/** * FreeRDP: A Remote Desktop Protocol Implementation * Request To Send (RTS) PDUs * * Copyright 2012 Marc-Andre Moreau * * 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 "ncacn_http.h" #include "rpc_client.h" #include "rts.h" #define TAG FREERDP_TAG("core.gateway.rts") const char* const RTS_CMD_STRINGS[] = { "ReceiveWindowSize", "FlowControlAck", "ConnectionTimeout", "Cookie", "ChannelLifetime", "ClientKeepalive", "Version", "Empty", "Padding", "NegativeANCE", "ANCE", "ClientAddress", "AssociationGroupId", "Destination", "PingTrafficSentNotify" }; /** * RTS PDU Header * * The RTS PDU Header has the same layout as the common header of the connection-oriented RPC * PDU as specified in [C706] section 12.6.1, with a few additional requirements around the contents * of the header fields. The additional requirements are as follows: * * All fields MUST use little-endian byte order. * * Fragmentation MUST NOT occur for an RTS PDU. * * PFC_FIRST_FRAG and PFC_LAST_FRAG MUST be present in all RTS PDUs, and all other PFC flags * MUST NOT be present. * * The rpc_vers and rpc_vers_minor fields MUST contain version information as described in * [MS-RPCE] section 1.7. * * PTYPE MUST be set to a value of 20 (0x14). This field differentiates RTS packets from other RPC packets. * * The packed_drep MUST indicate little-endian integer and floating-pointer byte order, IEEE float-point * format representation, and ASCII character format as specified in [C706] section 12.6. * * The auth_length MUST be set to 0. * * The frag_length field MUST reflect the size of the header plus the size of all commands, including * the variable portion of variable-sized commands. * * The call_id MUST be set to 0 by senders and MUST be 0 on receipt. * */ void rts_pdu_header_init(rpcconn_rts_hdr_t* header) { ZeroMemory(header, sizeof(*header)); header->rpc_vers = 5; header->rpc_vers_minor = 0; header->ptype = PTYPE_RTS; header->packed_drep[0] = 0x10; header->packed_drep[1] = 0x00; header->packed_drep[2] = 0x00; header->packed_drep[3] = 0x00; header->pfc_flags = PFC_FIRST_FRAG | PFC_LAST_FRAG; header->auth_length = 0; header->call_id = 0; } int rts_receive_window_size_command_read(rdpRpc* rpc, BYTE* buffer, UINT32 length, UINT32* ReceiveWindowSize) { if (ReceiveWindowSize) *ReceiveWindowSize = *((UINT32*) &buffer[0]); /* ReceiveWindowSize (4 bytes) */ return 4; } int rts_receive_window_size_command_write(BYTE* buffer, UINT32 ReceiveWindowSize) { if (buffer) { *((UINT32*) &buffer[0]) = RTS_CMD_RECEIVE_WINDOW_SIZE; /* CommandType (4 bytes) */ *((UINT32*) &buffer[4]) = ReceiveWindowSize; /* ReceiveWindowSize (4 bytes) */ } return 8; } int rts_flow_control_ack_command_read(rdpRpc* rpc, BYTE* buffer, UINT32 length, UINT32* BytesReceived, UINT32* AvailableWindow, BYTE* ChannelCookie) { /* Ack (24 bytes) */ if (BytesReceived) *BytesReceived = *((UINT32*) &buffer[0]); /* BytesReceived (4 bytes) */ if (AvailableWindow) *AvailableWindow = *((UINT32*) &buffer[4]); /* AvailableWindow (4 bytes) */ if (ChannelCookie) CopyMemory(ChannelCookie, &buffer[8], 16); /* ChannelCookie (16 bytes) */ return 24; } int rts_flow_control_ack_command_write(BYTE* buffer, UINT32 BytesReceived, UINT32 AvailableWindow, BYTE* ChannelCookie) { if (buffer) { *((UINT32*) &buffer[0]) = RTS_CMD_FLOW_CONTROL_ACK; /* CommandType (4 bytes) */ /* Ack (24 bytes) */ *((UINT32*) &buffer[4]) = BytesReceived; /* BytesReceived (4 bytes) */ *((UINT32*) &buffer[8]) = AvailableWindow; /* AvailableWindow (4 bytes) */ CopyMemory(&buffer[12], ChannelCookie, 16); /* ChannelCookie (16 bytes) */ } return 28; } int rts_connection_timeout_command_read(rdpRpc* rpc, BYTE* buffer, UINT32 length, UINT32* ConnectionTimeout) { if (ConnectionTimeout) *ConnectionTimeout = *((UINT32*) &buffer[0]); /* ConnectionTimeout (4 bytes) */ return 4; } int rts_connection_timeout_command_write(BYTE* buffer, UINT32 ConnectionTimeout) { if (buffer) { *((UINT32*) &buffer[0]) = RTS_CMD_CONNECTION_TIMEOUT; /* CommandType (4 bytes) */ *((UINT32*) &buffer[4]) = ConnectionTimeout; /* ConnectionTimeout (4 bytes) */ } return 8; } int rts_cookie_command_read(rdpRpc* rpc, BYTE* buffer, UINT32 length) { /* Cookie (16 bytes) */ return 16; } int rts_cookie_command_write(BYTE* buffer, BYTE* Cookie) { if (buffer) { *((UINT32*) &buffer[0]) = RTS_CMD_COOKIE; /* CommandType (4 bytes) */ CopyMemory(&buffer[4], Cookie, 16); /* Cookie (16 bytes) */ } return 20; } int rts_channel_lifetime_command_read(rdpRpc* rpc, BYTE* buffer, UINT32 length) { /* ChannelLifetime (4 bytes) */ return 4; } int rts_channel_lifetime_command_write(BYTE* buffer, UINT32 ChannelLifetime) { if (buffer) { *((UINT32*) &buffer[0]) = RTS_CMD_CHANNEL_LIFETIME; /* CommandType (4 bytes) */ *((UINT32*) &buffer[4]) = ChannelLifetime; /* ChannelLifetime (4 bytes) */ } return 8; } int rts_client_keepalive_command_read(rdpRpc* rpc, BYTE* buffer, UINT32 length) { /* ClientKeepalive (4 bytes) */ return 4; } int rts_client_keepalive_command_write(BYTE* buffer, UINT32 ClientKeepalive) { /** * An unsigned integer that specifies the keep-alive interval, in milliseconds, * that this connection is configured to use. This value MUST be 0 or in the inclusive * range of 60,000 through 4,294,967,295. If it is 0, it MUST be interpreted as 300,000. */ if (buffer) { *((UINT32*) &buffer[0]) = RTS_CMD_CLIENT_KEEPALIVE; /* CommandType (4 bytes) */ *((UINT32*) &buffer[4]) = ClientKeepalive; /* ClientKeepalive (4 bytes) */ } return 8; } int rts_version_command_read(rdpRpc* rpc, BYTE* buffer, UINT32 length) { /* Version (4 bytes) */ return 4; } int rts_version_command_write(BYTE* buffer) { if (buffer) { *((UINT32*) &buffer[0]) = RTS_CMD_VERSION; /* CommandType (4 bytes) */ *((UINT32*) &buffer[4]) = 1; /* Version (4 bytes) */ } return 8; } int rts_empty_command_read(rdpRpc* rpc, BYTE* buffer, UINT32 length) { return 0; } int rts_empty_command_write(BYTE* buffer) { if (buffer) { *((UINT32*) &buffer[0]) = RTS_CMD_EMPTY; /* CommandType (4 bytes) */ } return 4; } int rts_padding_command_read(rdpRpc* rpc, BYTE* buffer, UINT32 length) { UINT32 ConformanceCount; ConformanceCount = *((UINT32*) &buffer[0]); /* ConformanceCount (4 bytes) */ /* Padding (variable) */ return ConformanceCount + 4; } int rts_padding_command_write(BYTE* buffer, UINT32 ConformanceCount) { if (buffer) { *((UINT32*) &buffer[0]) = RTS_CMD_PADDING; /* CommandType (4 bytes) */ *((UINT32*) &buffer[4]) = ConformanceCount; /* ConformanceCount (4 bytes) */ ZeroMemory(&buffer[8], ConformanceCount); /* Padding (variable) */ } return 8 + ConformanceCount; } int rts_negative_ance_command_read(rdpRpc* rpc, BYTE* buffer, UINT32 length) { return 0; } int rts_negative_ance_command_write(BYTE* buffer) { if (buffer) { *((UINT32*) &buffer[0]) = RTS_CMD_NEGATIVE_ANCE; /* CommandType (4 bytes) */ } return 4; } int rts_ance_command_read(rdpRpc* rpc, BYTE* buffer, UINT32 length) { return 0; } int rts_ance_command_write(BYTE* buffer) { if (buffer) { *((UINT32*) &buffer[0]) = RTS_CMD_ANCE; /* CommandType (4 bytes) */ } return 4; } int rts_client_address_command_read(rdpRpc* rpc, BYTE* buffer, UINT32 length) { UINT32 AddressType; AddressType = *((UINT32*) &buffer[0]); /* AddressType (4 bytes) */ if (AddressType == 0) { /* ClientAddress (4 bytes) */ /* padding (12 bytes) */ return 4 + 4 + 12; } else { /* ClientAddress (16 bytes) */ /* padding (12 bytes) */ return 4 + 16 + 12; } } int rts_client_address_command_write(BYTE* buffer, UINT32 AddressType, BYTE* ClientAddress) { if (buffer) { *((UINT32*) &buffer[0]) = RTS_CMD_CLIENT_ADDRESS; /* CommandType (4 bytes) */ *((UINT32*) &buffer[4]) = AddressType; /* AddressType (4 bytes) */ } if (AddressType == 0) { if (buffer) { CopyMemory(&buffer[8], ClientAddress, 4); /* ClientAddress (4 bytes) */ ZeroMemory(&buffer[12], 12); /* padding (12 bytes) */ } return 24; } else { if (buffer) { CopyMemory(&buffer[8], ClientAddress, 16); /* ClientAddress (16 bytes) */ ZeroMemory(&buffer[24], 12); /* padding (12 bytes) */ } return 36; } } int rts_association_group_id_command_read(rdpRpc* rpc, BYTE* buffer, UINT32 length) { /* AssociationGroupId (16 bytes) */ return 16; } int rts_association_group_id_command_write(BYTE* buffer, BYTE* AssociationGroupId) { if (buffer) { *((UINT32*) &buffer[0]) = RTS_CMD_ASSOCIATION_GROUP_ID; /* CommandType (4 bytes) */ CopyMemory(&buffer[4], AssociationGroupId, 16); /* AssociationGroupId (16 bytes) */ } return 20; } int rts_destination_command_read(rdpRpc* rpc, BYTE* buffer, UINT32 length, UINT32* Destination) { if (Destination) *Destination = *((UINT32*) &buffer[0]); /* Destination (4 bytes) */ return 4; } int rts_destination_command_write(BYTE* buffer, UINT32 Destination) { if (buffer) { *((UINT32*) &buffer[0]) = RTS_CMD_DESTINATION; /* CommandType (4 bytes) */ *((UINT32*) &buffer[4]) = Destination; /* Destination (4 bytes) */ } return 8; } int rts_ping_traffic_sent_notify_command_read(rdpRpc* rpc, BYTE* buffer, UINT32 length) { /* PingTrafficSent (4 bytes) */ return 4; } int rts_ping_traffic_sent_notify_command_write(BYTE* buffer, UINT32 PingTrafficSent) { if (buffer) { *((UINT32*) &buffer[0]) = RTS_CMD_PING_TRAFFIC_SENT_NOTIFY; /* CommandType (4 bytes) */ *((UINT32*) &buffer[4]) = PingTrafficSent; /* PingTrafficSent (4 bytes) */ } return 8; } void rts_generate_cookie(BYTE* cookie) { winpr_RAND(cookie, 16); } /* CONN/A Sequence */ int rts_send_CONN_A1_pdu(rdpRpc* rpc) { int status; BYTE* buffer; rpcconn_rts_hdr_t header; UINT32 ReceiveWindowSize; BYTE* OUTChannelCookie; BYTE* VirtualConnectionCookie; RpcVirtualConnection* connection = rpc->VirtualConnection; RpcOutChannel* outChannel = connection->DefaultOutChannel; rts_pdu_header_init(&header); header.frag_length = 