void InfluxdbWriter::SendPerfdata(const Dictionary::Ptr& tmpl, const Checkable::Ptr& checkable, const CheckResult::Ptr& cr, double ts) { Array::Ptr perfdata = cr->GetPerformanceData(); if (!perfdata) return; ObjectLock olock(perfdata); for (const Value& val : perfdata) { PerfdataValue::Ptr pdv; if (val.IsObjectType<PerfdataValue>()) pdv = val; else { try { pdv = PerfdataValue::Parse(val); } catch (const std::exception&) { Log(LogWarning, "InfluxdbWriter") << "Ignoring invalid perfdata value: " << val; continue; } } Dictionary::Ptr fields = new Dictionary(); fields->Set(String("value"), pdv->GetValue()); if (GetEnableSendThresholds()) { if (pdv->GetCrit()) fields->Set(String("crit"), pdv->GetCrit()); if (pdv->GetWarn()) fields->Set(String("warn"), pdv->GetWarn()); if (pdv->GetMin()) fields->Set(String("min"), pdv->GetMin()); if (pdv->GetMax()) fields->Set(String("max"), pdv->GetMax()); } if (GetEnableSendMetadata()) { Host::Ptr host; Service::Ptr service; boost::tie(host, service) = GetHostService(checkable); if (service) fields->Set(String("state"), FormatInteger(service->GetState())); else fields->Set(String("state"), FormatInteger(host->GetState())); fields->Set(String("current_attempt"), FormatInteger(checkable->GetCheckAttempt())); fields->Set(String("max_check_attempts"), FormatInteger(checkable->GetMaxCheckAttempts())); fields->Set(String("state_type"), FormatInteger(checkable->GetStateType())); fields->Set(String("reachable"), FormatBoolean(checkable->IsReachable())); fields->Set(String("downtime_depth"), FormatInteger(checkable->GetDowntimeDepth())); fields->Set(String("acknowledgement"), FormatInteger(checkable->GetAcknowledgement())); fields->Set(String("latency"), cr->CalculateLatency()); fields->Set(String("execution_time"), cr->CalculateExecutionTime()); } SendMetric(tmpl, pdv->GetLabel(), fields, ts); } }
void OpenTsdbWriter::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<Service>(checkable); Host::Ptr host; if (service) host = service->GetHost(); else host = static_pointer_cast<Host>(checkable); String metric; std::map<String, String> tags; String escaped_hostName = EscapeTag(host->GetName()); tags["host"] = escaped_hostName; double ts = cr->GetExecutionEnd(); if (service) { String serviceName = service->GetShortName(); String escaped_serviceName = EscapeMetric(serviceName); metric = "icinga.service." + escaped_serviceName; SendMetric(metric + ".state", tags, service->GetState(), ts); } else { metric = "icinga.host"; SendMetric(metric + ".state", tags, host->GetState(), ts); } SendMetric(metric + ".state_type", tags, checkable->GetStateType(), ts); SendMetric(metric + ".reachable", tags, checkable->IsReachable(), ts); SendMetric(metric + ".downtime_depth", tags, checkable->GetDowntimeDepth(), ts); SendMetric(metric + ".acknowledgement", tags, checkable->GetAcknowledgement(), ts); SendPerfdata(metric, tags, cr, ts); metric = "icinga.check"; if (service) { tags["type"] = "service"; String serviceName = service->GetShortName(); String escaped_serviceName = EscapeTag(serviceName); tags["service"] = escaped_serviceName; } else { tags["type"] = "host"; } SendMetric(metric + ".current_attempt", tags, checkable->GetCheckAttempt(), ts); SendMetric(metric + ".max_check_attempts", tags, checkable->GetMaxCheckAttempts(), ts); SendMetric(metric + ".latency", tags, cr->CalculateLatency(), ts); SendMetric(metric + ".execution_time", tags, cr->CalculateExecutionTime(), ts); }
Value ServicesTable::ExecutionTimeAccessor(const Value& row) { Service::Ptr service = static_cast<Service::Ptr>(row); if (!service) return Empty; CheckResult::Ptr cr = service->GetLastCheckResult(); if (!cr) return Empty; return cr->CalculateExecutionTime(); }
