/** * FreeRDP: A Remote Desktop Protocol Implementation * FreeRDP Core * * Copyright 2011 Marc-Andre Moreau * Copyright 2015 Thincast Technologies GmbH * Copyright 2015 DI (FH) Martin Haimberger * * 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 "rdp.h" #include "input.h" #include "update.h" #include "surface.h" #include "transport.h" #include "connection.h" #include "message.h" #include "buildflags.h" #include "gateway/rpc_fault.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "settings.h" #define TAG FREERDP_TAG("core") /* connectErrorCode is 'extern' in error.h. See comment there.*/ UINT freerdp_channel_add_init_handle_data(rdpChannelHandles* handles, void* pInitHandle, void* pUserData) { if (!handles->init) handles->init = ListDictionary_New(TRUE); if (!handles->init) { WLog_ERR(TAG, "ListDictionary_New failed!"); return ERROR_NOT_ENOUGH_MEMORY; } if (!ListDictionary_Add(handles->init, pInitHandle, pUserData)) { WLog_ERR(TAG, "ListDictionary_Add failed!"); return ERROR_INTERNAL_ERROR; } return CHANNEL_RC_OK; } void* freerdp_channel_get_init_handle_data(rdpChannelHandles* handles, void* pInitHandle) { void* pUserData = NULL; pUserData = ListDictionary_GetItemValue(handles->init, pInitHandle); return pUserData; } void freerdp_channel_remove_init_handle_data(rdpChannelHandles* handles, void* pInitHandle) { ListDictionary_Remove(handles->init, pInitHandle); if (ListDictionary_Count(handles->init) < 1) { ListDictionary_Free(handles->init); handles->init = NULL; } } UINT freerdp_channel_add_open_handle_data(rdpChannelHandles* handles, DWORD openHandle, void* pUserData) { void* pOpenHandle = (void*)(size_t) openHandle; if (!handles->open) handles->open = ListDictionary_New(TRUE); if (!handles->open) { WLog_ERR(TAG, "ListDictionary_New failed!"); return ERROR_NOT_ENOUGH_MEMORY; } if (!ListDictionary_Add(handles->open, pOpenHandle, pUserData)) { WLog_ERR(TAG, "ListDictionary_Add failed!"); return ERROR_INTERNAL_ERROR; } return CHANNEL_RC_OK; } void* freerdp_channel_get_open_handle_data(rdpChannelHandles* handles, DWORD openHandle) { void* pUserData = NULL; void* pOpenHandle = (void*)(size_t) openHandle; pUserData = ListDictionary_GetItemValue(handles->open, pOpenHandle); return pUserData; } void freerdp_channel_remove_open_handle_data(rdpChannelHandles* handles, DWORD openHandle) { void* pOpenHandle = (void*)(size_t) openHandle; ListDictionary_Remove(handles->open, pOpenHandle); if (ListDictionary_Count(handles->open) < 1) { ListDictionary_Free(handles->open); handles->open = NULL; } } /** Creates a new connection based on the settings found in the "instance" parameter * It will use the callbacks registered on the structure to process the pre/post connect operations * that the caller requires. * @see struct rdp_freerdp in freerdp.h * * @param instance - pointer to a rdp_freerdp structure that contains base information to establish the connection. * On return, this function will be initialized with the new connection's settings. * * @return TRUE if successful. FALSE otherwise. * */ BOOL freerdp_connect(freerdp* instance) { UINT status2 = CHANNEL_RC_OK; rdpRdp* rdp; BOOL status = TRUE; rdpSettings* settings; ConnectionResultEventArgs e; if (!instance) return FALSE; /* We always set the return code to 0 before we start the connect sequence*/ instance->ConnectionCallbackState = CLIENT_STATE_INITIAL; connectErrorCode = 