xref: /titanic_51/usr/src/uts/common/fs/smbsrv/smb_session.c (revision 24fe0b3bf671e123467ce1df0b67cadd3614c8e4)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License (the "License").
6  * You may not use this file except in compliance with the License.
7  *
8  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9  * or http://www.opensolaris.org/os/licensing.
10  * See the License for the specific language governing permissions
11  * and limitations under the License.
12  *
13  * When distributing Covered Code, include this CDDL HEADER in each
14  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15  * If applicable, add the following below this CDDL HEADER, with the
16  * fields enclosed by brackets "[]" replaced with your own identifying
17  * information: Portions Copyright [yyyy] [name of copyright owner]
18  *
19  * CDDL HEADER END
20  */
21 /*
22  * Copyright 2009 Sun Microsystems, Inc.  All rights reserved.
23  * Use is subject to license terms.
24  */
25 
26 #include <sys/atomic.h>
27 #include <sys/strsubr.h>
28 #include <sys/synch.h>
29 #include <sys/types.h>
30 #include <sys/socketvar.h>
31 #include <sys/sdt.h>
32 #include <smbsrv/netbios.h>
33 #include <smbsrv/smb_incl.h>
34 #include <smbsrv/smb_i18n.h>
35 #include <inet/tcp.h>
36 
37 static volatile uint64_t smb_kids;
38 
39 uint32_t smb_keep_alive = SSN_KEEP_ALIVE_TIMEOUT;
40 
41 static void smb_session_cancel(smb_session_t *);
42 static int smb_session_message(smb_session_t *);
43 static int smb_session_xprt_puthdr(smb_session_t *, smb_xprt_t *,
44     uint8_t *, size_t);
45 static smb_user_t *smb_session_lookup_user(smb_session_t *, char *, char *);
46 static void smb_request_init_command_mbuf(smb_request_t *sr);
47 void dump_smb_inaddr(smb_inaddr_t *ipaddr);
48 
49 void
50 smb_session_timers(smb_session_list_t *se)
51 {
52 	smb_session_t	*session;
53 
54 	rw_enter(&se->se_lock, RW_READER);
55 	session = list_head(&se->se_act.lst);
56 	while (session) {
57 		/*
58 		 * Walk through the table and decrement each keep_alive
59 		 * timer that has not timed out yet. (keepalive > 0)
60 		 */
61 		ASSERT(session->s_magic == SMB_SESSION_MAGIC);
62 		if (session->keep_alive &&
63 		    (session->keep_alive != (uint32_t)-1))
64 			session->keep_alive--;
65 		session = list_next(&se->se_act.lst, session);
66 	}
67 	rw_exit(&se->se_lock);
68 }
69 
70 void
71 smb_session_correct_keep_alive_values(
72     smb_session_list_t	*se,
73     uint32_t		new_keep_alive)
74 {
75 	smb_session_t		*sn;
76 
77 	if (new_keep_alive == smb_keep_alive)
78 		return;
79 	/*
80 	 * keep alive == 0 means do not drop connection if it's idle
81 	 */
82 	smb_keep_alive = (new_keep_alive) ? new_keep_alive : -1;
83 
84 	/*
85 	 * Walk through the table and set each session to the new keep_alive
86 	 * value if they have not already timed out.  Block clock interrupts.
87 	 */
88 	rw_enter(&se->se_lock, RW_READER);
89 	sn = list_head(&se->se_rdy.lst);
90 	while (sn) {
91 		ASSERT(sn->s_magic == SMB_SESSION_MAGIC);
92 		sn->keep_alive = new_keep_alive;
93 		sn = list_next(&se->se_rdy.lst, sn);
94 	}
95 	sn = list_head(&se->se_act.lst);
96 	while (sn) {
97 		ASSERT(sn->s_magic == SMB_SESSION_MAGIC);
98 		if (sn->keep_alive)
99 			sn->keep_alive = new_keep_alive;
100 		sn = list_next(&se->se_act.lst, sn);
101 	}
102 	rw_exit(&se->se_lock);
103 }
104 
105 /*
106  * smb_reconnection_check
107  *
108  * This function is called when a client indicates its current connection
109  * should be the only one it has with the server, as indicated by VC=0 in
110  * a SessionSetupX request. We go through the session list and destroy any
111  * stale connections for that client.
112  *
113  * Clients don't associate IP addresses and servers. So a client may make
114  * independent connections (i.e. with VC=0) to a server with multiple
115  * IP addresses. So, when checking for a reconnection, we need to include
116  * the local IP address, to which the client is connecting, when checking
117  * for stale sessions.
118  *
119  * Also check the server's NetBIOS name to support simultaneous access by
120  * multiple clients behind a NAT server.  This will only work for SMB over
121  * NetBIOS on TCP port 139, it will not work SMB over TCP port 445 because
122  * there is no NetBIOS name.  See also Knowledge Base article Q301673.
123  */
124 void
125 smb_session_reconnection_check(smb_session_list_t *se, smb_session_t *sess)
126 {
127 	smb_session_t	*sn;
128 
129 	rw_enter(&se->se_lock, RW_READER);
130 	sn = list_head(&se->se_act.lst);
131 	while (sn) {
132 		ASSERT(sn->s_magic == SMB_SESSION_MAGIC);
133 		if ((sn != sess) &&
134 		    smb_inet_equal(&sn->ipaddr, &sess->ipaddr) &&
135 		    smb_inet_equal(&sn->local_ipaddr, &sess->local_ipaddr) &&
136 		    (strcasecmp(sn->workstation, sess->workstation) == 0) &&
137 		    (sn->opentime <= sess->opentime) &&
138 		    (sn->s_kid < sess->s_kid)) {
139 			tsignal(sn->s_thread, SIGUSR1);
140 		}
141 		sn = list_next(&se->se_act.lst, sn);
142 	}
143 	rw_exit(&se->se_lock);
144 }
145 
146 /*
147  * Send a session message - supports SMB-over-NBT and SMB-over-TCP.
148  *
149  * The mbuf chain is copied into a contiguous buffer so that the whole
150  * message is submitted to smb_sosend as a single request.  This should
151  * help Ethereal/Wireshark delineate the packets correctly even though
152  * TCP_NODELAY has been set on the socket.
153  *
154  * If an mbuf chain is provided, it will be freed and set to NULL here.
