/** * FreeRDP: A Remote Desktop Protocol Implementation * FreeRDP Proxy Server * * Copyright 2021 Armin Novak * Copyright 2021 Thincast Technologies GmbH * * 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. */ #include #include #include #include #include "pf_channel_rdpdr.h" #include "pf_channel_smartcard.h" #include #include #include #include #define RTAG PROXY_TAG("channel.rdpdr") #define SCARD_DEVICE_ID UINT32_MAX typedef struct { InterceptContextMapEntry base; wStream* s; wStream* buffer; UINT16 versionMajor; UINT16 versionMinor; UINT32 clientID; UINT32 computerNameLen; BOOL computerNameUnicode; union { WCHAR* wc; char* c; void* v; } computerName; UINT32 SpecialDeviceCount; UINT32 capabilityVersions[6]; } pf_channel_common_context; typedef enum { STATE_CLIENT_EXPECT_SERVER_ANNOUNCE_REQUEST = 0x01, STATE_CLIENT_EXPECT_SERVER_CORE_CAPABILITY_REQUEST = 0x02, STATE_CLIENT_EXPECT_SERVER_CLIENT_ID_CONFIRM = 0x04, STATE_CLIENT_CHANNEL_RUNNING = 0x10 } pf_channel_client_state; typedef struct { pf_channel_common_context common; pf_channel_client_state state; UINT32 flags; UINT16 maxMajorVersion; UINT16 maxMinorVersion; wQueue* queue; wLog* log; } pf_channel_client_context; typedef enum { STATE_SERVER_INITIAL, STATE_SERVER_EXPECT_CLIENT_ANNOUNCE_REPLY, STATE_SERVER_EXPECT_CLIENT_NAME_REQUEST, STATE_SERVER_EXPECT_EXPECT_CLIENT_CAPABILITY_RESPONE, STATE_SERVER_CHANNEL_RUNNING } pf_channel_server_state; typedef struct { pf_channel_common_context common; pf_channel_server_state state; DWORD SessionId; HANDLE handle; wArrayList* blockedDevices; wLog* log; } pf_channel_server_context; #define proxy_client "[proxy<-->client]" #define proxy_server "[proxy<-->server]" #define proxy_client_rx proxy_client " receive" #define proxy_client_tx proxy_client " send" #define proxy_server_rx proxy_server " receive" #define proxy_server_tx proxy_server " send" #define SERVER_RX_LOG(log, lvl, fmt, ...) WLog_Print(log, lvl, proxy_client_rx fmt, ##__VA_ARGS__) #define CLIENT_RX_LOG(log, lvl, fmt, ...) WLog_Print(log, lvl, proxy_server_rx fmt, ##__VA_ARGS__) #define SERVER_TX_LOG(log, lvl, fmt, ...) WLog_Print(log, lvl, proxy_client_tx fmt, ##__VA_ARGS__) #define CLIENT_TX_LOG(log, lvl, fmt, ...) WLog_Print(log, lvl, proxy_server_tx fmt, ##__VA_ARGS__) #define RX_LOG(srv, lvl, fmt, ...) \ do \ { \ if (srv) \ { \ SERVER_RX_LOG(lvl, fmt, ##__VA_ARGS__); \ } \ else \ { \ CLIENT_RX_LOG(lvl, fmt, ##__VA_ARGS__); \ } \ } while (0) #define SERVER_RXTX_LOG(send, log, lvl, fmt, ...) \ do \ { \ if (send) \ { \ SERVER_TX_LOG(log, lvl, fmt, ##__VA_ARGS__); \ } \ else \ { \ SERVER_RX_LOG(log, lvl, fmt, ##__VA_ARGS__); \ } \ } while (0) #define Stream_CheckAndLogRequiredLengthSrv(log, s, len) \ Stream_CheckAndLogRequiredLengthWLogEx(log, WLOG_WARN, s, len, 1, \ proxy_client_rx " %s(%s:%" PRIuz ")", __func__, \ __FILE__, (size_t)__LINE__) #define Stream_CheckAndLogRequiredLengthClient(log, s, len) \ Stream_CheckAndLogRequiredLengthWLogEx(log, WLOG_WARN, s, len, 1, \ proxy_server_rx " %s(%s:%" PRIuz ")", __func__, \ __FILE__, (size_t)__LINE__) #define Stream_CheckAndLogRequiredLengthRx(srv, log, s, len) \ Stream_CheckAndLogRequiredLengthRx_(srv, log, s, len, 1, __func__, __FILE__, __LINE__) static BOOL Stream_CheckAndLogRequiredLengthRx_(BOOL srv, wLog* log, wStream* s, size_t nmemb, size_t size, const char* fkt, const char* file, size_t line) { const char* fmt = srv ? proxy_server_rx " %s(%s:%" PRIuz ")" : proxy_client_rx " %s(%s:%" PRIuz ")"; return Stream_CheckAndLogRequiredLengthWLogEx(log, WLOG_WARN, s, nmemb, size, fmt, fkt, file, line); } static const char* rdpdr_server_state_to_string(pf_channel_server_state state) { switch (state) { case STATE_SERVER_INITIAL: return "STATE_SERVER_INITIAL"; case STATE_SERVER_EXPECT_CLIENT_ANNOUNCE_REPLY: return "STATE_SERVER_EXPECT_CLIENT_ANNOUNCE_REPLY"; case STATE_SERVER_EXPECT_CLIENT_NAME_REQUEST: return "STATE_SERVER_EXPECT_CLIENT_NAME_REQUEST"; case STATE_SERVER_EXPECT_EXPECT_CLIENT_CAPABILITY_RESPONE: return "STATE_SERVER_EXPECT_EXPECT_CLIENT_CAPABILITY_RESPONE"; case STATE_SERVER_CHANNEL_RUNNING: return "STATE_SERVER_CHANNEL_RUNNING"; default: return "STATE_SERVER_UNKNOWN"; } } static const char* rdpdr_client_state_to_string(pf_channel_client_state state) { switch (state) { case STATE_CLIENT_EXPECT_SERVER_ANNOUNCE_REQUEST: return "STATE_CLIENT_EXPECT_SERVER_ANNOUNCE_REQUEST"; case STATE_CLIENT_EXPECT_SERVER_CORE_CAPABILITY_REQUEST: return "STATE_CLIENT_EXPECT_SERVER_CORE_CAPABILITY_REQUEST"; case STATE_CLIENT_EXPECT_SERVER_CLIENT_ID_CONFIRM: return "STATE_CLIENT_EXPECT_SERVER_CLIENT_ID_CONFIRM"; case STATE_CLIENT_CHANNEL_RUNNING: return "STATE_CLIENT_CHANNEL_RUNNING"; default: return "STATE_CLIENT_UNKNOWN"; } } static wStream* rdpdr_get_send_buffer(pf_channel_common_context* rdpdr, UINT16 component, UINT16 PacketID, size_t capacity) { WINPR_ASSERT(rdpdr); WINPR_ASSERT(rdpdr->s); if (!Stream_SetPosition(rdpdr->s, 0)) return NULL; if (!Stream_EnsureCapacity(rdpdr->s, capacity + 4)) return NULL; Stream_Write_UINT16(rdpdr->s, component); Stream_Write_UINT16(rdpdr->s, PacketID); return rdpdr->s; } static wStream* rdpdr_client_get_send_buffer(pf_channel_client_context* rdpdr, UINT16 component, UINT16 PacketID, size_t capacity) { WINPR_ASSERT(rdpdr); return rdpdr_get_send_buffer(&rdpdr->common, component, PacketID, capacity); } static wStream* rdpdr_server_get_send_buffer(pf_channel_server_context* rdpdr, UINT16 component, UINT16 PacketID, size_t capacity) { WINPR_ASSERT(rdpdr); return rdpdr_get_send_buffer(&rdpdr->common, component, PacketID, capacity); } static UINT rdpdr_client_send(wLog* log, pClientContext* pc, wStream* s) { UINT16 channelId = 0; WINPR_ASSERT(log); WINPR_ASSERT(pc); WINPR_ASSERT(s); WINPR_ASSERT(pc->context.instance); if (!pc->connected) { CLIENT_TX_LOG(log, WLOG_WARN, "Ignoring channel %s message, not connected!", RDPDR_SVC_CHANNEL_NAME); return CHANNEL_RC_OK; } channelId = freerdp_channels_get_id_by_name(pc->context.instance, RDPDR_SVC_CHANNEL_NAME); /* Ignore unmappable channels. Might happen when the channel was already down and * some delayed message is tried to be sent. */ if ((channelId == 0) || (channelId == UINT16_MAX)) return ERROR_INTERNAL_ERROR; Stream_SealLength(s); rdpdr_dump_send_packet(log, WLOG_TRACE, s, proxy_server_tx); WINPR_ASSERT(pc->context.instance->SendChannelData); if (!pc->context.instance->SendChannelData(pc->context.instance, channelId, Stream_Buffer(s), Stream_Length(s))) return ERROR_EVT_CHANNEL_NOT_FOUND; return CHANNEL_RC_OK; } static UINT rdpdr_seal_send_free_request(pf_channel_server_context* context, wStream* s) { BOOL status = 0; size_t len = 0; WINPR_ASSERT(context); WINPR_ASSERT(context->handle); WINPR_ASSERT(s); Stream_SealLength(s); len = Stream_Length(s); WINPR_ASSERT(len <= UINT32_MAX); rdpdr_dump_send_packet(context->log, WLOG_TRACE, s, proxy_client_tx); status = WTSVirtualChannelWrite(context->handle, (char*)Stream_Buffer(s), (ULONG)len, NULL); return (status) ? CHANNEL_RC_OK : ERROR_INTERNAL_ERROR; } static BOOL rdpdr_process_server_header(BOOL