/** * FreeRDP: A Remote Desktop Protocol Implementation * FreeRDP Proxy Server * * Copyright 2019 Mati Shabtay * Copyright 2019 Kobi Mizrachi * Copyright 2019 Idan Freiberg * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include #include #include #include "pf_channels.h" #include "pf_gdi.h" #include "pf_graphics.h" #include "pf_client.h" #include "pf_context.h" #include "pf_update.h" #include "pf_log.h" #include "pf_modules.h" #include "pf_input.h" #define TAG PROXY_TAG("client") static pReceiveChannelData client_receive_channel_data_original = NULL; static BOOL proxy_server_reactivate(rdpContext* ps, const rdpContext* pc) { if (!pf_context_copy_settings(ps->settings, pc->settings)) return FALSE; /* * DesktopResize causes internal function rdp_server_reactivate to be called, * which causes the reactivation. */ if (!ps->update->DesktopResize(ps)) return FALSE; return TRUE; } static void pf_client_on_error_info(void* ctx, ErrorInfoEventArgs* e) { pClientContext* pc = (pClientContext*)ctx; pServerContext* ps = pc->pdata->ps; if (e->code == ERRINFO_NONE) return; LOG_WARN(TAG, pc, "received ErrorInfo PDU. code=0x%08" PRIu32 ", message: %s", e->code, freerdp_get_error_info_string(e->code)); /* forward error back to client */ freerdp_set_error_info(ps->context.rdp, e->code); freerdp_send_error_info(ps->context.rdp); } static void pf_client_on_activated(void* ctx, ActivatedEventArgs* e) { pClientContext* pc = (pClientContext*)ctx; pServerContext* ps = pc->pdata->ps; freerdp_peer* peer = ps->context.peer; LOG_INFO(TAG, pc, "client activated, registering server input callbacks"); /* Register server input/update callbacks only after proxy client is fully activated */ pf_server_register_input_callbacks(peer->input); pf_server_register_update_callbacks(peer->update); } static BOOL pf_client_load_rdpsnd(pClientContext* pc) { rdpContext* context = (rdpContext*)pc; pServerContext* ps = pc->pdata->ps; proxyConfig* config = pc->pdata->config; /* * if AudioOutput is enabled in proxy and client connected with rdpsnd, use proxy as rdpsnd * backend. Otherwise, use sys:fake. */ if (!freerdp_static_channel_collection_find(context->settings, "rdpsnd")) { char* params[2]; params[0] = "rdpsnd"; if (config->AudioOutput && WTSVirtualChannelManagerIsChannelJoined(ps->vcm, "rdpsnd")) params[1] = "sys:proxy"; else params[1] = "sys:fake"; if (!freerdp_client_add_static_channel(context->settings, 2, (char**)params)) return FALSE; } return TRUE; } static BOOL pf_client_passthrough_channels_init(pClientContext* pc) { pServerContext* ps = pc->pdata->ps; rdpSettings* settings = pc->context.settings; proxyConfig* config = pc->pdata->config; size_t i; if (settings->ChannelCount + config->PassthroughCount >= settings->ChannelDefArraySize) { LOG_ERR(TAG, pc, "too many channels"); return FALSE; } for (i = 0; i < config->PassthroughCount; i++) { const char* channel_name = config->Passthrough[i]; CHANNEL_DEF channel = { 0 }; /* only connect connect this channel if already joined in peer connection */ if (!WTSVirtualChannelManagerIsChannelJoined(ps->vcm, channel_name)) { LOG_INFO(TAG, ps, "client did not connected with channel %s, skipping passthrough", channel_name); continue; } channel.options = CHANNEL_OPTION_INITIALIZED; /* TODO: Export to config. */ strncpy(channel.name, channel_name, CHANNEL_NAME_LEN); settings->ChannelDefArray[settings->ChannelCount++] = channel; } return TRUE; } static BOOL pf_client_use_peer_load_balance_info(pClientContext* pc) { pServerContext* ps = pc->pdata->ps; rdpSettings* settings = pc->context.settings; DWORD lb_info_len; const char* lb_info = freerdp_nego_get_routing_token(&ps->context, &lb_info_len); if (!lb_info) return TRUE; free(settings->LoadBalanceInfo); settings->LoadBalanceInfoLength = lb_info_len; settings->LoadBalanceInfo = malloc(settings->LoadBalanceInfoLength); if (!settings->LoadBalanceInfo) return FALSE; CopyMemory(settings->LoadBalanceInfo, lb_info, settings->LoadBalanceInfoLength); return TRUE; } static BOOL pf_client_pre_connect(freerdp* instance) { pClientContext* pc = (pClientContext*)instance->context; pServerContext* ps = pc->pdata->ps; proxyConfig* config = ps->pdata->config; rdpSettings* settings = instance->settings; /* * as the client's settings are copied from the server's, GlyphSupportLevel might not be * GLYPH_SUPPORT_NONE. the proxy currently do not support GDI & GLYPH_SUPPORT_CACHE, so * GlyphCacheSupport must be explicitly set to GLYPH_SUPPORT_NONE. * * Also, OrderSupport need to be zeroed, because it is currently not supported. */ settings->GlyphSupportLevel = GLYPH_SUPPORT_NONE; ZeroMemory(settings->OrderSupport, 32); settings->SupportDynamicChannels = TRUE; /* Multimon */ settings->UseMultimon = TRUE; /* Sound */ settings->AudioPlayback = FALSE; settings->DeviceRedirection = TRUE; /* Display control */ settings->SupportDisplayControl = config->DisplayControl; settings->DynamicResolutionUpdate = config->DisplayControl; settings->AutoReconnectionEnabled = TRUE; /** * Register the channel listeners. * They are required to set up / tear down channels if they are loaded. */ PubSub_SubscribeChannelConnected(instance->context->pubSub, pf_channels_on_client_channel_connect); PubSub_SubscribeChannelDisconnected(instance->context->pubSub, pf_channels_on_client_channel_disconnect); PubSub_SubscribeErrorInfo(instance->context->pubSub, pf_client_on_error_info); PubSub_SubscribeActivated(instance->context->pubSub, pf_client_on_activated); /** * Load all required plugins / channels / libraries specified by current * settings. */ LOG_INFO(TAG, pc, "Loading addins"); if (!config->UseLoadBalanceInfo) { /* if target is static (i.e fetched from config). make sure to use peer's load-balance info, * in order to support broker redirection. */ if (!pf_client_use_peer_load_balance_info(pc)) return FALSE; } if (!pf_client_passthrough_channels_init(pc)) return FALSE; if (!pf_client_load_rdpsnd(pc)) { LOG_ERR(TAG, pc, "Failed to load rdpsnd client"); return FALSE; } if (!freerdp_client_load_addins(instance->context->channels, instance->settings)) { LOG_ERR(TAG, pc, "Failed to load addins"); return FALSE; } return TRUE; } static BOOL pf_client_receive_channel_data_hook(freerdp* instance, UINT16 channelId, const BYTE* data, size_t size, UINT32 flags, size_t totalSize) { pClientContext* pc = (pClientContext*)instance->context; pServerContext* ps = pc->pdata->ps; proxyData* pdata = ps->pdata; proxyConfig* config = pdata->config; size_t i; const char* channel_name = freerdp_channels_get_name_by_id(instance, channelId); for (i = 0; i < config->PassthroughCount; i++) { if (strncmp(channel_name, config->Passthrough[i], CHANNEL_NAME_LEN) == 0) { proxyChannelDataEventInfo ev; UINT64 server_channel_id; ev.channel_id = channelId; ev.channel_name = channel_name; ev.data = data; ev.data_len = size; if (!pf_modules_run_filter(FILTER_TYPE_CLIENT_PASSTHROUGH_CHANNEL_DATA, pdata, &ev)) return FALSE; server_channel_id = (UINT64)HashTable_GetItemValue(ps->vc_ids, (void*)channel_name); return ps->context.peer->SendChannelData(ps->context.peer, (UINT16)server_channel_id, data, size); } } return client_receive_channel_data_original(instance, channelId, data, size, flags, totalSize); } static BOOL pf_client_on_server_heartbeat(freerdp* instance, BYTE period, BYTE count1, BYTE count2) { pClientContext* pc = (pClientContext*)instance->context; pServerContext* ps = pc->pdata->ps; return freerdp_heartbeat_send_heartbeat_pdu(ps->context.peer, period, count1, count2); } /** * Called after a RDP connection was successfully established. * Settings might have changed during