155  */
156 int
157 smb_session_send(smb_session_t *session, uint8_t type, mbuf_chain_t *mbc)
158 {
159 	smb_txreq_t	*txr;
160 	smb_xprt_t	hdr;
161 	int		rc;
162 
163 	switch (session->s_state) {
164 	case SMB_SESSION_STATE_DISCONNECTED:
165 	case SMB_SESSION_STATE_TERMINATED:
166 		if ((mbc != NULL) && (mbc->chain != NULL)) {
167 			m_freem(mbc->chain);
168 			mbc->chain = NULL;
169 			mbc->flags = 0;
170 		}
171 		return (ENOTCONN);
172 	default:
173 		break;
174 	}
175 
176 	txr = smb_net_txr_alloc();
177 
178 	if ((mbc != NULL) && (mbc->chain != NULL)) {
179 		rc = mbc_moveout(mbc, (caddr_t)&txr->tr_buf[NETBIOS_HDR_SZ],
180 		    sizeof (txr->tr_buf) - NETBIOS_HDR_SZ, &txr->tr_len);
181 		if (rc != 0) {
182 			smb_net_txr_free(txr);
183 			return (rc);
184 		}
185 	}
186 
187 	hdr.xh_type = type;
188 	hdr.xh_length = (uint32_t)txr->tr_len;
189 
190 	rc = smb_session_xprt_puthdr(session, &hdr, txr->tr_buf,
191 	    NETBIOS_HDR_SZ);
192 
193 	if (rc != 0) {
194 		smb_net_txr_free(txr);
195 		return (rc);
196 	}
197 	txr->tr_len += NETBIOS_HDR_SZ;
198 	return (smb_net_txr_send(session->sock, &session->s_txlst, txr));
199 }
200 
201 /*
202  * Read, process and respond to a NetBIOS session request.
203  *
204  * A NetBIOS session must be established for SMB-over-NetBIOS.  Validate
205  * the calling and called name format and save the client NetBIOS name,
206  * which is used when a NetBIOS session is established to check for and
207  * cleanup leftover state from a previous session.
208  *
209  * Session requests are not valid for SMB-over-TCP, which is unfortunate
210  * because without the client name leftover state cannot be cleaned up
211  * if the client is behind a NAT server.
212  */
213 static int
214 smb_session_request(struct smb_session *session)
215 {
216 	int			rc;
217 	char			*calling_name;
218 	char			*called_name;
219 	char 			client_name[NETBIOS_NAME_SZ];
220 	struct mbuf_chain 	mbc;
221 	char 			*names = NULL;
222 	mts_wchar_t		*wbuf = NULL;
223 	smb_xprt_t		hdr;
224 	char *p;
225 	unsigned int cpid = oem_get_smb_cpid();
226 	int rc1, rc2;
227 
228 	session->keep_alive = smb_keep_alive;
229 
230 	if ((rc = smb_session_xprt_gethdr(session, &hdr)) != 0)
231 		return (rc);
232 
233 	DTRACE_PROBE2(receive__session__req__xprthdr, struct session *, session,
234 	    smb_xprt_t *, &hdr);
235 
236 	if ((hdr.xh_type != SESSION_REQUEST) ||
237 	    (hdr.xh_length != NETBIOS_SESSION_REQUEST_DATA_LENGTH)) {
238 		DTRACE_PROBE1(receive__session__req__failed,
239 		    struct session *, session);
240 		return (EINVAL);
241 	}
242 
243 	names = kmem_alloc(hdr.xh_length, KM_SLEEP);
244 
245 	if ((rc = smb_sorecv(session->sock, names, hdr.xh_length)) != 0) {
246 		kmem_free(names, hdr.xh_length);
247 		DTRACE_PROBE1(receive__session__req__failed,
248 		    struct session *, session);
249 		return (rc);
250 	}
251 
252 	DTRACE_PROBE3(receive__session__req__data, struct session *, session,
253 	    char *, names, uint32_t, hdr.xh_length);
254 
255 	called_name = &names[0];
256 	calling_name = &names[NETBIOS_ENCODED_NAME_SZ + 2];
257 
258 	rc1 = netbios_name_isvalid(called_name, 0);
259 	rc2 = netbios_name_isvalid(calling_name, client_name);
260 
261 	if (rc1 == 0 || rc2 == 0) {
262 
263 		DTRACE_PROBE3(receive__invalid__session__req,
264 		    struct session *, session, char *, names,
265 		    uint32_t, hdr.xh_length);
266 
267 		kmem_free(names, hdr.xh_length);
268 		MBC_INIT(&mbc, MAX_DATAGRAM_LENGTH);
269 		(void) smb_mbc_encodef(&mbc, "b",
270 		    DATAGRAM_INVALID_SOURCE_NAME_FORMAT);
271 		(void) smb_session_send(session, NEGATIVE_SESSION_RESPONSE,
272 		    &mbc);
273 		return (EINVAL);
274 	}
275 
276 	DTRACE_PROBE3(receive__session__req__calling__decoded,
277 	    struct session *, session,
278 	    char *, calling_name, char *, client_name);
279 
280 	/*
281 	 * The client NetBIOS name is in oem codepage format.
282 	 * We need to convert it to unicode and store it in
283 	 * multi-byte format.  We also need to strip off any
284 	 * spaces added as part of the NetBIOS name encoding.
285 	 */
286 	wbuf = kmem_alloc((SMB_PI_MAX_HOST * sizeof (mts_wchar_t)), KM_SLEEP);
287 	(void) oemstounicodes(wbuf, client_name, SMB_PI_MAX_HOST, cpid);
288 	(void) mts_wcstombs(session->workstation, wbuf, SMB_PI_MAX_HOST);
289 	kmem_free(wbuf, (SMB_PI_MAX_HOST * sizeof (mts_wchar_t)));
290 
291 	if ((p = strchr(session->workstation, ' ')) != 0)
292 		*p = '\0';
293 
294 	kmem_free(names, hdr.xh_length);
295 	return (smb_session_send(session, POSITIVE_SESSION_RESPONSE, NULL));
296 }
297 
298 /*
299  * Read 4-byte header from the session socket and build an in-memory
300  * session transport header.  See smb_xprt_t definition for header
301  * format information.
302  *
303  * Direct hosted NetBIOS-less SMB (SMB-over-TCP) uses port 445.  The
304  * first byte of the four-byte header must be 0 and the next three
305  * bytes contain the length of the remaining data.