server, wLog* log, wStream* s, UINT16 component, UINT16 PacketId, size_t expect) { UINT16 rpacketid = 0; UINT16 rcomponent = 0; WINPR_ASSERT(s); if (!Stream_CheckAndLogRequiredLengthRx(server, log, s, 4)) { RX_LOG(server, log, WLOG_WARN, "RDPDR_HEADER[%s | %s]: expected length 4, got %" PRIuz, rdpdr_component_string(component), rdpdr_packetid_string(PacketId), Stream_GetRemainingLength(s)); return FALSE; } Stream_Read_UINT16(s, rcomponent); Stream_Read_UINT16(s, rpacketid); if (rcomponent != component) { RX_LOG(server, log, WLOG_WARN, "RDPDR_HEADER[%s | %s]: got component %s", rdpdr_component_string(component), rdpdr_packetid_string(PacketId), rdpdr_component_string(rcomponent)); return FALSE; } if (rpacketid != PacketId) { RX_LOG(server, log, WLOG_WARN, "RDPDR_HEADER[%s | %s]: got PacketID %s", rdpdr_component_string(component), rdpdr_packetid_string(PacketId), rdpdr_packetid_string(rpacketid)); return FALSE; } if (!Stream_CheckAndLogRequiredLengthRx(server, log, s, expect)) { RX_LOG(server, log, WLOG_WARN, "RDPDR_HEADER[%s | %s] not enought data, expected %" PRIuz ", " "got %" PRIuz, rdpdr_component_string(component), rdpdr_packetid_string(PacketId), expect, Stream_GetRemainingLength(s)); return ERROR_INVALID_DATA; } return TRUE; } static BOOL rdpdr_check_version(BOOL server, wLog* log, UINT16 versionMajor, UINT16 versionMinor, UINT16 component, UINT16 PacketId) { if (versionMajor != RDPDR_VERSION_MAJOR) { RX_LOG(server, log, WLOG_WARN, "[%s | %s] expected MajorVersion %" PRIu16 ", got %" PRIu16, rdpdr_component_string(component), rdpdr_packetid_string(PacketId), RDPDR_VERSION_MAJOR, versionMajor); return FALSE; } switch (versionMinor) { case RDPDR_VERSION_MINOR_RDP50: case RDPDR_VERSION_MINOR_RDP51: case RDPDR_VERSION_MINOR_RDP52: case RDPDR_VERSION_MINOR_RDP6X: case RDPDR_VERSION_MINOR_RDP10X: break; default: { RX_LOG(server, log, WLOG_WARN, "[%s | %s] unsupported MinorVersion %" PRIu16, rdpdr_component_string(component), rdpdr_packetid_string(PacketId), versionMinor); return FALSE; } } return TRUE; } static UINT rdpdr_process_server_announce_request(pf_channel_client_context* rdpdr, wStream* s) { const UINT16 component = RDPDR_CTYP_CORE; const UINT16 packetid = PAKID_CORE_SERVER_ANNOUNCE; WINPR_ASSERT(rdpdr); WINPR_ASSERT(s); if (!rdpdr_process_server_header(FALSE, rdpdr->log, s, component, packetid, 8)) return ERROR_INVALID_DATA; Stream_Read_UINT16(s, rdpdr->common.versionMajor); Stream_Read_UINT16(s, rdpdr->common.versionMinor); if (!rdpdr_check_version(FALSE, rdpdr->log, rdpdr->common.versionMajor, rdpdr->common.versionMinor, component, packetid)) return ERROR_INVALID_DATA; /* Limit maximum channel protocol version to the one set by proxy server */ if (rdpdr->common.versionMajor > rdpdr->maxMajorVersion) { rdpdr->common.versionMajor = rdpdr->maxMajorVersion; rdpdr->common.versionMinor = rdpdr->maxMinorVersion; } else if (rdpdr->common.versionMinor > rdpdr->maxMinorVersion) rdpdr->common.versionMinor = rdpdr->maxMinorVersion; Stream_Read_UINT32(s, rdpdr->common.clientID); return CHANNEL_RC_OK; } static UINT rdpdr_server_send_announce_request(pf_channel_server_context* context) { wStream* s = rdpdr_server_get_send_buffer(context, RDPDR_CTYP_CORE, PAKID_CORE_SERVER_ANNOUNCE, 8); if (!s) return CHANNEL_RC_NO_MEMORY; Stream_Write_UINT16(s, context->common.versionMajor); /* VersionMajor (2 bytes) */ Stream_Write_UINT16(s, context->common.versionMinor); /* VersionMinor (2 bytes) */ Stream_Write_UINT32(s, context->common.clientID); /* ClientId (4 bytes) */ return rdpdr_seal_send_free_request(context, s); } static UINT rdpdr_process_client_announce_reply(pf_channel_server_context* rdpdr, wStream* s) { const UINT16 component = RDPDR_CTYP_CORE; const UINT16 packetid = PAKID_CORE_CLIENTID_CONFIRM; UINT16 versionMajor = 0; UINT16 versionMinor = 0; UINT32 clientID = 0; WINPR_ASSERT(rdpdr); WINPR_ASSERT(s); if (!rdpdr_process_server_header(TRUE, rdpdr->log, s, component, packetid, 8)) return ERROR_INVALID_DATA; Stream_Read_UINT16(s, versionMajor); Stream_Read_UINT16(s, versionMinor); if (!rdpdr_check_version(TRUE, rdpdr->log, versionMajor, versionMinor, component, packetid)) return ERROR_INVALID_DATA; if ((rdpdr->common.versionMajor != versionMajor) || (rdpdr->common.versionMinor != versionMinor)) { SERVER_RX_LOG( rdpdr->log, WLOG_WARN, "[%s | %s] downgrading version from %" PRIu16 ".%" PRIu16 " to %" PRIu16 ".%" PRIu16, rdpdr_component_string(component), rdpdr_packetid_string(packetid), rdpdr->common.versionMajor, rdpdr->common.versionMinor, versionMajor, versionMinor); rdpdr->common.versionMajor = versionMajor; rdpdr->common.versionMinor = versionMinor; } Stream_Read_UINT32(s, clientID); if (rdpdr->common.clientID != clientID) { SERVER_RX_LOG(rdpdr->log, WLOG_WARN, "[%s | %s] changing clientID 0x%08" PRIu32 " to 0x%08" PRIu32, rdpdr_component_string(component), rdpdr_packetid_string(packetid), rdpdr->common.clientID, clientID); rdpdr->common.clientID = clientID; } return CHANNEL_RC_OK; } static UINT rdpdr_send_client_announce_reply(pClientContext* pc, pf_channel_client_context* rdpdr) { wStream* s = rdpdr_client_get_send_buffer(rdpdr, RDPDR_CTYP_CORE, PAKID_CORE_CLIENTID_CONFIRM, 8); if (!s) return CHANNEL_RC_NO_MEMORY; Stream_Write_UINT16(s, rdpdr->common.versionMajor); Stream_Write_UINT16(s, rdpdr->common.versionMinor); Stream_Write_UINT32(s, rdpdr->common.clientID); return rdpdr_client_send(rdpdr->log, pc, s); } static UINT rdpdr_process_client_name_request(pf_channel_server_context* rdpdr, wStream* s, pClientContext* pc) { UINT32 unicodeFlag = 0; UINT32 codePage = 0; WINPR_ASSERT(rdpdr); WINPR_ASSERT(s); WINPR_ASSERT(pc); if (!rdpdr_process_server_header(TRUE, rdpdr->log, s, RDPDR_CTYP_CORE, PAKID_CORE_CLIENT_NAME, 12)) return ERROR_INVALID_DATA; Stream_Read_UINT32(s, unicodeFlag); rdpdr->common.computerNameUnicode = (unicodeFlag & 1); Stream_Read_UINT32(s, codePage); WINPR_UNUSED(codePage); /* Field is ignored */ Stream_Read_UINT32(s, rdpdr->common.computerNameLen); if (!Stream_CheckAndLogRequiredLengthSrv(rdpdr->log, s, rdpdr->common.computerNameLen)) { SERVER_RX_LOG( rdpdr->log, WLOG_WARN, "[%s | %s]: missing data, got %" PRIu32 ", expected %" PRIu32, rdpdr_component_string(RDPDR_CTYP_CORE), rdpdr_packetid_string(PAKID_CORE_CLIENT_NAME), Stream_GetRemainingLength(s), rdpdr->common.computerNameLen); return ERROR_INVALID_DATA; } void* tmp = realloc(rdpdr->common.computerName.v, rdpdr->common.computerNameLen); if (!tmp) return CHANNEL_RC_NO_MEMORY; rdpdr->common.computerName.v = tmp; Stream_Read(s, rdpdr->common.computerName.v, rdpdr->common.computerNameLen); pc->computerNameLen = rdpdr->common.computerNameLen; pc->computerNameUnicode = rdpdr->common.computerNameUnicode; tmp = realloc(pc->computerName.v, pc->computerNameLen); if (!tmp) return CHANNEL_RC_NO_MEMORY; pc->computerName.v = tmp; memcpy(pc->computerName.v, rdpdr->common.computerName.v, pc->computerNameLen); return CHANNEL_RC_OK; } static UINT rdpdr_send_client_name_request(pClientContext* pc, pf_channel_client_context* rdpdr) { wStream* s = NULL; WINPR_ASSERT(rdpdr); WINPR_ASSERT(pc); { void* tmp = realloc(rdpdr->common.computerName.v, pc->computerNameLen); if (!tmp) return CHANNEL_RC_NO_MEMORY; rdpdr->common.computerName.v = tmp; rdpdr->common.computerNameLen = pc->computerNameLen; rdpdr->common.computerNameUnicode = pc->computerNameUnicode; memcpy(rdpdr->common.computerName.v, pc->computerName.v, pc->computerNameLen); } s = rdpdr_client_get_send_buffer(rdpdr, RDPDR_CTYP_CORE, PAKID_CORE_CLIENT_NAME, 12U + rdpdr->common.computerNameLen); if (!s) return CHANNEL_RC_NO_MEMORY; Stream_Write_UINT32(s, rdpdr->common.computerNameUnicode ? 