/****************************************************************************** * Icinga 2 * * Copyright (C) 2012-2016 Icinga Development Team (https://www.icinga.org/) * * * * This program is free software; you can redistribute it and/or * * modify it under the terms of the GNU General Public License * * as published by the Free Software Foundation; either version 2 * * of the License, or (at your option) any later version. * * * * This program is distributed in the hope that it will be useful, * * but WITHOUT ANY WARRANTY; without even the implied warranty of * * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * * GNU General Public License for more details. * * * * You should have received a copy of the GNU General Public License * * along with this program; if not, write to the Free Software Foundation * * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA. * ******************************************************************************/ #include "perfdata/graphitewriter.hpp" #include "perfdata/graphitewriter.tcpp" #include "icinga/service.hpp" #include "icinga/macroprocessor.hpp" #include "icinga/icingaapplication.hpp" #include "icinga/compatutility.hpp" #include "icinga/perfdatavalue.hpp" #include "base/tcpsocket.hpp" #include "base/configtype.hpp" #include "base/objectlock.hpp" #include "base/logger.hpp" #include "base/convert.hpp" #include "base/utility.hpp" #include "base/application.hpp" #include "base/stream.hpp" #include "base/networkstream.hpp" #include "base/exception.hpp" #include "base/statsfunction.hpp" #include #include #include #include #include using namespace icinga; REGISTER_TYPE(GraphiteWriter); REGISTER_STATSFUNCTION(GraphiteWriter, &GraphiteWriter::StatsFunc); void GraphiteWriter::StatsFunc(const Dictionary::Ptr& status, const Array::Ptr&) { Dictionary::Ptr nodes = new Dictionary(); BOOST_FOREACH(const GraphiteWriter::Ptr& graphitewriter, ConfigType::GetObjectsByType()) { nodes->Set(graphitewriter->GetName(), 1); //add more stats } status->Set("graphitewriter", nodes); } void GraphiteWriter::Start(bool runtimeCreated) { ObjectImpl::Start(runtimeCreated); m_ReconnectTimer = new Timer(); m_ReconnectTimer->SetInterval(10); m_ReconnectTimer->OnTimerExpired.connect(boost::bind(&GraphiteWriter::ReconnectTimerHandler, this)); m_ReconnectTimer->Start(); m_ReconnectTimer->Reschedule(0); Service::OnNewCheckResult.connect(boost::bind(&GraphiteWriter::CheckResultHandler, this, _1, _2)); } void GraphiteWriter::ReconnectTimerHandler(void) { if (m_Stream) return; TcpSocket::Ptr socket = new TcpSocket(); Log(LogNotice, "GraphiteWriter") << "Reconnecting to Graphite on host '" << GetHost() << "' port '" << GetPort() << "'."; try { socket->Connect(GetHost(), GetPort()); } catch (std::exception&) { Log(LogCritical, "GraphiteWriter") << "Can't connect to Graphite on host '" << GetHost() << "' port '" << GetPort() << "'."; return; } m_Stream = new NetworkStream(socket); } void GraphiteWriter::CheckResultHandler(const Checkable::Ptr& checkable, const CheckResult::Ptr& cr) { CONTEXT("Processing check result for '" + checkable->GetName() + "'"); if (!IcingaApplication::GetInstance()->GetEnablePerfdata() || !checkable->GetEnablePerfdata()) return; Service::Ptr service = dynamic_pointer_cast(checkable); Host::Ptr host; if (service) host = service->GetHost(); else host = static_pointer_cast(checkable); MacroProcessor::ResolverList resolvers; if (service) resolvers.push_back(std::make_pair("service", service)); resolvers.push_back(std::make_pair("host", host)); resolvers.push_back(std::make_pair("icinga", IcingaApplication::GetInstance())); String prefix; double ts = cr->GetExecutionEnd(); /* new mode below. old mode in else tree with 2.4, deprecate it in 2.6 */ if (!GetEnableLegacyMode()) { if (service) { prefix = MacroProcessor::ResolveMacros(GetServiceNameTemplate(), resolvers, cr, NULL, boost::bind(&GraphiteWriter::EscapeMacroMetric, _1, false)); } else { prefix = MacroProcessor::ResolveMacros(GetHostNameTemplate(), resolvers, cr, NULL, boost::bind(&GraphiteWriter::EscapeMacroMetric, _1, false)); } String prefix_perfdata = prefix + ".perfdata"; String prefix_metadata = prefix + ".metadata"; if (GetEnableSendMetadata()) { if (service) { SendMetric(prefix_metadata, "state", service->GetState(), ts); } else { SendMetric(prefix_metadata, "state", host->GetState(), ts); } SendMetric(prefix_metadata, "current_attempt", checkable->GetCheckAttempt(), ts); SendMetric(prefix_metadata, "max_check_attempts", checkable->GetMaxCheckAttempts(), ts); SendMetric(prefix_metadata, "state_type", checkable->GetStateType(), ts); SendMetric(prefix_metadata, "reachable", checkable->IsReachable(), ts); SendMetric(prefix_metadata, "downtime_depth", checkable->GetDowntimeDepth(), ts); SendMetric(prefix_metadata, "acknowledgement", checkable->GetAcknowledgement(), ts); SendMetric(prefix_metadata, "latency", cr->CalculateLatency(), ts); SendMetric(prefix_metadata, "execution_time", cr->CalculateExecutionTime(), ts); } SendPerfdata(prefix_perfdata, cr, ts); } else { if (service) { prefix = MacroProcessor::ResolveMacros(GetServiceNameTemplate(), resolvers, cr, NULL, boost::bind(&GraphiteWriter::EscapeMacroMetric, _1, true)); SendMetric(prefix, "state", service->GetState(), ts); } else { prefix = MacroProcessor::ResolveMacros(GetHostNameTemplate(), resolvers, cr, NULL, boost::bind(&GraphiteWriter::EscapeMacroMetric, _1, true)); SendMetric(prefix, "state", host->GetState(), ts); } SendMetric(prefix, "current_attempt", checkable->GetCheckAttempt(), ts); SendMetric(prefix, "max_check_attempts", checkable->GetMaxCheckAttempts(), ts); SendMetric(prefix, "state_type", checkable->GetStateType(), ts); SendMetric(prefix, "reachable", checkable->IsReachable(), ts); SendMetric(prefix, "downtime_depth", checkable->GetDowntimeDepth(), ts); SendMetric(prefix, "acknowledgement", checkable->GetAcknowledgement(), ts); SendMetric(prefix, "latency", cr->CalculateLatency(), ts); SendMetric(prefix, "execution_time", cr->CalculateExecutionTime(), ts); SendPerfdata(prefix, cr, ts); } } void GraphiteWriter::SendPerfdata(const String& prefix, const CheckResult::Ptr& cr, double ts) { Array::Ptr perfdata = cr->GetPerformanceData(); if (!perfdata) return; ObjectLock olock(perfdata); BOOST_FOREACH(const Value& val, perfdata) { PerfdataValue::Ptr pdv; if (val.IsObjectType()) pdv = val; else { try { pdv = PerfdataValue::Parse(val); } catch (const std::exception&) { Log(LogWarning, "GraphiteWriter") << "Ignoring invalid perfdata value: " << val; continue; } } /* new mode below. old mode in else tree with 2.4, deprecate it in 2.6 */ if (!GetEnableLegacyMode()) { String escaped_key = EscapeMetricLabel(pdv->GetLabel()); SendMetric(prefix, escaped_key + ".value", pdv->GetValue(), ts); if (GetEnableSendThresholds()) { if (pdv->GetCrit()) SendMetric(prefix, escaped_key + ".crit", pdv->GetCrit(), ts); if (pdv->GetWarn()) SendMetric(prefix, escaped_key + ".warn", pdv->GetWarn(), ts); if (pdv->GetMin()) SendMetric(prefix, escaped_key + ".min", pdv->GetMin(), ts); if (pdv->GetMax()) SendMetric(prefix, escaped_key + ".max", pdv->GetMax(), ts); } } else { String escaped_key = EscapeMetric(pdv->GetLabel()); boost::algorithm::replace_all(escaped_key, "::", "."); SendMetric(prefix, escaped_key, pdv->GetValue(), ts); if (pdv->GetCrit()) SendMetric(prefix, escaped_key + "_crit", pdv->GetCrit(), ts); if (pdv->GetWarn()) SendMetric(prefix, escaped_key + "_warn", pdv->GetWarn(), ts); if (pdv->GetMin()) SendMetric(prefix, escaped_key + "_min", pdv->GetMin(), ts); if (pdv->GetMax()) SendMetric(prefix, escaped_key + "_max", pdv->GetMax(), ts); } } } void GraphiteWriter::SendMetric(const String& prefix, const String& name, double value, double ts) { std::ostringstream msgbuf; msgbuf << prefix << "." << name << " " << Convert::ToString(value) << " " << static_cast(ts); Log(LogDebug, "GraphiteWriter") << "Add to metric list:'" << msgbuf.str() << "'."; // do not send \n to debug log msgbuf << "\n"; String metric = msgbuf.str(); ObjectLock olock(this); if (!m_Stream) return; try { m_Stream->Write(metric.CStr(), metric.GetLength()); } catch (const std::exception& ex) { Log(LogCritical, "GraphiteWriter") << "Cannot write to TCP socket on host '" << GetHost() << "' port '" << GetPort() << "'."; m_Stream.reset(); } } String GraphiteWriter::EscapeMetric(const String& str, bool legacyMode) { String result = str; //don't allow '.' in metric prefixes boost::replace_all(result, " ", "_"); boost::replace_all(result, ".", "_"); boost::replace_all(result, "\\", "_"); boost::replace_all(result, "/", "_"); if (legacyMode) boost::replace_all(result, "-", "_"); return result; } String GraphiteWriter::EscapeMetricLabel(const String& str) { String result = str; //allow to pass '.' in perfdata labels boost::replace_all(result, " ", "_"); boost::replace_all(result, "\\", "_"); boost::replace_all(result, "/", "_"); boost::replace_all(result, "::", "."); return result; } Value GraphiteWriter::EscapeMacroMetric(const Value& value, bool legacyMode) { if (value.IsObjectType()) { Array::Ptr arr = value; Array::Ptr result = new Array(); ObjectLock olock(arr); BOOST_FOREACH(const Value& arg, arr) { result->Add(EscapeMetric(arg, legacyMode)); } return Utility::Join(result, '.'); } else return EscapeMetric(value, legacyMode); } void GraphiteWriter::ValidateHostNameTemplate(const String& value, const ValidationUtils& utils) { ObjectImpl::ValidateHostNameTemplate(value, utils); if (!MacroProcessor::ValidateMacroString(value)) BOOST_THROW_EXCEPTION(ValidationError(this, boost::assign::list_of("host_name_template"), "Closing $ not found in macro format string '" + value + "'.")); } void GraphiteWriter::ValidateServiceNameTemplate(const String& value, const ValidationUtils& utils) { ObjectImpl::ValidateServiceNameTemplate(value, utils); if (!MacroProcessor::ValidateMacroString(value)) BOOST_THROW_EXCEPTION(ValidationError(this, boost::assign::list_of("service_name_template"), "Closing $ not found in macro format string '" + value + "'.")); }