icinga2/lib/perfdata/opentsdbwriter.cpp

524 lines
15 KiB
C++

/* Icinga 2 | (c) 2012 Icinga GmbH | GPLv2+ */
#include "perfdata/opentsdbwriter.hpp"
#include "perfdata/opentsdbwriter-ti.cpp"
#include "icinga/service.hpp"
#include "icinga/checkcommand.hpp"
#include "icinga/macroprocessor.hpp"
#include "icinga/icingaapplication.hpp"
#include "icinga/compatutility.hpp"
#include "base/tcpsocket.hpp"
#include "base/configtype.hpp"
#include "base/objectlock.hpp"
#include "base/logger.hpp"
#include "base/convert.hpp"
#include "base/utility.hpp"
#include "base/perfdatavalue.hpp"
#include "base/application.hpp"
#include "base/stream.hpp"
#include "base/networkstream.hpp"
#include "base/exception.hpp"
#include "base/statsfunction.hpp"
#include <boost/algorithm/string.hpp>
#include <boost/algorithm/string/replace.hpp>
using namespace icinga;
REGISTER_TYPE(OpenTsdbWriter);
REGISTER_STATSFUNCTION(OpenTsdbWriter, &OpenTsdbWriter::StatsFunc);
/*
* Enable HA capabilities once the config object is loaded.
*/
void OpenTsdbWriter::OnConfigLoaded()
{
ObjectImpl<OpenTsdbWriter>::OnConfigLoaded();
if (!GetEnableHa()) {
Log(LogDebug, "OpenTsdbWriter")
<< "HA functionality disabled. Won't pause connection: " << GetName();
SetHAMode(HARunEverywhere);
} else {
SetHAMode(HARunOnce);
}
}
/**
* Feature stats interface
*
* @param status Key value pairs for feature stats
*/
void OpenTsdbWriter::StatsFunc(const Dictionary::Ptr& status, const Array::Ptr&)
{
DictionaryData nodes;
for (const OpenTsdbWriter::Ptr& opentsdbwriter : ConfigType::GetObjectsByType<OpenTsdbWriter>()) {
nodes.emplace_back(opentsdbwriter->GetName(), new Dictionary({
{ "connected", opentsdbwriter->GetConnected() }
}));
}
status->Set("opentsdbwriter", new Dictionary(std::move(nodes)));
}
/**
* Resume is equivalent to Start, but with HA capabilities to resume at runtime.
*/
void OpenTsdbWriter::Resume()
{
ObjectImpl<OpenTsdbWriter>::Resume();
Log(LogInformation, "OpentsdbWriter")
<< "'" << GetName() << "' resumed.";
ReadConfigTemplate(m_ServiceConfigTemplate, m_HostConfigTemplate);
m_ReconnectTimer = new Timer();
m_ReconnectTimer->SetInterval(10);
m_ReconnectTimer->OnTimerExpired.connect(std::bind(&OpenTsdbWriter::ReconnectTimerHandler, this));
m_ReconnectTimer->Start();
m_ReconnectTimer->Reschedule(0);
Service::OnNewCheckResult.connect(std::bind(&OpenTsdbWriter::CheckResultHandler, this, _1, _2));
}
/**
* Pause is equivalent to Stop, but with HA capabilities to resume at runtime.
*/
void OpenTsdbWriter::Pause()
{
m_ReconnectTimer.reset();
Log(LogInformation, "OpentsdbWriter")
<< "'" << GetName() << "' paused.";
m_Stream->close();
SetConnected(false);
ObjectImpl<OpenTsdbWriter>::Pause();
}
/**
* Reconnect handler called by the timer.
* Handles TLS
*/
void OpenTsdbWriter::ReconnectTimerHandler()
{
if (IsPaused())
return;
SetShouldConnect(true);
if (GetConnected())
return;
double startTime = Utility::GetTime();
Log(LogNotice, "OpenTsdbWriter")
<< "Reconnecting to OpenTSDB TSD on host '" << GetHost() << "' port '" << GetPort() << "'.";
/*
* We're using telnet as input method. Future PRs may change this into using the HTTP API.