306  */
307 int
308 smb_session_xprt_gethdr(smb_session_t *session, smb_xprt_t *ret_hdr)
309 {
310 	int		rc;
311 	unsigned char	buf[NETBIOS_HDR_SZ];
312 
313 	if ((rc = smb_sorecv(session->sock, buf, NETBIOS_HDR_SZ)) != 0)
314 		return (rc);
315 
316 	switch (session->s_local_port) {
317 	case SSN_SRVC_TCP_PORT:
318 		ret_hdr->xh_type = buf[0];
319 		ret_hdr->xh_length = (((uint32_t)buf[1] & 1) << 16) |
320 		    ((uint32_t)buf[2] << 8) |
321 		    ((uint32_t)buf[3]);
322 		break;
323 
324 	case SMB_SRVC_TCP_PORT:
325 		ret_hdr->xh_type = buf[0];
326 
327 		if (ret_hdr->xh_type != 0) {
328 			cmn_err(CE_WARN, "invalid type (%u)", ret_hdr->xh_type);
329 			dump_smb_inaddr(&session->ipaddr);
330 			return (EPROTO);
331 		}
332 
333 		ret_hdr->xh_length = ((uint32_t)buf[1] << 16) |
334 		    ((uint32_t)buf[2] << 8) |
335 		    ((uint32_t)buf[3]);
336 		break;
337 
338 	default:
339 		cmn_err(CE_WARN, "invalid port %u", session->s_local_port);
340 		dump_smb_inaddr(&session->ipaddr);
341 		return (EPROTO);
342 	}
343 
344 	return (0);
345 }
346 
347 /*
348  * Encode a transport session packet header into a 4-byte buffer.
349  * See smb_xprt_t definition for header format information.
350  */
351 static int
352 smb_session_xprt_puthdr(smb_session_t *session, smb_xprt_t *hdr,
353     uint8_t *buf, size_t buflen)
354 {
355 	if (session == NULL || hdr == NULL ||
356 	    buf == NULL || buflen < NETBIOS_HDR_SZ) {
357 		return (-1);
358 	}
359 
360 	switch (session->s_local_port) {
361 	case SSN_SRVC_TCP_PORT:
362 		buf[0] = hdr->xh_type;
363 		buf[1] = ((hdr->xh_length >> 16) & 1);
364 		buf[2] = (hdr->xh_length >> 8) & 0xff;
365 		buf[3] = hdr->xh_length & 0xff;
366 		break;
367 
368 	case SMB_SRVC_TCP_PORT:
369 		buf[0] = hdr->xh_type;
370 		buf[1] = (hdr->xh_length >> 16) & 0xff;
371 		buf[2] = (hdr->xh_length >> 8) & 0xff;
372 		buf[3] = hdr->xh_length & 0xff;
373 		break;
374 
375 	default:
376 		cmn_err(CE_WARN, "invalid port %u", session->s_local_port);
377 		dump_smb_inaddr(&session->ipaddr);
378 		return (-1);
379 	}
380 
381 	return (0);
382 }
383 
384 static void
385 smb_request_init_command_mbuf(smb_request_t *sr)
386 {
387 	MGET(sr->command.chain, 0, MT_DATA);
388 
389 	/*
390 	 * Setup mbuf, mimic MCLGET but use the complete packet buffer.
391 	 */
392 	sr->command.chain->m_ext.ext_buf = sr->sr_request_buf;
393 	sr->command.chain->m_data = sr->command.chain->m_ext.ext_buf;
394 	sr->command.chain->m_len = sr->sr_req_length;
395 	sr->command.chain->m_flags |= M_EXT;
396 	sr->command.chain->m_ext.ext_size = sr->sr_req_length;
397 	sr->command.chain->m_ext.ext_ref = &mclrefnoop;
398 
399 	/*
400 	 * Initialize the rest of the mbuf_chain fields
401 	 */
402 	sr->command.flags = 0;
403 	sr->command.shadow_of = 0;
404 	sr->command.max_bytes = sr->sr_req_length;
405 	sr->command.chain_offset = 0;
406 }
407 
408 /*
409  * smb_request_cancel
410  *
411  * Handle a cancel for a request properly depending on the current request
412  * state.
413  */
414 void
415 smb_request_cancel(smb_request_t *sr)
416 {
417 	mutex_enter(&sr->sr_mutex);
418 	switch (sr->sr_state) {
419 
420 	case SMB_REQ_STATE_SUBMITTED:
421 	case SMB_REQ_STATE_ACTIVE:
422 	case SMB_REQ_STATE_CLEANED_UP:
423 		sr->sr_state = SMB_REQ_STATE_CANCELED;
424 		break;
425 
426 	case SMB_REQ_STATE_WAITING_LOCK:
427 		/*
428 		 * This request is waiting on a lock.  Wakeup everything
429 		 * waiting on the lock so that the relevant thread regains
430 		 * control and notices that is has been canceled.  The
431 		 * other lock request threads waiting on this lock will go
432 		 * back to sleep when they discover they are still blocked.
433 		 */
434 		sr->sr_state = SMB_REQ_STATE_CANCELED;
435 
436 		ASSERT(sr->sr_awaiting != NULL);
437 		mutex_enter(&sr->sr_awaiting->l_mutex);
438 		cv_broadcast(&sr->sr_awaiting->l_cv);
439 		mutex_exit(&sr->sr_awaiting->l_mutex);
440 		break;
441 
442 	case SMB_REQ_STATE_WAITING_EVENT:
443 	case SMB_REQ_STATE_EVENT_OCCURRED:
444 		/*
445 		 * Cancellations for these states are handled by the
446 		 * notify-change code
447 		 */
448 		break;
449 
450 	case SMB_REQ_STATE_COMPLETED:
451 	case SMB_REQ_STATE_CANCELED:
452 		/*
453 		 * No action required for these states since the request
454 		 * is completing.
455 		 */
456 		break;
457 	/*
458 	 * Cases included:
459 	 *	SMB_REQ_STATE_FREE:
460 	 *	SMB_REQ_STATE_INITIALIZING:
461 	 */
462 	default:
463 		SMB_PANIC();
464 	}
465 	mutex_exit(&sr->sr_mutex);
466 }
467 
468 /*
469  * This is the entry point for processing SMB messages over NetBIOS or
470  * SMB-over-TCP.
