Coverage Report

Created: 2024-09-08 06:20

/src/FreeRDP/libfreerdp/core/connection.c
Line
Count
Source (jump to first uncovered line)
1
/*
2
 * FreeRDP: A Remote Desktop Protocol Implementation
3
 * Connection Sequence
4
 *
5
 * Copyright 2011 Marc-Andre Moreau <marcandre.moreau@gmail.com>
6
 * Copyright 2015 Thincast Technologies GmbH
7
 * Copyright 2015 DI (FH) Martin Haimberger <martin.haimberger@thincast.com>
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 * Copyright 2023 Armin Novak <anovak@thincast.com>
9
 * Copyright 2023 Thincast Technologies GmbH
10
 *
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 * Licensed under the Apache License, Version 2.0 (the "License");
12
 * you may not use this file except in compliance with the License.
13
 * You may obtain a copy of the License at
14
 *
15
 *     http://www.apache.org/licenses/LICENSE-2.0
16
 *
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 * Unless required by applicable law or agreed to in writing, software
18
 * distributed under the License is distributed on an "AS IS" BASIS,
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 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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 * See the License for the specific language governing permissions and
21
 * limitations under the License.
22
 */
23
24
#include <freerdp/config.h>
25
26
#include "settings.h"
27
28
#include "info.h"
29
#include "input.h"
30
#include "rdp.h"
31
#include "peer.h"
32
33
#include "connection.h"
34
#include "transport.h"
35
36
#include <winpr/crt.h>
37
#include <winpr/crypto.h>
38
#include <winpr/ssl.h>
39
40
#include <freerdp/log.h>
41
#include <freerdp/error.h>
42
#include <freerdp/listener.h>
43
44
#include "../cache/pointer.h"
45
#include "../crypto/crypto.h"
46
#include "../crypto/privatekey.h"
47
#include "../crypto/certificate.h"
48
#include "gateway/arm.h"
49
50
#include "utils.h"
51
52
#define TAG FREERDP_TAG("core.connection")
53
54
/**
55
 *                                      Connection Sequence
56
 *     client                                                                    server
57
 *        |                                                                         |
58
 *        |-----------------------X.224 Connection Request PDU--------------------->|
59
 *        |<----------------------X.224 Connection Confirm PDU----------------------|
60
 *        |-------MCS Connect-Initial PDU with GCC Conference Create Request------->|
61
 *        |<-----MCS Connect-Response PDU with GCC Conference Create Response-------|
62
 *        |------------------------MCS Erect Domain Request PDU-------------------->|
63
 *        |------------------------MCS Attach User Request PDU--------------------->|
64
 *        |<-----------------------MCS Attach User Confirm PDU----------------------|
65
 *        |------------------------MCS Channel Join Request PDU-------------------->|
66
 *        |<-----------------------MCS Channel Join Confirm PDU---------------------|
67
 *        |----------------------------Security Exchange PDU----------------------->|
68
 *        |-------------------------------Client Info PDU-------------------------->|
69
 *        |<---------------------License Error PDU - Valid Client-------------------|
70
 *        |<-----------------------------Demand Active PDU--------------------------|
71
 *        |------------------------------Confirm Active PDU------------------------>|
72
 *        |-------------------------------Synchronize PDU-------------------------->|
73
 *        |---------------------------Control PDU - Cooperate---------------------->|
74
 *        |------------------------Control PDU - Request Control------------------->|
75
 *        |--------------------------Persistent Key List PDU(s)-------------------->|
76
 *        |--------------------------------Font List PDU--------------------------->|
77
 *        |<------------------------------Synchronize PDU---------------------------|
78
 *        |<--------------------------Control PDU - Cooperate-----------------------|
79
 *        |<-----------------------Control PDU - Granted Control--------------------|
80
 *        |<-------------------------------Font Map PDU-----------------------------|
81
 *
82
 */
83
84
/**
85
 *
86
 * Connection Sequence
87
 *
88
 * 1. Connection Initiation: The client initiates the connection by sending the server a
89
 *  Class 0 X.224 Connection Request PDU (section 2.2.1.1). The server responds with a
90
 *  Class 0 X.224 Connection Confirm PDU (section 2.2.1.2). From this point, all subsequent
91
 *  data sent between client and server is wrapped in an X.224 Data Protocol Data Unit (PDU).
92
 *
93
 * 2. Basic Settings Exchange: Basic settings are exchanged between the client and server by
94
 *  using the MCS Connect Initial PDU (section 2.2.1.3) and MCS Connect Response PDU
95
 *(section 2.2.1.4). The Connect Initial PDU contains a Generic Conference Control (GCC) Conference
96
 *Create Request, while the Connect Response PDU contains a GCC Conference Create Response. These
97
 *two GCC packets contain concatenated blocks of settings data (such as core data, security data,
98
 *and network data) which are read by client and server.
99
 *
100
 * 3. Channel Connection: The client sends an MCS Erect Domain Request PDU (section 2.2.1.5),
101
 *  followed by an MCS Attach User Request PDU (section 2.2.1.6) to attach the primary user identity
102
 *  to the MCS domain. The server responds with an MCS Attach User Confirm PDU (section 2.2.1.7)
103
 *  containing the User Channel ID. The client then proceeds to join the user channel, the
104
 *  input/output (I/O) channel, and all of the static virtual channels (the I/O and static virtual
105
 *  channel IDs are obtained from the data embedded in the GCC packets) by using multiple MCS
106
 *Channel Join Request PDUs (section 2.2.1.8). The server confirms each channel with an MCS Channel
107
 *Join Confirm PDU (section 2.2.1.9). (The client only sends a Channel Join Request after it has
108
 *received the Channel Join Confirm for the previously sent request.)
109
 *
110
 *  From this point, all subsequent data sent from the client to the server is wrapped in an MCS
111
 *Send Data Request PDU, while data sent from the server to the client is wrapped in an MCS Send
112
 *Data Indication PDU. This is in addition to the data being wrapped by an X.224 Data PDU.
113
 *
114
 * 4. RDP Security Commencement: If Standard RDP Security mechanisms (section 5.3) are being
115
 *employed and encryption is in force (this is determined by examining the data embedded in the GCC
116
 *Conference Create Response packet) then the client sends a Security Exchange PDU
117
 *(section 2.2.1.10) containing an encrypted 32-byte random number to the server. This random number
118
 *is encrypted with the public key of the server as described in section 5.3.4.1 (the server's
119
 *public key, as well as a 32-byte server-generated random number, are both obtained from the data
120
 *embedded in the GCC Conference Create Response packet). The client and server then utilize the two
121
 *32-byte random numbers to generate session keys which are used to encrypt and validate the
122
 *integrity of subsequent RDP traffic.
123
 *
124
 *  From this point, all subsequent RDP traffic can be encrypted and a security header is included
125
 *with the data if encryption is in force. (The Client Info PDU (section 2.2.1.11) and licensing
126
 *PDUs ([MS-RDPELE] section 2.2.2) are an exception in that they always have a security header). The
127
 *Security Header follows the X.224 and MCS Headers and indicates whether the attached data is
128
 *encrypted. Even if encryption is in force, server-to-client traffic may not always be encrypted,
129
 *while client-to-server traffic must always be encrypted (encryption of licensing PDUs is optional,
130
 *however).
131
 *
132
 * 5. Secure Settings Exchange: Secure client data (such as the username, password, and
133
 *auto-reconnect cookie) is sent to the server by using the Client Info PDU (section 2.2.1.11).
134
 *
135
 * 6. Optional Connect-Time Auto-Detection: During the optional connect-time auto-detect phase the
136
 *goal is to determine characteristics of the network, such as the round-trip latency time and the
137
 *bandwidth of the link between the server and client. This is accomplished by exchanging a
138
 *collection of PDUs (specified in section 2.2.1.4) over a predetermined period of time with enough
139
 *data to ensure that the results are statistically relevant.
140
 *
141
 * 7. Licensing: The goal of the licensing exchange is to transfer a license from the server to
142
 *the client. The client stores this license and on subsequent connections sends the license to the
143
 *server for validation. However, in some situations the client may not be issued a license to
144
 *store. In effect, the packets exchanged during this phase of the protocol depend on the licensing
145
 *mechanisms employed by the server. Within the context of this document, it is assumed that the
146
 *client will not be issued a license to store. For details regarding more advanced licensing
147
 *scenarios that take place during the Licensing Phase, see [MS-RDPELE] section 1.3.
148
 *
149
 * 8. Optional Multitransport Bootstrapping: After the connection has been secured and the
150
 *Licensing Phase has run to completion, the server can choose to initiate multitransport
151
 *connections ([MS-RDPEMT] section 1.3). The Initiate Multitransport Request PDU (section 2.2.15.1)
152
 *is sent by the server to the client and results in the out-of-band creation of a multitransport
153
 *connection using messages from the RDP-UDP, TLS, DTLS, and multitransport protocols ([MS-RDPEMT]
154
 *section 1.3.1).
155
 *
156
 * 9. Capabilities Exchange: The server sends the set of capabilities it supports to the client in
157
 *a Demand Active PDU (section 2.2.1.13.1). The client responds with its capabilities by sending a
158
 *Confirm Active PDU (section 2.2.1.13.2).
159
 *
160
 * 10.  Connection Finalization: The client and server exchange PDUs to finalize the connection
161
 *details. The client-to-server PDUs sent during this phase have no dependencies on any of the
162
 *server-to-client PDUs; they may be sent as a single batch, provided that sequencing is maintained.
163
 *
164
 *  - The Client Synchronize PDU (section 2.2.1.14) is sent after transmitting the Confirm Active
165
 *PDU.
166
 *  - The Client Control (Cooperate) PDU (section 2.2.1.15) is sent after transmitting the Client
167
 *Synchronize PDU.
168
 *  - The Client Control (Request Control) PDU (section 2.2.1.16) is sent after transmitting the
169
 *Client Control (Cooperate) PDU.
170
 *  - The optional Persistent Key List PDUs (section 2.2.1.17) are sent after transmitting the
171
 *Client Control (Request Control) PDU.
172
 *  - The Font List PDU (section 2.2.1.18) is sent after transmitting the Persistent Key List PDUs
173
 *or, if the Persistent Key List PDUs were not sent, it is sent after transmitting the Client
174
 *Control (Request Control) PDU (section 2.2.1.16).
175
 *
176
 *  The server-to-client PDUs sent during the Connection Finalization Phase have dependencies on the
177
 *client-to-server PDUs.
178
 *
179
 *  - The optional Monitor Layout PDU (section 2.2.12.1) has no dependency on any client-to-server
180
 *PDUs and is sent after the Demand Active PDU.
181
 *  - The Server Synchronize PDU (section 2.2.1.19) is sent in response to the Confirm Active PDU.
182
 *  - The Server Control (Cooperate) PDU (section 2.2.1.20) is sent after transmitting the Server
183
 *Synchronize PDU.
184
 *  - The Server Control (Granted Control) PDU (section 2.2.1.21) is sent in response to the Client
185
 *Control (Request Control) PDU.
186
 *  - The Font Map PDU (section 2.2.1.22) is sent in response to the Font List PDU.
187
 *
188
 *  Once the client has sent the Confirm Active PDU, it can start sending mouse and keyboard input
189
 *to the server, and upon receipt of the Font List PDU the server can start sending graphics output
190
 *to the client.
191
 *
192
 *  Besides input and graphics data, other data that can be exchanged between client and server
193
 *after the connection has been finalized includes connection management information and virtual
194
 *channel messages (exchanged between client-side plug-ins and server-side applications).
195
 */
196
197
static BOOL rdp_set_state(rdpRdp* rdp, CONNECTION_STATE state);
198
199
static BOOL rdp_client_reset_codecs(rdpContext* context)
200
0
{
201
0
  rdpSettings* settings = NULL;
202
203
0
  if (!context || !context->settings)
204
0
    return FALSE;
205
206
0
  settings = context->settings;
207
208
0
  if (!freerdp_settings_get_bool(settings, FreeRDP_DeactivateClientDecoding))
209
0
  {
210
0
    const UINT32 flags = freerdp_settings_get_uint32(settings, FreeRDP_ThreadingFlags);
211
0
    freerdp_client_codecs_free(context->codecs);
212
0
    context->codecs = freerdp_client_codecs_new(flags);
213
214
0
    if (!context->codecs)
215
0
      return FALSE;
216
217
0
    if (!freerdp_client_codecs_prepare(context->codecs,
218
0
                                       freerdp_settings_get_codecs_flags(settings),
219
0
                                       settings->DesktopWidth, settings->DesktopHeight))
220
0
      return FALSE;
221
222
/* Runtime H264 detection. (only available if dynamic backend loading is defined)
223
 * If no backend is available disable it before the channel is loaded.
