FreeRDP/libfreerdp/core/gateway/rpc.c

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/**
* FreeRDP: A Remote Desktop Protocol Implementation
* RPC over HTTP
*
* Copyright 2012 Fujitsu Technology Solutions GmbH
* Copyright 2012 Dmitrij Jasnov <dmitrij.jasnov@ts.fujitsu.com>
* Copyright 2012 Marc-Andre Moreau <marcandre.moreau@gmail.com>
*
* 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.
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include <winpr/crt.h>
#include <winpr/tchar.h>
#include <winpr/synch.h>
#include <winpr/dsparse.h>
#include <freerdp/log.h>
#include <openssl/rand.h>
#include <openssl/bio.h>
#ifdef HAVE_VALGRIND_MEMCHECK_H
#include <valgrind/memcheck.h>
#endif
#include "http.h"
#include "ntlm.h"
#include "ncacn_http.h"
#include "rpc_bind.h"
#include "rpc_fault.h"
#include "rpc_client.h"
#include "rpc.h"
#define TAG FREERDP_TAG("core.gateway.rpc")
/* Security Verification Trailer Signature */
rpc_sec_verification_trailer RPC_SEC_VERIFICATION_TRAILER =
{ { 0x8a, 0xe3, 0x13, 0x71, 0x02, 0xf4, 0x36, 0x71 } };
static char* PTYPE_STRINGS[] =
{
"PTYPE_REQUEST",
"PTYPE_PING",
"PTYPE_RESPONSE",
"PTYPE_FAULT",
"PTYPE_WORKING",
"PTYPE_NOCALL",
"PTYPE_REJECT",
"PTYPE_ACK",
"PTYPE_CL_CANCEL",
"PTYPE_FACK",
"PTYPE_CANCEL_ACK",
"PTYPE_BIND",
"PTYPE_BIND_ACK",
"PTYPE_BIND_NAK",
"PTYPE_ALTER_CONTEXT",
"PTYPE_ALTER_CONTEXT_RESP",
"PTYPE_RPC_AUTH_3",
"PTYPE_SHUTDOWN",
"PTYPE_CO_CANCEL",
"PTYPE_ORPHANED",
"PTYPE_RTS",
""
};
const RPC_SECURITY_PROVIDER_INFO RPC_SECURITY_PROVIDER_INFO_TABLE[] =
{
{ RPC_C_AUTHN_NONE, TRUE, -1 },
{ RPC_C_AUTHN_GSS_NEGOTIATE, TRUE, -1 },
{ RPC_C_AUTHN_WINNT, FALSE, 3 },
{ RPC_C_AUTHN_GSS_SCHANNEL, TRUE, -1 },
{ RPC_C_AUTHN_GSS_KERBEROS, TRUE, -1 },
{ RPC_C_AUTHN_DEFAULT, -1, -1 },
{ 0, -1, -1 }
};
/**
* [MS-RPCH]: Remote Procedure Call over HTTP Protocol Specification:
* http://msdn.microsoft.com/en-us/library/cc243950/
*/
/**
* Connection Establishment\n
*
* Client Outbound Proxy Inbound Proxy Server\n
* | | | |\n
* |-----------------IN Channel Request--------------->| |\n
* |---OUT Channel Request-->| |<-Legacy Server Response-|\n
* | |<--------------Legacy Server Response--------------|\n
* | | | |\n
* |---------CONN_A1-------->| | |\n
* |----------------------CONN_B1--------------------->| |\n
* | |----------------------CONN_A2--------------------->|\n
* | | | |\n
* |<--OUT Channel Response--| |---------CONN_B2-------->|\n
* |<--------CONN_A3---------| | |\n
* | |<---------------------CONN_C1----------------------|\n
* | | |<--------CONN_B3---------|\n
* |<--------CONN_C2---------| | |\n
* | | | |\n
*
*/
void rpc_pdu_header_print(rpcconn_hdr_t* header)
{
WLog_INFO(TAG, "rpc_vers: %d", header->common.rpc_vers);
WLog_INFO(TAG, "rpc_vers_minor: %d", header->common.rpc_vers_minor);
if (header->common.ptype > PTYPE_RTS)
WLog_INFO(TAG, "ptype: %s (%d)", "PTYPE_UNKNOWN", header->common.ptype);
else
WLog_INFO(TAG, "ptype: %s (%d)", PTYPE_STRINGS[header->common.ptype], header->common.ptype);
WLog_INFO(TAG, "pfc_flags (0x%02X) = {", header->common.pfc_flags);
if (header->common.pfc_flags & PFC_FIRST_FRAG)
WLog_INFO(TAG, " PFC_FIRST_FRAG");