negotiation of client / server feature * support. * * Set up local framebuffers and painting callbacks. * If required, register pointer callbacks to change the local mouse cursor * when hovering over the RDP window */ static BOOL pf_client_post_connect(freerdp* instance) { rdpContext* context; rdpSettings* settings; rdpUpdate* update; rdpContext* ps; pClientContext* pc; proxyConfig* config; context = instance->context; settings = instance->settings; update = instance->update; pc = (pClientContext*)context; ps = (rdpContext*)pc->pdata->ps; config = pc->pdata->config; if (!pf_modules_run_hook(HOOK_TYPE_CLIENT_POST_CONNECT, pc->pdata)) return FALSE; if (!gdi_init(instance, PIXEL_FORMAT_BGRA32)) return FALSE; if (!pf_register_pointer(context->graphics)) return FALSE; if (!settings->SoftwareGdi) { if (!pf_register_graphics(context->graphics)) { LOG_ERR(TAG, pc, "failed to register graphics"); return FALSE; } pf_gdi_register_update_callbacks(update); brush_cache_register_callbacks(update); glyph_cache_register_callbacks(update); bitmap_cache_register_callbacks(update); offscreen_cache_register_callbacks(update); palette_cache_register_callbacks(update); } pf_client_register_update_callbacks(update); /* virtual channels receive data hook */ client_receive_channel_data_original = instance->ReceiveChannelData; instance->ReceiveChannelData = pf_client_receive_channel_data_hook; /* populate channel name -> channel ids map */ { size_t i; for (i = 0; i < config->PassthroughCount; i++) { char* channel_name = config->Passthrough[i]; UINT64 channel_id = (UINT64)freerdp_channels_get_id_by_name(instance, channel_name); HashTable_Add(pc->vc_ids, (void*)channel_name, (void*)channel_id); } } instance->heartbeat->ServerHeartbeat = pf_client_on_server_heartbeat; /* * after the connection fully established and settings were negotiated with target server, * send a reactivation sequence to the client with the negotiated settings. This way, * settings are synchorinized between proxy's peer and and remote target. */ return proxy_server_reactivate(ps, context); } /* This function is called whether a session ends by failure or success. * Clean up everything allocated by pre_connect and post_connect. */ static void pf_client_post_disconnect(freerdp* instance) { pClientContext* context; proxyData* pdata; if (!instance) return; if (!instance->context) return; context = (pClientContext*)instance->context; pdata = context->pdata; PubSub_UnsubscribeChannelConnected(instance->context->pubSub, pf_channels_on_client_channel_connect); PubSub_UnsubscribeChannelDisconnected(instance->context->pubSub, pf_channels_on_client_channel_disconnect); PubSub_UnsubscribeErrorInfo(instance->context->pubSub, pf_client_on_error_info); gdi_free(instance); /* Only close the connection if NLA fallback process is done */ if (!context->allow_next_conn_failure) proxy_data_abort_connect(pdata); } /* * pf_client_should_retry_without_nla: * * returns TRUE if in case of connection failure, the client should try again without NLA. * Otherwise, returns FALSE. */ static BOOL pf_client_should_retry_without_nla(pClientContext* pc) { rdpSettings* settings = pc->context.settings; proxyConfig* config = pc->pdata->config; if (!config->ClientAllowFallbackToTls || !settings->NlaSecurity) return FALSE; return config->ClientTlsSecurity || config->ClientRdpSecurity; } static void pf_client_set_security_settings(pClientContext* pc) { rdpSettings* settings = pc->context.settings; proxyConfig* config = pc->pdata->config; settings->RdpSecurity = config->ClientRdpSecurity; settings->TlsSecurity = config->ClientTlsSecurity; settings->NlaSecurity = FALSE; if (!config->ClientNlaSecurity) return; if (!settings->Username || !settings->Password) return; settings->NlaSecurity = TRUE; } static BOOL