FreeRDP/libfreerdp/core/peer.c
Armin Novak 37bd7e0959 [settings] renamed VirtualChannelChunkSize
in [MS-RDPBCGR] it is named VCChunkSize
2023-11-24 14:54:56 +01:00

1595 lines
41 KiB
C

/**
* FreeRDP: A Remote Desktop Protocol Implementation
* RDP Server Peer
*
* Copyright 2011 Vic Lee
* Copyright 2014 DI (FH) Martin Haimberger <martin.haimberger@thincast.com>
* Copyright 2023 Armin Novak <anovak@thincast.com>
* Copyright 2023 Thincast Technologies GmbH
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <freerdp/config.h>
#include "settings.h"
#include <winpr/assert.h>
#include <winpr/crt.h>
#include <winpr/winsock.h>
#include "info.h"
#include "display.h"
#include <freerdp/log.h>
#include <freerdp/streamdump.h>
#include <freerdp/redirection.h>
#include <freerdp/crypto/certificate.h>
#include "rdp.h"
#include "peer.h"
#include "multitransport.h"
#define TAG FREERDP_TAG("core.peer")
static state_run_t peer_recv_pdu(freerdp_peer* client, wStream* s);
static HANDLE freerdp_peer_virtual_channel_open(freerdp_peer* client, const char* name,
UINT32 flags)
{
UINT32 index;
BOOL joined = FALSE;
rdpMcsChannel* mcsChannel = NULL;
rdpPeerChannel* peerChannel = NULL;
rdpMcs* mcs;
WINPR_ASSERT(client);
WINPR_ASSERT(client->context);
WINPR_ASSERT(client->context->rdp);
WINPR_ASSERT(name);
mcs = client->context->rdp->mcs;
WINPR_ASSERT(mcs);
if (flags & WTS_CHANNEL_OPTION_DYNAMIC)
return NULL; /* not yet supported */
const size_t length = strnlen(name, 9);
if (length > 8)
return NULL; /* SVC maximum name length is 8 */
for (index = 0; index < mcs->channelCount; index++)
{
mcsChannel = &(mcs->channels[index]);
if (!mcsChannel->joined)
continue;
if (_strnicmp(name, mcsChannel->Name, length) == 0)
{
joined = TRUE;
break;
}
}
if (!joined)
return NULL; /* channel is not joined */
peerChannel = (rdpPeerChannel*)mcsChannel->handle;
if (peerChannel)
{
/* channel is already open */
return (HANDLE)peerChannel;
}
peerChannel = (rdpPeerChannel*)calloc(1, sizeof(rdpPeerChannel));
if (peerChannel)
{
peerChannel->index = index;
peerChannel->client = client;
peerChannel->channelFlags = flags;
peerChannel->channelId = mcsChannel->ChannelId;
peerChannel->mcsChannel = mcsChannel;
mcsChannel->handle = (void*)peerChannel;
}
return (HANDLE)peerChannel;
}
static BOOL freerdp_peer_virtual_channel_close(freerdp_peer* client, HANDLE hChannel)
{
rdpMcsChannel* mcsChannel = NULL;
rdpPeerChannel* peerChannel = NULL;
WINPR_ASSERT(client);
if (!hChannel)
return FALSE;
peerChannel = (rdpPeerChannel*)hChannel;
mcsChannel = peerChannel->mcsChannel;
WINPR_ASSERT(mcsChannel);
mcsChannel->handle = NULL;
free(peerChannel);
return TRUE;
}
static int freerdp_peer_virtual_channel_write(freerdp_peer* client, HANDLE hChannel,
const BYTE* buffer, UINT32 length)
{
wStream* s;
UINT32 flags;
UINT32 chunkSize;
UINT32 maxChunkSize;
UINT32 totalLength;
rdpPeerChannel* peerChannel;
rdpMcsChannel* mcsChannel;
rdpRdp* rdp;
WINPR_ASSERT(client);
WINPR_ASSERT(client->context);
rdp = client->context->rdp;
WINPR_ASSERT(rdp);
WINPR_ASSERT(rdp->settings);
if (!hChannel)
return -1;
peerChannel = (rdpPeerChannel*)hChannel;
mcsChannel = peerChannel->mcsChannel;
WINPR_ASSERT(peerChannel);
WINPR_ASSERT(mcsChannel);
if (peerChannel->channelFlags & WTS_CHANNEL_OPTION_DYNAMIC)
return -1; /* not yet supported */
maxChunkSize = rdp->settings->VCChunkSize;
totalLength = length;
flags = CHANNEL_FLAG_FIRST;
while (length > 0)
{
s = rdp_send_stream_init(rdp);
if (!s)
return -1;
if (length > maxChunkSize)
{
chunkSize = rdp->settings->VCChunkSize;
}
else
{
chunkSize = length;
flags |= CHANNEL_FLAG_LAST;
}
if (mcsChannel->options & CHANNEL_OPTION_SHOW_PROTOCOL)
flags |= CHANNEL_FLAG_SHOW_PROTOCOL;
Stream_Write_UINT32(s, totalLength);
Stream_Write_UINT32(s, flags);
if (!Stream_EnsureRemainingCapacity(s, chunkSize))
{
Stream_Release(s);
return -1;
}
Stream_Write(s, buffer, chunkSize);
if (!rdp_send(rdp, s, peerChannel->channelId))
return -1;
buffer += chunkSize;
length -= chunkSize;
flags = 0;
}
return 1;
}
static void* freerdp_peer_virtual_channel_get_data(freerdp_peer* client, HANDLE hChannel)
{
rdpPeerChannel* peerChannel = (rdpPeerChannel*)hChannel;
WINPR_ASSERT(client);
if (!hChannel)
return NULL;
return peerChannel->extra;
}
static int freerdp_peer_virtual_channel_set_data(freerdp_peer* client, HANDLE hChannel, void* data)
{
rdpPeerChannel* peerChannel = (rdpPeerChannel*)hChannel;
WINPR_ASSERT(client);
if (!hChannel)
return -1;
peerChannel->extra = data;
return 1;
}
static BOOL freerdp_peer_set_state(freerdp_peer* client, CONNECTION_STATE state)
{
WINPR_ASSERT(client);
WINPR_ASSERT(client->context);
return rdp_server_transition_to_state(client->context->rdp, state);
}
static BOOL freerdp_peer_initialize(freerdp_peer* client)
{
rdpRdp* rdp;
rdpSettings* settings;
WINPR_ASSERT(client);
WINPR_ASSERT(client->context);
rdp = client->context->rdp;
