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Monitoring of JavaEE applications
/*
* Copyright 2008-2019 by Emeric Vernat
*
* This file is part of Java Melody.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package net.bull.javamelody.internal.web;
import java.io.IOException;
import java.io.PrintWriter;
import java.text.DecimalFormat;
import java.text.DecimalFormatSymbols;
import java.util.Collection;
import java.util.LinkedHashMap;
import java.util.List;
import java.util.Locale;
import java.util.Map;
import java.util.regex.Pattern;
import net.bull.javamelody.internal.common.Parameters;
import net.bull.javamelody.internal.model.CacheInformations;
import net.bull.javamelody.internal.model.Collector;
import net.bull.javamelody.internal.model.Counter;
import net.bull.javamelody.internal.model.CounterRequest;
import net.bull.javamelody.internal.model.JCacheInformations;
import net.bull.javamelody.internal.model.JRobin;
import net.bull.javamelody.internal.model.JavaInformations;
import net.bull.javamelody.internal.model.MemoryInformations;
import net.bull.javamelody.internal.model.TomcatInformations;
/**
* Produces a report of the data in {@link JavaInformations} in the Prometheus text format
* to enable collection by a Prometheus server.
*
* Metric names have been adjusted to match Prometheus recommendations.
*
* The {@link JavaInformations} fields to Prometheus metric mappings are done statically
* to avoid any performance penalties of Java Reflection. Additional metadata (description, type)
* about each statistic is merged in as well.
*
* In the spirit of JavaMelody, special attention is paid to performance so that exposing
* these metrics should have very little performance overhead on applications.
*
* This implementation directly outputs the Prometheus text format avoiding dependence on any
* additional libraries.
*
* Exposed Metrics:
* (From {@link JavaInformations})
*
* javamelody_memory_used_bytes
* javamelody_memory_max_bytes
* javamelody_memory_used_pct
* javamelody_memory_perm_gen_used_bytes
* javamelody_memory_perm_gen_max_bytes
* javamelody_memory_perm_gen_used_pct
* javamelody_memory_gc_millis
* javamelody_sessions_active_count
* javamelody_sessions_age_avg_minutes
* javamelody_transactions_count
* javamelody_connections_used_count
* javamelody_connections_max_count
* javamelody_connections_active_count
* javamelody_connections_used_pct
* javamelody_system_load_avg
* javamelody_system_cpu_load_pct
* javamelody_system_unix_file_descriptors_open_count
* javamelody_system_unix_file_descriptors_max
* javamelody_system_unix_file_descriptors_open_pct
* javamelody_system_processors_count
* javamelody_system_tmp_space_free_bytes
* javamelody_jvm_start_time
* javamelody_jvm_cpu_millis
* javamelody_threads_count
* javamelody_threads_max_count
* javamelody_threads_started_count
* javamelody_threads_active_count
* javamelody_job_executing_count
* javamelody_tomcat_threads_max{tomcat_name="__name__"}
* javamelody_tomcat_thread_busy_count{tomcat_name="__name__"}
* javamelody_tomcat_received_bytes{tomcat_name="__name__"}
* javamelody_tomcat_sent_bytes{tomcat_name="__name__"}
* javamelody_tomcat_request_count{tomcat_name="__name__"}
* javamelody_tomcat_error_count{tomcat_name="__name__"}
* javamelody_tomcat_processing_time_millis{tomcat_name="__name__"}
* javamelody_tomcat_max_time_millis{tomcat_name="__name__"}
* javamelody_cache_in_memory_count{cache_name="__name__"}
* javamelody_cache_in_memory_used_pct{cache_name="__name__"}
* javamelody_cache_in_memory_hits_pct{cache_name="__name__"}
* javamelody_cache_on_disk_count{cache_name="__name__"}
* javamelody_cache_hits_pct{cache_name="__name__"}
*
* (from {@link Collector} counters)
*
* javamelody_http_hits_count
* javamelody_http_errors_count
* javamelody_http_duration_millis
* javamelody_sql_hits_count
* javamelody_sql_errors_count
* javamelody_sql_duration_millis
* javamelody_jpa_hits_count
* javamelody_jpa_errors_count
* javamelody_jpa_duration_millis
* javamelody_ejb_hits_count
* javamelody_ejb_errors_count
* javamelody_ejb_duration_millis
* javamelody_spring_hits_count
* javamelody_spring_errors_count
* javamelody_spring_duration_millis
* javamelody_guice_hits_count
* javamelody_guice_errors_count
* javamelody_guice_duration_millis
* javamelody_services_hits_count
* javamelody_services_errors_count
* javamelody_services_duration_millis
* javamelody_struts_hits_count
* javamelody_struts_errors_count
* javamelody_struts_duration_millis
* javamelody_jsf_hits_count
* javamelody_jsf_errors_count
* javamelody_jsf_duration_millis
* javamelody_jsp_hits_count
* javamelody_jsp_errors_count
* javamelody_jsp_duration_millis
* javamelody_error_hits_count
* javamelody_error_errors_count
* javamelody_error_duration_millis
* javamelody_log_hits_count
* javamelody_log_errors_count
* javamelody_log_duration_millis
*
* Additionally, the `lastValue` metrics can also be exported by adding the http parameter includeLastValue=true.