if (header->common.pfc_flags & PFC_LAST_FRAG)
WLog_INFO(TAG, " PFC_LAST_FRAG");
if (header->common.pfc_flags & PFC_PENDING_CANCEL)
WLog_INFO(TAG, " PFC_PENDING_CANCEL");
if (header->common.pfc_flags & PFC_RESERVED_1)
WLog_INFO(TAG, " PFC_RESERVED_1");
if (header->common.pfc_flags & PFC_CONC_MPX)
WLog_INFO(TAG, " PFC_CONC_MPX");
if (header->common.pfc_flags & PFC_DID_NOT_EXECUTE)
WLog_INFO(TAG, " PFC_DID_NOT_EXECUTE");
if (header->common.pfc_flags & PFC_OBJECT_UUID)
WLog_INFO(TAG, " PFC_OBJECT_UUID");
WLog_INFO(TAG, " }");
WLog_INFO(TAG, "packed_drep[4]: %02X %02X %02X %02X",
header->common.packed_drep[0], header->common.packed_drep[1],
header->common.packed_drep[2], header->common.packed_drep[3]);
WLog_INFO(TAG, "frag_length: %d", header->common.frag_length);
WLog_INFO(TAG, "auth_length: %d", header->common.auth_length);
WLog_INFO(TAG, "call_id: %d", header->common.call_id);
if (header->common.ptype == PTYPE_RESPONSE)
{
WLog_INFO(TAG, "alloc_hint: %d", header->response.alloc_hint);
WLog_INFO(TAG, "p_cont_id: %d", header->response.p_cont_id);
WLog_INFO(TAG, "cancel_count: %d", header->response.cancel_count);
WLog_INFO(TAG, "reserved: %d", header->response.reserved);
}
}
void rpc_pdu_header_init(rdpRpc* rpc, rpcconn_hdr_t* header)
{
header->common.rpc_vers = rpc->rpc_vers;
header->common.rpc_vers_minor = rpc->rpc_vers_minor;
header->common.packed_drep[0] = rpc->packed_drep[0];
header->common.packed_drep[1] = rpc->packed_drep[1];
header->common.packed_drep[2] = rpc->packed_drep[2];
header->common.packed_drep[3] = rpc->packed_drep[3];
}
UINT32 rpc_offset_align(UINT32* offset, UINT32 alignment)
{
UINT32 pad;
pad = *offset;
*offset = (*offset + alignment - 1) & ~(alignment - 1);
pad = *offset - pad;
return pad;
}
UINT32 rpc_offset_pad(UINT32* offset, UINT32 pad)
{
*offset += pad;
return pad;
}
/**
* PDU Segments:
* ________________________________
* | |
* | PDU Header |
* |________________________________|
* | |
* | |
* | PDU Body |
* | |
* |________________________________|
* | |
* | Security Trailer |
* |________________________________|
* | |
* | Authentication Token |
* |________________________________|
*/
/**
* PDU Structure with verification trailer
*
* MUST only appear in a request PDU!
* ________________________________
* | |
* | PDU Header |
* |________________________________| _______
* | | /|\
* | | |
* | Stub Data | |
* | | |
* |________________________________| |
* | | PDU Body
* | Stub Pad | |
* |________________________________| |
* | | |
* | Verification Trailer | |
* |________________________________| |
* | | |
* | Authentication Pad | |
* |________________________________| __\|/__
* | |
* | Security Trailer |
* |________________________________|
* | |
* | Authentication Token |
* |________________________________|
*
*/
/**
* Security Trailer:
*
* The sec_trailer structure MUST be placed at the end of the PDU, including past stub data,
* when present. The sec_trailer structure MUST be 4-byte aligned with respect to the beginning
* of the PDU. Padding octets MUST be used to align the sec_trailer structure if its natural
* beginning is not already 4-byte aligned.
