/** * FreeRDP: A Remote Desktop Protocol Implementation * T.125 Multipoint Communication Service (MCS) Protocol * * Copyright 2011 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 "gcc.h" #include "mcs.h" #include "tpdu.h" #include "tpkt.h" #include "client.h" /** * T.125 MCS is defined in: * * http://www.itu.int/rec/T-REC-T.125-199802-I/ * ITU-T T.125 Multipoint Communication Service Protocol Specification */ /** * Connect-Initial ::= [APPLICATION 101] IMPLICIT SEQUENCE * { * callingDomainSelector OCTET_STRING, * calledDomainSelector OCTET_STRING, * upwardFlag BOOLEAN, * targetParameters DomainParameters, * minimumParameters DomainParameters, * maximumParameters DomainParameters, * userData OCTET_STRING * } * * DomainParameters ::= SEQUENCE * { * maxChannelIds INTEGER (0..MAX), * maxUserIds INTEGER (0..MAX), * maxTokenIds INTEGER (0..MAX), * numPriorities INTEGER (0..MAX), * minThroughput INTEGER (0..MAX), * maxHeight INTEGER (0..MAX), * maxMCSPDUsize INTEGER (0..MAX), * protocolVersion INTEGER (0..MAX) * } * * Connect-Response ::= [APPLICATION 102] IMPLICIT SEQUENCE * { * result Result, * calledConnectId INTEGER (0..MAX), * domainParameters DomainParameters, * userData OCTET_STRING * } * * Result ::= ENUMERATED * { * rt-successful (0), * rt-domain-merging (1), * rt-domain-not-hierarchical (2), * rt-no-such-channel (3), * rt-no-such-domain (4), * rt-no-such-user (5), * rt-not-admitted (6), * rt-other-user-id (7), * rt-parameters-unacceptable (8), * rt-token-not-available (9), * rt-token-not-possessed (10), * rt-too-many-channels (11), * rt-too-many-tokens (12), * rt-too-many-users (13), * rt-unspecified-failure (14), * rt-user-rejected (15) * } * * ErectDomainRequest ::= [APPLICATION 1] IMPLICIT SEQUENCE * { * subHeight INTEGER (0..MAX), * subInterval INTEGER (0..MAX) * } * * AttachUserRequest ::= [APPPLICATION 10] IMPLICIT SEQUENCE * { * } * * AttachUserConfirm ::= [APPLICATION 11] IMPLICIT SEQUENCE * { * result Result, * initiator UserId OPTIONAL * } * * ChannelJoinRequest ::= [APPLICATION 14] IMPLICIT SEQUENCE * { * initiator UserId, * channelId ChannelId * } * * ChannelJoinConfirm ::= [APPLICATION 15] IMPLICIT SEQUENCE * { * result Result, * initiator UserId, * requested ChannelId, * channelId ChannelId OPTIONAL * } * * SendDataRequest ::= [APPLICATION 25] IMPLICIT SEQUENCE * { * initiator UserId, * channelId ChannelId, * dataPriority DataPriority, * segmentation Segmentation, * userData OCTET_STRING * } * * DataPriority ::= CHOICE * { * top NULL, * high NULL, * medium NULL, * low NULL, * ... * } * * Segmentation ::= BIT_STRING * { * begin (0), * end (1) * } (SIZE(2)) * * SendDataIndication ::= SEQUENCE * { * initiator UserId, * channelId ChannelId, * reliability BOOLEAN, * domainReferenceID INTEGER (0..65535) OPTIONAL, * dataPriority DataPriority, * segmentation Segmentation, * userData OCTET_STRING, * totalDataSize INTEGER OPTIONAL, * nonStandard SEQUENCE OF NonStandardParameter OPTIONAL, * ... * } * */ static const BYTE callingDomainSelector[1] = "\x01"; static const BYTE calledDomainSelector[1] = "\x01"; /* static const char* const mcs_result_enumerated[] = { "rt-successful", "rt-domain-merging", "rt-domain-not-hierarchical", "rt-no-such-channel", "rt-no-such-domain", "rt-no-such-user", "rt-not-admitted", "rt-other-user-id", "rt-parameters-unacceptable", "rt-token-not-available", "rt-token-not-possessed", "rt-too-many-channels", "rt-too-many-tokens", "rt-too-many-users", "rt-unspecified-failure", "rt-user-rejected" }; */ int mcs_initialize_client_channels(rdpMcs* mcs, rdpSettings* settings) { UINT32 index; mcs->channelCount = settings->ChannelCount; if (mcs->channelCount > mcs->channelMaxCount) mcs->channelCount = mcs->channelMaxCount; ZeroMemory(mcs->channels, sizeof(rdpMcsChannel) * mcs->channelMaxCount); for (index = 0; index < mcs->channelCount; index++) { CopyMemory(mcs->channels[index].Name, settings->ChannelDefArray[index].name, 8); mcs->channels[index].options = settings->ChannelDefArray[index].options; } return 0; } /** * Read a DomainMCSPDU header. * @param s stream * @param domainMCSPDU DomainMCSPDU type * @param length TPKT length * @return */ BOOL mcs_read_domain_mcspdu_header(wStream* s, enum DomainMCSPDU* domainMCSPDU, UINT16* length) { UINT16 li; BYTE choice; enum DomainMCSPDU MCSPDU; *length = tpkt_read_header(s); if (!tpdu_read_data(s, &li)) return FALSE; MCSPDU = *domainMCSPDU; if (!per_read_choice(s, &choice)) return FALSE; *domainMCSPDU = (choice >> 2); if (*domainMCSPDU != MCSPDU) return FALSE; return TRUE; } /** * Write a DomainMCSPDU header. * @param s stream * @param domainMCSPDU DomainMCSPDU type * @param length TPKT length */ void mcs_write_domain_mcspdu_header(wStream* s, enum DomainMCSPDU domainMCSPDU, UINT16 length, BYTE options) { tpkt_write_header(s, length); tpdu_write_data(s); per_write_choice(s, (domainMCSPDU << 2) | options); } /** * Initialize MCS Domain Parameters. * @param domainParameters domain parameters * @param maxChannelIds max channel ids * @param maxUserIds max user ids * @param maxTokenIds max token ids * @param maxMCSPDUsize max MCS PDU size */ static void mcs_init_domain_parameters(DomainParameters* domainParameters, UINT32 maxChannelIds, UINT32 maxUserIds, UINT32 maxTokenIds, UINT32 maxMCSPDUsize) { domainParameters->maxChannelIds = maxChannelIds; domainParameters->maxUserIds = maxUserIds; domainParameters->maxTokenIds = maxTokenIds; domainParameters->maxMCSPDUsize = maxMCSPDUsize; domainParameters->numPriorities = 1; domainParameters->minThroughput = 0; domainParameters->maxHeight = 1; domainParameters->protocolVersion = 2; } /** * Read MCS Domain Parameters. * @param s stream * @param domainParameters domain parameters */ BOOL mcs_read_domain_parameters(wStream* s, DomainParameters* domainParameters) { int length; return ber_read_sequence_tag(s, &length) && ber_read_integer(s, &(domainParameters->maxChannelIds)) && ber_read_integer(s, &(domainParameters->maxUserIds)) && ber_read_integer(s, &(domainParameters->maxTokenIds)) && ber_read_integer(s, &(domainParameters->numPriorities)) && ber_read_integer(s, &(domainParameters->minThroughput)) && ber_read_integer(s, &(domainParameters->maxHeight)) && ber_read_integer(s, &(domainParameters->maxMCSPDUsize)) && ber_read_integer(s, &(domainParameters->protocolVersion)); } /** * Write MCS Domain Parameters. * @param s stream * @param domainParameters domain parameters */ void mcs_write_domain_parameters(wStream* s, DomainParameters* domainParameters) { int length; wStream* tmps; tmps = Stream_New(NULL, Stream_Capacity(s)); ber_write_integer(tmps, domainParameters->maxChannelIds); ber_write_integer(tmps, domainParameters->maxUserIds); ber_write_integer(tmps, domainParameters->maxTokenIds); ber_write_integer(tmps, domainParameters->numPriorities); ber_write_integer(tmps, domainParameters->minThroughput); ber_write_integer(tmps, domainParameters->maxHeight); ber_write_integer(tmps, domainParameters->maxMCSPDUsize); ber_write_integer(tmps, domainParameters->protocolVersion); length = Stream_GetPosition(tmps); ber_write_sequence_tag(s, length); Stream_Write(s, Stream_Buffer(tmps), length); Stream_Free(tmps, TRUE); } /** * Print MCS Domain Parameters. * @param domainParameters domain parameters */ void mcs_print_domain_parameters(DomainParameters* domainParameters) { fprintf(stderr, "DomainParameters {\n"); fprintf(stderr, "\tmaxChannelIds:%d\n", domainParameters->maxChannelIds); fprintf(stderr, "\tmaxUserIds:%d\n", domainParameters->maxUserIds); fprintf(stderr, "\tmaxTokenIds:%d\n", domainParameters->maxTokenIds); fprintf(stderr, "\tnumPriorities:%d\n", domainParameters->numPriorities); fprintf(stderr, "\tminThroughput:%d\n", domainParameters->minThroughput); fprintf(stderr, "\tmaxHeight:%d\n", domainParameters->maxHeight); fprintf(stderr, "\tmaxMCSPDUsize:%d\n", domainParameters->maxMCSPDUsize); fprintf(stderr, "\tprotocolVersion:%d\n", domainParameters->protocolVersion); fprintf(stderr, "}\n"); } /** * Merge MCS Domain Parameters. * @param domainParameters target parameters * @param domainParameters minimum parameters * @param domainParameters maximum parameters * @param domainParameters output parameters */ BOOL mcs_merge_domain_parameters(DomainParameters* targetParameters, DomainParameters* minimumParameters, DomainParameters* maximumParameters, DomainParameters* pOutParameters) { /* maxChannelIds */ if (targetParameters->maxChannelIds >= 4) { pOutParameters->maxChannelIds = targetParameters->maxChannelIds; } else if (maximumParameters->maxChannelIds >= 4) { pOutParameters->maxChannelIds = 4; } else { return FALSE; } /* maxUserIds */ if (targetParameters->maxUserIds >= 3) { pOutParameters->maxUserIds = targetParameters->maxUserIds; } else if (maximumParameters->maxUserIds >= 3) { pOutParameters->maxUserIds = 3; } else { return FALSE; } /* maxTokenIds */ pOutParameters->maxTokenIds = targetParameters->maxTokenIds; /* numPriorities */ if (minimumParameters->numPriorities <= 1) { pOutParameters->numPriorities = 1; } else { return FALSE; } /* minThroughput */ pOutParameters->minThroughput = targetParameters->minThroughput; /* maxHeight */ if ((targetParameters->maxHeight == 1) || (minimumParameters->maxHeight <= 1)) { pOutParameters->maxHeight = 1; } else { return FALSE; } /* maxMCSPDUsize */ if (targetParameters->maxMCSPDUsize >= 1024) { if (targetParameters->maxMCSPDUsize <= 65528) { pOutParameters->maxMCSPDUsize = targetParameters->maxMCSPDUsize; } else if ((minimumParameters->maxMCSPDUsize >= 124) && (minimumParameters->maxMCSPDUsize <= 65528)) { pOutParameters->maxMCSPDUsize = 65528; } else { return FALSE; } } else { if (maximumParameters->maxMCSPDUsize >= 124) { pOutParameters->maxMCSPDUsize = maximumParameters->maxMCSPDUsize; } else { return FALSE; } } /* protocolVersion */ if ((targetParameters->protocolVersion == 2) || ((minimumParameters->protocolVersion <= 2) && (maximumParameters->protocolVersion >= 2))) { pOutParameters->protocolVersion = 2; } else { return FALSE; } return TRUE; } /** * Read an MCS Connect Initial PDU.