0; instance->context->LastError = FREERDP_ERROR_SUCCESS; clearChannelError(instance->context); ResetEvent(instance->context->abortEvent); rdp = instance->context->rdp; settings = instance->settings; if (!freerdp_settings_set_default_order_support(settings)) return FALSE; IFCALLRET(instance->PreConnect, status, instance); instance->ConnectionCallbackState = CLIENT_STATE_PRECONNECT_PASSED; if (status) status2 = freerdp_channels_pre_connect(instance->context->channels, instance); if (settings->KeyboardLayout == KBD_JAPANESE_INPUT_SYSTEM_MS_IME2002) { settings->KeyboardType = 7; settings->KeyboardSubType = 2; settings->KeyboardFunctionKey = 12; } if (!status || (status2 != CHANNEL_RC_OK)) { if (!freerdp_get_last_error(rdp->context)) freerdp_set_last_error(instance->context, FREERDP_ERROR_PRE_CONNECT_FAILED); WLog_ERR(TAG, "freerdp_pre_connect failed"); goto freerdp_connect_finally; } status = rdp_client_connect(rdp); /* --authonly tests the connection without a UI */ if (instance->settings->AuthenticationOnly) { WLog_ERR(TAG, "Authentication only, exit status %"PRId32"", !status); goto freerdp_connect_finally; } if (instance->settings->DumpRemoteFx) { instance->update->pcap_rfx = pcap_open(instance->settings->DumpRemoteFxFile, TRUE); if (instance->update->pcap_rfx) instance->update->dump_rfx = TRUE; } if (status) { pointer_cache_register_callbacks(instance->context->update); IFCALLRET(instance->PostConnect, status, instance); instance->ConnectionCallbackState = CLIENT_STATE_POSTCONNECT_PASSED; if (status) status2 = freerdp_channels_post_connect(instance->context->channels, instance); } else { if (freerdp_get_last_error(instance->context) == FREERDP_ERROR_CONNECT_TRANSPORT_FAILED) status = freerdp_reconnect(instance); else goto freerdp_connect_finally; } if (!status || (status2 != CHANNEL_RC_OK) || !update_post_connect(instance->update)) { WLog_ERR(TAG, "freerdp_post_connect failed"); if (!freerdp_get_last_error(rdp->context)) freerdp_set_last_error(instance->context, FREERDP_ERROR_POST_CONNECT_FAILED); status = FALSE; goto freerdp_connect_finally; } if (instance->settings->PlayRemoteFx) { wStream* s; rdpUpdate* update; pcap_record record; update = instance->update; update->pcap_rfx = pcap_open(settings->PlayRemoteFxFile, FALSE); status = FALSE; if (!update->pcap_rfx) goto freerdp_connect_finally; else update->play_rfx = TRUE; status = TRUE; while (pcap_has_next_record(update->pcap_rfx) && status) { pcap_get_next_record_header(update->pcap_rfx, &record); if (!(s = StreamPool_Take(rdp->transport->ReceivePool, record.length))) break; record.data = Stream_Buffer(s); pcap_get_next_record_content(update->pcap_rfx, &record); Stream_SetLength(s, record.length); Stream_SetPosition(s, 0); if (!update_begin_paint(update)) status = FALSE; else { if (update_recv_surfcmds(update, s) < 0) status = FALSE; if (!update_end_paint(update)) status = FALSE; } Stream_Release(s); } pcap_close(update->pcap_rfx); update->pcap_rfx = NULL; goto freerdp_connect_finally; } if (rdp->errorInfo == ERRINFO_SERVER_INSUFFICIENT_PRIVILEGES) freerdp_set_last_error(instance->context, FREERDP_ERROR_INSUFFICIENT_PRIVILEGES); SetEvent(rdp->transport->connectedEvent); freerdp_connect_finally: EventArgsInit(&e, "freerdp"); e.result = status ? 