 ssh2_pkt_init(ssh, SSH2_MSG_DISCONNECT);
5942 ssh2_pkt_adduint32(ssh, SSH2_DISCONNECT_BY_APPLICATION);
5943 ssh2_pkt_addstring(ssh, buf);
5944 ssh2_pkt_addstring(ssh, "en"); /* language tag */
5945 ssh2_pkt_send(ssh);
5946 connection_fatal(ssh->frontend, "%s", buf);
5947 ssh_closing((Plug)ssh, NULL, 0, 0);
5948 crStopV;
5949 }
5950
5951 /*
5952 * Having got the channel number, we now look at
5953 * the request type string to see if it's something
5954 * we recognise.
5955 */
5956 if (typelen == 11 && !memcmp(type, "exit-status", 11) &&
5957 c == ssh->mainchan) {
5958 /* We recognise "exit-status" on the primary channel. */
5959 char buf[100];
5960 ssh->exitcode = ssh2_pkt_getuint32(ssh);
5961 sprintf(buf, "Server sent command exit status %d",
5962 ssh->exitcode);
5963 logevent(buf);
5964 if (want_reply) {
5965 ssh2_pkt_init(ssh, SSH2_MSG_CHANNEL_SUCCESS);
5966 ssh2_pkt_adduint32(ssh, c->remoteid);
5967 ssh2_pkt_send(ssh);
5968 }
5969 } else {
5970 /*
5971 * This is a channel request we don't know
5972 * about, so we now either ignore the request
5973 * or respond with CHANNEL_FAILURE, depending
5974 * on want_reply.
5975 */
5976 if (want_reply) {
5977 ssh2_pkt_init(ssh, SSH2_MSG_CHANNEL_FAILURE);
5978 ssh2_pkt_adduint32(ssh, c->remoteid);
5979 ssh2_pkt_send(ssh);
5980 }
5981 }
5982 } else if (ssh->pktin.type == SSH2_MSG_GLOBAL_REQUEST) {
5983 char *type;
5984 int typelen, want_reply;
5985
5986 ssh2_pkt_getstring(ssh, &type, &typelen);
5987 want_reply = ssh2_pkt_getbool(ssh);
5988
5989 /*
5990 * We currently don't support any global requests
5991 * at all, so we either ignore the request or
5992 * respond with REQUEST_FAILURE, depending on
5993 * want_reply.
5994 */
5995 if (want_reply) {
5996 ssh2_pkt_init(ssh, SSH2_MSG_REQUEST_FAILURE);
5997 ssh2_pkt_send(ssh);
5998 }
5999 } else if (ssh->pktin.type == SSH2_MSG_CHANNEL_OPEN) {
6000 char *type;
6001 int typelen;
6002 char *peeraddr;
6003 int peeraddrlen;
6004 int peerport;
6005 char *error = NULL;
6006 struct ssh_channel *c;
6007 unsigned remid, winsize, pktsize;
6008 ssh2_pkt_getstring(ssh, &type, &typelen);
6009 c = snew(struct ssh_channel);
6010 c->ssh = ssh;
6011
6012 remid = ssh2_pkt_getuint32(ssh);
6013 winsize = ssh2_pkt_getuint32(ssh);
6014 pktsize = ssh2_pkt_getuint32(ssh);
6015
6016 if (typelen == 3 && !memcmp(type, "x11", 3)) {
6017 char *addrstr;
6018
6019 ssh2_pkt_getstring(ssh, &peeraddr, &peeraddrlen);
6020 addrstr = snewn(peeraddrlen+1, char);
6021 memcpy(addrstr, peeraddr, peeraddrlen);
6022 peeraddr[peeraddrlen] = '\0';
6023 peerport = ssh2_pkt_getuint32(ssh);
6024
6025 if (!ssh->X11_fwd_enabled)
6026 error = "X11 forwarding is not enabled";
6027 else if (x11_init(&c->u.x11.s, ssh->cfg.x11_display, c,
6028 ssh->x11auth, addrstr, peerport,
6029 &ssh->cfg) != NULL) {
6030 error = "Unable to open an X11 connection";
6031 } else {
6032 c->type = CHAN_X11;
6033 }
6034
6035 sfree(addrstr);
6036 } else if (typelen == 15 &&
6037 !memcmp(type, "forwarded-tcpip", 15)) {
6038 struct ssh_rportfwd pf, *realpf;
6039 char *dummy;
6040 int dummylen;
6041 ssh2_pkt_getstring(ssh, &dummy, &dummylen);/* skip address */