\n * @msdn{cc240508} * @param mcs MCS module * @param s stream */ BOOL mcs_recv_connect_initial(rdpMcs* mcs, wStream* s) { UINT16 li; int length; BOOL upwardFlag; tpkt_read_header(s); if (!tpdu_read_data(s, &li)) return FALSE; if (!ber_read_application_tag(s, MCS_TYPE_CONNECT_INITIAL, &length)) return FALSE; /* callingDomainSelector (OCTET_STRING) */ if (!ber_read_octet_string_tag(s, &length) || ((int) Stream_GetRemainingLength(s)) < length) return FALSE; Stream_Seek(s, length); /* calledDomainSelector (OCTET_STRING) */ if (!ber_read_octet_string_tag(s, &length) || ((int) Stream_GetRemainingLength(s)) < length) return FALSE; Stream_Seek(s, length); /* upwardFlag (BOOLEAN) */ if (!ber_read_BOOL(s, &upwardFlag)) return FALSE; /* targetParameters (DomainParameters) */ if (!mcs_read_domain_parameters(s, &mcs->targetParameters)) return FALSE; /* minimumParameters (DomainParameters) */ if (!mcs_read_domain_parameters(s, &mcs->minimumParameters)) return FALSE; /* maximumParameters (DomainParameters) */ if (!mcs_read_domain_parameters(s, &mcs->maximumParameters)) return FALSE; if (!ber_read_octet_string_tag(s, &length) || ((int) Stream_GetRemainingLength(s)) < length) return FALSE; if (!gcc_read_conference_create_request(s, mcs)) return FALSE; if (!mcs_merge_domain_parameters(&mcs->targetParameters, &mcs->minimumParameters, &mcs->maximumParameters, &mcs->domainParameters)) return FALSE; return TRUE; } /** * Write an MCS Connect Initial PDU.\n * @msdn{cc240508} * @param s stream * @param mcs MCS module * @param user_data GCC Conference Create Request */ void mcs_write_connect_initial(wStream* s, rdpMcs* mcs, wStream* userData) { int length; wStream* tmps; tmps = Stream_New(NULL, Stream_Capacity(s)); /* callingDomainSelector (OCTET_STRING) */ ber_write_octet_string(tmps, callingDomainSelector, sizeof(callingDomainSelector)); /* calledDomainSelector (OCTET_STRING) */ ber_write_octet_string(tmps, calledDomainSelector, sizeof(calledDomainSelector)); /* upwardFlag (BOOLEAN) */ ber_write_BOOL(tmps, TRUE); /* targetParameters (DomainParameters) */ mcs_write_domain_parameters(tmps, &mcs->targetParameters); /* minimumParameters (DomainParameters) */ mcs_write_domain_parameters(tmps, &mcs->minimumParameters); /* maximumParameters (DomainParameters) */ mcs_write_domain_parameters(tmps, &mcs->maximumParameters); /* userData (OCTET_STRING) */ ber_write_octet_string(tmps, userData->buffer, Stream_GetPosition(userData)); length = Stream_GetPosition(tmps); /* Connect-Initial (APPLICATION 101, IMPLICIT SEQUENCE) */ ber_write_application_tag(s, MCS_TYPE_CONNECT_INITIAL, length); Stream_Write(s, Stream_Buffer(tmps), length); Stream_Free(tmps, TRUE); } /** * Write an MCS Connect Response PDU.\n * @msdn{cc240508} * @param s stream * @param mcs MCS module * @param user_data GCC Conference Create Response */ void mcs_write_connect_response(wStream* s, rdpMcs* mcs, wStream* userData) { int length; wStream* tmps; tmps = Stream_New(NULL, Stream_Capacity(s)); ber_write_enumerated(tmps, 0, MCS_Result_enum_length); ber_write_integer(tmps, 0); /* calledConnectId */ mcs_write_domain_parameters(tmps, &(mcs->domainParameters)); /* userData (OCTET_STRING) */ ber_write_octet_string(tmps, userData->buffer, Stream_GetPosition(userData)); length = Stream_GetPosition(tmps); ber_write_application_tag(s, MCS_TYPE_CONNECT_RESPONSE, length); Stream_Write(s, Stream_Buffer(tmps), length); Stream_Free(tmps, TRUE); } /** * Send MCS Connect Initial.