int CompatUtility::GetCheckableActiveChecksEnabled(const Checkable::Ptr& checkable) { return (checkable->GetEnableActiveChecks() ? 1 : 0); }
void CheckerComponent::CheckThreadProc() { Utility::SetThreadName("Check Scheduler"); IcingaApplication::Ptr icingaApp = IcingaApplication::GetInstance(); boost::mutex::scoped_lock lock(m_Mutex); for (;;) { typedef boost::multi_index::nth_index<CheckableSet, 1>::type CheckTimeView; CheckTimeView& idx = boost::get<1>(m_IdleCheckables); while (idx.begin() == idx.end() && !m_Stopped) m_CV.wait(lock); if (m_Stopped) break; auto it = idx.begin(); CheckableScheduleInfo csi = *it; double wait = csi.NextCheck - Utility::GetTime(); //#ifdef I2_DEBUG // Log(LogDebug, "CheckerComponent") // << "Pending checks " << Checkable::GetPendingChecks() // << " vs. max concurrent checks " << icingaApp->GetMaxConcurrentChecks() << "."; //#endif /* I2_DEBUG */ if (Checkable::GetPendingChecks() >= icingaApp->GetMaxConcurrentChecks()) wait = 0.5; if (wait > 0) { /* Wait for the next check. */ m_CV.timed_wait(lock, boost::posix_time::milliseconds(long(wait * 1000))); continue; } Checkable::Ptr checkable = csi.Object; m_IdleCheckables.erase(checkable); bool forced = checkable->GetForceNextCheck(); bool check = true; if (!forced) { if (!checkable->IsReachable(DependencyCheckExecution)) { Log(LogNotice, "CheckerComponent") << "Skipping check for object '" << checkable->GetName() << "': Dependency failed."; check = false; } Host::Ptr host; Service::Ptr service; tie(host, service) = GetHostService(checkable); if (host && !service && (!checkable->GetEnableActiveChecks() || !icingaApp->GetEnableHostChecks())) { Log(LogNotice, "CheckerComponent") << "Skipping check for host '" << host->GetName() << "': active host checks are disabled"; check = false; } if (host && service && (!checkable->GetEnableActiveChecks() || !icingaApp->GetEnableServiceChecks())) { Log(LogNotice, "CheckerComponent") << "Skipping check for service '" << service->GetName() << "': active service checks are disabled"; check = false; } TimePeriod::Ptr tp = checkable->GetCheckPeriod(); if (tp && !tp->IsInside(Utility::GetTime())) { Log(LogNotice, "CheckerComponent") << "Skipping check for object '" << checkable->GetName() << "': not in check period '" << tp->GetName() << "'"; check = false; } } /* reschedule the checkable if checks are disabled */ if (!check) { m_IdleCheckables.insert(GetCheckableScheduleInfo(checkable)); lock.unlock(); Log(LogDebug, "CheckerComponent") << "Checks for checkable '" << checkable->GetName() << "' are disabled. Rescheduling check."; checkable->UpdateNextCheck(); lock.lock(); continue; } csi = GetCheckableScheduleInfo(checkable); Log(LogDebug, "CheckerComponent") << "Scheduling info for checkable '" << checkable->GetName() << "' (" << Utility::FormatDateTime("%Y-%m-%d %H:%M:%S %z", checkable->GetNextCheck()) << "): Object '" << csi.Object->GetName() << "', Next Check: " << Utility::FormatDateTime("%Y-%m-%d %H:%M:%S %z", csi.NextCheck) << "(" << csi.NextCheck << ")."; m_PendingCheckables.insert(csi); lock.unlock(); if (forced) { ObjectLock olock(checkable); checkable->SetForceNextCheck(false); } Log(LogDebug, "CheckerComponent") << "Executing check for '" << checkable->GetName() << "'"; Checkable::IncreasePendingChecks(); Utility::QueueAsyncCallback(std::bind(&CheckerComponent::ExecuteCheckHelper, CheckerComponent::Ptr(this), checkable)); lock.lock(); } }
int CompatUtility::GetCheckableCheckType(const Checkable::Ptr& checkable) { return (checkable->GetEnableActiveChecks() ? 0 : 1); }