224
 */
225
#if defined(WITH_GFX_H264) && defined(WITH_OPENH264_LOADING)
226
    if (!context->codecs->h264)
227
    {
228
      settings->GfxH264 = FALSE;
229
      settings->GfxAVC444 = FALSE;
230
      settings->GfxAVC444v2 = FALSE;
231
    }
232
#endif
233
0
  }
234
235
0
  return TRUE;
236
0
}
237
238
static BOOL rdp_client_wait_for_activation(rdpRdp* rdp)
239
0
{
240
0
  BOOL timedout = FALSE;
241
0
  WINPR_ASSERT(rdp);
242
243
0
  const rdpSettings* settings = rdp->settings;
244
0
  WINPR_ASSERT(settings);
245
246
0
  UINT64 now = GetTickCount64();
247
0
  UINT64 dueDate = now + freerdp_settings_get_uint32(settings, FreeRDP_TcpAckTimeout);
248
249
0
  for (; (now < dueDate) && !timedout; now = GetTickCount64())
250
0
  {
251
0
    HANDLE events[MAXIMUM_WAIT_OBJECTS] = { 0 };
252
0
    DWORD wstatus = 0;
253
0
    DWORD nevents = freerdp_get_event_handles(rdp->context, events, ARRAYSIZE(events));
254
0
    if (!nevents)
255
0
    {
256
0
      WLog_ERR(TAG, "error retrieving connection events");
257
0
      return FALSE;
258
0
    }
259
260
0
    wstatus = WaitForMultipleObjectsEx(nevents, events, FALSE, (dueDate - now), TRUE);
261
0
    switch (wstatus)
262
0
    {
263
0
      case WAIT_TIMEOUT:
264
        /* will make us quit with a timeout */
265
0
        timedout = TRUE;
266
0
        break;
267
0
      case WAIT_ABANDONED:
268
0
      case WAIT_FAILED:
269
0
        return FALSE;
270
0
      case WAIT_IO_COMPLETION:
271
0
        break;
272
0
      case WAIT_OBJECT_0:
273
0
      default:
274
        /* handles all WAIT_OBJECT_0 + [0 .. MAXIMUM_WAIT_OBJECTS-1] cases */
275
0
        if (rdp_check_fds(rdp) < 0)
276
0
        {
277
0
          freerdp_set_last_error_if_not(rdp->context,
278
0
                                        FREERDP_ERROR_CONNECT_TRANSPORT_FAILED);
279
0
          return FALSE;
280
0
        }
281
0
        break;
282
0
    }
283
284
0
    if (rdp_is_active_state(rdp))
285
0
      return TRUE;
286
0
  }
287
288
0
  WLog_ERR(TAG, "Timeout waiting for activation");
289
0
  freerdp_set_last_error_if_not(rdp->context, FREERDP_ERROR_CONNECT_ACTIVATION_TIMEOUT);
290
0
  return FALSE;
291
0
}
292
/**
293
 * Establish RDP Connection based on the settings given in the 'rdp' parameter.
294
 * msdn{cc240452}
295
 * @param rdp RDP module
296
 * @return true if the connection succeeded. FALSE otherwise.
297
 */
298
299
BOOL rdp_client_connect(rdpRdp* rdp)
300
0
{
301
0
  UINT32 SelectedProtocol = 0;
302
0
  BOOL status = 0;
303
0
  rdpSettings* settings = NULL;
304
  /* make sure SSL is initialize for earlier enough for crypto, by taking advantage of winpr SSL
305
   * FIPS flag for openssl initialization */
306
0
  DWORD flags = WINPR_SSL_INIT_DEFAULT;
307
308
0
  WINPR_ASSERT(rdp);
309
310
0
  settings = rdp->settings;
311
0
  WINPR_ASSERT(settings);
312
313
0
  if (!rdp_client_reset_codecs(rdp->context))
314
0
    return FALSE;
315
316
0
  if (settings->FIPSMode)
317
0
    flags |= WINPR_SSL_INIT_ENABLE_FIPS;
318
319
0
  winpr_InitializeSSL(flags);
320
321
  /* FIPS Mode forces the following and overrides the following(by happening later */
322
  /* in the command line processing): */
323
  /* 1. Disables NLA Security since NLA in freerdp uses NTLM(no Kerberos support yet) which uses
324
   * algorithms */
325
  /*      not allowed in FIPS for sensitive data. So, we disallow NLA when FIPS is required. */
326
  /* 2. Forces the only supported RDP encryption method to be FIPS. */
327
0
  if (settings->FIPSMode || winpr_FIPSMode())
328
0
  {
329
0
    settings->NlaSecurity = FALSE;
330
0
    settings->EncryptionMethods = ENCRYPTION_METHOD_FIPS;
331
0
  }
332
333
0
  UINT32 TcpConnectTimeout = freerdp_settings_get_uint32(settings, FreeRDP_TcpConnectTimeout);
334
0
  if (settings->GatewayArmTransport)
335
0
  {
336
0
    if (!arm_resolve_endpoint(rdp->context, TcpConnectTimeout))
337
0
    {
338
0
      WLog_ERR(TAG, "error retrieving ARM configuration");
339
0
      return FALSE;
340
0
    }
341
0
  }
342
343
0
  const char* hostname = settings->ServerHostname;
344
0
  if (!hostname)
345
0
  {
346
0
    WLog_ERR(TAG, "Missing hostname, can not connect to NULL target");
347
0
    return FALSE;
348
0
  }
349
350
0
  nego_init(rdp->nego);
351
0
  nego_set_target(rdp->nego, hostname, settings->ServerPort);
352
353
0
  if (settings->GatewayEnabled)
354
0
  {
355
0
    char* user = NULL;
356
0
    char* domain = NULL;
357
0
    char* cookie = NULL;
358
0
    size_t user_length = 0;
359
0
    size_t domain_length = 0;
360
0
    size_t cookie_length = 0;
361
362
0
    if (settings->Username)
363
0
    {
364
0
      user = settings->Username;
365
0
      user_length = strlen(settings->Username);
366
0
    }
367
368
0
    if (settings->Domain)
369
0
      domain = settings->Domain;
370
0
    else
371
0
      domain = settings->ComputerName;
372
373
0
    domain_length = strlen(domain);
374
0
    cookie_length = domain_length + 1 + user_length;
375
0
    cookie = (char*)malloc(cookie_length + 1);
376
377
0
    if (!cookie)
378
0
      return FALSE;
379
380
0
    CopyMemory(cookie, domain, domain_length);
381
0
    CharUpperBuffA(cookie, domain_length);
382
0
    cookie[domain_length] = '\\';
383
384
0
    if (settings->Username)
385
0
      CopyMemory(&cookie[domain_length + 1], user, user_length);
386
387
0
    cookie[cookie_length] = '\0';
388
0
    status = nego_set_cookie(rdp->nego, cookie);
389
0
    free(cookie);
390
0
  }
391
0
  else
392
0
  {
393
0
    status = nego_set_cookie(rdp->nego, settings->Username);
394
0
  }
395
396
0
  if (!status)
397
0
    return FALSE;
398
399
0
  nego_set_childsession_enabled(rdp->nego, settings->ConnectChildSession);
400
0
  nego_set_send_preconnection_pdu(rdp->nego, settings->SendPreconnectionPdu);
401
0
  nego_set_preconnection_id(rdp->nego, settings->PreconnectionId);
402
0
  nego_set_preconnection_blob(rdp->nego, settings->PreconnectionBlob);
403
0
  nego_set_negotiation_enabled(rdp->nego, settings->NegotiateSecurityLayer);
404
0
  nego_set_restricted_admin_mode_required(rdp->nego, settings->RestrictedAdminModeRequired);
405
0
  nego_set_gateway_enabled(rdp->nego, settings->GatewayEnabled);
406
0
  nego_set_gateway_bypass_local(rdp->nego, settings->GatewayBypassLocal);
407
0
  nego_enable_rdp(rdp->nego, settings->RdpSecurity);
408
0
  nego_enable_tls(rdp->nego, settings->TlsSecurity);
409
0
  nego_enable_nla(rdp->nego, settings->NlaSecurity);
410
0
  nego_enable_ext(rdp->nego, settings->ExtSecurity);
411
0
  nego_enable_rdstls(rdp->nego, settings->RdstlsSecurity);
412
0
  nego_enable_aad(rdp->nego, settings->AadSecurity);
413
414
0
  if (settings->MstscCookieMode)
415
0
    settings->CookieMaxLength = MSTSC_COOKIE_MAX_LENGTH;
416
417
0
  nego_set_cookie_max_length(rdp->nego, settings->CookieMaxLength);
418
419
0
  if (settings->LoadBalanceInfo && (settings->LoadBalanceInfoLength > 0))
420
0
  {
421
0
    if (!nego_set_routing_token(rdp->nego, settings->LoadBalanceInfo,
422
0
                                settings->LoadBalanceInfoLength))
423
0
      return FALSE;
424
0
  }
425
426
0
  if (!freerdp_settings_get_bool(settings, FreeRDP_TransportDumpReplay))
427
0
  {
428
0
    if (!rdp_client_transition_to_state(rdp, CONNECTION_STATE_NEGO))
429
0
      return FALSE;
430
431
0
    if (!nego_connect(rdp->nego))
432
0
    {
433
0
      if (!freerdp_get_last_error(rdp->context))
434
0
      {
435
0
        freerdp_set_last_error_log(rdp->context,
436
0
                                   FREERDP_ERROR_SECURITY_NEGO_CONNECT_FAILED);
437
0
        WLog_ERR(TAG, "Error: protocol security negotiation or connection failure");
438
0
      }
439
440
0
      return FALSE;
441
0
    }
442
443
0
    SelectedProtocol = nego_get_selected_protocol(rdp->nego);
444
445
0
    if ((SelectedProtocol & PROTOCOL_SSL) || (SelectedProtocol == PROTOCOL_RDP) ||
446
0
        (SelectedProtocol == PROTOCOL_RDSTLS))
447
0
    {
448
0
      wStream s = { 0 };
449
450
0
      if ((settings->Username != NULL) &&
451
0
          ((freerdp_settings_get_string(settings, FreeRDP_Password) != NULL) ||
452
0
           (settings->RedirectionPassword != NULL &&
453
0
            settings->RedirectionPasswordLength > 0)))
454
0
        settings->AutoLogonEnabled = TRUE;
455
456
0
      if (rdp_recv_callback(rdp->transport, &s, rdp) < 0)
457
0
        return FALSE;
458
0
    }
459
460
0
    transport_set_blocking_mode(rdp->transport, FALSE);
461
0
  }
462
0
  else
463
0
  {
464
0
    if (!rdp_client_transition_to_state(rdp, CONNECTION_STATE_MCS_CREATE_REQUEST))
465
0
      return FALSE;
466
0
  }
467
468
  /* everything beyond this point is event-driven and non blocking */
469
0
  if (!transport_set_recv_callbacks(rdp->transport, rdp_recv_callback, rdp))
470
0
    return FALSE;
471
472
0
  return rdp_client_wait_for_activation(rdp);
473
0
}
474
475
BOOL rdp_client_disconnect(rdpRdp* rdp)
476
0
{
477
0
  rdpContext* context = NULL;
478
479
0
  if (!rdp || !rdp->settings || !rdp->context)
480
0
    return FALSE;
481
482
0
  context = rdp->context;
483
484
0
  if (rdp->nego)
485
0
  {
486
0
    if (!nego_disconnect(rdp->nego))
487
0
      return FALSE;
488
0
  }
489
490
0
  if (!rdp_reset(rdp))
491
0
    return FALSE;
492
493
0
  if (!rdp_client_transition_to_state(rdp, CONNECTION_STATE_INITIAL))
494
0
    return FALSE;
495
496
0
  if (freerdp_channels_disconnect(context->channels, context->instance) != CHANNEL_RC_OK)
497
0
    return FALSE;
498
499
0
  freerdp_client_codecs_free(context->codecs);
500
0
  context->codecs = NULL;
501
0
  return TRUE;
502
0
}
503
504
BOOL rdp_client_disconnect_and_clear(rdpRdp* rdp)
505
0
{
506
0
  rdpContext* context = NULL;
507
508
0
  if (!rdp_client_disconnect(rdp))
509
0
    return FALSE;
510
511
0
  WINPR_ASSERT(rdp);
512
513
0
  context = rdp->context;
514
0
  WINPR_ASSERT(context);
515
516
0
  if (freerdp_get_last_error(context) == FREERDP_ERROR_CONNECT_CANCELLED)
517
0
    return FALSE;
518
519
0
  context->LastError = FREERDP_ERROR_SUCCESS;
520
0
  clearChannelError(context);
521
0
  return utils_reset_abort(rdp);
522
0
}
523
524
static BOOL rdp_client_reconnect_channels(rdpRdp* rdp, BOOL redirect)
525
0
{
526
0
  BOOL status = FALSE;
527
0
  rdpContext* context = NULL;
528
529
0
  if (!rdp || !rdp->context || !rdp->context->channels)
530
0
    return FALSE;
531
532
0
  context = rdp->context;
533
534
0
  if (context->instance->ConnectionCallbackState == CLIENT_STATE_INITIAL)
535
0
    return FALSE;
536
537
0
  if (context->instance->ConnectionCallbackState == CLIENT_STATE_PRECONNECT_PASSED)
538
0
  {
539
0
    if (redirect)
540
0
      return TRUE;
541
542
0
    pointer_cache_register_callbacks(context->update);
543
544
0
    if (!IFCALLRESULT(FALSE, context->instance->PostConnect, context->instance))
545
0
      return FALSE;
546
547
0
    context->instance->ConnectionCallbackState = CLIENT_STATE_POSTCONNECT_PASSED;
548
0
  }
549
550
0
  if (context->instance->ConnectionCallbackState == CLIENT_STATE_POSTCONNECT_PASSED)
551
0
    status =
552
0
        (freerdp_channels_post_connect(context->channels, context->instance) == CHANNEL_RC_OK);
553
554
0
  return status;
555
0
}
556
557
static BOOL rdp_client_redirect_resolvable(const char* host)
558
0
{
559
0
  struct addrinfo* result = freerdp_tcp_resolve_host(host, -1, 0);
560
561
0
  if (!result)
562
0
    return FALSE;
563
564
0
  freeaddrinfo(result);
565
0
  return TRUE;
566
0
}
567
568
static BOOL rdp_client_redirect_try_fqdn(rdpSettings* settings)
569
0
{
570
0
  if (settings->RedirectionFlags & LB_TARGET_FQDN)
571
0
  {
572
0
    if (settings->GatewayEnabled ||
573
0
        rdp_client_redirect_resolvable(settings->RedirectionTargetFQDN))
574
0
    {
575
0
      if (!freerdp_settings_set_string(settings, FreeRDP_ServerHostname,
576
0
                                       settings->RedirectionTargetFQDN))
577
0
        return FALSE;
578
579
0
      return TRUE;
580
0
    }
581
0
  }
582
583
0
  return FALSE;
584
0
}
585
586
static BOOL rdp_client_redirect_try_ip(rdpSettings* settings)
587
0
{
588
0
  if (settings->RedirectionFlags & LB_TARGET_NET_ADDRESS)
589
0
  {
590
0
    if (!freerdp_settings_set_string(settings, FreeRDP_ServerHostname,
591
0
                                     settings->TargetNetAddress))
592
0
      return FALSE;
593
594
0
    return TRUE;
595
0
  }
596
597
0
  return FALSE;
598
0
}
599
600
static BOOL rdp_client_redirect_try_netbios(rdpSettings* settings)
601
0
{
602
0
  if (settings->RedirectionFlags & LB_TARGET_NETBIOS_NAME)
603
0
  {
604
0
    if (settings->GatewayEnabled ||
605
0
        rdp_client_redirect_resolvable(settings->RedirectionTargetNetBiosName))
606
0
    {
607
0
      if (!freerdp_settings_set_string(settings, FreeRDP_ServerHostname,
608
0
                                       settings->RedirectionTargetNetBiosName))
609
0
        return FALSE;
610
611
0
      return TRUE;
612
0
    }
613
0
  }
614
615
0
  return FALSE;
616
0
}
617
618
BOOL rdp_client_redirect(rdpRdp* rdp)
619
0
{
620
0
  BOOL status = 0;
621
0
  rdpSettings* settings = NULL;
622
623
0
  if (!rdp_client_disconnect_and_clear(rdp))
624
0
    return FALSE;
625
626
  /* Only disconnect & close the channels here.