* Note: the `lastValue` metrics are already aggregated over time, where Prometheus prefers the raw counters and gauges.
* Also, obtaining the `lastValue` metrics appears to have a 5-10ms overhead.
*
* The `lastValue` metrics are DISABLED by default.
*
* @author https://github.com/slynn1324, Stefan Penndorf, Emeric Vernat
*/
class PrometheusController {
private static final String METRIC_PREFIX = "javamelody_";
// Pre-Compiled Patterns. Pattern is thread-safe. Matcher is not.
private static final Pattern CAMEL_TO_SNAKE_PATTERN = Pattern.compile("([a-z])([A-Z]+)");
private static final Pattern SANITIZE_TO_UNDERSCORE_PATTERN = Pattern.compile("[- :]");
private static final Pattern SANITIZE_REMOVE_PATTERN = Pattern.compile("[^a-z0-9_]");
private static final String EMPTY_STRING = "";
private static final String UNDERSCORE = "_";
private enum MetricType {
GAUGE("gauge"), COUNTER("counter");
private final String code;
MetricType(String code) {
this.code = code;
}
public String getCode() {
return code;
}
}
private final JavaInformations javaInformations;
private final Collector collector;
private final PrintWriter out;
private final DecimalFormat decimalFormat;
PrometheusController(List javaInformations, Collector collector,
PrintWriter out) throws IOException {
super();
assert javaInformations != null && !javaInformations.isEmpty();
assert collector != null;
assert out != null;
// it doesn't make much sense to use a JavaMelody collector server with Prometheus
// (which is effectively it's own collector server)
// and at least not for several nodes in a single application
if (javaInformations.size() > 1) {
throw new IOException(
"Prometheus from collector server is not supported for several nodes in one application"
+ " - configure Prometheus to scrape nodes directly or declare several applications in the collector server.");
}
this.javaInformations = javaInformations.get(0);
this.collector = collector;
this.out = out;
decimalFormat = new DecimalFormat();
final DecimalFormatSymbols decimalFormatSymbols = DecimalFormatSymbols
.getInstance(Locale.US);
// setNaN for #806: on Java 8 and before, decimalFormat prints \uFFFD ('>') instead of NaN
decimalFormatSymbols.setNaN("NaN");
decimalFormat.setDecimalFormatSymbols(decimalFormatSymbols);
decimalFormat.setGroupingUsed(false);
decimalFormat.setMinimumIntegerDigits(1);
decimalFormat.setMaximumFractionDigits(15);
}
/**
* Produce the full report.