WINPR_ASSERT(rdp);
settings = rdp->settings;
WINPR_ASSERT(settings);
settings->ServerMode = TRUE;
settings->FrameAcknowledge = 0;
settings->LocalConnection = client->local;
const rdpCertificate* cert =
freerdp_settings_get_pointer(settings, FreeRDP_RdpServerCertificate);
if (!cert)
{
WLog_ERR(TAG, "Missing server certificate, can not continue.");
return FALSE;
}
if (freerdp_settings_get_bool(settings, FreeRDP_RdpSecurity))
{
if (!freerdp_certificate_is_rdp_security_compatible(cert))
{
if (!freerdp_settings_set_bool(settings, FreeRDP_RdpSecurity, FALSE))
return FALSE;
if (!freerdp_settings_set_bool(settings, FreeRDP_UseRdpSecurityLayer, FALSE))
return FALSE;
}
}
nego_set_RCG_supported(rdp->nego, settings->RemoteCredentialGuard);
if (!rdp_server_transition_to_state(rdp, CONNECTION_STATE_INITIAL))
return FALSE;
return TRUE;
}
#if defined(WITH_FREERDP_DEPRECATED)
static BOOL freerdp_peer_get_fds(freerdp_peer* client, void** rfds, int* rcount)
{
rdpTransport* transport;
WINPR_ASSERT(client);
WINPR_ASSERT(client->context);
WINPR_ASSERT(client->context->rdp);
transport = client->context->rdp->transport;
WINPR_ASSERT(transport);
transport_get_fds(transport, rfds, rcount);
return TRUE;
}
#endif
static HANDLE freerdp_peer_get_event_handle(freerdp_peer* client)
{
HANDLE hEvent = NULL;
rdpTransport* transport;
WINPR_ASSERT(client);
WINPR_ASSERT(client->context);
WINPR_ASSERT(client->context->rdp);
transport = client->context->rdp->transport;
hEvent = transport_get_front_bio(transport);
return hEvent;
}
static DWORD freerdp_peer_get_event_handles(freerdp_peer* client, HANDLE* events, DWORD count)
{
WINPR_ASSERT(client);
WINPR_ASSERT(client->context);
WINPR_ASSERT(client->context->rdp);
return transport_get_event_handles(client->context->rdp->transport, events, count);
}
static BOOL freerdp_peer_check_fds(freerdp_peer* peer)
{
int status;
rdpRdp* rdp;
WINPR_ASSERT(peer);
WINPR_ASSERT(peer->context);
rdp = peer->context->rdp;
status = rdp_check_fds(rdp);
if (status < 0)
return FALSE;
return TRUE;
}
static state_run_t peer_recv_data_pdu(freerdp_peer* client, wStream* s, UINT16 totalLength)
{
BYTE type;
UINT16 length;
UINT32 share_id;
BYTE compressed_type;
UINT16 compressed_len;
rdpUpdate* update;
WINPR_ASSERT(s);
WINPR_ASSERT(client);
WINPR_ASSERT(client->context);
rdpRdp* rdp = client->context->rdp;
WINPR_ASSERT(rdp);
WINPR_ASSERT(rdp->mcs);
update = client->context->update;
WINPR_ASSERT(update);
if (!rdp_read_share_data_header(rdp, s, &length, &type, &share_id, &compressed_type,
&compressed_len))
return STATE_RUN_FAILED;
#ifdef WITH_DEBUG_RDP
WLog_Print(rdp->log, WLOG_DEBUG, "recv %s Data PDU (0x%02" PRIX8 "), length: %" PRIu16 "",
data_pdu_type_to_string(type), type, length);
#endif
switch (type)
{
case DATA_PDU_TYPE_SYNCHRONIZE:
if (!rdp_recv_client_synchronize_pdu(rdp, s))
return STATE_RUN_FAILED;
break;
case DATA_PDU_TYPE_CONTROL:
if (!rdp_server_accept_client_control_pdu(rdp, s))
return STATE_RUN_FAILED;
break;
case DATA_PDU_TYPE_INPUT:
if (!input_recv(rdp->input, s))
return STATE_RUN_FAILED;
break;
case DATA_PDU_TYPE_BITMAP_CACHE_PERSISTENT_LIST:
if (!rdp_server_accept_client_persistent_key_list_pdu(rdp, s))
return STATE_RUN_FAILED;
break;
case DATA_PDU_TYPE_FONT_LIST:
if (!rdp_server_accept_client_font_list_pdu(rdp, s))
return STATE_RUN_FAILED;
return STATE_RUN_CONTINUE; // State changed, trigger rerun
case DATA_PDU_TYPE_SHUTDOWN_REQUEST:
mcs_send_disconnect_provider_ultimatum(rdp->mcs);
WLog_WARN(TAG, "disconnect provider ultimatum sent to peer, closing connection");
return STATE_RUN_QUIT_SESSION;
case DATA_PDU_TYPE_FRAME_ACKNOWLEDGE:
if (!Stream_CheckAndLogRequiredLength(TAG, s, 4))
return STATE_RUN_FAILED;
Stream_Read_UINT32(s, client->ack_frame_id);
IFCALL(update->SurfaceFrameAcknowledge, update->context, client->ack_frame_id);
break;
case DATA_PDU_TYPE_REFRESH_RECT:
if (!update_read_refresh_rect(update, s))
return STATE_RUN_FAILED;
break;
case DATA_PDU_TYPE_SUPPRESS_OUTPUT:
if (!update_read_suppress_output(update, s))
return STATE_RUN_FAILED;
break;
default:
WLog_ERR(TAG, "Data PDU type %" PRIu8 "", type);
break;
}
return STATE_RUN_SUCCESS;
}
static state_run_t peer_recv_tpkt_pdu(freerdp_peer* client, wStream* s)
{
state_run_t rc = STATE_RUN_SUCCESS;
rdpRdp* rdp;
UINT16 length;
UINT16 pduType;
UINT16 pduSource;
UINT16 channelId;
UINT16 securityFlags = 0;
rdpSettings* settings;
WINPR_ASSERT(s);
WINPR_ASSERT(client);
WINPR_ASSERT(client->context);
rdp = client->context->rdp;
WINPR_ASSERT(rdp);
WINPR_ASSERT(rdp->mcs);
settings = client->context->settings;
WINPR_ASSERT(settings);
if (!rdp_read_header(rdp, s, &length, &channelId))
return STATE_RUN_FAILED;
rdp->inPackets++;
if (freerdp_shall_disconnect_context(rdp->context))
return STATE_RUN_SUCCESS;
if (rdp_get_state(rdp) <= CONNECTION_STATE_LICENSING)
{
if (!rdp_read_security_header(rdp, s, &securityFlags, &length))
