mirror of https://github.com/Icinga/icinga2.git
342 lines
11 KiB
C++
342 lines
11 KiB
C++
/******************************************************************************
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* Icinga 2 *
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* Copyright (C) 2012-2018 Icinga Development Team (https://www.icinga.com/) *
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* *
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* This program is free software; you can redistribute it and/or *
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* modify it under the terms of the GNU General Public License *
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* as published by the Free Software Foundation; either version 2 *
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* of the License, or (at your option) any later version. *
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* *
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* This program is distributed in the hope that it will be useful, *
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* but WITHOUT ANY WARRANTY; without even the implied warranty of *
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
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* GNU General Public License for more details. *
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* *
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* You should have received a copy of the GNU General Public License *
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* along with this program; if not, write to the Free Software Foundation *
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* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA. *
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******************************************************************************/
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#include "icinga/cib.hpp"
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#include "icinga/host.hpp"
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#include "icinga/service.hpp"
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#include "base/objectlock.hpp"
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#include "base/utility.hpp"
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#include "base/perfdatavalue.hpp"
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#include "base/configtype.hpp"
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#include "base/statsfunction.hpp"
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using namespace icinga;
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RingBuffer CIB::m_ActiveHostChecksStatistics(15 * 60);
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RingBuffer CIB::m_ActiveServiceChecksStatistics(15 * 60);
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RingBuffer CIB::m_PassiveHostChecksStatistics(15 * 60);
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RingBuffer CIB::m_PassiveServiceChecksStatistics(15 * 60);
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void CIB::UpdateActiveHostChecksStatistics(long tv, int num)
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{
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m_ActiveHostChecksStatistics.InsertValue(tv, num);
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}
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void CIB::UpdateActiveServiceChecksStatistics(long tv, int num)
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{
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m_ActiveServiceChecksStatistics.InsertValue(tv, num);
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}
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int CIB::GetActiveHostChecksStatistics(long timespan)
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{
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return m_ActiveHostChecksStatistics.UpdateAndGetValues(Utility::GetTime(), timespan);
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}
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int CIB::GetActiveServiceChecksStatistics(long timespan)
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{
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return m_ActiveServiceChecksStatistics.UpdateAndGetValues(Utility::GetTime(), timespan);
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}
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void CIB::UpdatePassiveHostChecksStatistics(long tv, int num)
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{
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m_PassiveServiceChecksStatistics.InsertValue(tv, num);
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}
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void CIB::UpdatePassiveServiceChecksStatistics(long tv, int num)
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{
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m_PassiveServiceChecksStatistics.InsertValue(tv, num);
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}
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int CIB::GetPassiveHostChecksStatistics(long timespan)
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{
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return m_PassiveHostChecksStatistics.UpdateAndGetValues(Utility::GetTime(), timespan);
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}
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int CIB::GetPassiveServiceChecksStatistics(long timespan)
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{
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return m_PassiveServiceChecksStatistics.UpdateAndGetValues(Utility::GetTime(), timespan);
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}
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CheckableCheckStatistics CIB::CalculateHostCheckStats()
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{
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double min_latency = -1, max_latency = 0, sum_latency = 0;
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int count_latency = 0;
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double min_execution_time = -1, max_execution_time = 0, sum_execution_time = 0;
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int count_execution_time = 0;
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bool checkresult = false;
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for (const Host::Ptr& host : ConfigType::GetObjectsByType<Host>()) {
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ObjectLock olock(host);
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CheckResult::Ptr cr = host->GetLastCheckResult();
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if (!cr)
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continue;
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/* set to true, we have a checkresult */
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checkresult = true;
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/* latency */
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double latency = cr->CalculateLatency();
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if (min_latency == -1 || latency < min_latency)
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min_latency = latency;
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if (latency > max_latency)
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max_latency = latency;
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sum_latency += latency;
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count_latency++;
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/* execution_time */
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double execution_time = cr->CalculateExecutionTime();
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if (min_execution_time == -1 || execution_time < min_execution_time)
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min_execution_time = execution_time;