627
   * they will be discarded and recreated after the new settings have been applied. */
628
0
  freerdp_channels_disconnect(rdp->context->channels, rdp->context->instance);
629
0
  freerdp_channels_close(rdp->context->channels, rdp->context->instance);
630
631
0
  if (rdp_redirection_apply_settings(rdp) != 0)
632
0
    return FALSE;
633
634
0
  WINPR_ASSERT(rdp);
635
636
0
  settings = rdp->settings;
637
0
  WINPR_ASSERT(settings);
638
639
0
  if ((settings->RedirectionFlags & LB_LOAD_BALANCE_INFO) == 0)
640
0
  {
641
0
    BOOL haveRedirectAddress = FALSE;
642
0
    UINT32 redirectionMask = settings->RedirectionPreferType;
643
644
0
    do
645
0
    {
646
0
      const BOOL tryFQDN = (redirectionMask & 0x01) == 0;
647
0
      const BOOL tryNetAddress = (redirectionMask & 0x02) == 0;
648
0
      const BOOL tryNetbios = (redirectionMask & 0x04) == 0;
649
650
0
      if (tryFQDN && !haveRedirectAddress)
651
0
        haveRedirectAddress = rdp_client_redirect_try_fqdn(settings);
652
653
0
      if (tryNetAddress && !haveRedirectAddress)
654
0
        haveRedirectAddress = rdp_client_redirect_try_ip(settings);
655
656
0
      if (tryNetbios && !haveRedirectAddress)
657
0
        haveRedirectAddress = rdp_client_redirect_try_netbios(settings);
658
659
0
      redirectionMask >>= 3;
660
0
    } while (!haveRedirectAddress && (redirectionMask != 0));
661
0
  }
662
663
0
  if (settings->RedirectionFlags & LB_USERNAME)
664
0
  {
665
0
    if (!freerdp_settings_set_string(
666
0
            settings, FreeRDP_Username,
667
0
            freerdp_settings_get_string(settings, FreeRDP_RedirectionUsername)))
668
0
      return FALSE;
669
0
  }
670
671
0
  if (settings->RedirectionFlags & LB_DOMAIN)
672
0
  {
673
0
    if (!freerdp_settings_set_string(
674
0
            settings, FreeRDP_Domain,
675
0
            freerdp_settings_get_string(settings, FreeRDP_RedirectionDomain)))
676
0
      return FALSE;
677
0
  }
678
679
0
  settings->RdstlsSecurity =
680
0
      (settings->RedirectionFlags & LB_PASSWORD_IS_PK_ENCRYPTED) != 0 ? TRUE : FALSE;
681
682
0
  WINPR_ASSERT(rdp->context);
683
0
  WINPR_ASSERT(rdp->context->instance);
684
0
  if (!IFCALLRESULT(TRUE, rdp->context->instance->Redirect, rdp->context->instance))
685
0
    return FALSE;
686
687
0
  BOOL ok = utils_reload_channels(rdp->context);
688
0
  if (!ok)
689
0
    return FALSE;
690
691
0
  status = rdp_client_connect(rdp);
692
693
0
  if (status)
694
0
    status = rdp_client_reconnect_channels(rdp, TRUE);
695
696
0
  return status;
697
0
}
698
699
BOOL rdp_client_reconnect(rdpRdp* rdp)
700
0
{
701
0
  BOOL status = 0;
702
703
0
  if (!rdp_client_disconnect_and_clear(rdp))
704
0
    return FALSE;
705
706
0
  status = rdp_client_connect(rdp);
707
708
0
  if (status)
709
0
    status = rdp_client_reconnect_channels(rdp, FALSE);
710
711
0
  return status;
712
0
}
713
714
static const BYTE fips_ivec[8] = { 0x12, 0x34, 0x56, 0x78, 0x90, 0xAB, 0xCD, 0xEF };
715
716
static BOOL rdp_client_establish_keys(rdpRdp* rdp)
717
0
{
718
0
  wStream* s = NULL;
719
0
  int status = 0;
720
0
  BOOL ret = FALSE;
721
722
0
  WINPR_ASSERT(rdp);
723
0
  rdpSettings* settings = rdp->settings;
724
0
  BYTE* crypt_client_random = NULL;
725
726
0
  WINPR_ASSERT(settings);
727
0
  if (!settings->UseRdpSecurityLayer)
728
0
  {
729
    /* no RDP encryption */
730
0
    return TRUE;
731
0
  }
732
733
0
  if (!rdp_client_transition_to_state(rdp, CONNECTION_STATE_RDP_SECURITY_COMMENCEMENT))
734
0
    return FALSE;
735
736
  /* encrypt client random */
737
0
  if (!freerdp_settings_set_pointer_len(settings, FreeRDP_ClientRandom, NULL,
738
0
                                        CLIENT_RANDOM_LENGTH))
739
0
    return FALSE;
740
0
  winpr_RAND(settings->ClientRandom, settings->ClientRandomLength);
741
742
0
  const rdpCertInfo* info = freerdp_certificate_get_info(settings->RdpServerCertificate);
743
0
  if (!info)
744
0
  {
745
0
    WLog_ERR(TAG, "Failed to get rdpCertInfo from RdpServerCertificate");
746
0
    return FALSE;
747
0
  }
748
749
  /*
750
   * client random must be (bitlen / 8) + 8 - see [MS-RDPBCGR] 5.3.4.1
751
   * for details
752
   */
753
0
  crypt_client_random = calloc(info->ModulusLength, 1);
754
755
0
  if (!crypt_client_random)
756
0
    return FALSE;
757
758
0
  crypto_rsa_public_encrypt(settings->ClientRandom, settings->ClientRandomLength, info,
759
0
                            crypt_client_random, info->ModulusLength);
760
  /* send crypt client random to server */
761
0
  const size_t length = RDP_PACKET_HEADER_MAX_LENGTH + RDP_SECURITY_HEADER_LENGTH + 4ULL +
762
0
                        info->ModulusLength + 8ULL;
763
0
  if (length > UINT16_MAX)
764
0
    return FALSE;
765
766
0
  s = Stream_New(NULL, length);
767
768
0
  if (!s)
769
0
  {
770
0
    WLog_ERR(TAG, "Stream_New failed!");
771
0
    goto end;
772
0
  }
773
774
0
  if (!rdp_write_header(rdp, s, length, MCS_GLOBAL_CHANNEL_ID))
775
0
    goto end;
776
0
  if (!rdp_write_security_header(rdp, s, SEC_EXCHANGE_PKT | SEC_LICENSE_ENCRYPT_SC))
777
0
    goto end;
778
779
0
  Stream_Write_UINT32(s, info->ModulusLength + 8);
780
0
  Stream_Write(s, crypt_client_random, info->ModulusLength);
781
0
  Stream_Zero(s, 8);
782
0
  Stream_SealLength(s);
783
0
  status = transport_write(rdp->mcs->transport, s);
784
785
0
  if (status < 0)
786
0
    goto end;
787
788
0
  rdp->do_crypt_license = TRUE;
789
790
  /* now calculate encrypt / decrypt and update keys */
791
0
  if (!security_establish_keys(rdp))
792
0
    goto end;
793
794
0
  rdp->do_crypt = TRUE;
795
796
0
  if (settings->SaltedChecksum)
797
0
    rdp->do_secure_checksum = TRUE;
798
799
0
  if (settings->EncryptionMethods == ENCRYPTION_METHOD_FIPS)
800
0
  {
801
0
    rdp->fips_encrypt = winpr_Cipher_New(WINPR_CIPHER_DES_EDE3_CBC, WINPR_ENCRYPT,
802
0
                                         rdp->fips_encrypt_key, fips_ivec);
803
804
0
    if (!rdp->fips_encrypt)
805
0
    {
806
0
      WLog_ERR(TAG, "unable to allocate des3 encrypt key");
807
0
      goto end;
808
0
    }
809
810
0
    rdp->fips_decrypt = winpr_Cipher_New(WINPR_CIPHER_DES_EDE3_CBC, WINPR_DECRYPT,
811
0
                                         rdp->fips_decrypt_key, fips_ivec);
812
813
0
    if (!rdp->fips_decrypt)
814
0
    {
815
0
      WLog_ERR(TAG, "unable to allocate des3 decrypt key");
816
0
      goto end;
817
0
    }
818
819
0
    ret = TRUE;
820
0
    goto end;
821
0
  }
822
823
0
  if (!rdp_reset_rc4_encrypt_keys(rdp))
824
0
    goto end;
825
0
  if (!rdp_reset_rc4_decrypt_keys(rdp))
826
0
    goto end;
827
828
0
  ret = TRUE;
829
0
end:
830
0
  Stream_Free(s, TRUE);
831
0
  free(crypt_client_random);
832
833
0
  if (!ret)
834
0
  {
835
0
    winpr_Cipher_Free(rdp->fips_decrypt);
836
0
    winpr_Cipher_Free(rdp->fips_encrypt);
837
0
    rdp->fips_decrypt = NULL;
838
0
    rdp->fips_encrypt = NULL;
839
840
0
    rdp_free_rc4_decrypt_keys(rdp);
841
0
    rdp_free_rc4_encrypt_keys(rdp);
842
0
  }
843
844
0
  return ret;
845
0
}
846
847
static BOOL rdp_update_client_random(rdpSettings* settings, const BYTE* crypt_random,
848
                                     size_t crypt_random_len)
849
0
{
850
0
  const size_t length = 32;
851
0
  WINPR_ASSERT(settings);
852
853
0
  const rdpPrivateKey* rsa = freerdp_settings_get_pointer(settings, FreeRDP_RdpServerRsaKey);
854
0
  WINPR_ASSERT(rsa);
855
856
0
  const rdpCertInfo* cinfo = freerdp_key_get_info(rsa);
857
0
  WINPR_ASSERT(cinfo);
858
859
0
  if (crypt_random_len != cinfo->ModulusLength + 8)
860
0
  {
861
0
    WLog_ERR(TAG, "invalid encrypted client random length");
862
0
    return FALSE;
863
0
  }
864
0
  if (!freerdp_settings_set_pointer_len(settings, FreeRDP_ClientRandom, NULL, length))
865
0
    return FALSE;
866
867
0
  BYTE* client_random = freerdp_settings_get_pointer_writable(settings, FreeRDP_ClientRandom);
868
0
  WINPR_ASSERT(client_random);
869
0
  return crypto_rsa_private_decrypt(crypt_random, crypt_random_len - 8, rsa, client_random,
870
0
                                    length) > 0;
871
0
}
872
873
BOOL rdp_server_establish_keys(rdpRdp* rdp, wStream* s)
874
0
{
875
0
  UINT32 rand_len = 0;
876
0
  UINT16 channel_id = 0;
877
0
  UINT16 length = 0;
878
0
  UINT16 sec_flags = 0;
879
0
  BOOL ret = FALSE;
880
881
0
  WINPR_ASSERT(rdp);
882
883
0
  if (!rdp->settings->UseRdpSecurityLayer)
884
0
  {
885
    /* No RDP Security. */
886
0
    return TRUE;
887
0
  }
888
889
0
  if (!rdp_read_header(rdp, s, &length, &channel_id))
890
0
    return FALSE;
891
892
0
  if (!rdp_read_security_header(rdp, s, &sec_flags, NULL))
893
0
  {
894
0
    WLog_ERR(TAG, "invalid security header");
895
0
    return FALSE;
896
0
  }
897
898
0
  if ((sec_flags & SEC_EXCHANGE_PKT) == 0)
899
0
  {
900
0
    WLog_ERR(TAG, "missing SEC_EXCHANGE_PKT in security header");
901
0
    return FALSE;
902
0
  }
903
904
0
  rdp->do_crypt_license = (sec_flags & SEC_LICENSE_ENCRYPT_SC) != 0 ? TRUE : FALSE;
905
906
0
  if (!Stream_CheckAndLogRequiredLength(TAG, s, 4))
907
0
    return FALSE;
908
909
0
  Stream_Read_UINT32(s, rand_len);
910
