/****************************************************************************** * Icinga 2 * * Copyright (C) 2012 Icinga Development Team (http://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 "base/convert.h" #include "icinga/compatutility.h" #include "icinga/checkcommand.h" #include "icinga/eventcommand.h" #include "base/objectlock.h" #include "base/utility.h" #include #include #include #include #include #include using namespace icinga; Dictionary::Ptr CompatUtility::GetServiceStatusAttributes(const Service::Ptr& service, CompatObjectType type) { Dictionary::Ptr attr = boost::make_shared(); ASSERT(service->OwnsLock()); String raw_output; String output; String long_output; String perfdata; double schedule_end = -1; String check_period_str; TimePeriod::Ptr check_period = service->GetCheckPeriod(); if (check_period) check_period_str = check_period->GetName(); else check_period_str = "24x7"; Dictionary::Ptr cr = service->GetLastCheckResult(); if (cr) { raw_output = cr->Get("output"); size_t line_end = raw_output.Find("\n"); output = raw_output.SubStr(0, line_end); if (line_end > 0 && line_end != String::NPos) { long_output = raw_output.SubStr(line_end+1, raw_output.GetLength()); long_output = EscapeString(long_output); } boost::algorithm::replace_all(output, "\n", "\\n"); schedule_end = cr->Get("schedule_end"); perfdata = cr->Get("performance_data_raw"); boost::algorithm::replace_all(perfdata, "\n", "\\n"); } int state = service->GetState(); if (state > StateUnknown) state = StateUnknown; if (type == CompatTypeHost) { if (state == StateOK || state == StateWarning) state = 0; /* UP */ else state = 1; /* DOWN */ Host::Ptr host = service->GetHost(); ASSERT(host); if (!host->IsReachable()) state = 2; /* UNREACHABLE */ attr->Set("last_time_up", host->GetLastStateUp()); attr->Set("last_time_down", host->GetLastStateDown()); attr->Set("last_time_unreachable", host->GetLastStateUnreachable()); } else { attr->Set("last_time_ok", service->GetLastStateOK()); attr->Set("last_time_warn", service->GetLastStateWarning()); attr->Set("last_time_critical", service->GetLastStateCritical()); attr->Set("last_time_unknown", service->GetLastStateUnknown()); } double last_notification = 0; double next_notification = 0; int notification_number = 0; BOOST_FOREACH(const Notification::Ptr& notification, service->GetNotifications()) { if (notification->GetLastNotification() > last_notification) last_notification = notification->GetLastNotification(); if (notification->GetNextNotification() < next_notification) next_notification = notification->GetNextNotification(); if (notification->GetNotificationNumber() > notification_number) notification_number = notification->GetNotificationNumber(); } CheckCommand::Ptr checkcommand = service->GetCheckCommand(); if (checkcommand) attr->Set("check_command", "check_" + checkcommand->GetName()); EventCommand::Ptr eventcommand = service->GetEventCommand(); if (eventcommand) attr->Set("event_handler", "event_" + eventcommand->GetName()); attr->Set("check_period", check_period_str); attr->Set("check_interval", service->GetCheckInterval() / 60.0); attr->Set("retry_interval", service->GetRetryInterval() / 60.0); attr->Set("has_been_checked", (service->GetLastCheckResult() ? 1 : 0)); attr->Set("should_be_scheduled", 1); attr->Set("check_execution_time", Service::CalculateExecutionTime(cr)); attr->Set("check_latency", Service::CalculateLatency(cr)); attr->Set("current_state", state); attr->Set("state_type", service->GetStateType()); attr->Set("plugin_output", output); attr->Set("long_plugin_output", long_output); attr->Set("performance_data", perfdata); attr->Set("last_check", schedule_end); attr->Set("next_check", service->GetNextCheck()); attr->Set("current_attempt", service->GetCurrentCheckAttempt()); attr->Set("max_attempts", service->GetMaxCheckAttempts()); attr->Set("last_state_change", service->GetLastStateChange()); attr->Set("last_hard_state_change", service->GetLastHardStateChange()); attr->Set("last_update", time(NULL)); attr->Set("process_performance_data", 1); /* always enabled */ attr->Set("freshness_checks_enabled", 1); /* always enabled */ attr->Set("notifications_enabled", (service->GetEnableNotifications() ? 1 : 0)); attr->Set("event_handler_enabled", 1); /* always enabled */ attr->Set("active_checks_enabled", (service->GetEnableActiveChecks() ? 1 : 0)); attr->Set("passive_checks_enabled", (service->GetEnablePassiveChecks() ? 1 : 0)); attr->Set("flap_detection_enabled", (service->GetEnableFlapping() ? 1 : 0)); attr->Set("is_flapping", (service->IsFlapping() ? 1 : 0)); attr->Set("percent_state_change", Convert::ToString(service->GetFlappingCurrent())); attr->Set("problem_has_been_acknowledged", (service->GetAcknowledgement() != AcknowledgementNone ? 1 : 0)); attr->Set("acknowledgement_type", static_cast(service->GetAcknowledgement())); attr->Set("acknowledgement_end_time", service->GetAcknowledgementExpiry()); attr->Set("scheduled_downtime_depth", (service->IsInDowntime() ? 