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// Copyright 2015 The Bazel Authors. All rights reserved.
//
// 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 com.google.devtools.build.lib.profiler;
import com.google.common.base.Preconditions;
import com.google.devtools.build.lib.clock.BlazeClock;
import com.google.devtools.build.lib.clock.Clock;
import java.time.Duration;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.atomic.AtomicBoolean;
import java.util.concurrent.atomic.AtomicReference;
import java.util.logging.Logger;
import javax.annotation.Nullable;
/**
* A convenient way to actively get access to timing information (e.g. for logging and/or
* profiling purposes) with minimal boilerplate. The lack of boilerplate comes at a performance
* cost; do not use {@link AutoProfiler} on performance critical code.
*
* <p>The intended usage is:
*
* <pre>
* {@code
* try (AutoProfiler p = AutoProfiler.logged("<description of your code>")) {
* // Your code here.
* }
* }
* </pre>
*
* <p>but if the try-with-resources pattern is too cumbersome, you can also do
*
* <pre>
* {@code
* AutoProfiler p = AutoProfiler.logged("<description of your code>");
* // Your code here.
* long elapsedTimeNanos = p.completeAndGetElapsedTimeNanos();
* }
* </pre>
*
* <p>An {@link AutoProfiler} can also automatically talk to the active {@link Profiler} instance:
*
* <pre>
* {@code
* try (AutoProfiler p = AutoProfiler.profiled("<description of your code>")) {
* // Your code here.
* }
* }
* </pre>
*/
public class AutoProfiler implements SilentCloseable {
private static final AtomicReference<Clock> CLOCK_REF = new AtomicReference<>(null);
private static final AtomicReference<LoggingElapsedTimeReceiverFactory>
LOGGING_ELAPSED_TIME_RECEIVER_FACTORY_REF = new AtomicReference<>(
LoggingElapsedTimeReceiver.FACTORY);
private final ElapsedTimeReceiver elapsedTimeReceiver;
private final long startTimeNanos;
private final AtomicBoolean closed = new AtomicBoolean(false);
private AutoProfiler(ElapsedTimeReceiver elapsedTimeReceiver, long startTimeNanos) {
this.elapsedTimeReceiver = elapsedTimeReceiver;
this.startTimeNanos = startTimeNanos;
}
/** A opaque receiver of elapsed time information. */
public interface ElapsedTimeReceiver {
/**
* Receives the elapsed time of the lifetime of an {@link AutoProfiler} instance.
*
* <p>Note that System#nanoTime isn't guaranteed to be non-decreasing, so implementations should
* check for non-positive {@code elapsedTimeNanos} if they care about this sort of thing.
*/
void accept(long elapsedTimeNanos);
}
/**
* Sets the clock to use. May be called before trying to call any of the other static methods;
* otherwise {@link BlazeClock#instance} will be used.
*
* <p>Calling this more than once (e.g. after calling any of the other static methods) results in
* unspecified behavior.
*/
public static void setClock(Clock clock) {
CLOCK_REF.set(clock);
}
private static long nanoTime() {
Clock clock = CLOCK_REF.get();
return clock != null ? clock.nanoTime() : BlazeClock.instance().nanoTime();
}
/**
* Factory to use for creating {@link ElapsedTimeReceiver} instances for servicing
* {@link #logged} et al.
*/
public interface LoggingElapsedTimeReceiverFactory {
ElapsedTimeReceiver create(
String taskDescription, Logger logger, long minTimeForLogging, TimeUnit timeUnit);
}
/**
* Inject a custom {@link LoggingElapsedTimeReceiverFactory} for servicing {@link #logged} et al.
*
* <p>Use this if you want custom logging behavior.
*/
public static void setLoggingElapsedTimeReceiverFactory(
LoggingElapsedTimeReceiverFactory factory) {
LOGGING_ELAPSED_TIME_RECEIVER_FACTORY_REF.set(factory);
}
/**
* Returns an {@link AutoProfiler} that, when closed, logs the elapsed time in milliseconds to
* the given {@link Logger}.
*
* <p>The returned {@link AutoProfiler} is thread-safe.
*/
public static AutoProfiler logged(String taskDescription, Logger logger) {
return logged(taskDescription, logger, TimeUnit.MILLISECONDS);
}
/**
* Returns an {@link AutoProfiler} that, when closed, logs the elapsed time in the given
* {@link TimeUnit} to the given {@link Logger}.
*
* <p>The returned {@link AutoProfiler} is thread-safe.
