/* Icinga 2 | (c) 2021 Icinga GmbH | GPLv2+ */ #include "perfdata/influxdbcommonwriter.hpp" #include "perfdata/influxdbcommonwriter-ti.cpp" #include "remote/url.hpp" #include "icinga/service.hpp" #include "icinga/macroprocessor.hpp" #include "icinga/icingaapplication.hpp" #include "icinga/checkcommand.hpp" #include "base/application.hpp" #include "base/defer.hpp" #include "base/io-engine.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/stream.hpp" #include "base/json.hpp" #include "base/networkstream.hpp" #include "base/exception.hpp" #include "base/statsfunction.hpp" #include "base/tlsutility.hpp" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace icinga; REGISTER_TYPE(InfluxdbCommonWriter); class InfluxdbInteger final : public Object { public: DECLARE_PTR_TYPEDEFS(InfluxdbInteger); InfluxdbInteger(int value) : m_Value(value) { } int GetValue() const { return m_Value; } private: int m_Value; }; void InfluxdbCommonWriter::OnConfigLoaded() { ObjectImpl::OnConfigLoaded(); m_WorkQueue.SetName(GetReflectionType()->GetName() + ", " + GetName()); if (!GetEnableHa()) { Log(LogDebug, GetReflectionType()->GetName()) << "HA functionality disabled. Won't pause connection: " << GetName(); SetHAMode(HARunEverywhere); } else { SetHAMode(HARunOnce); } } void InfluxdbCommonWriter::Resume() { ObjectImpl::Resume(); Log(LogInformation, GetReflectionType()->GetName()) << "'" << GetName() << "' resumed."; /* Register exception handler for WQ tasks. */ m_WorkQueue.SetExceptionCallback([this](boost::exception_ptr exp) { ExceptionHandler(std::move(exp)); }); /* Setup timer for periodically flushing m_DataBuffer */ m_FlushTimer = new Timer(); m_FlushTimer->SetInterval(GetFlushInterval()); m_FlushTimer->OnTimerExpired.connect([this](const Timer * const&) { FlushTimeout(); }); m_FlushTimer->Start(); m_FlushTimer->Reschedule(0); /* Register for new metrics. */ m_HandleCheckResults = Checkable::OnNewCheckResult.connect([this](const Checkable::Ptr& checkable, const CheckResult::Ptr& cr, const MessageOrigin::Ptr&) { CheckResultHandler(checkable, cr); }); } /* Pause is equivalent to Stop, but with HA capabilities to resume at runtime. */ void InfluxdbCommonWriter::Pause() { m_HandleCheckResults.disconnect(); /* Force a flush. */ Log(LogDebug, GetReflectionType()->GetName()) << "Processing pending tasks and flushing data buffers."; m_WorkQueue.Enqueue([this]() { FlushWQ(); }, PriorityLow); /* Wait for the flush to complete, implicitly waits for all WQ tasks enqueued prior to pausing. */ m_WorkQueue.Join(); Log(LogInformation, GetReflectionType()->GetName()) << "'" << GetName() << "' paused."; ObjectImpl::Pause(); } void InfluxdbCommonWriter::AssertOnWorkQueue() { ASSERT(m_WorkQueue.IsWorkerThread()); } void InfluxdbCommonWriter::ExceptionHandler(boost::exception_ptr exp) { Log(LogCritical, GetReflectionType()->GetName(), "Exception during InfluxDB operation: Verify that your backend is operational!"); Log(LogDebug, GetReflectionType()->GetName()) << "Exception during InfluxDB operation: " << DiagnosticInformation(std::move(exp)); //TODO: Close the connection, if we keep it open. } OptionalTlsStream InfluxdbCommonWriter::Connect() { Log(LogNotice, GetReflectionType()->GetName()) << "Reconnecting to InfluxDB on host '" << GetHost() << "' port '" << GetPort() << "'."; OptionalTlsStream stream; bool ssl = GetSslEnable(); if (ssl) { Shared::Ptr sslContext; try { sslContext = MakeAsioSslContext(GetSslCert(), GetSslKey(), GetSslCaCert()); } catch (const std::exception& ex) { Log(LogWarning, GetReflectionType()->GetName()) << "Unable to create SSL context."; throw; } stream.first = Shared::Make(IoEngine::Get().GetIoContext(), *sslContext, GetHost()); } else { stream.second = Shared::Make(IoEngine::Get().GetIoContext()); } try { icinga::Connect(ssl ? stream.first->lowest_layer() : stream.second->lowest_layer(), GetHost(), GetPort()); } catch (const std::exception& ex) { Log(LogWarning, GetReflectionType()->GetName()) << "Can't connect to InfluxDB on host '" << GetHost() << "' port '" << GetPort() << "'."; throw; } if (ssl) { auto& tlsStream (stream.first->next_layer()); try { tlsStream.handshake(tlsStream.client); } catch (const std::exception& ex) { Log(LogWarning, GetReflectionType()->GetName()) << "TLS handshake with host '" << GetHost() << "' failed."; throw; } if (!GetSslInsecureNoverify()) { if (!tlsStream.GetPeerCertificate()) { BOOST_THROW_EXCEPTION(std::runtime_error("InfluxDB didn't present any TLS certificate.")); } if (!tlsStream.IsVerifyOK()) { BOOST_THROW_EXCEPTION(std::runtime_error( "TLS certificate validation failed: " + std::string(tlsStream.GetVerifyError()) )); } } } return std::move(stream); } void InfluxdbCommonWriter::CheckResultHandler(const Checkable::Ptr& checkable, const CheckResult::Ptr& cr) { if (IsPaused()) return; m_WorkQueue.Enqueue([this, checkable, cr]() { CheckResultHandlerWQ(checkable, cr); }, PriorityLow); } void InfluxdbCommonWriter::CheckResultHandlerWQ(const Checkable::Ptr& checkable, const CheckResult::Ptr& cr) { AssertOnWorkQueue(); CONTEXT("Processing check result for '" + checkable->GetName() + "'"); if (!IcingaApplication::GetInstance()->GetEnablePerfdata() || !checkable->GetEnablePerfdata()) return; Host::Ptr host; Service::Ptr service; tie(host, service) = GetHostService(checkable); MacroProcessor::ResolverList resolvers; if (service) resolvers.emplace_back("service", service); resolvers.emplace_back("host", host); resolvers.emplace_back("icinga", IcingaApplication::GetInstance()); String prefix; double ts = cr->GetExecutionEnd(); // Clone the template and perform an in-place macro expansion of measurement and tag values Dictionary::Ptr tmpl_clean = service ? GetServiceTemplate() : GetHostTemplate(); Dictionary::Ptr tmpl = static_pointer_cast(tmpl_clean->ShallowClone()); tmpl->Set("measurement", MacroProcessor::ResolveMacros(tmpl->Get("measurement"), resolvers, cr)); Dictionary::Ptr tagsClean = tmpl->Get("tags"); if (tagsClean) { Dictionary::Ptr tags = new Dictionary(); { ObjectLock olock(tagsClean); for (const Dictionary::Pair& pair : tagsClean) { String missing_macro; Value value = MacroProcessor::ResolveMacros(pair.second, resolvers, cr, &missing_macro); if (missing_macro.IsEmpty()) { tags->Set(pair.first, value); } } } tmpl->Set("tags", tags); } CheckCommand::Ptr checkCommand = checkable->GetCheckCommand(); Array::Ptr perfdata = cr->GetPerformanceData(); if (perfdata) { ObjectLock olock(perfdata); for (const Value& val : perfdata) { PerfdataValue::Ptr pdv; if (val.IsObjectType()) pdv = val; else { try { pdv = PerfdataValue::Parse(val); } catch (const std::exception&) { Log(LogWarning, GetReflectionType()->GetName()) << "Ignoring invalid perfdata for checkable '" << checkable->GetName() << "' and command '" << checkCommand->GetName() << "' with value: " << val; continue; } } Dictionary::Ptr fields = new Dictionary(); fields->Set("value", pdv->GetValue()); if (GetEnableSendThresholds()) { if (!pdv->GetCrit().IsEmpty()) fields->Set("crit", pdv->GetCrit()); if (!pdv->GetWarn().IsEmpty()) fields->Set("warn", pdv->GetWarn()); if (!pdv->GetMin().IsEmpty()) fields->Set("min", pdv->GetMin()); if (!pdv->GetMax().IsEmpty()) fields->Set("max", pdv->GetMax()); } if (!pdv->GetUnit().IsEmpty()) { fields->Set("unit", pdv->GetUnit()); } SendMetric(checkable, tmpl, pdv->GetLabel(), fields, ts); } } if (GetEnableSendMetadata()) { Host::Ptr host; Service::Ptr