76; header.Flags = RTS_FLAG_NONE; header.NumberOfCommands = 4; WLog_DBG(TAG, "Sending CONN/A1 RTS PDU"); VirtualConnectionCookie = (BYTE*) &(connection->Cookie); OUTChannelCookie = (BYTE*) &(outChannel->Cookie); ReceiveWindowSize = outChannel->ReceiveWindow; buffer = (BYTE*) malloc(header.frag_length); if (!buffer) return -1; CopyMemory(buffer, ((BYTE*) &header), 20); /* RTS Header (20 bytes) */ rts_version_command_write(&buffer[20]); /* Version (8 bytes) */ rts_cookie_command_write(&buffer[28], VirtualConnectionCookie); /* VirtualConnectionCookie (20 bytes) */ rts_cookie_command_write(&buffer[48], OUTChannelCookie); /* OUTChannelCookie (20 bytes) */ rts_receive_window_size_command_write(&buffer[68], ReceiveWindowSize); /* ReceiveWindowSize (8 bytes) */ status = rpc_out_channel_write(outChannel, buffer, header.frag_length); free(buffer); return (status > 0) ? 1 : -1; } int rts_recv_CONN_A3_pdu(rdpRpc* rpc, BYTE* buffer, UINT32 length) { UINT32 ConnectionTimeout; rts_connection_timeout_command_read(rpc, &buffer[24], length - 24, &ConnectionTimeout); WLog_DBG(TAG, "Receiving CONN/A3 RTS PDU: ConnectionTimeout: %d", ConnectionTimeout); rpc->VirtualConnection->DefaultInChannel->PingOriginator.ConnectionTimeout = ConnectionTimeout; return 1; } /* CONN/B Sequence */ int rts_send_CONN_B1_pdu(rdpRpc* rpc) { int status; BYTE* buffer; UINT32 length; rpcconn_rts_hdr_t header; BYTE* INChannelCookie; BYTE* AssociationGroupId; BYTE* VirtualConnectionCookie; RpcVirtualConnection* connection = rpc->VirtualConnection; RpcInChannel* inChannel = connection->DefaultInChannel; rts_pdu_header_init(&header); header.frag_length = 104; header.Flags = RTS_FLAG_NONE; header.NumberOfCommands = 6; WLog_DBG(TAG, "Sending CONN/B1 RTS PDU"); VirtualConnectionCookie = (BYTE*) &(connection->Cookie); INChannelCookie = (BYTE*) &(inChannel->Cookie); AssociationGroupId = (BYTE*) &(connection->AssociationGroupId); buffer = (BYTE*) malloc(header.frag_length); if (!buffer) return -1; CopyMemory(buffer, ((BYTE*) &header), 20); /* RTS Header (20 bytes) */ rts_version_command_write(&buffer[20]); /* Version (8 bytes) */ rts_cookie_command_write(&buffer[28], VirtualConnectionCookie); /* VirtualConnectionCookie (20 bytes) */ rts_cookie_command_write(&buffer[48], INChannelCookie); /* INChannelCookie (20 bytes) */ rts_channel_lifetime_command_write(&buffer[68], rpc->ChannelLifetime); /* ChannelLifetime (8 bytes) */ rts_client_keepalive_command_write(&buffer[76], rpc->KeepAliveInterval); /* ClientKeepalive (8 bytes) */ rts_association_group_id_command_write(&buffer[84], AssociationGroupId); /* AssociationGroupId (20 bytes) */ length = header.frag_length; status = rpc_in_channel_write(inChannel, buffer, length); free(buffer); return (status > 0) ? 