icinga2/lib/perfdata/elasticsearchwriter.cpp

660 lines
21 KiB
C++

/* Icinga 2 | (c) 2012 Icinga GmbH | GPLv2+ */
#include "perfdata/elasticsearchwriter.hpp"
#include "perfdata/elasticsearchwriter-ti.cpp"
#include "remote/url.hpp"
#include "icinga/compatutility.hpp"
#include "icinga/service.hpp"
#include "icinga/checkcommand.hpp"
#include "base/application.hpp"
#include "base/defer.hpp"
#include "base/io-engine.hpp"
#include "base/tcpsocket.hpp"
#include "base/stream.hpp"
#include "base/base64.hpp"
#include "base/json.hpp"
#include "base/utility.hpp"
#include "base/networkstream.hpp"
#include "base/perfdatavalue.hpp"
#include "base/exception.hpp"
#include "base/statsfunction.hpp"
#include <boost/algorithm/string.hpp>
#include <boost/asio/ssl/context.hpp>
#include <boost/beast/core/flat_buffer.hpp>
#include <boost/beast/http/field.hpp>
#include <boost/beast/http/message.hpp>
#include <boost/beast/http/parser.hpp>
#include <boost/beast/http/read.hpp>
#include <boost/beast/http/status.hpp>
#include <boost/beast/http/string_body.hpp>
#include <boost/beast/http/verb.hpp>
#include <boost/beast/http/write.hpp>
#include <boost/scoped_array.hpp>
#include <memory>
#include <string>
#include <utility>
using namespace icinga;
REGISTER_TYPE(ElasticsearchWriter);
REGISTER_STATSFUNCTION(ElasticsearchWriter, &ElasticsearchWriter::StatsFunc);
void ElasticsearchWriter::OnConfigLoaded()
{
ObjectImpl<ElasticsearchWriter>::OnConfigLoaded();
m_WorkQueue.SetName("ElasticsearchWriter, " + GetName());
if (!GetEnableHa()) {
Log(LogDebug, "ElasticsearchWriter")
<< "HA functionality disabled. Won't pause connection: " << GetName();
SetHAMode(HARunEverywhere);
} else {
SetHAMode(HARunOnce);
}
}
void ElasticsearchWriter::StatsFunc(const Dictionary::Ptr& status, const Array::Ptr& perfdata)
{
DictionaryData nodes;
for (const ElasticsearchWriter::Ptr& elasticsearchwriter : ConfigType::GetObjectsByType<ElasticsearchWriter>()) {
size_t workQueueItems = elasticsearchwriter->m_WorkQueue.GetLength();
double workQueueItemRate = elasticsearchwriter->m_WorkQueue.GetTaskCount(60) / 60.0;
nodes.emplace_back(elasticsearchwriter->GetName(), new Dictionary({
{ "work_queue_items", workQueueItems },
{ "work_queue_item_rate", workQueueItemRate }
}));
perfdata->Add(new PerfdataValue("elasticsearchwriter_" + elasticsearchwriter->GetName() + "_work_queue_items", workQueueItems));
perfdata->Add(new PerfdataValue("elasticsearchwriter_" + elasticsearchwriter->GetName() + "_work_queue_item_rate", workQueueItemRate));
}
status->Set("elasticsearchwriter", new Dictionary(std::move(nodes)));
}
void ElasticsearchWriter::Resume()
{
ObjectImpl<ElasticsearchWriter>::Resume();
m_EventPrefix = "icinga2.event.";
Log(LogInformation, "ElasticsearchWriter")
<< "'" << GetName() << "' resumed.";
m_WorkQueue.SetExceptionCallback(std::bind(&ElasticsearchWriter::ExceptionHandler, this, _1));
/* Setup timer for periodically flushing m_DataBuffer */
m_FlushTimer = new Timer();
m_FlushTimer->SetInterval(GetFlushInterval());
m_FlushTimer->OnTimerExpired.connect(std::bind(&ElasticsearchWriter::FlushTimeout, this));
m_FlushTimer->Start();
m_FlushTimer->Reschedule(0);
/* Register for new metrics. */
Checkable::OnNewCheckResult.connect(std::bind(&ElasticsearchWriter::CheckResultHandler, this, _1, _2));
Checkable::OnStateChange.connect(std::bind(&ElasticsearchWriter::StateChangeHandler, this, _1, _2, _3));
