/** * FreeRDP: A Remote Desktop Protocol Implementation * Network Transport Layer * * Copyright 2011 Vic Lee * * 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 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifndef _WIN32 #include #include #include #include #endif #ifdef HAVE_VALGRIND_MEMCHECK_H #include #endif #include "tpkt.h" #include "fastpath.h" #include "transport.h" #include "rdp.h" #define BUFFER_SIZE 16384 static void* transport_client_thread(void* arg); wStream* transport_send_stream_init(rdpTransport* transport, int size) { wStream* s; s = StreamPool_Take(transport->ReceivePool, size); Stream_EnsureCapacity(s, size); Stream_SetPosition(s, 0); return s; } void transport_attach(rdpTransport* transport, int sockfd) { tcp_attach(transport->TcpIn, sockfd); transport->SplitInputOutput = FALSE; transport->TcpOut = transport->TcpIn; transport->frontBio = transport->TcpIn->bufferedBio; } void transport_stop(rdpTransport* transport) { if (transport->async) { if (transport->stopEvent) { SetEvent(transport->stopEvent); WaitForSingleObject(transport->thread, INFINITE); CloseHandle(transport->thread); CloseHandle(transport->stopEvent); transport->thread = NULL; transport->stopEvent = NULL; } } } BOOL transport_disconnect(rdpTransport* transport) { BOOL status = TRUE; if (!transport) return FALSE; transport_stop(transport); BIO_free_all(transport->frontBio); transport->frontBio = 0; return status; } BOOL transport_connect_rdp(rdpTransport* transport) { /* RDP encryption */ return TRUE; } long transport_bio_tsg_callback(BIO* bio, int mode, const char* argp, int argi, long argl, long ret) { return 1; } static int transport_bio_tsg_write(BIO* bio, const char* buf, int num) { int status; rdpTsg* tsg; tsg = (rdpTsg*) bio->ptr; BIO_clear_retry_flags(bio); status = tsg_write(tsg, (BYTE*) buf, num); if (status == 0) BIO_set_retry_write(bio); if (status > 0) return status; return -1; } static int transport_bio_tsg_read(BIO* bio, char* buf, int size) { int status; rdpTsg* tsg; tsg = (rdpTsg*) bio->ptr; status = tsg_read(bio->ptr, (BYTE*) buf, size); BIO_clear_retry_flags(bio); if (status == 0) { BIO_set_retry_read(bio); status = -1; } else if (status == -1) { status = 0; } return status >= 0 ? status : -1; } static int transport_bio_tsg_puts(BIO* bio, const char* str) { return 1; } static int transport_bio_tsg_gets(BIO* bio, char* str, int size) { return 1; } static long transport_bio_tsg_ctrl(BIO* bio, int cmd, long arg1, void* arg2) { if (cmd == BIO_CTRL_FLUSH) { return 1; } return 0; } static int transport_bio_tsg_new(BIO* bio) { bio->init = 1; bio->num = 0; bio->ptr = NULL; bio->flags = 0; return 1; } static int transport_bio_tsg_free(BIO* bio) { return 1; } #define BIO_TYPE_TSG 65 static BIO_METHOD transport_bio_tsg_methods = { BIO_TYPE_TSG, "TSGateway", transport_bio_tsg_write, transport_bio_tsg_read, transport_bio_tsg_puts, transport_bio_tsg_gets, transport_bio_tsg_ctrl, transport_bio_tsg_new, transport_bio_tsg_free, NULL, }; BIO_METHOD* BIO_s_tsg(void) { return &transport_bio_tsg_methods; } BOOL transport_connect_tls(rdpTransport* transport) { rdpSettings *settings = transport->settings; rdpTls *targetTls; BIO *targetBio; int tls_status; freerdp* instance; rdpContext* context; instance = (freerdp*) transport->settings->instance; context = instance->context; if (transport->layer == TRANSPORT_LAYER_TSG) { transport->TsgTls = tls_new(transport->settings); transport->layer = TRANSPORT_LAYER_TSG_TLS; targetTls = transport->TsgTls; targetBio = transport->frontBio; } else { if (!transport->TlsIn) transport->TlsIn = tls_new(settings); if (!transport->TlsOut) transport->TlsOut = transport->TlsIn; targetTls = transport->TlsIn; targetBio = transport->TcpIn->bufferedBio; transport->layer = TRANSPORT_LAYER_TLS; } targetTls->hostname = settings->ServerHostname; targetTls->port = settings->ServerPort; if (targetTls->port == 0) targetTls->port = 3389; targetTls->isGatewayTransport = FALSE; tls_status = tls_connect(targetTls, targetBio); if (tls_status < 1) { if (tls_status < 0) { if (!connectErrorCode) connectErrorCode = TLSCONNECTERROR; 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 FALSE; } transport->frontBio = targetTls->bio; if (!transport->frontBio) { fprintf(stderr, "%s: unable to prepend a filtering TLS bio", __FUNCTION__); return FALSE; } return TRUE; } BOOL transport_connect_nla(rdpTransport* transport) { freerdp* instance; rdpSettings* settings; rdpCredssp *credSsp; settings = transport->settings; instance = (freerdp*) settings->instance; if (!transport_connect_tls(transport)) return FALSE; /* Network Level Authentication */ if (!settings->Authentication) return TRUE; if (!transport->credssp) { transport->credssp = credssp_new(instance, transport, settings); if (!transport->credssp) return FALSE; transport_set_nla_mode(transport, TRUE); if (settings->AuthenticationServiceClass) { transport->credssp->ServicePrincipalName = credssp_make_spn(settings->AuthenticationServiceClass, settings->ServerHostname); if (!transport->credssp->ServicePrincipalName) return FALSE; } } credSsp = transport->credssp; if (credssp_authenticate(credSsp) < 0) { if (!connectErrorCode) connectErrorCode = AUTHENTICATIONERROR; if (!freerdp_get_last_error(instance->context)) { freerdp_set_last_error(instance->context, FREERDP_ERROR_AUTHENTICATION_FAILED); } fprintf(stderr, "Authentication failure, check credentials.\n" "If credentials are valid, the NTLMSSP implementation may be to blame.\n"); transport_set_nla_mode(transport, FALSE); credssp_free(credSsp); transport->credssp = NULL; return FALSE; } transport_set_nla_mode(transport, FALSE); credssp_free(credSsp); transport->credssp = NULL; return TRUE; } BOOL transport_tsg_connect(rdpTransport* transport, const char* hostname, UINT16 port) { rdpTsg* tsg; int tls_status; freerdp* instance; rdpContext* context; rdpSettings *settings = transport->settings; instance = (freerdp*) transport->settings->instance; context = instance->context; tsg = tsg_new(transport); if (!tsg) return FALSE; tsg->transport = transport; transport->tsg = tsg; transport->SplitInputOutput = TRUE; if (!transport->TlsIn) { transport->TlsIn = tls_new(settings); if (!transport->TlsIn) return FALSE; } if (!transport->TlsOut) { transport->TlsOut = tls_new(settings); if (!transport->TlsOut) return FALSE; } /* put a decent default value for gateway port */ if (!settings->GatewayPort) settings->GatewayPort = 443; transport->TlsIn->hostname = transport->TlsOut->hostname = settings->GatewayHostname; transport->TlsIn->port = transport->TlsOut->port = settings->GatewayPort; transport->TlsIn->isGatewayTransport = TRUE; tls_status = tls_connect(transport->TlsIn, transport->TcpIn->bufferedBio); if (tls_status < 1) { if (tls_status < 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 FALSE; } transport->TlsOut->isGatewayTransport = TRUE; tls_status = tls_connect(transport->TlsOut, transport->TcpOut->bufferedBio); if (tls_status < 1) { if (tls_status < 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 FALSE; } if (!tsg_connect(tsg, hostname, port)) return FALSE; transport->frontBio = BIO_new(BIO_s_tsg()); transport->frontBio->ptr = tsg; return TRUE; } BOOL transport_connect(rdpTransport* transport, const char* hostname, UINT16 port, int timeout) { BOOL status = FALSE; rdpSettings* settings = transport->settings; transport->async = settings->AsyncTransport; if (transport->GatewayEnabled) { transport->layer = TRANSPORT_LAYER_TSG; transport->SplitInputOutput = TRUE; transport->TcpOut = tcp_new(settings); if (!tcp_connect(transport->TcpIn, settings->GatewayHostname, settings->GatewayPort, timeout) || !tcp_set_blocking_mode(transport->TcpIn, FALSE)) return FALSE; if (!tcp_connect(transport->TcpOut, settings->GatewayHostname, settings->GatewayPort, timeout) || !tcp_set_blocking_mode(transport->TcpOut, FALSE)) return FALSE; if (!transport_tsg_connect(transport, hostname, port)) return FALSE; status = TRUE; } else { status = tcp_connect(transport->TcpIn, hostname, port, timeout); transport->SplitInputOutput = FALSE; transport->TcpOut = transport->TcpIn; transport->frontBio = transport->TcpIn->bufferedBio; } if (status) { if (transport->async) { transport->stopEvent = CreateEvent(NULL, TRUE, FALSE, NULL); transport->thread = CreateThread(NULL, 0, (LPTHREAD_START_ROUTINE) transport_client_thread, transport, 0, NULL); } } return status; } BOOL transport_accept_rdp(rdpTransport* transport) { /* RDP encryption */ return TRUE; } BOOL transport_accept_tls(rdpTransport* transport) { if (!transport->TlsIn) transport->TlsIn = tls_new(transport->settings); if (!transport->TlsOut) transport->TlsOut = transport->TlsIn; transport->layer = TRANSPORT_LAYER_TLS; if (!tls_accept(transport->TlsIn, transport->TcpIn->bufferedBio, transport->settings->CertificateFile, transport->settings->PrivateKeyFile)) return FALSE; transport->frontBio = transport->TlsIn->bio; return TRUE; } BOOL transport_accept_nla(rdpTransport* transport) { freerdp* instance; rdpSettings* settings; settings = transport->settings; instance = (freerdp*) settings->instance; if (!transport->TlsIn) transport->TlsIn = tls_new(transport->settings); if (!transport->TlsOut) transport->TlsOut = transport->TlsIn; transport->layer = TRANSPORT_LAYER_TLS; if (!tls_accept(transport->TlsIn, transport->TcpIn->bufferedBio, settings->CertificateFile, settings->PrivateKeyFile)) return FALSE; transport->frontBio = transport->TlsIn->bio; /* Network Level Authentication */ if (!settings->Authentication) return TRUE; if (!transport->credssp) { transport->credssp = credssp_new(instance, transport, settings); transport_set_nla_mode(transport, TRUE); } if (credssp_authenticate(transport->credssp) < 0) { fprintf(stderr, "client authentication failure\n"); transport_set_nla_mode(transport, FALSE); credssp_free(transport->credssp); transport->credssp = NULL; tls_set_alert_code(transport->TlsIn, TLS_ALERT_LEVEL_FATAL, TLS_ALERT_DESCRIPTION_ACCESS_DENIED); return FALSE; } /* don't free credssp module yet, we need to copy the credentials from it first */ transport_set_nla_mode(transport, FALSE); return