1 : -1; } /* CONN/C Sequence */ int rts_recv_CONN_C2_pdu(rdpRpc* rpc, BYTE* buffer, UINT32 length) { UINT32 offset; UINT32 ReceiveWindowSize; UINT32 ConnectionTimeout; offset = 24; offset += rts_version_command_read(rpc, &buffer[offset], length - offset) + 4; offset += rts_receive_window_size_command_read(rpc, &buffer[offset], length - offset, &ReceiveWindowSize) + 4; offset += rts_connection_timeout_command_read(rpc, &buffer[offset], length - offset, &ConnectionTimeout) + 4; WLog_DBG(TAG, "Receiving CONN/C2 RTS PDU: ConnectionTimeout: %d ReceiveWindowSize: %d", ConnectionTimeout, ReceiveWindowSize); rpc->VirtualConnection->DefaultInChannel->PingOriginator.ConnectionTimeout = ConnectionTimeout; rpc->VirtualConnection->DefaultInChannel->PeerReceiveWindow = ReceiveWindowSize; return 1; } /* Out-of-Sequence PDUs */ int rts_send_keep_alive_pdu(rdpRpc* rpc) { int status; BYTE* buffer; UINT32 length; rpcconn_rts_hdr_t header; RpcInChannel* inChannel = rpc->VirtualConnection->DefaultInChannel; rts_pdu_header_init(&header); header.frag_length = 28; header.Flags = RTS_FLAG_OTHER_CMD; header.NumberOfCommands = 1; WLog_DBG(TAG, "Sending Keep-Alive RTS PDU"); buffer = (BYTE*) malloc(header.frag_length); if (!buffer) return -1; CopyMemory(buffer, ((BYTE*) &header), 20); /* RTS Header (20 bytes) */ rts_client_keepalive_command_write(&buffer[20], rpc->CurrentKeepAliveInterval); /* ClientKeepAlive (8 bytes) */ length = header.frag_length; status = rpc_in_channel_write(inChannel, buffer, length); free(buffer); return (status > 0) ? 1 : -1; } int rts_send_flow_control_ack_pdu(rdpRpc* rpc) { int status; BYTE* buffer; UINT32 length; rpcconn_rts_hdr_t header; UINT32 BytesReceived; UINT32 AvailableWindow; BYTE* ChannelCookie; RpcVirtualConnection* connection = rpc->VirtualConnection; RpcInChannel* inChannel = connection->DefaultInChannel; RpcOutChannel* outChannel = connection->DefaultOutChannel; rts_pdu_header_init(&header); header.frag_length = 56; header.Flags = RTS_FLAG_OTHER_CMD; header.NumberOfCommands = 2; WLog_DBG(TAG, "Sending FlowControlAck RTS PDU"); BytesReceived = outChannel->BytesReceived; AvailableWindow = outChannel->AvailableWindowAdvertised; ChannelCookie = (BYTE*) &(outChannel->Cookie); outChannel->ReceiverAvailableWindow = outChannel->AvailableWindowAdvertised; buffer = (BYTE*) malloc(header.frag_length); if (!buffer) return -1; CopyMemory(buffer, ((BYTE*) &header), 20); /* RTS Header (20 bytes) */ rts_destination_command_write(&buffer[20], FDOutProxy); /* Destination Command (8 bytes) */ /* FlowControlAck Command (28 bytes) */ rts_flow_control_ack_command_write(&buffer[28], BytesReceived, AvailableWindow, ChannelCookie); length = header.frag_length; status = rpc_in_channel_write(inChannel, buffer, length); free(buffer); return (status > 0) ? 1 : -1; } int rts_recv_flow_control_ack_pdu(rdpRpc* rpc, BYTE* buffer, UINT32 length) { UINT32 offset; UINT32 BytesReceived; UINT32 AvailableWindow; BYTE ChannelCookie[16]; offset = 24; offset += rts_flow_control_ack_command_read(rpc, &buffer[offset], length - offset, &BytesReceived, &AvailableWindow, (BYTE*) &ChannelCookie) + 4; WLog_ERR(TAG, "Receiving FlowControlAck RTS PDU: BytesReceived: %d AvailableWindow: %d", BytesReceived, AvailableWindow); rpc->VirtualConnection->DefaultInChannel->SenderAvailableWindow = AvailableWindow - (rpc->VirtualConnection->DefaultInChannel->BytesSent - BytesReceived); return 1; } int rts_recv_flow_control_ack_with_destination_pdu(rdpRpc* rpc, BYTE* buffer, UINT32 length) { UINT32 offset; UINT32 Destination; UINT32 BytesReceived; UINT32 AvailableWindow; BYTE ChannelCookie[16]; /** * When the sender receives a FlowControlAck RTS PDU, it MUST use the following