Checkable::OnNotificationSentToAllUsers.connect(std::bind(&ElasticsearchWriter::NotificationSentToAllUsersHandler, this, _1, _2, _3, _4, _5, _6, _7));
}
/* Pause is equivalent to Stop, but with HA capabilities to resume at runtime. */
void ElasticsearchWriter::Pause()
{
Flush();
m_WorkQueue.Join();
Flush();
Log(LogInformation, "ElasticsearchWriter")
<< "'" << GetName() << "' paused.";
ObjectImpl<ElasticsearchWriter>::Pause();
}
void ElasticsearchWriter::AddCheckResult(const Dictionary::Ptr& fields, const Checkable::Ptr& checkable, const CheckResult::Ptr& cr)
{
String prefix = "check_result.";
fields->Set(prefix + "output", cr->GetOutput());
fields->Set(prefix + "check_source", cr->GetCheckSource());
fields->Set(prefix + "exit_status", cr->GetExitStatus());
fields->Set(prefix + "command", cr->GetCommand());
fields->Set(prefix + "state", cr->GetState());
fields->Set(prefix + "vars_before", cr->GetVarsBefore());
fields->Set(prefix + "vars_after", cr->GetVarsAfter());
fields->Set(prefix + "execution_start", FormatTimestamp(cr->GetExecutionStart()));
fields->Set(prefix + "execution_end", FormatTimestamp(cr->GetExecutionEnd()));
fields->Set(prefix + "schedule_start", FormatTimestamp(cr->GetScheduleStart()));
fields->Set(prefix + "schedule_end", FormatTimestamp(cr->GetScheduleEnd()));
/* Add extra calculated field. */
fields->Set(prefix + "latency", cr->CalculateLatency());
fields->Set(prefix + "execution_time", cr->CalculateExecutionTime());
if (!GetEnableSendPerfdata())
return;
Array::Ptr perfdata = cr->GetPerformanceData();
CheckCommand::Ptr checkCommand = checkable->GetCheckCommand();
if (perfdata) {
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, "ElasticsearchWriter")
<< "Ignoring invalid perfdata for checkable '"
<< checkable->GetName() << "' and command '"
<< checkCommand->GetName() << "' with value: " << val;
continue;
}
}
String escapedKey = pdv->GetLabel();
boost::replace_all(escapedKey, " ", "_");
boost::replace_all(escapedKey, ".", "_");
boost::replace_all(escapedKey, "\\", "_");
boost::algorithm::replace_all(escapedKey, "::", ".");
String perfdataPrefix = prefix + "perfdata." + escapedKey;
fields->Set(perfdataPrefix + ".value", pdv->GetValue());
if (pdv->GetMin())
fields->Set(perfdataPrefix + ".min", pdv->GetMin());
if (pdv->GetMax())
fields->Set(perfdataPrefix + ".max", pdv->GetMax());
if (pdv->GetWarn())
fields->Set(perfdataPrefix + ".warn", pdv->GetWarn());
if (pdv->GetCrit())
fields->Set(perfdataPrefix + ".crit", pdv->GetCrit());
if (!pdv->GetUnit().IsEmpty())
fields->Set(perfdataPrefix + ".unit", pdv->GetUnit());
}
}
}
void ElasticsearchWriter::CheckResultHandler(const Checkable::Ptr& checkable, const CheckResult::Ptr& cr)
{
if (IsPaused())
return;
m_WorkQueue.Enqueue(std::bind(&ElasticsearchWriter::InternalCheckResultHandler, this, checkable, cr));
}
void ElasticsearchWriter::InternalCheckResultHandler(const Checkable::Ptr& checkable, const CheckResult::Ptr& cr)
{
AssertOnWorkQueue();
CONTEXT("Elasticwriter processing check result for '" + checkable->GetName() + "'");
if (!IcingaApplication::GetInstance()->GetEnablePerfdata() || !checkable->GetEnablePerfdata())
return;
Host::Ptr host;
Service::Ptr service;
tie(host, service) = GetHostService(checkable);
Dictionary::Ptr fields = new Dictionary();
if (service) {
fields->Set("service", service->GetShortName());
fields->Set("state", service->GetState());
fields->Set("last_state", service->GetLastState());