1 : 0); /* unicodeFlag, 0 for ASCII and 1 for Unicode */ Stream_Write_UINT32(s, 0); /* codePage, must be set to zero */ Stream_Write_UINT32(s, rdpdr->common.computerNameLen); Stream_Write(s, rdpdr->common.computerName.v, rdpdr->common.computerNameLen); return rdpdr_client_send(rdpdr->log, pc, s); } #define rdpdr_ignore_capset(srv, log, s, header) \ rdpdr_ignore_capset_((srv), (log), (s), header, __func__) static UINT rdpdr_ignore_capset_(BOOL srv, wLog* log, wStream* s, const RDPDR_CAPABILITY_HEADER* header, const char* fkt) { WINPR_ASSERT(s); WINPR_ASSERT(header); Stream_Seek(s, header->CapabilityLength); return CHANNEL_RC_OK; } static UINT rdpdr_client_process_general_capset(pf_channel_client_context* rdpdr, wStream* s, const RDPDR_CAPABILITY_HEADER* header) { WINPR_UNUSED(rdpdr); return rdpdr_ignore_capset(FALSE, rdpdr->log, s, header); } static UINT rdpdr_process_printer_capset(pf_channel_client_context* rdpdr, wStream* s, const RDPDR_CAPABILITY_HEADER* header) { WINPR_UNUSED(rdpdr); return rdpdr_ignore_capset(FALSE, rdpdr->log, s, header); } static UINT rdpdr_process_port_capset(pf_channel_client_context* rdpdr, wStream* s, const RDPDR_CAPABILITY_HEADER* header) { WINPR_UNUSED(rdpdr); return rdpdr_ignore_capset(FALSE, rdpdr->log, s, header); } static UINT rdpdr_process_drive_capset(pf_channel_client_context* rdpdr, wStream* s, const RDPDR_CAPABILITY_HEADER* header) { WINPR_UNUSED(rdpdr); return rdpdr_ignore_capset(FALSE, rdpdr->log, s, header); } static UINT rdpdr_process_smartcard_capset(pf_channel_client_context* rdpdr, wStream* s, const RDPDR_CAPABILITY_HEADER* header) { WINPR_UNUSED(rdpdr); return rdpdr_ignore_capset(FALSE, rdpdr->log, s, header); } static UINT rdpdr_process_server_core_capability_request(pf_channel_client_context* rdpdr, wStream* s) { UINT status = CHANNEL_RC_OK; UINT16 numCapabilities = 0; WINPR_ASSERT(rdpdr); if (!rdpdr_process_server_header(FALSE, rdpdr->log, s, RDPDR_CTYP_CORE, PAKID_CORE_SERVER_CAPABILITY, 4)) return ERROR_INVALID_DATA; Stream_Read_UINT16(s, numCapabilities); Stream_Seek(s, 2); /* pad (2 bytes) */ for (UINT16 i = 0; i < numCapabilities; i++) { RDPDR_CAPABILITY_HEADER header = { 0 }; UINT error = rdpdr_read_capset_header(rdpdr->log, s, &header); if (error != CHANNEL_RC_OK) return error; if (header.CapabilityType < ARRAYSIZE(rdpdr->common.capabilityVersions)) { if (rdpdr->common.capabilityVersions[header.CapabilityType] > header.Version) rdpdr->common.capabilityVersions[header.CapabilityType] = header.Version; WLog_Print(rdpdr->log, WLOG_TRACE, "capability %s got version %" PRIu32 ", will use version %" PRIu32, rdpdr_cap_type_string(header.CapabilityType), header.Version, rdpdr->common.capabilityVersions[header.CapabilityType]); } switch (header.CapabilityType) { case CAP_GENERAL_TYPE: status = rdpdr_client_process_general_capset(rdpdr, s, &header); break; case CAP_PRINTER_TYPE: status = rdpdr_process_printer_capset(rdpdr, s, &header); break; case CAP_PORT_TYPE: status = rdpdr_process_port_capset(rdpdr, s, &header); break; case CAP_DRIVE_TYPE: status = rdpdr_process_drive_capset(rdpdr, s, &header); break; case CAP_SMARTCARD_TYPE: status = rdpdr_process_smartcard_capset(rdpdr, s, &header); break; default: WLog_Print(rdpdr->log, WLOG_WARN, "unknown capability 0x%04" PRIx16 ", length %" PRIu16 ", version %" PRIu32, header.CapabilityType, header.CapabilityLength, header.Version); Stream_Seek(s, header.CapabilityLength); break; } if (status != CHANNEL_RC_OK) return status; } return CHANNEL_RC_OK; } static BOOL rdpdr_write_general_capset(wLog* log, pf_channel_common_context* rdpdr, wStream* s) { WINPR_ASSERT(rdpdr); WINPR_ASSERT(s); const RDPDR_CAPABILITY_HEADER header = { CAP_GENERAL_TYPE, 44, rdpdr->capabilityVersions[CAP_GENERAL_TYPE] }; if (rdpdr_write_capset_header(log, s, &header) != CHANNEL_RC_OK) return FALSE; Stream_Write_UINT32(s, 0); /* osType, ignored on receipt */ Stream_Write_UINT32(s, 0); /* osVersion, should be ignored */ Stream_Write_UINT16(s, rdpdr->versionMajor); /* protocolMajorVersion, must be set to 1 */ Stream_Write_UINT16(s, rdpdr->versionMinor); /* protocolMinorVersion */ Stream_Write_UINT32(s, 0x0000FFFF); /* ioCode1 */ Stream_Write_UINT32(s, 0); /* ioCode2, must be set to zero, reserved for future use */ Stream_Write_UINT32(s, RDPDR_DEVICE_REMOVE_PDUS | RDPDR_CLIENT_DISPLAY_NAME_PDU | RDPDR_USER_LOGGEDON_PDU); /* extendedPDU */ Stream_Write_UINT32(s, ENABLE_ASYNCIO); /* extraFlags1 */ Stream_Write_UINT32(s, 0); /* extraFlags2, must be set to zero, reserved for future use */ Stream_Write_UINT32(s, rdpdr->SpecialDeviceCount); /* SpecialTypeDeviceCap, number of special devices to be redirected before logon */ return TRUE; } static BOOL rdpdr_write_printer_capset(wLog* log, pf_channel_common_context* rdpdr, wStream* s) { WINPR_ASSERT(rdpdr); WINPR_ASSERT(s); const RDPDR_CAPABILITY_HEADER header = { CAP_PRINTER_TYPE, 8, rdpdr->capabilityVersions[CAP_PRINTER_TYPE] }; if (rdpdr_write_capset_header(log, s, &header) != CHANNEL_RC_OK) return FALSE; return TRUE; } static BOOL rdpdr_write_port_capset(wLog* log, pf_channel_common_context* rdpdr, wStream* s) { WINPR_ASSERT(rdpdr); WINPR_ASSERT(s); const RDPDR_CAPABILITY_HEADER header = { CAP_PORT_TYPE, 8, rdpdr->capabilityVersions[CAP_PORT_TYPE] }; if (rdpdr_write_capset_header(log, s, &header) != CHANNEL_RC_OK) return FALSE; return TRUE; } static BOOL rdpdr_write_drive_capset(wLog* log, pf_channel_common_context* rdpdr, wStream* s) { WINPR_ASSERT(rdpdr); WINPR_ASSERT(s); const RDPDR_CAPABILITY_HEADER header = { CAP_DRIVE_TYPE, 8, rdpdr->capabilityVersions[CAP_DRIVE_TYPE] }; if (rdpdr_write_capset_header(log, s, &header) != CHANNEL_RC_OK) return FALSE; return TRUE; } static BOOL rdpdr_write_smartcard_capset(wLog* log, pf_channel_common_context* rdpdr, wStream* s) { WINPR_ASSERT(rdpdr); WINPR_ASSERT(s); const RDPDR_CAPABILITY_HEADER header = { CAP_SMARTCARD_TYPE, 8, rdpdr->capabilityVersions[CAP_SMARTCARD_TYPE] }; if (rdpdr_write_capset_header(log, s, &header) != CHANNEL_RC_OK) return FALSE; return TRUE; } static UINT rdpdr_send_server_capability_request(pf_channel_server_context* rdpdr) { wStream* s = rdpdr_server_get_send_buffer(rdpdr, RDPDR_CTYP_CORE, PAKID_CORE_SERVER_CAPABILITY, 8); if (!s) return CHANNEL_RC_NO_MEMORY; Stream_Write_UINT16(s, 5); /* numCapabilities */ Stream_Write_UINT16(s, 0); /* pad */ if (!rdpdr_write_general_capset(rdpdr->log, &rdpdr->common, s)) return CHANNEL_RC_NO_MEMORY; if (!rdpdr_write_printer_capset(rdpdr->log, &rdpdr->common, s)) return CHANNEL_RC_NO_MEMORY; if (!rdpdr_write_port_capset(rdpdr->log, &rdpdr->common, s)) return CHANNEL_RC_NO_MEMORY; if (!rdpdr_write_drive_capset(rdpdr->log, &rdpdr->common, s)) return CHANNEL_RC_NO_MEMORY; if (!rdpdr_write_smartcard_capset(rdpdr->log, &rdpdr->common, s)) return CHANNEL_RC_NO_MEMORY; return rdpdr_seal_send_free_request(rdpdr, s); } static UINT rdpdr_process_client_capability_response(pf_channel_server_context* rdpdr, wStream* s) { const UINT16 component = RDPDR_CTYP_CORE; const UINT16 packetid = PAKID_CORE_CLIENT_CAPABILITY; UINT status = CHANNEL_RC_OK; UINT16 numCapabilities = 0; WINPR_ASSERT(rdpdr); if (!rdpdr_process_server_header(TRUE, rdpdr->log, s, component, packetid, 4)) return ERROR_INVALID_DATA; Stream_Read_UINT16(s, numCapabilities); Stream_Seek_UINT16(s); /* padding */ for (UINT16 x = 0; x < numCapabilities; x++) { RDPDR_CAPABILITY_HEADER header = { 0 }; UINT error = rdpdr_read_capset_header(rdpdr->log, s, &header); if (error != CHANNEL_RC_OK) return error; if (header.CapabilityType < ARRAYSIZE(rdpdr->common.capabilityVersions)) { if (rdpdr->common.capabilityVersions[header.CapabilityType] > header.Version) rdpdr->common.capabilityVersions[header.CapabilityType] = header.Version; WLog_Print(rdpdr->log, WLOG_TRACE, "capability %s got version %" PRIu32 ", will use version %" PRIu32, rdpdr_cap_type_string(header.CapabilityType), header.Version, rdpdr->common.capabilityVersions[header.CapabilityType]); } switch (header.CapabilityType) { case CAP_GENERAL_TYPE: status = rdpdr_ignore_capset(TRUE, rdpdr->log, s, &header); break; case CAP_PRINTER_TYPE: status = rdpdr_ignore_capset(TRUE, rdpdr->log, s, &header); break; case CAP_PORT_TYPE: status = rdpdr_ignore_capset(TRUE, rdpdr->log, s, &header); break; case CAP_DRIVE_TYPE: status = rdpdr_ignore_capset(TRUE, rdpdr->log, s, &header); break; case CAP_SMARTCARD_TYPE: status = rdpdr_ignore_capset(TRUE, rdpdr->log, s, &header); break; default: SERVER_RX_LOG(rdpdr->log, WLOG_WARN, "[%s | %s] invalid capability type 0x%04" PRIx16, rdpdr_component_string(component), rdpdr_packetid_string(packetid), header.CapabilityType); status = ERROR_INVALID_DATA; break; } if (status != CHANNEL_RC_OK) break; } return status; } static UINT rdpdr_send_client_capability_response(pClientContext* pc, pf_channel_client_context* rdpdr) { wStream* s = NULL; WINPR_ASSERT(rdpdr); s = rdpdr_client_get_send_buffer(rdpdr, RDPDR_CTYP_CORE, PAKID_CORE_CLIENT_CAPABILITY, 4); if (!s) return CHANNEL_RC_NO_MEMORY; Stream_Write_UINT16(s, 5); /* numCapabilities */ Stream_Write_UINT16(s, 0); /* pad */ if (!rdpdr_write_general_capset(rdpdr->log, &rdpdr->common, s)) return CHANNEL_RC_NO_MEMORY; if (!rdpdr_write_printer_capset(rdpdr->log, &rdpdr->common, s)) return CHANNEL_RC_NO_MEMORY; if (!rdpdr_write_port_capset(rdpdr->log, &rdpdr->common, s)) return CHANNEL_RC_NO_MEMORY; if (!rdpdr_write_drive_capset(rdpdr->log, &rdpdr->common, s)) return CHANNEL_RC_NO_MEMORY; if (!rdpdr_write_smartcard_capset(rdpdr->log, &rdpdr->common, s)) return CHANNEL_RC_NO_MEMORY; return rdpdr_client_send(rdpdr->log, pc, s); } static UINT rdpdr_send_server_clientid_confirm(pf_channel_server_context* rdpdr) { wStream* s = NULL; s = rdpdr_server_get_send_buffer(rdpdr, RDPDR_CTYP_CORE, PAKID_CORE_CLIENTID_CONFIRM, 8); if (!s) return CHANNEL_RC_NO_MEMORY; Stream_Write_UINT16(s, rdpdr->common.versionMajor); Stream_Write_UINT16(s, rdpdr->common.versionMinor); Stream_Write_UINT32(s, rdpdr->common.clientID); return rdpdr_seal_send_free_request(rdpdr, s); } static UINT rdpdr_process_server_clientid_confirm(pf_channel_client_context* rdpdr, wStream* s) { UINT16 versionMajor = 0; UINT16 versionMinor = 0; UINT32 clientID = 0; WINPR_ASSERT(rdpdr); WINPR_ASSERT(s); if (!rdpdr_process_server_header(FALSE, rdpdr->log, s, RDPDR_CTYP_CORE, PAKID_CORE_CLIENTID_CONFIRM, 8)) return ERROR_INVALID_DATA; Stream_Read_UINT16(s, versionMajor); Stream_Read_UINT16(s, versionMinor); if (!rdpdr_check_version(FALSE, rdpdr->log, versionMajor, versionMinor, RDPDR_CTYP_CORE, PAKID_CORE_CLIENTID_CONFIRM)) return ERROR_INVALID_DATA; Stream_Read_UINT32(s, clientID); if ((versionMajor != rdpdr->common.versionMajor) || (versionMinor != rdpdr->common.versionMinor)) { CLIENT_RX_LOG(rdpdr->log, WLOG_WARN, "[%s | %s] Version mismatch, sent %" PRIu16 ".%" PRIu16 ", downgraded to %" PRIu16 ".%" PRIu16, rdpdr_component_string(RDPDR_CTYP_CORE), rdpdr_packetid_string(PAKID_CORE_CLIENTID_CONFIRM), rdpdr->common.versionMajor, rdpdr->common.versionMinor, versionMajor, versionMinor); rdpdr->common.versionMajor = versionMajor; rdpdr->common.versionMinor = versionMinor; } if (clientID != rdpdr->common.clientID) { CLIENT_RX_LOG(rdpdr->log, WLOG_WARN, "[%s | %s] clientID mismatch, sent 0x%08" PRIx32 ", changed to 0x%08" PRIx32, rdpdr_component_string(RDPDR_CTYP_CORE), rdpdr_packetid_string(PAKID_CORE_CLIENTID_CONFIRM), rdpdr->common.clientID, clientID); rdpdr->common.clientID = clientID; } return CHANNEL_RC_OK; } static BOOL rdpdr_process_server_capability_request_or_clientid_confirm(pf_channel_client_context* rdpdr, wStream* s) { const UINT32 mask = STATE_CLIENT_EXPECT_SERVER_CLIENT_ID_CONFIRM | STATE_CLIENT_EXPECT_SERVER_CORE_CAPABILITY_REQUEST; const UINT16 rcomponent = RDPDR_CTYP_CORE; UINT16 component = 0; UINT16 packetid = 0; WINPR_ASSERT(rdpdr); WINPR_ASSERT(s); if ((rdpdr->flags & mask) == mask) { CLIENT_RX_LOG(rdpdr->log, WLOG_WARN, "already past this state, abort!"); return FALSE; } if (!Stream_CheckAndLogRequiredLengthClient(rdpdr->log, s, 4)) return FALSE; Stream_Read_UINT16(s, component); if (rcomponent != component) { CLIENT_RX_LOG(rdpdr->log, WLOG_WARN, "got component %s, expected %s", rdpdr_component_string(component), rdpdr_component_string(rcomponent)); return FALSE; } Stream_Read_UINT16(s, packetid); Stream_Rewind(s, 4); switch (packetid) { case PAKID_CORE_SERVER_CAPABILITY: if (rdpdr->flags & STATE_CLIENT_EXPECT_SERVER_CORE_CAPABILITY_REQUEST) { CLIENT_RX_LOG(rdpdr->log, WLOG_WARN, "got duplicate packetid %s", rdpdr_packetid_string(packetid)); return FALSE; } rdpdr->flags |= STATE_CLIENT_EXPECT_SERVER_CORE_CAPABILITY_REQUEST; return rdpdr_process_server_core_capability_request(rdpdr, s) == CHANNEL_RC_OK; case PAKID_CORE_CLIENTID_CONFIRM: default: if (rdpdr->flags & STATE_CLIENT_EXPECT_SERVER_CLIENT_ID_CONFIRM) { CLIENT_RX_LOG(rdpdr->log, WLOG_WARN, "got duplicate packetid %s", rdpdr_packetid_string(packetid)); return FALSE; } rdpdr->flags |= STATE_CLIENT_EXPECT_SERVER_CLIENT_ID_CONFIRM; return rdpdr_process_server_clientid_confirm(rdpdr, s) == CHANNEL_RC_OK; } } #if defined(WITH_PROXY_EMULATE_SMARTCARD) static UINT rdpdr_send_emulated_scard_device_list_announce_request(pClientContext* pc, pf_channel_client_context* rdpdr) { wStream* s = NULL; s = rdpdr_client_get_send_buffer(rdpdr, RDPDR_CTYP_CORE, PAKID_CORE_DEVICELIST_ANNOUNCE, 24); if (!s) return CHANNEL_RC_NO_MEMORY; Stream_Write_UINT32(s, 1); /* deviceCount -> our emulated smartcard only */ Stream_Write_UINT32(s, RDPDR_DTYP_SMARTCARD); /* deviceType */ Stream_Write_UINT32( s, SCARD_DEVICE_ID); /* deviceID -> reserve highest value for the emulated smartcard */ Stream_Write(s, "SCARD\0\0\0", 8); Stream_Write_UINT32(s, 6); Stream_Write(s, "SCARD\0", 6); return rdpdr_client_send(rdpdr->log, pc, s); } static UINT rdpdr_send_emulated_scard_device_remove(pClientContext* pc, pf_channel_client_context* rdpdr) { wStream* s = NULL; s = rdpdr_client_get_send_buffer(rdpdr, RDPDR_CTYP_CORE, PAKID_CORE_DEVICELIST_REMOVE, 24); if (!s) return CHANNEL_RC_NO_MEMORY; Stream_Write_UINT32(s, 1); /* deviceCount -> our emulated smartcard only */ Stream_Write_UINT32( s, SCARD_DEVICE_ID); /* deviceID -> reserve highest value for the emulated smartcard */ return rdpdr_client_send(rdpdr->log, pc, s); } static UINT rdpdr_process_server_device_announce_response(pf_channel_client_context* rdpdr, wStream* s) { const UINT16 component = RDPDR_CTYP_CORE; const UINT16 packetid = PAKID_CORE_DEVICE_REPLY; UINT32 deviceID = 0; UINT32 resultCode = 0; WINPR_ASSERT(rdpdr); WINPR_ASSERT(s); if (!rdpdr_process_server_header(TRUE, rdpdr->log, s, component, packetid, 8)) return ERROR_INVALID_DATA; Stream_Read_UINT32(s, deviceID); Stream_Read_UINT32(s, resultCode); if (deviceID != SCARD_DEVICE_ID) { CLIENT_RX_LOG(rdpdr->log, WLOG_WARN, "[%s | %s] deviceID mismatch, sent 0x%08" PRIx32 ", changed to 0x%08" PRIx32, rdpdr_component_string(component), rdpdr_packetid_string(packetid), SCARD_DEVICE_ID, deviceID); } else if (resultCode != 0) { CLIENT_RX_LOG(rdpdr->log, WLOG_WARN, "[%s | %s] deviceID 0x%08" PRIx32 " resultCode=0x%08" PRIx32, rdpdr_component_string(component), rdpdr_packetid_string(packetid), deviceID, resultCode); } else CLIENT_RX_LOG(rdpdr->log, WLOG_DEBUG, "[%s | %s] deviceID 0x%08" PRIx32 " resultCode=0x%08" PRIx32 " -> emulated smartcard redirected!", rdpdr_component_string(component), rdpdr_packetid_string(packetid), deviceID, resultCode); return CHANNEL_RC_OK; } #endif static BOOL pf_channel_rdpdr_rewrite_device_list_to(wStream* s, UINT32 fromVersion, UINT32 toVersion) { BOOL rc = FALSE; if (fromVersion == toVersion) return TRUE; const size_t cap = Stream_GetRemainingLength(s); wStream* clone = Stream_New(NULL, cap); if (!clone) goto fail; const size_t pos = Stream_GetPosition(s); Stream_Copy(s, clone, cap); Stream_SealLength(clone); Stream_SetPosition(clone, 0); Stream_SetPosition(s, pos); /* Skip device count */ if (!Stream_SafeSeek(s, 4)) goto fail; UINT32 count = 0; if (Stream_GetRemainingLength(clone) < 4) goto fail; Stream_Read_UINT32(clone, count); for (UINT32 x = 0; x < count; x++) { RdpdrDevice device = { 0 }; const size_t charCount = ARRAYSIZE(device.PreferredDosName); if (Stream_GetRemainingLength(clone) < 20) goto fail; Stream_Read_UINT32(clone, device.DeviceType); /* DeviceType (4 bytes) */ Stream_Read_UINT32(clone, device.DeviceId); /* DeviceId (4 bytes) */ Stream_Read(clone, device.PreferredDosName, charCount); /* PreferredDosName (8 bytes) */ Stream_Read_UINT32(clone, device.DeviceDataLength); /* DeviceDataLength (4 bytes) */ device.DeviceData = Stream_Pointer(clone); if (!Stream_SafeSeek(clone, device.DeviceDataLength)) goto fail; if (!Stream_EnsureRemainingCapacity(s, 20)) goto fail; Stream_Write_UINT32(s, device.DeviceType); Stream_Write_UINT32(s, device.DeviceId); Stream_Write(s, device.PreferredDosName, charCount); if (device.DeviceType == RDPDR_DTYP_FILESYSTEM) { if (toVersion == DRIVE_CAPABILITY_VERSION_01) Stream_Write_UINT32(s, 0); /* No unicode name */ else { const size_t datalen = charCount * sizeof(WCHAR); if (!Stream_EnsureRemainingCapacity(s, datalen + sizeof(UINT32))) goto fail; Stream_Write_UINT32(s, datalen); const SSIZE_T rcw = Stream_Write_UTF16_String_From_UTF8( s, charCount, device.PreferredDosName, charCount - 1, TRUE); if (rcw < 0) goto fail; } } else { Stream_Write_UINT32(s, device.DeviceDataLength); if (!Stream_EnsureRemainingCapacity(s, device.DeviceDataLength)) goto fail; Stream_Write(s, device.DeviceData, device.DeviceDataLength); } } Stream_SealLength(s); rc = TRUE; fail: Stream_Free(clone, TRUE); return rc; } static BOOL pf_channel_rdpdr_rewrite_device_list(pf_channel_client_context* rdpdr, pServerContext* ps, wStream* s, BOOL toServer) { WINPR_ASSERT(rdpdr); WINPR_ASSERT(ps); const size_t pos = Stream_GetPosition(s); UINT16 component = 0; UINT16 packetid = 0; Stream_SetPosition(s, 0); if (!Stream_CheckAndLogRequiredLengthWLog(rdpdr->log, s, 4)) return FALSE; Stream_Read_UINT16(s, component); Stream_Read_UINT16(s, packetid); if ((component != RDPDR_CTYP_CORE) || (packetid != PAKID_CORE_DEVICELIST_ANNOUNCE)) { Stream_SetPosition(s, pos); return TRUE; } const pf_channel_server_context* srv = HashTable_GetItemValue(ps->interceptContextMap, RDPDR_SVC_CHANNEL_NAME); if (!srv) { WLog_Print(rdpdr->log, WLOG_ERROR, "No channel %s in intercep map", RDPDR_SVC_CHANNEL_NAME); return FALSE; } UINT32 from = srv->common.capabilityVersions[CAP_DRIVE_TYPE]; UINT32 to = rdpdr->common.capabilityVersions[CAP_DRIVE_TYPE]; if (toServer) { from = rdpdr->common.capabilityVersions[CAP_DRIVE_TYPE]; to = srv->common.capabilityVersions[CAP_DRIVE_TYPE]; } if (!pf_channel_rdpdr_rewrite_device_list_to(s, from, to)) return FALSE; Stream_SetPosition(s, pos); return TRUE; } static BOOL pf_channel_rdpdr_client_send_to_server(pf_channel_client_context* rdpdr, pServerContext* ps, wStream* s) { WINPR_ASSERT(rdpdr); if (ps) { UINT16 server_channel_id = WTSChannelGetId(ps->context.peer, RDPDR_SVC_CHANNEL_NAME); /* Ignore messages for channels that can not be mapped. * The client might not have enabled support for this specific channel, * so just drop the message. */ if (server_channel_id == 0) return TRUE; if (!pf_channel_rdpdr_rewrite_device_list(rdpdr, ps, s, TRUE)) return FALSE; size_t len = Stream_Length(s); Stream_SetPosition(s, len); rdpdr_dump_send_packet(rdpdr->log, WLOG_TRACE, s, proxy_client_tx); WINPR_ASSERT(ps->context.peer); WINPR_ASSERT(ps->context.peer->SendChannelData); return ps->context.peer->SendChannelData(ps->context.peer, server_channel_id, Stream_Buffer(s), len); } return TRUE; } static BOOL pf_channel_send_client_queue(pClientContext* pc, pf_channel_client_context* rdpdr); #if defined(WITH_PROXY_EMULATE_SMARTCARD) static BOOL rdpdr_process_server_loggedon_request(pServerContext* ps, pClientContext* pc, pf_channel_client_context* rdpdr, wStream* s, UINT16 component, UINT16 packetid) { WINPR_ASSERT(rdpdr); WLog_Print(rdpdr->log, WLOG_DEBUG, "[%s | %s]", rdpdr_component_string(component), rdpdr_packetid_string(packetid)); if (rdpdr_send_emulated_scard_device_remove(pc, rdpdr) != CHANNEL_RC_OK) return FALSE; if (rdpdr_send_emulated_scard_device_list_announce_request(pc, rdpdr) != CHANNEL_RC_OK) return FALSE; return pf_channel_rdpdr_client_send_to_server(rdpdr, ps, s); } static BOOL filter_smartcard_io_requests(pf_channel_client_context* rdpdr, wStream* s, UINT16* pPacketid) { BOOL rc = FALSE; UINT16 component = 0; UINT16 packetid = 0; UINT32 deviceID = 0; size_t pos = 0; WINPR_ASSERT(rdpdr); WINPR_ASSERT(pPacketid); if (!Stream_CheckAndLogRequiredLengthWLog(rdpdr->log, s, 