1 : 0)); attr->Set("last_notification", last_notification); attr->Set("next_notification", next_notification); attr->Set("current_notification_number", notification_number); return attr; } Dictionary::Ptr CompatUtility::GetServiceConfigAttributes(const Service::Ptr& service, CompatObjectType type) { Dictionary::Ptr attr = boost::make_shared(); ASSERT(service->OwnsLock()); Host::Ptr host = service->GetHost(); if (!host) return Dictionary::Ptr(); String check_period_str; TimePeriod::Ptr check_period = service->GetCheckPeriod(); if (check_period) check_period_str = check_period->GetName(); else check_period_str = "24x7"; double notification_interval = -1; String notification_period; unsigned long notification_type_filter; unsigned long notification_state_filter; BOOST_FOREACH(const Notification::Ptr& notification, service->GetNotifications()) { if (notification_interval == -1 || notification->GetNotificationInterval() < notification_interval) notification_interval = notification->GetNotificationInterval(); if (notification->GetNotificationPeriod()) notification_period = notification->GetNotificationPeriod()->GetName(); if (notification->GetNotificationTypeFilter()) notification_type_filter = notification->GetNotificationTypeFilter(); if (notification->GetNotificationStateFilter()) notification_state_filter = notification->GetNotificationStateFilter(); Log(LogDebug, "compatutility", "notification_type_filter: " + Convert::ToString(notification_type_filter) + " notification_state_filter: " + Convert::ToString(notification_state_filter)); } if (notification_interval == -1) notification_interval = 60; String check_command_str; String event_command_str; CheckCommand::Ptr checkcommand = service->GetCheckCommand(); EventCommand::Ptr eventcommand = service->GetEventCommand(); if (checkcommand) check_command_str = checkcommand->GetName(); if (eventcommand) event_command_str = eventcommand->GetName(); Dictionary::Ptr custom; Dictionary::Ptr macros; std::vector notification_options; if (type == CompatTypeHost) { /* dicts */ custom = host->GetCustom(); macros = host->GetMacros(); /* alias */ if (!host->GetDisplayName().IsEmpty()) attr->Set("alias", host->GetName()); else attr->Set("alias", host->GetDisplayName()); /* notification state filters */ if (notification_state_filter & (1<Set("notify_on_down", 1); notification_options.push_back("d"); } if (notification_state_filter & (1<Set("notify_on_unreachable", 1); notification_options.push_back("u"); } } else { /* dicts */ custom = service->GetCustom(); macros = service->GetMacros(); /* notification state filters */ if (notification_state_filter & (1<Set("notify_on_warning", 1); notification_options.push_back("w"); } if (notification_state_filter & (1<Set("notify_on_unknown", 1); notification_options.push_back("u"); } if (notification_state_filter & (1<Set("notify_on_critical", 1); notification_options.push_back("c"); } } /* notification type filters */ if (notification_type_filter & (1<Set("notify_on_recovery", 1); notification_options.push_back("r"); } if (notification_type_filter & (1<Set("notify_on_flapping", 1); notification_options.push_back("f"); } if (notification_type_filter & (1<Set("notify_on_downtime", 1); notification_options.push_back("s"); } attr->Set("check_period", check_period_str); attr->Set("check_interval", service->GetCheckInterval() / 60.0); attr->Set("retry_interval", service->GetRetryInterval() / 60.0); attr->Set("max_check_attempts", service->GetMaxCheckAttempts()); attr->Set("active_checks_enabled", (service->GetEnableActiveChecks() ? 1 : 0)); attr->Set("passive_checks_enabled", (service->GetEnablePassiveChecks() ? 1 : 0)); attr->Set("flap_detection_enabled", (service->GetEnableFlapping() ? 1 : 0)); attr->Set("low_flap_threshold", service->GetFlappingThreshold()); attr->Set("high_flap_threshold", service->GetFlappingThreshold()); attr->Set("notifications_enabled", (service->GetEnableNotifications() ? 1 : 0)); attr->Set("eventhandler_enabled", 1); /* always 1 */ attr->Set("is_volatile", (service->IsVolatile() ? 1 : 0)); attr->Set("notifications_enabled", (service->GetEnableNotifications() ? 1 : 0)); attr->Set("notification_options", boost::algorithm::join(notification_options, ",")); attr->Set("notification_interval", notification_interval / 60.0); attr->Set("process_performance_data", 1); /* always 1 */ attr->Set("notification_period", notification_period); attr->Set("check_freshness", 1); /* always 1 */ attr->Set("check_command", check_command_str); attr->Set("event_handler", event_command_str); /* macros attr */ if (macros) { if (type == CompatTypeHost) { attr->Set("address", macros->Get("address")); attr->Set("address6", macros->Get("address6")); } } /* custom attr */ if (custom) { attr->Set("notes", custom->Get("notes")); attr->Set("notes_url", custom->Get("notes_url")); attr->Set("action_url", custom->Get("action_url")); attr->Set("icon_image", custom->Get("icon_image")); attr->Set("icon_image_alt", custom->Get("icon_image_alt")); if (type == CompatTypeHost) { attr->Set("statusmap_image", custom->Get("statusmap_image")); attr->Set("2d_coords", custom->Get("2d_coords")); if (!custom->Get("2d_coords").IsEmpty()) { std::vector tokens; String coords = custom->Get("2d_coords"); boost::algorithm::split(tokens, coords, boost::is_any_of(",")); if (tokens.size() == 2) { attr->Set("have_2d_coords", 1); attr->Set("x_2d", tokens[0]); attr->Set("y_2d", tokens[1]); } else attr->Set("have_2d_coords", 0); } else attr->Set("have_2d_coords", 0); /* deprecated in 1.x, but empty */ attr->Set("vrml_image", Empty); attr->Set("3d_coords", Empty); attr->Set("have_3d_coords", 0); attr->Set("x_3d", Empty); attr->Set("y_3d", Empty); attr->Set("z_3d", Empty); } } return attr; } String CompatUtility::EscapeString(const String& str) { String result = str; boost::algorithm::replace_all(result, "\n", "\\n"); return result; }