fields->Set("last_hard_state", service->GetLastHardState());
} else {
fields->Set("state", host->GetState());
fields->Set("last_state", host->GetLastState());
fields->Set("last_hard_state", host->GetLastHardState());
}
fields->Set("host", host->GetName());
fields->Set("state_type", checkable->GetStateType());
fields->Set("current_check_attempt", checkable->GetCheckAttempt());
fields->Set("max_check_attempts", checkable->GetMaxCheckAttempts());
fields->Set("reachable", checkable->IsReachable());
CheckCommand::Ptr commandObj = checkable->GetCheckCommand();
if (commandObj)
fields->Set("check_command", commandObj->GetName());
double ts = Utility::GetTime();
if (cr) {
AddCheckResult(fields, checkable, cr);
ts = cr->GetExecutionEnd();
}
Enqueue(checkable, "checkresult", fields, ts);
}
void ElasticsearchWriter::StateChangeHandler(const Checkable::Ptr& checkable, const CheckResult::Ptr& cr, StateType type)
{
if (IsPaused())
return;
m_WorkQueue.Enqueue(std::bind(&ElasticsearchWriter::StateChangeHandlerInternal, this, checkable, cr, type));
}
void ElasticsearchWriter::StateChangeHandlerInternal(const Checkable::Ptr& checkable, const CheckResult::Ptr& cr, StateType type)
{
AssertOnWorkQueue();
CONTEXT("Elasticwriter processing state change '" + checkable->GetName() + "'");
Host::Ptr host;
Service::Ptr service;
tie(host, service) = GetHostService(checkable);
Dictionary::Ptr fields = new Dictionary();
fields->Set("current_check_attempt", checkable->GetCheckAttempt());
fields->Set("max_check_attempts", checkable->GetMaxCheckAttempts());
fields->Set("host", host->GetName());
if (service) {
fields->Set("service", service->GetShortName());
fields->Set("state", service->GetState());
fields->Set("last_state", service->GetLastState());
fields->Set("last_hard_state", service->GetLastHardState());
} else {
fields->Set("state", host->GetState());
fields->Set("last_state", host->GetLastState());
fields->Set("last_hard_state", host->GetLastHardState());
}
CheckCommand::Ptr commandObj = checkable->GetCheckCommand();
if (commandObj)
fields->Set("check_command", commandObj->GetName());
double ts = Utility::GetTime();
if (cr) {
AddCheckResult(fields, checkable, cr);
ts = cr->GetExecutionEnd();
}
Enqueue(checkable, "statechange", fields, ts);
}
void ElasticsearchWriter::NotificationSentToAllUsersHandler(const Notification::Ptr& notification,
const Checkable::Ptr& checkable, const std::set<User::Ptr>& users, NotificationType type,
const CheckResult::Ptr& cr, const String& author, const String& text)
{
if (IsPaused())
return;
m_WorkQueue.Enqueue(std::bind(&ElasticsearchWriter::NotificationSentToAllUsersHandlerInternal, this,
notification, checkable, users, type, cr, author, text));
}
void ElasticsearchWriter::NotificationSentToAllUsersHandlerInternal(const Notification::Ptr& notification,
const Checkable::Ptr& checkable, const std::set<User::Ptr>& users, NotificationType type,
const CheckResult::Ptr& cr, const String& author, const String& text)
{
AssertOnWorkQueue();
CONTEXT("Elasticwriter processing notification to all users '" + checkable->GetName() + "'");
Log(LogDebug, "ElasticsearchWriter")
<< "Processing notification for '" << checkable->GetName() << "'";
Host::Ptr host;
Service::Ptr service;
tie(host, service) = GetHostService(checkable);
String notificationTypeString = Notification::NotificationTypeToStringCompat(type); //TODO: Change that to our own types.