void StatusDataWriter::DumpCheckableStatusAttrs(std::ostream& fp, const Checkable::Ptr& checkable) { CheckResult::Ptr cr = checkable->GetLastCheckResult(); EventCommand::Ptr eventcommand = checkable->GetEventCommand(); CheckCommand::Ptr checkcommand = checkable->GetCheckCommand(); fp << "\t" << "check_command=" << CompatUtility::GetCommandName(checkcommand) << "!" << CompatUtility::GetCheckableCommandArgs(checkable) << "\n" "\t" "event_handler=" << CompatUtility::GetCommandName(eventcommand) << "\n" "\t" "check_interval=" << (checkable->GetCheckInterval() / 60.0) << "\n" "\t" "retry_interval=" << (checkable->GetRetryInterval() / 60.0) << "\n" "\t" "has_been_checked=" << Convert::ToLong(checkable->HasBeenChecked()) << "\n" "\t" "should_be_scheduled=" << checkable->GetEnableActiveChecks() << "\n" "\t" "event_handler_enabled=" << Convert::ToLong(checkable->GetEnableEventHandler()) << "\n"; TimePeriod::Ptr checkPeriod = checkable->GetCheckPeriod(); if (checkPeriod) fp << "\t" "check_period" "\t" << checkPeriod->GetName() << "\n"; if (cr) { fp << "\t" << "check_execution_time=" << Convert::ToString(cr->CalculateExecutionTime()) << "\n" "\t" "check_latency=" << Convert::ToString(cr->CalculateLatency()) << "\n"; } Host::Ptr host; Service::Ptr service; tie(host, service) = GetHostService(checkable); if (service) { fp << "\t" "current_state=" << service->GetState() << "\n" "\t" "last_hard_state=" << service->GetLastHardState() << "\n" "\t" "last_time_ok=" << static_cast<int>(service->GetLastStateOK()) << "\n" "\t" "last_time_warn=" << static_cast<int>(service->GetLastStateWarning()) << "\n" "\t" "last_time_critical=" << static_cast<int>(service->GetLastStateCritical()) << "\n" "\t" "last_time_unknown=" << static_cast<int>(service->GetLastStateUnknown()) << "\n"; } else { int currentState = host->GetState(); if (currentState != HostUp && !host->IsReachable()) currentState = 2; /* hardcoded compat state */ fp << "\t" "current_state=" << currentState << "\n" "\t" "last_hard_state=" << host->GetLastHardState() << "\n" "\t" "last_time_up=" << static_cast<int>(host->GetLastStateUp()) << "\n" "\t" "last_time_down=" << static_cast<int>(host->GetLastStateDown()) << "\n"; } fp << "\t" "state_type=" << checkable->GetStateType() << "\n" "\t" "last_check=" << static_cast<long>(host->GetLastCheck()) << "\n"; if (cr) { fp << "\t" "plugin_output=" << CompatUtility::GetCheckResultOutput(cr) << "\n" "\t" "long_plugin_output=" << CompatUtility::GetCheckResultLongOutput(cr) << "\n" "\t" "performance_data=" << PluginUtility::FormatPerfdata(cr->GetPerformanceData()) << "\n"; } fp << "\t" << "next_check=" << static_cast<long>(checkable->GetNextCheck()) << "\n" "\t" "current_attempt=" << checkable->GetCheckAttempt() << "\n" "\t" "max_attempts=" << checkable->GetMaxCheckAttempts() << "\n" "\t" "last_state_change=" << static_cast<long>(checkable->GetLastStateChange()) << "\n" "\t" "last_hard_state_change=" << static_cast<long>(checkable->GetLastHardStateChange()) << "\n" "\t" "last_update=" << static_cast<long>(Utility::GetTime()) << "\n" "\t" "notifications_enabled=" << Convert::ToLong(checkable->GetEnableNotifications()) << "\n" "\t" "active_checks_enabled=" << Convert::ToLong(checkable->GetEnableActiveChecks()) << "\n" "\t" "passive_checks_enabled=" << Convert::ToLong(checkable->GetEnablePassiveChecks()) << "\n" "\t" "flap_detection_enabled=" << Convert::ToLong(checkable->GetEnableFlapping()) << "\n" "\t" "is_flapping=" << Convert::ToLong(checkable->IsFlapping()) << "\n" "\t" "percent_state_change=" << checkable->GetFlappingCurrent() << "\n" "\t" "problem_has_been_acknowledged=" << (checkable->GetAcknowledgement() != AcknowledgementNone ? 1 : 0) << "\n" "\t" "acknowledgement_type=" << checkable->GetAcknowledgement() << "\n" "\t" "acknowledgement_end_time=" << checkable->GetAcknowledgementExpiry() << "\n" "\t" "scheduled_downtime_depth=" << checkable->GetDowntimeDepth() << "\n" "\t" "last_notification=" << CompatUtility::GetCheckableNotificationLastNotification(checkable) << "\n" "\t" "next_notification=" << CompatUtility::GetCheckableNotificationNextNotification(checkable) << "\n" "\t" "current_notification_number=" << CompatUtility::GetCheckableNotificationNotificationNumber(checkable) << "\n" "\t" "is_reachable=" << Convert::ToLong(checkable->IsReachable()) << "\n"; }