service; tie(host, service) = GetHostService(checkable); Dictionary::Ptr fields = new Dictionary(); if (service) fields->Set("state", new InfluxdbInteger(service->GetState())); else fields->Set("state", new InfluxdbInteger(host->GetState())); fields->Set("current_attempt", new InfluxdbInteger(checkable->GetCheckAttempt())); fields->Set("max_check_attempts", new InfluxdbInteger(checkable->GetMaxCheckAttempts())); fields->Set("state_type", new InfluxdbInteger(checkable->GetStateType())); fields->Set("reachable", checkable->IsReachable()); fields->Set("downtime_depth", new InfluxdbInteger(checkable->GetDowntimeDepth())); fields->Set("acknowledgement", new InfluxdbInteger(checkable->GetAcknowledgement())); fields->Set("latency", cr->CalculateLatency()); fields->Set("execution_time", cr->CalculateExecutionTime()); SendMetric(checkable, tmpl, Empty, fields, ts); } } String InfluxdbCommonWriter::EscapeKeyOrTagValue(const String& str) { // Iterate over the key name and escape commas and spaces with a backslash String result = str; boost::algorithm::replace_all(result, "\"", "\\\""); boost::algorithm::replace_all(result, "=", "\\="); boost::algorithm::replace_all(result, ",", "\\,"); boost::algorithm::replace_all(result, " ", "\\ "); // InfluxDB 'feature': although backslashes are allowed in keys they also act // as escape sequences when followed by ',' or ' '. When your tag is like // 'metric=C:\' bad things happen. Backslashes themselves cannot be escaped // and through experimentation they also escape '='. To be safe we replace // trailing backslashes with and underscore. // See https://github.com/influxdata/influxdb/issues/8587 for more info size_t length = result.GetLength(); if (result[length - 1] == '\\') result[length - 1] = '_'; return result; } String InfluxdbCommonWriter::EscapeValue(const Value& value) { if (value.IsObjectType()) { std::ostringstream os; os << static_cast(value)->GetValue() << "i"; return os.str(); } if (value.IsBoolean()) return value ? "true" : "false"; if (value.IsString()) return "\"" + EscapeKeyOrTagValue(value) + "\""; return value; } void InfluxdbCommonWriter::SendMetric(const Checkable::Ptr& checkable, const Dictionary::Ptr& tmpl, const String& label, const Dictionary::Ptr& fields, double ts) { std::ostringstream msgbuf; msgbuf << EscapeKeyOrTagValue(tmpl->Get("measurement")); Dictionary::Ptr tags = tmpl->Get("tags"); if (tags) { ObjectLock olock(tags); for (const Dictionary::Pair& pair : tags) { // Empty macro expansion, no tag if (!pair.second.IsEmpty()) { msgbuf << "," << EscapeKeyOrTagValue(pair.first) << "=" << EscapeKeyOrTagValue(pair.second); } } } // Label may be empty in the case of metadata if (!label.IsEmpty()) msgbuf << ",metric=" << EscapeKeyOrTagValue(label); msgbuf << " "; { bool first = true; ObjectLock fieldLock(fields); for (const Dictionary::Pair& pair : fields) { if (first) first = false; else msgbuf << ","; msgbuf << EscapeKeyOrTagValue(pair.first) << "=" << EscapeValue(pair.second); } } msgbuf << " " << static_cast(ts); Log(LogDebug, GetReflectionType()->GetName()) << "Checkable '" << checkable->GetName() << "' adds to metric list:'" << msgbuf.str() << "'."; // Buffer the data point m_DataBuffer.emplace_back(msgbuf.str()); m_DataBufferSize = m_DataBuffer.size(); // Flush if we've buffered too much to prevent excessive memory use if (static_cast(m_DataBuffer.size()) >= GetFlushThreshold()) { Log(LogDebug, GetReflectionType()->GetName()) << "Data buffer overflow writing " << m_DataBuffer.size() << " data points"; try { FlushWQ(); } catch (...) { /* Do nothing. */ } } } void InfluxdbCommonWriter::FlushTimeout() { m_WorkQueue.Enqueue([this]() { FlushTimeoutWQ(); }, PriorityHigh); } void