pf_client_connect_without_nla(pClientContext* pc) { freerdp* instance = pc->context.instance; rdpSettings* settings = pc->context.settings; /* disable NLA */ settings->NlaSecurity = FALSE; /* do not allow next connection failure */ pc->allow_next_conn_failure = FALSE; return freerdp_connect(instance); } static BOOL pf_client_connect(freerdp* instance) { pClientContext* pc = (pClientContext*)instance->context; rdpSettings* settings = instance->settings; BOOL rc = FALSE; BOOL retry = FALSE; LOG_INFO(TAG, pc, "connecting using client info: Username: %s, Domain: %s", settings->Username, settings->Domain); pf_client_set_security_settings(pc); if (pf_client_should_retry_without_nla(pc)) retry = pc->allow_next_conn_failure = TRUE; if (!freerdp_connect(instance)) { if (!retry) goto out; LOG_ERR(TAG, pc, "failed to connect with NLA. retrying to connect without NLA"); pf_modules_run_hook(HOOK_TYPE_CLIENT_LOGIN_FAILURE, pc->pdata); if (!pf_client_connect_without_nla(pc)) { LOG_ERR(TAG, pc, "pf_client_connect_without_nla failed!"); goto out; } } rc = TRUE; out: pc->allow_next_conn_failure = FALSE; return rc; } /** * RDP main loop. * Connects RDP, loops while running and handles event and dispatch, cleans up * after the connection ends. */ static DWORD WINAPI pf_client_thread_proc(LPVOID arg) { freerdp* instance = (freerdp*)arg; pClientContext* pc = (pClientContext*)instance->context; proxyData* pdata = pc->pdata; DWORD nCount; DWORD status; HANDLE handles[65]; /* * during redirection, freerdp's abort event might be overriden (reset) by the library, after * the server set it in order to shutdown the connection. it means that the server might signal * the client to abort, but the library code will override the signal and the client will * continue its work instead of exiting. That's why the client must wait on `pdata->abort_event` * too, which will never be modified by the library. */ handles[64] = pdata->abort_event; if (!pf_modules_run_hook(HOOK_TYPE_CLIENT_PRE_CONNECT, pdata)) { proxy_data_abort_connect(pdata); return FALSE; } if (!pf_client_connect(instance)) { proxy_data_abort_connect(pdata); return FALSE; } while (!freerdp_shall_disconnect(instance)) { nCount = freerdp_get_event_handles(instance->context, &handles[0], 64); if (nCount == 0) { LOG_ERR(TAG, pc, "freerdp_get_event_handles failed!"); break; } status = WaitForMultipleObjects(nCount, handles, FALSE, INFINITE); if (status == WAIT_FAILED) { WLog_ERR(TAG, "%s: WaitForMultipleObjects failed with %" PRIu32 "", __FUNCTION__, status); break; } if (freerdp_shall_disconnect(instance)) break; if (proxy_data_shall_disconnect(pdata)) break; if (!freerdp_check_event_handles(instance->context)) { if (freerdp_get_last_error(instance->context) == FREERDP_ERROR_SUCCESS) WLog_ERR(TAG, "Failed to check FreeRDP event handles"); break; } } freerdp_disconnect(instance); return 0; } static int pf_logon_error_info(freerdp* instance, UINT32 data, UINT32 type) { const char* str_data = freerdp_get_logon_error_info_data(data); const char* str_type = freerdp_get_logon_error_info_type(type); if (!instance || !instance->context) return -1; WLog_INFO(TAG, "Logon Error Info %s [%s]", str_data, str_type); return 1; } /** * Callback set in the rdp_freerdp structure, and used to make a certificate validation * when the connection requires it. * This function will actually be called by tls_verify_certificate(). * @see rdp_client_connect() and tls_connect() * @param instance pointer to the rdp_freerdp structure that contains the connection settings * @param host The host currently connecting to * @param port The port currently connecting to * @param common_name The common name of the certificate, should match host or an alias of it * @param subject The subject of the certificate * @param issuer The certificate issuer name * @param