return STATE_RUN_FAILED;
if (securityFlags & SEC_ENCRYPT)
{
if (!rdp_decrypt(rdp, s, &length, securityFlags))
return STATE_RUN_FAILED;
}
return rdp_recv_message_channel_pdu(rdp, s, securityFlags);
}
if (settings->UseRdpSecurityLayer)
{
if (!rdp_read_security_header(rdp, s, &securityFlags, &length))
return STATE_RUN_FAILED;
if (securityFlags & SEC_ENCRYPT)
{
if (!rdp_decrypt(rdp, s, &length, securityFlags))
return STATE_RUN_FAILED;
}
}
if (channelId == MCS_GLOBAL_CHANNEL_ID)
{
char buffer[256] = { 0 };
UINT16 pduLength, remain;
if (!rdp_read_share_control_header(rdp, s, &pduLength, &remain, &pduType, &pduSource))
return STATE_RUN_FAILED;
settings->PduSource = pduSource;
WLog_DBG(TAG, "Received %s", pdu_type_to_str(pduType, buffer, sizeof(buffer)));
switch (pduType)
{
case PDU_TYPE_DATA:
rc = peer_recv_data_pdu(client, s, pduLength);
break;
case PDU_TYPE_CONFIRM_ACTIVE:
if (!rdp_server_accept_confirm_active(rdp, s, pduLength))
return STATE_RUN_FAILED;
break;
case PDU_TYPE_FLOW_RESPONSE:
case PDU_TYPE_FLOW_STOP:
case PDU_TYPE_FLOW_TEST:
if (!Stream_SafeSeek(s, remain))
{
WLog_WARN(TAG, "Short PDU, need %" PRIuz " bytes, got %" PRIuz, remain,
Stream_GetRemainingLength(s));
return STATE_RUN_FAILED;
}
break;
default:
WLog_ERR(TAG, "Client sent unknown pduType %" PRIu16 "", pduType);
return STATE_RUN_FAILED;
}
}
else if ((rdp->mcs->messageChannelId > 0) && (channelId == rdp->mcs->messageChannelId))
{
if (!settings->UseRdpSecurityLayer)
{
if (!rdp_read_security_header(rdp, s, &securityFlags, NULL))
return STATE_RUN_FAILED;
}
return rdp_recv_message_channel_pdu(rdp, s, securityFlags);
}
else
{
if (!freerdp_channel_peer_process(client, s, channelId))
return STATE_RUN_FAILED;
}
if (!tpkt_ensure_stream_consumed(s, length))
return STATE_RUN_FAILED;
return rc;
}
static state_run_t peer_recv_handle_auto_detect(freerdp_peer* client, wStream* s)
{
state_run_t ret = STATE_RUN_FAILED;
rdpRdp* rdp;
WINPR_ASSERT(client);
WINPR_ASSERT(s);
WINPR_ASSERT(client->context);
rdp = client->context->rdp;
WINPR_ASSERT(rdp);
const rdpSettings* settings = client->context->settings;
WINPR_ASSERT(settings);
if (freerdp_settings_get_bool(settings, FreeRDP_NetworkAutoDetect))
{
switch (rdp_get_state(rdp))
{
case CONNECTION_STATE_CONNECT_TIME_AUTO_DETECT_REQUEST:
autodetect_on_connect_time_auto_detect_begin(rdp->autodetect);
switch (autodetect_get_state(rdp->autodetect))
{
case FREERDP_AUTODETECT_STATE_REQUEST:
ret = STATE_RUN_SUCCESS;
if (!rdp_server_transition_to_state(
rdp, CONNECTION_STATE_CONNECT_TIME_AUTO_DETECT_RESPONSE))
return STATE_RUN_FAILED;
break;
case FREERDP_AUTODETECT_STATE_COMPLETE:
ret = STATE_RUN_CONTINUE; /* Rerun in next state */
if (!rdp_server_transition_to_state(rdp, CONNECTION_STATE_LICENSING))
return STATE_RUN_FAILED;
break;
default:
break;
}
break;
case CONNECTION_STATE_CONNECT_TIME_AUTO_DETECT_RESPONSE:
ret = peer_recv_pdu(client, s);
if (state_run_success(ret))
{
autodetect_on_connect_time_auto_detect_progress(rdp->autodetect);
switch (autodetect_get_state(rdp->autodetect))
{
case FREERDP_AUTODETECT_STATE_REQUEST:
ret = STATE_RUN_SUCCESS;
break;
case FREERDP_AUTODETECT_STATE_COMPLETE:
ret = STATE_RUN_CONTINUE; /* Rerun in next state */
if (!rdp_server_transition_to_state(rdp, CONNECTION_STATE_LICENSING))
return STATE_RUN_FAILED;
break;
default:
break;
}
}
break;
default:
WINPR_ASSERT(FALSE);
break;
}
}
else
{
if (!rdp_server_transition_to_state(rdp, CONNECTION_STATE_LICENSING))
return STATE_RUN_FAILED;
ret = STATE_RUN_CONTINUE; /* Rerun in next state */
}
return ret;
}
static state_run_t peer_recv_handle_licensing(freerdp_peer* client, wStream* s)
{
state_run_t ret = STATE_RUN_FAILED;
rdpRdp* rdp;
rdpSettings* settings;
WINPR_ASSERT(client);
WINPR_ASSERT(s);
WINPR_ASSERT(client->context);
rdp = client->context->rdp;
WINPR_ASSERT(rdp);
settings = rdp->settings;
WINPR_ASSERT(settings);
switch (license_get_state(rdp->license))
{
case LICENSE_STATE_INITIAL:
{
const BOOL required =
freerdp_settings_get_bool(settings, FreeRDP_ServerLicenseRequired);
if (required)
{
if (!license_server_configure(rdp->license))
ret = STATE_RUN_FAILED;
else if (!license_server_send_request(rdp->license))
ret = STATE_RUN_FAILED;
else
ret = STATE_RUN_SUCCESS;
}
else
{
if (license_send_valid_client_error_packet(rdp))
ret = STATE_RUN_CONTINUE; /* Rerun in next state, might be capabilities */
}
}
break;
case LICENSE_STATE_COMPLETED:
ret = STATE_RUN_CONTINUE; /* Licensing completed, continue in next state */
break;
case LICENSE_STATE_ABORTED:
ret = STATE_RUN_FAILED;
break;
default:
ret = peer_recv_pdu(client, s);
break;
}
return ret;
}
static state_run_t peer_recv_fastpath_pdu(freerdp_peer* client, wStream* s)
{
rdpRdp* rdp;
UINT16 length;
BOOL rc;
rdpFastPath* fastpath;
WINPR_ASSERT(s);
WINPR_ASSERT(client);
WINPR_ASSERT(client->context);
rdp = client->context->rdp;
WINPR_ASSERT(rdp);
fastpath = rdp->fastpath;