6042 pf.sport = ssh2_pkt_getuint32(ssh);
6043 ssh2_pkt_getstring(ssh, &peeraddr, &peeraddrlen);
6044 peerport = ssh2_pkt_getuint32(ssh);
6045 realpf = find234(ssh->rportfwds, &pf, NULL);
6046 if (realpf == NULL) {
6047 error = "Remote port is not recognised";
6048 } else {
6049 const char *e = pfd_newconnect(&c->u.pfd.s,
6050 realpf->dhost,
6051 realpf->dport, c,
6052 &ssh->cfg);
6053 logeventf(ssh, "Received remote port open request"
6054 " for %s:%d", realpf->dhost, realpf->dport);
6055 if (e != NULL) {
6056 logeventf(ssh, "Port open failed: %s", e);
6057 error = "Port open failed";
6058 } else {
6059 logevent("Forwarded port opened successfully");
6060 c->type = CHAN_SOCKDATA;
6061 }
6062 }
6063 } else if (typelen == 22 &&
6064 !memcmp(type, "auth-agent@openssh.com", 3)) {
6065 if (!ssh->agentfwd_enabled)
6066 error = "Agent forwarding is not enabled";
6067 else {
6068 c->type = CHAN_AGENT; /* identify channel type */
6069 c->u.a.lensofar = 0;
6070 }
6071 } else {
6072 error = "Unsupported channel type requested";
6073 }
6074
6075 c->remoteid = remid;
6076 if (error) {
6077 ssh2_pkt_init(ssh, SSH2_MSG_CHANNEL_OPEN_FAILURE);
6078 ssh2_pkt_adduint32(ssh, c->remoteid);
6079 ssh2_pkt_adduint32(ssh, SSH2_OPEN_CONNECT_FAILED);
6080 ssh2_pkt_addstring(ssh, error);
6081 ssh2_pkt_addstring(ssh, "en"); /* language tag */
6082 ssh2_pkt_send(ssh);
6083 sfree(c);
6084 } else {
6085 c->localid = alloc_channel_id(ssh);
6086 c->closes = 0;
6087 c->v.v2.locwindow = OUR_V2_WINSIZE;
6088 c->v.v2.remwindow = winsize;
6089 c->v.v2.remmaxpkt = pktsize;
6090 bufchain_init(&c->v.v2.outbuffer);
6091 add234(ssh->channels, c);
6092 ssh2_pkt_init(ssh, SSH2_MSG_CHANNEL_OPEN_CONFIRMATION);
6093 ssh2_pkt_adduint32(ssh, c->remoteid);
6094 ssh2_pkt_adduint32(ssh, c->localid);
6095 ssh2_pkt_adduint32(ssh, c->v.v2.locwindow);
6096 ssh2_pkt_adduint32(ssh, 0x4000UL); /* our max pkt size */
6097 ssh2_pkt_send(ssh);
6098 }
6099 } else {
6100 bombout(("Strange packet received: type %d", ssh->pktin.type));
6101 crStopV;
6102 }
6103 } else {
6104 /*
6105 * We have spare data. Add it to the channel buffer.
6106 */
6107 ssh2_add_channel_data(ssh->mainchan, (char *)in, inlen);
6108 s->try_send = TRUE;
6109 }
6110 if (s->try_send) {
6111 int i;
6112 struct ssh_channel *c;
6113 /*
6114 * Try to send data on all channels if we can.
6115 */
6116 for (i = 0; NULL != (c = index234(ssh->channels, i)); i++) {
6117 int bufsize;
6118 if (c->closes)
6119 continue; /* don't send on closing channels */
6120 bufsize = ssh2_try_send(c);
6121 if (bufsize == 0) {
6122 switch (c->type) {
6123 case CHAN_MAINSESSION:
6124 /* stdin need not receive an unthrottle
6125 * notification since it will be polled */
6126 break;
6127 case CHAN_X11:
6128 x11_unthrottle(c->u.x11.s);
6129 break;
6130 case CHAN_AGENT:
6131 /* agent sockets are request/response and need no
6132 * buffer management */
6133 break;
6134 case CHAN_SOCKDATA:
6135 pfd_unthrottle(c->u.pfd.s);
6136 break;
6137 }
6138 }
6139 }
6140 }
6141 }
6142
6143 crFinishV;
6144 }
6145
6146 /*
6147 * Handle the top-level SSH2 protocol.