911
  /* rand_len already includes 8 bytes of padding */
912
0
  if (!Stream_CheckAndLogRequiredLength(TAG, s, rand_len))
913
0
    return FALSE;
914
915
0
  const BYTE* crypt_random = Stream_ConstPointer(s);
916
0
  if (!Stream_SafeSeek(s, rand_len))
917
0
    goto end;
918
0
  if (!rdp_update_client_random(rdp->settings, crypt_random, rand_len))
919
0
    goto end;
920
921
  /* now calculate encrypt / decrypt and update keys */
922
0
  if (!security_establish_keys(rdp))
923
0
    goto end;
924
925
0
  rdp->do_crypt = TRUE;
926
927
0
  if (rdp->settings->EncryptionMethods == ENCRYPTION_METHOD_FIPS)
928
0
  {
929
0
    rdp->fips_encrypt = winpr_Cipher_New(WINPR_CIPHER_DES_EDE3_CBC, WINPR_ENCRYPT,
930
0
                                         rdp->fips_encrypt_key, fips_ivec);
931
932
0
    if (!rdp->fips_encrypt)
933
0
    {
934
0
      WLog_ERR(TAG, "unable to allocate des3 encrypt key");
935
0
      goto end;
936
0
    }
937
938
0
    rdp->fips_decrypt = winpr_Cipher_New(WINPR_CIPHER_DES_EDE3_CBC, WINPR_DECRYPT,
939
0
                                         rdp->fips_decrypt_key, fips_ivec);
940
941
0
    if (!rdp->fips_decrypt)
942
0
    {
943
0
      WLog_ERR(TAG, "unable to allocate des3 decrypt key");
944
0
      goto end;
945
0
    }
946
947
0
    ret = TRUE;
948
0
    goto end;
949
0
  }
950
951
0
  if (!rdp_reset_rc4_encrypt_keys(rdp))
952
0
    goto end;
953
954
0
  if (!rdp_reset_rc4_decrypt_keys(rdp))
955
0
    goto end;
956
957
0
  ret = tpkt_ensure_stream_consumed(s, length);
958
0
end:
959
960
0
  if (!ret)
961
0
  {
962
0
    winpr_Cipher_Free(rdp->fips_encrypt);
963
0
    winpr_Cipher_Free(rdp->fips_decrypt);
964
0
    rdp->fips_encrypt = NULL;
965
0
    rdp->fips_decrypt = NULL;
966
967
0
    rdp_free_rc4_encrypt_keys(rdp);
968
0
    rdp_free_rc4_decrypt_keys(rdp);
969
0
  }
970
971
0
  return ret;
972
0
}
973
974
static BOOL rdp_client_send_client_info_and_change_state(rdpRdp* rdp)
975
0
{
976
0
  WINPR_ASSERT(rdp);
977
0
  if (!rdp_client_establish_keys(rdp))
978
0
    return FALSE;
979
0
  if (!rdp_client_transition_to_state(rdp, CONNECTION_STATE_SECURE_SETTINGS_EXCHANGE))
980
0
    return FALSE;
981
0
  if (!rdp_send_client_info(rdp))
982
0
    return FALSE;
983
0
  if (!rdp_client_transition_to_state(rdp, CONNECTION_STATE_CONNECT_TIME_AUTO_DETECT_REQUEST))
984
0
    return FALSE;
985
0
  return TRUE;
986
0
}
987
988
BOOL rdp_client_skip_mcs_channel_join(rdpRdp* rdp)
989
0
{
990
0
  WINPR_ASSERT(rdp);
991
992
0
  rdpMcs* mcs = rdp->mcs;
993
0
  WINPR_ASSERT(mcs);
994
995
0
  mcs->userChannelJoined = TRUE;
996
0
  mcs->globalChannelJoined = TRUE;
997
0
  mcs->messageChannelJoined = TRUE;
998
999
0
  for (UINT32 i = 0; i < mcs->channelCount; i++)
1000
0
  {
1001
0
    rdpMcsChannel* cur = &mcs->channels[i];
1002
0
    WLog_DBG(TAG, " %s [%" PRIu16 "]", cur->Name, cur->ChannelId);
1003
0
    cur->joined = TRUE;
1004
0
  }
1005
1006
0
  return rdp_client_send_client_info_and_change_state(rdp);
1007
0
}
1008
1009
static BOOL rdp_client_join_channel(rdpRdp* rdp, UINT16 ChannelId)
1010
0
{
1011
0
  WINPR_ASSERT(rdp);
1012
1013
0
  rdpMcs* mcs = rdp->mcs;
1014
0
  if (!rdp_client_transition_to_state(rdp, CONNECTION_STATE_MCS_CHANNEL_JOIN_REQUEST))
1015
0
    return FALSE;
1016
0
  if (!mcs_send_channel_join_request(mcs, ChannelId))
1017
0
    return FALSE;
1018
0
  if (!rdp_client_transition_to_state(rdp, CONNECTION_STATE_MCS_CHANNEL_JOIN_RESPONSE))
1019
0
    return FALSE;
1020
0
  return TRUE;
1021
0
}
1022
1023
BOOL rdp_client_connect_mcs_channel_join_confirm(rdpRdp* rdp, wStream* s)
1024
0
{
1025
0
  UINT16 channelId = 0;
1026
0
  BOOL allJoined = TRUE;
1027
1028
0
  WINPR_ASSERT(rdp);
1029
0
  rdpMcs* mcs = rdp->mcs;
1030
1031
0
  if (!mcs_recv_channel_join_confirm(mcs, s, &channelId))
1032
0
    return FALSE;
1033
1034
0
  if (!mcs->userChannelJoined)
1035
0
  {
1036
0
    if (channelId != mcs->userId)
1037
0
    {
1038
0
      WLog_ERR(TAG, "expected user channel id %" PRIu16 ", but received %" PRIu16,
1039
0
               mcs->userId, channelId);
1040
0
      return FALSE;
1041
0
    }
1042
1043
0
    mcs->userChannelJoined = TRUE;
1044
0
    if (!rdp_client_join_channel(rdp, MCS_GLOBAL_CHANNEL_ID))
1045
0
      return FALSE;
1046
0
  }
1047
0
  else if (!mcs->globalChannelJoined)
1048
0
  {
1049
0
    if (channelId != MCS_GLOBAL_CHANNEL_ID)
1050
0
    {
1051
0
      WLog_ERR(TAG, "expected uglobalser channel id %" PRIu16 ", but received %" PRIu16,
1052
0
               MCS_GLOBAL_CHANNEL_ID, channelId);
1053
0
      return FALSE;
1054
0
    }
1055
0
    mcs->globalChannelJoined = TRUE;
1056
1057
0
    if (mcs->messageChannelId != 0)
1058
0
    {
1059
0
      if (!rdp_client_join_channel(rdp, mcs->messageChannelId))
1060
0
        return FALSE;
1061
0
      allJoined = FALSE;
1062
0
    }
1063
0
    else
1064
0
    {
1065
0
      if (mcs->channelCount > 0)
1066
0
      {
1067
0
        const rdpMcsChannel* cur = &mcs->channels[0];
1068
0
        if (!rdp_client_join_channel(rdp, cur->ChannelId))
1069
0
          return FALSE;
1070
0
        allJoined = FALSE;
1071
0
      }
1072
0
    }
1073
0
  }
1074
0
  else if ((mcs->messageChannelId != 0) && !mcs->messageChannelJoined)
1075
0
  {
1076
0
    if (channelId != mcs->messageChannelId)
1077
0
    {
1078
0
      WLog_ERR(TAG, "expected messageChannelId=%" PRIu16 ", got %" PRIu16,
1079
0
               mcs->messageChannelId, channelId);
1080
0
      return FALSE;
1081
0
    }
1082
1083
0
    mcs->messageChannelJoined = TRUE;
1084
1085
0
    if (mcs->channelCount > 0)
1086
0
    {
1087
0
      const rdpMcsChannel* cur = &mcs->channels[0];
1088
0
      if (!rdp_client_join_channel(rdp, cur->ChannelId))
1089
0
        return FALSE;
1090
0
      allJoined = FALSE;
1091
0
    }
1092
0
  }
1093
0
  else
1094
0
  {
1095
0
    UINT32 i = 0;
1096
0
    for (; i < mcs->channelCount; i++)
1097
0
    {
1098
0
      rdpMcsChannel* cur = &mcs->channels[i];
1099
0
      if (cur->joined)
1100
0
        continue;
1101
1102
0
      if (cur->ChannelId != channelId)
1103
0
      {
1104
0
        WLog_ERR(TAG, "expected channel id %" PRIu16 ", but received %" PRIu16,
1105
0
                 MCS_GLOBAL_CHANNEL_ID, channelId);
1106
0
        return FALSE;
1107
0
      }
1108
0
      cur->joined = TRUE;
1109
0
      break;
1110
0
    }
1111
1112
0
    if (i + 1 < mcs->channelCount)
1113
0
    {
1114
0
      const rdpMcsChannel* cur = &mcs->channels[i + 1];
1115
0
      if (!rdp_client_join_channel(rdp, cur->ChannelId))
1116
0
        return FALSE;
1117
0
      allJoined = FALSE;
1118
0
    }
1119
0
  }
1120
1121
0
  if (mcs->userChannelJoined && mcs->globalChannelJoined && allJoined)
1122
0
  {
1123
0
    if (!rdp_client_send_client_info_and_change_state(rdp))
1124
0
      return FALSE;
1125
0
  }
1126
1127
0
  return TRUE;
1128
0
}
1129
1130
BOOL rdp_client_connect_auto_detect(rdpRdp* rdp, wStream* s)
1131
0
{
1132
0
  WINPR_ASSERT(rdp);
1133
0
  WINPR_ASSERT(rdp->mcs);
1134
1135
0
  const UINT16 messageChannelId = rdp->mcs->messageChannelId;
1136
  /* If the MCS message channel has been joined... */
1137
0
  if (messageChannelId != 0)
1138
0
  {
1139
    /* Process any MCS message channel PDUs. */
1140
0
    const size_t pos = Stream_GetPosition(s);
1141
0
    UINT16 length = 0;
1142
0
    UINT16 channelId = 0;
1143
1144
0
    if (rdp_read_header(rdp, s, &length, &channelId))
1145
0
    {
1146
0
      if (channelId == messageChannelId)
1147
0
      {
1148
0
        UINT16 securityFlags = 0;
1149
1150
0
        if (!rdp_read_security_header(rdp, s, &securityFlags, &length))
1151
0
          return FALSE;
1152
1153
0
        if (securityFlags & SEC_ENCRYPT)
1154
0
        {
1155
0
          if (!rdp_decrypt(rdp, s, &length, securityFlags))
1156
0
            return FALSE;
1157
0
        }
1158
1159
0
        if (rdp_recv_message_channel_pdu(rdp, s, securityFlags) == STATE_RUN_SUCCESS)
1160
0
          return tpkt_ensure_stream_consumed(s, length);
1161
0
      }
1162
0
    }
1163
0
    else
1164
0
      WLog_WARN(TAG, "expected messageChannelId=%" PRIu16 ", got %" PRIu16, messageChannelId,
1165
0
                channelId);
1166
1167
0
    Stream_SetPosition(s, pos);
1168
0
  }
1169
0
  else
1170
0
    WLog_WARN(TAG, "messageChannelId == 0");
1171
1172
0
  return FALSE;
1173
0
}
1174
1175
state_run_t rdp_client_connect_license(rdpRdp* rdp, wStream* s)
1176
0
{
1177
0
  state_run_t status = STATE_RUN_FAILED;
1178
0
  LICENSE_STATE state = LICENSE_STATE_ABORTED;
1179
0
  UINT16 length = 0;
1180
0
  UINT16 channelId = 0;
1181
0
  UINT16 securityFlags = 0;
1182
1183
0
  WINPR_ASSERT(rdp);
1184
0
  if (!rdp_read_header(rdp, s, &length, &channelId))
1185
0
    return STATE_RUN_FAILED;
1186
1187
0
  if (!rdp_read_security_header(rdp, s, &securityFlags, &length))
1188
0
    return STATE_RUN_FAILED;
1189
1190
0
  if (securityFlags & SEC_ENCRYPT)
1191
0
  {
1192
0
    if (!rdp_decrypt(rdp, s, &length, securityFlags))
1193
0
      return STATE_RUN_FAILED;
1194
0
  }
1195
1196
  /* there might be autodetect messages mixed in between licensing messages.