* http://opentsdb.net/docs/build/html/user_guide/writing/index.html#telnet
*/
m_Stream = Shared<AsioTcpStream>::Make(IoEngine::Get().GetIoContext());
try {
icinga::Connect(m_Stream->lowest_layer(), GetHost(), GetPort());
} catch (const std::exception& ex) {
Log(LogWarning, "OpenTsdbWriter")
<< "Can't connect to OpenTSDB on host '" << GetHost() << "' port '" << GetPort() << ".'";
SetConnected(false);
return;
}
SetConnected(true);
Log(LogInformation, "OpenTsdbWriter")
<< "Finished reconnecting to OpenTSDB in " << std::setw(2) << Utility::GetTime() - startTime << " second(s).";
}
/**
* Registered check result handler processing data.
* Calculates tags from the config.
*
* @param checkable Host/service object
* @param cr Check result
*/
void OpenTsdbWriter::CheckResultHandler(const Checkable::Ptr& checkable, const CheckResult::Ptr& cr)
{
if (IsPaused())
return;
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;
Dictionary::Ptr config_tmpl;
Dictionary::Ptr config_tmpl_tags;
String config_tmpl_metric;
if (service) {
host = service->GetHost();
config_tmpl = m_ServiceConfigTemplate;
}
else {
host = static_pointer_cast<Host>(checkable);
config_tmpl = m_HostConfigTemplate;
}
// Get the tags nested dictionary in the service/host template in the config
if (config_tmpl) {
config_tmpl_tags = config_tmpl->Get("tags");
config_tmpl_metric = config_tmpl->Get("metric");
}
String metric;
std::map<String, String> tags;
// Resolve macros in configuration template and build custom tag list
if (config_tmpl_tags || !config_tmpl_metric.IsEmpty()) {
// Configure config template macro resolver
MacroProcessor::ResolverList resolvers;
if (service)
resolvers.emplace_back("service", service);
resolvers.emplace_back("host", host);
resolvers.emplace_back("icinga", IcingaApplication::GetInstance());
// Resolve macros for the service and host template config line
if (config_tmpl_tags) {
ObjectLock olock(config_tmpl_tags);
for (const Dictionary::Pair& pair : config_tmpl_tags) {
String missing_macro;
Value value = MacroProcessor::ResolveMacros(pair.second, resolvers, cr, &missing_macro);
if (!missing_macro.IsEmpty()) {
Log(LogDebug, "OpenTsdbWriter")
<< "Unable to resolve macro:'" << missing_macro
<< "' for this host or service.";
continue;
}
String tagname = Convert::ToString(pair.first);
tags[tagname] = EscapeTag(value);
}
}
// Resolve macros for the metric config line
if (!config_tmpl_metric.IsEmpty()) {
String missing_macro;
Value value = MacroProcessor::ResolveMacros(config_tmpl_metric, resolvers, cr, &missing_macro);
if (!missing_macro.IsEmpty()) {
Log(LogDebug, "OpenTsdbWriter")
<< "Unable to resolve macro:'" << missing_macro
<< "' for this host or service.";
}
else {
config_tmpl_metric = Convert::ToString(value);
}
}
}
String escaped_hostName = EscapeTag(host->GetName());
tags["host"] = escaped_hostName;
double ts = cr->GetExecutionEnd();
if (service) {
if (!config_tmpl_metric.IsEmpty()) {
metric = config_tmpl_metric;
} else {
String serviceName = service->GetShortName();
String escaped_serviceName = EscapeMetric(serviceName);
metric = "icinga.service." + escaped_serviceName;
}
SendMetric(checkable, metric + ".state", tags, service->GetState(), ts);
} else {
if (!config_tmpl_metric.IsEmpty()) {
metric = config_tmpl_metric;
} else {
metric = "icinga.host";
}
SendMetric(checkable, metric + ".state", tags, host->GetState(), ts);
}
SendMetric(checkable, metric + ".state_type", tags, checkable->GetStateType(), ts);
SendMetric(checkable, metric + ".reachable", tags, checkable->IsReachable(), ts);
SendMetric(checkable, metric + ".downtime_depth", tags, checkable->GetDowntimeDepth(), ts);
SendMetric(checkable, metric + ".acknowledgement", tags, checkable->GetAcknowledgement(), ts);