\n * @msdn{cc240508} * @param mcs mcs module */ BOOL mcs_send_connect_initial(rdpMcs* mcs) { int status; int length; wStream* s; int bm, em; wStream* gcc_CCrq; wStream* client_data; mcs_initialize_client_channels(mcs, mcs->settings); client_data = Stream_New(NULL, 512); gcc_write_client_data_blocks(client_data, mcs); gcc_CCrq = Stream_New(NULL, 1024); gcc_write_conference_create_request(gcc_CCrq, client_data); length = Stream_GetPosition(gcc_CCrq) + 7; s = Stream_New(NULL, 1024 + length); bm = Stream_GetPosition(s); Stream_Seek(s, 7); mcs_write_connect_initial(s, mcs, gcc_CCrq); em = Stream_GetPosition(s); length = (em - bm); Stream_SetPosition(s, bm); tpkt_write_header(s, length); tpdu_write_data(s); Stream_SetPosition(s, em); Stream_SealLength(s); status = transport_write(mcs->transport, s); Stream_Free(s, TRUE); Stream_Free(gcc_CCrq, TRUE); Stream_Free(client_data, TRUE); return (status < 0 ? FALSE : TRUE); } /** * Read MCS Connect Response.\n * @msdn{cc240501} * @param mcs mcs module */ BOOL mcs_recv_connect_response(rdpMcs* mcs, wStream* s) { int length; BYTE result; UINT16 li; UINT32 calledConnectId; tpkt_read_header(s); if (!tpdu_read_data(s, &li)) return FALSE; if (!ber_read_application_tag(s, MCS_TYPE_CONNECT_RESPONSE, &length) || !ber_read_enumerated(s, &result, MCS_Result_enum_length) || !ber_read_integer(s, &calledConnectId) || !mcs_read_domain_parameters(s, &(mcs->domainParameters)) || !ber_read_octet_string_tag(s, &length)) { return FALSE; } if (!gcc_read_conference_create_response(s, mcs)) { fprintf(stderr, "mcs_recv_connect_response: gcc_read_conference_create_response failed\n"); return FALSE; } return TRUE; } /** * Send MCS Connect Response.\n * @msdn{cc240501} * @param mcs mcs module */ BOOL mcs_send_connect_response(rdpMcs* mcs) { int length; int status; wStream* s; int bm, em; wStream* gcc_CCrsp; wStream* server_data; server_data = Stream_New(NULL, 512); gcc_write_server_data_blocks(server_data, mcs); gcc_CCrsp = Stream_New(NULL, 512); gcc_write_conference_create_response(gcc_CCrsp, server_data); length = Stream_GetPosition(gcc_CCrsp) + 7; s = Stream_New(NULL, length + 1024); bm = Stream_GetPosition(s); Stream_Seek(s, 7); mcs_write_connect_response(s, mcs, gcc_CCrsp); em = Stream_GetPosition(s); length = (em - bm); Stream_SetPosition(s, bm); tpkt_write_header(s, length); tpdu_write_data(s); Stream_SetPosition(s, em); Stream_SealLength(s); status = transport_write(mcs->transport, s); Stream_Free(s, TRUE); Stream_Free(gcc_CCrsp, TRUE); Stream_Free(server_data, TRUE); return (status < 0) ? FALSE : TRUE; } /** * Read MCS Erect Domain Request.\n * @msdn{cc240523} * @param mcs * @param s stream */ BOOL mcs_recv_erect_domain_request(rdpMcs* mcs, wStream* s) { UINT16 length; UINT32 subHeight; UINT32 subInterval; enum DomainMCSPDU MCSPDU; MCSPDU = DomainMCSPDU_ErectDomainRequest; if (!mcs_read_domain_mcspdu_header(s, &MCSPDU, &length)) return FALSE; if (!per_read_integer(s, &subHeight)) /* subHeight (INTEGER) */ return FALSE; if (!per_read_integer(s, &subInterval)) /* subInterval (INTEGER) */ return FALSE; return TRUE; } /** * Send MCS Erect Domain Request.\n * @msdn{cc240523} * @param mcs */ BOOL mcs_send_erect_domain_request(rdpMcs* mcs) { wStream* s; int status; UINT16 length = 12; s = Stream_New(NULL, length); mcs_write_domain_mcspdu_header(s, DomainMCSPDU_ErectDomainRequest, length, 0); per_write_integer(s, 0); /* subHeight (INTEGER) */ per_write_integer(s, 0); /* subInterval (INTEGER) */ Stream_SealLength(s); status = transport_write(mcs->transport, s); Stream_Free(s, TRUE); return (status < 0) ? FALSE : TRUE; } /** * Read MCS Attach User Request.