*
* All PDUs that carry sec_trailer information share certain common fields:
* frag_length and auth_length. The beginning of the sec_trailer structure for each PDU MUST be
* calculated to start from offset (frag_length auth_length 8) from the beginning of the PDU.
*
* Immediately after the sec_trailer structure, there MUST be a BLOB carrying the authentication
* information produced by the security provider. This BLOB is called the authentication token and
* MUST be of size auth_length. The size MUST also be equal to the length from the first octet
* immediately after the sec_trailer structure all the way to the end of the fragment;
* the two values MUST be the same.
*
* A client or a server that (during composing of a PDU) has allocated more space for the
* authentication token than the security provider fills in SHOULD fill in the rest of
* the allocated space with zero octets. These zero octets are still considered to belong
* to the authentication token part of the PDU.
*
*/
BOOL rpc_get_stub_data_info(rdpRpc* rpc, BYTE* buffer, UINT32* offset, UINT32* length)
{
UINT32 alloc_hint = 0;
rpcconn_hdr_t* header;
UINT32 frag_length;
UINT32 auth_length;
UINT32 auth_pad_length;
UINT32 sec_trailer_offset;
rpc_sec_trailer* sec_trailer;
*offset = RPC_COMMON_FIELDS_LENGTH;
header = ((rpcconn_hdr_t*) buffer);
switch (header->common.ptype)
{
case PTYPE_RESPONSE:
*offset += 8;
rpc_offset_align(offset, 8);
alloc_hint = header->response.alloc_hint;
break;
case PTYPE_REQUEST:
*offset += 4;
rpc_offset_align(offset, 8);
alloc_hint = header->request.alloc_hint;
break;
case PTYPE_RTS:
*offset += 4;
break;
default:
WLog_ERR(TAG, "Unknown PTYPE: 0x%04X", header->common.ptype);
return FALSE;
}
if (!length)
return TRUE;
if (header->common.ptype == PTYPE_REQUEST)
{
UINT32 sec_trailer_offset;
sec_trailer_offset = header->common.frag_length - header->common.auth_length - 8;
*length = sec_trailer_offset - *offset;
return TRUE;
}
frag_length = header->common.frag_length;
auth_length = header->common.auth_length;
sec_trailer_offset = frag_length - auth_length - 8;
sec_trailer = (rpc_sec_trailer*) &buffer[sec_trailer_offset];
auth_pad_length = sec_trailer->auth_pad_length;
#if 0
WLog_DBG(TAG, "sec_trailer: type: %d level: %d pad_length: %d reserved: %d context_id: %d",
sec_trailer->auth_type, sec_trailer->auth_level,
sec_trailer->auth_pad_length, sec_trailer->auth_reserved,
sec_trailer->auth_context_id);
#endif
/**
* According to [MS-RPCE], auth_pad_length is the number of padding
* octets used to 4-byte align the security trailer, but in practice
* we get values up to 15, which indicates 16-byte alignment.
*/
if ((frag_length - (sec_trailer_offset + 8)) != auth_length)
{
WLog_ERR(TAG, "invalid auth_length: actual: %d, expected: %d", auth_length,
(frag_length - (sec_trailer_offset + 8)));
}
*length = frag_length - auth_length - 24 - 8 - auth_pad_length;
return TRUE;
}
int rpc_out_channel_read(RpcOutChannel* outChannel, BYTE* data, int length)
{
int status;
status = BIO_read(outChannel->tls->bio, data, length);
if (status > 0)
{
#ifdef HAVE_VALGRIND_MEMCHECK_H