WINPR_ASSERT(fastpath);
rc = fastpath_read_header_rdp(fastpath, s, &length);
if (!rc || (length == 0))
{
WLog_ERR(TAG, "incorrect FastPath PDU header length %" PRIu16 "", length);
return STATE_RUN_FAILED;
}
if (!Stream_CheckAndLogRequiredLength(TAG, s, length))
return STATE_RUN_FAILED;
if (!fastpath_decrypt(fastpath, s, &length))
return STATE_RUN_FAILED;
rdp->inPackets++;
return fastpath_recv_inputs(fastpath, s);
}
state_run_t peer_recv_pdu(freerdp_peer* client, wStream* s)
{
int rc = tpkt_verify_header(s);
if (rc > 0)
return peer_recv_tpkt_pdu(client, s);
else if (rc == 0)
return peer_recv_fastpath_pdu(client, s);
else
return STATE_RUN_FAILED;
}
static state_run_t peer_unexpected_client_message(rdpRdp* rdp, UINT32 flag)
{
char buffer[1024] = { 0 };
WLog_WARN(TAG, "Unexpected client message in state %s, missing flag %s",
rdp_get_state_string(rdp), rdp_finalize_flags_to_str(flag, buffer, sizeof(buffer)));
return STATE_RUN_SUCCESS; /* we ignore this as per spec input PDU are already allowed */
}
state_run_t rdp_peer_handle_state_demand_active(freerdp_peer* client)
{
state_run_t ret = STATE_RUN_FAILED;
WINPR_ASSERT(client);
WINPR_ASSERT(client->context);
rdpRdp* rdp = client->context->rdp;
WINPR_ASSERT(rdp);
if (client->Capabilities && !client->Capabilities(client))
{
WLog_ERR(TAG, "[%s] freerdp_peer::Capabilities() callback failed",
rdp_get_state_string(rdp));
}
else if (!rdp_send_demand_active(rdp))
{
WLog_ERR(TAG, "[%s] rdp_send_demand_active() fail", rdp_get_state_string(rdp));
}
else
{
if (!rdp_server_transition_to_state(rdp,
CONNECTION_STATE_CAPABILITIES_EXCHANGE_MONITOR_LAYOUT))
return STATE_RUN_FAILED;
ret = STATE_RUN_CONTINUE;
}
return ret;
}
/** \brief Handle server peer state ACTIVE:
* On initial run (not connected, not activated) do not read data
*
* \return -1 in case of an error, 0 if no data needs to be processed, 1 to let
* the state machine run again and 2 if peer_recv_pdu must be called.
*/
static state_run_t rdp_peer_handle_state_active(freerdp_peer* client)
{
state_run_t ret = STATE_RUN_FAILED;
WINPR_ASSERT(client);
WINPR_ASSERT(client->context);
rdpRdp* rdp = client->context->rdp;
WINPR_ASSERT(rdp);
if (!client->connected)
{
/**
* PostConnect should only be called once and should not
* be called after a reactivation sequence.
*/
IFCALLRET(client->PostConnect, client->connected, client);
}
if (!client->connected)
{
WLog_ERR(TAG, "PostConnect for peer %p failed", client);
ret = STATE_RUN_FAILED;
}
else if (!client->activated)
{
BOOL activated = TRUE;
/* Set client->activated TRUE before calling the Activate callback.
* the Activate callback might reset the client->activated flag even if it returns success
* (e.g. deactivate/reactivate sequence) */
client->activated = TRUE;
IFCALLRET(client->Activate, activated, client);
if (!activated)
{
WLog_ERR(TAG, "Activate for peer %p failed", client);
ret = STATE_RUN_FAILED;
}
else
ret = STATE_RUN_SUCCESS;
}
else
ret = STATE_RUN_ACTIVE;
return ret;
}
static state_run_t peer_recv_callback_internal(rdpTransport* transport, wStream* s, void* extra)
{
UINT32 SelectedProtocol;
freerdp_peer* client = (freerdp_peer*)extra;
rdpRdp* rdp;
state_run_t ret = STATE_RUN_FAILED;
rdpSettings* settings;
WINPR_ASSERT(transport);
WINPR_ASSERT(client);
WINPR_ASSERT(client->context);
rdp = client->context->rdp;
WINPR_ASSERT(rdp);
settings = client->context->settings;
WINPR_ASSERT(settings);
IFCALL(client->ReachedState, client, rdp_get_state(rdp));
switch (rdp_get_state(rdp))
{
case CONNECTION_STATE_INITIAL:
if (rdp_server_transition_to_state(rdp, CONNECTION_STATE_NEGO))
ret = STATE_RUN_CONTINUE;
break;
case CONNECTION_STATE_NEGO:
if (!rdp_server_accept_nego(rdp, s))
{
WLog_ERR(TAG, "%s - rdp_server_accept_nego() fail", rdp_get_state_string(rdp));
}
else
{
SelectedProtocol = nego_get_selected_protocol(rdp->nego);
settings->RdstlsSecurity = (SelectedProtocol & PROTOCOL_RDSTLS) ? TRUE : FALSE;
settings->NlaSecurity = (SelectedProtocol & PROTOCOL_HYBRID) ? TRUE : FALSE;
settings->TlsSecurity = (SelectedProtocol & PROTOCOL_SSL) ? TRUE : FALSE;
settings->RdpSecurity = (SelectedProtocol == PROTOCOL_RDP) ? TRUE : FALSE;
if (SelectedProtocol & PROTOCOL_HYBRID)
{
SEC_WINNT_AUTH_IDENTITY_INFO* identity =
(SEC_WINNT_AUTH_IDENTITY_INFO*)nego_get_identity(rdp->nego);
sspi_CopyAuthIdentity(&client->identity, identity);
IFCALLRET(client->Logon, client->authenticated, client, &client->identity,
TRUE);
nego_free_nla(rdp->nego);
}
else
{
IFCALLRET(client->Logon, client->authenticated, client, &client->identity,
FALSE);
}
if (rdp_server_transition_to_state(rdp, CONNECTION_STATE_MCS_CREATE_REQUEST))
ret = STATE_RUN_SUCCESS;
}
break;
case CONNECTION_STATE_NLA:
WINPR_ASSERT(FALSE); // TODO
break;
case CONNECTION_STATE_MCS_CREATE_REQUEST:
if (!rdp_server_accept_mcs_connect_initial(rdp, s))
{
WLog_ERR(TAG,
"%s - "
"rdp_server_accept_mcs_connect_initial() fail",