6148 */
6149 static void ssh2_protocol(Ssh ssh, unsigned char *in, int inlen, int ispkt)
6150 {
6151 if (do_ssh2_transport(ssh, in, inlen, ispkt) == 0)
6152 return;
6153 do_ssh2_authconn(ssh, in, inlen, ispkt);
6154 }
6155
6156 /*
6157 * Called to set up the connection.
6158 *
6159 * Returns an error message, or NULL on success.
6160 */
6161 static const char *ssh_init(void *frontend_handle, void **backend_handle,
6162 Config *cfg,
6163 char *host, int port, char **realhost, int nodelay)
6164 {
6165 const char *p;
6166 Ssh ssh;
6167
6168 ssh = snew(struct ssh_tag);
6169 ssh->cfg = *cfg; /* STRUCTURE COPY */
6170 ssh->version = 0; /* when not ready yet */
6171 ssh->s = NULL;
6172 ssh->cipher = NULL;
6173 ssh->v1_cipher_ctx = NULL;
6174 ssh->crcda_ctx = NULL;
6175 ssh->cscipher = NULL;
6176 ssh->cs_cipher_ctx = NULL;
6177 ssh->sccipher = NULL;
6178 ssh->sc_cipher_ctx = NULL;
6179 ssh->csmac = NULL;
6180 ssh->cs_mac_ctx = NULL;
6181 ssh->scmac = NULL;
6182 ssh->sc_mac_ctx = NULL;
6183 ssh->cscomp = NULL;
6184 ssh->cs_comp_ctx = NULL;
6185 ssh->sccomp = NULL;
6186 ssh->sc_comp_ctx = NULL;
6187 ssh->kex = NULL;
6188 ssh->kex_ctx = NULL;
6189 ssh->hostkey = NULL;
6190 ssh->exitcode = -1;
6191 ssh->state = SSH_STATE_PREPACKET;
6192 ssh->size_needed = FALSE;
6193 ssh->eof_needed = FALSE;
6194 ssh->ldisc = NULL;
6195 ssh->logctx = NULL;
6196 {
6197 static const struct Packet empty = { 0, 0, NULL, NULL, 0 };
6198 ssh->pktin = ssh->pktout = empty;
6199 }
6200 ssh->deferred_send_data = NULL;
6201 ssh->deferred_len = 0;
6202 ssh->deferred_size = 0;
6203 ssh->fallback_cmd = 0;
6204 ssh->pkt_ctx = 0;
6205 ssh->x11auth = NULL;
6206 ssh->v1_compressing = FALSE;
6207 ssh->v2_outgoing_sequence = 0;
6208 ssh->ssh1_rdpkt_crstate = 0;
6209 ssh->ssh2_rdpkt_crstate = 0;
6210 ssh->do_ssh_init_crstate = 0;
6211 ssh->ssh_gotdata_crstate = 0;
6212 ssh->ssh1_protocol_crstate = 0;
6213 ssh->do_ssh1_login_crstate = 0;
6214 ssh->do_ssh2_transport_crstate = 0;
6215 ssh->do_ssh2_authconn_crstate = 0;
6216 ssh->do_ssh_init_state = NULL;
6217 ssh->do_ssh1_login_state = NULL;
6218 ssh->do_ssh2_transport_state = NULL;
6219 ssh->do_ssh2_authconn_state = NULL;
6220 ssh->mainchan = NULL;
6221 ssh->throttled_all = 0;
6222 ssh->v1_stdout_throttling = 0;
6223
6224 *backend_handle = ssh;
6225
6226 #ifdef MSCRYPTOAPI
6227 if (crypto_startup() == 0)
6228 return "Microsoft high encryption pack not installed!";
6229 #endif
6230
6231 ssh->frontend = frontend_handle;
6232 ssh->term_width = ssh->cfg.width;
6233 ssh->term_height = ssh->cfg.height;
6234
6235 ssh->channels = NULL;