VALGRIND_MAKE_MEM_DEFINED(data, status);
#endif
return status;
}
if (BIO_should_retry(outChannel->tls->bio))
return 0;
return -1;
}
int rpc_in_channel_write(RpcInChannel* inChannel, const BYTE* data, int length)
{
int status;
status = tls_write_all(inChannel->tls, data, length);
return status;
}
int rpc_out_channel_write(RpcOutChannel* outChannel, const BYTE* data, int length)
{
int status;
status = tls_write_all(outChannel->tls, data, length);
return status;
}
int rpc_in_channel_transition_to_state(RpcInChannel* inChannel, CLIENT_IN_CHANNEL_STATE state)
{
int status = 1;
const char* str = "CLIENT_IN_CHANNEL_STATE_UNKNOWN";
switch (state)
{
case CLIENT_IN_CHANNEL_STATE_INITIAL:
str = "CLIENT_IN_CHANNEL_STATE_INITIAL";
break;
case CLIENT_IN_CHANNEL_STATE_CONNECTED:
str = "CLIENT_IN_CHANNEL_STATE_CONNECTED";
break;
case CLIENT_IN_CHANNEL_STATE_SECURITY:
str = "CLIENT_IN_CHANNEL_STATE_SECURITY";
break;
case CLIENT_IN_CHANNEL_STATE_NEGOTIATED:
str = "CLIENT_IN_CHANNEL_STATE_NEGOTIATED";
break;
case CLIENT_IN_CHANNEL_STATE_OPENED:
str = "CLIENT_IN_CHANNEL_STATE_OPENED";
break;
case CLIENT_IN_CHANNEL_STATE_OPENED_A4W:
str = "CLIENT_IN_CHANNEL_STATE_OPENED_A4W";
break;
case CLIENT_IN_CHANNEL_STATE_FINAL:
str = "CLIENT_IN_CHANNEL_STATE_FINAL";
break;
}
inChannel->State = state;
WLog_DBG(TAG, "%s", str);
return status;
}
int rpc_in_channel_rpch_init(rdpRpc* rpc, RpcInChannel* inChannel)
{
HttpContext* http;
inChannel->ntlm = ntlm_new();
if (!inChannel->ntlm)
return -1;
inChannel->http = http_context_new();
if (!inChannel->http)
return -1;
http = inChannel->http;
http_context_set_method(http, "RPC_IN_DATA");
http_context_set_uri(http, "/rpc/rpcproxy.dll?localhost:3388");
http_context_set_accept(http, "application/rpc");
http_context_set_cache_control(http, "no-cache");
http_context_set_connection(http, "Keep-Alive");
http_context_set_user_agent(http, "MSRPC");
http_context_set_host(http, rpc->settings->GatewayHostname);
http_context_set_pragma(http, "ResourceTypeUuid=44e265dd-7daf-42cd-8560-3cdb6e7a2729");
return 1;
}
int rpc_in_channel_init(rdpRpc* rpc, RpcInChannel* inChannel)
{
rts_generate_cookie((BYTE*) &inChannel->Cookie);
inChannel->rpc = rpc;
inChannel->State = CLIENT_IN_CHANNEL_STATE_INITIAL;
inChannel->BytesSent = 0;
inChannel->SenderAvailableWindow = rpc->ReceiveWindow;
inChannel->PingOriginator.ConnectionTimeout = 30;
inChannel->PingOriginator.KeepAliveInterval = 0;
if (rpc_in_channel_rpch_init(rpc, inChannel) < 0)
return -1;
return 1;
}
void rpc_in_channel_rpch_uninit(RpcInChannel* inChannel)
{
if (inChannel->ntlm)
{
ntlm_free(inChannel->ntlm);
inChannel->ntlm = NULL;
}
if (inChannel->http)
{
http_context_free(inChannel->http);
inChannel->http = NULL;
}
}
RpcInChannel* rpc_in_channel_new(rdpRpc* rpc)
{
RpcInChannel* inChannel = NULL;
inChannel = (RpcInChannel*) calloc(1, sizeof(RpcInChannel));
if (inChannel)
{
rpc_in_channel_init(rpc, inChannel);
}
return inChannel;
}
void rpc_in_channel_free(RpcInChannel* inChannel)
{
if (!inChannel)
return;
rpc_in_channel_rpch_uninit(inChannel);
if (inChannel->tls)
{