fingerprint The fingerprint of the certificate * @param flags See VERIFY_CERT_FLAG_* for possible values. * * @return 1 if the certificate is trusted, 2 if temporary trusted, 0 otherwise. */ static DWORD pf_client_verify_certificate_ex(freerdp* instance, const char* host, UINT16 port, const char* common_name, const char* subject, const char* issuer, const char* fingerprint, DWORD flags) { /* TODO: Add trust level to proxy configurable settings */ return 1; } /** * Callback set in the rdp_freerdp structure, and used to make a certificate validation * when a stored certificate does not match the remote counterpart. * This function will actually be called by tls_verify_certificate(). * @see rdp_client_connect() and tls_connect() * @param instance pointer to the rdp_freerdp structure that contains the connection settings * @param host The host currently connecting to * @param port The port currently connecting to * @param common_name The common name of the certificate, should match host or an alias of it * @param subject The subject of the certificate * @param issuer The certificate issuer name * @param fingerprint The fingerprint of the certificate * @param old_subject The subject of the previous certificate * @param old_issuer The previous certificate issuer name * @param old_fingerprint The fingerprint of the previous certificate * @param flags See VERIFY_CERT_FLAG_* for possible values. * * @return 1 if the certificate is trusted, 2 if temporary trusted, 0 otherwise. */ static DWORD pf_client_verify_changed_certificate_ex( freerdp* instance, const char* host, UINT16 port, const char* common_name, const char* subject, const char* issuer, const char* fingerprint, const char* old_subject, const char* old_issuer, const char* old_fingerprint, DWORD flags) { /* TODO: Add trust level to proxy configurable settings */ return 1; } static void pf_client_context_free(freerdp* instance, rdpContext* context) { pClientContext* pc = (pClientContext*)context; if (!pc) return; HashTable_Free(pc->vc_ids); } static BOOL pf_client_client_new(freerdp* instance, rdpContext* context) { if (!instance || !context) return FALSE; instance->PreConnect = pf_client_pre_connect; instance->PostConnect = pf_client_post_connect; instance->PostDisconnect = pf_client_post_disconnect; instance->VerifyCertificateEx = pf_client_verify_certificate_ex; instance->VerifyChangedCertificateEx = pf_client_verify_changed_certificate_ex; instance->LogonErrorInfo = pf_logon_error_info; instance->ContextFree = pf_client_context_free; return TRUE; } static int pf_client_client_stop(rdpContext* context) { pClientContext* pc = (pClientContext*)context; proxyData* pdata = pc->pdata; LOG_DBG(TAG, pc, "aborting client connection"); proxy_data_abort_connect(pdata); freerdp_abort_connect(context->instance); if (pdata->client_thread) { /* * Wait for client thread to finish. No need to call CloseHandle() here, as * it is the responsibility of `proxy_data_free`. */ LOG_DBG(TAG, pc, "waiting for client thread to finish"); WaitForSingleObject(pdata->client_thread, INFINITE); LOG_DBG(TAG, pc, "thread finished"); } return 0; } int RdpClientEntry(RDP_CLIENT_ENTRY_POINTS* pEntryPoints) { ZeroMemory(pEntryPoints, sizeof(RDP_CLIENT_ENTRY_POINTS)); pEntryPoints->Version = RDP_CLIENT_INTERFACE_VERSION; pEntryPoints->Size = sizeof(RDP_CLIENT_ENTRY_POINTS_V1); pEntryPoints->ContextSize = sizeof(pClientContext); /* Client init and finish */ pEntryPoints->ClientNew = pf_client_client_new; pEntryPoints->ClientStop = pf_client_client_stop; return 0; } /** * Starts running a client connection towards target server. */ DWORD WINAPI pf_client_start(LPVOID arg) { rdpContext* context = (rdpContext*)arg; if (freerdp_client_start(context) != 0) return 1; return pf_client_thread_proc(context->instance); }