SendPerfdata(checkable, 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(checkable, metric + ".current_attempt", tags, checkable->GetCheckAttempt(), ts);
SendMetric(checkable, metric + ".max_check_attempts", tags, checkable->GetMaxCheckAttempts(), ts);
SendMetric(checkable, metric + ".latency", tags, cr->CalculateLatency(), ts);
SendMetric(checkable, metric + ".execution_time", tags, cr->CalculateExecutionTime(), ts);
}
/**
* Parse and send performance data metrics to OpenTSDB
*
* @param checkable Host/service object
* @param metric Full metric name
* @param tags Tag key pairs
* @param cr Check result containing performance data
* @param ts Timestamp when the check result was received
*/
void OpenTsdbWriter::SendPerfdata(const Checkable::Ptr& checkable, const String& metric,
const std::map<String, String>& tags, const CheckResult::Ptr& cr, double ts)
{
Array::Ptr perfdata = cr->GetPerformanceData();
if (!perfdata)
return;
CheckCommand::Ptr checkCommand = checkable->GetCheckCommand();
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, "OpenTsdbWriter")
<< "Ignoring invalid perfdata for checkable '"
<< checkable->GetName() << "' and command '"
<< checkCommand->GetName() << "' with value: " << val;
continue;
}
}
String metric_name;
std::map<String, String> tags_new = tags;
// Do not break original functionality where perfdata labels form
// part of the metric name
if (!GetEnableGenericMetrics()) {
String escaped_key = EscapeMetric(pdv->GetLabel());
boost::algorithm::replace_all(escaped_key, "::", ".");
metric_name = metric + "." + escaped_key;
} else {
String escaped_key = EscapeTag(pdv->GetLabel());
metric_name = metric;
tags_new["label"] = escaped_key;
}
SendMetric(checkable, metric_name, tags_new, pdv->GetValue(), ts);
if (!pdv->GetCrit().IsEmpty())
SendMetric(checkable, metric_name + "_crit", tags_new, pdv->GetCrit(), ts);
if (!pdv->GetWarn().IsEmpty())
SendMetric(checkable, metric_name + "_warn", tags_new, pdv->GetWarn(), ts);
if (!pdv->GetMin().IsEmpty())
SendMetric(checkable, metric_name + "_min", tags_new, pdv->GetMin(), ts);
if (!pdv->GetMax().IsEmpty())
SendMetric(checkable, metric_name + "_max", tags_new, pdv->GetMax(), ts);
}
}
/**
* Send given metric to OpenTSDB
*
* @param checkable Host/service object
* @param metric Full metric name
* @param tags Tag key pairs
* @param value Floating point metric value
* @param ts Timestamp where the metric was received from the check result
*/
void OpenTsdbWriter::SendMetric(const Checkable::Ptr& checkable, const String& metric,
const std::map<String, String>& tags, double value, double ts)
{
String tags_string = "";
for (const Dictionary::Pair& tag : tags) {
tags_string += " " + tag.first + "=" + Convert::ToString(tag.second);
}
std::ostringstream msgbuf;
/*
* must be (http://opentsdb.net/docs/build/html/user_guide/query/timeseries.html)
* put <metric> <timestamp> <value> <tagk1=tagv1[ tagk2=tagv2 ...tagkN=tagvN]>
* "tags" must include at least one tag, we use "host=HOSTNAME"
*/
msgbuf << "put " << metric << " " << static_cast<long>(ts) << " " << Convert::ToString(value) << " " << tags_string;
Log(LogDebug, "OpenTsdbWriter")
<< "Checkable '" << checkable->GetName() << "' adds to metric list: '" << msgbuf.str() << "'.";
/* do not send \n to debug log */
msgbuf << "\n";
String put = msgbuf.str();
ObjectLock olock(this);
if (!GetConnected())
return;
try {
Log(LogDebug, "OpenTsdbWriter")
<< "Checkable '" << checkable->GetName() << "' sending message '" << put << "'.";
boost::asio::write(*m_Stream, boost::asio::buffer(msgbuf.str()));
m_Stream->flush();
} catch (const std::exception& ex) {
Log(LogCritical, "OpenTsdbWriter")
<< "Cannot write to TCP socket on host '" << GetHost() << "' port '" << GetPort() << "'.";