void LogstashWriter::CheckResultHandler(const Checkable::Ptr& checkable, const CheckResult::Ptr& cr) { CONTEXT("LOGSTASH Processing check result for '" + checkable->GetName() + "'"); Log(LogDebug, "LogstashWriter") << "Processing check result for '" << checkable->GetName() << "'"; Host::Ptr host; Service::Ptr service; tie(host, service) = GetHostService(checkable); Dictionary::Ptr fields = new Dictionary(); if (service) { fields->Set("service_name", service->GetShortName()); fields->Set("service_state", Service::StateToString(service->GetState())); fields->Set("last_state", service->GetLastState()); fields->Set("last_hard_state", service->GetLastHardState()); } else { fields->Set("last_state", host->GetLastState()); fields->Set("last_hard_state", host->GetLastHardState()); } fields->Set("host_name", host->GetName()); fields->Set("type", "CheckResult"); fields->Set("state", service ? Service::StateToString(service->GetState()) : Host::StateToString(host->GetState())); fields->Set("current_check_attempt", checkable->GetCheckAttempt()); fields->Set("max_check_attempts", checkable->GetMaxCheckAttempts()); fields->Set("latency", cr->CalculateLatency()); fields->Set("execution_time", cr->CalculateExecutionTime()); fields->Set("reachable", checkable->IsReachable()); double ts = Utility::GetTime(); if (cr) { fields->Set("plugin_output", cr->GetOutput()); fields->Set("check_source", cr->GetCheckSource()); ts = cr->GetExecutionEnd(); } Array::Ptr perfdata = cr->GetPerformanceData(); if (perfdata) { Dictionary::Ptr perfdataItems = new Dictionary(); ObjectLock olock(perfdata); for (const Value& val : perfdata) { PerfdataValue::Ptr pdv; if (val.IsObjectType<PerfdataValue>()) pdv = val; else { try { pdv = PerfdataValue::Parse(val); } catch (const std::exception&) { Log(LogWarning, "LogstashWriter") << "Ignoring invalid perfdata value: '" << val << "' for object '" << checkable->GetName() << "'."; continue; } } Dictionary::Ptr perfdataItem = new Dictionary(); perfdataItem->Set("value", pdv->GetValue()); if (pdv->GetMin()) perfdataItem->Set("min", pdv->GetMin()); if (pdv->GetMax()) perfdataItem->Set("max", pdv->GetMax()); if (pdv->GetWarn()) perfdataItem->Set("warn", pdv->GetWarn()); if (pdv->GetCrit()) perfdataItem->Set("crit", pdv->GetCrit()); String escaped_key = EscapeMetricLabel(pdv->GetLabel()); perfdataItems->Set(escaped_key, perfdataItem); } fields->Set("performance_data", perfdataItems); } SendLogMessage(ComposeLogstashMessage(fields, GetSource(), ts)); }
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"; }
void InfluxdbWriter::CheckResultHandlerWQ(const Checkable::Ptr& checkable, const CheckResult::Ptr& cr) { AssertOnWorkQueue(); CONTEXT("Processing check result for '" + checkable->GetName() + "'"); if (!IcingaApplication::GetInstance()->GetEnablePerfdata() || !checkable->GetEnablePerfdata()) return; Host::Ptr host; Service::Ptr service; tie(host, service) = GetHostService(checkable); MacroProcessor::ResolverList resolvers; if (service) resolvers.emplace_back("service", service); resolvers.emplace_back("host", host); resolvers.emplace_back("icinga", IcingaApplication::GetInstance()); String prefix; double ts = cr->GetExecutionEnd(); // Clone the template and perform an in-place macro expansion of measurement and tag values Dictionary::Ptr tmpl_clean = service ? GetServiceTemplate() : GetHostTemplate(); Dictionary::Ptr tmpl = static_pointer_cast<Dictionary>(tmpl_clean->Clone()); tmpl->Set("measurement", MacroProcessor::ResolveMacros(tmpl->Get("measurement"), resolvers, cr)); Dictionary::Ptr tags = tmpl->Get("tags"); if (tags) { ObjectLock olock(tags); for (const Dictionary::Pair& pair : tags) { String missing_macro; Value value = MacroProcessor::ResolveMacros(pair.second, resolvers, cr, &missing_macro); if (!missing_macro.IsEmpty()) continue; tags->Set(pair.first, value); } } Array::Ptr perfdata = cr->GetPerformanceData(); if (perfdata) { ObjectLock olock(perfdata); for (const Value& val : perfdata) { PerfdataValue::Ptr pdv; if (val.IsObjectType<PerfdataValue>()) pdv = val; else { try { pdv = PerfdataValue::Parse(val); } catch (const std::exception&) { Log(LogWarning, "InfluxdbWriter") << "Ignoring invalid perfdata value: " << val; continue; } } Dictionary::Ptr fields = new Dictionary(); fields->Set("value", pdv->GetValue()); if (GetEnableSendThresholds()) { if (pdv->GetCrit()) fields->Set("crit", pdv->GetCrit()); if (pdv->GetWarn()) fields->Set("warn", pdv->GetWarn()); if (pdv->GetMin()) fields->Set("min", pdv->GetMin()); if (pdv->GetMax()) fields->Set("max", pdv->GetMax()); } if (!pdv->GetUnit().IsEmpty()) { fields->Set("unit", pdv->GetUnit()); } SendMetric(tmpl, pdv->GetLabel(), fields, ts); } } if (GetEnableSendMetadata()) { Host::Ptr host; Service::Ptr service; tie(host, service) = GetHostService(checkable); Dictionary::Ptr fields = new Dictionary(); if (service) fields->Set("state", new InfluxdbInteger(service->GetState())); else fields->Set("state", new InfluxdbInteger(host->GetState())); fields->Set("current_attempt", new InfluxdbInteger(checkable->GetCheckAttempt())); fields->Set("max_check_attempts", new InfluxdbInteger(checkable->GetMaxCheckAttempts())); fields->Set("state_type", new InfluxdbInteger(checkable->GetStateType())); fields->Set("reachable", checkable->IsReachable()); fields->Set("downtime_depth", new InfluxdbInteger(checkable->GetDowntimeDepth())); fields->Set("acknowledgement", new InfluxdbInteger(checkable->GetAcknowledgement())); fields->Set("latency", cr->CalculateLatency()); fields->Set("execution_time", cr->CalculateExecutionTime()); SendMetric(tmpl, Empty, fields, ts); } }
Dictionary::Ptr HostDbObject::GetStatusFields(void) const { Dictionary::Ptr fields = new Dictionary(); Host::Ptr host = static_pointer_cast<Host>(GetObject()); CheckResult::Ptr cr = host->GetLastCheckResult(); if (cr) { fields->Set("output", CompatUtility::GetCheckResultOutput(cr)); fields->Set("long_output", CompatUtility::GetCheckResultLongOutput(cr)); fields->Set("perfdata", CompatUtility::GetCheckResultPerfdata(cr)); fields->Set("check_source", cr->GetCheckSource()); } fields->Set("current_state", CompatUtility::GetHostCurrentState(host)); fields->Set("has_been_checked", CompatUtility::GetCheckableHasBeenChecked(host)); fields->Set("should_be_scheduled", host->GetEnableActiveChecks()); fields->Set("current_check_attempt", host->GetCheckAttempt()); fields->Set("max_check_attempts", host->GetMaxCheckAttempts()); if (cr) fields->Set("last_check", DbValue::FromTimestamp(cr->GetScheduleEnd())); fields->Set("next_check", DbValue::FromTimestamp(host->GetNextCheck())); fields->Set("check_type", CompatUtility::GetCheckableCheckType(host)); fields->Set("last_state_change", DbValue::FromTimestamp(host->GetLastStateChange())); fields->Set("last_hard_state_change", DbValue::FromTimestamp(host->GetLastHardStateChange())); fields->Set("last_hard_state", host->GetLastHardState()); fields->Set("last_time_up", DbValue::FromTimestamp(static_cast<int>(host->GetLastStateUp()))); fields->Set("last_time_down", DbValue::FromTimestamp(static_cast<int>(host->GetLastStateDown()))); fields->Set("last_time_unreachable", DbValue::FromTimestamp(static_cast<int>(host->GetLastStateUnreachable()))); fields->Set("state_type", host->GetStateType()); fields->Set("last_notification", DbValue::FromTimestamp(CompatUtility::GetCheckableNotificationLastNotification(host))); fields->Set("next_notification", DbValue::FromTimestamp(CompatUtility::GetCheckableNotificationNextNotification(host))); fields->Set("no_more_notifications", Empty); fields->Set("notifications_enabled", CompatUtility::GetCheckableNotificationsEnabled(host)); fields->Set("problem_has_been_acknowledged", CompatUtility::GetCheckableProblemHasBeenAcknowledged(host)); fields->Set("acknowledgement_type", CompatUtility::GetCheckableAcknowledgementType(host)); fields->Set("current_notification_number", CompatUtility::GetCheckableNotificationNotificationNumber(host)); fields->Set("passive_checks_enabled", CompatUtility::GetCheckablePassiveChecksEnabled(host)); fields->Set("active_checks_enabled", CompatUtility::GetCheckableActiveChecksEnabled(host)); fields->Set("event_handler_enabled", CompatUtility::GetCheckableEventHandlerEnabled(host)); fields->Set("flap_detection_enabled", CompatUtility::GetCheckableFlapDetectionEnabled(host)); fields->Set("is_flapping", CompatUtility::GetCheckableIsFlapping(host)); fields->Set("percent_state_change", CompatUtility::GetCheckablePercentStateChange(host)); if (cr) { fields->Set("latency", Convert::ToString(cr->CalculateLatency())); fields->Set("execution_time", Convert::ToString(cr->CalculateExecutionTime())); } fields->Set("scheduled_downtime_depth", host->GetDowntimeDepth()); fields->Set("failure_prediction_enabled", Empty); fields->Set("process_performance_data", CompatUtility::GetCheckableProcessPerformanceData(host)); fields->Set("obsess_over_host", Empty); fields->Set("event_handler", CompatUtility::GetCheckableEventHandler(host)); fields->Set("check_command", CompatUtility::GetCheckableCheckCommand(host)); fields->Set("normal_check_interval", CompatUtility::GetCheckableCheckInterval(host)); fields->Set("retry_check_interval", CompatUtility::GetCheckableRetryInterval(host)); fields->Set("check_timeperiod_object_id", host->GetCheckPeriod()); fields->Set("is_reachable", CompatUtility::GetCheckableIsReachable(host)); fields->Set("original_attributes", JsonEncode(host->GetOriginalAttributes())); return fields; }
void ElasticsearchWriter::AddCheckResult(const Dictionary::Ptr& fields, const Checkable::Ptr& checkable, const CheckResult::Ptr& cr) { String prefix = "check_result."; fields->Set(prefix + "output", cr->GetOutput()); fields->Set(prefix + "check_source", cr->GetCheckSource()); fields->Set(prefix + "exit_status", cr->GetExitStatus()); fields->Set(prefix + "command", cr->GetCommand()); fields->Set(prefix + "state", cr->GetState()); fields->Set(prefix + "vars_before", cr->GetVarsBefore()); fields->Set(prefix + "vars_after", cr->GetVarsAfter()); fields->Set(prefix + "execution_start", FormatTimestamp(cr->GetExecutionStart())); fields->Set(prefix + "execution_end", FormatTimestamp(cr->GetExecutionEnd())); fields->Set(prefix + "schedule_start", FormatTimestamp(cr->GetScheduleStart())); fields->Set(prefix + "schedule_end", FormatTimestamp(cr->GetScheduleEnd())); /* Add extra calculated field. */ fields->Set(prefix + "latency", cr->CalculateLatency()); fields->Set(prefix + "execution_time", cr->CalculateExecutionTime()); if (!GetEnableSendPerfdata()) return; Array::Ptr perfdata = cr->GetPerformanceData(); CheckCommand::Ptr checkCommand = checkable->GetCheckCommand(); if (perfdata) { ObjectLock olock(perfdata); for (const Value& val : perfdata) { PerfdataValue::Ptr pdv; if (val.IsObjectType<PerfdataValue>()) pdv = val; else { try { pdv = PerfdataValue::Parse(val); } catch (const std::exception&) { Log(LogWarning, "ElasticsearchWriter") << "Ignoring invalid perfdata for checkable '" << checkable->GetName() << "' and command '" << checkCommand->GetName() << "' with value: " << val; continue; } } String escapedKey = pdv->GetLabel(); boost::replace_all(escapedKey, " ", "_"); boost::replace_all(escapedKey, ".", "_"); boost::replace_all(escapedKey, "\\", "_"); boost::algorithm::replace_all(escapedKey, "::", "."); String perfdataPrefix = prefix + "perfdata." + escapedKey; fields->Set(perfdataPrefix + ".value", pdv->GetValue()); if (pdv->GetMin()) fields->Set(perfdataPrefix + ".min", pdv->GetMin()); if (pdv->GetMax()) fields->Set(perfdataPrefix + ".max", pdv->GetMax()); if (pdv->GetWarn()) fields->Set(perfdataPrefix + ".warn", pdv->GetWarn()); if (pdv->GetCrit()) fields->Set(perfdataPrefix + ".crit", pdv->GetCrit()); if (!pdv->GetUnit().IsEmpty()) fields->Set(perfdataPrefix + ".unit", pdv->GetUnit()); } } }