tls_free(inChannel->tls);
inChannel->tls = NULL;
}
if (inChannel->tcp)
{
freerdp_tcp_free(inChannel->tcp);
inChannel->tcp = NULL;
}
free(inChannel);
}
int rpc_out_channel_transition_to_state(RpcOutChannel* outChannel, CLIENT_OUT_CHANNEL_STATE state)
{
int status = 1;
const char* str = "CLIENT_OUT_CHANNEL_STATE_UNKNOWN";
switch (state)
{
case CLIENT_OUT_CHANNEL_STATE_INITIAL:
str = "CLIENT_OUT_CHANNEL_STATE_INITIAL";
break;
case CLIENT_OUT_CHANNEL_STATE_CONNECTED:
str = "CLIENT_OUT_CHANNEL_STATE_CONNECTED";
break;
case CLIENT_OUT_CHANNEL_STATE_SECURITY:
str = "CLIENT_OUT_CHANNEL_STATE_SECURITY";
break;
case CLIENT_OUT_CHANNEL_STATE_NEGOTIATED:
str = "CLIENT_OUT_CHANNEL_STATE_NEGOTIATED";
break;
case CLIENT_OUT_CHANNEL_STATE_OPENED:
str = "CLIENT_OUT_CHANNEL_STATE_OPENED";
break;
case CLIENT_OUT_CHANNEL_STATE_OPENED_A6W:
str = "CLIENT_OUT_CHANNEL_STATE_OPENED_A6W";
break;
case CLIENT_OUT_CHANNEL_STATE_OPENED_A10W:
str = "CLIENT_OUT_CHANNEL_STATE_OPENED_A10W";
break;
case CLIENT_OUT_CHANNEL_STATE_OPENED_B3W:
str = "CLIENT_OUT_CHANNEL_STATE_OPENED_B3W";
break;
case CLIENT_OUT_CHANNEL_STATE_FINAL:
str = "CLIENT_OUT_CHANNEL_STATE_FINAL";
break;
}
outChannel->State = state;
WLog_DBG(TAG, "%s", str);
return status;
}
int rpc_out_channel_rpch_init(rdpRpc* rpc, RpcOutChannel* outChannel)
{
HttpContext* http;
outChannel->ntlm = ntlm_new();
if (!outChannel->ntlm)
return -1;
outChannel->http = http_context_new();
if (!outChannel->http)
return -1;
http = outChannel->http;
http_context_set_method(http, "RPC_OUT_DATA");
http_context_set_uri(http, "/rpc/rpcproxy.dll?localhost:3388");
http_context_set_accept(http, "application/rpc");
http_context_set_cache_control(http, "no-cache");
http_context_set_connection(http, "Keep-Alive");
http_context_set_user_agent(http, "MSRPC");
http_context_set_host(http, rpc->settings->GatewayHostname);
http_context_set_pragma(http,
"ResourceTypeUuid=44e265dd-7daf-42cd-8560-3cdb6e7a2729, "
"SessionId=fbd9c34f-397d-471d-a109-1b08cc554624");
return 1;
}
int rpc_out_channel_init(rdpRpc* rpc, RpcOutChannel* outChannel)
{
rts_generate_cookie((BYTE*) &outChannel->Cookie);
outChannel->rpc = rpc;
outChannel->State = CLIENT_OUT_CHANNEL_STATE_INITIAL;
outChannel->BytesReceived = 0;
outChannel->ReceiverAvailableWindow = rpc->ReceiveWindow;
outChannel->ReceiveWindow = rpc->ReceiveWindow;
outChannel->ReceiveWindowSize = rpc->ReceiveWindow;
outChannel->AvailableWindowAdvertised = rpc->ReceiveWindow;
if (rpc_out_channel_rpch_init(rpc, outChannel) < 0)
return -1;
return 1;
}
void rpc_out_channel_rpch_uninit(RpcOutChannel* outChannel)
{
if (outChannel->ntlm)
{
ntlm_free(outChannel->ntlm);
outChannel->ntlm = NULL;
}
if (outChannel->http)
{
http_context_free(outChannel->http);
outChannel->http = NULL;
}
}
RpcOutChannel* rpc_out_channel_new(rdpRpc* rpc)
{
RpcOutChannel* outChannel = NULL;
outChannel = (RpcOutChannel*) calloc(1, sizeof(RpcOutChannel));
if (outChannel)
{
rpc_out_channel_init(rpc, outChannel);
}
return outChannel;
}
void rpc_out_channel_free(RpcOutChannel* outChannel)
{
if (!outChannel)
return;
rpc_out_channel_rpch_uninit(outChannel);