rdp_get_state_string(rdp));
}
else
ret = STATE_RUN_SUCCESS;
break;
case CONNECTION_STATE_MCS_ERECT_DOMAIN:
if (!rdp_server_accept_mcs_erect_domain_request(rdp, s))
{
WLog_ERR(TAG,
"%s - "
"rdp_server_accept_mcs_erect_domain_request() fail",
rdp_get_state_string(rdp));
}
else
ret = STATE_RUN_SUCCESS;
break;
case CONNECTION_STATE_MCS_ATTACH_USER:
if (!rdp_server_accept_mcs_attach_user_request(rdp, s))
{
WLog_ERR(TAG,
"%s - "
"rdp_server_accept_mcs_attach_user_request() fail",
rdp_get_state_string(rdp));
}
else
ret = STATE_RUN_SUCCESS;
break;
case CONNECTION_STATE_MCS_CHANNEL_JOIN_REQUEST:
if (!rdp_server_accept_mcs_channel_join_request(rdp, s))
{
WLog_ERR(TAG,
"%s - "
"rdp_server_accept_mcs_channel_join_request() fail",
rdp_get_state_string(rdp));
}
else
ret = STATE_RUN_SUCCESS;
break;
case CONNECTION_STATE_RDP_SECURITY_COMMENCEMENT:
ret = STATE_RUN_SUCCESS;
if (!rdp_server_establish_keys(rdp, s))
{
WLog_ERR(TAG,
"%s - "
"rdp_server_establish_keys() fail",
rdp_get_state_string(rdp));
ret = STATE_RUN_FAILED;
}
if (state_run_success(ret))
{
if (!rdp_server_transition_to_state(rdp, CONNECTION_STATE_SECURE_SETTINGS_EXCHANGE))
ret = STATE_RUN_FAILED;
else if (Stream_GetRemainingLength(s) > 0)
ret = STATE_RUN_CONTINUE; /* Rerun function */
}
break;
case CONNECTION_STATE_SECURE_SETTINGS_EXCHANGE:
if (rdp_recv_client_info(rdp, s))
{
if (rdp_server_transition_to_state(
rdp, CONNECTION_STATE_CONNECT_TIME_AUTO_DETECT_REQUEST))
ret = STATE_RUN_CONTINUE;
}
break;
case CONNECTION_STATE_CONNECT_TIME_AUTO_DETECT_REQUEST:
case CONNECTION_STATE_CONNECT_TIME_AUTO_DETECT_RESPONSE:
ret = peer_recv_handle_auto_detect(client, s);
break;
case CONNECTION_STATE_LICENSING:
ret = peer_recv_handle_licensing(client, s);
if (ret == STATE_RUN_CONTINUE)
{
if (!rdp_server_transition_to_state(
rdp, CONNECTION_STATE_MULTITRANSPORT_BOOTSTRAPPING_REQUEST))
ret = STATE_RUN_FAILED;
}
break;
case CONNECTION_STATE_MULTITRANSPORT_BOOTSTRAPPING_REQUEST:
if (settings->SupportMultitransport &&
((settings->MultitransportFlags & INITIATE_REQUEST_PROTOCOL_UDPFECR) != 0))
{
/* only UDP reliable for now, nobody does lossy UDP (MS-RDPUDP only) these days */
ret = multitransport_server_request(rdp->multitransport,
INITIATE_REQUEST_PROTOCOL_UDPFECR);
switch (ret)
{
case STATE_RUN_SUCCESS:
rdp_server_transition_to_state(
rdp, CONNECTION_STATE_MULTITRANSPORT_BOOTSTRAPPING_RESPONSE);
break;
case STATE_RUN_CONTINUE:
/* mismatch on the supported kind of UDP transports */
rdp_server_transition_to_state(
rdp, CONNECTION_STATE_CAPABILITIES_EXCHANGE_DEMAND_ACTIVE);
break;
default:
break;
}
}
else
{
if (rdp_server_transition_to_state(
rdp, CONNECTION_STATE_CAPABILITIES_EXCHANGE_DEMAND_ACTIVE))
ret = STATE_RUN_CONTINUE; /* Rerun, initialize next state */
}
break;
case CONNECTION_STATE_MULTITRANSPORT_BOOTSTRAPPING_RESPONSE:
ret = peer_recv_pdu(client, s);
break;
case CONNECTION_STATE_CAPABILITIES_EXCHANGE_DEMAND_ACTIVE:
ret = rdp_peer_handle_state_demand_active(client);
break;
case CONNECTION_STATE_CAPABILITIES_EXCHANGE_MONITOR_LAYOUT:
if (freerdp_settings_get_bool(settings, FreeRDP_SupportMonitorLayoutPdu))
{
MONITOR_DEF* monitors = NULL;
IFCALL(client->AdjustMonitorsLayout, client);
/* client supports the monitorLayout PDU, let's send him the monitors if any */
ret = STATE_RUN_SUCCESS;
if (freerdp_settings_get_uint32(settings, FreeRDP_MonitorCount) == 0)
{
const UINT32 w = freerdp_settings_get_uint32(settings, FreeRDP_DesktopWidth);
const UINT32 h = freerdp_settings_get_uint32(settings, FreeRDP_DesktopHeight);
const rdpMonitor primary = { .x = 0,
.y = 0,
.width = w,
.height = h,
.is_primary = TRUE,
.orig_screen = 0,
.attributes = { .physicalWidth = w,
.physicalHeight = h,
.orientation =
ORIENTATION_LANDSCAPE,
.desktopScaleFactor = 100,
.deviceScaleFactor = 100 } };
if (!freerdp_settings_set_pointer_array(settings, FreeRDP_MonitorDefArray, 0,
&primary))
ret = STATE_RUN_FAILED;
else if (!freerdp_settings_set_uint32(settings, FreeRDP_MonitorCount, 1))
ret = STATE_RUN_FAILED;
}
if (state_run_failed(ret))
{
}
else if (!display_convert_rdp_monitor_to_monitor_def(
settings->MonitorCount, settings->MonitorDefArray, &monitors))
{
ret = STATE_RUN_FAILED;
}
else if (!freerdp_display_send_monitor_layout(rdp->context, settings->MonitorCount,
monitors))
{
ret = STATE_RUN_FAILED;
}
else
ret = STATE_RUN_SUCCESS;
free(monitors);
}
else
{
const size_t len = Stream_GetRemainingLength(s);
if (len > 0)
ret = STATE_RUN_CONTINUE;
else
ret = STATE_RUN_SUCCESS;
}
if (state_run_success(ret))
{
if (!rdp_server_transition_to_state(
rdp, CONNECTION_STATE_CAPABILITIES_EXCHANGE_CONFIRM_ACTIVE))
ret = STATE_RUN_FAILED;
}
break;
case CONNECTION_STATE_CAPABILITIES_EXCHANGE_CONFIRM_ACTIVE:
/**
* During reactivation sequence the client might sent some input or channel data
* before receiving the Deactivate All PDU. We need to process them as usual.