TRUE; } BOOL nla_verify_header(wStream* s) { if ((Stream_Pointer(s)[0] == 0x30) && (Stream_Pointer(s)[1] & 0x80)) return TRUE; return FALSE; } UINT32 nla_read_header(wStream* s) { UINT32 length = 0; if (Stream_Pointer(s)[1] & 0x80) { if ((Stream_Pointer(s)[1] & ~(0x80)) == 1) { length = Stream_Pointer(s)[2]; length += 3; Stream_Seek(s, 3); } else if ((Stream_Pointer(s)[1] & ~(0x80)) == 2) { length = (Stream_Pointer(s)[2] << 8) | Stream_Pointer(s)[3]; length += 4; Stream_Seek(s, 4); } else { fprintf(stderr, "Error reading TSRequest!\n"); } } else { length = Stream_Pointer(s)[1]; length += 2; Stream_Seek(s, 2); } return length; } UINT32 nla_header_length(wStream* s) { UINT32 length = 0; if (Stream_Pointer(s)[1] & 0x80) { if ((Stream_Pointer(s)[1] & ~(0x80)) == 1) length = 3; else if ((Stream_Pointer(s)[1] & ~(0x80)) == 2) length = 4; else fprintf(stderr, "Error reading TSRequest!\n"); } else { length = 2; } return length; } static int transport_wait_for_read(rdpTransport* transport) { struct timeval tv; fd_set rset, wset; fd_set *rsetPtr = NULL, *wsetPtr = NULL; rdpTcp *tcpIn; tcpIn = transport->TcpIn; if (tcpIn->readBlocked) { rsetPtr = &rset; FD_ZERO(rsetPtr); FD_SET(tcpIn->sockfd, rsetPtr); } else if (tcpIn->writeBlocked) { wsetPtr = &wset; FD_ZERO(wsetPtr); FD_SET(tcpIn->sockfd, wsetPtr); } if (!wsetPtr && !rsetPtr) { USleep(1000); return 0; } tv.tv_sec = 0; tv.tv_usec = 1000; return select(tcpIn->sockfd + 1, rsetPtr, wsetPtr, NULL, &tv); } static int transport_wait_for_write(rdpTransport* transport) { struct timeval tv; fd_set rset, wset; fd_set *rsetPtr = NULL, *wsetPtr = NULL; rdpTcp *tcpOut; tcpOut = transport->SplitInputOutput ? transport->TcpOut : transport->TcpIn; if (tcpOut->writeBlocked) { wsetPtr = &wset; FD_ZERO(wsetPtr); FD_SET(tcpOut->sockfd, wsetPtr); } else if (tcpOut->readBlocked) { rsetPtr = &rset; FD_ZERO(rsetPtr); FD_SET(tcpOut->sockfd, rsetPtr); } if (!wsetPtr && !rsetPtr) { USleep(1000); return 0; } tv.tv_sec = 0; tv.tv_usec = 1000; return select(tcpOut->sockfd + 1, rsetPtr, wsetPtr, NULL, &tv); } int transport_read_layer(rdpTransport* transport, BYTE* data, int bytes) { int read = 0; int status = -1; if (!transport->frontBio) { transport->layer = TRANSPORT_LAYER_CLOSED; return -1; } while (read < bytes) { status = BIO_read(transport->frontBio, data + read, bytes - read); if (!status) { transport->layer = TRANSPORT_LAYER_CLOSED; return -1; } if (status < 0) { if (!transport->frontBio || !BIO_should_retry(transport->frontBio)) { /* something unexpected happened, let's close */ transport->layer = TRANSPORT_LAYER_CLOSED; return -1; } /* non blocking will survive a partial read */ if (!transport->blocking) return read; /* blocking means that we can't continue until we have read the number of * requested bytes */ if (transport_wait_for_read(transport) < 0) { fprintf(stderr, "%s: error when selecting for read\n", __FUNCTION__); return -1; } continue; } #ifdef HAVE_VALGRIND_MEMCHECK_H VALGRIND_MAKE_MEM_DEFINED(data + read, bytes - read); #endif read += status; } return read; } int transport_read(rdpTransport* transport, wStream* s) { int status; int position; int pduLength; BYTE *header; int transport_status; position = 0; pduLength = 0; transport_status = 0; if (!transport) return -1; if (!s) return -1; /* first check if we have header */ position = Stream_GetPosition(s); if (position < 4) { status = transport_read_layer(transport, Stream_Buffer(s) + position, 4 - position); if (status < 0) return status; transport_status += status; if ((status + position) < 4) return transport_status; position += status; } header = Stream_Buffer(s); /* if header is present, read exactly one PDU */ if (transport->NlaMode) { if (header[0] == 0x30) { /* TSRequest (NLA) */ if (header[1] & 0x80) { if ((header[1] & ~(0x80)) == 1) { pduLength = header[2]; pduLength += 3; } else if ((header[1] & ~(0x80)) == 2) { pduLength = (header[2] << 8) | header[3]; pduLength += 4; } else { fprintf(stderr, "Error reading TSRequest!\n"); return -1; } } else { pduLength = header[1]; pduLength += 2; } } } else { if (header[0] == 0x03) { /* TPKT header */ pduLength = (header[2] << 8) | header[3]; } else { /* Fast-Path Header */ if (header[1] & 0x80) pduLength = ((header[1] & 0x7F) << 8) | header[2]; else pduLength = header[1]; } } status = transport_read_layer(transport, Stream_Buffer(s) + position, pduLength - position); if (status < 0) return status; transport_status += status; #ifdef WITH_DEBUG_TRANSPORT /* dump when whole PDU is read */ if (position + status >= pduLength) { fprintf(stderr, "Local < Remote\n"); winpr_HexDump(Stream_Buffer(s), pduLength); } #endif if (position + status >= pduLength) { WLog_Packet(transport->log, WLOG_TRACE, Stream_Buffer(s), pduLength, WLOG_PACKET_INBOUND); } return transport_status; } static int transport_read_nonblocking(rdpTransport* transport) { int status; status = transport_read(transport, transport->ReceiveBuffer); if (status <= 0) return status; Stream_Seek(transport->ReceiveBuffer, status); return status; } BOOL transport_bio_buffered_drain(BIO *bio); int transport_write(rdpTransport* transport, wStream* s) { int length; int status = -1; EnterCriticalSection(&(transport->WriteLock)); length = Stream_GetPosition(s); Stream_SetPosition(s, 0); #ifdef WITH_DEBUG_TRANSPORT if (length > 0) { fprintf(stderr, "Local > Remote\n"); winpr_HexDump(Stream_Buffer(s), length); } #endif if (length > 0) { WLog_Packet(transport->log, WLOG_TRACE, Stream_Buffer(s), length, WLOG_PACKET_OUTBOUND); } while (length > 0) { status = BIO_write(transport->frontBio, Stream_Pointer(s), length); if (status <= 0) { /* the buffered BIO that is at the end of the chain always says OK for writing, * so a retry means that for any reason we need to read. The most probable * is a SSL or TSG BIO in the chain. */ if (!BIO_should_retry(transport->frontBio)) return status; /* non-blocking can live with blocked IOs */ if (!transport->blocking) return status; if (transport_wait_for_write(transport) < 0) { fprintf(stderr, "%s: error when selecting for write\n", __FUNCTION__); return -1; } continue; } if (transport->blocking || transport->settings->WaitForOutputBufferFlush) { /* blocking transport, we must ensure the write buffer is really empty */ rdpTcp *out = transport->TcpOut; while (out->writeBlocked) { if (transport_wait_for_write(transport) < 0) { fprintf(stderr, "%s: error when selecting for write\n", __FUNCTION__); return -1; } if (!transport_bio_buffered_drain(out->bufferedBio)) { fprintf(stderr, "%s: error when draining outputBuffer\n", __FUNCTION__); return -1; } } } length -= status; Stream_Seek(s, status); } if (status < 0) { /* A write error indicates that the peer has dropped the connection */ transport->layer = TRANSPORT_LAYER_CLOSED; } if (s->pool) Stream_Release(s); LeaveCriticalSection(&(transport->WriteLock)); return status; } void transport_get_fds(rdpTransport* transport, void** rfds, int* rcount) { void* pfd; #ifdef _WIN32 rfds[*rcount] = transport->TcpIn->wsa_event; (*rcount)++; if (transport->SplitInputOutput) { rfds[*rcount] = transport->TcpOut->wsa_event; (*rcount)++; } #else rfds[*rcount] = (void*)(long)(transport->TcpIn->sockfd); (*rcount)++; if (transport->SplitInputOutput) { rfds[*rcount] = (void*)(long)(transport->TcpOut->sockfd); (*rcount)++; } #endif pfd = GetEventWaitObject(transport->ReceiveEvent); if (pfd) { rfds[*rcount] = pfd; (*rcount)++; } if (transport->GatewayEvent) { pfd = GetEventWaitObject(transport->GatewayEvent); if (pfd) { rfds[*rcount] = pfd; (*rcount)++; } } } void transport_get_read_handles(rdpTransport* transport, HANDLE* events, DWORD* count) { events[*count] = tcp_get_event_handle(transport->TcpIn); (*count)++; if (transport->SplitInputOutput) { events[*count] = tcp_get_event_handle(transport->TcpOut); (*count)++; } if (transport->ReceiveEvent) { events[*count] = transport->ReceiveEvent; (*count)++; } if (transport->GatewayEvent) { events[*count] = transport->GatewayEvent; (*count)++; } } BOOL tranport_is_write_blocked(rdpTransport* transport) { if (transport->TcpIn->writeBlocked) return TRUE; return transport->SplitInputOutput && transport->TcpOut && transport->TcpOut->writeBlocked; } int tranport_drain_output_buffer(rdpTransport* transport) { BOOL ret = FALSE; /* First try to send some accumulated bytes in the send buffer */ if (transport->TcpIn->writeBlocked) { if (!transport_bio_buffered_drain(transport->TcpIn->bufferedBio)) return -1; ret |= transport->TcpIn->writeBlocked; } if (transport->SplitInputOutput && transport->TcpOut && transport->TcpOut->writeBlocked) { if (!transport_bio_buffered_drain(transport->TcpOut->bufferedBio)) return -1; ret |= transport->TcpOut->writeBlocked; } return ret; } int transport_check_fds(rdpTransport* transport) { int pos; int status; int length; int recv_status; wStream* received; if (!transport) return -1; #ifdef _WIN32 WSAResetEvent(transport->TcpIn->wsa_event); #endif ResetEvent(transport->ReceiveEvent); /** * Loop through and read all available PDUs. Since multiple * PDUs can exist, it's important to deliver them all before * returning. Otherwise we run the risk of having a thread * wait for a socket to get signaled that data is available * (which may never happen). */ for (;;) { /** * Note: transport_read_nonblocking() reads max 1 additional PDU from * the layer. Also note that transport_read_nonblocking() is also called * outside of this function in transport_write()! This means that when * entering transport_check_fds it is possible that the stream position * of transport->ReceiveBuffer position is > 0. We must process this data * even if transport_read_nonblocking() returns 0. * Note that transport->ReceiveBuffer is replaced after each iteration * of this loop with a fresh stream instance from a pool. */ if ((status = transport_read_nonblocking(transport)) < 0) return status; if ((pos = Stream_GetPosition(transport->ReceiveBuffer)) < 2) return status; Stream_SetPosition(transport->ReceiveBuffer, 0); length = 0; if (transport->NlaMode) { if (nla_verify_header(transport->ReceiveBuffer)) { /* TSRequest */ /* Ensure the