InfluxdbCommonWriter::FlushTimeoutWQ() { AssertOnWorkQueue(); Log(LogDebug, GetReflectionType()->GetName()) << "Timer expired writing " << m_DataBuffer.size() << " data points"; FlushWQ(); } void InfluxdbCommonWriter::FlushWQ() { AssertOnWorkQueue(); namespace beast = boost::beast; namespace http = beast::http; /* Flush can be called from 1) Timeout 2) Threshold 3) on shutdown/reload. */ if (m_DataBuffer.empty()) return; Log(LogDebug, GetReflectionType()->GetName()) << "Flushing data buffer to InfluxDB."; String body = boost::algorithm::join(m_DataBuffer, "\n"); m_DataBuffer.clear(); m_DataBufferSize = 0; OptionalTlsStream stream; try { stream = Connect(); } catch (const std::exception& ex) { Log(LogWarning, GetReflectionType()->GetName()) << "Flush failed, cannot connect to InfluxDB: " << DiagnosticInformation(ex, false); return; } Defer s ([&stream]() { if (stream.first) { stream.first->next_layer().shutdown(); } }); auto request (AssembleRequest(std::move(body))); 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& ex) { Log(LogWarning, GetReflectionType()->GetName()) << "Cannot write to TCP socket on host '" << GetHost() << "' port '" << GetPort() << "'."; throw; } http::parser 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, GetReflectionType()->GetName()) << "Failed to parse HTTP response from host '" << GetHost() << "' port '" << GetPort() << "': " << DiagnosticInformation(ex); throw; } auto& response (parser.get()); if (response.result() != http::status::no_content) { Log(LogWarning, GetReflectionType()->GetName()) << "Unexpected response code: " << response.result(); auto& contentType (response[http::field::content_type]); if (contentType != "application/json") { Log(LogWarning, GetReflectionType()->GetName()) << "Unexpected Content-Type: " << contentType; return; } Dictionary::Ptr jsonResponse; auto& body (response.body()); try { jsonResponse = JsonDecode(body); } catch (...) { Log(LogWarning, GetReflectionType()->GetName()) << "Unable to parse JSON response:\n" << body; return; } String error = jsonResponse->Get("error"); Log(LogCritical, GetReflectionType()->GetName()) << "InfluxDB error message:\n" << error; } } boost::beast::http::request InfluxdbCommonWriter::AssembleBaseRequest(String body) { namespace http = boost::beast::http; auto url (AssembleUrl()); http::request 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()); request.body() = std::move(body); request.content_length(request.body().size()); return std::move(request); } Url::Ptr InfluxdbCommonWriter::AssembleBaseUrl() { Url::Ptr url = new Url(); url->SetScheme(GetSslEnable() ? "https" : "http"); url->SetHost(GetHost()); url->SetPort(GetPort()); url->AddQueryElement("precision", "s"); return std::move(url); } void InfluxdbCommonWriter::ValidateHostTemplate(const Lazy& lvalue, const ValidationUtils& utils) { ObjectImpl::ValidateHostTemplate(lvalue, utils); String measurement = lvalue()->Get("measurement"); if (!MacroProcessor::ValidateMacroString(measurement)) BOOST_THROW_EXCEPTION(ValidationError(this, { "host_template", "measurement" }, "Closing $ not found in macro format string '" + measurement + "'.")); 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)); } } } void InfluxdbCommonWriter::ValidateServiceTemplate(const Lazy& lvalue, const ValidationUtils& utils) { ObjectImpl::ValidateServiceTemplate(lvalue, utils); String measurement = lvalue()->Get("measurement"); if (!MacroProcessor::ValidateMacroString(measurement)) BOOST_THROW_EXCEPTION(ValidationError(this, { "service_template", "measurement" }, "Closing $ not found in macro format string '" + measurement + "'.")); 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)); } } }