6236 ssh->rportfwds = NULL;
6237
6238 ssh->send_ok = 0;
6239 ssh->editing = 0;
6240 ssh->echoing = 0;
6241 ssh->v1_throttle_count = 0;
6242 ssh->overall_bufsize = 0;
6243 ssh->fallback_cmd = 0;
6244
6245 ssh->protocol = NULL;
6246
6247 p = connect_to_host(ssh, host, port, realhost, nodelay);
6248 if (p != NULL)
6249 return p;
6250
6251 return NULL;
6252 }
6253
6254 static void ssh_free(void *handle)
6255 {
6256 Ssh ssh = (Ssh) handle;
6257 struct ssh_channel *c;
6258 struct ssh_rportfwd *pf;
6259
6260 if (ssh->v1_cipher_ctx)
6261 ssh->cipher->free_context(ssh->v1_cipher_ctx);
6262 if (ssh->cs_cipher_ctx)
6263 ssh->cscipher->free_context(ssh->cs_cipher_ctx);
6264 if (ssh->sc_cipher_ctx)
6265 ssh->sccipher->free_context(ssh->sc_cipher_ctx);
6266 if (ssh->cs_mac_ctx)
6267 ssh->csmac->free_context(ssh->cs_mac_ctx);
6268 if (ssh->sc_mac_ctx)
6269 ssh->scmac->free_context(ssh->sc_mac_ctx);
6270 if (ssh->cs_comp_ctx) {
6271 if (ssh->cscomp)
6272 ssh->cscomp->compress_cleanup(ssh->cs_comp_ctx);
6273 else
6274 zlib_compress_cleanup(ssh->cs_comp_ctx);
6275 }
6276 if (ssh->sc_comp_ctx) {
6277 if (ssh->sccomp)
6278 ssh->sccomp->decompress_cleanup(ssh->sc_comp_ctx);
6279 else
6280 zlib_decompress_cleanup(ssh->sc_comp_ctx);
6281 }
6282 if (ssh->kex_ctx)
6283 dh_cleanup(ssh->kex_ctx);
6284 sfree(ssh->savedhost);
6285
6286 if (ssh->channels) {
6287 while ((c = delpos234(ssh->channels, 0)) != NULL) {
6288 switch (c->type) {
6289 case CHAN_X11:
6290 if (c->u.x11.s != NULL)
6291 x11_close(c->u.x11.s);
6292 break;
6293 case CHAN_SOCKDATA:
6294 if (c->u.pfd.s != NULL)
6295 pfd_close(c->u.pfd.s);
6296 break;
6297 }
6298 sfree(c);
6299 }
6300 freetree234(ssh->channels);
6301 }
6302
6303 if (ssh->rportfwds) {
6304 while ((pf = delpos234(ssh->rportfwds, 0)) != NULL)
6305 sfree(pf);
6306 freetree234(ssh->rportfwds);
6307 }
6308 sfree(ssh->deferred_send_data);
6309 if (ssh->x11auth)
6310 x11_free_auth(ssh->x11auth);
6311 sfree(ssh->do_ssh_init_state);
6312 sfree(ssh->do_ssh1_login_state);
6313 sfree(ssh->do_ssh2_transport_state);
6314 sfree(ssh->do_ssh2_authconn_state);
6315 if (ssh->pktout.data) {
6316 sfree(ssh->pktout.data);
6317 ssh->pktout.data = NULL;
6318 }
6319 if (ssh->pktin.data) {
6320 sfree(ssh->pktin.data);
6321 ssh->pktin.data = NULL;
6322 }
6323 if (ssh->crcda_ctx) {
6324 crcda_free_context(ssh->crcda_ctx);
6325 ssh->crcda_ctx = NULL;
6326 }
6327 if (ssh->logctx) {
6328 log_free(ssh->logctx);
6329 ssh->logctx = NULL;
6330 }
6331 if (ssh->s)
6332 ssh_do_close(ssh);
6333 sfree(ssh);
6334 }
6335
6336 /*
6337 * Reconfigure the SSH backend.