471  *
472  * NetBIOS connections require a session request to establish a session
473  * on which to send session messages.
474  *
475  * Session requests are not valid on SMB-over-TCP.  We don't need to do
476  * anything here as session requests will be treated as an error when
477  * handling session messages.
478  */
479 int
480 smb_session_daemon(smb_session_list_t *se)
481 {
482 	int		rc = 0;
483 	smb_session_t	*session;
484 
485 	session = smb_session_list_activate_head(se);
486 	if (session == NULL)
487 		return (EINVAL);
488 
489 	if (session->s_local_port == SSN_SRVC_TCP_PORT) {
490 		rc = smb_session_request(session);
491 		if (rc) {
492 			smb_rwx_rwenter(&session->s_lock, RW_WRITER);
493 			session->s_state = SMB_SESSION_STATE_DISCONNECTED;
494 			smb_rwx_rwexit(&session->s_lock);
495 			smb_session_list_terminate(se, session);
496 			return (rc);
497 		}
498 	}
499 
500 	smb_rwx_rwenter(&session->s_lock, RW_WRITER);
501 	session->s_state = SMB_SESSION_STATE_ESTABLISHED;
502 	smb_rwx_rwexit(&session->s_lock);
503 
504 	rc = smb_session_message(session);
505 
506 	smb_rwx_rwenter(&session->s_lock, RW_WRITER);
507 	session->s_state = SMB_SESSION_STATE_DISCONNECTED;
508 	smb_rwx_rwexit(&session->s_lock);
509 
510 	smb_soshutdown(session->sock);
511 
512 	DTRACE_PROBE2(session__drop, struct session *, session, int, rc);
513 
514 	smb_session_cancel(session);
515 
516 	/*
517 	 * At this point everything related to the session should have been
518 	 * cleaned up and we expect that nothing will attempt to use the
519 	 * socket.
520 	 */
521 	smb_session_list_terminate(se, session);
522 
523 	return (rc);
524 }
525 
526 /*
527  * Read and process SMB requests.
528  *
529  * Returns:
530  *	0	Success
531  *	1	Unable to read transport header
532  *	2	Invalid transport header type
533  *	3	Invalid SMB length (too small)
534  *	4	Unable to read SMB header
535  *	5	Invalid SMB header (bad magic number)
536  *	6	Unable to read SMB data
537  *	2x	Write raw failed
538  */
539 static int
540 smb_session_message(smb_session_t *session)
541 {
542 	smb_request_t	*sr = NULL;
543 	smb_xprt_t	hdr;
544 	uint8_t		*req_buf;
545 	uint32_t	resid;
546 	int		rc;
547 
548 	for (;;) {
549 
550 		rc = smb_session_xprt_gethdr(session, &hdr);
551 		if (rc)
552 			return (rc);
553 
554 		DTRACE_PROBE2(session__receive__xprthdr, session_t *, session,
555 		    smb_xprt_t *, &hdr);
556 
557 		if (hdr.xh_type != SESSION_MESSAGE) {
558 			/*
559 			 * Anything other than SESSION_MESSAGE or
560 			 * SESSION_KEEP_ALIVE is an error.  A SESSION_REQUEST
561 			 * may indicate a new session request but we need to
562 			 * close this session and we can treat it as an error
563 			 * here.
564 			 */
565 			if (hdr.xh_type == SESSION_KEEP_ALIVE) {
566 				session->keep_alive = smb_keep_alive;
567 				continue;
568 			}
569 			return (EPROTO);
570 		}
571 
572 		if (hdr.xh_length < SMB_HEADER_LEN)
573 			return (EPROTO);
574 
575 		session->keep_alive = smb_keep_alive;
576 
577 		/*
578 		 * Allocate a request context, read the SMB header and validate
579 		 * it. The sr includes a buffer large enough to hold the SMB
580 		 * request payload.  If the header looks valid, read any
581 		 * remaining data.
582 		 */
583 		sr = smb_request_alloc(session, hdr.xh_length);
584 
585 		req_buf = (uint8_t *)sr->sr_request_buf;
586 		resid = hdr.xh_length;
587 
588 		rc = smb_sorecv(session->sock, req_buf, SMB_HEADER_LEN);
589 		if (rc) {
590 			smb_request_free(sr);
591 			return (rc);
592 		}
593 
594 		if (SMB_PROTOCOL_MAGIC_INVALID(sr)) {
595 			smb_request_free(sr);
596 			return (EPROTO);
597 		}
598 
599 		if (resid > SMB_HEADER_LEN) {
600 			req_buf += SMB_HEADER_LEN;
601 			resid -= SMB_HEADER_LEN;
602 
603 			rc = smb_sorecv(session->sock, req_buf, resid);
604 			if (rc) {
605 				smb_request_free(sr);
606 				return (rc);
607 			}
608 		}
609 
610 		/*
611 		 * Initialize command MBC to represent the received data.
612 		 */
613 		smb_request_init_command_mbuf(sr);
614 
615 		DTRACE_PROBE1(session__receive__smb, smb_request_t *, sr);
616 
617 		/*
618 		 * If this is a raw write, hand off the request.  The handler
619 		 * will retrieve the remaining raw data and process the request.
620 		 */
621 		if (SMB_IS_WRITERAW(sr)) {
622 			rc = smb_handle_write_raw(session, sr);
623 			/* XXX smb_request_free(sr); ??? */
624 			return (rc);
625 		}
626 
627 		sr->sr_state = SMB_REQ_STATE_SUBMITTED;
628 		(void) taskq_dispatch(session->s_server->sv_thread_pool,
629 		    smb_session_worker, sr, TQ_SLEEP);
630 	}
631 }
632 
633 /*
634  * Port will be SSN_SRVC_TCP_PORT or SMB_SRVC_TCP_PORT.
