/****************************************************************************** * 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 "icinga/host.h" #include "icinga/service.h" #include "icinga/hostgroup.h" #include "base/dynamictype.h" #include "base/objectlock.h" #include "base/logger_fwd.h" #include "base/timer.h" #include "base/convert.h" #include "base/scriptfunction.h" #include "base/utility.h" #include "config/configitembuilder.h" #include "config/configcompilercontext.h" #include #include #include using namespace icinga; static boost::mutex l_ServiceMutex; static std::map > l_ServicesCache; static bool l_ServicesCacheNeedsUpdate = false; static Timer::Ptr l_ServicesCacheTimer; REGISTER_SCRIPTFUNCTION(ValidateServiceDictionary, &Host::ValidateServiceDictionary); REGISTER_TYPE(Host); Host::Host(const Dictionary::Ptr& serializedUpdate) : DynamicObject(serializedUpdate) { RegisterAttribute("display_name", Attribute_Config, &m_DisplayName); RegisterAttribute("hostgroups", Attribute_Config, &m_HostGroups); RegisterAttribute("macros", Attribute_Config, &m_Macros); RegisterAttribute("hostdependencies", Attribute_Config, &m_HostDependencies); RegisterAttribute("servicedependencies", Attribute_Config, &m_ServiceDependencies); RegisterAttribute("hostcheck", Attribute_Config, &m_HostCheck); } Host::~Host(void) { HostGroup::InvalidateMembersCache(); if (m_SlaveServices) { ConfigItem::Ptr service; BOOST_FOREACH(boost::tie(boost::tuples::ignore, service), m_SlaveServices) { service->Unregister(); } } } void Host::OnRegistrationCompleted(void) { ASSERT(!OwnsLock()); DynamicObject::OnRegistrationCompleted(); Host::InvalidateServicesCache(); UpdateSlaveServices(); } String Host::GetDisplayName(void) const { if (!m_DisplayName.IsEmpty()) return m_DisplayName; else return GetName(); } Host::Ptr Host::GetByName(const String& name) { DynamicObject::Ptr configObject = DynamicObject::GetObject("Host", name); return dynamic_pointer_cast(configObject); } Array::Ptr Host::GetGroups(void) const { return m_HostGroups;; } Dictionary::Ptr Host::GetMacros(void) const { return m_Macros; } Array::Ptr Host::GetHostDependencies(void) const { return m_HostDependencies;; } Array::Ptr Host::GetServiceDependencies(void) const { return m_ServiceDependencies; } String Host::GetHostCheck(void) const { return m_HostCheck; } bool Host::IsReachable(void) const { ASSERT(!OwnsLock()); std::set parentServices = GetParentServices(); BOOST_FOREACH(const Service::Ptr& service, parentServices) { ObjectLock olock(service); /* ignore pending services */ if (!service->GetLastCheckResult()) continue; /* ignore soft states */ if (service->GetStateType() == StateTypeSoft) continue; /* ignore services states OK and Warning */ if (service->GetState() == StateOK || service->GetState() == StateWarning) continue; return false; } std::set parentHosts = GetParentHosts(); BOOST_FOREACH(const Host::Ptr& host, parentHosts) { Service::Ptr hc = host->GetHostCheckService(); /* ignore hosts that don't have a hostcheck */ if (!hc) continue; ObjectLock olock(hc); /* ignore soft states */ if (hc->GetStateType() == StateTypeSoft) continue; /* ignore hosts that are up */ if (hc->GetState() == StateOK) continue; return false; } return true; } void Host::UpdateSlaveServices(void) { ASSERT(!OwnsLock()); ConfigItem::Ptr item = ConfigItem::GetObject("Host", GetName()); /* Don't create slave services unless we own this object */ if (!item) return; Dictionary::Ptr oldServices = m_SlaveServices; Dictionary::Ptr serviceDescs = Get("services"); Dictionary::Ptr newServices = boost::make_shared(); if (serviceDescs) { ObjectLock olock(serviceDescs); String svcname; Value svcdesc; BOOST_FOREACH(boost::tie(svcname, svcdesc), serviceDescs) { if (svcdesc.IsScalar()) svcname = svcdesc; std::ostringstream namebuf; namebuf << GetName() << "-" << svcname; String name = namebuf.str(); ConfigItemBuilder::Ptr builder = boost::make_shared(item->GetDebugInfo()); builder->SetType("Service"); builder->SetName(name); builder->AddExpression("host_name", OperatorSet, GetName()); builder->AddExpression("display_name", OperatorSet, svcname); builder->AddExpression("short_name", OperatorSet, svcname); if (!svcdesc.IsObjectType()) BOOST_THROW_EXCEPTION(std::invalid_argument("Service description must be either a string or a dictionary.")); Dictionary::Ptr service = svcdesc; Array::Ptr