/* Copyright (c) 2013-23 Miranda NG team (https://miranda-ng.org) This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation version 2 of the License. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ #include "stdafx.h" void CVkProto::InitQueue() { debugLogA("CVkProto::InitQueue"); m_hEvRequestsQueue = CreateEvent(nullptr, false, false, nullptr); } void CVkProto::UninitQueue() { debugLogA("CVkProto::UninitQueue"); m_arRequestsQueue.destroy(); CloseHandle(m_hEvRequestsQueue); } ///////////////////////////////////////////////////////////////////////////////////////// bool CVkProto::ExecuteRequest(AsyncHttpRequest *pReq) { CMStringA str; do { pReq->bNeedsRestart = false; pReq->m_iErrorCode = 0; pReq->szUrl = pReq->m_szUrl.GetBuffer(); if (!pReq->m_szParam.IsEmpty()) { if (pReq->requestType == REQUEST_GET) { str.Format("%s?%s", pReq->m_szUrl.c_str(), pReq->m_szParam.c_str()); pReq->szUrl = str.GetBuffer(); } else { pReq->pData = mir_strdup(pReq->m_szParam); pReq->dataLength = pReq->m_szParam.GetLength(); } } if (pReq->m_bApiReq) { pReq->flags |= NLHRF_PERSISTENT; pReq->nlc = m_hAPIConnection; } if (m_bTerminated) break; time_t tLocalWorkThreadTimer = 0; { mir_cslock lck(m_csWorkThreadTimer); tLocalWorkThreadTimer = m_tWorkThreadTimer = time(0); } debugLogA("CVkProto::ExecuteRequest \n====\n%s\n====\n", pReq->szUrl); NLHR_PTR reply(Netlib_HttpTransaction(m_hNetlibUser, pReq)); { mir_cslock lck(m_csWorkThreadTimer); if (tLocalWorkThreadTimer != m_tWorkThreadTimer) { debugLogA("CVkProto::WorkerThread is living Dead => return"); delete pReq; return false; } } if (reply != nullptr) { if (pReq->m_pFunc != nullptr) (this->*(pReq->m_pFunc))(reply, pReq); // may be set pReq->bNeedsRestart if (pReq->m_bApiReq) m_hAPIConnection = reply->nlc; } else if (pReq->bIsMainConn) { if (IsStatusConnecting(m_iStatus)) ConnectionFailed(LOGINERR_NONETWORK); else if (pReq->m_iRetry && !m_bTerminated) { pReq->bNeedsRestart = true; Sleep(1000); //Pause for fix err pReq->m_iRetry--; debugLogA("CVkProto::ExecuteRequest restarting (retry = %d)", MAX_RETRIES - pReq->m_iRetry); } else { debugLogA("CVkProto::ExecuteRequest ShutdownSession"); ShutdownSession(); } } debugLogA("CVkProto::ExecuteRequest pReq->bNeedsRestart = %d", (int)pReq->bNeedsRestart); if (!reply && pReq->m_bApiReq) CloseAPIConnection(); } while (pReq->bNeedsRestart && !m_bTerminated); delete pReq; return true; } ///////////////////////////////////////////////////////////////////////////////////////// AsyncHttpRequest* CVkProto::Push(MHttpRequest *p, int iTimeout) { AsyncHttpRequest *pReq = (AsyncHttpRequest*)p; debugLogA("CVkProto::Push"); pReq->timeout = iTimeout; if (pReq->m_bApiReq) { pReq << VER_API; if (!IsEmpty(m_vkOptions.pwszVKLang)) pReq << WCHAR_PARAM("lang", m_vkOptions.pwszVKLang); } { mir_cslock lck(m_csRequestsQueue); m_arRequestsQueue.insert(pReq); } SetEvent(m_hEvRequestsQueue); return pReq; } ///////////////////////////////////////////////////////////////////////////////////////// void CVkProto::WorkerThread(void*) { debugLogA("CVkProto::WorkerThread: entering"); m_bTerminated = m_bPrevError = false; m_szAccessToken = getStringA("AccessToken"); extern char szScore[]; CMStringA szAccessScore(ptrA(getStringA("AccessScore"))); if (szAccessScore != szScore) { setString("AccessScore", szScore); delSetting("AccessToken"); m_szAccessToken = nullptr; } if (m_szAccessToken != nullptr) // try to receive a response from server RetrieveMyInfo(); else { // Initialize new OAuth session extern char szBlankUrl[]; extern char szVKUserAgent[]; extern char szVKUserAgentCH[]; AsyncHttpRequest *pReq = new AsyncHttpRequest(this, REQUEST_GET, "https://oauth.vk.com/authorize", false, &CVkProto::OnOAuthAuthorize); pReq << INT_PARAM("client_id", VK_APP_ID) << CHAR_PARAM("scope", szScore) << CHAR_PARAM("redirect_uri", szBlankUrl) << CHAR_PARAM("display", "mobile") << CHAR_PARAM("response_type", "token") << VER_API; // Headers pReq->AddHeader("User-agent", szVKUserAgent); pReq->AddHeader("dht", "1"); pReq->AddHeader("origin", "https://oauth.vk.com"); pReq->AddHeader("referer", "https://oauth.vk.com/"); pReq->AddHeader("sec-ch-ua", szVKUserAgentCH); pReq->AddHeader("sec-ch-ua-mobile", "?0"); pReq->AddHeader("sec-ch-ua-platform", "Windows"); pReq->AddHeader("sec-fetch-dest", "document"); pReq->AddHeader("sec-fetch-mode", "navigate"); pReq->AddHeader("sec-fetch-site", "same-site"); pReq->AddHeader("sec-fetch-user", "?1"); pReq->AddHeader("upgrade-insecure-requests", "1"); //Headers pReq->m_bApiReq = false; pReq->bIsMainConn = true; Push(pReq); } CloseAPIConnection(); while (true) { WaitForSingleObject(m_hEvRequestsQueue, 1000); if (m_bTerminated) break; AsyncHttpRequest *pReq; time_t tTime[3] = { 0, 0, 0 }; long lWaitingTime = 0; while (true) { { mir_cslock lck(m_csRequestsQueue); if (m_arRequestsQueue.getCount() == 0) break; pReq = m_arRequestsQueue[0]; m_arRequestsQueue.remove(0); ULONG utime = GetTickCount(); lWaitingTime = (utime - tTime[0]) > 1500 ? 0 : 1500 - (utime - tTime[0]); if (!(pReq->m_bApiReq)) lWaitingTime = 0; } if (m_bTerminated) break; if (lWaitingTime) { debugLogA("CVkProto::WorkerThread: need sleep %d msec", lWaitingTime); Sleep(lWaitingTime); } if (pReq->m_bApiReq) { tTime[0] = tTime[1]; tTime[1] = tTime[2]; tTime[2] = GetTickCount(); // There can be maximum 3 requests to API methods per second from a client // see https://vk.com/dev/api_requests } if (!ExecuteRequest(pReq)) return; } } CloseAPIConnection(); debugLogA("CVkProto::WorkerThread: leaving m_bTerminated = %d", m_bTerminated ? 1 : 0); if (m_hWorkerThread) { CloseHandle(m_hWorkerThread); m_hWorkerThread = nullptr; } }