1197
   * that has been observed with 2k12 R2 and 2k19
1198
   */
1199
0
  const UINT16 messageChannelId = rdp->mcs->messageChannelId;
1200
0
  if ((channelId == messageChannelId) || (securityFlags & SEC_AUTODETECT_REQ))
1201
0
  {
1202
0
    return rdp_recv_message_channel_pdu(rdp, s, securityFlags);
1203
0
  }
1204
1205
0
  if (channelId != MCS_GLOBAL_CHANNEL_ID)
1206
0
    WLog_WARN(TAG, "unexpected message for channel %u, expected %u", channelId,
1207
0
              MCS_GLOBAL_CHANNEL_ID);
1208
1209
0
  if ((securityFlags & SEC_LICENSE_PKT) == 0)
1210
0
  {
1211
0
    char buffer[512] = { 0 };
1212
0
    char lbuffer[32] = { 0 };
1213
0
    WLog_ERR(TAG, "securityFlags=%s, missing required flag %s",
1214
0
             rdp_security_flag_string(securityFlags, buffer, sizeof(buffer)),
1215
0
             rdp_security_flag_string(SEC_LICENSE_PKT, lbuffer, sizeof(lbuffer)));
1216
0
    return STATE_RUN_FAILED;
1217
0
  }
1218
1219
0
  status = license_recv(rdp->license, s);
1220
1221
0
  if (state_run_failed(status))
1222
0
    return status;
1223
1224
0
  state = license_get_state(rdp->license);
1225
0
  switch (state)
1226
0
  {
1227
0
    case LICENSE_STATE_ABORTED:
1228
0
      WLog_ERR(TAG, "license connection sequence aborted.");
1229
0
      return STATE_RUN_FAILED;
1230
0
    case LICENSE_STATE_COMPLETED:
1231
0
      if (rdp->settings->MultitransportFlags)
1232
0
      {
1233
0
        if (!rdp_client_transition_to_state(
1234
0
                rdp, CONNECTION_STATE_MULTITRANSPORT_BOOTSTRAPPING_REQUEST))
1235
0
          return STATE_RUN_FAILED;
1236
0
      }
1237
0
      else
1238
0
      {
1239
0
        if (!rdp_client_transition_to_state(
1240
0
                rdp, CONNECTION_STATE_CAPABILITIES_EXCHANGE_DEMAND_ACTIVE))
1241
0
          return STATE_RUN_FAILED;
1242
0
      }
1243
0
      return STATE_RUN_SUCCESS;
1244
0
    default:
1245
0
      return STATE_RUN_SUCCESS;
1246
0
  }
1247
0
}
1248
1249
state_run_t rdp_client_connect_demand_active(rdpRdp* rdp, wStream* s)
1250
0
{
1251
0
  UINT16 length = 0;
1252
0
  UINT16 channelId = 0;
1253
0
  UINT16 pduType = 0;
1254
0
  UINT16 pduSource = 0;
1255
1256
0
  WINPR_ASSERT(rdp);
1257
0
  WINPR_ASSERT(s);
1258
0
  WINPR_ASSERT(rdp->settings);
1259
1260
0
  if (!rdp_recv_get_active_header(rdp, s, &channelId, &length))
1261
0
    return STATE_RUN_FAILED;
1262
1263
0
  if (freerdp_shall_disconnect_context(rdp->context))
1264
0
    return STATE_RUN_QUIT_SESSION;
1265
1266
0
  if (!rdp_read_share_control_header(rdp, s, NULL, NULL, &pduType, &pduSource))
1267
0
    return STATE_RUN_FAILED;
1268
1269
0
  switch (pduType)
1270
0
  {
1271
0
    case PDU_TYPE_DEMAND_ACTIVE:
1272
0
      if (!rdp_recv_demand_active(rdp, s, pduSource, length))
1273
0
        return STATE_RUN_FAILED;
1274
0
      return STATE_RUN_ACTIVE;
1275
0
    default:
1276
0
      return rdp_recv_out_of_sequence_pdu(rdp, s, pduType, length);
1277
0
  }
1278
0
}
1279
1280
state_run_t rdp_client_connect_finalize(rdpRdp* rdp)
1281
0
{
1282
0
  WINPR_ASSERT(rdp);
1283
  /**
1284
   * [MS-RDPBCGR] 1.3.1.1 - 8.
1285
   * The client-to-server PDUs sent during this phase have no dependencies on any of the
1286
   * server-to- client PDUs; they may be sent as a single batch, provided that sequencing is
1287
   * maintained.
1288
   */
1289
0
  if (!rdp_client_transition_to_state(rdp, CONNECTION_STATE_FINALIZATION_SYNC))
1290
0
    return STATE_RUN_FAILED;
1291
1292
0
  if (!rdp_send_client_synchronize_pdu(rdp))
1293
0
    return STATE_RUN_FAILED;
1294
1295
0
  if (!rdp_client_transition_to_state(rdp, CONNECTION_STATE_FINALIZATION_COOPERATE))
1296
0
    return STATE_RUN_FAILED;
1297
0
  if (!rdp_send_client_control_pdu(rdp, CTRLACTION_COOPERATE))
1298
0
    return STATE_RUN_FAILED;
1299
1300
0
  if (!rdp_client_transition_to_state(rdp, CONNECTION_STATE_FINALIZATION_REQUEST_CONTROL))
1301
0
    return STATE_RUN_FAILED;
1302
0
  if (!rdp_send_client_control_pdu(rdp, CTRLACTION_REQUEST_CONTROL))
1303
0
    return STATE_RUN_FAILED;
1304
1305
  /**
1306
   * [MS-RDPBCGR] 2.2.1.17
1307
   * Client persistent key list must be sent if a bitmap is
1308
   * stored in persistent bitmap cache or the server has advertised support for bitmap
1309
   * host cache and a deactivation reactivation sequence is *not* in progress.
1310
   */
1311
1312
0
  if (!rdp_finalize_is_flag_set(rdp, FINALIZE_DEACTIVATE_REACTIVATE) &&
1313
0
      freerdp_settings_get_bool(rdp->settings, FreeRDP_BitmapCachePersistEnabled))
1314
0
  {
1315
0
    if (!rdp_client_transition_to_state(rdp, CONNECTION_STATE_FINALIZATION_PERSISTENT_KEY_LIST))
1316
0
      return STATE_RUN_FAILED;
1317
0
    if (!rdp_send_client_persistent_key_list_pdu(rdp))
1318
0
      return STATE_RUN_FAILED;
1319
0
  }
1320
1321
0
  if (!rdp_client_transition_to_state(rdp, CONNECTION_STATE_FINALIZATION_FONT_LIST))
1322
0
    return STATE_RUN_FAILED;
1323
0
  if (!rdp_send_client_font_list_pdu(rdp, FONTLIST_FIRST | FONTLIST_LAST))
1324
0
    return STATE_RUN_FAILED;
1325
1326
0
  if (!rdp_client_transition_to_state(rdp, CONNECTION_STATE_FINALIZATION_CLIENT_SYNC))
1327
0
    return STATE_RUN_FAILED;
1328
0
  return STATE_RUN_SUCCESS;
1329
0
}
1330
1331
BOOL rdp_client_transition_to_state(rdpRdp* rdp, CONNECTION_STATE state)
1332
13.2k
{
1333
13.2k
  const char* name = rdp_state_string(state);
1334
1335
13.2k
  WINPR_ASSERT(rdp);
1336
13.2k
  WLog_Print(rdp->log, WLOG_DEBUG, "%s --> %s", rdp_get_state_string(rdp), name);
1337
1338
13.2k
  if (!rdp_set_state(rdp, state))
1339
0
    return FALSE;
1340
1341
13.2k
  switch (state)
1342
13.2k
  {
1343
0
    case CONNECTION_STATE_FINALIZATION_SYNC:
1344
0
    case CONNECTION_STATE_FINALIZATION_COOPERATE:
1345
0
    case CONNECTION_STATE_FINALIZATION_REQUEST_CONTROL:
1346
0
    case CONNECTION_STATE_FINALIZATION_PERSISTENT_KEY_LIST:
1347
0
    case CONNECTION_STATE_FINALIZATION_FONT_LIST:
1348
0
      update_reset_state(rdp->update);
1349
0
      break;
1350
1351
0
    case CONNECTION_STATE_CAPABILITIES_EXCHANGE_CONFIRM_ACTIVE:
1352
0
    {
1353
0
      ActivatedEventArgs activatedEvent = { 0 };
1354
0
      rdpContext* context = rdp->context;
1355
0
      EventArgsInit(&activatedEvent, "libfreerdp");
1356
0
      activatedEvent.firstActivation =
1357
0
          !rdp_finalize_is_flag_set(rdp, FINALIZE_DEACTIVATE_REACTIVATE);
1358
0
      PubSub_OnActivated(rdp->pubSub, context, &activatedEvent);
1359
0
    }
1360
1361
0
    break;
1362
1363
13.2k
    default:
1364
13.2k
      break;
1365
13.2k
  }
1366
1367
13.2k
  {
1368
13.2k
    ConnectionStateChangeEventArgs stateEvent = { 0 };
1369
13.2k
    rdpContext* context = rdp->context;
1370
13.2k
    EventArgsInit(&stateEvent, "libfreerdp");
1371
13.2k
    stateEvent.state = rdp_get_state(rdp);
1372
13.2k
    stateEvent.active = rdp_is_active_state(rdp);
1373
13.2k
    PubSub_OnConnectionStateChange(rdp->pubSub, context, &stateEvent);
1374
13.2k
  }
1375
1376
13.2k
  return TRUE;
1377
13.2k
}
1378
1379
BOOL rdp_server_accept_nego(rdpRdp* rdp, wStream* s)
1380
0
{
1381
0
  UINT32 SelectedProtocol = 0;
1382
0
  UINT32 RequestedProtocols = 0;
1383
0
  BOOL status = 0;
1384
0
  rdpSettings* settings = NULL;
1385
0
  rdpNego* nego = NULL;
1386
1387
0
  WINPR_ASSERT(rdp);
1388
0
  WINPR_ASSERT(s);
1389
1390
0
  settings = rdp->settings;
1391
0
  WINPR_ASSERT(settings);
1392
1393
0
  nego = rdp->nego;
1394
0
  WINPR_ASSERT(nego);
1395
1396
0
  transport_set_blocking_mode(rdp->transport, TRUE);
1397
1398
0
  if (!nego_read_request(nego, s))
1399
0
    return FALSE;
1400
1401
0
  RequestedProtocols = nego_get_requested_protocols(nego);
1402
0
  WLog_DBG(TAG, "Client Security: RDSTLS:%d NLA:%d TLS:%d RDP:%d",
1403
0
           (RequestedProtocols & PROTOCOL_RDSTLS) ? 1 : 0,
1404
0
           (RequestedProtocols & PROTOCOL_HYBRID) ? 1 : 0,
1405
0
           (RequestedProtocols & PROTOCOL_SSL) ? 1 : 0,
1406
0
           (RequestedProtocols == PROTOCOL_RDP) ? 1 : 0);
1407
0
  WLog_DBG(TAG,
1408
0
           "Server Security: RDSTLS:%" PRId32 " NLA:%" PRId32 " TLS:%" PRId32 " RDP:%" PRId32 "",
1409
0
           settings->RdstlsSecurity, settings->NlaSecurity, settings->TlsSecurity,
1410
0
           settings->RdpSecurity);
1411
1412
0
  if ((settings->RdstlsSecurity) && (RequestedProtocols & PROTOCOL_RDSTLS))
1413
0
  {
1414
0
    SelectedProtocol = PROTOCOL_RDSTLS;
1415
0
  }
1416
0
  else if ((settings->NlaSecurity) && (RequestedProtocols & PROTOCOL_HYBRID))
1417
0
  {
1418
0
    SelectedProtocol = PROTOCOL_HYBRID;
1419
0
  }
1420
0
  else if ((settings->TlsSecurity) && (RequestedProtocols & PROTOCOL_SSL))
1421
0
  {
1422
0
    SelectedProtocol = PROTOCOL_SSL;
1423
0
  }
1424
0
  else if ((settings->RdpSecurity) && (RequestedProtocols == PROTOCOL_RDP))
1425
0
  {
1426
0
    SelectedProtocol = PROTOCOL_RDP;
1427
0
  }
1428
0
  else
1429
0
  {
1430
    /*
1431
     * when here client and server aren't compatible, we select the right
1432
     * error message to return to the client in the nego failure packet