}
}
/**
* Escape tags for OpenTSDB
* http://opentsdb.net/docs/build/html/user_guide/query/timeseries.html#precisions-on-metrics-and-tags
*
* @param str Tag name
* @return Escaped tag
*/
String OpenTsdbWriter::EscapeTag(const String& str)
{
String result = str;
boost::replace_all(result, " ", "_");
boost::replace_all(result, "\\", "_");
boost::replace_all(result, ":", "_");
return result;
}
/**
* Escape metric name for OpenTSDB
* http://opentsdb.net/docs/build/html/user_guide/query/timeseries.html#precisions-on-metrics-and-tags
*
* @param str Metric name
* @return Escaped metric
*/
String OpenTsdbWriter::EscapeMetric(const String& str)
{
String result = str;
boost::replace_all(result, " ", "_");
boost::replace_all(result, ".", "_");
boost::replace_all(result, "\\", "_");
boost::replace_all(result, ":", "_");
return result;
}
/**
* Saves the template dictionaries defined in the config file into running memory
*
* @param stemplate The dictionary to save the service configuration to
* @param htemplate The dictionary to save the host configuration to
*/
void OpenTsdbWriter::ReadConfigTemplate(const Dictionary::Ptr& stemplate,
const Dictionary::Ptr& htemplate)
{
m_ServiceConfigTemplate = GetServiceTemplate();
if (!m_ServiceConfigTemplate) {
Log(LogDebug, "OpenTsdbWriter")
<< "Unable to locate service template configuration.";
} else if (m_ServiceConfigTemplate->GetLength() == 0) {
Log(LogDebug, "OpenTsdbWriter")
<< "The service template configuration is empty.";
}
m_HostConfigTemplate = GetHostTemplate();
if (!m_HostConfigTemplate) {
Log(LogDebug, "OpenTsdbWriter")
<< "Unable to locate host template configuration.";
} else if (m_HostConfigTemplate->GetLength() == 0) {
Log(LogDebug, "OpenTsdbWriter")
<< "The host template configuration is empty.";
}
}
/**
* Validates the host_template configuration block in the configuration
* file and checks for syntax errors.
*
* @param lvalue The host_template dictionary
* @param utils Validation helper utilities
*/
void OpenTsdbWriter::ValidateHostTemplate(const Lazy<Dictionary::Ptr>& lvalue, const ValidationUtils& utils)
{
ObjectImpl<OpenTsdbWriter>::ValidateHostTemplate(lvalue, utils);
String metric = lvalue()->Get("metric");
if (!MacroProcessor::ValidateMacroString(metric))
BOOST_THROW_EXCEPTION(ValidationError(this, { "host_template", "metric" }, "Closing $ not found in macro format string '" + metric + "'."));
Dictionary::Ptr tags = lvalue()->Get("tags");
if (tags) {
ObjectLock olock(tags);
for (const Dictionary::Pair& pair : tags) {
if (!MacroProcessor::ValidateMacroString(pair.second))
BOOST_THROW_EXCEPTION(ValidationError(this, { "host_template", "tags", pair.first }, "Closing $ not found in macro format string '" + pair.second));
}
}
}
/**
* Validates the service_template configuration block in the
* configuration file and checks for syntax errors.
*
* @param lvalue The service_template dictionary
* @param utils Validation helper utilities
*/
void OpenTsdbWriter::ValidateServiceTemplate(const Lazy<Dictionary::Ptr>& lvalue, const ValidationUtils& utils)
{
ObjectImpl<OpenTsdbWriter>::ValidateServiceTemplate(lvalue, utils);
String metric = lvalue()->Get("metric");
if (!MacroProcessor::ValidateMacroString(metric))
BOOST_THROW_EXCEPTION(ValidationError(this, { "service_template", "metric" }, "Closing $ not found in macro format string '" + metric + "'."));
Dictionary::Ptr tags = lvalue()->Get("tags");
if (tags) {
ObjectLock olock(tags);
for (const Dictionary::Pair& pair : tags) {
if (!MacroProcessor::ValidateMacroString(pair.second))
BOOST_THROW_EXCEPTION(ValidationError(this, { "service_template", "tags", pair.first }, "Closing $ not found in macro format string '" + pair.second));
}
}
}