635  */
636 smb_session_t *
637 smb_session_create(ksocket_t new_so, uint16_t port, smb_server_t *sv,
638     int family)
639 {
640 	struct sockaddr_in	sin;
641 	socklen_t		slen;
642 	struct sockaddr_in6	sin6;
643 	smb_session_t		*session;
644 
645 	session = kmem_cache_alloc(sv->si_cache_session, KM_SLEEP);
646 	bzero(session, sizeof (smb_session_t));
647 
648 	if (smb_idpool_constructor(&session->s_uid_pool)) {
649 		kmem_cache_free(sv->si_cache_session, session);
650 		return (NULL);
651 	}
652 
653 	session->s_kid = SMB_NEW_KID();
654 	session->s_state = SMB_SESSION_STATE_INITIALIZED;
655 	session->native_os = NATIVE_OS_UNKNOWN;
656 	session->opentime = lbolt64;
657 	session->keep_alive = smb_keep_alive;
658 	session->activity_timestamp = lbolt64;
659 
660 	smb_slist_constructor(&session->s_req_list, sizeof (smb_request_t),
661 	    offsetof(smb_request_t, sr_session_lnd));
662 
663 	smb_llist_constructor(&session->s_user_list, sizeof (smb_user_t),
664 	    offsetof(smb_user_t, u_lnd));
665 
666 	smb_llist_constructor(&session->s_xa_list, sizeof (smb_xa_t),
667 	    offsetof(smb_xa_t, xa_lnd));
668 
669 	list_create(&session->s_oplock_brkreqs, sizeof (mbuf_chain_t),
670 	    offsetof(mbuf_chain_t, mbc_lnd));
671 
672 	smb_net_txl_constructor(&session->s_txlst);
673 
674 	smb_rwx_init(&session->s_lock);
675 
676 	if (new_so) {
677 		if (family == AF_INET) {
678 			slen = sizeof (sin);
679 			(void) ksocket_getsockname(new_so,
680 			    (struct sockaddr *)&sin, &slen, CRED());
681 			bcopy(&sin.sin_addr,
682 			    &session->local_ipaddr.au_addr.au_ipv4,
683 			    sizeof (in_addr_t));
684 			slen = sizeof (sin);
685 			(void) ksocket_getpeername(new_so,
686 			    (struct sockaddr *)&sin, &slen, CRED());
687 			bcopy(&sin.sin_addr,
688 			    &session->ipaddr.au_addr.au_ipv4,
689 			    sizeof (in_addr_t));
690 		} else {
691 			slen = sizeof (sin6);
692 			(void) ksocket_getsockname(new_so,
693 			    (struct sockaddr *)&sin6, &slen, CRED());
694 			bcopy(&sin6.sin6_addr,
695 			    &session->local_ipaddr.au_addr.au_ipv6,
696 			    sizeof (in6_addr_t));
697 			slen = sizeof (sin6);
698 			(void) ksocket_getpeername(new_so,
699 			    (struct sockaddr *)&sin6, &slen, CRED());
700 			bcopy(&sin6.sin6_addr,
701 			    &session->ipaddr.au_addr.au_ipv6,
702 			    sizeof (in6_addr_t));
703 		}
704 		session->ipaddr.a_family = family;
705 		session->local_ipaddr.a_family = family;
706 		session->s_local_port = port;
707 		session->sock = new_so;
708 	}
709 
710 	session->s_server = sv;
711 	smb_server_get_cfg(sv, &session->s_cfg);
712 	session->s_cache_request = sv->si_cache_request;
713 	session->s_cache = sv->si_cache_session;
714 	session->s_magic = SMB_SESSION_MAGIC;
715 	return (session);
716 }
717 
718 void
719 smb_session_delete(smb_session_t *session)
720 {
721 	mbuf_chain_t	*mbc;
722 
723 	ASSERT(session->s_magic == SMB_SESSION_MAGIC);
724 
725 	session->s_magic = 0;
726 
727 	smb_rwx_destroy(&session->s_lock);
728 	smb_net_txl_destructor(&session->s_txlst);
729 
730 	while ((mbc = list_head(&session->s_oplock_brkreqs)) != NULL) {
731 		SMB_MBC_VALID(mbc);
732 		list_remove(&session->s_oplock_brkreqs, mbc);
733 		smb_mbc_free(mbc);
734 	}
735 	list_destroy(&session->s_oplock_brkreqs);
736 
737 	smb_slist_destructor(&session->s_req_list);
738 	smb_llist_destructor(&session->s_user_list);
739 	smb_llist_destructor(&session->s_xa_list);
740 
741 	ASSERT(session->s_tree_cnt == 0);
742 	ASSERT(session->s_file_cnt == 0);
743 	ASSERT(session->s_dir_cnt == 0);
744 
745 	smb_idpool_destructor(&session->s_uid_pool);
746 	kmem_cache_free(session->s_cache, session);
747 }
748 
749 static void
750 smb_session_cancel(smb_session_t *session)
751 {
752 	smb_xa_t	*xa, *nextxa;
753 
754 	/* All the request currently being treated must be canceled. */
755 	smb_session_cancel_requests(session, NULL, NULL);
756 
757 	/*
758 	 * We wait for the completion of all the requests associated with
759 	 * this session.
760 	 */
761 	smb_slist_wait_for_empty(&session->s_req_list);
762 
763 	/*
764 	 * At this point the reference count of the users, trees, files,
765 	 * directories should be zero. It should be possible to destroy them
766 	 * without any problem.
767 	 */
768 	xa = smb_llist_head(&session->s_xa_list);
769 	while (xa) {
770 		nextxa = smb_llist_next(&session->s_xa_list, xa);
771 		smb_xa_close(xa);
772 		xa = nextxa;
773 	}
774 	smb_user_logoff_all(session);
775 }
776 
777 /*
778  * Cancel requests.  If a non-null tree is specified, only requests specific
779  * to that tree will be cancelled.  If a non-null sr is specified, that sr
780  * will be not be cancelled - this would typically be the caller's sr.
