/*++ Copyright (c) 1998 Microsoft Corporation Module Name: params.cpp Abstract: SIS Groveler parameter support & defaults Authors: John Douceur, 1998 Environment: User Mode Revision History: --*/ #include "all.hxx" static const _TCHAR registry_parameter_path[] = _T("SOFTWARE\\Microsoft\\Windows NT\\CurrentVersion\\Groveler\\Parameters"); ReadParameters::ReadParameters() { ASSERT(this != 0); static EntrySpec registry_entries[registry_entry_count] = { {_T("parameter backup interval"), entry_int, _T("600000"), ¶meter_backup_interval}, {_T("target entries per log extraction"), entry_int, _T("100"), &target_entries_per_extraction}, {_T("max extraction interval"), entry_int, _T("10000"), &max_extraction_interval}, {_T("base grovel interval"), entry_int, _T("5000"), &base_grovel_interval}, {_T("max grovel interval"), entry_int, _T("600000"), &max_grovel_interval}, {_T("max response lag"), entry_int, _T("10000"), &max_response_lag}, {_T("low-confidence grovel interval"), entry_int, _T("15000"), &low_confidence_grovel_interval}, {_T("low-disk-space grovel interval"), entry_int, _T("500"), &low_disk_space_grovel_interval}, {_T("working grovel interval"), entry_int, _T("500"), &working_grovel_interval}, {_T("grovel duration"), entry_int, _T("400"), &grovel_duration}, {_T("partition info update interval"), entry_int, _T("60000"), &partition_info_update_interval}, {_T("base restart extraction interval"), entry_int, _T("10000"), &base_restart_extraction_interval}, {_T("max restart extraction interval"), entry_int, _T("3600000"), &max_restart_extraction_interval}, {_T("base restart groveling interval"), entry_int, _T("30000"), &base_restart_groveling_interval}, {_T("max restart groveling interval"), entry_int, _T("86400000"), &max_restart_groveling_interval}, {_T("base regrovel interval"), entry_int, _T("60000"), &base_regrovel_interval}, {_T("max regrovel interval"), entry_int, _T("86400000"), &max_regrovel_interval}, {_T("volscan regrovel threshold"), entry_int, _T("120000"), &volscan_regrovel_threshold}, {_T("partition balance time constant"), entry_int, _T("1800000"), &partition_balance_time_constant}, {_T("read time increase history size"), entry_int, _T("5"), &read_time_increase_history_size}, {_T("read time decrease history size"), entry_int, _T("2"), &read_time_decrease_history_size}, {_T("SIS efficacy history size"), entry_int, _T("1000"), &sis_efficacy_history_size}, {_T("log winnow history size"), entry_int, _T("1000"), &log_winnow_history_size}, {_T("file size history size"), entry_int, _T("1000"), &file_size_history_size}, {_T("sample group size"), entry_int, _T("10"), &sample_group_size}, {_T("acceptance P-value"), entry_double, _T("0.2"), &acceptance_p_value}, {_T("rejection P-value"), entry_double, _T("0.05"), &rejection_p_value}, {_T("base use multiplier"), entry_double, _T("1.0"), &base_use_multiplier}, {_T("max use multiplier"), entry_double, _T("2.0"), &max_use_multiplier}, {_T("peak finder accuracy"), entry_double, _T("0.05"), &peak_finder_accuracy}, {_T("peak finder range"), entry_double, _T("20.0"), &peak_finder_range}, {_T("base CPU load threshold"), entry_double, _T("0.50"), &base_cpu_load_threshold}, {_T("max CPU load threshold"), entry_double, _T("1.0"), &max_cpu_load_threshold}, {_T("read report discard threshold"), entry_double, _T("0.75"), &read_report_discard_threshold} }; Registry::read(HKEY_LOCAL_MACHINE, registry_parameter_path, registry_entry_count, registry_entries); #if WRITE_ALL_PARAMETERS bool registry_write_ok = Registry::write(HKEY_LOCAL_MACHINE, registry_parameter_path, registry_entry_count, registry_entries); if (!registry_write_ok) { PRINT_DEBUG_MSG((_T("GROVELER: Registry::write() to %s failed\n"), registry_parameter_path)); } #endif // WRITE_ALL_PARAMETERS } WriteParameters::WriteParameters( int backup_interval) { ASSERT(this != 0); ASSERT(backup_interval >= 0); this->backup_interval = backup_interval; static EntrySpec registry_entries[registry_entry_count] = { {_T("hash match ratio"), entry_double, _T("0.01"), &hash_match_ratio}, {_T("compare match ratio"), entry_double, _T("1.0"), &compare_match_ratio}, {_T("dequeue hash ratio"), entry_double, _T("1.0"), &dequeue_hash_ratio} }; for (int index = 0; index < registry_entry_count; index++) { this->registry_entries[index] = registry_entries[index]; } Registry::read(HKEY_LOCAL_MACHINE, registry_parameter_path, registry_entry_count, registry_entries); if (backup_interval > 0) { backup((void *)this); } } WriteParameters::~WriteParameters() { ASSERT(this != 0); ASSERT(backup_interval >= 0); backup((void *)this); } void WriteParameters::backup( void *context) { ASSERT(context != 0); unsigned int invokation_time = GET_TICK_COUNT(); WriteParameters *me = (WriteParameters *)context; ASSERT(me->backup_interval >= 0); bool registry_overwrite_ok = Registry::overwrite(HKEY_LOCAL_MACHINE, registry_parameter_path, registry_entry_count, me->registry_entries); if (!registry_overwrite_ok) { PRINT_DEBUG_MSG((_T("GROVELER: Registry::overwrite() to %s failed\n"), registry_parameter_path)); } event_timer.schedule(invokation_time + me->backup_interval, context, backup); }