* @param includeLastValue boolean
* @throws IOException e
*/
void report(boolean includeLastValue) throws IOException {
// see https://prometheus.io/docs/instrumenting/exposition_formats/ for text format
// memory
reportOnMemoryInformations(javaInformations.getMemoryInformations());
// jvm & system
reportOnJavaInformations();
// tomcat
if (javaInformations.getTomcatInformationsList() != null) {
reportOnTomcatInformations();
}
// caches
if (javaInformations.isCacheEnabled()) {
reportOnCacheInformations();
}
if (javaInformations.isJCacheEnabled()) {
reportOnJCacheInformations();
}
reportOnCollector();
if (includeLastValue) {
reportOnLastValues();
}
}
// CHECKSTYLE:OFF
private void reportOnCacheInformations() { // NOPMD
// CHECKSTYLE:ON
final List cacheInformationsList = javaInformations
.getCacheInformationsList();
final Map cacheInfos = new LinkedHashMap(
cacheInformationsList.size());
for (final CacheInformations cacheInfo : cacheInformationsList) {
final String fields = "{cache_name=\"" + sanitizeName(cacheInfo.getName()) + "\"}";
cacheInfos.put(fields, cacheInfo);
}
printHeader(MetricType.GAUGE, "cache_in_memory_count", "cache in memory count");
for (final Map.Entry entry : cacheInfos.entrySet()) {
printLongWithFields("cache_in_memory_count", entry.getKey(),
entry.getValue().getInMemoryObjectCount());
}
printHeader(MetricType.GAUGE, "cache_in_memory_used_pct", "in memory used percent");
for (final Map.Entry entry : cacheInfos.entrySet()) {
printDoubleWithFields("cache_in_memory_used_pct", entry.getKey(),
(double) entry.getValue().getInMemoryPercentUsed() / 100);
}
printHeader(MetricType.GAUGE, "cache_in_memory_hits_pct", "cache in memory hit percent");
for (final Map.Entry entry : cacheInfos.entrySet()) {
printDoubleWithFields("cache_in_memory_hits_pct", entry.getKey(),
(double) entry.getValue().getInMemoryHitsRatio() / 100);
}
printHeader(MetricType.GAUGE, "cache_on_disk_count", "cache on disk count");
for (final Map.Entry entry : cacheInfos.entrySet()) {
printLongWithFields("cache_on_disk_count", entry.getKey(),
entry.getValue().getOnDiskObjectCount());
}
printHeader(MetricType.GAUGE, "cache_hits_pct", "cache hits percent");
for (final Map.Entry entry : cacheInfos.entrySet()) {
printDoubleWithFields("cache_hits_pct", entry.getKey(),
(double) entry.getValue().getHitsRatio() / 100);
}
printHeader(MetricType.COUNTER, "cache_in_memory_hits_count",
"total cache in memory hit count");
for (final Map.Entry entry : cacheInfos.entrySet()) {
printLongWithFields("cache_in_memory_hits_count", entry.getKey(),
entry.getValue().getInMemoryHits());
}
printHeader(MetricType.COUNTER, "cache_hits_count", "total cache hit count");
for (final Map.Entry entry : cacheInfos.entrySet()) {
printLongWithFields("cache_hits_count", entry.getKey(),
entry.getValue().getCacheHits());
}
printHeader(MetricType.COUNTER, "cache_misses_count", "total cache misses count");
for (final Map.Entry entry : cacheInfos.entrySet()) {
printLongWithFields("cache_misses_count", entry.getKey(),
entry.getValue().getCacheMisses());
}
}
private void reportOnJCacheInformations() { // NOPMD
final List jcacheInformationsList = javaInformations
.getJCacheInformationsList();
final Map cacheInfos = new LinkedHashMap(
jcacheInformationsList.size());
for (final JCacheInformations cacheInfo : jcacheInformationsList) {
final String fields = "{cache_name=\"" + sanitizeName(cacheInfo.getName()) + "\"}";
cacheInfos.put(fields, cacheInfo);
}
printHeader(MetricType.GAUGE, "jcache_hits_pct", "cache hits percent");
for (final Map.Entry entry : cacheInfos.entrySet()) {
printDoubleWithFields("jcache_hits_pct", entry.getKey(),
(double) entry.getValue().getHitsRatio() / 100);
}
printHeader(MetricType.COUNTER, "jcache_hits_count", "total cache hit count");
for (final Map.Entry entry : cacheInfos.entrySet()) {
printLongWithFields("jcache_hits_count", entry.getKey(),
entry.getValue().getCacheHits());
}
printHeader(MetricType.COUNTER, "jcache_misses_count", "total cache misses count");
for (final Map.Entry entry : cacheInfos.entrySet()) {