781  */
782 void
783 smb_session_cancel_requests(
784     smb_session_t	*session,
785     smb_tree_t		*tree,
786     smb_request_t	*exclude_sr)
787 {
788 	smb_request_t	*sr;
789 
790 	smb_process_session_notify_change_queue(session, tree);
791 
792 	smb_slist_enter(&session->s_req_list);
793 	sr = smb_slist_head(&session->s_req_list);
794 
795 	while (sr) {
796 		ASSERT(sr->sr_magic == SMB_REQ_MAGIC);
797 		if ((sr != exclude_sr) &&
798 		    (tree == NULL || sr->tid_tree == tree))
799 			smb_request_cancel(sr);
800 
801 		sr = smb_slist_next(&session->s_req_list, sr);
802 	}
803 
804 	smb_slist_exit(&session->s_req_list);
805 }
806 
807 void
808 smb_session_worker(void	*arg)
809 {
810 	smb_request_t	*sr;
811 
812 	sr = (smb_request_t *)arg;
813 
814 	ASSERT(sr->sr_magic == SMB_REQ_MAGIC);
815 
816 	sr->sr_worker = curthread;
817 	mutex_enter(&sr->sr_mutex);
818 	switch (sr->sr_state) {
819 	case SMB_REQ_STATE_SUBMITTED:
820 		mutex_exit(&sr->sr_mutex);
821 		if (smb_dispatch_request(sr)) {
822 			mutex_enter(&sr->sr_mutex);
823 			sr->sr_state = SMB_REQ_STATE_COMPLETED;
824 			mutex_exit(&sr->sr_mutex);
825 			smb_request_free(sr);
826 		}
827 		break;
828 
829 	default:
830 		ASSERT(sr->sr_state == SMB_REQ_STATE_CANCELED);
831 		sr->sr_state = SMB_REQ_STATE_COMPLETED;
832 		mutex_exit(&sr->sr_mutex);
833 		smb_request_free(sr);
834 		break;
835 	}
836 }
837 
838 /*
839  * smb_session_disconnect_share
840  *
841  * Disconnects the specified share. This function should be called after the
842  * share passed in has been made unavailable by the "share manager".
843  */
844 void
845 smb_session_disconnect_share(smb_session_list_t *se, char *sharename)
846 {
847 	smb_session_t	*session;
848 
849 	rw_enter(&se->se_lock, RW_READER);
850 	session = list_head(&se->se_act.lst);
851 	while (session) {
852 		ASSERT(session->s_magic == SMB_SESSION_MAGIC);
853 		smb_rwx_rwenter(&session->s_lock, RW_READER);
854 		switch (session->s_state) {
855 		case SMB_SESSION_STATE_NEGOTIATED:
856 		case SMB_SESSION_STATE_OPLOCK_BREAKING:
857 		case SMB_SESSION_STATE_WRITE_RAW_ACTIVE: {
858 			smb_user_t	*user;
859 			smb_user_t	*next;
860 
861 			user = smb_user_lookup_by_state(session, NULL);
862 			while (user) {
863 				smb_user_disconnect_share(user, sharename);
864 				next = smb_user_lookup_by_state(session, user);
865 				smb_user_release(user);
866 				user = next;
867 			}
868 			break;
869 
870 		}
871 		default:
872 			break;
873 		}
874 		smb_rwx_rwexit(&session->s_lock);
875 		session = list_next(&se->se_act.lst, session);
876 	}
877 	rw_exit(&se->se_lock);
878 }
879 
880 void
881 smb_session_list_constructor(smb_session_list_t *se)
882 {
883 	bzero(se, sizeof (*se));
884 	rw_init(&se->se_lock, NULL, RW_DEFAULT, NULL);
885 	list_create(&se->se_rdy.lst, sizeof (smb_session_t),
886 	    offsetof(smb_session_t, s_lnd));
887 	list_create(&se->se_act.lst, sizeof (smb_session_t),
888 	    offsetof(smb_session_t, s_lnd));
889 }
890 
891 void
892 smb_session_list_destructor(smb_session_list_t *se)
893 {
894 	list_destroy(&se->se_rdy.lst);
895 	list_destroy(&se->se_act.lst);
896 	rw_destroy(&se->se_lock);
897 }
898 
899 void
900 smb_session_list_append(smb_session_list_t *se, smb_session_t *session)
901 {
902 	ASSERT(session->s_magic == SMB_SESSION_MAGIC);
903 	ASSERT(session->s_state == SMB_SESSION_STATE_INITIALIZED);
904 
905 	rw_enter(&se->se_lock, RW_WRITER);
906 	list_insert_tail(&se->se_rdy.lst, session);
907 	se->se_rdy.count++;
908 	se->se_wrop++;
909 	rw_exit(&se->se_lock);
910 }
911 
912 void
913 smb_session_list_delete_tail(smb_session_list_t *se)
914 {
915 	smb_session_t	*session;
916 
917 	rw_enter(&se->se_lock, RW_WRITER);
918 	session = list_tail(&se->se_rdy.lst);
919 	if (session) {
920 		ASSERT(session->s_magic == SMB_SESSION_MAGIC);
921 		ASSERT(session->s_state == SMB_SESSION_STATE_INITIALIZED);
922 		list_remove(&se->se_rdy.lst, session);
923 		ASSERT(se->se_rdy.count);
924 		se->se_rdy.count--;
925 		rw_exit(&se->se_lock);
926 		smb_session_delete(session);
927 		return;
928 	}
929 	rw_exit(&se->se_lock);
930 }
931 
932 smb_session_t *
933 smb_session_list_activate_head(smb_session_list_t *se)
934 {
935 	smb_session_t	*session;
936 
937 	rw_enter(&se->se_lock, RW_WRITER);
938 	session = list_head(&se->se_rdy.lst);
939 	if (session) {
940 		ASSERT(session->s_magic == SMB_SESSION_MAGIC);
941 		smb_rwx_rwenter(&session->s_lock, RW_WRITER);
942 		ASSERT(session->s_state == SMB_SESSION_STATE_INITIALIZED);
943 		session->s_thread = curthread;
944 		session->s_ktdid = session->s_thread->t_did;
945 		smb_rwx_rwexit(&session->s_lock);
946 		list_remove(&se->se_rdy.lst, session);
947 		se->se_rdy.count--;
948 		list_insert_tail(&se->se_act.lst, session);
949 		se->se_act.count++;
950 		se->se_wrop++;
951 	}
952 	rw_exit(&se->se_lock);
953 	return (session);
954 }
955 
956 void
957 smb_session_list_terminate(smb_session_list_t *se, smb_session_t *session)
958 {
959 	ASSERT(session->s_magic == SMB_SESSION_MAGIC);
960 
961 	rw_enter(&se->se_lock, RW_WRITER);
962 
963 	smb_rwx_rwenter(&session->s_lock, RW_WRITER);
964 	ASSERT(session->s_state == SMB_SESSION_STATE_DISCONNECTED);
965 	session->s_state = SMB_SESSION_STATE_TERMINATED;
966 	smb_sodestroy(session->sock);
967 	session->sock = NULL;
968 	smb_rwx_rwexit(&session->s_lock);
969 
970 	list_remove(&se->se_act.lst, session);
971 	se->se_act.count--;
972 	se->se_wrop++;
973 
974 	ASSERT(session->s_thread == curthread);
975 
976 	rw_exit(&se->se_lock);
977 
978 	smb_session_delete(session);
979 }
980 
981 /*
982  * smb_session_list_signal
983  *
984  * This function signals all the session threads. The intent is to terminate
985  * them. The sessions still in the SMB_SESSION_STATE_INITIALIZED are delete
986  * immediately.
