2 Unix SMB/CIFS implementation.
4 A composite API for initializing a domain
6 Copyright (C) Volker Lendecke 2005
7 Copyright (C) Andrew Bartlett <abartlet@samba.org> 2007
9 This program is free software; you can redistribute it and/or modify
10 it under the terms of the GNU General Public License as published by
11 the Free Software Foundation; either version 3 of the License, or
12 (at your option) any later version.
14 This program is distributed in the hope that it will be useful,
15 but WITHOUT ANY WARRANTY; without even the implied warranty of
16 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
17 GNU General Public License for more details.
19 You should have received a copy of the GNU General Public License
20 along with this program. If not, see <http://www.gnu.org/licenses/>.
24 #include "libcli/composite/composite.h"
25 #include "libcli/smb_composite/smb_composite.h"
26 #include "winbind/wb_server.h"
27 #include "winbind/wb_async_helpers.h"
28 #include "winbind/wb_helper.h"
29 #include "smbd/service_task.h"
30 #include "librpc/gen_ndr/ndr_netlogon.h"
31 #include "librpc/gen_ndr/ndr_lsa_c.h"
32 #include "librpc/gen_ndr/ndr_samr_c.h"
33 #include "libcli/libcli.h"
35 #include "libcli/auth/credentials.h"
36 #include "libcli/security/security.h"
38 #include "libcli/ldap/ldap_client.h"
40 #include "auth/credentials/credentials.h"
41 #include "param/param.h"
44 * Initialize a domain:
46 * - With schannel credentials, try to open the SMB connection and
47 * NETLOGON pipe with the machine creds. This works against W2k3SP1
48 * with an NTLMSSP session setup. Fall back to anonymous (for the CIFS level).
50 * - If we have schannel creds, do the auth2 and open the schannel'ed netlogon
53 * - Open LSA. If we have machine creds, try to open with SPNEGO or NTLMSSP. Fall back
56 * - With queryinfopolicy, verify that we're talking to the right domain
58 * A bit complex, but with all the combinations I think it's the best we can
59 * get. NT4, W2k3 and W2k all have different combinations, but in the end we
60 * have a signed&sealed lsa connection on all of them.
62 * Not sure if it is overkill, but it seems to work.
65 struct init_domain_state
{
66 struct composite_context
*ctx
;
67 struct wbsrv_domain
*domain
;
68 struct wbsrv_service
*service
;
70 struct lsa_ObjectAttribute objectattr
;
71 struct lsa_OpenPolicy2 lsa_openpolicy
;
72 struct lsa_QueryInfoPolicy queryinfo
;
73 union lsa_PolicyInformation
*info
;
76 static void init_domain_recv_netlogonpipe(struct composite_context
*ctx
);
77 static void init_domain_recv_lsa_pipe(struct composite_context
*ctx
);
78 static void init_domain_recv_lsa_policy(struct rpc_request
*req
);
79 static void init_domain_recv_queryinfo(struct rpc_request
*req
);
80 static void init_domain_recv_samr(struct composite_context
*ctx
);
82 static struct dcerpc_binding
*init_domain_binding(struct init_domain_state
*state
,
83 const struct ndr_interface_table
*table
)
85 struct dcerpc_binding
*binding
;
88 /* Make a binding string */
90 char *s
= talloc_asprintf(state
, "ncacn_np:%s", state
->domain
->dc_name
);
91 if (s
== NULL
) return NULL
;
92 status
= dcerpc_parse_binding(state
, s
, &binding
);
94 if (!NT_STATUS_IS_OK(status
)) {
99 /* Alter binding to contain hostname, but also address (so we don't look it up twice) */
100 binding
->target_hostname
= state
->domain
->dc_name
;
101 binding
->host
= state
->domain
->dc_address
;
103 /* This shouldn't make a network call, as the mappings for named pipes are well known */
104 status
= dcerpc_epm_map_binding(binding
, binding
, table
, state
->service
->task
->event_ctx
,
105 state
->service
->task
->lp_ctx
);
106 if (!NT_STATUS_IS_OK(status
)) {
113 struct composite_context
*wb_init_domain_send(TALLOC_CTX
*mem_ctx
,
114 struct wbsrv_service
*service
,
115 struct wb_dom_info
*dom_info
)
117 struct composite_context
*result
, *ctx
;
118 struct init_domain_state
*state
;
120 result
= composite_create(mem_ctx
, service
->task
->event_ctx
);
121 if (result
== NULL
) goto failed
;
123 state
= talloc_zero(result
, struct init_domain_state
);
124 if (state
== NULL
) goto failed
;
126 result
->private_data
= state
;
128 state
->service
= service
;
130 state
->domain
= talloc(state
, struct wbsrv_domain
);
131 if (state
->domain
== NULL
) goto failed
;
133 state
->domain
->info
= talloc_reference(state
->domain
, dom_info
);
134 if (state
->domain
->info
== NULL
) goto failed
;
136 /* Caller should check, but to be safe: */