templates = service->Get("templates"); if (templates) { ObjectLock olock(templates); BOOST_FOREACH(const Value& tmpl, templates) { builder->AddParent(tmpl); } } /* Clone attributes from the host object. */ std::set keys; keys.insert("check_interval"); keys.insert("retry_interval"); keys.insert("servicegroups"); keys.insert("checkers"); keys.insert("notification_interval"); keys.insert("check_period"); keys.insert("servicedependencies"); keys.insert("hostdependencies"); keys.insert("export_macros"); ExpressionList::Ptr host_exprl = boost::make_shared(); item->GetLinkedExpressionList()->ExtractFiltered(keys, host_exprl); builder->AddExpressionList(host_exprl); /* Clone attributes from the service expression list. */ std::vector path; path.push_back("services"); path.push_back(svcname); ExpressionList::Ptr svc_exprl = boost::make_shared(); item->GetLinkedExpressionList()->ExtractPath(path, svc_exprl); builder->AddExpressionList(svc_exprl); ConfigItem::Ptr serviceItem = builder->Compile(); DynamicObject::Ptr dobj = serviceItem->Commit(); newServices->Set(name, serviceItem); } } if (oldServices) { ObjectLock olock(oldServices); ConfigItem::Ptr service; BOOST_FOREACH(boost::tie(boost::tuples::ignore, service), oldServices) { if (!service) continue; if (!newServices->Contains(service->GetName())) service->Unregister(); } } newServices->Seal(); Set("slave_services", newServices); } void Host::OnAttributeChanged(const String& name) { ASSERT(!OwnsLock()); if (name == "hostgroups") HostGroup::InvalidateMembersCache(); else if (name == "services") { UpdateSlaveServices(); } else if (name == "notifications") { BOOST_FOREACH(const Service::Ptr& service, GetServices()) { service->UpdateSlaveNotifications(); } } } std::set Host::GetServices(void) const { std::set services; boost::mutex::scoped_lock lock(l_ServiceMutex); Service::WeakPtr wservice; BOOST_FOREACH(boost::tie(boost::tuples::ignore, wservice), l_ServicesCache[GetName()]) { Service::Ptr service = wservice.lock(); if (!service) continue; services.insert(service); } return services; } void Host::InvalidateServicesCache(void) { { boost::mutex::scoped_lock lock(l_ServiceMutex); if (l_ServicesCacheNeedsUpdate) return; /* Someone else has already requested a refresh. */ if (!l_ServicesCacheTimer) { l_ServicesCacheTimer = boost::make_shared(); l_ServicesCacheTimer->SetInterval(0.5); l_ServicesCacheTimer->OnTimerExpired.connect(boost::bind(&Host::RefreshServicesCache)); l_ServicesCacheTimer->Start(); } l_ServicesCacheNeedsUpdate = true; } } void Host::RefreshServicesCache(void) { { boost::mutex::scoped_lock lock(l_ServiceMutex); if (!l_ServicesCacheNeedsUpdate) return; l_ServicesCacheNeedsUpdate = false; } Log(LogDebug, "icinga", "Updating Host services cache."); std::map > newServicesCache; BOOST_FOREACH(const DynamicObject::Ptr& object, DynamicType::GetObjects("Service")) { const Service::Ptr& service = static_pointer_cast(object); Host::Ptr host = service->GetHost(); if (!host) continue; // TODO: assert for duplicate short_names newServicesCache[host->GetName()][service->GetShortName()] = service; } boost::mutex::scoped_lock lock(l_ServiceMutex); l_ServicesCache.swap(newServicesCache); } Value Host::ValidateServiceDictionary(const String& location, const Dictionary::Ptr& attrs) { ObjectLock olock(attrs); String key; Value value; BOOST_FOREACH(boost::tie(key, value), attrs) { std::vector templates; if (!value.IsObjectType()) BOOST_THROW_EXCEPTION(std::invalid_argument("Service description must be a dictionary.")); Dictionary::Ptr serviceDesc = value; Array::Ptr templatesArray = serviceDesc->Get("templates"); if (templatesArray) { ObjectLock tlock(templatesArray); BOOST_FOREACH(const Value& tmpl, templatesArray) { templates.push_back(tmpl); } } BOOST_FOREACH(const String& name, templates) { ConfigItem::Ptr item; ConfigCompilerContext *context = ConfigCompilerContext::GetContext(); if (context) item = context->GetItem("Service", name); /* ignore already active objects while we're in the compiler * context and linking to existing items is disabled. */ if (!item && (!context || (context->GetFlags() & CompilerLinkExisting))) item = ConfigItem::GetObject("Service", name); if (!item) { ConfigCompilerContext::GetContext()->AddError(false, "Validation failed for " + location + ": Template '" + name + "' not found."); } } } return