987  *
988  * This function must only be called by the threads listening and accepting
989  * connections. They must pass in their respective session list.
990  */
991 void
992 smb_session_list_signal(smb_session_list_t *se)
993 {
994 	smb_session_t	*session;
995 
996 	rw_enter(&se->se_lock, RW_WRITER);
997 	while (session = list_head(&se->se_rdy.lst)) {
998 
999 		ASSERT(session->s_magic == SMB_SESSION_MAGIC);
1000 
1001 		smb_rwx_rwenter(&session->s_lock, RW_WRITER);
1002 		ASSERT(session->s_state == SMB_SESSION_STATE_INITIALIZED);
1003 		session->s_state = SMB_SESSION_STATE_TERMINATED;
1004 		smb_sodestroy(session->sock);
1005 		session->sock = NULL;
1006 		smb_rwx_rwexit(&session->s_lock);
1007 
1008 		list_remove(&se->se_rdy.lst, session);
1009 		se->se_rdy.count--;
1010 		se->se_wrop++;
1011 
1012 		rw_exit(&se->se_lock);
1013 		smb_session_delete(session);
1014 		rw_enter(&se->se_lock, RW_WRITER);
1015 	}
1016 	rw_downgrade(&se->se_lock);
1017 
1018 	session = list_head(&se->se_act.lst);
1019 	while (session) {
1020 
1021 		ASSERT(session->s_magic == SMB_SESSION_MAGIC);
1022 		tsignal(session->s_thread, SIGUSR1);
1023 		session = list_next(&se->se_act.lst, session);
1024 	}
1025 	rw_exit(&se->se_lock);
1026 }
1027 
1028 /*
1029  * smb_session_lookup_user
1030  */
1031 static smb_user_t *
1032 smb_session_lookup_user(smb_session_t *session, char *domain, char *name)
1033 {
1034 	smb_user_t	*user;
1035 	smb_llist_t	*ulist;
1036 
1037 	ulist = &session->s_user_list;
1038 	smb_llist_enter(ulist, RW_READER);
1039 	user = smb_llist_head(ulist);
1040 	while (user) {
1041 		ASSERT(user->u_magic == SMB_USER_MAGIC);
1042 		if (!utf8_strcasecmp(user->u_name, name) &&
1043 		    !utf8_strcasecmp(user->u_domain, domain)) {
1044 			if (smb_user_hold(user))
1045 				break;
1046 		}
1047 		user = smb_llist_next(ulist, user);
1048 	}
1049 	smb_llist_exit(ulist);
1050 
1051 	return (user);
1052 }
1053 
1054 /*
1055  * If a user attempts to log in subsequently from the specified session,
1056  * duplicates the existing SMB user instance such that all SMB user
1057  * instances that corresponds to the same user on the given session
1058  * reference the same user's cred.
1059  *
1060  * Returns NULL if the given user hasn't yet logged in from this
1061  * specified session.  Otherwise, returns a user instance that corresponds
1062  * to this subsequent login.
1063  */
1064 smb_user_t *
1065 smb_session_dup_user(smb_session_t *session, char *domain, char *account_name)
1066 {
1067 	smb_user_t *orig_user = NULL;
1068 	smb_user_t *user = NULL;
1069 
1070 	orig_user = smb_session_lookup_user(session, domain,
1071 	    account_name);
1072 
1073 	if (orig_user) {
1074 		user = smb_user_dup(orig_user);
1075 		smb_user_release(orig_user);
1076 	}
1077 
1078 	return (user);
1079 }
1080 
1081 /*
1082  * Copy the session workstation/client name to buf.  If the workstation
1083  * is an empty string (which it will be on TCP connections), use the
1084  * client IP address.
1085  */
1086 void
1087 smb_session_getclient(smb_session_t *sn, char *buf, size_t buflen)
1088 {
1089 	char		ipbuf[INET6_ADDRSTRLEN];
1090 	smb_inaddr_t	*ipaddr;
1091 
1092 	ASSERT(sn);
1093 	ASSERT(buf);
1094 	ASSERT(buflen);
1095 
1096 	*buf = '\0';
1097 
1098 	if (sn->workstation[0] != '\0') {
1099 		(void) strlcpy(buf, sn->workstation, buflen);
1100 		return;
1101 	}
1102 
1103 	ipaddr = &sn->ipaddr;
1104 	if (smb_inet_ntop(ipaddr, ipbuf, SMB_IPSTRLEN(ipaddr->a_family)))
1105 		(void) strlcpy(buf, ipbuf, buflen);
1106 }
1107 
1108 /*
1109  * Check whether or not the specified client name is the client of this
1110  * session.  The name may be in UNC format (\\CLIENT).
1111  *
1112  * A workstation/client name is setup on NBT connections as part of the
1113  * NetBIOS session request but that isn't available on TCP connections.
1114  * If the session doesn't have a client name we typically return the
1115  * client IP address as the workstation name on MSRPC requests.  So we
1116  * check for the IP address here in addition to the workstation name.
1117  */
1118 boolean_t
1119 smb_session_isclient(smb_session_t *sn, const char *client)
1120 {
1121 	char		buf[INET6_ADDRSTRLEN];
1122 	smb_inaddr_t	*ipaddr;
1123 
1124 	client += strspn(client, "\\");
1125 
1126 	if (utf8_strcasecmp(client, sn->workstation) == 0)
1127 		return (B_TRUE);
1128 
1129 	ipaddr = &sn->ipaddr;
1130 	if (smb_inet_ntop(ipaddr, buf, SMB_IPSTRLEN(ipaddr->a_family)) == NULL)
1131 		return (B_FALSE);
1132 
1133 	if (utf8_strcasecmp(client, buf) == 0)
1134 		return (B_TRUE);
1135 
1136 	return (B_FALSE);
1137 }
1138 
1139 /*
1140  * smb_request_alloc
1141  *
1142  * Allocate an smb_request_t structure from the kmem_cache.  Partially
1143  * initialize the found/new request.