printLongWithFields("jcache_misses_count", entry.getKey(),
entry.getValue().getCacheMisses());
}
}
// CHECKSTYLE:OFF
private void reportOnTomcatInformations() { // NOPMD
// CHECKSTYLE:ON
final Map tcInfos = new LinkedHashMap();
for (final TomcatInformations tcInfo : javaInformations.getTomcatInformationsList()) {
if (tcInfo.getRequestCount() > 0) {
final String fields = "{tomcat_name=\"" + sanitizeName(tcInfo.getName()) + "\"}";
tcInfos.put(fields, tcInfo);
}
}
if (tcInfos.isEmpty()) {
return;
}
printHeader(MetricType.GAUGE, "tomcat_threads_max", "tomcat max threads");
for (final Map.Entry entry : tcInfos.entrySet()) {
printLongWithFields("tomcat_threads_max", entry.getKey(),
entry.getValue().getMaxThreads());
}
printHeader(MetricType.GAUGE, "tomcat_thread_busy_count", "tomcat currently busy threads");
for (final Map.Entry entry : tcInfos.entrySet()) {
printLongWithFields("tomcat_thread_busy_count", entry.getKey(),
entry.getValue().getCurrentThreadsBusy());
}
printHeader(MetricType.COUNTER, "tomcat_received_bytes", "tomcat total received bytes");
for (final Map.Entry entry : tcInfos.entrySet()) {
printLongWithFields("tomcat_received_bytes", entry.getKey(),
entry.getValue().getBytesReceived());
}
printHeader(MetricType.COUNTER, "tomcat_sent_bytes", "tomcat total sent bytes");
for (final Map.Entry entry : tcInfos.entrySet()) {
printLongWithFields("tomcat_sent_bytes", entry.getKey(),
entry.getValue().getBytesSent());
}
printHeader(MetricType.COUNTER, "tomcat_request_count", "tomcat total request count");
for (final Map.Entry entry : tcInfos.entrySet()) {
printLongWithFields("tomcat_request_count", entry.getKey(),
entry.getValue().getRequestCount());
}
printHeader(MetricType.COUNTER, "tomcat_error_count", "tomcat total error count");
for (final Map.Entry entry : tcInfos.entrySet()) {
printLongWithFields("tomcat_error_count", entry.getKey(),
entry.getValue().getErrorCount());
}
printHeader(MetricType.COUNTER, "tomcat_processing_time_millis",
"tomcat total processing time");
for (final Map.Entry entry : tcInfos.entrySet()) {
printLongWithFields("tomcat_processing_time_millis", entry.getKey(),
entry.getValue().getProcessingTime());
}
printHeader(MetricType.GAUGE, "tomcat_max_time_millis",
"tomcat max time for single request");
for (final Map.Entry entry : tcInfos.entrySet()) {
printLongWithFields("tomcat_max_time_millis", entry.getKey(),
entry.getValue().getMaxTime());
}
}
/**
* Reports on hits, errors, and duration sum for all counters in the collector.
*
* Bypasses the {@link JRobin#getLastValue()} methods to provide real-time counters as well as
* improving performance from bypassing JRobin reads in the getLastValue() method.
*/
private void reportOnCollector() {
for (final Counter counter : collector.getCounters()) {
if (!counter.isDisplayed()) {
continue;
}
final List requests = counter.getRequests();
long hits = 0;
long duration = 0;
long errors = 0;
for (final CounterRequest cr : requests) {
hits += cr.getHits();
duration += cr.getDurationsSum();
errors += cr.getSystemErrors();
}
final String sanitizedName = sanitizeName(counter.getName());
printLong(MetricType.COUNTER, sanitizedName + "_hits_count", "javamelody counter",
hits);
if (!counter.isErrorCounter() || counter.isJobCounter()) {
// errors has no sense for the error and log counters
printLong(MetricType.COUNTER, sanitizedName + "_errors_count", "javamelody counter",
errors);
}
if (duration >= 0) {
// duration is negative and has no sense for the log counter
printLong(MetricType.COUNTER, sanitizedName + "_duration_millis",
"javamelody counter", duration);
}
}
}
/**
* Includes the traditional 'graph' fields from the 'lastValue' API.
*
* These fields are summary fields aggregated over `javamelody.resolutions-seconds` (default 60), which
* is normally an odd thing to pass to Prometheus. Most (all?) of these can be calculated inside
* Prometheus from the Collector stats.
*
* Note: This lookup seems to take the longest execution time -- 5-10ms per request due to JRobin reads.
*
* Disabled by default. To enable set the 'prometheus-include-last-value' property to 'true'.
