/** * FreeRDP: A Remote Desktop Protocol Implementation * RPC Secure Context Binding * * 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 "rpc_client.h" #include "rpc_bind.h" #define TAG FREERDP_TAG("core.gateway.rpc") /** * Connection-Oriented RPC Protocol Client Details: * http://msdn.microsoft.com/en-us/library/cc243724/ */ /* Syntax UUIDs */ const p_uuid_t TSGU_UUID = { 0x44E265DD, /* time_low */ 0x7DAF, /* time_mid */ 0x42CD, /* time_hi_and_version */ 0x85, /* clock_seq_hi_and_reserved */ 0x60, /* clock_seq_low */ { 0x3C, 0xDB, 0x6E, 0x7A, 0x27, 0x29 } /* node[6] */ }; const p_uuid_t NDR_UUID = { 0x8A885D04, /* time_low */ 0x1CEB, /* time_mid */ 0x11C9, /* time_hi_and_version */ 0x9F, /* clock_seq_hi_and_reserved */ 0xE8, /* clock_seq_low */ { 0x08, 0x00, 0x2B, 0x10, 0x48, 0x60 } /* node[6] */ }; const p_uuid_t BTFN_UUID = { 0x6CB71C2C, /* time_low */ 0x9812, /* time_mid */ 0x4540, /* time_hi_and_version */ 0x03, /* clock_seq_hi_and_reserved */ 0x00, /* clock_seq_low */ { 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 } /* node[6] */ }; /** * Secure Connection-Oriented RPC Packet Sequence * * Client Server * | | * |-------------------SECURE_BIND-------------------->| * | | * |<----------------SECURE_BIND_ACK-------------------| * | | * |--------------------RPC_AUTH_3-------------------->| * | | * | | * |------------------REQUEST_PDU_#1------------------>| * |------------------REQUEST_PDU_#2------------------>| * | | * | ... | * | | * |<-----------------RESPONSE_PDU_#1------------------| * |<-----------------RESPONSE_PDU_#2------------------| * | | * | ... | */ /** * SECURE_BIND: RPC bind PDU with sec_trailer and auth_token. Auth_token is generated by calling * the implementation equivalent of the abstract GSS_Init_sec_context call. Upon receiving that, the * server calls the implementation equivalent of the abstract GSS_Accept_sec_context call, which * returns an auth_token and continue status in this example. Assume the following: * * 1) The client chooses the auth_context_id field in the sec_trailer sent with this PDU to be 1. * * 2) The client uses the RPC_C_AUTHN_LEVEL_PKT_PRIVACY authentication level and the * Authentication Service (AS) NTLM. * * 3) The client sets the PFC_SUPPORT_HEADER_SIGN flag in the PDU header. */ int rpc_send_bind_pdu(rdpRpc* rpc) { int status; BYTE* buffer; UINT32 offset; UINT32 length; RpcClientCall* clientCall; p_cont_elem_t* p_cont_elem; rpcconn_bind_hdr_t* bind_pdu; BOOL promptPassword = FALSE; rdpSettings* settings = rpc->settings; freerdp* instance = (freerdp*) settings->instance; RpcVirtualConnection* connection = rpc->VirtualConnection; RpcInChannel* inChannel = connection->DefaultInChannel; WLog_DBG(TAG, "Sending Bind PDU"); ntlm_free(rpc->ntlm); rpc->ntlm = ntlm_new(); if (!rpc->ntlm) return -1; if ((!settings->GatewayPassword) || (!settings->GatewayUsername) || (!strlen(settings->GatewayPassword)) || (!strlen(settings->GatewayUsername))) { promptPassword = TRUE; } if (promptPassword) { if (instance->GatewayAuthenticate) { BOOL proceed = instance->GatewayAuthenticate(instance, &settings->GatewayUsername, &settings->GatewayPassword, &settings->GatewayDomain); if (!proceed) { freerdp_set_last_error(instance->context, FREERDP_ERROR_CONNECT_CANCELLED); return 0; } if (settings->GatewayUseSameCredentials) { settings->Username = _strdup(settings->GatewayUsername); settings->Domain = _strdup(settings->GatewayDomain); settings->Password = _strdup(settings->GatewayPassword); if (!settings->Username || !settings->Domain || settings->Password) return -1; } } } if (!ntlm_client_init(rpc->ntlm, FALSE, settings->GatewayUsername, settings->GatewayDomain, settings->GatewayPassword, NULL)) return -1; if (!ntlm_client_make_spn(rpc->ntlm, NULL, settings->GatewayHostname)) return -1; if (!ntlm_authenticate(rpc->ntlm)) return -1; bind_pdu = (rpcconn_bind_hdr_t*) calloc(1, sizeof(rpcconn_bind_hdr_t)); if (!bind_pdu) return -1; rpc_pdu_header_init(rpc, (rpcconn_hdr_t*) bind_pdu); bind_pdu->auth_length = (UINT16) rpc->ntlm->outputBuffer[0].cbBuffer; bind_pdu->auth_verifier.auth_value = rpc->ntlm->outputBuffer[0].pvBuffer; bind_pdu->ptype = PTYPE_BIND; bind_pdu->pfc_flags = PFC_FIRST_FRAG | PFC_LAST_FRAG | PFC_SUPPORT_HEADER_SIGN | PFC_CONC_MPX; bind_pdu->call_id = 2; bind_pdu->max_xmit_frag = rpc->max_xmit_frag; bind_pdu->max_recv_frag = rpc->max_recv_frag; bind_pdu->assoc_group_id = 0; bind_pdu->p_context_elem.n_context_elem = 2; bind_pdu->p_context_elem.reserved = 0; bind_pdu->p_context_elem.reserved2 = 0; bind_pdu->p_context_elem.p_cont_elem = calloc(bind_pdu->p_context_elem.n_context_elem, sizeof(p_cont_elem_t)); if (!bind_pdu->p_context_elem.p_cont_elem) return -1; p_cont_elem = &bind_pdu->p_context_elem.p_cont_elem[0]; p_cont_elem->p_cont_id = 0; p_cont_elem->n_transfer_syn = 1; p_cont_elem->reserved = 0; CopyMemory(&(p_cont_elem->abstract_syntax.if_uuid), &TSGU_UUID, sizeof(p_uuid_t)); p_cont_elem->abstract_syntax.if_version = TSGU_SYNTAX_IF_VERSION; p_cont_elem->transfer_syntaxes = malloc(sizeof(p_syntax_id_t)); if (!p_cont_elem->transfer_syntaxes) return -1; CopyMemory(&(p_cont_elem->transfer_syntaxes[0].if_uuid), &NDR_UUID, sizeof(p_uuid_t)); p_cont_elem->transfer_syntaxes[0].if_version = NDR_SYNTAX_IF_VERSION; p_cont_elem = &bind_pdu->p_context_elem.p_cont_elem[1]; p_cont_elem->p_cont_id = 1; p_cont_elem->n_transfer_syn = 1; p_cont_elem->reserved = 0; CopyMemory(&(p_cont_elem->abstract_syntax.if_uuid), &TSGU_UUID, sizeof(p_uuid_t)); p_cont_elem->abstract_syntax.if_version = TSGU_SYNTAX_IF_VERSION; p_cont_elem->transfer_syntaxes = malloc(sizeof(p_syntax_id_t)); if (!p_cont_elem->transfer_syntaxes) return -1; CopyMemory(&(p_cont_elem->transfer_syntaxes[0].if_uuid), &BTFN_UUID, sizeof(p_uuid_t)); p_cont_elem->transfer_syntaxes[0].if_version = BTFN_SYNTAX_IF_VERSION; offset = 116; bind_pdu->auth_verifier.auth_pad_length = rpc_offset_align(&offset, 4); bind_pdu->auth_verifier.auth_type = RPC_C_AUTHN_WINNT; bind_pdu->auth_verifier.auth_level = RPC_C_AUTHN_LEVEL_PKT_INTEGRITY; bind_pdu->auth_verifier.auth_reserved = 0x00; bind_pdu->auth_verifier.auth_context_id = 0x00000000; offset += (8 + bind_pdu->auth_length); bind_pdu->frag_length = offset; buffer = (BYTE*) malloc(bind_pdu->frag_length); if (!buffer) return -1; CopyMemory(buffer, bind_pdu, 24); CopyMemory(&buffer[24], &bind_pdu->p_context_elem, 4); CopyMemory(&buffer[28], &bind_pdu->p_context_elem.p_cont_elem[0], 24); CopyMemory(&buffer[52], bind_pdu->p_context_elem.p_cont_elem[0].transfer_syntaxes, 20); CopyMemory(&buffer[72], &bind_pdu->p_context_elem.p_cont_elem[1], 24); CopyMemory(&buffer[96], bind_pdu->p_context_elem.p_cont_elem[1].transfer_syntaxes, 20); offset = 116; rpc_offset_pad(&offset, bind_pdu->auth_verifier.auth_pad_length); CopyMemory(&buffer[offset], &bind_pdu->auth_verifier.auth_type, 8); CopyMemory(&buffer[offset + 8], bind_pdu->auth_verifier.auth_value, bind_pdu->auth_length); offset += (8 + bind_pdu->auth_length); length = bind_pdu->frag_length; clientCall = rpc_client_call_new(bind_pdu->call_id, 0); if (!clientCall) { free(buffer); return -1; } if (ArrayList_Add(rpc->client->ClientCallList, clientCall) < 0) { free(buffer); return -1; } status = rpc_in_channel_send_pdu(inChannel, buffer, length); free(bind_pdu->p_context_elem.p_cont_elem[0].transfer_syntaxes); free(bind_pdu->p_context_elem.p_cont_elem[1].transfer_syntaxes); free(bind_pdu->p_context_elem.p_cont_elem); free(bind_pdu); free(buffer); return (status > 0) ? 