if (outChannel->tls)
{
tls_free(outChannel->tls);
outChannel->tls = NULL;
}
if (outChannel->tcp)
{
freerdp_tcp_free(outChannel->tcp);
outChannel->tcp = NULL;
}
free(outChannel);
}
int rpc_virtual_connection_transition_to_state(rdpRpc* rpc,
RpcVirtualConnection* connection, VIRTUAL_CONNECTION_STATE state)
{
int status = 1;
const char* str = "VIRTUAL_CONNECTION_STATE_UNKNOWN";
switch (state)
{
case VIRTUAL_CONNECTION_STATE_INITIAL:
str = "VIRTUAL_CONNECTION_STATE_INITIAL";
break;
case VIRTUAL_CONNECTION_STATE_OUT_CHANNEL_WAIT:
str = "VIRTUAL_CONNECTION_STATE_OUT_CHANNEL_WAIT";
break;
case VIRTUAL_CONNECTION_STATE_WAIT_A3W:
str = "VIRTUAL_CONNECTION_STATE_WAIT_A3W";
break;
case VIRTUAL_CONNECTION_STATE_WAIT_C2:
str = "VIRTUAL_CONNECTION_STATE_WAIT_C2";
break;
case VIRTUAL_CONNECTION_STATE_OPENED:
str = "VIRTUAL_CONNECTION_STATE_OPENED";
break;
case VIRTUAL_CONNECTION_STATE_FINAL:
str = "VIRTUAL_CONNECTION_STATE_FINAL";
break;
}
connection->State = state;
WLog_DBG(TAG, "%s", str);
return status;
}
RpcVirtualConnection* rpc_virtual_connection_new(rdpRpc* rpc)
{
RpcVirtualConnection* connection;
connection = (RpcVirtualConnection*) calloc(1, sizeof(RpcVirtualConnection));
if (!connection)
return NULL;
rts_generate_cookie((BYTE*) &(connection->Cookie));
rts_generate_cookie((BYTE*) &(connection->AssociationGroupId));
connection->State = VIRTUAL_CONNECTION_STATE_INITIAL;
connection->DefaultInChannel = rpc_in_channel_new(rpc);
if (!connection->DefaultInChannel)
goto out_free;
connection->DefaultOutChannel = rpc_out_channel_new(rpc);
if (!connection->DefaultOutChannel)
goto out_default_in;
return connection;
out_default_in:
free(connection->DefaultInChannel);
out_free:
free(connection);
return NULL;
}
void rpc_virtual_connection_free(RpcVirtualConnection* connection)
{
if (!connection)
return;
rpc_in_channel_free(connection->DefaultInChannel);
rpc_in_channel_free(connection->NonDefaultInChannel);
rpc_out_channel_free(connection->DefaultOutChannel);
rpc_out_channel_free(connection->NonDefaultOutChannel);
free(connection);
}
int rpc_channel_tls_connect(RpcChannel* channel, int timeout)
{
rdpTcp* tcp;
rdpTls* tls;
int tlsStatus;
rdpRpc* rpc = channel->rpc;
rdpContext* context = rpc->context;
rdpSettings* settings = context->settings;
tcp = channel->tcp = freerdp_tcp_new();
if (!freerdp_tcp_connect(tcp, settings, settings->GatewayHostname, settings->GatewayPort, timeout))
return -1;
if (!BIO_set_nonblock(tcp->bufferedBio, TRUE))
return -1;
tls = channel->tls = tls_new(settings);
if (!tls)
return -1;
tls->hostname = settings->GatewayHostname;
tls->port = settings->GatewayPort;
tls->isGatewayTransport = TRUE;
tlsStatus = tls_connect(tls, tcp->bufferedBio);
if (tlsStatus < 1)
{
if (tlsStatus < 0)
{
if (!freerdp_get_last_error(context))
freerdp_set_last_error(context, FREERDP_ERROR_TLS_CONNECT_FAILED);
}
else
{
if (!freerdp_get_last_error(context))
freerdp_set_last_error(context, FREERDP_ERROR_CONNECT_CANCELLED);
}
return -1;
}
return 1;
}
int rpc_in_channel_connect(RpcInChannel* inChannel, int timeout)
{
rdpRpc* rpc = inChannel->rpc;