6338 *
6339 * Currently, this function does nothing very useful. In future,
6340 * however, we could do some handy things with it. For example, we
6341 * could make the port forwarding configurer active in the Change
6342 * Settings box, and this routine could close down existing
6343 * forwardings and open up new ones in response to changes.
6344 */
6345 static void ssh_reconfig(void *handle, Config *cfg)
6346 {
6347 Ssh ssh = (Ssh) handle;
6348 ssh->cfg = *cfg; /* STRUCTURE COPY */
6349 }
6350
6351 /*
6352 * Called to send data down the Telnet connection.
6353 */
6354 static int ssh_send(void *handle, char *buf, int len)
6355 {
6356 Ssh ssh = (Ssh) handle;
6357
6358 if (ssh == NULL || ssh->s == NULL || ssh->protocol == NULL)
6359 return 0;
6360
6361 ssh->protocol(ssh, (unsigned char *)buf, len, 0);
6362
6363 return ssh_sendbuffer(ssh);
6364 }
6365
6366 /*
6367 * Called to query the current amount of buffered stdin data.
6368 */
6369 static int ssh_sendbuffer(void *handle)
6370 {
6371 Ssh ssh = (Ssh) handle;
6372 int override_value;
6373
6374 if (ssh == NULL || ssh->s == NULL || ssh->protocol == NULL)
6375 return 0;
6376
6377 /*
6378 * If the SSH socket itself has backed up, add the total backup
6379 * size on that to any individual buffer on the stdin channel.
6380 */
6381 override_value = 0;
6382 if (ssh->throttled_all)
6383 override_value = ssh->overall_bufsize;
6384
6385 if (ssh->version == 1) {
6386 return override_value;
6387 } else if (ssh->version == 2) {
6388 if (!ssh->mainchan || ssh->mainchan->closes > 0)
6389 return override_value;
6390 else
6391 return (override_value +
6392 bufchain_size(&ssh->mainchan->v.v2.outbuffer));
6393 }
6394
6395 return 0;
6396 }
6397
6398 /*
6399 * Called to set the size of the window from SSH's POV.
6400 */
6401 static void ssh_size(void *handle, int width, int height)
6402 {
6403 Ssh ssh = (Ssh) handle;
6404
6405 ssh->term_width = width;
6406 ssh->term_height = height;
6407
6408 switch (ssh->state) {
6409 case SSH_STATE_BEFORE_SIZE:
6410 case SSH_STATE_PREPACKET:
6411 case SSH_STATE_CLOSED:
6412 break; /* do nothing */
6413 case SSH_STATE_INTERMED:
6414 ssh->size_needed = TRUE; /* buffer for later */
6415 break;
6416 case SSH_STATE_SESSION:
6417 if (!ssh->cfg.nopty) {
6418 if (ssh->version == 1) {
6419 send_packet(ssh, SSH1_CMSG_WINDOW_SIZE,
6420 PKT_INT, ssh->term_height,
6421 PKT_INT, ssh->term_width,
6422 PKT_INT, 0, PKT_INT, 0, PKT_END);
6423 } else {
6424 ssh2_pkt_init(ssh, SSH2_MSG_CHANNEL_REQUEST);
6425 ssh2_pkt_adduint32(ssh, ssh->mainchan->remoteid);
6426 ssh2_pkt_addstring(ssh, "window-change");
6427 ssh2_pkt_addbool(ssh, 0);
6428 ssh2_pkt_adduint32(ssh, ssh->term_width);
6429 ssh2_pkt_adduint32(ssh, ssh->term_height);
6430 ssh2_pkt_adduint32(ssh, 0);
6431 ssh2_pkt_adduint32(ssh, 0);
6432 ssh2_pkt_send(ssh);
6433 }
6434 }
6435 break;
6436 }
6437 }
6438
6439 /*
6440 * Return a list of the special codes that make sense in this
6441 * protocol.