Empty; } Service::Ptr Host::GetServiceByShortName(const Value& name) const { if (name.IsScalar()) { { boost::mutex::scoped_lock lock(l_ServiceMutex); std::map& services = l_ServicesCache[GetName()]; std::map::iterator it = services.find(name); if (it != services.end()) { Service::Ptr service = it->second.lock(); ASSERT(service); return service; } } return Service::Ptr(); } else if (name.IsObjectType()) { Dictionary::Ptr dict = name; String short_name; ASSERT(dict->IsSealed()); return Service::GetByNamePair(dict->Get("host"), dict->Get("service")); } else { BOOST_THROW_EXCEPTION(std::invalid_argument("Host/Service name pair is invalid.")); } } std::set Host::GetParentHosts(void) const { std::set parents; Array::Ptr dependencies = GetHostDependencies(); if (dependencies) { ObjectLock olock(dependencies); BOOST_FOREACH(const Value& value, dependencies) { if (value == GetName()) continue; Host::Ptr host = GetByName(value); if (!host) continue; parents.insert(host); } } return parents; } Service::Ptr Host::GetHostCheckService(void) const { String host_check = GetHostCheck(); if (host_check.IsEmpty()) return Service::Ptr(); return GetServiceByShortName(host_check); } std::set Host::GetParentServices(void) const { std::set parents; Array::Ptr dependencies = GetServiceDependencies(); if (dependencies) { ObjectLock olock(dependencies); BOOST_FOREACH(const Value& value, dependencies) { parents.insert(GetServiceByShortName(value)); } } return parents; } HostState Host::CalculateState(ServiceState state, bool reachable) { if (!reachable) return HostUnreachable; switch (state) { case StateOK: case StateWarning: return HostUp; default: return HostDown; } } HostState Host::GetLastState(void) const { ASSERT(!OwnsLock()); if (!IsReachable()) return HostUnreachable; Service::Ptr hc = GetHostCheckService(); if (!hc) return HostUp; switch (hc->GetLastState()) { case StateOK: case StateWarning: return HostUp; default: return HostDown; } } StateType Host::GetLastStateType(void) const { Service::Ptr hc = GetHostCheckService(); if (!hc) return StateTypeHard; return hc->GetLastStateType(); } String Host::StateToString(HostState state) { switch (state) { case HostUp: return "UP"; case HostDown: return "DOWN"; case HostUnreachable: return "UNREACHABLE"; default: return "INVALID"; } } bool Host::ResolveMacro(const String& macro, const Dictionary::Ptr& cr, String *result) const { if (macro == "HOSTNAME" || macro == "HOSTALIAS") { *result = GetName(); return true; } else if (macro == "HOSTDISPLAYNAME") { *result = GetDisplayName(); return true; } Service::Ptr hc = GetHostCheckService(); Dictionary::Ptr hccr; if (hc) { ServiceState state = hc->GetState(); bool reachable = IsReachable(); if (macro == "HOSTSTATE") { *result = Convert::ToString(CalculateState(state, reachable)); return true; } else if (macro == "HOSTSTATEID") { *result = Convert::ToString(state); return true; } else if (macro == "HOSTSTATETYPE") { *result = Service::StateTypeToString(hc->GetStateType()); return true; } else if (macro == "HOSTATTEMPT") { *result = Convert::ToString(hc->GetCurrentCheckAttempt()); return true; } else if (macro == "MAXHOSTATTEMPT") { *result = Convert::ToString(hc->GetMaxCheckAttempts()); return true; } else if (macro == "LASTHOSTSTATE") { *result = StateToString(GetLastState()); return true; } else if (macro == "LASTHOSTSTATEID") { *result = Convert::ToString(GetLastState()); return true; } else if (macro == "LASTHOSTSTATETYPE") { *result = Service::StateTypeToString(GetLastStateType()); return true; } else if (macro == "LASTHOSTSTATECHANGE") { *result = Convert::ToString((long)hc->GetLastStateChange()); return true; } hccr = hc->GetLastCheckResult(); } if (hccr) { if (macro == "HOSTLATENCY") { *result = Convert::ToString(Service::CalculateLatency(hccr)); return true; } else if (macro == "HOSTEXECUTIONTIME") { *result = Convert::ToString(Service::CalculateExecutionTime(hccr)); return true; } else if (macro == "HOSTOUTPUT") { *result = hccr->Get("output"); return true; } else if (macro == "HOSTPERFDATA") { *result = hccr->Get("performance_data_raw"); return true; } else if (macro == "LASTHOSTCHECK") { *result = Convert::ToString((long)hccr->Get("schedule_start")); return true; } } Dictionary::Ptr macros = GetMacros(); if (macros && macros->Contains(macro)) { *result = macros->Get(macro); return true; } return false; }