TSRequest header is available. */ if (pos <= 4) { Stream_SetPosition(transport->ReceiveBuffer, pos); return 0; } /* TSRequest header can be 2, 3 or 4 bytes long */ length = nla_header_length(transport->ReceiveBuffer); if (pos < length) { Stream_SetPosition(transport->ReceiveBuffer, pos); return 0; } length = nla_read_header(transport->ReceiveBuffer); } } else { if (tpkt_verify_header(transport->ReceiveBuffer)) /* TPKT */ { /* Ensure the TPKT header is available. */ if (pos <= 4) { Stream_SetPosition(transport->ReceiveBuffer, pos); return 0; } length = tpkt_read_header(transport->ReceiveBuffer); } else /* Fast Path */ { /* Ensure the Fast Path header is available. */ if (pos <= 2) { Stream_SetPosition(transport->ReceiveBuffer, pos); return 0; } /* Fastpath header can be two or three bytes long. */ length = fastpath_header_length(transport->ReceiveBuffer); if (pos < length) { Stream_SetPosition(transport->ReceiveBuffer, pos); return 0; } length = fastpath_read_header(NULL, transport->ReceiveBuffer); } } if (length == 0) { fprintf(stderr, "transport_check_fds: protocol error, not a TPKT or Fast Path header.\n"); winpr_HexDump(Stream_Buffer(transport->ReceiveBuffer), pos); return -1; } if (pos < length) { Stream_SetPosition(transport->ReceiveBuffer, pos); return 0; /* Packet is not yet completely received. */ } received = transport->ReceiveBuffer; transport->ReceiveBuffer = StreamPool_Take(transport->ReceivePool, 0); Stream_SetPosition(received, length); Stream_SealLength(received); Stream_SetPosition(received, 0); /** * status: * -1: error * 0: success * 1: redirection */ recv_status = transport->ReceiveCallback(transport, received, transport->ReceiveExtra); if (recv_status == 1) { return 1; /* session redirection */ } Stream_Release(received); if (recv_status < 0) return -1; } return 0; } BOOL transport_set_blocking_mode(rdpTransport* transport, BOOL blocking) { BOOL status; status = TRUE; transport->blocking = blocking; if (transport->SplitInputOutput) { status &= tcp_set_blocking_mode(transport->TcpIn, blocking); status &= tcp_set_blocking_mode(transport->TcpOut, blocking); } else { status &= tcp_set_blocking_mode(transport->TcpIn, blocking); } if (transport->layer == TRANSPORT_LAYER_TSG || transport->layer == TRANSPORT_LAYER_TSG_TLS) { tsg_set_blocking_mode(transport->tsg, blocking); } return status; } void transport_set_gateway_enabled(rdpTransport* transport, BOOL GatewayEnabled) { transport->GatewayEnabled = GatewayEnabled; } void transport_set_nla_mode(rdpTransport* transport, BOOL NlaMode) { transport->NlaMode = NlaMode; } static void* transport_client_thread(void* arg) { DWORD status; DWORD nCount; HANDLE handles[8]; freerdp* instance; rdpContext* context; rdpTransport* transport; transport = (rdpTransport*) arg; assert(NULL != transport); assert(NULL != transport->settings); instance = (freerdp*) transport->settings->instance; assert(NULL != instance); context = instance->context; assert(NULL != instance->context); WLog_Print(transport->log, WLOG_DEBUG, "Starting transport thread"); nCount = 0; handles[nCount++] = transport->stopEvent; handles[nCount++] = transport->connectedEvent; status = WaitForMultipleObjects(nCount, handles, FALSE, INFINITE); if (WaitForSingleObject(transport->stopEvent, 0) == WAIT_OBJECT_0) { WLog_Print(transport->log, WLOG_DEBUG, "Terminating transport thread"); ExitThread(0); return