6442 */
6443 static const struct telnet_special *ssh_get_specials(void *handle)
6444 {
6445 Ssh ssh = (Ssh) handle;
6446
6447 if (ssh->version == 1) {
6448 static const struct telnet_special ssh1_specials[] = {
6449 {"IGNORE message", TS_NOP},
6450 {NULL, 0}
6451 };
6452 return ssh1_specials;
6453 } else if (ssh->version == 2) {
6454 static const struct telnet_special ssh2_specials[] = {
6455 {"Break", TS_BRK},
6456 {"IGNORE message", TS_NOP},
6457 {NULL, 0}
6458 };
6459 return ssh2_specials;
6460 } else
6461 return NULL;
6462 }
6463
6464 /*
6465 * Send Telnet special codes. TS_EOF is useful for `plink', so you
6466 * can send an EOF and collect resulting output (e.g. `plink
6467 * hostname sort').
6468 */
6469 static void ssh_special(void *handle, Telnet_Special code)
6470 {
6471 Ssh ssh = (Ssh) handle;
6472
6473 if (code == TS_EOF) {
6474 if (ssh->state != SSH_STATE_SESSION) {
6475 /*
6476 * Buffer the EOF in case we are pre-SESSION, so we can
6477 * send it as soon as we reach SESSION.
6478 */
6479 if (code == TS_EOF)
6480 ssh->eof_needed = TRUE;
6481 return;
6482 }
6483 if (ssh->version == 1) {
6484 send_packet(ssh, SSH1_CMSG_EOF, PKT_END);
6485 } else {
6486 ssh2_pkt_init(ssh, SSH2_MSG_CHANNEL_EOF);
6487 ssh2_pkt_adduint32(ssh, ssh->mainchan->remoteid);
6488 ssh2_pkt_send(ssh);
6489 }
6490 logevent("Sent EOF message");
6491 } else if (code == TS_PING || code == TS_NOP) {
6492 if (ssh->state == SSH_STATE_CLOSED
6493 || ssh->state == SSH_STATE_PREPACKET) return;
6494 if (ssh->version == 1) {
6495 if (!(ssh->remote_bugs & BUG_CHOKES_ON_SSH1_IGNORE))
6496 send_packet(ssh, SSH1_MSG_IGNORE, PKT_STR, "", PKT_END);
6497 } else {
6498 ssh2_pkt_init(ssh, SSH2_MSG_IGNORE);
6499 ssh2_pkt_addstring_start(ssh);
6500 ssh2_pkt_send(ssh);
6501 }
6502 } else if (code == TS_BRK) {
6503 if (ssh->state == SSH_STATE_CLOSED
6504 || ssh->state == SSH_STATE_PREPACKET) return;
6505 if (ssh->version == 1) {
6506 logevent("Unable to send BREAK signal in SSH1");
6507 } else {
6508 ssh2_pkt_init(ssh, SSH2_MSG_CHANNEL_REQUEST);
6509 ssh2_pkt_adduint32(ssh, ssh->mainchan->remoteid);
6510 ssh2_pkt_addstring(ssh, "break");
6511 ssh2_pkt_addbool(ssh, 0);
6512 ssh2_pkt_adduint32(ssh, 0); /* default break length */
6513 ssh2_pkt_send(ssh);
6514 }
6515 } else {
6516 /* do nothing */
6517 }
6518 }
6519
6520 void *new_sock_channel(void *handle, Socket s)
6521 {
6522 Ssh ssh = (Ssh) handle;
6523 struct ssh_channel *c;
6524 c = snew(struct ssh_channel);
6525 c->ssh = ssh;
6526
6527 if (c) {
6528 c->remoteid = -1; /* to be set when open confirmed */
6529 c->localid = alloc_channel_id(ssh);
6530 c->closes = 0;
6531 c->type = CHAN_SOCKDATA_DORMANT;/* identify channel type */
6532 c->u.pfd.s = s;
6533 bufchain_init(&c->v.v2.outbuffer);
6534 add234(ssh->channels, c);
6535 }
6536 return c;
6537 }
6538
6539 /*
6540 * This is called when stdout/stderr (the entity to which
6541 * from_backend sends data) manages to clear some backlog.