formula to * recalculate its Sender AvailableWindow variable: * * Sender AvailableWindow = Receiver AvailableWindow_from_ack - (BytesSent - BytesReceived_from_ack) * * Where: * * Receiver AvailableWindow_from_ack is the Available Window field in the Flow Control * Acknowledgement Structure (section 2.2.3.4) in the PDU received. * * BytesReceived_from_ack is the Bytes Received field in the Flow Control Acknowledgement structure * in the PDU received. * */ offset = 24; offset += rts_destination_command_read(rpc, &buffer[offset], length - offset, &Destination) + 4; offset += rts_flow_control_ack_command_read(rpc, &buffer[offset], length - offset, &BytesReceived, &AvailableWindow, (BYTE*) &ChannelCookie) + 4; WLog_DBG(TAG, "Receiving FlowControlAckWithDestination RTS PDU: BytesReceived: %d AvailableWindow: %d", BytesReceived, AvailableWindow); rpc->VirtualConnection->DefaultInChannel->SenderAvailableWindow = AvailableWindow - (rpc->VirtualConnection->DefaultInChannel->BytesSent - BytesReceived); return 1; } int rts_send_ping_pdu(rdpRpc* rpc) { int status; BYTE* buffer; UINT32 length; rpcconn_rts_hdr_t header; RpcInChannel* inChannel = rpc->VirtualConnection->DefaultInChannel; rts_pdu_header_init(&header); header.frag_length = 20; header.Flags = RTS_FLAG_PING; header.NumberOfCommands = 0; WLog_DBG(TAG, "Sending Ping RTS PDU"); buffer = (BYTE*) malloc(header.frag_length); if (!buffer) return -1; CopyMemory(buffer, ((BYTE*) &header), 20); /* RTS Header (20 bytes) */ length = header.frag_length; status = rpc_in_channel_write(inChannel, buffer, length); free(buffer); return (status > 0) ? 1 : -1; } int rts_command_length(rdpRpc* rpc, UINT32 CommandType, BYTE* buffer, UINT32 length) { int CommandLength = 0; switch (CommandType) { case RTS_CMD_RECEIVE_WINDOW_SIZE: CommandLength = RTS_CMD_RECEIVE_WINDOW_SIZE_LENGTH; break; case RTS_CMD_FLOW_CONTROL_ACK: CommandLength = RTS_CMD_FLOW_CONTROL_ACK_LENGTH; break; case RTS_CMD_CONNECTION_TIMEOUT: CommandLength = RTS_CMD_CONNECTION_TIMEOUT_LENGTH; break; case RTS_CMD_COOKIE: CommandLength = RTS_CMD_COOKIE_LENGTH; break; case RTS_CMD_CHANNEL_LIFETIME: CommandLength = RTS_CMD_CHANNEL_LIFETIME_LENGTH; break; case RTS_CMD_CLIENT_KEEPALIVE: CommandLength = RTS_CMD_CLIENT_KEEPALIVE_LENGTH; break; case RTS_CMD_VERSION: CommandLength = RTS_CMD_VERSION_LENGTH; break; case RTS_CMD_EMPTY: CommandLength = RTS_CMD_EMPTY_LENGTH; break; case RTS_CMD_PADDING: /* variable-size */ CommandLength = rts_padding_command_read(rpc, buffer, length); break; case RTS_CMD_NEGATIVE_ANCE: CommandLength = RTS_CMD_NEGATIVE_ANCE_LENGTH; break; case RTS_CMD_ANCE: CommandLength = RTS_CMD_ANCE_LENGTH; break; case RTS_CMD_CLIENT_ADDRESS: /* variable-size */ CommandLength = rts_client_address_command_read(rpc, buffer, length); break; case RTS_CMD_ASSOCIATION_GROUP_ID: CommandLength = RTS_CMD_ASSOCIATION_GROUP_ID_LENGTH; break; case RTS_CMD_DESTINATION: CommandLength = RTS_CMD_DESTINATION_LENGTH; break; case RTS_CMD_PING_TRAFFIC_SENT_NOTIFY: CommandLength = RTS_CMD_PING_TRAFFIC_SENT_NOTIFY_LENGTH; break; default: WLog_ERR(TAG, "Error: Unknown RTS Command Type: 0x%x", CommandType); return -1; break; } return CommandLength; } int rts_send_OUT_R2_A7_pdu(rdpRpc* rpc) { int