icinga2/lib/icinga/service-check.cpp

727 lines
18 KiB
C++

/******************************************************************************
* 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/service.h"
#include "icinga/checkcommand.h"
#include "icinga/icingaapplication.h"
#include "icinga/checkresultmessage.h"
#include "icinga/flappingmessage.h"
#include "icinga/cib.h"
#include "remoting/endpointmanager.h"
#include "base/dynamictype.h"
#include "base/objectlock.h"
#include "base/logger_fwd.h"
#include "base/convert.h"
#include <boost/smart_ptr/make_shared.hpp>
#include <boost/foreach.hpp>
#include <boost/exception/diagnostic_information.hpp>
using namespace icinga;
const int Service::DefaultMaxCheckAttempts = 3;
const double Service::DefaultCheckInterval = 5 * 60;
const double Service::CheckIntervalDivisor = 5.0;
boost::signals2::signal<void (const Service::Ptr&)> Service::OnCheckerChanged;
boost::signals2::signal<void (const Service::Ptr&)> Service::OnNextCheckChanged;
boost::signals2::signal<void (const Service::Ptr&, FlappingState)> Service::OnFlappingChanged;
CheckCommand::Ptr Service::GetCheckCommand(void) const
{
return CheckCommand::GetByName(m_CheckCommand);
}
long Service::GetMaxCheckAttempts(void) const
{
if (m_MaxCheckAttempts.IsEmpty())
return DefaultMaxCheckAttempts;
return m_MaxCheckAttempts;
}
TimePeriod::Ptr Service::GetCheckPeriod(void) const
{
return TimePeriod::GetByName(m_CheckPeriod);
}
double Service::GetCheckInterval(void) const
{
if (m_CheckInterval.IsEmpty())
return DefaultCheckInterval;
return m_CheckInterval;
}
double Service::GetRetryInterval(void) const
{
if (m_RetryInterval.IsEmpty())
return GetCheckInterval() / CheckIntervalDivisor;
return m_RetryInterval;
}
Array::Ptr Service::GetCheckers(void) const
{
return m_Checkers;
}
void Service::SetSchedulingOffset(long offset)
{
m_SchedulingOffset = offset;
}
long Service::GetSchedulingOffset(void)
{
return m_SchedulingOffset;
}
void Service::SetNextCheck(double nextCheck)
{
m_NextCheck = nextCheck;
Touch("next_check");
}
double Service::GetNextCheck(void)
{
return m_NextCheck;
}
void Service::UpdateNextCheck(void)
{
ObjectLock olock(this);
double interval;
if (GetStateType() == StateTypeSoft)
interval = GetRetryInterval();
else
interval = GetCheckInterval();
double now = Utility::GetTime();
double adj = 0;
if (interval > 1)
adj = fmod(now * 100 + GetSchedulingOffset(), interval * 100) / 100.0;
SetNextCheck(now - adj + interval);
}
void Service::SetCurrentChecker(const String& checker)
{
m_CurrentChecker = checker;
Touch("current_checker");
}
String Service::GetCurrentChecker(void) const
{
return m_CurrentChecker;
}
void Service::SetCurrentCheckAttempt(long attempt)
{
m_CheckAttempt = attempt;
Touch("check_attempt");
}
long Service::GetCurrentCheckAttempt(void) const
{
if (m_CheckAttempt.IsEmpty())
return 1;
return m_CheckAttempt;
}
void Service::SetState(ServiceState state)
{
m_State = static_cast<long>(state);
Touch("state");
}
ServiceState Service::GetState(void) const
{
if (m_State.IsEmpty())
return StateUnknown;
int ivalue = static_cast<int>(m_State);
return static_cast<ServiceState>(ivalue);
}
void Service::SetLastState(ServiceState state)
{
m_LastState = static_cast<long>(state);
Touch("last_state");
}
ServiceState Service::GetLastState(void) const
{
if (m_LastState.IsEmpty())
return StateUnknown;
int ivalue = static_cast<int>(m_LastState);
return static_cast<ServiceState>(ivalue);
}
void Service::SetStateType(StateType type)
{
m_StateType = static_cast<long>(type);
Touch("state_type");
}
StateType Service::GetStateType(void) const
{
if (m_StateType.IsEmpty())
return StateTypeSoft;
int ivalue = static_cast<int>(m_StateType);
return static_cast<StateType>(ivalue);
}
void Service::SetLastStateType(StateType type)
{
m_LastStateType = static_cast<long>(type);
Touch("last_state_type");
}
StateType Service::GetLastStateType(void) const
{
if (m_LastStateType.IsEmpty())
return StateTypeSoft;
int ivalue = static_cast<int>(m_LastStateType);
return static_cast<StateType>(ivalue);