1 : -1; } /** * Maximum Transmit/Receive Fragment Size Negotiation * * The client determines, and then sends in the bind PDU, its desired maximum size for transmitting fragments, * and its desired maximum receive fragment size. Similarly, the server determines its desired maximum sizes * for transmitting and receiving fragments. Transmit and receive sizes may be different to help preserve buffering. * When the server receives the client’s values, it sets its operational transmit size to the minimum of the client’s * receive size (from the bind PDU) and its own desired transmit size. Then it sets its actual receive size to the * minimum of the client’s transmit size (from the bind) and its own desired receive size. The server then returns its * operational values in the bind_ack PDU. The client then sets its operational values from the received bind_ack PDU. * The received transmit size becomes the client’s receive size, and the received receive size becomes the client’s * transmit size. Either party may use receive buffers larger than negotiated — although this will not provide any * advantage — but may not transmit larger fragments than negotiated. */ /** * * SECURE_BIND_ACK: RPC bind_ack PDU with sec_trailer and auth_token. The PFC_SUPPORT_HEADER_SIGN * flag in the PDU header is also set in this example. Auth_token is generated by the server in the * previous step. Upon receiving that PDU, the client calls the implementation equivalent of the * abstract GSS_Init_sec_context call, which returns an auth_token and continue status in this example. */ int rpc_recv_bind_ack_pdu(rdpRpc* rpc, BYTE* buffer, UINT32 length) { BYTE* auth_data; rpcconn_hdr_t* header; header = (rpcconn_hdr_t*) buffer; WLog_DBG(TAG, "Receiving BindAck PDU"); rpc->max_recv_frag = header->bind_ack.max_xmit_frag; rpc->max_xmit_frag = header->bind_ack.max_recv_frag; rpc->ntlm->inputBuffer[0].cbBuffer = header->common.auth_length; rpc->ntlm->inputBuffer[0].pvBuffer = malloc(header->common.auth_length); if (!rpc->ntlm->inputBuffer[0].pvBuffer) return -1; auth_data = buffer + (header->common.frag_length - header->common.auth_length); CopyMemory(rpc->ntlm->inputBuffer[0].pvBuffer, auth_data, header->common.auth_length); ntlm_authenticate(rpc->ntlm); return (int) length; } /** * RPC_AUTH_3: The client knows that this is an NTLM that uses three legs. It sends an rpc_auth_3 * PDU with the auth_token obtained in the previous step. Upon receiving this PDU, the server calls * the implementation equivalent of the abstract GSS_Accept_sec_context call, which returns success * status in this example. */ int rpc_send_rpc_auth_3_pdu(rdpRpc* rpc) { int status = -1; BYTE* buffer; UINT32 offset; UINT32 length; RpcClientCall* clientCall; rpcconn_rpc_auth_3_hdr_t* auth_3_pdu; RpcVirtualConnection* connection = rpc->VirtualConnection; RpcInChannel* inChannel = connection->DefaultInChannel; WLog_DBG(TAG, "Sending RpcAuth3 PDU"); auth_3_pdu = (rpcconn_rpc_auth_3_hdr_t*) calloc(1, sizeof(rpcconn_rpc_auth_3_hdr_t)); if (!auth_3_pdu) return -1; rpc_pdu_header_init(rpc, (rpcconn_hdr_t*) auth_3_pdu); auth_3_pdu->auth_length = (UINT16) rpc->ntlm->outputBuffer[0].cbBuffer; auth_3_pdu->auth_verifier.auth_value = rpc->ntlm->outputBuffer[0].pvBuffer; auth_3_pdu->ptype = PTYPE_RPC_AUTH_3; auth_3_pdu->pfc_flags = PFC_FIRST_FRAG | PFC_LAST_FRAG | PFC_CONC_MPX; auth_3_pdu->call_id = 2; auth_3_pdu->max_xmit_frag = rpc->max_xmit_frag; auth_3_pdu->max_recv_frag = rpc->max_recv_frag; offset = 20; auth_3_pdu->auth_verifier.auth_pad_length = rpc_offset_align(&offset, 4); auth_3_pdu->auth_verifier.auth_type = RPC_C_AUTHN_WINNT; auth_3_pdu->auth_verifier.auth_level = RPC_C_AUTHN_LEVEL_PKT_INTEGRITY; auth_3_pdu->auth_verifier.auth_reserved = 0x00; auth_3_pdu->auth_verifier.auth_context_id = 0x00000000; offset += (8 + auth_3_pdu->auth_length); auth_3_pdu->frag_length = offset; buffer = (BYTE*) malloc(auth_3_pdu->frag_length); if (!buffer) return -1; CopyMemory(buffer, auth_3_pdu, 20); offset = 20; rpc_offset_pad(&offset, auth_3_pdu->auth_verifier.auth_pad_length); CopyMemory(&buffer[offset], &auth_3_pdu->auth_verifier.auth_type, 8); CopyMemory(&buffer[offset + 8], auth_3_pdu->auth_verifier.auth_value, auth_3_pdu->auth_length); offset += (8 + auth_3_pdu->auth_length); length = auth_3_pdu->frag_length; clientCall = rpc_client_call_new(auth_3_pdu->call_id, 0); if (ArrayList_Add(rpc->client->ClientCallList, clientCall) >= 0) { status = rpc_in_channel_send_pdu(inChannel, buffer, length); } free(auth_3_pdu); free(buffer); return (status > 0) ? 1 : -1; }