0 : -1; PubSub_OnConnectionResult(instance->context->pubSub, instance->context, &e); if (!status) freerdp_disconnect(instance); return status; } BOOL freerdp_abort_connect(freerdp* instance) { if (!instance || !instance->context) return FALSE; return SetEvent(instance->context->abortEvent); } BOOL freerdp_get_fds(freerdp* instance, void** rfds, int* rcount, void** wfds, int* wcount) { rdpRdp* rdp = instance->context->rdp; transport_get_fds(rdp->transport, rfds, rcount); return TRUE; } BOOL freerdp_check_fds(freerdp* instance) { int status; rdpRdp* rdp; if (!instance) return FALSE; if (!instance->context) return FALSE; if (!instance->context->rdp) return FALSE; rdp = instance->context->rdp; status = rdp_check_fds(rdp); if (status < 0) { TerminateEventArgs e; rdpContext* context = instance->context; WLog_DBG(TAG, "rdp_check_fds() - %i", status); EventArgsInit(&e, "freerdp"); e.code = 0; PubSub_OnTerminate(context->pubSub, context, &e); return FALSE; } return TRUE; } DWORD freerdp_get_event_handles(rdpContext* context, HANDLE* events, DWORD count) { DWORD nCount = 0; nCount += transport_get_event_handles(context->rdp->transport, events, count); if (nCount == 0) return 0; if (events && (nCount < count + 2)) { events[nCount++] = freerdp_channels_get_event_handle(context->instance); events[nCount++] = getChannelErrorEventHandle(context); events[nCount++] = context->abortEvent; } else return 0; if (context->settings->AsyncInput) { if (nCount >= count) return 0; events[nCount++] = freerdp_get_message_queue_event_handle( context->instance, FREERDP_INPUT_MESSAGE_QUEUE); } return nCount; } BOOL freerdp_check_event_handles(rdpContext* context) { BOOL status; status = freerdp_check_fds(context->instance); if (!status) { if (freerdp_get_last_error(context) == FREERDP_ERROR_SUCCESS) WLog_ERR(TAG, "freerdp_check_fds() failed - %"PRIi32"", status); return FALSE; } status = freerdp_channels_check_fds(context->channels, context->instance); if (!status) { if (freerdp_get_last_error(context) == FREERDP_ERROR_SUCCESS) WLog_ERR(TAG, "freerdp_channels_check_fds() failed - %"PRIi32"", status); return FALSE; } if (!status) return FALSE; status = checkChannelErrorEvent(context); if (!status) { if (freerdp_get_last_error(context) == FREERDP_ERROR_SUCCESS) WLog_ERR(TAG, "checkChannelErrorEvent() failed - %"PRIi32"", status); return FALSE; } if (context->settings->AsyncInput) { int rc = freerdp_message_queue_process_pending_messages( context->instance, FREERDP_INPUT_MESSAGE_QUEUE); if (rc < 0) return FALSE; else status = TRUE; } return status; } wMessageQueue* freerdp_get_message_queue(freerdp* instance, DWORD id) { wMessageQueue* queue = NULL; switch (id) { case FREERDP_UPDATE_MESSAGE_QUEUE: queue = instance->update->queue; break; case FREERDP_INPUT_MESSAGE_QUEUE: queue = instance->input->queue; break; } return queue; } HANDLE freerdp_get_message_queue_event_handle(freerdp* instance, DWORD id) { HANDLE event = NULL; wMessageQueue* queue = NULL; queue = freerdp_get_message_queue(instance, id); if (queue) event = MessageQueue_Event(queue); return event; } int freerdp_message_queue_process_message(freerdp* instance, DWORD id, wMessage* message) { int status = -1; switch (id) { case FREERDP_UPDATE_MESSAGE_QUEUE: status = update_message_queue_process_message(instance->update, message); break; case FREERDP_INPUT_MESSAGE_QUEUE: status = input_message_queue_process_message(instance->input, message); break; } return status; } int freerdp_message_queue_process_pending_messages(freerdp* instance, DWORD id) { int status = -1; switch (id) { case FREERDP_UPDATE_MESSAGE_QUEUE: status = update_message_queue_process_pending_messages(instance->update); break; case FREERDP_INPUT_MESSAGE_QUEUE: status = input_message_queue_process_pending_messages(instance->input); break; } return status; } static int freerdp_send_channel_data(freerdp* instance, UINT16 channelId, BYTE* data, int size) { return rdp_send_channel_data(instance->context->rdp, channelId, data, size); } BOOL freerdp_disconnect(freerdp* instance) { BOOL rc = TRUE; rdpRdp* rdp; if (!instance || !instance->context || !instance->context->rdp) return FALSE; rdp = instance->context->rdp; if (!rdp_client_disconnect(rdp)) rc = FALSE; update_post_disconnect(instance->update); if (instance->settings->AsyncInput) { wMessageQueue* inputQueue = freerdp_get_message_queue(instance, FREERDP_INPUT_MESSAGE_QUEUE); MessageQueue_PostQuit(inputQueue, 0); } IFCALL(instance->PostDisconnect, instance); if (instance->update->pcap_rfx) { instance->update->dump_rfx = FALSE; pcap_close(instance->update->pcap_rfx); instance->update->pcap_rfx = NULL; } freerdp_channels_close(instance->context->channels, instance); return rc; } BOOL freerdp_disconnect_before_reconnect(freerdp* instance) { rdpRdp* rdp = instance->context->rdp; return rdp_client_disconnect_and_clear(rdp); } BOOL freerdp_reconnect(freerdp* instance) { BOOL status; rdpRdp* rdp = instance->context->rdp; ResetEvent(instance->context->abortEvent); status = rdp_client_reconnect(rdp); return status; } BOOL freerdp_shall_disconnect(freerdp* instance) { if (!instance || !instance->context) return FALSE; if (WaitForSingleObject(instance->context->abortEvent, 0) != WAIT_OBJECT_0) return FALSE; return TRUE; } BOOL freerdp_focus_required(freerdp* instance) { rdpRdp* rdp; BOOL bRetCode = FALSE; rdp = instance->context->rdp; if (rdp->resendFocus) { bRetCode = TRUE; rdp->resendFocus = FALSE; } return bRetCode; } void freerdp_set_focus(freerdp* instance) { rdpRdp* rdp; rdp = instance->context->rdp; rdp->resendFocus = TRUE; } void freerdp_get_version(int* major, int* minor, int* revision) { if (major != NULL) *major = FREERDP_VERSION_MAJOR; if (minor != NULL) *minor = FREERDP_VERSION_MINOR; if (revision != NULL) *revision = FREERDP_VERSION_REVISION; } const char* freerdp_get_version_string(void) { return FREERDP_VERSION_FULL; } const char* freerdp_get_build_date(void) { static char build_date[] = __DATE__ " " __TIME__; return build_date; } const char* freerdp_get_build_config(void) { static const char build_config[] = "Build configuration: " BUILD_CONFIG "\n" "Build type: " BUILD_TYPE "\n" "CFLAGS: " CFLAGS "\n" "Compiler: " COMPILER_ID ", " COMPILER_VERSION "\n" "Target architecture: " TARGET_ARCH "\n"; return build_config; } const char* freerdp_get_build_revision(void) { return GIT_REVISION; } static wEventType FreeRDP_Events[] = { DEFINE_EVENT_ENTRY(WindowStateChange) DEFINE_EVENT_ENTRY(ResizeWindow) DEFINE_EVENT_ENTRY(LocalResizeWindow) DEFINE_EVENT_ENTRY(EmbedWindow) DEFINE_EVENT_ENTRY(PanningChange) DEFINE_EVENT_ENTRY(ZoomingChange) DEFINE_EVENT_ENTRY(ErrorInfo) DEFINE_EVENT_ENTRY(Terminate) DEFINE_EVENT_ENTRY(ConnectionResult) DEFINE_EVENT_ENTRY(ChannelConnected) DEFINE_EVENT_ENTRY(ChannelDisconnected) DEFINE_EVENT_ENTRY(MouseEvent) DEFINE_EVENT_ENTRY(Activated) DEFINE_EVENT_ENTRY(Timer) DEFINE_EVENT_ENTRY(GraphicsReset) }; /** Allocator function for a rdp context. * The