status; BYTE* buffer; rpcconn_rts_hdr_t header; BYTE* SuccessorChannelCookie; RpcInChannel* inChannel = rpc->VirtualConnection->DefaultInChannel; RpcOutChannel* nextOutChannel = rpc->VirtualConnection->NonDefaultOutChannel; rts_pdu_header_init(&header); header.frag_length = 56; header.Flags = RTS_FLAG_OUT_CHANNEL; header.NumberOfCommands = 3; WLog_DBG(TAG, "Sending OUT_R2/A7 RTS PDU"); SuccessorChannelCookie = (BYTE*) &(nextOutChannel->Cookie); buffer = (BYTE*) malloc(header.frag_length); if (!buffer) return -1; CopyMemory(buffer, ((BYTE*)&header), 20); /* RTS Header (20 bytes) */ rts_destination_command_write(&buffer[20], FDServer); /* Destination (8 bytes)*/ rts_cookie_command_write(&buffer[28], SuccessorChannelCookie); /* SuccessorChannelCookie (20 bytes) */ rts_version_command_write(&buffer[48]); /* Version (8 bytes) */ status = rpc_in_channel_write(inChannel, buffer, header.frag_length); free(buffer); return (status > 0) ? 1 : -1; } int rts_send_OUT_R2_C1_pdu(rdpRpc* rpc) { int status; BYTE* buffer; rpcconn_rts_hdr_t header; RpcOutChannel* nextOutChannel = rpc->VirtualConnection->NonDefaultOutChannel; rts_pdu_header_init(&header); header.frag_length = 24; header.Flags = RTS_FLAG_PING; header.NumberOfCommands = 1; WLog_DBG(TAG, "Sending OUT_R2/C1 RTS PDU"); buffer = (BYTE*) malloc(header.frag_length); if (!buffer) return -1; CopyMemory(buffer, ((BYTE*) &header), 20); /* RTS Header (20 bytes) */ rts_empty_command_write(&buffer[20]); /* Empty command (4 bytes) */ status = rpc_out_channel_write(nextOutChannel, buffer, header.frag_length); free(buffer); return (status > 0) ? 1 : -1; } int rts_send_OUT_R1_A3_pdu(rdpRpc* rpc) { int status; BYTE* buffer; rpcconn_rts_hdr_t header; UINT32 ReceiveWindowSize; BYTE* VirtualConnectionCookie; BYTE* PredecessorChannelCookie; BYTE* SuccessorChannelCookie; RpcVirtualConnection* connection = rpc->VirtualConnection; RpcOutChannel* outChannel = connection->DefaultOutChannel; RpcOutChannel* nextOutChannel = connection->NonDefaultOutChannel; rts_pdu_header_init(&header); header.frag_length = 96; header.Flags = RTS_FLAG_RECYCLE_CHANNEL; header.NumberOfCommands = 5; WLog_DBG(TAG, "Sending OUT_R1/A3 RTS PDU"); VirtualConnectionCookie = (BYTE*) &(connection->Cookie); PredecessorChannelCookie = (BYTE*) &(outChannel->Cookie); SuccessorChannelCookie = (BYTE*) &(nextOutChannel->Cookie); ReceiveWindowSize = outChannel->ReceiveWindow; buffer = (BYTE*) malloc(header.frag_length); if (!buffer) return -1; CopyMemory(buffer, ((BYTE*) &header), 20); /* RTS Header (20 bytes) */ rts_version_command_write(&buffer[20]); /* Version (8 bytes) */ rts_cookie_command_write(&buffer[28], VirtualConnectionCookie); /* VirtualConnectionCookie (20 bytes) */ rts_cookie_command_write(&buffer[48], PredecessorChannelCookie); /* PredecessorChannelCookie (20 bytes) */ rts_cookie_command_write(&buffer[68], SuccessorChannelCookie); /* SuccessorChannelCookie (20 bytes) */ rts_receive_window_size_command_write(&buffer[88], ReceiveWindowSize); /* ReceiveWindowSize (8 bytes) */ status = rpc_out_channel_write(nextOutChannel, buffer, header.frag_length); free(buffer); return (status > 0) ? 