Dictionary::Ptr fields = new Dictionary();
if (service) {
fields->Set("service", service->GetShortName());
fields->Set("state", service->GetState());
fields->Set("last_state", service->GetLastState());
fields->Set("last_hard_state", service->GetLastHardState());
} else {
fields->Set("state", host->GetState());
fields->Set("last_state", host->GetLastState());
fields->Set("last_hard_state", host->GetLastHardState());
}
fields->Set("host", host->GetName());
ArrayData userNames;
for (const User::Ptr& user : users) {
userNames.push_back(user->GetName());
}
fields->Set("users", new Array(std::move(userNames)));
fields->Set("notification_type", notificationTypeString);
fields->Set("author", author);
fields->Set("text", text);
CheckCommand::Ptr commandObj = checkable->GetCheckCommand();
if (commandObj)
fields->Set("check_command", commandObj->GetName());
double ts = Utility::GetTime();
if (cr) {
AddCheckResult(fields, checkable, cr);
ts = cr->GetExecutionEnd();
}
Enqueue(checkable, "notification", fields, ts);
}
void ElasticsearchWriter::Enqueue(const Checkable::Ptr& checkable, const String& type,
const Dictionary::Ptr& fields, double ts)
{
/* Atomically buffer the data point. */
boost::mutex::scoped_lock lock(m_DataBufferMutex);
/* Format the timestamps to dynamically select the date datatype inside the index. */
fields->Set("@timestamp", FormatTimestamp(ts));
fields->Set("timestamp", FormatTimestamp(ts));
String eventType = m_EventPrefix + type;
fields->Set("type", eventType);
/* Every payload needs a line describing the index.
* We do it this way to avoid problems with a near full queue.
*/
String indexBody = "{\"index\": {} }\n";
String fieldsBody = JsonEncode(fields);
Log(LogDebug, "ElasticsearchWriter")
<< "Checkable '" << checkable->GetName() << "' adds to metric list: '" << fieldsBody << "'.";
m_DataBuffer.emplace_back(indexBody + fieldsBody);
/* Flush if we've buffered too much to prevent excessive memory use. */
if (static_cast<int>(m_DataBuffer.size()) >= GetFlushThreshold()) {
Log(LogDebug, "ElasticsearchWriter")
<< "Data buffer overflow writing " << m_DataBuffer.size() << " data points";
Flush();
}
}
void ElasticsearchWriter::FlushTimeout()
{
/* Prevent new data points from being added to the array, there is a
* race condition where they could disappear.
*/
boost::mutex::scoped_lock lock(m_DataBufferMutex);
/* Flush if there are any data available. */
if (m_DataBuffer.size() > 0) {
Log(LogDebug, "ElasticsearchWriter")
<< "Timer expired writing " << m_DataBuffer.size() << " data points";
Flush();
}
}
void ElasticsearchWriter::Flush()
{
/* Flush can be called from 1) Timeout 2) Threshold 3) on shutdown/reload. */
if (m_DataBuffer.empty())
return;
/* Ensure you hold a lock against m_DataBuffer so that things
* don't go missing after creating the body and clearing the buffer.
*/
String body = boost::algorithm::join(m_DataBuffer, "\n");
m_DataBuffer.clear();
/* Elasticsearch 6.x requires a new line. This is compatible to 5.x.
