icinga2/lib/icinga/clusterevents-check.cpp

221 lines
6.5 KiB
C++

/* Icinga 2 | (c) 2012 Icinga GmbH | GPLv2+ */
#include "icinga/clusterevents.hpp"
#include "icinga/icingaapplication.hpp"
#include "remote/apilistener.hpp"
#include "base/configuration.hpp"
#include "base/serializer.hpp"
#include "base/exception.hpp"
#include <boost/thread/once.hpp>
#include <thread>
using namespace icinga;
boost::mutex ClusterEvents::m_Mutex;
std::deque<std::function<void ()>> ClusterEvents::m_CheckRequestQueue;
bool ClusterEvents::m_CheckSchedulerRunning;
int ClusterEvents::m_ChecksExecutedDuringInterval;
int ClusterEvents::m_ChecksDroppedDuringInterval;
Timer::Ptr ClusterEvents::m_LogTimer;
void ClusterEvents::RemoteCheckThreadProc()
{
Utility::SetThreadName("Remote Check Scheduler");
int maxConcurrentChecks = IcingaApplication::GetInstance()->GetMaxConcurrentChecks();
boost::mutex::scoped_lock lock(m_Mutex);
for(;;) {
if (m_CheckRequestQueue.empty())
break;
lock.unlock();
Checkable::AquirePendingCheckSlot(maxConcurrentChecks);
lock.lock();
auto callback = m_CheckRequestQueue.front();
m_CheckRequestQueue.pop_front();
m_ChecksExecutedDuringInterval++;
lock.unlock();
callback();
Checkable::DecreasePendingChecks();
lock.lock();
}
m_CheckSchedulerRunning = false;
}
void ClusterEvents::EnqueueCheck(const MessageOrigin::Ptr& origin, const Dictionary::Ptr& params)
{
static boost::once_flag once = BOOST_ONCE_INIT;
boost::call_once(once, []() {
m_LogTimer = new Timer();
m_LogTimer->SetInterval(10);
m_LogTimer->OnTimerExpired.connect(std::bind(ClusterEvents::LogRemoteCheckQueueInformation));
m_LogTimer->Start();
});
boost::mutex::scoped_lock lock(m_Mutex);
if (m_CheckRequestQueue.size() >= 25000) {
m_ChecksDroppedDuringInterval++;
return;
}
m_CheckRequestQueue.push_back(std::bind(ClusterEvents::ExecuteCheckFromQueue, origin, params));
if (!m_CheckSchedulerRunning) {
std::thread t(ClusterEvents::RemoteCheckThreadProc);
t.detach();
m_CheckSchedulerRunning = true;
}
}
void ClusterEvents::ExecuteCheckFromQueue(const MessageOrigin::Ptr& origin, const Dictionary::Ptr& params) {
Endpoint::Ptr sourceEndpoint = origin->FromClient->GetEndpoint();
if (!sourceEndpoint || (origin->FromZone && !Zone::GetLocalZone()->IsChildOf(origin->FromZone))) {
Log(LogNotice, "ClusterEvents")
<< "Discarding 'execute command' message from '" << origin->FromClient->GetIdentity() << "': Invalid endpoint origin (client not allowed).";
return;
}
ApiListener::Ptr listener = ApiListener::GetInstance();
if (!listener) {
Log(LogCritical, "ApiListener", "No instance available.");
return;
}
if (!listener->GetAcceptCommands()) {
Log(LogWarning, "ApiListener")
<< "Ignoring command. '" << listener->GetName() << "' does not accept commands.";
Host::Ptr host = new Host();
Dictionary::Ptr attrs = new Dictionary();
attrs->Set("__name", params->Get("host"));
attrs->Set("type", "Host");
attrs->Set("enable_active_checks", false);
Deserialize(host, attrs, false, FAConfig);
if (params->Contains("service"))
host->SetExtension("agent_service_name", params->Get("service"));
CheckResult::Ptr cr = new CheckResult();
cr->SetState(ServiceUnknown);
cr->SetOutput("Endpoint '" + Endpoint::GetLocalEndpoint()->GetName() + "' does not accept commands.");
Dictionary::Ptr message = MakeCheckResultMessage(host, cr);
listener->SyncSendMessage(sourceEndpoint, message);
return;
}
/* use a virtual host object for executing the command */
Host::Ptr host = new Host();
Dictionary::Ptr attrs = new Dictionary();
attrs->Set("__name", params->Get("host"));
attrs->Set("type", "Host");
/*
* Override the check timeout if the parent caller provided the value. Compatible with older versions not
* passing this inside the cluster message.
* This happens with host/service command_endpoint agents and the 'check_timeout' attribute being specified.
*/
if (params->Contains("check_timeout"))
attrs->Set("check_timeout", params->Get("check_timeout"));
Deserialize(host, attrs, false, FAConfig);
if (params->Contains("service"))
host->SetExtension("agent_service_name", params->Get("service"));
String command = params->Get("command");
String command_type = params->Get("command_type");
if (command_type == "check_command") {
if (!CheckCommand::GetByName(command)) {
CheckResult::Ptr cr = new CheckResult();
cr->SetState(ServiceUnknown);
cr->SetOutput("Check command '" + command + "' does not exist.");
Dictionary::Ptr message = MakeCheckResultMessage(host, cr);
listener->SyncSendMessage(sourceEndpoint, message);
return;
}
} else if (command_type == "event_command") {
if (!EventCommand::GetByName(command)) {
Log(LogWarning, "ClusterEvents")
<< "Event command '" << command << "' does not exist.";
return;
}
} else
return;
attrs->Set(command_type, params->Get("command"));
attrs->Set("command_endpoint", sourceEndpoint->GetName());
Deserialize(host, attrs, false, FAConfig);
host->SetExtension("agent_check", true);
Dictionary::Ptr macros = params->Get("macros");
if (command_type == "check_command") {
try {
host->ExecuteRemoteCheck(macros);
} catch (const std::exception& ex) {
CheckResult::Ptr cr = new CheckResult();
cr->SetState(ServiceUnknown);
String output = "Exception occurred while checking '" + host->GetName() + "': " + DiagnosticInformation(ex);
cr->SetOutput(output);
double now = Utility::GetTime();
cr->SetScheduleStart(now);
cr->SetScheduleEnd(now);
cr->SetExecutionStart(now);
cr->SetExecutionEnd(now);
Dictionary::Ptr message = MakeCheckResultMessage(host, cr);
listener->SyncSendMessage(sourceEndpoint, message);
Log(LogCritical, "checker", output);
}
} else if (command_type == "event_command") {
host->ExecuteEventHandler(macros, true);
}
}
int ClusterEvents::GetCheckRequestQueueSize()
{
return m_CheckRequestQueue.size();
}
void ClusterEvents::LogRemoteCheckQueueInformation() {
if (m_ChecksDroppedDuringInterval > 0) {
Log(LogCritical, "ClusterEvents")
<< "Remote check queue ran out of slots. "
<< m_ChecksDroppedDuringInterval << " checks dropped.";
m_ChecksDroppedDuringInterval = 0;
}
if (m_ChecksExecutedDuringInterval == 0)
return;
Log(LogInformation, "RemoteCheckQueue")
<< "items: " << m_CheckRequestQueue.size()
<< ", rate: " << m_ChecksExecutedDuringInterval / 10 << "/s "
<< "(" << m_ChecksExecutedDuringInterval * 6 << "/min "
<< m_ChecksExecutedDuringInterval * 6 * 5 << "/5min "
<< m_ChecksExecutedDuringInterval * 6 * 15 << "/15min" << ");";
m_ChecksExecutedDuringInterval = 0;
}