1144  *
1145  * Returns pointer to a request
1146  */
1147 smb_request_t *
1148 smb_request_alloc(smb_session_t *session, int req_length)
1149 {
1150 	smb_request_t	*sr;
1151 
1152 	ASSERT(session->s_magic == SMB_SESSION_MAGIC);
1153 
1154 	sr = kmem_cache_alloc(session->s_cache_request, KM_SLEEP);
1155 
1156 	/*
1157 	 * Future:  Use constructor to pre-initialize some fields.  For now
1158 	 * there are so many fields that it is easiest just to zero the
1159 	 * whole thing and start over.
1160 	 */
1161 	bzero(sr, sizeof (smb_request_t));
1162 
1163 	mutex_init(&sr->sr_mutex, NULL, MUTEX_DEFAULT, NULL);
1164 	sr->session = session;
1165 	sr->sr_server = session->s_server;
1166 	sr->sr_gmtoff = session->s_server->si_gmtoff;
1167 	sr->sr_cache = session->s_server->si_cache_request;
1168 	sr->sr_cfg = &session->s_cfg;
1169 	sr->request_storage.forw = &sr->request_storage;
1170 	sr->request_storage.back = &sr->request_storage;
1171 	sr->command.max_bytes = req_length;
1172 	sr->reply.max_bytes = smb_maxbufsize;
1173 	sr->sr_req_length = req_length;
1174 	if (req_length)
1175 		sr->sr_request_buf = kmem_alloc(req_length, KM_SLEEP);
1176 	sr->sr_magic = SMB_REQ_MAGIC;
1177 	sr->sr_state = SMB_REQ_STATE_INITIALIZING;
1178 	smb_slist_insert_tail(&session->s_req_list, sr);
1179 	return (sr);
1180 }
1181 
1182 /*
1183  * smb_request_free
1184  *
1185  * release the memories which have been allocated for a smb request.
1186  */
1187 void
1188 smb_request_free(smb_request_t *sr)
1189 {
1190 	ASSERT(sr->sr_magic == SMB_REQ_MAGIC);
1191 	ASSERT(sr->session);
1192 	ASSERT(sr->r_xa == NULL);
1193 
1194 	if (sr->fid_ofile != NULL)
1195 		smb_ofile_release(sr->fid_ofile);
1196 
1197 	if (sr->tid_tree != NULL)
1198 		smb_tree_release(sr->tid_tree);
1199 
1200 	if (sr->uid_user != NULL)
1201 		smb_user_release(sr->uid_user);
1202 
1203 	smb_slist_remove(&sr->session->s_req_list, sr);
1204 
1205 	sr->session = NULL;
1206 
1207 	/* Release any temp storage */
1208 	smbsr_free_malloc_list(&sr->request_storage);
1209 
1210 	if (sr->sr_request_buf)
1211 		kmem_free(sr->sr_request_buf, sr->sr_req_length);
1212 	if (sr->command.chain)
1213 		m_freem(sr->command.chain);
1214 	if (sr->reply.chain)
1215 		m_freem(sr->reply.chain);
1216 	if (sr->raw_data.chain)
1217 		m_freem(sr->raw_data.chain);
1218 
1219 	sr->sr_magic = 0;
1220 	mutex_destroy(&sr->sr_mutex);
1221 	kmem_cache_free(sr->sr_cache, sr);
1222 }
1223 
1224 void
1225 dump_smb_inaddr(smb_inaddr_t *ipaddr)
1226 {
1227 	char ipstr[INET6_ADDRSTRLEN];
1228 
1229 	if (smb_inet_ntop(ipaddr, ipstr, SMB_IPSTRLEN(ipaddr->a_family)))
1230 		cmn_err(CE_WARN, "error ipstr=%s", ipstr);
1231 	else
1232 		cmn_err(CE_WARN, "error converting ip address");
1233 }
1234 
1235 boolean_t
1236 smb_session_oplocks_enable(smb_session_t *session)
1237 {
1238 	SMB_SESSION_VALID(session);
1239 	if (session->s_cfg.skc_oplock_enable == 0)
1240 		return (B_FALSE);
1241 	else
1242 		return (B_TRUE);
1243 }
1244 
1245 /*
1246  * smb_session_breaking_oplock
1247  *
1248  * This MUST be a cross-session call, i.e. the caller must be in a different
1249  * context than the one passed. The mutex of the SMB node requiring an oplock
1250  * break MUST be dropped before calling this function. This last requirement is
1251  * due to a potential deadlock that can occur when trying to enter the lock of
1252  * the session passed in.
1253  */
1254 void
1255 smb_session_oplock_break(smb_session_t *session, smb_ofile_t *of)
1256 {
1257 	mbuf_chain_t	*mbc;
1258 
1259 	SMB_SESSION_VALID(session);
1260 
1261 	mbc = smb_mbc_alloc(MLEN);
1262 
1263 	(void) smb_mbc_encodef(mbc, "Mb19.wwwwbb3.ww10.",
1264 	    SMB_COM_LOCKING_ANDX,
1265 	    SMB_TREE_GET_TID(SMB_OFILE_GET_TREE(of)),
1266 	    0xFFFF, 0, 0xFFFF, 8, 0xFF,
1267 	    SMB_OFILE_GET_FID(of),
1268 	    LOCKING_ANDX_OPLOCK_RELEASE);
1269 
1270 	smb_rwx_rwenter(&session->s_lock, RW_WRITER);
1271 	switch (session->s_state) {
1272 	case SMB_SESSION_STATE_NEGOTIATED:
1273 	case SMB_SESSION_STATE_OPLOCK_BREAKING:
1274 		session->s_state = SMB_SESSION_STATE_OPLOCK_BREAKING;
1275 		(void) smb_session_send(session, 0, mbc);
1276 		smb_mbc_free(mbc);
1277 		break;
1278 
1279 	case SMB_SESSION_STATE_READ_RAW_ACTIVE:
1280 		list_insert_tail(&session->s_oplock_brkreqs, mbc);
1281 		break;
1282 
1283 	case SMB_SESSION_STATE_DISCONNECTED:
1284 	case SMB_SESSION_STATE_TERMINATED:
1285 		smb_mbc_free(mbc);
1286 		break;
1287 
1288 	default:
1289 		SMB_PANIC();
1290 	}
1291 	smb_rwx_rwexit(&session->s_lock);
1292 }
1293