/////////////////////////////////////////////////////////////////////////////// // // Copyright (c) 1998, Microsoft Corp. All rights reserved. // // FILE // // logschema.cpp // // SYNOPSIS // // Defines the class LogSchema. // // MODIFICATION HISTORY // // 08/04/1998 Original version. // 12/02/1998 Added excludeFromLog. // 04/14/2000 Port to new dictionary API. // /////////////////////////////////////////////////////////////////////////////// #include #include #include #include #include #include #include #include LogSchema::LogSchema() throw () : numFields(0), refCount(0) { } LogSchema::~LogSchema() throw () { } BOOL LogSchema::excludeFromLog(DWORD iasID) const throw () { LogField key; key.iasID = iasID; const SchemaTable::value_type* p = schema.find(key); return p ? p->exclude : FALSE; } DWORD LogSchema::getOrdinal(DWORD iasID) const throw () { LogField key; key.iasID = iasID; const SchemaTable::value_type* p = schema.find(key); return p ? p->ordinal : 0; } HRESULT LogSchema::initialize() throw () { std::_Lockit _Lk; // Have we already been initialized ? if (refCount != 0) { ++refCount; return S_OK; } try { // Names of various columns in the dictionary. const PCWSTR COLUMNS[] = { L"ID", L"Exclude from NT4 IAS Log", L"ODBC Log Ordinal", NULL }; // Open the attributes table. IASTL::IASDictionary dnary(COLUMNS); std::vector< LogField > record; while (dnary.next()) { // Read ID. DWORD iasID = (DWORD)dnary.getLong(0); // Read [Exclude from NT4 IAS Log] if present. BOOL exclude = (BOOL)dnary.getBool(1); // Read [ODBC Log Ordinal] if present. DWORD ordinal = (DWORD)dnary.getLong(2); // There's no need to save it unless one of these is set. if (exclude || ordinal) { record.push_back(LogField(iasID, ordinal, exclude)); } } // Sort the fields by ordinal. std::sort(record.begin(), record.end()); ////////// // Insert the fields into the table. ////////// numFields = 0; for (std::vector< LogField >::iterator i = record.begin(); i != record.end(); ++i) { // Normalize the ordinal. if (i->ordinal) { i->ordinal = ++numFields; } schema.insert(*i); } } catch (const std::bad_alloc&) { clear(); return E_OUTOFMEMORY; } catch (const _com_error& ce) { clear(); return ce.Error(); } // We were successful so add ref. refCount = 1; return S_OK; } void LogSchema::shutdown() throw () { std::_Lockit _Lk; _ASSERT(refCount != 0); if (--refCount == 0) { clear(); } } void LogSchema::clear() throw () { schema.clear(); }