NULL; } WLog_Print(transport->log, WLOG_DEBUG, "Asynchronous transport activated"); while (1) { nCount = 0; handles[nCount++] = transport->stopEvent; transport_get_read_handles(transport, (HANDLE*) &handles, &nCount); status = WaitForMultipleObjects(nCount, handles, FALSE, INFINITE); if (transport->layer == TRANSPORT_LAYER_CLOSED) { rdpRdp* rdp = (rdpRdp*) transport->rdp; rdp_set_error_info(rdp, ERRINFO_PEER_DISCONNECTED); break; } else if (status != WAIT_TIMEOUT) { if (WaitForSingleObject(transport->stopEvent, 0) == WAIT_OBJECT_0) break; if (!freerdp_check_fds(instance)) { } } } WLog_Print(transport->log, WLOG_DEBUG, "Terminating transport thread"); ExitThread(0); return NULL; } rdpTransport* transport_new(rdpSettings* settings) { rdpTransport* transport; transport = (rdpTransport *)calloc(1, sizeof(rdpTransport)); if (!transport) return NULL; WLog_Init(); transport->log = WLog_Get("com.freerdp.core.transport"); if (!transport->log) goto out_free; transport->TcpIn = tcp_new(settings); if (!transport->TcpIn) goto out_free; transport->settings = settings; /* a small 0.1ms delay when transport is blocking. */ transport->SleepInterval = 100; transport->ReceivePool = StreamPool_New(TRUE, BUFFER_SIZE); if (!transport->ReceivePool) goto out_free_tcpin; /* receive buffer for non-blocking read. */ transport->ReceiveBuffer = StreamPool_Take(transport->ReceivePool, 0); if (!transport->ReceiveBuffer) goto out_free_receivepool; transport->ReceiveEvent = CreateEvent(NULL, TRUE, FALSE, NULL); if (!transport->ReceiveEvent || transport->ReceiveEvent == INVALID_HANDLE_VALUE) goto out_free_receivebuffer; transport->connectedEvent = CreateEvent(NULL, TRUE, FALSE, NULL); if (!transport->connectedEvent || transport->connectedEvent == INVALID_HANDLE_VALUE) goto out_free_receiveEvent; transport->blocking = TRUE; transport->GatewayEnabled = FALSE; transport->layer = TRANSPORT_LAYER_TCP; if (!InitializeCriticalSectionAndSpinCount(&(transport->ReadLock), 4000)) goto out_free_connectedEvent; if (!InitializeCriticalSectionAndSpinCount(&(transport->WriteLock), 4000)) goto out_free_readlock; return transport; out_free_readlock: DeleteCriticalSection(&(transport->ReadLock)); out_free_connectedEvent: CloseHandle(transport->connectedEvent); out_free_receiveEvent: CloseHandle(transport->ReceiveEvent); out_free_receivebuffer: StreamPool_Return(transport->ReceivePool, transport->ReceiveBuffer); out_free_receivepool: StreamPool_Free(transport->ReceivePool); out_free_tcpin: tcp_free(transport->TcpIn); out_free: free(transport); return NULL; } void transport_free(rdpTransport* transport) { if (!transport) return; transport_stop(transport); if (transport->ReceiveBuffer) Stream_Release(transport->ReceiveBuffer); StreamPool_Free(transport->ReceivePool); CloseHandle(transport->ReceiveEvent); CloseHandle(transport->connectedEvent); if (transport->TlsIn) tls_free(transport->TlsIn); if (transport->TlsOut != transport->TlsIn) tls_free(transport->TlsOut); transport->TlsIn = NULL; transport->TlsOut = NULL; if (transport->TcpIn) tcp_free(transport->TcpIn); if (transport->TcpOut != transport->TcpIn) tcp_free(transport->TcpOut); transport->TcpIn = NULL; transport->TcpOut = NULL; tsg_free(transport->tsg); transport->tsg = NULL; DeleteCriticalSection(&(transport->ReadLock)); DeleteCriticalSection(&(transport->WriteLock)); free(transport); }