/* Miranda NG: the free IM client for Microsoft* Windows* Copyright (ñ) 2012-15 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 "stdafx.h" ///////////////////////////////////////////////////////////////////////////////////////// //VERY VERY VERY BASIC ENCRYPTION FUNCTION static void Encrypt(char *msg, BOOL up) { int jump = (up) ? 5 : -5; for (int i = 0; msg[i]; i++) msg[i] = msg[i] + jump; } __forceinline void DecodeString(LPSTR buf) { Encrypt(buf, FALSE); } struct VarDescr { VarDescr(LPCSTR var, LPCSTR value) : szVar(mir_strdup(var)), szValue(mir_strdup(value)) {} VarDescr(LPCSTR var, LPSTR value) : szVar(mir_strdup(var)), szValue(value) {} VarDescr(LPCSTR var, PBYTE value, int len) : szVar(mir_strdup(var)), szValue((char*)memcpy(mir_alloc(len), value, len)), iLen(len) {} ptrA szVar, szValue; int iLen; }; struct SettingUgraderParam { CDb3Mmap *db; LPCSTR szModule; MCONTACT contactID; OBJLIST* pList; }; int sttSettingUgrader(const char *szSetting, LPARAM lParam) { SettingUgraderParam *param = (SettingUgraderParam*)lParam; if (param->db->IsSettingEncrypted(param->szModule, szSetting)) { DBVARIANT dbv = { DBVT_UTF8 }; if (!param->db->GetContactSettingStr(param->contactID, param->szModule, szSetting, &dbv)) { if (dbv.type == DBVT_UTF8) { DecodeString(dbv.pszVal); param->pList->insert(new VarDescr(szSetting, (LPCSTR)dbv.pszVal)); } param->db->FreeVariant(&dbv); } } return 0; } void sttContactEnum(MCONTACT contactID, const char *szModule, CDb3Mmap *db) { OBJLIST arSettings(1); SettingUgraderParam param = { db, szModule, contactID, &arSettings }; DBCONTACTENUMSETTINGS dbces = { 0 }; dbces.pfnEnumProc = sttSettingUgrader; dbces.szModule = szModule; dbces.lParam = (LPARAM)¶m; db->EnumContactSettings(NULL, &dbces); for (int i = 0; i < arSettings.getCount(); i++) { VarDescr &p = arSettings[i]; size_t len; BYTE *pResult = db->m_crypto->encodeString(p.szValue, &len); if (pResult != NULL) { DBCONTACTWRITESETTING dbcws = { szModule, p.szVar }; dbcws.value.type = DBVT_ENCRYPTED; dbcws.value.pbVal = pResult; dbcws.value.cpbVal = (WORD)len; db->WriteContactSetting(contactID, &dbcws); mir_free(pResult); } } } int sttModuleEnum(const char *szModule, DWORD, LPARAM lParam) { CDb3Mmap *db = (CDb3Mmap*)lParam; sttContactEnum(NULL, szModule, db); for (MCONTACT contactID = db->FindFirstContact(); contactID; contactID = db->FindNextContact(contactID)) sttContactEnum(contactID, szModule, db); return 0; } ///////////////////////////////////////////////////////////////////////////////////////// int CDb3Mmap::InitCrypt() { if (m_dbHeader.version == DB_OLD_VERSION) return 0; CRYPTO_PROVIDER *pProvider; bool bMissingKey = false; DBVARIANT dbv = { 0 }; dbv.type = DBVT_BLOB; if (GetContactSetting(NULL, "CryptoEngine", "Provider", &dbv)) { LBL_CreateProvider: CRYPTO_PROVIDER **ppProvs; int iNumProvs; Crypto_EnumProviders(&iNumProvs, &ppProvs); if (iNumProvs == 0) return 1; pProvider = ppProvs[0]; //!!!!!!!!!!!!!!!!!! DBCONTACTWRITESETTING dbcws = { "CryptoEngine", "Provider" }; dbcws.value.type = DBVT_BLOB; dbcws.value.pbVal = (PBYTE)pProvider->pszName; dbcws.value.cpbVal = (int)mir_strlen(pProvider->pszName) + 1; WriteContactSetting(NULL, &dbcws); } else { if (dbv.type != DBVT_BLOB) { // old version, clean it up bMissingKey = true; goto LBL_CreateProvider; } pProvider = Crypto_GetProvider(LPCSTR(dbv.pbVal)); FreeVariant(&dbv); if (pProvider == NULL) goto LBL_CreateProvider; } if ((m_crypto = pProvider->pFactory()) == NULL) return 3; dbv.type = DBVT_BLOB; if (GetContactSetting(NULL, "CryptoEngine", "StoredKey", &dbv)) { bMissingKey = true; LBL_SetNewKey: m_crypto->generateKey(); // unencrypted key StoreKey(); } else { size_t iKeyLength = m_crypto->getKeyLength(); if (dbv.cpbVal != (WORD)iKeyLength) goto LBL_SetNewKey; if (!m_crypto->setKey(dbv.pbVal, iKeyLength)) { if (memcmp(m_dbHeader.signature, &dbSignatureE, sizeof(m_dbHeader.signature))) goto LBL_SetNewKey; if (!EnterPassword(dbv.pbVal, iKeyLength)) { // password protected? if (m_dbHeader.version >= DB_094_VERSION) return 4; // one of the early used version of mmap was replaced then by mmap_sa // simply remove old badly generated key bMissingKey = true; goto LBL_SetNewKey; } } FreeVariant(&dbv); } if (bMissingKey) EnumModuleNames(sttModuleEnum, this); dbv.type = DBVT_BYTE; if (!GetContactSetting(NULL, "CryptoEngine", "DatabaseEncryption", &dbv)) m_bEncrypted = dbv.bVal != 0; InitDialogs(); return 0; } void CDb3Mmap::StoreKey() { size_t iKeyLength = m_crypto->getKeyLength(); BYTE *pKey = (BYTE*)_alloca(iKeyLength); m_crypto->getKey(pKey, iKeyLength); DBCONTACTWRITESETTING dbcws = { "CryptoEngine", "StoredKey" }; dbcws.value.type = DBVT_BLOB; dbcws.value.cpbVal = (WORD)iKeyLength; dbcws.value.pbVal = pKey; WriteContactSetting(NULL, &dbcws); SecureZeroMemory(pKey, iKeyLength); } void CDb3Mmap::SetPassword(LPCTSTR ptszPassword) { if (ptszPassword == NULL || *ptszPassword == 0) { m_bUsesPassword = false; m_crypto->setPassword(NULL); } else { m_bUsesPassword = true; m_crypto->setPassword(T2Utf(ptszPassword)); } UpdateMenuItem(); } ///////////////////////////////////////////////////////////////////////////////////////// void CDb3Mmap::ToggleEncryption() { HANDLE hSave1 = hSettingChangeEvent; hSettingChangeEvent = NULL; HANDLE hSave2 = hEventAddedEvent; hEventAddedEvent = NULL; HANDLE hSave3 = hEventDeletedEvent; hEventDeletedEvent = NULL; HANDLE hSave4 = hEventFilterAddedEvent; hEventFilterAddedEvent = NULL; mir_cslock lck(m_csDbAccess); ToggleSettingsEncryption(NULL); ToggleEventsEncryption(NULL); for (MCONTACT contactID = FindFirstContact(); contactID; contactID = FindNextContact(contactID)) { ToggleSettingsEncryption(contactID); ToggleEventsEncryption(contactID); } m_bEncrypted = !m_bEncrypted; DBCONTACTWRITESETTING dbcws = { "CryptoEngine", "DatabaseEncryption" }; dbcws.value.type = DBVT_BYTE; dbcws.value.bVal = m_bEncrypted; WriteContactSetting(NULL, &dbcws); hSettingChangeEvent = hSave1; hEventAddedEvent = hSave2; hEventDeletedEvent = hSave3; hEventFilterAddedEvent = hSave4; } void CDb3Mmap::ToggleSettingsEncryption(MCONTACT contactID) { DWORD ofsContact = GetContactOffset(contactID); if (ofsContact == 0) return; DBContact *contact = (DBContact*)DBRead(ofsContact, NULL); if (contact->ofsFirstSettings == 0) return; // fast cycle through all settings DBContactSettings *setting = (DBContactSettings*)DBRead(contact->ofsFirstSettings, NULL); DWORD offset = contact->ofsFirstSettings; char *szModule = GetModuleNameByOfs(setting->ofsModuleName); if (szModule == NULL) return; while (true) { OBJLIST arSettings(10); char szSetting[256]; int bytesRemaining, len; DWORD ofsBlobPtr = offset + offsetof(DBContactSettings, blob), ofsNext = setting->ofsNext; PBYTE pBlob = (PBYTE)DBRead(ofsBlobPtr, &bytesRemaining); while (pBlob[0]) { NeedBytes(1); len = pBlob[0]; memcpy(szSetting, pBlob + 1, len); szSetting[len] = 0; NeedBytes(1 + pBlob[0]); MoveAlong(1 + pBlob[0]); NeedBytes(5); switch (pBlob[0]) { case DBVT_ASCIIZ: len = *(PWORD)(pBlob + 1); // we need to convert a string into utf8 and encrypt it if (!m_bEncrypted) { BYTE