*
* @throws IOException e
*/
private void reportOnLastValues() throws IOException {
Collection jrobins = collector.getDisplayedCounterJRobins();
for (final JRobin jrobin : jrobins) {
printDouble(MetricType.GAUGE, "last_value_" + camelToSnake(jrobin.getName()),
"javamelody value per minute", jrobin.getLastValue());
}
jrobins = collector.getDisplayedOtherJRobins();
for (final JRobin jrobin : jrobins) {
printDouble(MetricType.GAUGE, "last_value_" + camelToSnake(jrobin.getName()),
"javamelody value per minute", jrobin.getLastValue());
}
}
/**
* Reports on information vailable in the {@link JavaInformations} class.
*/
private void reportOnJavaInformations() {
// sessions
if (javaInformations.getSessionCount() >= 0) {
printLong(MetricType.GAUGE, "sessions_active_count", "active session count",
javaInformations.getSessionCount());
printLong(MetricType.GAUGE, "sessions_age_avg_minutes", "session avg age in minutes",
javaInformations.getSessionMeanAgeInMinutes());
}
// connections
if (!Parameters.isNoDatabase()) {
printLong(MetricType.COUNTER, "transactions_count", "transactions count",
javaInformations.getTransactionCount());
printLong(MetricType.GAUGE, "connections_used_count", "used connections count",
javaInformations.getActiveConnectionCount());
printLong(MetricType.GAUGE, "connections_active_count", "active connections",
javaInformations.getActiveConnectionCount());
if (javaInformations.getMaxConnectionCount() > 0) {
printLong(MetricType.GAUGE, "connections_max_count", "max connections",
javaInformations.getMaxConnectionCount());
printDouble(MetricType.GAUGE, "connections_used_pct", "used connections percentage",
javaInformations.getUsedConnectionPercentage());
}
}
// system
if (javaInformations.getSystemLoadAverage() >= 0) {
printDouble(MetricType.GAUGE, "system_load_avg", "system load average",
javaInformations.getSystemLoadAverage());
}
if (javaInformations.getSystemCpuLoad() >= 0) {
printDouble(MetricType.GAUGE, "system_cpu_load_pct", "system cpu load",
javaInformations.getSystemCpuLoad());
}
if (javaInformations.getUnixOpenFileDescriptorCount() >= 0) {
printDouble(MetricType.GAUGE, "system_unix_file_descriptors_open_count",
"unix open file descriptors count",
javaInformations.getUnixOpenFileDescriptorCount());
printDouble(MetricType.GAUGE, "system_unix_file_descriptors_max",
"unix file descriptors max", javaInformations.getUnixMaxFileDescriptorCount());
printDouble(MetricType.GAUGE, "system_unix_file_descriptors_open_pct",
"unix open file descriptors percentage",
javaInformations.getUnixOpenFileDescriptorPercentage());
}
printLong(MetricType.GAUGE, "system_tmp_space_free_bytes", "tmp space available",
javaInformations.getFreeDiskSpaceInTemp());
printLong(MetricType.GAUGE, "system_tmp_space_usable_bytes", "tmp space usable",
javaInformations.getUsableDiskSpaceInTemp());
// jvm
printLong(MetricType.GAUGE, "jvm_start_time", "jvm start time",
javaInformations.getStartDate().getTime());
printLong(MetricType.COUNTER, "jvm_cpu_millis", "jvm cpu millis",
javaInformations.getProcessCpuTimeMillis());
printLong(MetricType.GAUGE, "system_processors_count", "processors available",
javaInformations.getAvailableProcessors());
// threads
printLong(MetricType.GAUGE, "threads_count", "threads count",
javaInformations.getThreadCount());
printLong(MetricType.GAUGE, "threads_max_count", "threads peak count",
javaInformations.getPeakThreadCount());
printLong(MetricType.COUNTER, "threads_started_count", "total threads started",
javaInformations.getTotalStartedThreadCount());
printLong(MetricType.GAUGE, "threads_active_count", "active thread count",
javaInformations.getActiveThreadCount());
// jobs
if (javaInformations.isJobEnabled()) {
printLong(MetricType.GAUGE, "job_executing_count", "executing job count",
javaInformations.getCurrentlyExecutingJobCount());
}
}
private void reportOnMemoryInformations(MemoryInformations memoryInformations) {
printLong(MetricType.GAUGE, "memory_used_bytes", "used memory in bytes",
memoryInformations.getUsedMemory());
printLong(MetricType.GAUGE, "memory_max_bytes", "max memory in bytes",