4)) return FALSE; pos = Stream_GetPosition(s); Stream_Read_UINT16(s, component); Stream_Read_UINT16(s, packetid); if (Stream_GetRemainingLength(s) >= 4) Stream_Read_UINT32(s, deviceID); WLog_Print(rdpdr->log, WLOG_DEBUG, "got: [%s | %s]: [0x%08" PRIx32 "]", rdpdr_component_string(component), rdpdr_packetid_string(packetid), deviceID); if (component != RDPDR_CTYP_CORE) goto fail; switch (packetid) { case PAKID_CORE_SERVER_ANNOUNCE: case PAKID_CORE_CLIENTID_CONFIRM: case PAKID_CORE_CLIENT_NAME: case PAKID_CORE_DEVICELIST_ANNOUNCE: case PAKID_CORE_DEVICELIST_REMOVE: case PAKID_CORE_SERVER_CAPABILITY: case PAKID_CORE_CLIENT_CAPABILITY: WLog_Print(rdpdr->log, WLOG_WARN, "Filtering client -> server message [%s | %s]", rdpdr_component_string(component), rdpdr_packetid_string(packetid)); *pPacketid = packetid; break; case PAKID_CORE_USER_LOGGEDON: *pPacketid = packetid; break; case PAKID_CORE_DEVICE_REPLY: case PAKID_CORE_DEVICE_IOREQUEST: if (deviceID != SCARD_DEVICE_ID) goto fail; *pPacketid = packetid; break; default: if (deviceID != SCARD_DEVICE_ID) goto fail; WLog_Print(rdpdr->log, WLOG_WARN, "Got [%s | %s] for deviceID 0x%08" PRIx32 ", TODO: Not handled!", rdpdr_component_string(component), rdpdr_packetid_string(packetid), deviceID); goto fail; } rc = TRUE; fail: Stream_SetPosition(s, pos); return rc; } #endif BOOL pf_channel_send_client_queue(pClientContext* pc, pf_channel_client_context* rdpdr) { UINT16 channelId = 0; WINPR_ASSERT(pc); WINPR_ASSERT(rdpdr); if (rdpdr->state != STATE_CLIENT_CHANNEL_RUNNING) return FALSE; channelId = freerdp_channels_get_id_by_name(pc->context.instance, RDPDR_SVC_CHANNEL_NAME); if ((channelId == 0) || (channelId == UINT16_MAX)) return TRUE; Queue_Lock(rdpdr->queue); while (Queue_Count(rdpdr->queue) > 0) { wStream* s = Queue_Dequeue(rdpdr->queue); if (!s) continue; size_t len = Stream_Length(s); Stream_SetPosition(s, len); rdpdr_dump_send_packet(rdpdr->log, WLOG_TRACE, s, proxy_server_tx " (queue) "); WINPR_ASSERT(pc->context.instance->SendChannelData); if (!pc->context.instance->SendChannelData(pc->context.instance, channelId, Stream_Buffer(s), len)) { CLIENT_TX_LOG(rdpdr->log, WLOG_ERROR, "xxxxxx TODO: Failed to send data!"); } Stream_Free(s, TRUE); } Queue_Unlock(rdpdr->queue); return TRUE; } static BOOL rdpdr_handle_server_announce_request(pClientContext* pc, pf_channel_client_context* rdpdr, wStream* s) { WINPR_ASSERT(pc); WINPR_ASSERT(rdpdr); WINPR_ASSERT(s); if (rdpdr_process_server_announce_request(rdpdr, s) != CHANNEL_RC_OK) return FALSE; if (rdpdr_send_client_announce_reply(pc, rdpdr) != CHANNEL_RC_OK) return FALSE; if (rdpdr_send_client_name_request(pc, rdpdr) != CHANNEL_RC_OK) return FALSE; rdpdr->state = STATE_CLIENT_EXPECT_SERVER_CORE_CAPABILITY_REQUEST; return TRUE; } BOOL pf_channel_rdpdr_client_handle(pClientContext* pc, UINT16 channelId, const char* channel_name, const BYTE* xdata, size_t xsize, UINT32 flags, size_t totalSize) { pf_channel_client_context* rdpdr = NULL; pServerContext* ps = NULL; wStream* s = NULL; #if defined(WITH_PROXY_EMULATE_SMARTCARD) UINT16 packetid = 0; #endif WINPR_ASSERT(pc); WINPR_ASSERT(pc->pdata); WINPR_ASSERT(pc->interceptContextMap); WINPR_ASSERT(channel_name); WINPR_ASSERT(xdata); ps = pc->pdata->ps; rdpdr = HashTable_GetItemValue(pc->interceptContextMap, channel_name); if (!rdpdr) { CLIENT_RX_LOG(WLog_Get(RTAG), WLOG_ERROR, "Channel %s [0x%04" PRIx16 "] missing context in interceptContextMap", channel_name, channelId); return FALSE; } s = rdpdr->common.buffer; if (flags & CHANNEL_FLAG_FIRST) Stream_SetPosition(s, 0); if (!Stream_EnsureRemainingCapacity(s, xsize)) { CLIENT_RX_LOG(rdpdr->log, WLOG_ERROR, "Channel %s [0x%04" PRIx16 "] not enough memory [need %" PRIuz "]", channel_name, channelId, xsize); return FALSE; } Stream_Write(s, xdata, xsize); if ((flags & CHANNEL_FLAG_LAST) == 0) return TRUE; Stream_SealLength(s); Stream_SetPosition(s, 0); if (Stream_Length(s) != totalSize) { CLIENT_RX_LOG(rdpdr->log, WLOG_WARN, "Received invalid %s channel data (server -> proxy), expected %" PRIuz "bytes, got %" PRIuz, channel_name, totalSize, Stream_Length(s)); return FALSE; } rdpdr_dump_received_packet(rdpdr->log, WLOG_TRACE, s, proxy_server_rx); switch (rdpdr->state) { case STATE_CLIENT_EXPECT_SERVER_ANNOUNCE_REQUEST: if (!rdpdr_handle_server_announce_request(pc, rdpdr, s)) return FALSE; break; case STATE_CLIENT_EXPECT_SERVER_CORE_CAPABILITY_REQUEST: if (!rdpdr_process_server_capability_request_or_clientid_confirm(rdpdr, s)) return FALSE; rdpdr->state = STATE_CLIENT_EXPECT_SERVER_CLIENT_ID_CONFIRM; break; case STATE_CLIENT_EXPECT_SERVER_CLIENT_ID_CONFIRM: if (!rdpdr_process_server_capability_request_or_clientid_confirm(rdpdr, s)) return FALSE; if (rdpdr_send_client_capability_response(pc, rdpdr) != CHANNEL_RC_OK) return FALSE; #if defined(WITH_PROXY_EMULATE_SMARTCARD) if (pf_channel_smartcard_client_emulate(pc)) { if (rdpdr_send_emulated_scard_device_list_announce_request(pc, rdpdr) != CHANNEL_RC_OK) return FALSE; rdpdr->state = STATE_CLIENT_CHANNEL_RUNNING; } else #endif { rdpdr->state = STATE_CLIENT_CHANNEL_RUNNING; pf_channel_send_client_queue(pc, rdpdr); } break; case STATE_CLIENT_CHANNEL_RUNNING: #if defined(WITH_PROXY_EMULATE_SMARTCARD) if (!pf_channel_smartcard_client_emulate(pc) || !filter_smartcard_io_requests(rdpdr, s, &packetid)) return pf_channel_rdpdr_client_send_to_server(rdpdr, ps, s); else { switch (packetid) { case PAKID_CORE_USER_LOGGEDON: return rdpdr_process_server_loggedon_request(ps, pc, rdpdr, s, RDPDR_CTYP_CORE, packetid); case PAKID_CORE_DEVICE_IOREQUEST: { wStream* out = rdpdr_client_get_send_buffer( rdpdr, RDPDR_CTYP_CORE, PAKID_CORE_DEVICE_IOCOMPLETION, 0); WINPR_ASSERT(out); if (!rdpdr_process_server_header(FALSE, rdpdr->log, s, RDPDR_CTYP_CORE, PAKID_CORE_DEVICE_IOREQUEST, 20)) return FALSE; if (!pf_channel_smartcard_client_handle(rdpdr->log, pc, s, out, rdpdr_client_send)) return FALSE; } break; case PAKID_CORE_SERVER_ANNOUNCE: pf_channel_rdpdr_client_reset(pc); if (!rdpdr_handle_server_announce_request(pc, rdpdr, s)) return FALSE; break; case PAKID_CORE_SERVER_CAPABILITY: rdpdr->state = STATE_CLIENT_EXPECT_SERVER_CORE_CAPABILITY_REQUEST; rdpdr->flags = 0; return pf_channel_rdpdr_client_handle(pc, channelId, channel_name, xdata, xsize, flags, totalSize); case PAKID_CORE_DEVICE_REPLY: break; default: CLIENT_RX_LOG( rdpdr->log, WLOG_ERROR, "Channel %s [0x%04" PRIx16 "] we´ve reached an impossible state %s! [%s] aliens invaded!", channel_name, channelId, rdpdr_client_state_to_string(rdpdr->state), rdpdr_packetid_string(packetid)); return FALSE; } } break; #else return pf_channel_rdpdr_client_send_to_server(rdpdr, ps, s); #endif default: CLIENT_RX_LOG(rdpdr->log, WLOG_ERROR, "Channel %s [0x%04" PRIx16 "] we´ve reached an impossible state %s! aliens invaded!", channel_name, channelId, rdpdr_client_state_to_string(rdpdr->state)); return FALSE; } return TRUE; } static void pf_channel_rdpdr_common_context_free(pf_channel_common_context* common) { if (!common) return; free(common->computerName.v); Stream_Free(common->s, TRUE); Stream_Free(common->buffer, TRUE); } static void pf_channel_rdpdr_client_context_free(InterceptContextMapEntry* base) { pf_channel_client_context* entry = (pf_channel_client_context*)base; if (!entry) return; pf_channel_rdpdr_common_context_free(&entry->common); Queue_Free(entry->queue); free(entry); } static BOOL pf_channel_rdpdr_common_context_new(pf_channel_common_context* common, void (*fkt)(InterceptContextMapEntry*)) { if (!common) return FALSE; common->base.free = fkt; common->s = Stream_New(NULL, 1024); if (!common->s) return FALSE; common->buffer = Stream_New(NULL, 1024); if (!common->buffer) return FALSE; common->computerNameUnicode = 1; common->computerName.v = NULL; common->versionMajor = RDPDR_VERSION_MAJOR; common->versionMinor = RDPDR_VERSION_MINOR_RDP10X; common->clientID = SCARD_DEVICE_ID; const UINT32 versions[] = { 0, GENERAL_CAPABILITY_VERSION_02, PRINT_CAPABILITY_VERSION_01, PORT_CAPABILITY_VERSION_01, DRIVE_CAPABILITY_VERSION_02, SMARTCARD_CAPABILITY_VERSION_01 }; memcpy(common->capabilityVersions, versions, sizeof(common->capabilityVersions)); return TRUE; } static BOOL pf_channel_rdpdr_client_pass_message(pServerContext* ps, pClientContext* pc, UINT16 channelId, const char* channel_name, wStream* s) { pf_channel_client_context* rdpdr = NULL; WINPR_ASSERT(ps); WINPR_ASSERT(pc); rdpdr = HashTable_GetItemValue(pc->interceptContextMap, channel_name); if (!rdpdr) return TRUE; /* Ignore data for channels not available on proxy -> server connection */ WINPR_ASSERT(rdpdr->queue); if (!pf_channel_rdpdr_rewrite_device_list(rdpdr, ps, s, FALSE)) return FALSE; if (!Queue_Enqueue(rdpdr->queue, s)) return FALSE; pf_channel_send_client_queue(pc, rdpdr); return TRUE; } #if defined(WITH_PROXY_EMULATE_SMARTCARD) static BOOL filter_smartcard_device_list_remove(pf_channel_server_context* rdpdr, wStream* s) { size_t pos = 0; UINT32 count = 0; WINPR_ASSERT(rdpdr); if (!Stream_CheckAndLogRequiredLengthWLog(rdpdr->log, s, sizeof(UINT32))) return TRUE; pos = Stream_GetPosition(s); Stream_Read_UINT32(s, count); if (count == 0) return TRUE; if (!Stream_CheckAndLogRequiredLengthOfSizeWLog(rdpdr->log, s, count, sizeof(UINT32))) return TRUE; for (UINT32 x = 0; x < count; x++) { UINT32 deviceID = 0; BYTE* dst = Stream_Pointer(s); Stream_Read_UINT32(s, deviceID); if (deviceID == SCARD_DEVICE_ID) { ArrayList_Remove(rdpdr->blockedDevices, (void*)(size_t)deviceID); /* This is the only device, filter it! */ if (count == 1) return TRUE; /* Remove this device from the list */ memmove(dst, Stream_ConstPointer(s), (count - x - 1) * sizeof(UINT32)); count--; Stream_SetPosition(s, pos); Stream_Write_UINT32(s, count); return FALSE; } } return FALSE; } static BOOL filter_smartcard_device_io_request(pf_channel_server_context* rdpdr, wStream* s) { UINT32 DeviceID = 0; WINPR_ASSERT(rdpdr); WINPR_ASSERT(s); Stream_Read_UINT32(s, DeviceID); return ArrayList_Contains(rdpdr->blockedDevices, (void*)(size_t)DeviceID); } static BOOL filter_smartcard_device_list_announce(pf_channel_server_context* rdpdr, wStream* s) { UINT32 count = 0; WINPR_ASSERT(rdpdr); if (!Stream_CheckAndLogRequiredLengthWLog(rdpdr->log, s, sizeof(UINT32))) return TRUE; const size_t pos = Stream_GetPosition(s); Stream_Read_UINT32(s, count); if (count == 0) return TRUE; for (UINT32 x = 0; x < count; x++) { UINT32 DeviceType = 0; UINT32 DeviceId = 0; char PreferredDosName[8]; UINT32 DeviceDataLength = 0; BYTE* dst = Stream_Pointer(s); if (!Stream_CheckAndLogRequiredLengthWLog(rdpdr->log, s, 20)) return TRUE; Stream_Read_UINT32(s, DeviceType); Stream_Read_UINT32(s, DeviceId); Stream_Read(s, PreferredDosName, ARRAYSIZE(PreferredDosName)); Stream_Read_UINT32(s, DeviceDataLength); if (!Stream_SafeSeek(s, DeviceDataLength)) return TRUE; if (DeviceType == RDPDR_DTYP_SMARTCARD) { ArrayList_Append(rdpdr->blockedDevices, (void*)(size_t)DeviceId); if (count == 1) return TRUE; WLog_Print(rdpdr->log, WLOG_INFO, "Filtering smartcard device 0x%08" PRIx32 "", DeviceId); memmove(dst, Stream_ConstPointer(s), Stream_GetRemainingLength(s)); Stream_SetPosition(s, pos); Stream_Write_UINT32(s, count - 1); return FALSE; } } return FALSE; } static BOOL filter_smartcard_device_list_announce_request(pf_channel_server_context* rdpdr, wStream* s) { BOOL rc = TRUE; size_t pos = 0; UINT16 component = 0; UINT16 packetid = 0; WINPR_ASSERT(rdpdr); if (!Stream_CheckAndLogRequiredLengthWLog(rdpdr->log, s, 8)) return FALSE; pos = Stream_GetPosition(s); Stream_Read_UINT16(s, component); Stream_Read_UINT16(s, packetid); if (component != RDPDR_CTYP_CORE) goto fail; switch (packetid) { case PAKID_CORE_DEVICELIST_ANNOUNCE: if (filter_smartcard_device_list_announce(rdpdr, s)) goto fail; break; case PAKID_CORE_DEVICELIST_REMOVE: if (filter_smartcard_device_list_remove(rdpdr, s)) goto fail; break; case PAKID_CORE_DEVICE_IOREQUEST: if (filter_smartcard_device_io_request(rdpdr, s)) goto fail; break; case PAKID_CORE_SERVER_ANNOUNCE: case PAKID_CORE_CLIENTID_CONFIRM: case PAKID_CORE_CLIENT_NAME: case PAKID_CORE_DEVICE_REPLY: case PAKID_CORE_SERVER_CAPABILITY: case PAKID_CORE_CLIENT_CAPABILITY: case PAKID_CORE_USER_LOGGEDON: WLog_Print(rdpdr->log, WLOG_WARN, "Filtering client -> server message [%s | %s]", rdpdr_component_string(component), rdpdr_packetid_string(packetid)); goto fail; default: break; } rc = FALSE; fail: Stream_SetPosition(s, pos); return rc; } #endif static void* stream_copy(const void* obj) { const wStream* src = obj; wStream* dst = Stream_New(NULL, Stream_Capacity(src)); if (!dst) return NULL; memcpy(Stream_Buffer(dst), Stream_ConstBuffer(src), Stream_Capacity(dst)); Stream_SetLength(dst, Stream_Length(src)); Stream_SetPosition(dst, Stream_GetPosition(src)); return dst; } static void stream_free(void* obj) { wStream* s = obj; Stream_Free(s, TRUE); } static const char* pf_channel_rdpdr_client_context(void* arg) { pClientContext* pc = arg; if (!pc) return "pc=null"; if (!pc->pdata) return "pc->pdata=null"; return pc->pdata->session_id; } BOOL pf_channel_rdpdr_client_new(pClientContext* pc) { wObject* obj = NULL; pf_channel_client_context* rdpdr = NULL; WINPR_ASSERT(pc); WINPR_ASSERT(pc->interceptContextMap); rdpdr = calloc(1, sizeof(pf_channel_client_context)); if (!rdpdr) return FALSE; rdpdr->log = WLog_Get(RTAG); WINPR_ASSERT(rdpdr->log); WLog_SetContext(rdpdr->log, pf_channel_rdpdr_client_context, pc); if (!pf_channel_rdpdr_common_context_new(&rdpdr->common, pf_channel_rdpdr_client_context_free)) goto fail; rdpdr->maxMajorVersion = RDPDR_VERSION_MAJOR; rdpdr->maxMinorVersion = RDPDR_VERSION_MINOR_RDP10X; rdpdr->state = STATE_CLIENT_EXPECT_SERVER_ANNOUNCE_REQUEST; rdpdr->queue = Queue_New(TRUE, 0, 0); if (!rdpdr->queue) goto fail; obj = Queue_Object(rdpdr->queue); WINPR_ASSERT(obj); obj->fnObjectNew = stream_copy; obj->fnObjectFree = stream_free; if (!HashTable_Insert(pc->interceptContextMap, RDPDR_SVC_CHANNEL_NAME, rdpdr)) goto fail; // NOLINTNEXTLINE(clang-analyzer-unix.Malloc): HashTable_Insert takes ownership of rdpdr return TRUE; fail: pf_channel_rdpdr_client_context_free(&rdpdr->common.base); return