}
void Service::SetLastReachable(bool reachable)
{
m_LastReachable = reachable;
Touch("last_reachable");
}
bool Service::GetLastReachable(void) const
{
if (m_LastReachable.IsEmpty())
return true;
return m_LastReachable;
}
void Service::SetLastCheckResult(const Dictionary::Ptr& result)
{
m_LastResult = result;
Touch("last_result");
}
Dictionary::Ptr Service::GetLastCheckResult(void) const
{
return m_LastResult;
}
void Service::SetLastStateChange(double ts)
{
m_LastStateChange = ts;
Touch("last_state_change");
}
double Service::GetLastStateChange(void) const
{
if (m_LastStateChange.IsEmpty())
return IcingaApplication::GetInstance()->GetStartTime();
return m_LastStateChange;
}
void Service::SetLastHardStateChange(double ts)
{
m_LastHardStateChange = ts;
Touch("last_hard_state_change");
}
double Service::GetLastHardStateChange(void) const
{
if (m_LastHardStateChange.IsEmpty())
return IcingaApplication::GetInstance()->GetStartTime();
return m_LastHardStateChange;
}
bool Service::GetEnableActiveChecks(void) const
{
if (m_EnableActiveChecks.IsEmpty())
return true;
else
return m_EnableActiveChecks;
}
void Service::SetEnableActiveChecks(bool enabled)
{
m_EnableActiveChecks = enabled ? 1 : 0;
Touch("enable_active_checks");
}
bool Service::GetEnablePassiveChecks(void) const
{
if (m_EnablePassiveChecks.IsEmpty())
return true;
else
return m_EnablePassiveChecks;
}
void Service::SetEnablePassiveChecks(bool enabled)
{
m_EnablePassiveChecks = enabled ? 1 : 0;
Touch("enable_passive_checks");
}
bool Service::GetForceNextCheck(void) const
{
if (m_ForceNextCheck.IsEmpty())
return false;
return static_cast<bool>(m_ForceNextCheck);
}
void Service::SetForceNextCheck(bool forced)
{
m_ForceNextCheck = forced ? 1 : 0;
Touch("force_next_check");
}
void Service::ProcessCheckResult(const Dictionary::Ptr& cr)
{
double now = Utility::GetTime();
if (!cr->Contains("schedule_start"))
cr->Set("schedule_start", now);
if (!cr->Contains("schedule_end"))
cr->Set("schedule_end", now);
if (!cr->Contains("execution_start"))
cr->Set("execution_start", now);
if (!cr->Contains("execution_end"))
cr->Set("execution_end", now);
bool reachable = IsReachable();
Host::Ptr host = GetHost();
bool host_reachable = true;
if (host)
host_reachable = host->IsReachable();
ASSERT(!OwnsLock());
ObjectLock olock(this);
Dictionary::Ptr old_cr = GetLastCheckResult();
ServiceState old_state = GetState();
StateType old_stateType = GetStateType();
long old_attempt = GetCurrentCheckAttempt();
bool recovery;
/* The ExecuteCheck function already sets the old state, but we need to do it again
* in case this was a passive check result. */
SetLastState(old_state);
SetLastStateType(old_stateType);
SetLastReachable(reachable);
long attempt;
if (cr->Get("state") == StateOK) {
if (old_state == StateOK && old_stateType == StateTypeSoft)
SetStateType(StateTypeHard); // SOFT OK -> HARD OK
attempt = 1;
recovery = true;
} else {
if (old_attempt >= GetMaxCheckAttempts()) {
SetStateType(StateTypeHard);
attempt = 1;
} else if (GetStateType() == StateTypeSoft || GetState() == StateOK) {
SetStateType(StateTypeSoft);
attempt = old_attempt + 1;
} else {
attempt = old_attempt;
}
recovery = false;
}
SetCurrentCheckAttempt(attempt);
int state = cr->Get("state");
SetState(static_cast<ServiceState>(state));
bool call_eventhandler = false;
bool stateChange = (old_state != GetState());
if (stateChange) {
SetLastStateChange(now);
/* remove acknowledgements */
if (GetAcknowledgement() == AcknowledgementNormal ||
(GetAcknowledgement() == AcknowledgementSticky && GetStateType() == StateTypeHard && GetState() == StateOK)) {
SetAcknowledgement(AcknowledgementNone);
SetAcknowledgementExpiry(0);
}
/* reschedule service dependencies */
BOOST_FOREACH(const Service::Ptr& parent, GetParentServices()) {
ObjectLock olock(parent);
parent->SetNextCheck(Utility::GetTime());
}
/* reschedule host dependencies */
BOOST_FOREACH(const Host::Ptr& parent, GetParentHosts()) {
Service::Ptr service = parent->GetHostCheckService();