\n * @msdn{cc240524} * @param mcs mcs module * @param s stream */ BOOL mcs_recv_attach_user_request(rdpMcs* mcs, wStream* s) { UINT16 length; enum DomainMCSPDU MCSPDU; MCSPDU = DomainMCSPDU_AttachUserRequest; return mcs_read_domain_mcspdu_header(s, &MCSPDU, &length); } /** * Send MCS Attach User Request.\n * @msdn{cc240524} * @param mcs mcs module */ BOOL mcs_send_attach_user_request(rdpMcs* mcs) { wStream* s; int status; UINT16 length = 8; s = Stream_New(NULL, length); mcs_write_domain_mcspdu_header(s, DomainMCSPDU_AttachUserRequest, length, 0); Stream_SealLength(s); status = transport_write(mcs->transport, s); Stream_Free(s, TRUE); return (status < 0) ? FALSE : TRUE; } /** * Read MCS Attach User Confirm.\n * @msdn{cc240525} * @param mcs mcs module */ BOOL mcs_recv_attach_user_confirm(rdpMcs* mcs, wStream* s) { BOOL status; BYTE result; UINT16 length; enum DomainMCSPDU MCSPDU; MCSPDU = DomainMCSPDU_AttachUserConfirm; status = mcs_read_domain_mcspdu_header(s, &MCSPDU, &length) && per_read_enumerated(s, &result, MCS_Result_enum_length) && /* result */ per_read_integer16(s, &(mcs->userId), MCS_BASE_CHANNEL_ID); /* initiator (UserId) */ return status; } /** * Send MCS Attach User Confirm.\n * @msdn{cc240525} * @param mcs mcs module */ BOOL mcs_send_attach_user_confirm(rdpMcs* mcs) { wStream* s; int status; UINT16 length = 11; rdpSettings* settings; s = Stream_New(NULL, length); settings = mcs->transport->settings; mcs->userId = MCS_GLOBAL_CHANNEL_ID + 1 + mcs->channelCount; mcs_write_domain_mcspdu_header(s, DomainMCSPDU_AttachUserConfirm, length, 2); per_write_enumerated(s, 0, MCS_Result_enum_length); /* result */ per_write_integer16(s, mcs->userId, MCS_BASE_CHANNEL_ID); /* initiator (UserId) */ Stream_SealLength(s); status = transport_write(mcs->transport, s); Stream_Free(s, TRUE); return (status < 0) ? FALSE : TRUE; } /** * Read MCS Channel Join Request.\n * @msdn{cc240526} * @param mcs mcs module * @param s stream */ BOOL mcs_recv_channel_join_request(rdpMcs* mcs, wStream* s, UINT16* channelId) { UINT16 length; UINT16 userId; enum DomainMCSPDU MCSPDU; MCSPDU = DomainMCSPDU_ChannelJoinRequest; return mcs_read_domain_mcspdu_header(s, &MCSPDU, &length) && per_read_integer16(s, &userId, MCS_BASE_CHANNEL_ID) && (userId == mcs->userId) && per_read_integer16(s, channelId, 0); } /** * Send MCS Channel Join Request.\n * @msdn{cc240526} * @param mcs mcs module * @param channel_id channel id */ BOOL mcs_send_channel_join_request(rdpMcs* mcs, UINT16 channelId) { wStream* s; int status; UINT16 length = 12; s = Stream_New(NULL, length); mcs_write_domain_mcspdu_header(s, DomainMCSPDU_ChannelJoinRequest, length, 0); per_write_integer16(s, mcs->userId, MCS_BASE_CHANNEL_ID); per_write_integer16(s, channelId, 0); Stream_SealLength(s); status = transport_write(mcs->transport, s); Stream_Free(s, TRUE); return (status < 0) ? FALSE : TRUE; } /** * Read MCS Channel Join Confirm.