function will allocate a rdpRdp structure using rdp_new(), then copy * its contents to the appropriate fields in the rdp_freerdp structure given in parameters. * It will also initialize the 'context' field in the rdp_freerdp structure as needed. * If the caller has set the ContextNew callback in the 'instance' parameter, it will be called at the end of the function. * * @param instance - Pointer to the rdp_freerdp structure that will be initialized with the new context. */ BOOL freerdp_context_new(freerdp* instance) { rdpRdp* rdp; rdpContext* context; BOOL ret = TRUE; instance->context = (rdpContext*) calloc(1, instance->ContextSize); if (!instance->context) return FALSE; context = instance->context; context->instance = instance; context->ServerMode = FALSE; context->settings = instance->settings; context->disconnectUltimatum = 0; context->pubSub = PubSub_New(TRUE); if (!context->pubSub) goto fail; PubSub_AddEventTypes(context->pubSub, FreeRDP_Events, ARRAYSIZE(FreeRDP_Events)); context->metrics = metrics_new(context); if (!context->metrics) goto fail; rdp = rdp_new(context); if (!rdp) goto fail; instance->input = rdp->input; instance->update = rdp->update; instance->settings = rdp->settings; instance->autodetect = rdp->autodetect; context->graphics = graphics_new(context); if (!context->graphics) goto fail; context->rdp = rdp; context->input = instance->input; context->update = instance->update; context->settings = instance->settings; context->autodetect = instance->autodetect; instance->update->context = instance->context; instance->update->pointer->context = instance->context; instance->update->primary->context = instance->context; instance->update->secondary->context = instance->context; instance->update->altsec->context = instance->context; instance->input->context = context; instance->autodetect->context = context; if (!(context->errorDescription = calloc(1, 500))) { WLog_ERR(TAG, "calloc failed!"); goto fail; } if (!(context->channelErrorEvent = CreateEvent(NULL, TRUE, FALSE, NULL))) { WLog_ERR(TAG, "CreateEvent failed!"); goto fail; } update_register_client_callbacks(rdp->update); instance->context->abortEvent = CreateEvent(NULL, TRUE, FALSE, NULL); if (!instance->context->abortEvent) goto fail; if (!(context->channels = freerdp_channels_new(instance))) goto fail; IFCALLRET(instance->ContextNew, ret, instance, instance->context); if (ret) return TRUE; fail: freerdp_context_free(instance); return FALSE; } /** Deallocator function for a rdp context. * The function will deallocate the resources from the 'instance' parameter that were allocated from a call * to freerdp_context_new(). * If the ContextFree callback is set in the 'instance' parameter, it will be called before deallocation occurs. * * @param instance - Pointer to the rdp_freerdp structure that was initialized by a call to freerdp_context_new(). * On return, the fields associated to the context are invalid. */ void freerdp_context_free(freerdp* instance) { if (!instance) return; if (!instance->context) return; IFCALL(instance->ContextFree, instance, instance->context); rdp_free(instance->context->rdp); instance->context->rdp = NULL; graphics_free(instance->context->graphics); instance->context->graphics = NULL; PubSub_Free(instance->context->pubSub); metrics_free(instance->context->metrics); CloseHandle(instance->context->channelErrorEvent); free(instance->context->errorDescription); CloseHandle(instance->context->abortEvent); instance->context->abortEvent = NULL; freerdp_channels_free(instance->context->channels); free(instance->context); instance->context = NULL; } int freerdp_get_disconnect_ultimatum(rdpContext* context) { return context->disconnectUltimatum; } UINT32 freerdp_error_info(freerdp* instance) { return instance->context->rdp->errorInfo; } void freerdp_set_error_info(rdpRdp* rdp, UINT32 error) { if (!rdp) return; rdp_set_error_info(rdp, error); } BOOL freerdp_send_error_info(rdpRdp* rdp) { if (!rdp) return FALSE; return rdp_send_error_info(rdp); } UINT32 freerdp_get_last_error(rdpContext* context) { return context->LastError; } const char* freerdp_get_last_error_name(UINT32 code) { const char* name = NULL; const UINT32 cls = GET_FREERDP_ERROR_CLASS(code); const UINT32 type = GET_FREERDP_ERROR_TYPE(code); switch (cls) { case FREERDP_ERROR_ERRBASE_CLASS: name = freerdp_get_error_base_name(type); break; case FREERDP_ERROR_ERRINFO_CLASS: name = freerdp_get_error_info_name(type); break; case FREERDP_ERROR_CONNECT_CLASS: name = freerdp_get_error_connect_name(type); break; default: name = rpc_error_to_string(code); break; } return name; } const char* freerdp_get_last_error_string(UINT32 code) { const char* string = NULL; const UINT32 cls = GET_FREERDP_ERROR_CLASS(code); const UINT32 type = GET_FREERDP_ERROR_TYPE(code); switch (cls) { case FREERDP_ERROR_ERRBASE_CLASS: string = freerdp_get_error_base_string(type); break; case FREERDP_ERROR_ERRINFO_CLASS: string = freerdp_get_error_info_string(type); break; case FREERDP_ERROR_CONNECT_CLASS: string = freerdp_get_error_connect_string(type); break; default: string = rpc_error_to_string(code); break; } return string; } void freerdp_set_last_error(rdpContext* context, UINT32 lastError) { if (lastError) WLog_ERR(TAG, "%s %s [0x%08"PRIX32"]", __FUNCTION__, freerdp_get_last_error_name(lastError), lastError); if (lastError == FREERDP_ERROR_SUCCESS) { WLog_INFO(TAG, "%s resetting error state", __FUNCTION__); } else if (context->LastError != 0) { WLog_ERR(TAG, "TODO: Trying to set error code %s, but %s already set!", freerdp_get_last_error_name(lastError), freerdp_get_last_error_name(context->LastError)); } context->LastError = lastError; switch (lastError) { case FREERDP_ERROR_PRE_CONNECT_FAILED: connectErrorCode = PREECONNECTERROR; break; case FREERDP_ERROR_CONNECT_UNDEFINED: connectErrorCode = UNDEFINEDCONNECTERROR; break; case FREERDP_ERROR_POST_CONNECT_FAILED: connectErrorCode = POSTCONNECTERROR; break; case FREERDP_ERROR_DNS_ERROR: connectErrorCode = DNSERROR; break; case FREERDP_ERROR_DNS_NAME_NOT_FOUND: connectErrorCode = DNSNAMENOTFOUND; break; case FREERDP_ERROR_CONNECT_FAILED: connectErrorCode = CONNECTERROR; break; case FREERDP_ERROR_MCS_CONNECT_INITIAL_ERROR: connectErrorCode = MCSCONNECTINITIALERROR; break; case FREERDP_ERROR_TLS_CONNECT_FAILED: connectErrorCode = TLSCONNECTERROR; break; case FREERDP_ERROR_AUTHENTICATION_FAILED: connectErrorCode = AUTHENTICATIONERROR; break; case FREERDP_ERROR_INSUFFICIENT_PRIVILEGES: connectErrorCode = INSUFFICIENTPRIVILEGESERROR; break; case FREERDP_ERROR_CONNECT_CANCELLED: connectErrorCode = CANCELEDBYUSER; break; case FREERDP_ERROR_SECURITY_NEGO_CONNECT_FAILED: connectErrorCode = CONNECTERROR; break; case FREERDP_ERROR_CONNECT_TRANSPORT_FAILED: connectErrorCode = CONNECTERROR; break; } } const