/* Miranda NG: the free IM client for Microsoft* Windows* Copyright (ñ) 2012-16 Miranda NG project (http://miranda-ng.org) all portions of this codebase are copyrighted to the people listed in contributors.txt. 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; either version 2 of the License, or (at your option) any later version. 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, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #include "commonheaders.h" #define DBHEADER_SIGNATURE L"KyotoCabinet" #define CMP_UINT32(A,B) if(A!=B) return (AdwContactID, k2->dwContactID); CMP_UINT32(k1->dwOfsModule, k2->dwOfsModule); return strcmp(k1->szSettingName, k2->szSettingName); } } static _settingsComparator; struct EventsComparator : public Comparator { EventsComparator() {} virtual int32_t compare(const char *akbuf, size_t, const char *bkbuf, size_t) { DBEventSortingKey *k1 = (DBEventSortingKey*)akbuf, *k2 = (DBEventSortingKey*)bkbuf; CMP_UINT32(k1->dwContactId, k2->dwContactId); CMP_UINT32(k1->ts, k2->ts); CMP_UINT32(k1->dwEventId, k2->dwEventId); return 0; } } static _eventsComparator; struct LongComparator : public Comparator { LongComparator() {} virtual int32_t compare(const char *akbuf, size_t, const char *bkbuf, size_t) { return *(LONG*)akbuf - *(LONG*)bkbuf; } } static _longComparator; static int ModCompare(const ModuleName *mn1, const ModuleName *mn2) { return strcmp(mn1->name, mn2->name); } static int OfsCompare(const ModuleName *mn1, const ModuleName *mn2) { return (mn1->ofs - mn2->ofs); } static int stringCompare2(const char *p1, const char *p2) { return strcmp(p1, p2); } CDbxKyoto::CDbxKyoto(const TCHAR *tszFileName, int iMode) : m_safetyMode(true), m_bReadOnly((iMode & DBMODE_READONLY) != 0), m_bShared((iMode & DBMODE_SHARED) != 0), m_dwMaxContactId(1), m_lMods(50, ModCompare), m_lOfs(50, OfsCompare), m_lResidentSettings(50, stringCompare2) { m_tszProfileName = mir_tstrdup(tszFileName); InitDbInstance(this); m_codePage = Langpack_GetDefaultCodePage(); m_hModHeap = HeapCreate(0, 0, 0); } CDbxKyoto::~CDbxKyoto() { delete m_evCursor; m_dbContacts.close(); m_dbModules.close(); m_dbEvents.close(); m_dbEventsSort.close(); m_dbSettings.close(); // destroy modules HeapDestroy(m_hModHeap); // automatically closes all tables DestroyServiceFunction(hService); UnhookEvent(hHook); if (m_crypto) m_crypto->destroy(); DestroyHookableEvent(hContactDeletedEvent); DestroyHookableEvent(hContactAddedEvent); DestroyHookableEvent(hSettingChangeEvent); DestroyHookableEvent(hEventMarkedRead); DestroyHookableEvent(hEventAddedEvent); DestroyHookableEvent(hEventDeletedEvent); DestroyHookableEvent(hEventFilterAddedEvent); DestroyDbInstance(this); mir_free(m_tszProfileName); } int CDbxKyoto::Load(bool bSkipInit) { if (!bSkipInit) { int iFlags = TreeDB::OREADER | TreeDB::ONOREPAIR | TreeDB::OCREATE; if (!m_bReadOnly) iFlags |= TreeDB::OWRITER; std::string szFilename((char*)_T2A(m_tszProfileName)); m_dbContacts.tune_map(256 * 1024); if (!m_dbContacts.open(szFilename + ".cnt", iFlags)) return EGROKPRF_DAMAGED; m_dbModules.tune_comparator(&_longComparator); if (!m_dbModules.open(szFilename + ".mod", iFlags)) return EGROKPRF_DAMAGED; m_dbEvents.tune_comparator(&_longComparator); if (!m_dbEvents.open(szFilename + ".evt", iFlags)) return EGROKPRF_DAMAGED; m_dbEventsSort.tune_comparator(&_eventsComparator); if (!m_dbEventsSort.open(szFilename + ".evs", iFlags)) return EGROKPRF_DAMAGED; m_dbSettings.tune_comparator(&_settingsComparator); if (!m_dbSettings.open(szFilename + ".set", iFlags)) return EGROKPRF_DAMAGED; if (_taccess(m_tszProfileName, 0) == 0) { TCHAR buf[100]; if (0 == GetPrivateProfileString(L"Database", L"Signature", L"", buf, SIZEOF(buf), m_tszProfileName)) return EGROKPRF_CANTREAD; if (_tcscmp(buf, DBHEADER_SIGNATURE)) return EGROKPRF_DAMAGED; m_dwVersion = GetPrivateProfileInt(L"Database", L"Version", 1, m_tszProfileName); } else { WritePrivateProfileString(L"Database", L"Version", L"1", m_tszProfileName); WritePrivateProfileString(L"Database", L"Signature", DBHEADER_SIGNATURE, m_tszProfileName); DWORD keyVal = 0; DBContact dbc = { DBCONTACT_SIGNATURE, 0, 0, 0 }; m_dbContacts.set((LPCSTR)&keyVal, sizeof(keyVal), (LPCSTR)&dbc, sizeof(dbc)); } m_evCursor = m_dbEventsSort.cursor(); if (InitModuleNames()) return EGROKPRF_CANTREAD; if (InitCrypt()) return EGROKPRF_CANTREAD; // everything is ok, go on if (!m_bReadOnly) { // we don't need events in the service mode if (ServiceExists(MS_DB_SETSAFETYMODE)) { hContactDeletedEvent = CreateHookableEvent(ME_DB_CONTACT_DELETED); hContactAddedEvent = CreateHookableEvent(ME_DB_CONTACT_ADDED); hSettingChangeEvent = CreateHookableEvent(ME_DB_CONTACT_SETTINGCHANGED); hEventMarkedRead = CreateHookableEvent(ME_DB_EVENT_MARKED_READ); hEventAddedEvent = CreateHookableEvent(ME_DB_EVENT_ADDED); hEventDeletedEvent = CreateHookableEvent(ME_DB_EVENT_DELETED); hEventFilterAddedEvent = CreateHookableEvent(ME_DB_EVENT_FILTER_ADD); } } FillContacts(); } return ERROR_SUCCESS; } int CDbxKyoto::Create(void) { WritePrivateProfileString(L"Database", L"Version", L"1", m_tszProfileName); WritePrivateProfileString(L"Database", L"Signature", DBHEADER_SIGNATURE, m_tszProfileName); return 0; } int CDbxKyoto::Check(void) { if (_taccess(m_tszProfileName, 0) != 0) return EGROKPRF_CANTREAD; TCHAR buf[100]; if (0 == GetPrivateProfileString(L"Database", L"Signature", L"", buf, SIZEOF(buf), m_tszProfileName)) return EGROKPRF_UNKHEADER; if (_tcscmp(buf, DBHEADER_SIGNATURE)) return EGROKPRF_UNKHEADER; return 0; } int CDbxKyoto::PrepareCheck(int*) { InitModuleNames(); return InitCrypt(); } STDMETHODIMP_(void) CDbxKyoto::SetCacheSafetyMode(BOOL bIsSet) { mir_cslock lck(m_csDbAccess); m_safetyMode = bIsSet != 0; } ///////////////////////////////////////////////////////////////////////////////////////// static DWORD DatabaseCorrupted = 0; static const TCHAR *msg = NULL; static DWORD dwErr = 0; static TCHAR tszPanic[] = LPGENT("Miranda has detected corruption in your database. This corruption may be fixed by DbChecker plugin. Please download it from http://miranda-ng.org/p/DbChecker/. Miranda will now shut down."); void __cdecl dbpanic(void *) { if (msg) { if (dwErr == ERROR_DISK_FULL) msg = TranslateT("Disk is full. Miranda will now shut down."); TCHAR err[256]; mir_sntprintf(err, SIZEOF(err), msg, TranslateT("Database failure. Miranda will now shut down."), dwErr); MessageBox(0, err, TranslateT("Database Error"), MB_SETFOREGROUND | MB_TOPMOST | MB_APPLMODAL | MB_ICONWARNING | MB_OK); } else MessageBox(0, TranslateTS(tszPanic), TranslateT("Database Panic"), MB_SETFOREGROUND | MB_TOPMOST | MB_APPLMODAL | MB_ICONWARNING | MB_OK); TerminateProcess(GetCurrentProcess(), 255); } void CDbxKyoto::DatabaseCorruption(const TCHAR *text) { int kill = 0; mir_cslockfull lck(m_csDbAccess); if (DatabaseCorrupted == 0) { DatabaseCorrupted++; kill++; msg = text; dwErr = GetLastError(); } else { /* db is already corrupted, someone else is dealing with it, wait here so that we don't do any more damage */ Sleep(INFINITE); return; } lck.unlock(); if (kill) { _beginthread(dbpanic, 0, NULL); Sleep(INFINITE); } } /////////////////////////////////////////////////////////////////////////////// // MIDatabaseChecker typedef int (CDbxKyoto::*CheckWorker)(int); int CDbxKyoto::Start(DBCHeckCallback *callback) { cb = callback; return ERROR_SUCCESS; } int CDbxKyoto::CheckDb(int, int) { return ERROR_OUT_OF_PAPER; // return (this->*Workers[phase])(firstTime); } void CDbxKyoto::Destroy() { delete this; }