bSave = pBlob[len + 3]; pBlob[len + 3] = 0; arSettings.insert(new VarDescr(szSetting, mir_utf8encode((LPCSTR)pBlob + 3))); pBlob[len + 3] = bSave; } NeedBytes(3 + len); break; case DBVT_UTF8: len = *(PWORD)(pBlob + 1); // we need to encrypt these strings if (!m_bEncrypted) { BYTE bSave = pBlob[len + 3]; pBlob[len + 3] = 0; arSettings.insert(new VarDescr(szSetting, (LPCSTR)pBlob + 3)); pBlob[len + 3] = bSave; } NeedBytes(3 + len); break; case DBVT_ENCRYPTED: len = *(PWORD)(pBlob + 1); // we need to decrypt these strings if (m_bEncrypted && !IsSettingEncrypted(szModule, szSetting)) arSettings.insert(new VarDescr(szSetting, pBlob + 3, len)); NeedBytes(3 + len); break; case DBVT_BLOB: NeedBytes(3 + *(PWORD)(pBlob + 1)); break; } NeedBytes(3); MoveAlong(1 + GetSettingValueLength(pBlob)); NeedBytes(1); } for (int i = 0; i < arSettings.getCount(); i++) { VarDescr &p = arSettings[i]; if (!m_bEncrypted) { size_t encodedLen; BYTE *pResult = m_crypto->encodeString(p.szValue, &encodedLen); if (pResult != NULL) { DBCONTACTWRITESETTING dbcws = { szModule, p.szVar }; dbcws.value.type = DBVT_ENCRYPTED; dbcws.value.pbVal = pResult; dbcws.value.cpbVal = (WORD)encodedLen; WriteContactSetting(contactID, &dbcws); mir_free(pResult); } } else { size_t realLen; ptrA decoded(m_crypto->decodeString((PBYTE)(char*)p.szValue, p.iLen, &realLen)); if (decoded != NULL) { DBCONTACTWRITESETTING dbcws = { szModule, p.szVar }; dbcws.value.type = DBVT_UNENCRYPTED; dbcws.value.pszVal = decoded; dbcws.value.cchVal = (WORD)realLen; WriteContactSetting(contactID, &dbcws); } } } if (!ofsNext) break; setting = (DBContactSettings*)DBRead(offset = ofsNext, NULL); if ((szModule = GetModuleNameByOfs(setting->ofsModuleName)) == NULL) break; } } void CDb3Mmap::ToggleEventsEncryption(MCONTACT contactID) { DWORD ofsContact = GetContactOffset(contactID); if (ofsContact == 0) return; DBContact contact = *(DBContact*)DBRead(ofsContact, NULL); if (contact.ofsFirstEvent == 0 || contact.signature != DBCONTACT_SIGNATURE) return; // fast cycle through all events for (DWORD offset = contact.ofsFirstEvent; offset != 0;) { DBEvent evt = *(DBEvent*)DBRead(offset, NULL); if (evt.signature != DBEVENT_SIGNATURE) return; size_t len; DWORD ofsDest; mir_ptr pBlob; BYTE *pSource = DBRead(offset + offsetof(DBEvent, blob), 0); if (!m_bEncrypted) { // we need more space if ((pBlob = m_crypto->encodeBuffer(pSource, evt.cbBlob, &len)) == NULL) return; ofsDest = ReallocSpace(offset, offsetof(DBEvent, blob) + evt.cbBlob, offsetof(DBEvent, blob) + (DWORD)len); if (evt.ofsNext) { DBEvent *e = (DBEvent*)DBRead(evt.ofsNext, NULL); e->ofsPrev = ofsDest; DBWrite(evt.ofsNext, e, sizeof(DBEvent)); } if (evt.ofsPrev) { DBEvent *e = (DBEvent*)DBRead(evt.ofsPrev, NULL); e->ofsNext = ofsDest; DBWrite(evt.ofsPrev, e, sizeof(DBEvent)); } if (contact.ofsFirstEvent == offset) contact.ofsFirstEvent = ofsDest; if (contact.ofsLastEvent == offset) contact.ofsLastEvent = ofsDest; if (contact.ofsFirstUnread == offset) contact.ofsFirstUnread = ofsDest; evt.flags |= DBEF_ENCRYPTED; } else { if ((pBlob = (BYTE*)m_crypto->decodeBuffer(pSource, evt.cbBlob, &len)) == NULL) return; ofsDest = offset; // reuse the old space evt.flags &= ~DBEF_ENCRYPTED; if (len < evt.cbBlob) DBFill(ofsDest + offsetof(DBEvent, blob) + (DWORD)len, evt.cbBlob - (DWORD)len); } evt.cbBlob = (DWORD)len; DBWrite(ofsDest, &evt, offsetof(DBEvent, blob)); DBWrite(ofsDest + offsetof(DBEvent, blob), pBlob, (DWORD)len); offset = evt.ofsNext; } DBWrite(ofsContact, &contact, sizeof(DBContact)); }