*/
ret = peer_recv_pdu(client, s);
break;
case CONNECTION_STATE_FINALIZATION_SYNC:
ret = peer_recv_pdu(client, s);
if (rdp_finalize_is_flag_set(rdp, FINALIZE_CS_SYNCHRONIZE_PDU))
{
if (!rdp_server_transition_to_state(rdp, CONNECTION_STATE_FINALIZATION_COOPERATE))
ret = STATE_RUN_FAILED;
}
else
ret = peer_unexpected_client_message(rdp, FINALIZE_CS_SYNCHRONIZE_PDU);
break;
case CONNECTION_STATE_FINALIZATION_COOPERATE:
ret = peer_recv_pdu(client, s);
if (rdp_finalize_is_flag_set(rdp, FINALIZE_CS_CONTROL_COOPERATE_PDU))
{
if (!rdp_server_transition_to_state(rdp,
CONNECTION_STATE_FINALIZATION_REQUEST_CONTROL))
ret = STATE_RUN_FAILED;
}
else
ret = peer_unexpected_client_message(rdp, FINALIZE_CS_CONTROL_COOPERATE_PDU);
break;
case CONNECTION_STATE_FINALIZATION_REQUEST_CONTROL:
ret = peer_recv_pdu(client, s);
if (rdp_finalize_is_flag_set(rdp, FINALIZE_CS_CONTROL_REQUEST_PDU))
{
if (!rdp_send_server_control_granted_pdu(rdp))
ret = STATE_RUN_FAILED;
else if (!rdp_server_transition_to_state(
rdp, CONNECTION_STATE_FINALIZATION_PERSISTENT_KEY_LIST))
ret = STATE_RUN_FAILED;
}
else
ret = peer_unexpected_client_message(rdp, FINALIZE_CS_CONTROL_REQUEST_PDU);
break;
case CONNECTION_STATE_FINALIZATION_PERSISTENT_KEY_LIST:
if (freerdp_settings_get_bool(settings, FreeRDP_BitmapCachePersistEnabled) &&
!rdp_finalize_is_flag_set(rdp, FINALIZE_DEACTIVATE_REACTIVATE))
{
ret = peer_recv_pdu(client, s);
if (rdp_finalize_is_flag_set(rdp, FINALIZE_CS_PERSISTENT_KEY_LIST_PDU))
{
if (!rdp_server_transition_to_state(rdp,
CONNECTION_STATE_FINALIZATION_FONT_LIST))
ret = STATE_RUN_FAILED;
}
else
ret = peer_unexpected_client_message(rdp,
CONNECTION_STATE_FINALIZATION_FONT_LIST);
}
else
{
if (!rdp_server_transition_to_state(rdp, CONNECTION_STATE_FINALIZATION_FONT_LIST))
ret = STATE_RUN_FAILED;
else
ret = STATE_RUN_CONTINUE;
}
break;
case CONNECTION_STATE_FINALIZATION_FONT_LIST:
ret = peer_recv_pdu(client, s);
if (state_run_success(ret))
{
if (rdp_finalize_is_flag_set(rdp, FINALIZE_CS_FONT_LIST_PDU))
{
if (!rdp_server_transition_to_state(rdp, CONNECTION_STATE_ACTIVE))
ret = STATE_RUN_FAILED;
update_reset_state(rdp->update);
ret = STATE_RUN_CONTINUE;
}
else
ret = peer_unexpected_client_message(rdp, FINALIZE_CS_FONT_LIST_PDU);
}
break;
case CONNECTION_STATE_ACTIVE:
ret = rdp_peer_handle_state_active(client);
if (ret >= STATE_RUN_ACTIVE)
ret = peer_recv_pdu(client, s);
break;
/* States that must not happen in server state machine */
case CONNECTION_STATE_FINALIZATION_CLIENT_SYNC:
case CONNECTION_STATE_FINALIZATION_CLIENT_COOPERATE:
case CONNECTION_STATE_FINALIZATION_CLIENT_GRANTED_CONTROL:
case CONNECTION_STATE_FINALIZATION_CLIENT_FONT_MAP:
default:
WLog_ERR(TAG, "%s state %d", rdp_get_state_string(rdp), rdp_get_state(rdp));
break;
}
return ret;
}
static state_run_t peer_recv_callback(rdpTransport* transport, wStream* s, void* extra)
{
char buffer[64] = { 0 };
state_run_t rc = STATE_RUN_FAILED;
const size_t start = Stream_GetPosition(s);
const rdpContext* context = transport_get_context(transport);
WINPR_ASSERT(context);
do
{
const rdpRdp* rdp = context->rdp;
const char* old = rdp_get_state_string(rdp);
if (rc == STATE_RUN_TRY_AGAIN)
Stream_SetPosition(s, start);
rc = peer_recv_callback_internal(transport, s, extra);
WLog_VRB(TAG, "(server)[%s -> %s] current return %s [%" PRIuz " bytes not processed]", old,
rdp_get_state_string(rdp), state_run_result_string(rc, buffer, sizeof(buffer)),
Stream_GetRemainingLength(s));
} while (state_run_continue(rc));
return rc;
}
static BOOL freerdp_peer_close(freerdp_peer* client)
{
UINT32 SelectedProtocol;
rdpContext* context;
WINPR_ASSERT(client);
context = client->context;
WINPR_ASSERT(context);
WINPR_ASSERT(context->settings);
WINPR_ASSERT(context->rdp);
/** if negotiation has failed, we're not MCS connected. So don't
* send anything else, or some mstsc will consider that as an error
*/
SelectedProtocol = nego_get_selected_protocol(context->rdp->nego);
if (SelectedProtocol & PROTOCOL_FAILED_NEGO)
return TRUE;
/**
* [MS-RDPBCGR] 1.3.1.4.2 User-Initiated Disconnection Sequence on Server
* The server first sends the client a Deactivate All PDU followed by an
* optional MCS Disconnect Provider Ultimatum PDU.