1 : -1; } int rts_recv_OUT_R1_A2_pdu(rdpRpc* rpc, BYTE* buffer, UINT32 length) { int status; UINT32 offset; UINT32 Destination = 0; RpcVirtualConnection* connection = rpc->VirtualConnection; WLog_DBG(TAG, "Receiving OUT R1/A2 RTS PDU"); offset = 24; offset += rts_destination_command_read(rpc, &buffer[offset], length - offset, &Destination) + 4; connection->NonDefaultOutChannel = rpc_out_channel_new(rpc); if (!connection->NonDefaultOutChannel) return -1; status = rpc_out_channel_replacement_connect(connection->NonDefaultOutChannel, 5000); if (status < 0) { WLog_ERR(TAG, "rpc_out_channel_replacement_connect failure"); return -1; } rpc_out_channel_transition_to_state(connection->DefaultOutChannel, CLIENT_OUT_CHANNEL_STATE_OPENED_A6W); return 1; } int rts_recv_OUT_R2_A6_pdu(rdpRpc* rpc, BYTE* buffer, UINT32 length) { int status; RpcVirtualConnection* connection = rpc->VirtualConnection; WLog_DBG(TAG, "Receiving OUT R2/A6 RTS PDU"); status = rts_send_OUT_R2_C1_pdu(rpc); if (status < 0) { WLog_ERR(TAG, "rts_send_OUT_R2_C1_pdu failure"); return -1; } status = rts_send_OUT_R2_A7_pdu(rpc); if (status < 0) { WLog_ERR(TAG, "rts_send_OUT_R2_A7_pdu failure"); return -1; } rpc_out_channel_transition_to_state(connection->NonDefaultOutChannel, CLIENT_OUT_CHANNEL_STATE_OPENED_B3W); rpc_out_channel_transition_to_state(connection->DefaultOutChannel, CLIENT_OUT_CHANNEL_STATE_OPENED_B3W); return 1; } int rts_recv_OUT_R2_B3_pdu(rdpRpc* rpc, BYTE* buffer, UINT32 length) { RpcVirtualConnection* connection = rpc->VirtualConnection; WLog_DBG(TAG, "Receiving OUT R2/B3 RTS PDU"); rpc_out_channel_transition_to_state(connection->DefaultOutChannel, CLIENT_OUT_CHANNEL_STATE_RECYCLED); return 1; } int rts_recv_out_of_sequence_pdu(rdpRpc* rpc, BYTE* buffer, UINT32 length) { int status = -1; UINT32 SignatureId; rpcconn_rts_hdr_t* rts; RtsPduSignature signature; RpcVirtualConnection* connection = rpc->VirtualConnection; rts = (rpcconn_rts_hdr_t*) buffer; rts_extract_pdu_signature(rpc, &signature, rts); SignatureId = rts_identify_pdu_signature(rpc, &signature, NULL); if (rts_match_pdu_signature(rpc, &RTS_PDU_FLOW_CONTROL_ACK_SIGNATURE, rts)) { status = rts_recv_flow_control_ack_pdu(rpc, buffer, length); } else if (rts_match_pdu_signature(rpc, &RTS_PDU_FLOW_CONTROL_ACK_WITH_DESTINATION_SIGNATURE, rts)) { status = rts_recv_flow_control_ack_with_destination_pdu(rpc, buffer, length); } else if (rts_match_pdu_signature(rpc, &RTS_PDU_PING_SIGNATURE, rts)) { status = rts_send_ping_pdu(rpc); } else { if (connection->DefaultOutChannel->State == CLIENT_OUT_CHANNEL_STATE_OPENED) { if (rts_match_pdu_signature(rpc, &RTS_PDU_OUT_R1_A2_SIGNATURE, rts)) { status = rts_recv_OUT_R1_A2_pdu(rpc, buffer, length); } } else if (connection->DefaultOutChannel->State == CLIENT_OUT_CHANNEL_STATE_OPENED_A6W) { if (rts_match_pdu_signature(rpc, &RTS_PDU_OUT_R2_A6_SIGNATURE, rts)) { status = rts_recv_OUT_R2_A6_pdu(rpc, buffer, length); } } else if (connection->DefaultOutChannel->State == CLIENT_OUT_CHANNEL_STATE_OPENED_B3W) { if (rts_match_pdu_signature(rpc, &RTS_PDU_OUT_R2_B3_SIGNATURE, rts)) { status = rts_recv_OUT_R2_B3_pdu(rpc, buffer, length); } } } if (status < 0) { WLog_ERR(TAG, "error parsing RTS PDU with signature id: 0x%08X", SignatureId); rts_print_pdu_signature(rpc, &signature); } return status; }