memoryInformations.getMaxMemory());
printDouble(MetricType.GAUGE, "memory_used_pct", "memory used percentage",
memoryInformations.getUsedMemoryPercentage());
if (memoryInformations.getUsedPermGen() > 0) {
printLong(MetricType.GAUGE, "memory_perm_gen_used_bytes",
"used perm gen memory in bytes", memoryInformations.getUsedPermGen());
if (memoryInformations.getMaxPermGen() > 0) {
printLong(MetricType.GAUGE, "memory_perm_gen_max_bytes",
"max perm gen memory in bytes", memoryInformations.getMaxPermGen());
printDouble(MetricType.GAUGE, "memory_perm_gen_used_pct",
"used perm gen memory percentage",
memoryInformations.getUsedPermGenPercentage());
}
}
printDouble(MetricType.COUNTER, "memory_gc_millis", "gc time millis",
memoryInformations.getGarbageCollectionTimeMillis());
if (memoryInformations.getUsedBufferedMemory() >= 0) {
printLong(MetricType.GAUGE, "memory_used_buffered_bytes",
"used buffered memory in bytes", memoryInformations.getUsedBufferedMemory());
}
printLong(MetricType.GAUGE, "memory_used_non_heap_bytes", "used non-heap memory in bytes",
memoryInformations.getUsedNonHeapMemory());
if (memoryInformations.getUsedSwapSpaceSize() >= 0) {
printLong(MetricType.GAUGE, "memory_used_swap_space_bytes",
"used memory in the OS swap space in bytes",
memoryInformations.getUsedSwapSpaceSize());
}
if (memoryInformations.getUsedPhysicalMemorySize() > 0) {
printLong(MetricType.GAUGE, "memory_used_physical_bytes",
"used memory in the OS in bytes",
memoryInformations.getUsedPhysicalMemorySize());
}
printLong(MetricType.GAUGE, "loaded_classes_count", "loaded classes count",
memoryInformations.getLoadedClassesCount());
}
/**
* Converts a camelCase or CamelCase string to camel_case
* @param camel String
* @return String
*/
private static String camelToSnake(String camel) {
return CAMEL_TO_SNAKE_PATTERN.matcher(camel).replaceAll("$1_$2").toLowerCase(Locale.US);
}
/**
* converts to lowercase, replaces common separators with underscores, and strips all remaining non-alpha-numeric characters.
* @param name String
* @return String
*/
private static String sanitizeName(String name) {
final String lowerCaseName = name.toLowerCase(Locale.US);
final String separatorReplacedName = SANITIZE_TO_UNDERSCORE_PATTERN.matcher(lowerCaseName)
.replaceAll(UNDERSCORE);
return SANITIZE_REMOVE_PATTERN.matcher(separatorReplacedName).replaceAll(EMPTY_STRING);
}
// prints a long metric value, including HELP and TYPE rows
private void printLong(MetricType metricType, String name, String description, long value) {
printHeader(metricType, name, description);
printLongWithFields(name, null, value);
}
// prints a double metric value, including HELP and TYPE rows
private void printDouble(MetricType metricType, String name, String description, double value) {
printHeader(metricType, name, description);
printDoubleWithFields(name, null, value);
}
// prints a long metric value with optional fields
private void printLongWithFields(String name, String fields, long value) {
print(METRIC_PREFIX);
print(name);
if (fields != null) {
print(fields);
}
print(' ');
println(String.valueOf(value));
}
// prints a double metric value with optional fields
private void printDoubleWithFields(String name, String fields, double value) {
print(METRIC_PREFIX);
print(name);
if (fields != null) {
print(fields);
}
print(' ');
println(decimalFormat.format(value));
}
// prints the HELP and TYPE rows
private void printHeader(MetricType metricType, String name, String description) {
print("# HELP ");
print(METRIC_PREFIX);
print(name);
print(' ');
println(description);
print("# TYPE ");
print(METRIC_PREFIX);
print(name);
print(' ');
println(metricType.getCode());
}
private void print(String s) {
out.print(s);
}
private void print(char c) {
out.print(c);
}
private void println(String s) {
out.print(s);
// out.println() prints "\r\n" on Windows and Prometheus does not recognize "\r\n" as EOL
// (in Prometheus: "no token found" and in promtool check metrics:
// error while linting: text format parsing error in line 2: unknown metric type "gauge\r")
out.print('\n');
}
}