*/
if (!rdp_send_deactivate_all(context->rdp))
return FALSE;
if (freerdp_settings_get_bool(context->settings, FreeRDP_SupportErrorInfoPdu))
{
rdp_send_error_info(context->rdp);
}
return mcs_send_disconnect_provider_ultimatum(context->rdp->mcs);
}
static void freerdp_peer_disconnect(freerdp_peer* client)
{
rdpTransport* transport;
WINPR_ASSERT(client);
transport = freerdp_get_transport(client->context);
transport_disconnect(transport);
}
static BOOL freerdp_peer_send_channel_data(freerdp_peer* client, UINT16 channelId, const BYTE* data,
size_t size)
{
WINPR_ASSERT(client);
WINPR_ASSERT(client->context);
WINPR_ASSERT(client->context->rdp);
return rdp_send_channel_data(client->context->rdp, channelId, data, size);
}
static BOOL freerdp_peer_send_server_redirection_pdu(freerdp_peer* peer,
const rdpRedirection* redirection)
{
WINPR_ASSERT(peer);
WINPR_ASSERT(peer->context);
wStream* s = rdp_send_stream_pdu_init(peer->context->rdp);
if (!s)
return FALSE;
if (!rdp_write_enhanced_security_redirection_packet(s, redirection))
goto fail;
if (!rdp_send_pdu(peer->context->rdp, s, PDU_TYPE_SERVER_REDIRECTION, 0))
goto fail;
return rdp_reset_runtime_settings(peer->context->rdp);
fail:
Stream_Release(s);
return FALSE;
}
static BOOL freerdp_peer_send_channel_packet(freerdp_peer* client, UINT16 channelId,
size_t totalSize, UINT32 flags, const BYTE* data,
size_t chunkSize)
{
WINPR_ASSERT(client);
WINPR_ASSERT(client->context);
WINPR_ASSERT(client->context->rdp);
return rdp_channel_send_packet(client->context->rdp, channelId, totalSize, flags, data,
chunkSize);
}
static BOOL freerdp_peer_is_write_blocked(freerdp_peer* peer)
{
rdpTransport* transport;
WINPR_ASSERT(peer);
WINPR_ASSERT(peer->context);
WINPR_ASSERT(peer->context->rdp);
WINPR_ASSERT(peer->context->rdp->transport);
transport = peer->context->rdp->transport;
return transport_is_write_blocked(transport);
}
static int freerdp_peer_drain_output_buffer(freerdp_peer* peer)
{
rdpTransport* transport;
WINPR_ASSERT(peer);
WINPR_ASSERT(peer->context);
WINPR_ASSERT(peer->context->rdp);
WINPR_ASSERT(peer->context->rdp->transport);
transport = peer->context->rdp->transport;
return transport_drain_output_buffer(transport);
}
static BOOL freerdp_peer_has_more_to_read(freerdp_peer* peer)
{
WINPR_ASSERT(peer);
WINPR_ASSERT(peer->context);
WINPR_ASSERT(peer->context->rdp);
return transport_have_more_bytes_to_read(peer->context->rdp->transport);
}
static LicenseCallbackResult freerdp_peer_nolicense(freerdp_peer* peer, wStream* s)
{
rdpRdp* rdp;
WINPR_ASSERT(peer);
WINPR_ASSERT(peer->context);
rdp = peer->context->rdp;
if (!license_send_valid_client_error_packet(rdp))
{
WLog_ERR(TAG, "freerdp_peer_nolicense: license_send_valid_client_error_packet() failed");
return LICENSE_CB_ABORT;
}
return LICENSE_CB_COMPLETED;
}
BOOL freerdp_peer_context_new(freerdp_peer* client)
{
return freerdp_peer_context_new_ex(client, NULL);
}
void freerdp_peer_context_free(freerdp_peer* client)
{
if (!client)
return;
IFCALL(client->ContextFree, client, client->context);
if (client->context)
{
rdpContext* ctx = client->context;
CloseHandle(ctx->channelErrorEvent);
ctx->channelErrorEvent = NULL;
free(ctx->errorDescription);
ctx->errorDescription = NULL;
rdp_free(ctx->rdp);
ctx->rdp = NULL;
metrics_free(ctx->metrics);
ctx->metrics = NULL;
stream_dump_free(ctx->dump);
ctx->dump = NULL;
free(ctx);
}
client->context = NULL;
}
static const char* os_major_type_to_string(UINT16 osMajorType)
{
switch (osMajorType)
{
case OSMAJORTYPE_UNSPECIFIED:
return "Unspecified platform";
case OSMAJORTYPE_WINDOWS:
return "Windows platform";
case OSMAJORTYPE_OS2:
return "OS/2 platform";
case OSMAJORTYPE_MACINTOSH:
return "Macintosh platform";
case OSMAJORTYPE_UNIX:
return "UNIX platform";
case OSMAJORTYPE_IOS:
return "iOS platform";
case OSMAJORTYPE_OSX:
return "OS X platform";
case OSMAJORTYPE_ANDROID:
return "Android platform";
case OSMAJORTYPE_CHROME_OS:
return "Chrome OS platform";
}
return "Unknown platform";
}
const char* freerdp_peer_os_major_type_string(freerdp_peer* client)
{
rdpContext* context;
UINT16 osMajorType;
WINPR_ASSERT(client);
context = client->context;
WINPR_ASSERT(context);
WINPR_ASSERT(context->settings);
osMajorType = freerdp_settings_get_uint32(context->settings, FreeRDP_OsMajorType);
return os_major_type_to_string(osMajorType);
}
static const char* os_minor_type_to_string(UINT16 osMinorType)
{
switch (osMinorType)
{
case OSMINORTYPE_UNSPECIFIED:
return "Unspecified version";
case OSMINORTYPE_WINDOWS_31X:
return "Windows 3.1x";
case OSMINORTYPE_WINDOWS_95:
return "Windows 95";
case OSMINORTYPE_WINDOWS_NT:
return "Windows NT";
case OSMINORTYPE_OS2_V21:
return "OS/2 2.1";