* Tested with 6.0.0 and 5.6.4.
*/
body += "\n";
SendRequest(body);
}
void ElasticsearchWriter::SendRequest(const String& body)
{
namespace beast = boost::beast;
namespace http = beast::http;
Url::Ptr url = new Url();
url->SetScheme(GetEnableTls() ? "https" : "http");
url->SetHost(GetHost());
url->SetPort(GetPort());
std::vector<String> path;
/* Specify the index path. Best practice is a daily rotation.
* Example: http://localhost:9200/icinga2-2017.09.11?pretty=1
*/
path.emplace_back(GetIndex() + "-" + Utility::FormatDateTime("%Y.%m.%d", Utility::GetTime()));
/* ES 6 removes multiple _type mappings: https://www.elastic.co/guide/en/elasticsearch/reference/6.x/removal-of-types.html
* Best practice is to statically define 'doc', as ES 5.X does not allow types starting with '_'.
*/
path.emplace_back("doc");
/* Use the bulk message format. */
path.emplace_back("_bulk");
url->SetPath(path);
OptionalTlsStream stream;
try {
stream = Connect();
} catch (const std::exception& ex) {
Log(LogWarning, "ElasticsearchWriter")
<< "Flush failed, cannot connect to Elasticsearch: " << DiagnosticInformation(ex, false);
return;
}
Defer s ([&stream]() {
if (stream.first) {
stream.first->next_layer().shutdown();
}
});
http::request<http::string_body> request (http::verb::post, std::string(url->Format(true)), 10);
request.set(http::field::user_agent, "Icinga/" + Application::GetAppVersion());
request.set(http::field::host, url->GetHost() + ":" + url->GetPort());
/* Specify required headers by Elasticsearch. */
request.set(http::field::accept, "application/json");
/* Use application/x-ndjson for bulk streams. While ES
* is able to handle application/json, the newline separator
* causes problems with Logstash (#6609).
*/
request.set(http::field::content_type, "application/x-ndjson");
/* Send authentication if configured. */
String username = GetUsername();
String password = GetPassword();
if (!username.IsEmpty() && !password.IsEmpty())
request.set(http::field::authorization, "Basic " + Base64::Encode(username + ":" + password));
request.body() = body;
request.set(http::field::content_length, request.body().size());
/* Don't log the request body to debug log, this is already done above. */
Log(LogDebug, "ElasticsearchWriter")
<< "Sending " << request.method_string() << " request" << ((!username.IsEmpty() && !password.IsEmpty()) ? " with basic auth" : "" )
<< " to '" << url->Format() << "'.";
try {
if (stream.first) {
http::write(*stream.first, request);
stream.first->flush();
} else {
http::write(*stream.second, request);
stream.second->flush();
}
} catch (const std::exception&) {
Log(LogWarning, "ElasticsearchWriter")
<< "Cannot write to HTTP API on host '" << GetHost() << "' port '" << GetPort() << "'.";
throw;
}
http::parser<false, http::string_body> parser;
beast::flat_buffer buf;
try {
if (stream.first) {
http::read(*stream.first, buf, parser);
} else {
http::read(*stream.second, buf, parser);
}
} catch (const std::exception& ex) {
Log(LogWarning, "ElasticsearchWriter")
<< "Failed to parse HTTP response from host '" << GetHost() << "' port '" << GetPort() << "': " << DiagnosticInformation(ex, false);
throw;
}
auto& response (parser.get());
if (response.result_int() > 299) {
if (response.result() == http::status::unauthorized) {
/* More verbose error logging with Elasticsearch is hidden behind a proxy. */
if (!username.IsEmpty() && !password.IsEmpty()) {
Log(LogCritical, "ElasticsearchWriter")
<< "401 Unauthorized. Please ensure that the user '" << username