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if (execution_time > max_execution_time)
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max_execution_time = execution_time;
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sum_execution_time += execution_time;
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count_execution_time++;
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}
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if (!checkresult) {
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min_latency = 0;
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min_execution_time = 0;
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}
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CheckableCheckStatistics ccs;
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ccs.min_latency = min_latency;
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ccs.max_latency = max_latency;
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ccs.avg_latency = sum_latency / count_latency;
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ccs.min_execution_time = min_execution_time;
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ccs.max_execution_time = max_execution_time;
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ccs.avg_execution_time = sum_execution_time / count_execution_time;
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return ccs;
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}
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CheckableCheckStatistics CIB::CalculateServiceCheckStats()
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{
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double min_latency = -1, max_latency = 0, sum_latency = 0;
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int count_latency = 0;
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double min_execution_time = -1, max_execution_time = 0, sum_execution_time = 0;
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int count_execution_time = 0;
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bool checkresult = false;
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for (const Service::Ptr& service : ConfigType::GetObjectsByType<Service>()) {
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ObjectLock olock(service);
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CheckResult::Ptr cr = service->GetLastCheckResult();
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if (!cr)
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continue;
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/* set to true, we have a checkresult */
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checkresult = true;
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/* latency */
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double latency = cr->CalculateLatency();
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if (min_latency == -1 || latency < min_latency)
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min_latency = latency;
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if (latency > max_latency)
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max_latency = latency;
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sum_latency += latency;
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count_latency++;
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/* execution_time */
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double execution_time = cr->CalculateExecutionTime();
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if (min_execution_time == -1 || execution_time < min_execution_time)
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min_execution_time = execution_time;
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if (execution_time > max_execution_time)
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max_execution_time = execution_time;
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sum_execution_time += execution_time;
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count_execution_time++;
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}
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if (!checkresult) {
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min_latency = 0;
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min_execution_time = 0;
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}
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CheckableCheckStatistics ccs;
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ccs.min_latency = min_latency;
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ccs.max_latency = max_latency;
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ccs.avg_latency = sum_latency / count_latency;
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ccs.min_execution_time = min_execution_time;
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ccs.max_execution_time = max_execution_time;
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ccs.avg_execution_time = sum_execution_time / count_execution_time;
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return ccs;
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}
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ServiceStatistics CIB::CalculateServiceStats()
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{
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ServiceStatistics ss = {};
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for (const Service::Ptr& service : ConfigType::GetObjectsByType<Service>()) {
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ObjectLock olock(service);
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CheckResult::Ptr cr = service->GetLastCheckResult();
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if (service->GetState() == ServiceOK)
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ss.services_ok++;
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if (service->GetState() == ServiceWarning)
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ss.services_warning++;
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if (service->GetState() == ServiceCritical)
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ss.services_critical++;
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if (service->GetState() == ServiceUnknown)
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ss.services_unknown++;
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if (!cr)
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ss.services_pending++;
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if (!service->IsReachable())
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ss.services_unreachable++;
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if (service->IsFlapping())
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ss.services_flapping++;
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if (service->IsInDowntime())
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ss.services_in_downtime++;
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if (service->IsAcknowledged())
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ss.services_acknowledged++;
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}
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return ss;
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}
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HostStatistics CIB::CalculateHostStats()
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{
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HostStatistics hs = {};
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for (const Host::Ptr& host : ConfigType::GetObjectsByType<Host>()) {
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ObjectLock olock(host);
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if (host->IsReachable()) {
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if (host->GetState() == HostUp)
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hs.hosts_up++;
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if (host->GetState() == HostDown)