137 if (dom_info
->num_dcs
< 1) {
141 /* For now, we just pick the first. The next step will be to
142 * walk the entire list. Also need to fix finddcs() to return
144 state
->domain
->dc_name
= dom_info
->dcs
[0].name
;
145 state
->domain
->dc_address
= dom_info
->dcs
[0].address
;
147 state
->domain
->libnet_ctx
= libnet_context_init(service
->task
->event_ctx
,
148 service
->task
->lp_ctx
);
150 /* Create a credentials structure */
151 state
->domain
->libnet_ctx
->cred
= cli_credentials_init(state
->domain
);
152 if (state
->domain
->libnet_ctx
->cred
== NULL
) goto failed
;
154 cli_credentials_set_conf(state
->domain
->libnet_ctx
->cred
, service
->task
->lp_ctx
);
156 /* Connect the machine account to the credentials */
158 cli_credentials_set_machine_account(state
->domain
->libnet_ctx
->cred
, state
->domain
->libnet_ctx
->lp_ctx
);
159 if (!NT_STATUS_IS_OK(state
->ctx
->status
)) goto failed
;
161 state
->domain
->netlogon_binding
= init_domain_binding(state
, &ndr_table_netlogon
);
163 state
->domain
->netlogon_pipe
= NULL
;
165 if ((!cli_credentials_is_anonymous(state
->domain
->libnet_ctx
->cred
)) &&
166 ((lp_server_role(service
->task
->lp_ctx
) == ROLE_DOMAIN_MEMBER
) ||
167 (lp_server_role(service
->task
->lp_ctx
) == ROLE_DOMAIN_CONTROLLER
)) &&
168 (dom_sid_equal(state
->domain
->info
->sid
,
169 state
->service
->primary_sid
))) {
170 state
->domain
->netlogon_binding
->flags
|= DCERPC_SCHANNEL
;
172 /* For debugging, it can be a real pain if all the traffic is encrypted */
173 if (lp_winbind_sealed_pipes(service
->task
->lp_ctx
)) {
174 state
->domain
->netlogon_binding
->flags
|= (DCERPC_SIGN
| DCERPC_SEAL
);
176 state
->domain
->netlogon_binding
->flags
|= (DCERPC_SIGN
);
180 /* No encryption on anonymous pipes */
182 ctx
= dcerpc_pipe_connect_b_send(state
, state
->domain
->netlogon_binding
,
184 state
->domain
->libnet_ctx
->cred
,
185 service
->task
->event_ctx
,
186 service
->task
->lp_ctx
);
188 if (composite_nomem(ctx
, state
->ctx
)) {
192 composite_continue(state
->ctx
, ctx
, init_domain_recv_netlogonpipe
,
200 /* Having make a netlogon connection (possibly secured with schannel),
201 * make an LSA connection to the same DC, on the same IPC$ share */
202 static void init_domain_recv_netlogonpipe(struct composite_context
*ctx
)
204 struct init_domain_state
*state
=
205 talloc_get_type(ctx
->async
.private_data
,
206 struct init_domain_state
);
208 state
->ctx
->status
= dcerpc_pipe_connect_b_recv(ctx
, state
->domain
,
209 &state
->domain
->netlogon_pipe
);
211 if (!composite_is_ok(state
->ctx
)) {
214 talloc_reparent(state
, state
->domain
->netlogon_pipe
, state
->domain
->netlogon_binding
);
216 state
->domain
->lsa_binding
= init_domain_binding(state
, &ndr_table_lsarpc
);
218 /* For debugging, it can be a real pain if all the traffic is encrypted */
219 if (lp_winbind_sealed_pipes(state
->service
->task
->lp_ctx
)) {
220 state
->domain
->lsa_binding
->flags
|= (DCERPC_SIGN
| DCERPC_SEAL
);
222 state
->domain
->lsa_binding
->flags
|= (DCERPC_SIGN
);
225 state
->domain
->libnet_ctx
->lsa
.pipe
= NULL
;
227 /* this will make the secondary connection on the same IPC$ share,
228 secured with SPNEGO or NTLMSSP */
229 ctx
= dcerpc_secondary_auth_connection_send(state
->domain
->netlogon_pipe
,
230 state
->domain
->lsa_binding
,
232 state
->domain
->libnet_ctx
->cred
,
233 state
->domain
->libnet_ctx
->lp_ctx
235 composite_continue(state
->ctx
, ctx
, init_domain_recv_lsa_pipe
, state
);
238 static bool retry_with_schannel(struct init_domain_state
*state
,
239 struct dcerpc_binding
*binding
,
240 const struct ndr_interface_table
*table
,
241 void (*continuation
)(struct composite_context
*))
243 struct composite_context
*ctx
;
244 state
->ctx
->status
= NT_STATUS_OK
;
245 if (state
->domain
->netlogon_binding
->flags
& DCERPC_SCHANNEL
246 && !(binding
->flags
& DCERPC_SCHANNEL
)) {
247 /* Opening a policy handle failed, perhaps it was
248 * because we don't get a 'wrong password' error on
251 /* Try again with schannel */
252 binding
->flags
|= DCERPC_SCHANNEL
;
254 /* Try again, likewise on the same IPC$ share,
255 secured with SCHANNEL */
256 ctx
= dcerpc_secondary_auth_connection_send(state
->domain
->netlogon_pipe
,
259 state
->domain
->libnet_ctx
->cred
,
260 state
->domain
->libnet_ctx
->lp_ctx
);
261 composite_continue(state
->ctx
, ctx
, continuation
, state
);
267 /* We should now have either an authenticated LSA pipe, or an error.