case OSMINORTYPE_POWER_PC:
return "PowerPC";
case OSMINORTYPE_MACINTOSH:
return "Macintosh";
case OSMINORTYPE_NATIVE_XSERVER:
return "Native X Server";
case OSMINORTYPE_PSEUDO_XSERVER:
return "Pseudo X Server";
case OSMINORTYPE_WINDOWS_RT:
return "Windows RT";
}
return "Unknown version";
}
const char* freerdp_peer_os_minor_type_string(freerdp_peer* client)
{
rdpContext* context;
UINT16 osMinorType;
WINPR_ASSERT(client);
context = client->context;
WINPR_ASSERT(context);
WINPR_ASSERT(context->settings);
osMinorType = freerdp_settings_get_uint32(context->settings, FreeRDP_OsMinorType);
return os_minor_type_to_string(osMinorType);
}
freerdp_peer* freerdp_peer_new(int sockfd)
{
UINT32 option_value;
socklen_t option_len;
freerdp_peer* client = (freerdp_peer*)calloc(1, sizeof(freerdp_peer));
if (!client)
return NULL;
option_value = TRUE;
option_len = sizeof(option_value);
if (sockfd >= 0)
setsockopt(sockfd, IPPROTO_TCP, TCP_NODELAY, (void*)&option_value, option_len);
if (client)
{
client->sockfd = sockfd;
client->ContextSize = sizeof(rdpContext);
client->Initialize = freerdp_peer_initialize;
#if defined(WITH_FREERDP_DEPRECATED)
client->GetFileDescriptor = freerdp_peer_get_fds;
#endif
client->GetEventHandle = freerdp_peer_get_event_handle;
client->GetEventHandles = freerdp_peer_get_event_handles;
client->CheckFileDescriptor = freerdp_peer_check_fds;
client->Close = freerdp_peer_close;
client->Disconnect = freerdp_peer_disconnect;
client->SendChannelData = freerdp_peer_send_channel_data;
client->SendChannelPacket = freerdp_peer_send_channel_packet;
client->SendServerRedirection = freerdp_peer_send_server_redirection_pdu;
client->IsWriteBlocked = freerdp_peer_is_write_blocked;
client->DrainOutputBuffer = freerdp_peer_drain_output_buffer;
client->HasMoreToRead = freerdp_peer_has_more_to_read;
client->VirtualChannelOpen = freerdp_peer_virtual_channel_open;
client->VirtualChannelClose = freerdp_peer_virtual_channel_close;
client->VirtualChannelWrite = freerdp_peer_virtual_channel_write;
client->VirtualChannelRead = NULL; /* must be defined by server application */
client->VirtualChannelGetData = freerdp_peer_virtual_channel_get_data;
client->VirtualChannelSetData = freerdp_peer_virtual_channel_set_data;
client->SetState = freerdp_peer_set_state;
}
return client;
}
void freerdp_peer_free(freerdp_peer* client)
{
if (!client)
return;
sspi_FreeAuthIdentity(&client->identity);
closesocket((SOCKET)client->sockfd);
free(client);
}
static BOOL frerdp_peer_transport_setup(freerdp_peer* client)
{
rdpRdp* rdp;
WINPR_ASSERT(client);
WINPR_ASSERT(client->context);
rdp = client->context->rdp;
WINPR_ASSERT(rdp);
if (!transport_attach(rdp->transport, client->sockfd))
return FALSE;
if (!transport_set_recv_callbacks(rdp->transport, peer_recv_callback, client))
return FALSE;
if (!transport_set_blocking_mode(rdp->transport, FALSE))
return FALSE;
return TRUE;
}
BOOL freerdp_peer_context_new_ex(freerdp_peer* client, const rdpSettings* settings)
{
rdpRdp* rdp;
rdpContext* context;
BOOL ret = TRUE;
if (!client)
return FALSE;
if (!(context = (rdpContext*)calloc(1, client->ContextSize)))
goto fail;
context->log = WLog_Get(TAG);
if (!context->log)
goto fail;
client->context = context;
context->peer = client;
context->ServerMode = TRUE;
if (settings)
{
context->settings = freerdp_settings_clone(settings);
if (!context->settings)
goto fail;
}
context->dump = stream_dump_new();
if (!context->dump)
goto fail;
if (!(context->metrics = metrics_new(context)))
goto fail;
if (!(rdp = rdp_new(context)))
goto fail;
rdp_log_build_warnings(rdp);
#if defined(WITH_FREERDP_DEPRECATED)
client->update = rdp->update;
client->settings = rdp->settings;
client->autodetect = rdp->autodetect;
#endif
context->rdp = rdp;
context->input = rdp->input;
context->update = rdp->update;
context->settings = rdp->settings;
context->autodetect = rdp->autodetect;
update_register_server_callbacks(rdp->update);
autodetect_register_server_callbacks(rdp->autodetect);
if (!(context->channelErrorEvent = CreateEvent(NULL, TRUE, FALSE, NULL)))
{
WLog_ERR(TAG, "CreateEvent failed!");
goto fail;
}
if (!(context->errorDescription = calloc(1, 500)))
{
WLog_ERR(TAG, "calloc failed!");
goto fail;
}
if (!frerdp_peer_transport_setup(client))
goto fail;
client->IsWriteBlocked = freerdp_peer_is_write_blocked;
client->DrainOutputBuffer = freerdp_peer_drain_output_buffer;
client->HasMoreToRead = freerdp_peer_has_more_to_read;
client->LicenseCallback = freerdp_peer_nolicense;
IFCALLRET(client->ContextNew, ret, client, client->context);
if (!ret)
goto fail;
return TRUE;
fail:
WLog_ERR(TAG, "ContextNew callback failed");
freerdp_peer_context_free(client);
return FALSE;
}