if (service && service->GetName() != GetName()) {
ObjectLock olock(service);
service->SetNextCheck(Utility::GetTime());
}
}
call_eventhandler = true;
}
bool remove_acknowledgement_comments = false;
if (GetAcknowledgement() == AcknowledgementNone)
remove_acknowledgement_comments = true;
bool hardChange = (GetStateType() == StateTypeHard && old_stateType == StateTypeSoft);
if (old_state != GetState() && old_stateType == StateTypeHard && GetStateType() == StateTypeHard)
hardChange = true;
if (IsVolatile())
hardChange = true;
if (hardChange)
SetLastHardStateChange(now);
if (GetState() != StateOK)
TriggerDowntimes();
Service::UpdateStatistics(cr);
bool in_downtime = IsInDowntime();
bool send_notification = hardChange && reachable && !in_downtime && !IsAcknowledged();
if (old_state == StateOK && old_stateType == StateTypeSoft)
send_notification = false; /* Don't send notifications for SOFT-OK -> HARD-OK. */
bool send_downtime_notification = m_LastInDowntime != in_downtime;
m_LastInDowntime = in_downtime;
Touch("last_in_downtime");
olock.Unlock();
if (remove_acknowledgement_comments)
RemoveCommentsByType(CommentAcknowledgement);
Dictionary::Ptr vars_after = boost::make_shared<Dictionary>();
vars_after->Set("state", GetState());
vars_after->Set("state_type", GetStateType());
vars_after->Set("attempt", GetCurrentCheckAttempt());
vars_after->Set("reachable", reachable);
vars_after->Set("host_reachable", host_reachable);
if (old_cr)
cr->Set("vars_before", old_cr->Get("vars_after"));
cr->Set("vars_after", vars_after);
cr->Seal();
olock.Lock();
SetLastCheckResult(cr);
bool was_flapping, is_flapping;
was_flapping = IsFlapping();
UpdateFlappingStatus(stateChange);
is_flapping = IsFlapping();
olock.Unlock();
Log(LogDebug, "icinga", "Flapping: Service " + GetName() +
" was: " + Convert::ToString(was_flapping) +
" is: " + Convert::ToString(is_flapping) +
" threshold: " + Convert::ToString(GetFlappingThreshold()) +
"% current: " + Convert::ToString(GetFlappingCurrent()) + "%.");
/* Flush the object so other instances see the service's
* new state when they receive the CheckResult message */
Flush();
RequestMessage rm;
rm.SetMethod("checker::CheckResult");
/* TODO: add _old_ state to message */
CheckResultMessage params;
params.SetService(GetName());
params.SetCheckResult(cr);
rm.SetParams(params);
EndpointManager::GetInstance()->SendMulticastMessage(rm);
if (call_eventhandler)
ExecuteEventHandler();
if (send_downtime_notification)
RequestNotifications(in_downtime ? NotificationDowntimeStart : NotificationDowntimeEnd, cr);
if (!was_flapping && is_flapping) {
RequestNotifications(NotificationFlappingStart, cr);
RequestMessage rm;
rm.SetMethod("icinga::Flapping");
FlappingMessage params;
params.SetService(GetName());
params.SetState(FlappingStarted);
rm.SetParams(params);
EndpointManager::GetInstance()->SendMulticastMessage(rm);
Log(LogDebug, "icinga", "Flapping: Service " + GetName() + " started flapping (" + Convert::ToString(GetFlappingThreshold()) + "% < " + Convert::ToString(GetFlappingCurrent()) + "%).");
}
else if (was_flapping && !is_flapping) {
RequestNotifications(NotificationFlappingEnd, cr);
RequestMessage rm;
rm.SetMethod("icinga::Flapping");
FlappingMessage params;
params.SetService(GetName());
params.SetState(FlappingStopped);
rm.SetParams(params);
EndpointManager::GetInstance()->SendMulticastMessage(rm);
Log(LogDebug, "icinga", "Flapping: Service " + GetName() + " stopped flapping (" + Convert::ToString(GetFlappingThreshold()) + "% >= " + Convert::ToString(GetFlappingCurrent()) + "%).");
}
else if (send_notification)
RequestNotifications(recovery ? NotificationRecovery : NotificationProblem, cr);
}
ServiceState Service::StateFromString(const String& state)
{
if (state == "OK")
return StateOK;
else if (state == "WARNING")
return StateWarning;
else if (state == "CRITICAL")
return StateCritical;
else if (state == "UNCHECKABLE")
return StateUncheckable;
else
return StateUnknown;
}
String Service::StateToString(ServiceState state)
{
switch (state) {
case StateOK:
return "OK";