268 * On success, open a policy handle
270 static void init_domain_recv_lsa_pipe(struct composite_context
*ctx
)
272 struct rpc_request
*req
;
273 struct init_domain_state
*state
=
274 talloc_get_type(ctx
->async
.private_data
,
275 struct init_domain_state
);
277 state
->ctx
->status
= dcerpc_secondary_auth_connection_recv(ctx
, state
->domain
,
278 &state
->domain
->libnet_ctx
->lsa
.pipe
);
279 if (NT_STATUS_EQUAL(state
->ctx
->status
, NT_STATUS_LOGON_FAILURE
)) {
280 if (retry_with_schannel(state
, state
->domain
->lsa_binding
,
282 init_domain_recv_lsa_pipe
)) {
286 if (!composite_is_ok(state
->ctx
)) return;
288 talloc_steal(state
->domain
->libnet_ctx
, state
->domain
->libnet_ctx
->lsa
.pipe
);
289 talloc_reparent(state
, state
->domain
->libnet_ctx
->lsa
.pipe
, state
->domain
->lsa_binding
);
290 state
->domain
->libnet_ctx
->lsa
.access_mask
= SEC_FLAG_MAXIMUM_ALLOWED
;
291 state
->domain
->libnet_ctx
->lsa
.name
= state
->domain
->info
->name
;
293 ZERO_STRUCT(state
->domain
->libnet_ctx
->lsa
.handle
);
294 state
->lsa_openpolicy
.in
.system_name
=
295 talloc_asprintf(state
, "\\\\%s",
296 dcerpc_server_name(state
->domain
->libnet_ctx
->lsa
.pipe
));
297 ZERO_STRUCT(state
->objectattr
);
298 state
->lsa_openpolicy
.in
.attr
= &state
->objectattr
;
299 state
->lsa_openpolicy
.in
.access_mask
= SEC_FLAG_MAXIMUM_ALLOWED
;
300 state
->lsa_openpolicy
.out
.handle
= &state
->domain
->libnet_ctx
->lsa
.handle
;
302 req
= dcerpc_lsa_OpenPolicy2_send(state
->domain
->libnet_ctx
->lsa
.pipe
, state
,
303 &state
->lsa_openpolicy
);
305 composite_continue_rpc(state
->ctx
, req
, init_domain_recv_lsa_policy
, state
);
308 /* Receive a policy handle (or not, and retry the authentication) and
309 * obtain some basic information about the domain */
311 static void init_domain_recv_lsa_policy(struct rpc_request
*req
)
313 struct init_domain_state
*state
=
314 talloc_get_type(req
->async
.private_data
,
315 struct init_domain_state
);
317 state
->ctx
->status
= dcerpc_ndr_request_recv(req
);
318 if ((!NT_STATUS_IS_OK(state
->ctx
->status
)
319 || !NT_STATUS_IS_OK(state
->lsa_openpolicy
.out
.result
))) {
320 if (retry_with_schannel(state
, state
->domain
->lsa_binding
,
322 init_domain_recv_lsa_pipe
)) {
326 if (!composite_is_ok(state
->ctx
)) return;
327 state
->ctx
->status
= state
->lsa_openpolicy
.out
.result
;
328 if (!composite_is_ok(state
->ctx
)) return;
330 state
->info
= talloc_zero(state
->ctx
, union lsa_PolicyInformation
);
331 if (composite_nomem(state
->info
, state
->ctx
)) return;
333 state
->queryinfo
.in
.handle
= &state
->domain
->libnet_ctx
->lsa
.handle
;
334 state
->queryinfo
.in
.level
= LSA_POLICY_INFO_ACCOUNT_DOMAIN
;
335 state
->queryinfo
.out
.info
= &state
->info
;
337 req
= dcerpc_lsa_QueryInfoPolicy_send(state
->domain
->libnet_ctx
->lsa
.pipe
, state
,
339 composite_continue_rpc(state
->ctx
, req
,
340 init_domain_recv_queryinfo
, state
);
343 static void init_domain_recv_queryinfo(struct rpc_request
*req
)
345 struct init_domain_state
*state
=
346 talloc_get_type(req
->async
.private_data
, struct init_domain_state
);
347 struct lsa_DomainInfo
