#include "stdafx.h" bool CToxProto::IsOnline() { return toxThread && toxThread->IsConnected() && m_iStatus >= ID_STATUS_ONLINE; } void CToxProto::BootstrapUdpNode(CToxThread *toxThread, const char *address, int port, const char *hexKey) { if (!toxThread) return; if (address == NULL || hexKey == NULL) return; ToxBinAddress binKey(hexKey, TOX_PUBLIC_KEY_SIZE * 2); TOX_ERR_BOOTSTRAP error; if (!tox_bootstrap(toxThread->Tox(), address, port, binKey, &error)) debugLogA(__FUNCTION__ ": failed to bootstrap node %s:%d \"%s\" (%d)", address, port, hexKey, error); } void CToxProto::BootstrapTcpRelay(CToxThread *toxThread, const char *address, int port, const char *hexKey) { if (!toxThread) return; if (address == NULL || hexKey == NULL) return; ToxBinAddress binKey(hexKey, TOX_PUBLIC_KEY_SIZE * 2); TOX_ERR_BOOTSTRAP error; if (!tox_add_tcp_relay(toxThread->Tox(), address, port, binKey, &error)) debugLogA(__FUNCTION__ ": failed to add tcp relay %s:%d \"%s\" (%d)", address, port, hexKey, error); } void CToxProto::BootstrapNodesFromDb(CToxThread *toxThread, bool isIPv6) { char module[MAX_PATH]; mir_snprintf(module, "%s_Nodes", m_szModuleName); int nodeCount = db_get_w(NULL, module, TOX_SETTINGS_NODE_COUNT, 0); if (nodeCount > 0) { char setting[MAX_PATH]; for (int i = 0; i < nodeCount; i++) { mir_snprintf(setting, TOX_SETTINGS_NODE_IPV4, i); ptrA address(db_get_sa(NULL, module, setting)); mir_snprintf(setting, TOX_SETTINGS_NODE_PORT, i); int port = db_get_w(NULL, module, setting, 33445); mir_snprintf(setting, TOX_SETTINGS_NODE_PKEY, i); ptrA pubKey(db_get_sa(NULL, module, setting)); BootstrapUdpNode(toxThread, address, port, pubKey); BootstrapTcpRelay(toxThread, address, port, pubKey); if (isIPv6) { mir_snprintf(setting, TOX_SETTINGS_NODE_IPV6, i); address = db_get_sa(NULL, module, setting); BootstrapUdpNode(toxThread, address, port, pubKey); BootstrapTcpRelay(toxThread, address, port, pubKey); } } } } void CToxProto::BootstrapNodesFromJson(CToxThread *toxThread, bool isUdp, bool isIPv6) { ptrA json; VARST path(_T(TOX_JSON_PATH)); if (!IsFileExists(path)) UpdateNodes(); if (IsFileExists(path)) { FILE *hFile = _wfopen(path, L"r"); if (hFile != NULL) { _fseeki64(hFile, 0, SEEK_END); size_t size = _ftelli64(hFile); json = (char*)mir_calloc(size); rewind(hFile); fread(json, sizeof(char), size, hFile); fclose(hFile); } } if (json) { JSONNode root = JSONNode::parse(json); if (!root.empty()) { JSONNode nodes = root.at("nodes").as_array(); for (size_t i = 0; i < nodes.size(); i++) { JSONNode node = nodes[i]; JSONNode address = node.at("ipv4"); JSONNode pubKey = node.at("public_key"); if (isUdp) { int port = node.at("port").as_int(); BootstrapUdpNode(toxThread, address.as_string().c_str(), port, pubKey.as_string().c_str()); if (isIPv6) { address = node.at("ipv6"); BootstrapUdpNode(toxThread, address.as_string().c_str(), port, pubKey.as_string().c_str()); } } else { JSONNode tcpPorts = root.at("tcp_ports").as_array(); for (size_t i = 0; i < tcpPorts.size(); i++) { int port = tcpPorts[i].as_int(); BootstrapTcpRelay(toxThread, address.as_string().c_str(), port, pubKey.as_string().c_str()); if (isIPv6) { address = node.at("ipv6"); BootstrapTcpRelay(toxThread, address.as_string().c_str(), port, pubKey.as_string().c_str()); } } } } } } } void CToxProto::BootstrapNodes(CToxThread *toxThread) { debugLogA(__FUNCTION__": bootstraping DHT"); bool isUdp = getBool("EnableUDP", 1); bool isIPv6 = getBool("EnableIPv6", 0); BootstrapNodesFromDb(toxThread, isIPv6); BootstrapNodesFromJson(toxThread, isUdp, isIPv6); } void CToxProto::UpdateNodes() { HttpRequest request(REQUEST_GET, "https://nodes.tox.chat/json"); NLHR_PTR response(request.Send(m_hNetlibUser)); if (response->resultCode != HTTP_CODE_OK || !response->pData) { debugLogA(__FUNCTION__": failed to dowload tox.json"); return; } JSONNode root = JSONNode::parse(response->pData); if (root.empty()) { debugLogA(__FUNCTION__": failed to dowload tox.json"); return; } long lastUpdate = root.at("last_scan").as_int(); if (lastUpdate <= getDword("NodesUpdate", 0)) return; ptrT path(mir_tstrdup((wchar_t*)VARST(_T(TOX_JSON_PATH)))); if (!IsFileExists(path)) { HANDLE hProfile = CreateFile(path, GENERIC_READ | GENERIC_WRITE, 0, NULL, CREATE_NEW, FILE_ATTRIBUTE_NORMAL, NULL); if (hProfile == NULL) { debugLogA(__FUNCTION__": failed to create tox.json"); return; } CloseHandle(hProfile); } FILE *hFile = _wfopen(path, L"w"); if (!hFile) { debugLogA(__FUNCTION__": failed to open tox.json"); return; } if (fwrite(response->pData, sizeof(char), response->dataLength, hFile) != (size_t)response->dataLength) debugLogA(__FUNCTION__": failed to write tox.json"); fclose(hFile); setDword("NodesUpdate", lastUpdate); } void CToxProto::TryConnect() { if (!toxThread) { return; } if (tox_self_get_connection_status(toxThread->Tox()) != TOX_CONNECTION_NONE) { toxThread->Connect(); debugLogA(__FUNCTION__": successfuly connected to DHT"); ForkThread(&CToxProto::LoadFriendList, NULL); m_iStatus = m_iDesiredStatus; ProtoBroadcastAck(NULL, ACKTYPE_STATUS, ACKRESULT_SUCCESS, (HANDLE)ID_STATUS_CONNECTING, m_iStatus); tox_self_set_status(toxThread->Tox(), MirandaToToxStatus(m_iStatus)); debugLogA(__FUNCTION__": changing status from %i to %i", ID_STATUS_CONNECTING, m_iDesiredStatus); } else if (m_iStatus++ > TOX_MAX_CONNECT_RETRIES) { SetStatus(ID_STATUS_OFFLINE); ProtoBroadcastAck(NULL, ACKTYPE_LOGIN, ACKRESULT_FAILED, NULL, LOGINERR_NONETWORK); debugLogA(__FUNCTION__": failed to connect to DHT"); } } void CToxProto::CheckConnection(int &retriesCount) { if (!toxThread || !toxThread->IsConnected()) { TryConnect(); } else if (tox_self_get_connection_status(toxThread->Tox()) != TOX_CONNECTION_NONE) { if (retriesCount < TOX_MAX_DISCONNECT_RETRIES) { debugLogA(__FUNCTION__": restored connection with DHT"); retriesCount = TOX_MAX_DISCONNECT_RETRIES; } } else { if (retriesCount == TOX_MAX_DISCONNECT_RETRIES) { retriesCount--; debugLogA(__FUNCTION__": lost connection with DHT"); } /*else if (retriesCount % 50 == 0) { retriesCount--; BootstrapNodes(); }*/ else if (!(--retriesCount)) { toxThread->Disconnect(); debugLogA(__FUNCTION__": disconnected from DHT"); SetStatus(ID_STATUS_OFFLINE); } } } void CToxProto::PollingThread(void*) { debugLogA(__FUNCTION__": entering"); Thread_SetName("TOX: PollingThread"); Tox_Options *options = GetToxOptions(); if (!options) { SetStatus(ID_STATUS_OFFLINE); ProtoBroadcastAck(NULL, ACKTYPE_LOGIN, ACKRESULT_FAILED, NULL); debugLogA(__FUNCTION__": leaving"); return; } TOX_ERR_NEW error; CToxThread toxThread(options, &error); if (error != TOX_ERR_NEW_OK) { debugLogA(__FUNCTION__": failed to initialize tox core (%d)", error); ShowNotification(ToxErrorToString(error), TranslateT("Unable to initialize Tox core"), MB_ICONERROR); tox_options_free(options); debugLogA(__FUNCTION__": leaving"); return; } tox_options_free(options); this->toxThread = &toxThread; if (!InitToxCore(&toxThread)) { UninitToxCore(&toxThread); SetStatus(ID_STATUS_OFFLINE); ProtoBroadcastAck(NULL, ACKTYPE_LOGIN, ACKRESULT_FAILED, NULL, LOGINERR_WRONGPASSWORD); debugLogA(__FUNCTION__": leaving"); return; } int retriesCount = TOX_MAX_DISCONNECT_RETRIES; BootstrapNodes(&toxThread); while (!toxThread.IsTerminated()) { CheckConnection(retriesCount); toxThread.Iterate(); } toxThread.Disconnect(); UninitToxCore(&toxThread); this->toxThread = NULL; debugLogA(__FUNCTION__": leaving"); }