case StateWarning:
return "WARNING";
case StateCritical:
return "CRITICAL";
case StateUncheckable:
return "UNCHECKABLE";
case StateUnknown:
default:
return "UNKNOWN";
}
}
StateType Service::StateTypeFromString(const String& type)
{
if (type == "SOFT")
return StateTypeSoft;
else
return StateTypeHard;
}
String Service::StateTypeToString(StateType type)
{
if (type == StateTypeSoft)
return "SOFT";
else
return "HARD";
}
bool Service::IsAllowedChecker(const String& checker) const
{
Array::Ptr checkers = GetCheckers();
if (!checkers)
return true;
ObjectLock olock(checkers);
BOOST_FOREACH(const Value& pattern, checkers) {
if (Utility::Match(pattern, checker))
return true;
}
return false;
}
void Service::ExecuteCheck(void)
{
ASSERT(!OwnsLock());
bool reachable = IsReachable();
{
ObjectLock olock(this);
/* don't run another check if there is one pending */
if (m_CheckRunning)
return;
m_CheckRunning = true;
SetLastState(GetState());
SetLastStateType(GetLastStateType());
SetLastReachable(reachable);
}
/* keep track of scheduling info in case the check type doesn't provide its own information */
Dictionary::Ptr checkInfo = boost::make_shared<Dictionary>();
checkInfo->Set("schedule_start", GetNextCheck());
checkInfo->Set("execution_start", Utility::GetTime());
Service::Ptr self = GetSelf();
Dictionary::Ptr result;
try {
CheckCommand::Ptr command = GetCheckCommand();
if (!command)
return;
result = command->Execute(GetSelf());
} catch (const std::exception& ex) {
std::ostringstream msgbuf;
msgbuf << "Exception occured during check for service '"
<< GetName() << "': " << boost::diagnostic_information(ex);
String message = msgbuf.str();
Log(LogWarning, "icinga", message);
result = boost::make_shared<Dictionary>();
result->Set("state", StateUnknown);
result->Set("output", message);
}
checkInfo->Set("execution_end", Utility::GetTime());
checkInfo->Set("schedule_end", Utility::GetTime());
checkInfo->Seal();
if (result) {
if (!result->Contains("schedule_start"))
result->Set("schedule_start", checkInfo->Get("schedule_start"));
if (!result->Contains("schedule_end"))
result->Set("schedule_end", checkInfo->Get("schedule_end"));
if (!result->Contains("execution_start"))
result->Set("execution_start", checkInfo->Get("execution_start"));
if (!result->Contains("execution_end"))
result->Set("execution_end", checkInfo->Get("execution_end"));
if (!result->Contains("macros"))
result->Set("macros", checkInfo->Get("macros"));
if (!result->Contains("active"))
result->Set("active", 1);
if (!result->Contains("current_checker"))
result->Set("current_checker", EndpointManager::GetInstance()->GetIdentity());
}
if (result)
ProcessCheckResult(result);
/* figure out when the next check is for this service; the call to
* ProcessCheckResult() should've already done this but lets do it again
* just in case there was no check result. */
UpdateNextCheck();
{
ObjectLock olock(this);
m_CheckRunning = false;
}
}
void Service::UpdateStatistics(const Dictionary::Ptr& cr)
{
time_t ts;
Value schedule_end = cr->Get("schedule_end");
if (!schedule_end.IsEmpty())
ts = static_cast<time_t>(schedule_end);
else
ts = static_cast<time_t>(Utility::GetTime());
Value active = cr->Get("active");
if (active.IsEmpty() || static_cast<long>(active))
CIB::UpdateActiveChecksStatistics(ts, 1);
else
CIB::UpdatePassiveChecksStatistics(ts, 1);
}
double Service::CalculateExecutionTime(const Dictionary::Ptr& cr)
{
double execution_start = 0, execution_end = 0;
if (cr) {
if (!cr->Contains("execution_start") || !cr->Contains("execution_end"))
return 0;
execution_start = cr->Get("execution_start");
execution_end = cr->Get("execution_end");
}
return (execution_end - execution_start);
}
double Service::CalculateLatency(const Dictionary::Ptr& cr)
{
double schedule_start = 0, schedule_end = 0;
if (cr) {
if (!cr->Contains("schedule_start") || !cr->Contains("schedule_end"))
return 0;
schedule_start = cr->Get("schedule_start");
schedule_end = cr->Get("schedule_end");
}
return (schedule_end - schedule_start) - CalculateExecutionTime(cr);
}