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hs.hosts_down++;
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} else
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hs.hosts_unreachable++;
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if (!host->GetLastCheckResult())
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hs.hosts_pending++;
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if (host->IsFlapping())
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hs.hosts_flapping++;
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if (host->IsInDowntime())
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hs.hosts_in_downtime++;
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if (host->IsAcknowledged())
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hs.hosts_acknowledged++;
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}
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return hs;
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}
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/*
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* 'perfdata' must be a flat dictionary with double values
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* 'status' dictionary can contain multiple levels of dictionaries
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*/
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std::pair<Dictionary::Ptr, Array::Ptr> CIB::GetFeatureStats()
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{
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Dictionary::Ptr status = new Dictionary();
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Array::Ptr perfdata = new Array();
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Dictionary::Ptr statsFunctions = ScriptGlobal::Get("StatsFunctions", &Empty);
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if (statsFunctions) {
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ObjectLock olock(statsFunctions);
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for (const Dictionary::Pair& kv : statsFunctions)
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static_cast<Function::Ptr>(kv.second)->Invoke({ status, perfdata });
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}
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return std::make_pair(status, perfdata);
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}
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REGISTER_STATSFUNCTION(CIB, &CIB::StatsFunc);
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void CIB::StatsFunc(const Dictionary::Ptr& status, const Array::Ptr& perfdata) {
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double interval = Utility::GetTime() - Application::GetStartTime();
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if (interval > 60)
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interval = 60;
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status->Set("active_host_checks", GetActiveHostChecksStatistics(interval) / interval);
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status->Set("passive_host_checks", GetPassiveHostChecksStatistics(interval) / interval);
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status->Set("active_host_checks_1min", GetActiveHostChecksStatistics(60));
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status->Set("passive_host_checks_1min", GetPassiveHostChecksStatistics(60));
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status->Set("active_host_checks_5min", GetActiveHostChecksStatistics(60 * 5));
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status->Set("passive_host_checks_5min", GetPassiveHostChecksStatistics(60 * 5));
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status->Set("active_host_checks_15min", GetActiveHostChecksStatistics(60 * 15));
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status->Set("passive_host_checks_15min", GetPassiveHostChecksStatistics(60 * 15));
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status->Set("active_service_checks", GetActiveServiceChecksStatistics(interval) / interval);
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status->Set("passive_service_checks", GetPassiveServiceChecksStatistics(interval) / interval);
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status->Set("active_service_checks_1min", GetActiveServiceChecksStatistics(60));
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status->Set("passive_service_checks_1min", GetPassiveServiceChecksStatistics(60));
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status->Set("active_service_checks_5min", GetActiveServiceChecksStatistics(60 * 5));
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status->Set("passive_service_checks_5min", GetPassiveServiceChecksStatistics(60 * 5));
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status->Set("active_service_checks_15min", GetActiveServiceChecksStatistics(60 * 15));
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status->Set("passive_service_checks_15min", GetPassiveServiceChecksStatistics(60 * 15));
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CheckableCheckStatistics scs = CalculateServiceCheckStats();
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status->Set("min_latency", scs.min_latency);
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status->Set("max_latency", scs.max_latency);
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status->Set("avg_latency", scs.avg_latency);
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status->Set("min_execution_time", scs.min_execution_time);
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status->Set("max_execution_time", scs.max_execution_time);
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status->Set("avg_execution_time", scs.avg_execution_time);
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ServiceStatistics ss = CalculateServiceStats();
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status->Set("num_services_ok", ss.services_ok);
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status->Set("num_services_warning", ss.services_warning);
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status->Set("num_services_critical", ss.services_critical);
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status->Set("num_services_unknown", ss.services_unknown);
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status->Set("num_services_pending", ss.services_pending);
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status->Set("num_services_unreachable", ss.services_unreachable);
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status->Set("num_services_flapping", ss.services_flapping);
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status->Set("num_services_in_downtime", ss.services_in_downtime);
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status->Set("num_services_acknowledged", ss.services_acknowledged);
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double uptime = Utility::GetTime() - Application::GetStartTime();
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status->Set("uptime", uptime);
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HostStatistics hs = CalculateHostStats();
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status->Set("num_hosts_up", hs.hosts_up);
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status->Set("num_hosts_down", hs.hosts_down);
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status->Set("num_hosts_pending", hs.hosts_pending);
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status->Set("num_hosts_unreachable", hs.hosts_unreachable);
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status->Set("num_hosts_flapping", hs.hosts_flapping);
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status->Set("num_hosts_in_downtime", hs.hosts_in_downtime);
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status->Set("num_hosts_acknowledged", hs.hosts_acknowledged);
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}
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