/////////////////////////////////////////////////////////////////////////////// // // Copyright (c) 1998, Microsoft Corp. All rights reserved. // // FILE // // lockkey.cpp // // SYNOPSIS // // Defines the class LockoutKey. // // MODIFICATION HISTORY // // 10/21/1998 Original version. // 11/04/1998 Fix bug in computing key expiration. // 01/14/1999 Move initialization code out of constructor. // /////////////////////////////////////////////////////////////////////////////// #include #include #include #include ////////// // Registry key and value names. ////////// const WCHAR KEY_NAME_ACCOUNT_LOCKOUT[] = L"SYSTEM\\CurrentControlSet\\Services\\RemoteAccess\\Parameters\\AccountLockout"; const WCHAR VALUE_NAME_LOCKOUT_COUNT[] = L"MaxDenials"; const WCHAR VALUE_NAME_RESET_TIME[] = L"ResetTime (mins)"; ////////// // Registry value defaults. ////////// const DWORD DEFAULT_LOCKOUT_COUNT = 0; const DWORD DEFAULT_RESET_TIME = 48 * 60; // 48 hours. ///////// // Helper function that reads a DWORD registry value. If the value isn't set // or is corrupt, then a default value is written to the registry. ///////// DWORD WINAPI RegQueryDWORDWithDefault( HKEY hKey, PCWSTR lpValueName, DWORD dwDefault ) { LONG result; DWORD type, data, cb; cb = sizeof(DWORD); result = RegQueryValueExW( hKey, lpValueName, NULL, &type, (LPBYTE)&data, &cb ); if (result == NO_ERROR && type == REG_DWORD && cb == sizeof(DWORD)) { return data; } if (result == NO_ERROR || result == ERROR_FILE_NOT_FOUND) { RegSetValueExW( hKey, lpValueName, 0, REG_DWORD, (CONST BYTE*)&dwDefault, sizeof(DWORD) ); } return dwDefault; } LockoutKey::LockoutKey() throw () : maxDenials(DEFAULT_LOCKOUT_COUNT), refCount(0), hLockout(NULL), hChangeEvent(NULL), hRegisterWait(NULL), ttl(DEFAULT_RESET_TIME), lastCollection(0) { } void LockoutKey::initialize() throw () { std::_Lockit _Lk; if (refCount == 0) { // Create or open the lockout key. LONG result; DWORD disposition; result = RegCreateKeyEx( HKEY_LOCAL_MACHINE, KEY_NAME_ACCOUNT_LOCKOUT, NULL, NULL, REG_OPTION_NON_VOLATILE, KEY_ALL_ACCESS, NULL, &hLockout, &disposition ); // Event used for signalling changes to the registry. hChangeEvent = CreateEventW(NULL, FALSE, FALSE, NULL); // Register for change notifications. RegNotifyChangeKeyValue( hLockout, FALSE, REG_NOTIFY_CHANGE_LAST_SET, hChangeEvent, TRUE ); // Read the initial values. readValues(); // Register the event. RegisterWaitForSingleObject( &hRegisterWait, hChangeEvent, onChange, this, INFINITE, 0 ); } ++refCount; } void LockoutKey::finalize() throw () { std::_Lockit _Lk; if (--refCount == 0) { UnregisterWait(hRegisterWait); if (hLockout) { RegCloseKey(hLockout); } CloseHandle(hChangeEvent); } } HKEY LockoutKey::createEntry(PCWSTR subKeyName) throw () { HKEY hKey = NULL; DWORD disposition; RegCreateKeyEx( hLockout, subKeyName, NULL, NULL, REG_OPTION_NON_VOLATILE, KEY_ALL_ACCESS, NULL, &hKey, &disposition ); // Whenever we grow the registry, we'll also clean up old entries. if (ttl) { collectGarbage(); } return hKey; } HKEY LockoutKey::openEntry(PCWSTR subKeyName) throw () { LONG result; HKEY hKey = NULL; result = RegOpenKeyEx( hLockout, subKeyName, 0, KEY_ALL_ACCESS, &hKey ); if (result == NO_ERROR && ttl) { // We retrieved a key, but we need to make sure it hasn't expired. ULARGE_INTEGER lastWritten; result = RegQueryInfoKey( hKey, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, (LPFILETIME)&lastWritten ); if (result == NO_ERROR) { ULARGE_INTEGER now; GetSystemTimeAsFileTime((LPFILETIME)&now); if (now.QuadPart - lastWritten.QuadPart >= ttl) { // It's expired, so close the key ... RegCloseKey(hKey); hKey = NULL; // ... and delete. deleteEntry(subKeyName); } } } return hKey; } void LockoutKey::clear() throw () { // Get the number of sub-keys. LONG result; DWORD index; result = RegQueryInfoKey( hLockout, NULL, NULL, NULL, &index, NULL, NULL, NULL, NULL, NULL, NULL, NULL ); if (result != NO_ERROR) { return; } // Iterate through the keys in reverse order so we can delete them // without throwing off the indices. while (index) { --index; WCHAR name[DNLEN + UNLEN + 2]; DWORD cbName = sizeof(name) / sizeof(WCHAR); result = RegEnumKeyEx( hLockout, index, name, &cbName, NULL, NULL, NULL, NULL ); if (result == NO_ERROR) { RegDeleteKey(hLockout, name); } } } void LockoutKey::collectGarbage() throw () { // Flag that indicates whether another thread is collecting. static LONG inProgress; // Save the TTL to a local variable, so we don't have to worry about it // changing will we're executing. ULONGLONG localTTL = ttl; // If the reset time is not configured, then bail. if (localTTL == 0) { return; } // We won't collect more frequently than the TTL. ULARGE_INTEGER now; GetSystemTimeAsFileTime((LPFILETIME)&now); if (now.QuadPart - lastCollection < localTTL) { return; } // If another thread is alreay collecting, then bail. if (InterlockedExchange(&inProgress, 1)) { return; } // Save the new collection time. lastCollection = now.QuadPart; // Get the number of sub-keys. LONG result; DWORD index; result = RegQueryInfoKey( hLockout, NULL, NULL, NULL, &index, NULL, NULL, NULL, NULL, NULL, NULL, NULL ); if (result == NO_ERROR) { // We iterate through the keys in reverse order so we can delete them // without throwing off the indices. while (index) { --index; // Get the lastWritten time for the key ... WCHAR name[DNLEN + UNLEN + 2]; DWORD cbName = sizeof(name) / sizeof(WCHAR); ULARGE_INTEGER lastWritten; result = RegEnumKeyEx( hLockout, index, name, &cbName, NULL, NULL, NULL, (LPFILETIME)&lastWritten ); // ... and delete if it's expired. if (result == NO_ERROR && now.QuadPart - lastWritten.QuadPart >= localTTL) { RegDeleteKey(hLockout, name); } } } // Collection is no longer in progress. InterlockedExchange(&inProgress, 0); } void LockoutKey::readValues() throw () { ///////// // Note: This isn't synchronized. The side-effects of an inconsistent state // are pretty minor, so we'll just take our chances. ///////// // Read max. denials. maxDenials = RegQueryDWORDWithDefault( hLockout, VALUE_NAME_LOCKOUT_COUNT, DEFAULT_LOCKOUT_COUNT ); // Read Time-To-Live. ULONGLONG newTTL = RegQueryDWORDWithDefault( hLockout, VALUE_NAME_RESET_TIME, DEFAULT_RESET_TIME ); newTTL *= 600000000ui64; ttl = newTTL; if (maxDenials == 0) { // If account lockout is disabled, clean up all the keys. clear(); } else { // Otherwise, the TTL may have changed, so collect garbage. collectGarbage(); } } VOID NTAPI LockoutKey::onChange(PVOID context, BOOLEAN flag) throw () { // Re-read the values. ((LockoutKey*)context)->readValues(); // Re-register the notification. RegNotifyChangeKeyValue( ((LockoutKey*)context)->hLockout, FALSE, REG_NOTIFY_CHANGE_LAST_SET, ((LockoutKey*)context)->hChangeEvent, TRUE ); }