FALSE; } void pf_channel_rdpdr_client_free(pClientContext* pc) { WINPR_ASSERT(pc); WINPR_ASSERT(pc->interceptContextMap); HashTable_Remove(pc->interceptContextMap, RDPDR_SVC_CHANNEL_NAME); } static void pf_channel_rdpdr_server_context_free(InterceptContextMapEntry* base) { pf_channel_server_context* entry = (pf_channel_server_context*)base; if (!entry) return; (void)WTSVirtualChannelClose(entry->handle); pf_channel_rdpdr_common_context_free(&entry->common); ArrayList_Free(entry->blockedDevices); free(entry); } static const char* pf_channel_rdpdr_server_context(void* arg) { pServerContext* ps = arg; if (!ps) return "ps=null"; if (!ps->pdata) return "ps->pdata=null"; return ps->pdata->session_id; } BOOL pf_channel_rdpdr_server_new(pServerContext* ps) { pf_channel_server_context* rdpdr = NULL; PULONG pSessionId = NULL; DWORD BytesReturned = 0; WINPR_ASSERT(ps); WINPR_ASSERT(ps->interceptContextMap); rdpdr = calloc(1, sizeof(pf_channel_server_context)); if (!rdpdr) return FALSE; rdpdr->log = WLog_Get(RTAG); WINPR_ASSERT(rdpdr->log); WLog_SetContext(rdpdr->log, pf_channel_rdpdr_server_context, ps); if (!pf_channel_rdpdr_common_context_new(&rdpdr->common, pf_channel_rdpdr_server_context_free)) goto fail; rdpdr->state = STATE_SERVER_INITIAL; rdpdr->blockedDevices = ArrayList_New(FALSE); if (!rdpdr->blockedDevices) goto fail; rdpdr->SessionId = WTS_CURRENT_SESSION; if (WTSQuerySessionInformationA(ps->vcm, WTS_CURRENT_SESSION, WTSSessionId, (LPSTR*)&pSessionId, &BytesReturned)) { rdpdr->SessionId = (DWORD)*pSessionId; WTSFreeMemory(pSessionId); } rdpdr->handle = WTSVirtualChannelOpenEx(rdpdr->SessionId, RDPDR_SVC_CHANNEL_NAME, 0); if (rdpdr->handle == 0) goto fail; if (!HashTable_Insert(ps->interceptContextMap, RDPDR_SVC_CHANNEL_NAME, rdpdr)) goto fail; // NOLINTNEXTLINE(clang-analyzer-unix.Malloc): HashTable_Insert takes ownership of rdpdr return TRUE; fail: pf_channel_rdpdr_server_context_free(&rdpdr->common.base); return FALSE; } void pf_channel_rdpdr_server_free(pServerContext* ps) { WINPR_ASSERT(ps); WINPR_ASSERT(ps->interceptContextMap); HashTable_Remove(ps->interceptContextMap, RDPDR_SVC_CHANNEL_NAME); } static pf_channel_server_context* get_channel(pServerContext* ps, BOOL send) { pf_channel_server_context* rdpdr = NULL; WINPR_ASSERT(ps); WINPR_ASSERT(ps->interceptContextMap); rdpdr = HashTable_GetItemValue(ps->interceptContextMap, RDPDR_SVC_CHANNEL_NAME); if (!rdpdr) { SERVER_RXTX_LOG(send, WLog_Get(RTAG), WLOG_ERROR, "Channel %s missing context in interceptContextMap", RDPDR_SVC_CHANNEL_NAME); return NULL; } return rdpdr; } BOOL pf_channel_rdpdr_server_handle(pServerContext* ps, UINT16 channelId, const char* channel_name, const BYTE* xdata, size_t xsize, UINT32 flags, size_t totalSize) { wStream* s = NULL; pClientContext* pc = NULL; pf_channel_server_context* rdpdr = get_channel(ps, FALSE); if (!rdpdr) return FALSE; WINPR_ASSERT(ps->pdata); pc = ps->pdata->pc; s = rdpdr->common.buffer; if (flags & CHANNEL_FLAG_FIRST) Stream_SetPosition(s, 0); if (!Stream_EnsureRemainingCapacity(s, xsize)) return FALSE; Stream_Write(s, xdata, xsize); if ((flags & CHANNEL_FLAG_LAST) == 0) return TRUE; Stream_SealLength(s); Stream_SetPosition(s, 0); if (Stream_Length(s) != totalSize) { SERVER_RX_LOG(rdpdr->log, WLOG_WARN, "Received invalid %s channel data (client -> proxy), expected %" PRIuz "bytes, got %" PRIuz, channel_name, totalSize, Stream_Length(s)); return FALSE; } rdpdr_dump_received_packet(rdpdr->log, WLOG_TRACE, s, proxy_client_rx); switch (rdpdr->state) { case STATE_SERVER_EXPECT_CLIENT_ANNOUNCE_REPLY: if (rdpdr_process_client_announce_reply(rdpdr, s) != CHANNEL_RC_OK) return FALSE; rdpdr->state = STATE_SERVER_EXPECT_CLIENT_NAME_REQUEST; break; case STATE_SERVER_EXPECT_CLIENT_NAME_REQUEST: if (rdpdr_process_client_name_request(rdpdr, s, pc) != CHANNEL_RC_OK) return FALSE; if (rdpdr_send_server_capability_request(rdpdr) != CHANNEL_RC_OK) return FALSE; if (rdpdr_send_server_clientid_confirm(rdpdr) != CHANNEL_RC_OK) return FALSE; rdpdr->state = STATE_SERVER_EXPECT_EXPECT_CLIENT_CAPABILITY_RESPONE; break; case STATE_SERVER_EXPECT_EXPECT_CLIENT_CAPABILITY_RESPONE: if (rdpdr_process_client_capability_response(rdpdr, s) != CHANNEL_RC_OK) return FALSE; rdpdr->state = STATE_SERVER_CHANNEL_RUNNING; break; case STATE_SERVER_CHANNEL_RUNNING: #if defined(WITH_PROXY_EMULATE_SMARTCARD) if (!pf_channel_smartcard_client_emulate(pc) || !filter_smartcard_device_list_announce_request(rdpdr, s)) { if (!pf_channel_rdpdr_client_pass_message(ps, pc, channelId, channel_name, s)) return FALSE; } else return pf_channel_smartcard_server_handle(ps, s); #else if (!pf_channel_rdpdr_client_pass_message(ps, pc, channelId, channel_name, s)) return FALSE; #endif break; default: case STATE_SERVER_INITIAL: SERVER_RX_LOG(rdpdr->log, WLOG_WARN, "Invalid state %s", rdpdr_server_state_to_string(rdpdr->state)); return FALSE; } return TRUE; } BOOL pf_channel_rdpdr_server_announce(pServerContext* ps) { pf_channel_server_context* rdpdr = get_channel(ps, TRUE); if (!rdpdr) return FALSE; WINPR_ASSERT(rdpdr->state == STATE_SERVER_INITIAL); if (rdpdr_server_send_announce_request(rdpdr) != CHANNEL_RC_OK) return FALSE; rdpdr->state = STATE_SERVER_EXPECT_CLIENT_ANNOUNCE_REPLY; return TRUE; } BOOL pf_channel_rdpdr_client_reset(pClientContext* pc) { pf_channel_client_context* rdpdr = NULL; WINPR_ASSERT(pc); WINPR_ASSERT(pc->pdata); WINPR_ASSERT(pc->interceptContextMap); rdpdr = HashTable_GetItemValue(pc->interceptContextMap, RDPDR_SVC_CHANNEL_NAME); if (!rdpdr) return TRUE; Queue_Clear(rdpdr->queue); rdpdr->flags = 0; rdpdr->state = STATE_CLIENT_EXPECT_SERVER_ANNOUNCE_REQUEST; return TRUE; } static PfChannelResult pf_rdpdr_back_data(proxyData* pdata, const pServerStaticChannelContext* channel, const BYTE* xdata, size_t xsize, UINT32 flags, size_t totalSize) { WINPR_ASSERT(pdata); WINPR_ASSERT(channel); if (!pf_channel_rdpdr_client_handle(pdata->pc, channel->back_channel_id, channel->channel_name, xdata, xsize, flags, totalSize)) return PF_CHANNEL_RESULT_ERROR; #if defined(WITH_PROXY_EMULATE_SMARTCARD) if (pf_channel_smartcard_client_emulate(pdata->pc)) return PF_CHANNEL_RESULT_DROP; #endif return PF_CHANNEL_RESULT_DROP; } static PfChannelResult pf_rdpdr_front_data(proxyData* pdata, const pServerStaticChannelContext* channel, const BYTE* xdata, size_t xsize, UINT32 flags, size_t totalSize) { WINPR_ASSERT(pdata); WINPR_ASSERT(channel); if (!pf_channel_rdpdr_server_handle(pdata->ps, channel->front_channel_id, channel->channel_name, xdata, xsize, flags, totalSize)) return PF_CHANNEL_RESULT_ERROR; #if defined(WITH_PROXY_EMULATE_SMARTCARD) if (pf_channel_smartcard_client_emulate(pdata->pc)) return PF_CHANNEL_RESULT_DROP; #endif return PF_CHANNEL_RESULT_DROP; } BOOL pf_channel_setup_rdpdr(pServerContext* ps, pServerStaticChannelContext* channel) { channel->onBackData = pf_rdpdr_back_data; channel->onFrontData = pf_rdpdr_front_data; if (!pf_channel_rdpdr_server_new(ps)) return FALSE; if (!pf_channel_rdpdr_server_announce(ps)) return FALSE; return TRUE; }