\n * @msdn{cc240527} * @param mcs mcs module */ BOOL mcs_recv_channel_join_confirm(rdpMcs* mcs, wStream* s, UINT16* channelId) { BOOL status; UINT16 length; BYTE result; UINT16 initiator; UINT16 requested; enum DomainMCSPDU MCSPDU; status = TRUE; MCSPDU = DomainMCSPDU_ChannelJoinConfirm; status &= mcs_read_domain_mcspdu_header(s, &MCSPDU, &length); status &= per_read_enumerated(s, &result, MCS_Result_enum_length); /* result */ status &= per_read_integer16(s, &initiator, MCS_BASE_CHANNEL_ID); /* initiator (UserId) */ status &= per_read_integer16(s, &requested, 0); /* requested (ChannelId) */ status &= per_read_integer16(s, channelId, 0); /* channelId */ return status; } /** * Send MCS Channel Join Confirm.\n * @msdn{cc240527} * @param mcs mcs module */ BOOL mcs_send_channel_join_confirm(rdpMcs* mcs, UINT16 channelId) { wStream* s; int status; UINT16 length = 15; s = Stream_New(NULL, length); mcs_write_domain_mcspdu_header(s, DomainMCSPDU_ChannelJoinConfirm, length, 2); per_write_enumerated(s, 0, MCS_Result_enum_length); /* result */ per_write_integer16(s, mcs->userId, MCS_BASE_CHANNEL_ID); /* initiator (UserId) */ per_write_integer16(s, channelId, 0); /* requested (ChannelId) */ per_write_integer16(s, channelId, 0); /* channelId */ Stream_SealLength(s); status = transport_write(mcs->transport, s); Stream_Free(s, TRUE); return (status < 0) ? FALSE : TRUE; } /** * Receive MCS Disconnect Provider Ultimatum PDU.\n * @param mcs mcs module */ BOOL mcs_recv_disconnect_provider_ultimatum(rdpMcs* mcs, wStream* s, int* reason) { BYTE b1, b2; /* * http://msdn.microsoft.com/en-us/library/cc240872.aspx: * * PER encoded (ALIGNED variant of BASIC-PER) PDU contents: * 21 80 * * 0x21: * 0 - --\ * 0 - | * 1 - | CHOICE: From DomainMCSPDU select disconnectProviderUltimatum (8) * 0 - | of type DisconnectProviderUltimatum * 0 - | * 0 - --/ * 0 - --\ * 1 - | * | DisconnectProviderUltimatum::reason = rn-user-requested (3) * 0x80: | * 1 - --/ * 0 - padding * 0 - padding * 0 - padding * 0 - padding * 0 - padding * 0 - padding * 0 - padding */ if (Stream_GetRemainingLength(s) < 1) return FALSE; Stream_Rewind_UINT8(s); Stream_Read_UINT8(s, b1); Stream_Read_UINT8(s, b2); *reason = ((b1 & 0x01) << 1) | (b2 >> 7); return TRUE; } /** * Send MCS Disconnect Provider Ultimatum PDU.\n * @param mcs mcs module */ BOOL mcs_send_disconnect_provider_ultimatum(rdpMcs* mcs) { wStream* s; int status; UINT16 length = 9; s = Stream_New(NULL, length); mcs_write_domain_mcspdu_header(s, DomainMCSPDU_DisconnectProviderUltimatum, length, 1); per_write_enumerated(s, 0x80, 0); status = transport_write(mcs->transport, s); Stream_Free(s, TRUE); return (status < 0) ? FALSE : TRUE; } /** * Instantiate new MCS module. * @param transport transport * @return new MCS module */ rdpMcs* mcs_new(rdpTransport* transport) { rdpMcs* mcs; mcs = (rdpMcs *)calloc(1, sizeof(rdpMcs)); if (!mcs) return NULL; mcs->transport = transport; mcs->settings = transport->settings; mcs_init_domain_parameters(&mcs->targetParameters, 34, 2, 0, 0xFFFF); mcs_init_domain_parameters(&mcs->minimumParameters, 1, 1, 1, 0x420); mcs_init_domain_parameters(&mcs->maximumParameters, 0xFFFF, 0xFC17, 0xFFFF, 0xFFFF); mcs_init_domain_parameters(&mcs->domainParameters, 0, 0, 0, 0xFFFF); mcs->channelCount = 0; mcs->channelMaxCount = CHANNEL_MAX_COUNT; mcs->channels = (rdpMcsChannel *)calloc(mcs->channelMaxCount, sizeof(rdpMcsChannel)); if (!mcs->channels) goto out_free; return mcs; out_free: free(mcs); return NULL; } /** * Free MCS module. * @param mcs MCS module to be freed */ void mcs_free(rdpMcs* mcs) { if (mcs) { free(mcs->channels); free(mcs); } }