*dominfo
;
348 struct composite_context
*ctx
;
350 state
->ctx
->status
= dcerpc_ndr_request_recv(req
);
351 if (!composite_is_ok(state
->ctx
)) return;
352 state
->ctx
->status
= state
->queryinfo
.out
.result
;
353 if (!composite_is_ok(state
->ctx
)) return;
355 dominfo
= &(*state
->queryinfo
.out
.info
)->account_domain
;
357 if (strcasecmp(state
->domain
->info
->name
, dominfo
->name
.string
) != 0) {
358 DEBUG(2, ("Expected domain name %s, DC %s said %s\n",
359 state
->domain
->info
->name
,
360 dcerpc_server_name(state
->domain
->libnet_ctx
->lsa
.pipe
),
361 dominfo
->name
.string
));
362 composite_error(state
->ctx
, NT_STATUS_INVALID_DOMAIN_STATE
);
366 if (!dom_sid_equal(state
->domain
->info
->sid
, dominfo
->sid
)) {
367 DEBUG(2, ("Expected domain sid %s, DC %s said %s\n",
368 dom_sid_string(state
, state
->domain
->info
->sid
),
369 dcerpc_server_name(state
->domain
->libnet_ctx
->lsa
.pipe
),
370 dom_sid_string(state
, dominfo
->sid
)));
371 composite_error(state
->ctx
, NT_STATUS_INVALID_DOMAIN_STATE
);
375 state
->domain
->samr_binding
= init_domain_binding(state
, &ndr_table_samr
);
377 /* We want to use the same flags as the LSA pipe did (so, if
378 * it needed schannel, then we need that here too) */
379 state
->domain
->samr_binding
->flags
= state
->domain
->lsa_binding
->flags
;
381 state
->domain
->libnet_ctx
->samr
.pipe
= NULL
;
383 ctx
= wb_connect_samr_send(state
, state
->domain
);
384 composite_continue(state
->ctx
, ctx
, init_domain_recv_samr
, state
);
387 /* Recv the SAMR details (SamrConnect and SamrOpenDomain handle) and
388 * open an LDAP connection */
389 static void init_domain_recv_samr(struct composite_context
*ctx
)
391 struct init_domain_state
*state
=
392 talloc_get_type(ctx
->async
.private_data
,
393 struct init_domain_state
);
395 state
->ctx
->status
= wb_connect_samr_recv(
397 &state
->domain
->libnet_ctx
->samr
.pipe
,
398 &state
->domain
->libnet_ctx
->samr
.connect_handle
,
399 &state
->domain
->libnet_ctx
->samr
.handle
);
400 if (!composite_is_ok(state
->ctx
)) return;
402 talloc_reparent(state
, state
->domain
->libnet_ctx
->samr
.pipe
, state
->domain
->samr_binding
);
403 state
->domain
->libnet_ctx
->samr
.access_mask
= SEC_FLAG_MAXIMUM_ALLOWED
;
404 state
->domain
->libnet_ctx
->samr
.name
= state
->domain
->info
->name
;
405 state
->domain
->libnet_ctx
->samr
.sid
= dom_sid_dup(
406 state
->domain
->libnet_ctx
,
407 state
->domain
->info
->sid
);
409 composite_done(state
->ctx
);
412 NTSTATUS
wb_init_domain_recv(struct composite_context
*c
,
414 struct wbsrv_domain
**result
)
416 NTSTATUS status
= composite_wait(c
);
417 if (NT_STATUS_IS_OK(status
)) {
418 struct init_domain_state
*state
=
419 talloc_get_type(c
->private_data
,
420 struct init_domain_state
);
421 *result
= talloc_steal(mem_ctx
, state
->domain
);
427 NTSTATUS
wb_init_domain(TALLOC_CTX
*mem_ctx
, struct wbsrv_service
*service
,
428 struct wb_dom_info
*dom_info
,
429 struct wbsrv_domain
**result
)
431 struct composite_context
*c
=
432 wb_init_domain_send(mem_ctx
, service
, dom_info
);
433 return wb_init_domain_recv(c
, mem_ctx
, result
);