1433
     */
1434
0
    SelectedProtocol = PROTOCOL_FAILED_NEGO;
1435
1436
0
    if (settings->RdpSecurity)
1437
0
    {
1438
0
      WLog_ERR(TAG, "server supports only Standard RDP Security");
1439
0
      SelectedProtocol |= SSL_NOT_ALLOWED_BY_SERVER;
1440
0
    }
1441
0
    else
1442
0
    {
1443
0
      if (settings->NlaSecurity && !settings->TlsSecurity)
1444
0
      {
1445
0
        WLog_WARN(TAG, "server supports only NLA Security");
1446
0
        SelectedProtocol |= HYBRID_REQUIRED_BY_SERVER;
1447
0
      }
1448
0
      else
1449
0
      {
1450
0
        WLog_WARN(TAG, "server supports only a SSL based Security (TLS or NLA)");
1451
0
        SelectedProtocol |= SSL_REQUIRED_BY_SERVER;
1452
0
      }
1453
0
    }
1454
1455
0
    WLog_ERR(TAG, "Protocol security negotiation failure");
1456
0
  }
1457
1458
0
  if (!(SelectedProtocol & PROTOCOL_FAILED_NEGO))
1459
0
  {
1460
0
    WLog_DBG(TAG, "Negotiated Security: RDSTLS:%d NLA:%d TLS:%d RDP:%d",
1461
0
             (SelectedProtocol & PROTOCOL_RDSTLS) ? 1 : 0,
1462
0
             (SelectedProtocol & PROTOCOL_HYBRID) ? 1 : 0,
1463
0
             (SelectedProtocol & PROTOCOL_SSL) ? 1 : 0,
1464
0
             (SelectedProtocol == PROTOCOL_RDP) ? 1 : 0);
1465
0
  }
1466
1467
0
  if (!nego_set_selected_protocol(nego, SelectedProtocol))
1468
0
    return FALSE;
1469
1470
0
  if (!nego_send_negotiation_response(nego))
1471
0
    return FALSE;
1472
1473
0
  SelectedProtocol = nego_get_selected_protocol(nego);
1474
0
  status = FALSE;
1475
1476
0
  if (SelectedProtocol & PROTOCOL_RDSTLS)
1477
0
    status = transport_accept_rdstls(rdp->transport);
1478
0
  else if (SelectedProtocol & PROTOCOL_HYBRID)
1479
0
    status = transport_accept_nla(rdp->transport);
1480
0
  else if (SelectedProtocol & PROTOCOL_SSL)
1481
0
    status = transport_accept_tls(rdp->transport);
1482
0
  else if (SelectedProtocol == PROTOCOL_RDP) /* 0 */
1483
0
    status = transport_accept_rdp(rdp->transport);
1484
1485
0
  if (!status)
1486
0
    return FALSE;
1487
1488
0
  transport_set_blocking_mode(rdp->transport, FALSE);
1489
1490
0
  return TRUE;
1491
0
}
1492
1493
static BOOL rdp_update_encryption_level(rdpSettings* settings)
1494
0
{
1495
0
  WINPR_ASSERT(settings);
1496
1497
0
  UINT32 EncryptionLevel = freerdp_settings_get_uint32(settings, FreeRDP_EncryptionLevel);
1498
0
  UINT32 EncryptionMethods = freerdp_settings_get_uint32(settings, FreeRDP_EncryptionMethods);
1499
1500
  /**
1501
   * Re: settings->EncryptionLevel:
1502
   * This is configured/set by the server implementation and serves the same
1503
   * purpose as the "Encryption Level" setting in the RDP-Tcp configuration
1504
   * dialog of Microsoft's Remote Desktop Session Host Configuration.
1505
   * Re: settings->EncryptionMethods:
1506
   * at this point this setting contains the client's supported encryption
1507
   * methods we've received in gcc_read_client_security_data()
1508
   */
1509
1510
0
  if (!settings->UseRdpSecurityLayer)
1511
0
  {
1512
    /* TLS/NLA is used: disable rdp style encryption */
1513
0
    EncryptionLevel = ENCRYPTION_LEVEL_NONE;
1514
0
  }
1515
0
  else
1516
0
  {
1517
    /* verify server encryption level value */
1518
0
    switch (EncryptionLevel)
1519
0
    {
1520
0
      case ENCRYPTION_LEVEL_NONE:
1521
0
        WLog_INFO(TAG, "Active rdp encryption level: NONE");
1522
0
        break;
1523
1524
0
      case ENCRYPTION_LEVEL_FIPS:
1525
0
        WLog_INFO(TAG, "Active rdp encryption level: FIPS Compliant");
1526
0
        break;
1527
1528
0
      case ENCRYPTION_LEVEL_HIGH:
1529
0
        WLog_INFO(TAG, "Active rdp encryption level: HIGH");
1530
0
        break;
1531
1532
0
      case ENCRYPTION_LEVEL_LOW:
1533
0
        WLog_INFO(TAG, "Active rdp encryption level: LOW");
1534
0
        break;
1535
1536
0
      case ENCRYPTION_LEVEL_CLIENT_COMPATIBLE:
1537
0
        WLog_INFO(TAG, "Active rdp encryption level: CLIENT-COMPATIBLE");
1538
0
        break;
1539
1540
0
      default:
1541
0
        WLog_ERR(TAG, "Invalid server encryption level 0x%08" PRIX32 "", EncryptionLevel);
1542
0
        WLog_ERR(TAG, "Switching to encryption level CLIENT-COMPATIBLE");
1543
0
        EncryptionLevel = ENCRYPTION_LEVEL_CLIENT_COMPATIBLE;
1544
0
    }
1545
0
  }
1546
1547
  /* choose rdp encryption method based on server level and client methods */
1548
0
  switch (EncryptionLevel)
1549
0
  {
1550
0
    case ENCRYPTION_LEVEL_NONE:
1551
      /* The only valid method is NONE in this case */
1552
0
      EncryptionMethods = ENCRYPTION_METHOD_NONE;
1553
0
      break;
1554
1555
0
    case ENCRYPTION_LEVEL_FIPS:
1556
1557
      /* The only valid method is FIPS in this case */
1558
0
      if (!(EncryptionMethods & ENCRYPTION_METHOD_FIPS))
1559
0
      {
1560
0
        WLog_WARN(TAG, "client does not support FIPS as required by server configuration");
1561
0
      }
1562
1563
0
      EncryptionMethods = ENCRYPTION_METHOD_FIPS;
1564
0
      break;
1565
1566
0
    case ENCRYPTION_LEVEL_HIGH:
1567
1568
      /* Maximum key strength supported by the server must be used (128 bit)*/
1569
0
      if (!(EncryptionMethods & ENCRYPTION_METHOD_128BIT))
1570
0
      {
1571
0
        WLog_WARN(TAG, "client does not support 128 bit encryption method as required by "
1572
0
                       "server configuration");
1573
0
      }
1574
1575
0
      EncryptionMethods = ENCRYPTION_METHOD_128BIT;
1576
0
      break;
1577
1578
0
    case ENCRYPTION_LEVEL_LOW:
1579
0
    case ENCRYPTION_LEVEL_CLIENT_COMPATIBLE:
1580
1581
      /* Maximum key strength supported by the client must be used */
1582
0
      if (EncryptionMethods & ENCRYPTION_METHOD_128BIT)
1583
0
        EncryptionMethods = ENCRYPTION_METHOD_128BIT;
1584
0
      else if (EncryptionMethods & ENCRYPTION_METHOD_56BIT)
1585
0
        EncryptionMethods = ENCRYPTION_METHOD_56BIT;
1586
0
      else if (EncryptionMethods & ENCRYPTION_METHOD_40BIT)
1587
0
        EncryptionMethods = ENCRYPTION_METHOD_40BIT;
1588
0
      else if (EncryptionMethods & ENCRYPTION_METHOD_FIPS)
1589
0
        EncryptionMethods = ENCRYPTION_METHOD_FIPS;
1590
0
      else
1591
0
      {
1592
0
        WLog_WARN(TAG, "client has not announced any supported encryption methods");
1593
0
        EncryptionMethods = ENCRYPTION_METHOD_128BIT;
1594
0
      }
1595
1596
0
      break;
1597
1598
0
    default:
1599
0
      WLog_ERR(TAG, "internal error: unknown encryption level");
1600
0
      return FALSE;
1601
0
  }
1602
1603
  /* log selected encryption method */
1604
0
  if (settings->UseRdpSecurityLayer)
1605
0
  {
1606
0
    switch (EncryptionMethods)
1607
0
    {
1608
0
      case ENCRYPTION_METHOD_NONE:
1609
0
        WLog_INFO(TAG, "Selected rdp encryption method: NONE");
1610
0
        break;
1611
1612
0
      case ENCRYPTION_METHOD_40BIT:
1613
0
        WLog_INFO(TAG, "Selected rdp encryption method: 40BIT");
1614
0
        break;
1615
1616
0
      case ENCRYPTION_METHOD_56BIT:
1617
0
        WLog_INFO(TAG, "Selected rdp encryption method: 56BIT");
1618
0
        break;
1619
1620
0
      case ENCRYPTION_METHOD_128BIT:
1621
0
        WLog_INFO(TAG, "Selected rdp encryption method: 128BIT");
1622
0
        break;
1623
1624
0
      case ENCRYPTION_METHOD_FIPS:
1625
0
        WLog_INFO(TAG, "Selected rdp encryption method: FIPS");
1626
0
        break;
1627
1628
0
      default:
1629
0
        WLog_ERR(TAG, "internal error: unknown encryption method");
1630
0
        return FALSE;
1631
0
    }
1632
0
  }
1633
1634
0
  if (!freerdp_settings_set_uint32(settings, FreeRDP_EncryptionLevel, EncryptionLevel))
1635
0
    return FALSE;
1636
0
  if (!freerdp_settings_set_uint32(settings, FreeRDP_EncryptionMethods, EncryptionMethods))
1637
0
    return FALSE;
1638
0
  return TRUE;
1639
0
}
1640
1641
BOOL rdp_server_accept_mcs_connect_initial(rdpRdp* rdp, wStream* s)
1642
0
{
1643
0
  WINPR_ASSERT(rdp);
1644
0
  WINPR_ASSERT(s);
1645
1646
0
  rdpMcs* mcs = rdp->mcs;
1647
0
  WINPR_ASSERT(mcs);
1648
1649
0
  WINPR_ASSERT(rdp_get_state(rdp) == CONNECTION_STATE_MCS_CREATE_REQUEST);
1650
0
  if (!mcs_recv_connect_initial(mcs, s))
1651
0
    return FALSE;
1652
0
  WINPR_ASSERT(rdp->settings);
1653
1654
0
  if (!mcs_server_apply_to_settings(mcs, rdp->settings))
1655
0
    return FALSE;
1656
1657
0
  WLog_DBG(TAG, "Accepted client: %s", rdp->settings->ClientHostname);
1658
0
  WLog_DBG(TAG, "Accepted channels:");
1659
1660
0
  WINPR_ASSERT(mcs->channels || (mcs->channelCount == 0));
1661
0
  for (UINT32 i = 0; i < mcs->channelCount; i++)
1662
0
  {
1663
0
    ADDIN_ARGV* arg = NULL;
1664
0
    rdpMcsChannel* cur = &mcs->channels[i];
1665
0
    const char* params[1] = { cur->Name };
1666
0
    WLog_DBG(TAG, " %s [%" PRIu16 "]", cur->Name, cur->ChannelId);
1667
0
    arg = freerdp_addin_argv_new(ARRAYSIZE(params), params);
1668
0
    if (!arg)
1669
0
      return FALSE;
1670
1671
0
    if (!freerdp_static_channel_collection_add(rdp->settings, arg))
1672
0
    {
1673
0