/* Connect IN Channel */
if (rpc_channel_tls_connect((RpcChannel*) inChannel, timeout) < 0)
return -1;
rpc_in_channel_transition_to_state(inChannel, CLIENT_IN_CHANNEL_STATE_CONNECTED);
if (rpc_ncacn_http_ntlm_init(rpc, (RpcChannel*) inChannel) < 0)
return -1;
/* Send IN Channel Request */
if (rpc_ncacn_http_send_in_channel_request(rpc, inChannel) < 0)
{
WLog_ERR(TAG, "rpc_ncacn_http_send_in_channel_request failure");
return -1;
}
rpc_in_channel_transition_to_state(inChannel, CLIENT_IN_CHANNEL_STATE_SECURITY);
return 1;
}
int rpc_out_channel_connect(RpcOutChannel* outChannel, int timeout)
{
rdpRpc* rpc = outChannel->rpc;
/* Connect OUT Channel */
if (rpc_channel_tls_connect((RpcChannel*) outChannel, timeout) < 0)
return -1;
rpc_out_channel_transition_to_state(outChannel, CLIENT_OUT_CHANNEL_STATE_CONNECTED);
if (rpc_ncacn_http_ntlm_init(rpc, (RpcChannel*) outChannel) < 0)
return FALSE;
/* Send OUT Channel Request */
if (rpc_ncacn_http_send_out_channel_request(rpc, outChannel, FALSE) < 0)
{
WLog_ERR(TAG, "rpc_ncacn_http_send_out_channel_request failure");
return FALSE;
}
rpc_out_channel_transition_to_state(outChannel, CLIENT_OUT_CHANNEL_STATE_SECURITY);
return 1;
}
BOOL rpc_connect(rdpRpc* rpc, int timeout)
{
RpcInChannel* inChannel;
RpcOutChannel* outChannel;
RpcVirtualConnection* connection;
rpc->VirtualConnection = rpc_virtual_connection_new(rpc);
if (!rpc->VirtualConnection)
return FALSE;
connection = rpc->VirtualConnection;
inChannel = connection->DefaultInChannel;
outChannel = connection->DefaultOutChannel;
rpc_virtual_connection_transition_to_state(rpc, connection, VIRTUAL_CONNECTION_STATE_INITIAL);
if (rpc_in_channel_connect(inChannel, timeout) < 0)
return FALSE;
if (rpc_out_channel_connect(outChannel, timeout) < 0)
return FALSE;
return TRUE;
}
rdpRpc* rpc_new(rdpTransport* transport)
{
rdpRpc* rpc = (rdpRpc*) calloc(1, sizeof(rdpRpc));
if (!rpc)
return NULL;
rpc->State = RPC_CLIENT_STATE_INITIAL;
rpc->transport = transport;
rpc->settings = transport->settings;
rpc->context = transport->context;
rpc->SendSeqNum = 0;
rpc->ntlm = ntlm_new();
if (!rpc->ntlm)
goto out_free;
rpc->PipeCallId = 0;
rpc->StubCallId = 0;
rpc->StubFragCount = 0;
rpc->rpc_vers = 5;
rpc->rpc_vers_minor = 0;
/* little-endian data representation */
rpc->packed_drep[0] = 0x10;
rpc->packed_drep[1] = 0x00;
rpc->packed_drep[2] = 0x00;
rpc->packed_drep[3] = 0x00;
rpc->max_xmit_frag = 0x0FF8;
rpc->max_recv_frag = 0x0FF8;
rpc->ReceiveWindow = 0x00010000;
rpc->ChannelLifetime = 0x40000000;
rpc->KeepAliveInterval = 300000;
rpc->CurrentKeepAliveInterval = rpc->KeepAliveInterval;
rpc->CurrentKeepAliveTime = 0;
rpc->CallId = 2;
if (rpc_client_new(rpc) < 0)
goto out_free_rpc_client;
return rpc;
out_free_rpc_client:
rpc_client_free(rpc);
out_free:
free(rpc);
return NULL;
}
void rpc_free(rdpRpc* rpc)
{
if (rpc)
{
rpc_client_free(rpc);
if (rpc->ntlm)
{
ntlm_client_uninit(rpc->ntlm);
ntlm_free(rpc->ntlm);
rpc->ntlm = NULL;
}
if (rpc->VirtualConnection)
{
rpc_virtual_connection_free(rpc->VirtualConnection);
rpc->VirtualConnection = NULL;
}
free(rpc);
}
}