6542 */
6543 static void ssh_unthrottle(void *handle, int bufsize)
6544 {
6545 Ssh ssh = (Ssh) handle;
6546 if (ssh->version == 1) {
6547 if (ssh->v1_stdout_throttling && bufsize < SSH1_BUFFER_LIMIT) {
6548 ssh->v1_stdout_throttling = 0;
6549 ssh1_throttle(ssh, -1);
6550 }
6551 } else {
6552 if (ssh->mainchan && ssh->mainchan->closes == 0)
6553 ssh2_set_window(ssh->mainchan, OUR_V2_WINSIZE - bufsize);
6554 }
6555 }
6556
6557 void ssh_send_port_open(void *channel, char *hostname, int port, char *org)
6558 {
6559 struct ssh_channel *c = (struct ssh_channel *)channel;
6560 Ssh ssh = c->ssh;
6561
6562 logeventf(ssh, "Opening forwarded connection to %s:%d", hostname, port);
6563
6564 if (ssh->version == 1) {
6565 send_packet(ssh, SSH1_MSG_PORT_OPEN,
6566 PKT_INT, c->localid,
6567 PKT_STR, hostname,
6568 PKT_INT, port,
6569 //PKT_STR, <org:orgport>,
6570 PKT_END);
6571 } else {
6572 ssh2_pkt_init(ssh, SSH2_MSG_CHANNEL_OPEN);
6573 ssh2_pkt_addstring(ssh, "direct-tcpip");
6574 ssh2_pkt_adduint32(ssh, c->localid);
6575 c->v.v2.locwindow = OUR_V2_WINSIZE;
6576 ssh2_pkt_adduint32(ssh, c->v.v2.locwindow);/* our window size */
6577 ssh2_pkt_adduint32(ssh, 0x4000UL); /* our max pkt size */
6578 ssh2_pkt_addstring(ssh, hostname);
6579 ssh2_pkt_adduint32(ssh, port);
6580 /*
6581 * We make up values for the originator data; partly it's
6582 * too much hassle to keep track, and partly I'm not
6583 * convinced the server should be told details like that
6584 * about my local network configuration.
6585 */
6586 ssh2_pkt_addstring(ssh, "client-side-connection");
6587 ssh2_pkt_adduint32(ssh, 0);
6588 ssh2_pkt_send(ssh);
6589 }
6590 }
6591
6592
6593 static Socket ssh_socket(void *handle)
6594 {
6595 Ssh ssh = (Ssh) handle;
6596 return ssh->s;
6597 }
6598
6599 static int ssh_sendok(void *handle)
6600 {
6601 Ssh ssh = (Ssh) handle;
6602 return ssh->send_ok;
6603 }
6604
6605 static int ssh_ldisc(void *handle, int option)
6606 {
6607 Ssh ssh = (Ssh) handle;
6608 if (option == LD_ECHO)
6609 return ssh->echoing;
6610 if (option == LD_EDIT)
6611 return ssh->editing;
6612 return FALSE;
6613 }
6614
6615 static void ssh_provide_ldisc(void *handle, void *ldisc)
6616 {
6617 Ssh ssh = (Ssh) handle;
6618 ssh->ldisc = ldisc;
6619 }
6620
6621 static void ssh_provide_logctx(void *handle, void *logctx)
6622 {
6623 Ssh ssh = (Ssh) handle;
6624 ssh->logctx = logctx;
6625 }
6626
6627 static int ssh_return_exitcode(void *handle)
6628 {
6629 Ssh ssh = (Ssh) handle;
6630 if (ssh->s != NULL)
6631 return -1;
6632 else
6633 return (ssh->exitcode >= 0 ? ssh->exitcode : 0);
6634 }
6635
6636 /*
6637 * Gross hack: pscp will try to start SFTP but fall back to scp1 if
6638 * that fails. This variable is the means by which scp.c can reach
6639 * into the SSH code and find out which one it got.
6640 */
6641 extern int ssh_fallback_cmd(void *handle)
6642 {
6643 Ssh ssh = (Ssh) handle;
6644 return ssh->fallback_cmd;
6645 }
6646
6647 Backend ssh_backend = {
6648 ssh_init,
6649 ssh_free,
6650 ssh_reconfig,
6651 ssh_send,
6652 ssh_sendbuffer,
6653 ssh_size,
6654 ssh_special,
6655 ssh_get_specials,
6656 ssh_socket,
6657 ssh_return_exitcode,
6658 ssh_sendok,
6659 ssh_ldisc,
6660 ssh_provide_ldisc,
6661 ssh_provide_logctx,
6662 ssh_unthrottle,
6663 22
6664 };