char* freerdp_get_logon_error_info_type(UINT32 type) { switch (type) { case LOGON_MSG_DISCONNECT_REFUSED: return "LOGON_MSG_DISCONNECT_REFUSED"; case LOGON_MSG_NO_PERMISSION: return "LOGON_MSG_NO_PERMISSION"; case LOGON_MSG_BUMP_OPTIONS: return "LOGON_MSG_BUMP_OPTIONS"; case LOGON_MSG_RECONNECT_OPTIONS: return "LOGON_MSG_RECONNECT_OPTIONS"; case LOGON_MSG_SESSION_TERMINATE: return "LOGON_MSG_SESSION_TERMINATE"; case LOGON_MSG_SESSION_CONTINUE: return "LOGON_MSG_SESSION_CONTINUE"; default: return "UNKNOWN"; } } const char* freerdp_get_logon_error_info_data(UINT32 data) { switch (data) { case LOGON_FAILED_BAD_PASSWORD: return "LOGON_FAILED_BAD_PASSWORD"; case LOGON_FAILED_UPDATE_PASSWORD: return "LOGON_FAILED_UPDATE_PASSWORD"; case LOGON_FAILED_OTHER: return "LOGON_FAILED_OTHER"; case LOGON_WARNING: return "LOGON_WARNING"; default: return "SESSION_ID"; } } /** Allocator function for the rdp_freerdp structure. * @return an allocated structure filled with 0s. Need to be deallocated using freerdp_free() */ freerdp* freerdp_new() { freerdp* instance; instance = (freerdp*) calloc(1, sizeof(freerdp)); if (!instance) return NULL; instance->ContextSize = sizeof(rdpContext); instance->SendChannelData = freerdp_send_channel_data; instance->ReceiveChannelData = freerdp_channels_data; return instance; } /** Deallocator function for the rdp_freerdp structure. * @param instance - pointer to the rdp_freerdp structure to deallocate. * On return, this pointer is not valid anymore. */ void freerdp_free(freerdp* instance) { free(instance); } ULONG freerdp_get_transport_sent(rdpContext* context, BOOL resetCount) { ULONG written = context->rdp->transport->written; if (resetCount) context->rdp->transport->written = 0; return written; } BOOL freerdp_nla_impersonate(rdpContext* context) { rdpNla* nla; if (!context) return FALSE; if (!context->rdp) return FALSE; if (!context->rdp->transport) return FALSE; nla = context->rdp->transport->nla; return nla_impersonate(nla); } BOOL freerdp_nla_revert_to_self(rdpContext* context) { rdpNla* nla; if (!context) return FALSE; if (!context->rdp) return FALSE; if (!context->rdp->transport) return FALSE; nla = context->rdp->transport->nla; return nla_revert_to_self(nla); } HANDLE getChannelErrorEventHandle(rdpContext* context) { return context->channelErrorEvent; } BOOL checkChannelErrorEvent(rdpContext* context) { if (WaitForSingleObject(context->channelErrorEvent, 0) == WAIT_OBJECT_0) { WLog_ERR(TAG, "%s. Error was %"PRIu32"", context->errorDescription, context->channelErrorNum); return FALSE; } return TRUE; } /** * Function description * * @return 0 on success, otherwise a Win32 error code */ UINT getChannelError(rdpContext* context) { return context->channelErrorNum; } const char* getChannelErrorDescription(rdpContext* context) { return context->errorDescription; } void clearChannelError(rdpContext* context) { context->channelErrorNum = 0; memset(context->errorDescription, 0, 500); ResetEvent(context->channelErrorEvent); } void setChannelError(rdpContext* context, UINT errorNum, char* description) { context->channelErrorNum = errorNum; strncpy(context->errorDescription, description, 499); SetEvent(context->channelErrorEvent); } const char* freerdp_nego_get_routing_token(rdpContext* context, DWORD* length) { if (!context || !context->rdp) return NULL; return (const char*)nego_get_routing_token(context->rdp->nego, length); }