      freerdp_addin_argv_free(arg);
1674
0
      return FALSE;
1675
0
    }
1676
0
  }
1677
1678
0
  if (!rdp_server_transition_to_state(rdp, CONNECTION_STATE_MCS_CREATE_RESPONSE))
1679
0
    return FALSE;
1680
0
  if (!rdp_update_encryption_level(rdp->settings))
1681
0
    return FALSE;
1682
0
  if (!mcs_send_connect_response(mcs))
1683
0
    return FALSE;
1684
0
  if (!rdp_server_transition_to_state(rdp, CONNECTION_STATE_MCS_ERECT_DOMAIN))
1685
0
    return FALSE;
1686
1687
0
  return TRUE;
1688
0
}
1689
1690
BOOL rdp_server_accept_mcs_erect_domain_request(rdpRdp* rdp, wStream* s)
1691
0
{
1692
0
  WINPR_ASSERT(rdp);
1693
0
  WINPR_ASSERT(s);
1694
0
  WINPR_ASSERT(rdp_get_state(rdp) == CONNECTION_STATE_MCS_ERECT_DOMAIN);
1695
1696
0
  if (!mcs_recv_erect_domain_request(rdp->mcs, s))
1697
0
    return FALSE;
1698
1699
0
  return rdp_server_transition_to_state(rdp, CONNECTION_STATE_MCS_ATTACH_USER);
1700
0
}
1701
1702
static BOOL rdp_server_skip_mcs_channel_join(rdpRdp* rdp)
1703
0
{
1704
0
  WINPR_ASSERT(rdp);
1705
1706
0
  rdpMcs* mcs = rdp->mcs;
1707
0
  WINPR_ASSERT(mcs);
1708
1709
0
  mcs->userChannelJoined = TRUE;
1710
0
  mcs->globalChannelJoined = TRUE;
1711
0
  mcs->messageChannelJoined = TRUE;
1712
1713
0
  for (UINT32 i = 0; i < mcs->channelCount; i++)
1714
0
  {
1715
0
    rdpMcsChannel* cur = &mcs->channels[i];
1716
0
    WLog_DBG(TAG, " %s [%" PRIu16 "]", cur->Name, cur->ChannelId);
1717
0
    cur->joined = TRUE;
1718
0
  }
1719
0
  return rdp_server_transition_to_state(rdp, CONNECTION_STATE_RDP_SECURITY_COMMENCEMENT);
1720
0
}
1721
1722
BOOL rdp_server_accept_mcs_attach_user_request(rdpRdp* rdp, wStream* s)
1723
0
{
1724
0
  if (!mcs_recv_attach_user_request(rdp->mcs, s))
1725
0
    return FALSE;
1726
1727
0
  if (!rdp_server_transition_to_state(rdp, CONNECTION_STATE_MCS_ATTACH_USER_CONFIRM))
1728
0
    return FALSE;
1729
1730
0
  if (!mcs_send_attach_user_confirm(rdp->mcs))
1731
0
    return FALSE;
1732
1733
0
  if (freerdp_settings_get_bool(rdp->settings, FreeRDP_SupportSkipChannelJoin))
1734
0
    return rdp_server_skip_mcs_channel_join(rdp);
1735
0
  return rdp_server_transition_to_state(rdp, CONNECTION_STATE_MCS_CHANNEL_JOIN_REQUEST);
1736
0
}
1737
1738
BOOL rdp_server_accept_mcs_channel_join_request(rdpRdp* rdp, wStream* s)
1739
0
{
1740
0
  UINT16 channelId = 0;
1741
0
  BOOL allJoined = TRUE;
1742
0
  rdpMcs* mcs = NULL;
1743
1744
0
  WINPR_ASSERT(rdp);
1745
0
  WINPR_ASSERT(rdp->context);
1746
1747
0
  mcs = rdp->mcs;
1748
0
  WINPR_ASSERT(mcs);
1749
1750
0
  WINPR_ASSERT(rdp_get_state(rdp) == CONNECTION_STATE_MCS_CHANNEL_JOIN_REQUEST);
1751
1752
0
  if (!mcs_recv_channel_join_request(mcs, rdp->settings, s, &channelId))
1753
0
    return FALSE;
1754
1755
0
  if (!rdp_server_transition_to_state(rdp, CONNECTION_STATE_MCS_CHANNEL_JOIN_RESPONSE))
1756
0
    return FALSE;
1757
1758
0
  if (!mcs_send_channel_join_confirm(mcs, channelId))
1759
0
    return FALSE;
1760
1761
0
  if (channelId == mcs->userId)
1762
0
    mcs->userChannelJoined = TRUE;
1763
0
  if (channelId == MCS_GLOBAL_CHANNEL_ID)
1764
0
    mcs->globalChannelJoined = TRUE;
1765
0
  if (channelId == mcs->messageChannelId)
1766
0
    mcs->messageChannelJoined = TRUE;
1767
1768
0
  for (UINT32 i = 0; i < mcs->channelCount; i++)
1769
0
  {
1770
0
    rdpMcsChannel* cur = &mcs->channels[i];
1771
0
    WLog_DBG(TAG, " %s [%" PRIu16 "]", cur->Name, cur->ChannelId);
1772
0
    if (cur->ChannelId == channelId)
1773
0
      cur->joined = TRUE;
1774
1775
0
    if (!cur->joined)
1776
0
      allJoined = FALSE;
1777
0
  }
1778
1779
0
  CONNECTION_STATE rc = CONNECTION_STATE_INITIAL;
1780
0
  if ((mcs->userChannelJoined) && (mcs->globalChannelJoined) &&
1781
0
      (mcs->messageChannelId == 0 || mcs->messageChannelJoined) && allJoined)
1782
0
    rc = CONNECTION_STATE_RDP_SECURITY_COMMENCEMENT;
1783
0
  else
1784
0
    rc = CONNECTION_STATE_MCS_CHANNEL_JOIN_REQUEST;
1785
1786
0
  return rdp_server_transition_to_state(rdp, rc);
1787
0
}
1788
1789
static BOOL rdp_server_send_sync(rdpRdp* rdp)
1790
0
{
1791
0
  WINPR_ASSERT(rdp);
1792
1793
0
  if (!rdp_server_transition_to_state(rdp, CONNECTION_STATE_FINALIZATION_CLIENT_SYNC))
1794
0
    return FALSE;
1795
0
  if (!rdp_send_server_synchronize_pdu(rdp))
1796
0
    return FALSE;
1797
0
  if (!rdp_server_transition_to_state(rdp, CONNECTION_STATE_FINALIZATION_CLIENT_COOPERATE))
1798
0
    return FALSE;
1799
0
  if (!rdp_send_server_control_cooperate_pdu(rdp))
1800
0
    return FALSE;
1801
0
  if (!rdp_finalize_reset_flags(rdp, FALSE))
1802
0
    return FALSE;
1803
0
  return rdp_server_transition_to_state(rdp, CONNECTION_STATE_FINALIZATION_SYNC);
1804
0
}
1805
1806
BOOL rdp_server_accept_confirm_active(rdpRdp* rdp, wStream* s, UINT16 pduLength)
1807
0
{
1808
0
  WINPR_ASSERT(rdp);
1809
0
  WINPR_ASSERT(rdp->context);
1810
0
  WINPR_ASSERT(rdp->settings);
1811
0
  WINPR_ASSERT(s);
1812
1813
0
  freerdp_peer* peer = rdp->context->peer;
1814
0
  WINPR_ASSERT(peer);
1815
1816
0
  if (rdp_get_state(rdp) != CONNECTION_STATE_CAPABILITIES_EXCHANGE_CONFIRM_ACTIVE)
1817
0
  {
1818
0
    if (freerdp_settings_get_bool(rdp->settings, FreeRDP_TransportDumpReplay))
1819
0
      rdp_finalize_set_flag(rdp, FINALIZE_DEACTIVATE_REACTIVATE);
1820
0
    else
1821
0
    {
1822
0
      WLog_WARN(TAG, "Invalid state, got %s, expected %s", rdp_get_state_string(rdp),
1823
0
                rdp_state_string(CONNECTION_STATE_CAPABILITIES_EXCHANGE_CONFIRM_ACTIVE));
1824
0
      return FALSE;
1825
0
    }
1826
0
  }
1827
1828
0
  if (!rdp_recv_confirm_active(rdp, s, pduLength))
1829
0
    return FALSE;
1830
1831
0
  if (peer->ClientCapabilities && !peer->ClientCapabilities(peer))
1832
0
  {
1833
0
    WLog_WARN(TAG, "peer->ClientCapabilities failed");
1834
0
    return FALSE;
1835
0
  }
1836
1837
0
  if (rdp->settings->SaltedChecksum)
1838
0
    rdp->do_secure_checksum = TRUE;
1839
1840
0
  return rdp_server_send_sync(rdp);
1841
0
}
1842
1843
BOOL rdp_server_reactivate(rdpRdp* rdp)
1844
0
{
1845
0
  freerdp_peer* client = NULL;
1846
1847
0
  if (rdp->context && rdp->context->peer)
1848
0
    client = rdp->context->peer;
1849
1850
0
  if (client)
1851
0
    client->activated = FALSE;
1852
1853
0
  if (!rdp_send_deactivate_all(rdp))
1854
0
    return FALSE;
1855
1856
0
  rdp_finalize_set_flag(rdp, FINALIZE_DEACTIVATE_REACTIVATE);
1857
0
  if (!rdp_server_transition_to_state(rdp, CONNECTION_STATE_CAPABILITIES_EXCHANGE_DEMAND_ACTIVE))
1858
0
    return FALSE;
1859
1860
0
  state_run_t rc = rdp_peer_handle_state_demand_active(client);
1861
0
  return state_run_success(rc);
1862
0
}
1863
1864
static BOOL rdp_is_active_peer_state(CONNECTION_STATE state)
1865
9.14k
{
1866
  /* [MS-RDPBCGR] 1.3.1.1 Connection Sequence states:
1867
   * 'upon receipt of the Font List PDU the server can start sending graphics
1868
   *  output to the client'
1869
   */
1870
9.14k
  switch (state)
1871
9.14k
  {
1872
0
    case CONNECTION_STATE_FINALIZATION_CLIENT_SYNC:
1873
0
    case CONNECTION_STATE_FINALIZATION_CLIENT_COOPERATE:
1874
0
    case CONNECTION_STATE_FINALIZATION_CLIENT_GRANTED_CONTROL:
1875
0
    case CONNECTION_STATE_FINALIZATION_CLIENT_FONT_MAP:
1876
0
    case CONNECTION_STATE_ACTIVE:
1877
0
      return TRUE;
1878
9.14k
    default:
1879
9.14k
      return FALSE;
1880
9.14k
  }
1881
9.14k
}
1882
1883
static BOOL rdp_is_active_client_state(CONNECTION_STATE state)
1884
6.93k
{
1885
  /* [MS-RDPBCGR] 1.3.1.1 Connection Sequence states:
1886
   * 'Once the client has sent the Confirm Active PDU, it can start sending
1887
   *  mouse and keyboard input to the server'
1888
   */
1889
6.93k
  switch (state)
1890
6.93k
  {
1891
0
    case CONNECTION_STATE_FINALIZATION_SYNC:
1892
0
    case CONNECTION_STATE_FINALIZATION_COOPERATE:
1893
0
    case CONNECTION_STATE_FINALIZATION_REQUEST_CONTROL:
1894
0
    case CONNECTION_STATE_FINALIZATION_PERSISTENT_KEY_LIST:
1895
0
    case CONNECTION_STATE_FINALIZATION_FONT_LIST:
1896
0
    case CONNECTION_STATE_FINALIZATION_CLIENT_SYNC:
1897
0
    case CONNECTION_STATE_FINALIZATION_CLIENT_COOPERATE:
1898
0
    case CONNECTION_STATE_FINALIZATION_CLIENT_GRANTED_CONTROL:
1899
0
    case CONNECTION_STATE_FINALIZATION_CLIENT_FONT_MAP:
1900
0
    case CONNECTION_STATE_ACTIVE:
1901
0
      return TRUE;
1902
6.93k
    default:
1903
6.93k
      return FALSE;
1904
6.93k
  }
1905
6.93k
}
1906
1907
BOOL rdp_is_active_state(const rdpRdp* rdp)
1908
13.2k
{
1909
13.2k
  WINPR_ASSERT(rdp);
1910
13.2k
  WINPR_ASSERT(rdp->context);
1911
1912
13.2k
  const CONNECTION_STATE state = rdp_get_state(rdp);
1913
13.2k
  if (freerdp_settings_get_bool(rdp->context->settings, FreeRDP_ServerMode))
1914
6.33k
    return rdp_is_active_peer_state(state);
1915
6.93k
  else
1916
6.93k
    return rdp_is_active_client_state(state);
1917
13.2k
}
1918
1919
BOOL rdp_server_transition_to_state(rdpRdp* rdp, CONNECTION_STATE state)
1920
2.81k
{
1921
2.81k
  BOOL status = FALSE;
1922
2.81k
  freerdp_peer* client = NULL;
1923
2.81k