<< "' is able to authenticate against the HTTP API/Proxy.";
} else {
Log(LogCritical, "ElasticsearchWriter")
<< "401 Unauthorized. The HTTP API requires authentication but no username/password has been configured.";
}
return;
}
std::ostringstream msgbuf;
msgbuf << "Unexpected response code " << response.result_int() << " from URL '" << url->Format() << "'";
auto& contentType (response[http::field::content_type]);
if (contentType != "application/json" && contentType != "application/json; charset=utf-8") {
msgbuf << "; Unexpected Content-Type: '" << contentType << "'";
}
auto& body (response.body());
#ifdef I2_DEBUG
msgbuf << "; Response body: '" << body << "'";
#endif /* I2_DEBUG */
Dictionary::Ptr jsonResponse;
try {
jsonResponse = JsonDecode(body);
} catch (...) {
Log(LogWarning, "ElasticsearchWriter")
<< "Unable to parse JSON response:\n" << body;
return;
}
String error = jsonResponse->Get("error");
Log(LogCritical, "ElasticsearchWriter")
<< "Error: '" << error << "'. " << msgbuf.str();
}
}
OptionalTlsStream ElasticsearchWriter::Connect()
{
Log(LogNotice, "ElasticsearchWriter")
<< "Connecting to Elasticsearch on host '" << GetHost() << "' port '" << GetPort() << "'.";
OptionalTlsStream stream;
bool tls = GetEnableTls();
if (tls) {
Shared<boost::asio::ssl::context>::Ptr sslContext;
try {
sslContext = MakeAsioSslContext(GetCertPath(), GetKeyPath(), GetCaPath());
} catch (const std::exception&) {
Log(LogWarning, "ElasticsearchWriter")
<< "Unable to create SSL context.";
throw;
}
stream.first = Shared<AsioTlsStream>::Make(IoEngine::Get().GetIoContext(), *sslContext, GetHost());
} else {
stream.second = Shared<AsioTcpStream>::Make(IoEngine::Get().GetIoContext());
}
try {
icinga::Connect(tls ? stream.first->lowest_layer() : stream.second->lowest_layer(), GetHost(), GetPort());
} catch (const std::exception&) {
Log(LogWarning, "ElasticsearchWriter")
<< "Can't connect to Elasticsearch on host '" << GetHost() << "' port '" << GetPort() << "'.";
throw;
}
if (tls) {
auto& tlsStream (stream.first->next_layer());
try {
tlsStream.handshake(tlsStream.client);
} catch (const std::exception&) {
Log(LogWarning, "ElasticsearchWriter")
<< "TLS handshake with host '" << GetHost() << "' on port " << GetPort() << " failed.";
throw;
}
}
return std::move(stream);
}
void ElasticsearchWriter::AssertOnWorkQueue()
{
ASSERT(m_WorkQueue.IsWorkerThread());
}
void ElasticsearchWriter::ExceptionHandler(boost::exception_ptr exp)
{
Log(LogCritical, "ElasticsearchWriter", "Exception during Elastic operation: Verify that your backend is operational!");
Log(LogDebug, "ElasticsearchWriter")
<< "Exception during Elasticsearch operation: " << DiagnosticInformation(std::move(exp));
}
String ElasticsearchWriter::FormatTimestamp(double ts)
{
/* The date format must match the default dynamic date detection
* pattern in indexes. This enables applications like Kibana to
* detect a qualified timestamp index for time-series data.
*
* Example: 2017-09-11T10:56:21.463+0200
*
* References:
* https://www.elastic.co/guide/en/elasticsearch/reference/current/dynamic-field-mapping.html#date-detection
* https://www.elastic.co/guide/en/elasticsearch/reference/current/mapping-date-format.html
* https://www.elastic.co/guide/en/elasticsearch/reference/current/date.html
*/
auto milliSeconds = static_cast<int>((ts - static_cast<int>(ts)) * 1000);
return Utility::FormatDateTime("%Y-%m-%dT%H:%M:%S", ts) + "." + Convert::ToString(milliSeconds) + Utility::FormatDateTime("%z", ts);
}