  const CONNECTION_STATE cstate = rdp_get_state(rdp);
1924
1925
2.81k
  if (cstate >= CONNECTION_STATE_RDP_SECURITY_COMMENCEMENT)
1926
2.81k
  {
1927
2.81k
    WINPR_ASSERT(rdp->context);
1928
2.81k
    client = rdp->context->peer;
1929
2.81k
  }
1930
1931
2.81k
  if (!rdp_is_active_peer_state(cstate))
1932
2.81k
  {
1933
2.81k
    if (client)
1934
2.81k
      client->activated = FALSE;
1935
2.81k
  }
1936
1937
2.81k
  WLog_Print(rdp->log, WLOG_DEBUG, "%s --> %s", rdp_get_state_string(rdp),
1938
2.81k
             rdp_state_string(state));
1939
2.81k
  if (!rdp_set_state(rdp, state))
1940
0
    goto fail;
1941
1942
2.81k
  status = TRUE;
1943
2.81k
fail:
1944
2.81k
  return status;
1945
2.81k
}
1946
1947
const char* rdp_client_connection_state_string(int state)
1948
0
{
1949
0
  switch (state)
1950
0
  {
1951
0
    case CLIENT_STATE_INITIAL:
1952
0
      return "CLIENT_STATE_INITIAL";
1953
0
    case CLIENT_STATE_PRECONNECT_PASSED:
1954
0
      return "CLIENT_STATE_PRECONNECT_PASSED";
1955
0
    case CLIENT_STATE_POSTCONNECT_PASSED:
1956
0
      return "CLIENT_STATE_POSTCONNECT_PASSED";
1957
0
    default:
1958
0
      return "UNKNOWN";
1959
0
  }
1960
0
}
1961
1962
const char* rdp_state_string(CONNECTION_STATE state)
1963
40.9k
{
1964
40.9k
  switch (state)
1965
40.9k
  {
1966
27.7k
    case CONNECTION_STATE_INITIAL:
1967
27.7k
      return "CONNECTION_STATE_INITIAL";
1968
0
    case CONNECTION_STATE_NEGO:
1969
0
      return "CONNECTION_STATE_NEGO";
1970
0
    case CONNECTION_STATE_NLA:
1971
0
      return "CONNECTION_STATE_NLA";
1972
0
    case CONNECTION_STATE_AAD:
1973
0
      return "CONNECTION_STATE_AAD";
1974
0
    case CONNECTION_STATE_MCS_CREATE_REQUEST:
1975
0
      return "CONNECTION_STATE_MCS_CREATE_REQUEST";
1976
0
    case CONNECTION_STATE_MCS_CREATE_RESPONSE:
1977
0
      return "CONNECTION_STATE_MCS_CREATE_RESPONSE";
1978
0
    case CONNECTION_STATE_MCS_ERECT_DOMAIN:
1979
0
      return "CONNECTION_STATE_MCS_ERECT_DOMAIN";
1980
0
    case CONNECTION_STATE_MCS_ATTACH_USER:
1981
0
      return "CONNECTION_STATE_MCS_ATTACH_USER";
1982
0
    case CONNECTION_STATE_MCS_ATTACH_USER_CONFIRM:
1983
0
      return "CONNECTION_STATE_MCS_ATTACH_USER_CONFIRM";
1984
0
    case CONNECTION_STATE_MCS_CHANNEL_JOIN_REQUEST:
1985
0
      return "CONNECTION_STATE_MCS_CHANNEL_JOIN_REQUEST";
1986
0
    case CONNECTION_STATE_MCS_CHANNEL_JOIN_RESPONSE:
1987
0
      return "CONNECTION_STATE_MCS_CHANNEL_JOIN_RESPONSE";
1988
0
    case CONNECTION_STATE_RDP_SECURITY_COMMENCEMENT:
1989
0
      return "CONNECTION_STATE_RDP_SECURITY_COMMENCEMENT";
1990
0
    case CONNECTION_STATE_SECURE_SETTINGS_EXCHANGE:
1991
0
      return "CONNECTION_STATE_SECURE_SETTINGS_EXCHANGE";
1992
0
    case CONNECTION_STATE_CONNECT_TIME_AUTO_DETECT_REQUEST:
1993
0
      return "CONNECTION_STATE_CONNECT_TIME_AUTO_DETECT_REQUEST";
1994
0
    case CONNECTION_STATE_CONNECT_TIME_AUTO_DETECT_RESPONSE:
1995
0
      return "CONNECTION_STATE_CONNECT_TIME_AUTO_DETECT_RESPONSE";
1996
0
    case CONNECTION_STATE_LICENSING:
1997
0
      return "CONNECTION_STATE_LICENSING";
1998
0
    case CONNECTION_STATE_MULTITRANSPORT_BOOTSTRAPPING_REQUEST:
1999
0
      return "CONNECTION_STATE_MULTITRANSPORT_BOOTSTRAPPING_REQUEST";
2000
0
    case CONNECTION_STATE_MULTITRANSPORT_BOOTSTRAPPING_RESPONSE:
2001
0
      return "CONNECTION_STATE_MULTITRANSPORT_BOOTSTRAPPING_RESPONSE";
2002
13.2k
    case CONNECTION_STATE_CAPABILITIES_EXCHANGE_DEMAND_ACTIVE:
2003
13.2k
      return "CONNECTION_STATE_CAPABILITIES_EXCHANGE_DEMAND_ACTIVE";
2004
0
    case CONNECTION_STATE_CAPABILITIES_EXCHANGE_MONITOR_LAYOUT:
2005
0
      return "CONNECTION_STATE_CAPABILITIES_EXCHANGE_MONITOR_LAYOUT";
2006
0
    case CONNECTION_STATE_CAPABILITIES_EXCHANGE_CONFIRM_ACTIVE:
2007
0
      return "CONNECTION_STATE_CAPABILITIES_EXCHANGE_CONFIRM_ACTIVE";
2008
0
    case CONNECTION_STATE_FINALIZATION_SYNC:
2009
0
      return "CONNECTION_STATE_FINALIZATION_SYNC";
2010
0
    case CONNECTION_STATE_FINALIZATION_COOPERATE:
2011
0
      return "CONNECTION_STATE_FINALIZATION_COOPERATE";
2012
0
    case CONNECTION_STATE_FINALIZATION_REQUEST_CONTROL:
2013
0
      return "CONNECTION_STATE_FINALIZATION_REQUEST_CONTROL";
2014
0
    case CONNECTION_STATE_FINALIZATION_PERSISTENT_KEY_LIST:
2015
0
      return "CONNECTION_STATE_FINALIZATION_PERSISTENT_KEY_LIST";
2016
0
    case CONNECTION_STATE_FINALIZATION_FONT_LIST:
2017
0
      return "CONNECTION_STATE_FINALIZATION_FONT_LIST";
2018
0
    case CONNECTION_STATE_FINALIZATION_CLIENT_SYNC:
2019
0
      return "CONNECTION_STATE_FINALIZATION_CLIENT_SYNC";
2020
0
    case CONNECTION_STATE_FINALIZATION_CLIENT_COOPERATE:
2021
0
      return "CONNECTION_STATE_FINALIZATION_CLIENT_COOPERATE";
2022
0
    case CONNECTION_STATE_FINALIZATION_CLIENT_GRANTED_CONTROL:
2023
0
      return "CONNECTION_STATE_FINALIZATION_CLIENT_GRANTED_CONTROL";
2024
0
    case CONNECTION_STATE_FINALIZATION_CLIENT_FONT_MAP:
2025
0
      return "CONNECTION_STATE_FINALIZATION_CLIENT_FONT_MAP";
2026
0
    case CONNECTION_STATE_ACTIVE:
2027
0
      return "CONNECTION_STATE_ACTIVE";
2028
0
    default:
2029
0
      return "UNKNOWN";
2030
40.9k
  }
2031
40.9k
}
2032
2033
CONNECTION_STATE rdp_get_state(const rdpRdp* rdp)
2034
97.4k
{
2035
97.4k
  WINPR_ASSERT(rdp);
2036
97.4k
  return rdp->state;
2037
97.4k
}
2038
2039
BOOL rdp_set_state(rdpRdp* rdp, CONNECTION_STATE state)
2040
16.0k
{
2041
16.0k
  WINPR_ASSERT(rdp);
2042
16.0k
  rdp->state = state;
2043
16.0k
  return TRUE;
2044
16.0k
}
2045
2046
const char* rdp_get_state_string(const rdpRdp* rdp)
2047
27.7k
{
2048
27.7k
  CONNECTION_STATE state = rdp_get_state(rdp);
2049
27.7k
  return rdp_state_string(state);
2050
27.7k
}
2051
2052
BOOL rdp_channels_from_mcs(rdpSettings* settings, const rdpRdp* rdp)
2053
0
{
2054
0
  const rdpMcs* mcs = NULL;
2055
2056
0
  WINPR_ASSERT(rdp);
2057
2058
0
  mcs = rdp->mcs;
2059
0
  WINPR_ASSERT(mcs);
2060
2061
0
  if (!freerdp_settings_set_pointer_len(settings, FreeRDP_ChannelDefArray, NULL,
2062
0
                                        CHANNEL_MAX_COUNT))
2063
0
    return FALSE;
2064
2065
0
  for (UINT32 x = 0; x < mcs->channelCount; x++)
2066
0
  {
2067
0
    const rdpMcsChannel* mchannel = &mcs->channels[x];
2068
0
    CHANNEL_DEF cur = { 0 };
2069
2070
0
    memcpy(cur.name, mchannel->Name, sizeof(cur.name));
2071
0
    cur.options = mchannel->options;
2072
0
    if (!freerdp_settings_set_pointer_array(settings, FreeRDP_ChannelDefArray, x, &cur))
2073
0
      return FALSE;
2074
0
  }
2075
2076
0
  return freerdp_settings_set_uint32(settings, FreeRDP_ChannelCount, mcs->channelCount);
2077
0
}
2078
2079
/* Here we are in client state CONFIRM_ACTIVE.
2080
 *
2081
 * This means:
2082
 * 1. send the CONFIRM_ACTIVE PDU to the server
2083
 * 2. register callbacks, the server can now start sending stuff
2084
 */
2085
state_run_t rdp_client_connect_confirm_active(rdpRdp* rdp, wStream* s)
2086
0
{
2087
0
  WINPR_ASSERT(rdp);
2088
0
  WINPR_ASSERT(rdp->settings);
2089
0
  WINPR_ASSERT(s);
2090
2091
0
  const UINT32 width = rdp->settings->DesktopWidth;
2092
0
  const UINT32 height = rdp->settings->DesktopHeight;
2093
2094
0
  if (!rdp_send_confirm_active(rdp))
2095
0
    return STATE_RUN_FAILED;
2096
2097
0
  if (!input_register_client_callbacks(rdp->input))
2098
0
  {
2099
0
    WLog_ERR(TAG, "error registering client callbacks");
2100
0
    return STATE_RUN_FAILED;
2101
0
  }
2102
2103
  /**
2104
   * The server may request a different desktop size during Deactivation-Reactivation sequence.
2105
   * In this case, the UI should be informed and do actual window resizing at this point.
2106
   */
2107
0
  const BOOL deactivate_reactivate =
2108
0
      rdp->was_deactivated && ((rdp->deactivated_width != rdp->settings->DesktopWidth) ||
2109
0
                               (rdp->deactivated_height != rdp->settings->DesktopHeight));
2110
0
  const BOOL resolution_change =
2111
0
      ((width != rdp->settings->DesktopWidth) || (height != rdp->settings->DesktopHeight));
2112
0
  if (deactivate_reactivate || resolution_change)
2113
0
  {
2114
0
    BOOL status = TRUE;
2115
0
    IFCALLRET(rdp->update->DesktopResize, status, rdp->update->context);
2116
2117
0
    if (!status)
2118
0
    {
2119
0
      WLog_ERR(TAG, "client desktop resize callback failed");
2120
0
      return STATE_RUN_FAILED;
2121
0
    }
2122
0
  }
2123
2124
0
  WINPR_ASSERT(rdp->context);
2125
0
  if (freerdp_shall_disconnect_context(rdp->context))
2126
0
    return STATE_RUN_SUCCESS;
2127
2128
0
  state_run_t status = STATE_RUN_SUCCESS;
2129
0
  if (!rdp->settings->SupportMonitorLayoutPdu)
2130
0
    status = rdp_client_connect_finalize(rdp);
2131
0
  else
2132
0
  {
2133
0
    if (!rdp_client_transition_to_state(rdp,
2134
0
                                        CONNECTION_STATE_CAPABILITIES_EXCHANGE_MONITOR_LAYOUT))
2135
0
      status = STATE_RUN_FAILED;
2136
0
  }
2137
0
  if (!rdp_finalize_reset_flags(rdp, FALSE))
2138
0
    status = STATE_RUN_FAILED;
2139
0
  return status;
2140
0
}