*/
public static AutoProfiler logged(String taskDescription, Logger logger, TimeUnit timeUnit) {
return create(
LOGGING_ELAPSED_TIME_RECEIVER_FACTORY_REF
.get()
.create(taskDescription, logger, 0L, timeUnit));
}
/**
* Returns an {@link AutoProfiler} that, when closed, logs the elapsed time in milliseconds to the
* given {@link Logger} if it is greater than {@code minTimeForLoggingInMilliseconds}.
*
* <p>The returned {@link AutoProfiler} is thread-safe.
*/
public static AutoProfiler logged(
String taskDescription, Logger logger, long minTimeForLoggingInMilliseconds) {
return create(
LOGGING_ELAPSED_TIME_RECEIVER_FACTORY_REF
.get()
.create(
taskDescription, logger, minTimeForLoggingInMilliseconds, TimeUnit.MILLISECONDS));
}
/**
* Returns an {@link AutoProfiler} that, when closed, records the elapsed time using {@link
* Profiler}.
*
* <p>The returned {@link AutoProfiler} is thread-safe.
*/
public static AutoProfiler profiled(String description, ProfilerTask profilerTaskType) {
return create(new ProfilingElapsedTimeReceiver(description, profilerTaskType));
}
/**
* Returns an {@link AutoProfiler} that, when closed, records the elapsed time using
* {@link Profiler} and also logs it (in milliseconds) to the given {@link Logger}.
*
* <p>The returned {@link AutoProfiler} is thread-safe.
*/
public static AutoProfiler profiledAndLogged(String taskDescription,
ProfilerTask profilerTaskType, Logger logger) {
ElapsedTimeReceiver profilingReceiver =
new ProfilingElapsedTimeReceiver(taskDescription, profilerTaskType);
ElapsedTimeReceiver loggingReceiver =
LOGGING_ELAPSED_TIME_RECEIVER_FACTORY_REF
.get()
.create(taskDescription, logger, 0L, TimeUnit.MILLISECONDS);
return create(new SequencedElapsedTimeReceiver(profilingReceiver, loggingReceiver));
}
/**
* Returns an {@link AutoProfiler} that doesn't do anything when closed and so is only useful for
* {@link #completeAndGetElapsedTimeNanos()}.
*/
public static AutoProfiler timed() {
return create(NULL_RECEIVER);
}
/**
* Returns an {@link AutoProfiler} that, when closed, invokes the given
* {@link ElapsedTimeReceiver}.
*
* <p>The returned {@link AutoProfiler} is as thread-safe as the given
* {@link ElapsedTimeReceiver} is.
*/
public static AutoProfiler create(ElapsedTimeReceiver elapsedTimeReceiver) {
return new AutoProfiler(elapsedTimeReceiver, nanoTime());
}
/**
* Manually completes the profiling (useful to trigger the underlying action on completion).
*
* <p>At most one of {@link #complete}, {@link #completeAndGetElapsedTimeNanos} and {@link #close}
* may be called.
*/
public void complete() {
close();
}
/**
* Manually completes the profiling and returns the elapsed time in nanoseconds.
*
* <p>At most one of {@link #complete}, {@link #completeAndGetElapsedTimeNanos} and {@link #close}
* may be called.
*/
public long completeAndGetElapsedTimeNanos() {
long elapsedTimeNanos = nanoTime() - startTimeNanos;
Preconditions.checkState(closed.compareAndSet(false, true));
elapsedTimeReceiver.accept(elapsedTimeNanos);
return elapsedTimeNanos;
}
/**
* Automatically completes the profiling.
*
* <p>At most one of {@link #complete}, {@link #completeAndGetElapsedTimeNanos} and {@link #close}
* may be called.
*/
@Override
public void close() {
long elapsedTimeNanos = nanoTime() - startTimeNanos;
Preconditions.checkState(closed.compareAndSet(false, true));
elapsedTimeReceiver.accept(elapsedTimeNanos);
}
private static final ElapsedTimeReceiver NULL_RECEIVER = new ElapsedTimeReceiver() {
@Override
public void accept(long elapsedTimeNanos) {
}
};
private static class SequencedElapsedTimeReceiver implements ElapsedTimeReceiver {
private final ElapsedTimeReceiver firstReceiver;
private final ElapsedTimeReceiver secondReceiver;
private SequencedElapsedTimeReceiver(ElapsedTimeReceiver firstReceiver,
ElapsedTimeReceiver secondReceiver) {
this.firstReceiver = firstReceiver;
this.secondReceiver = secondReceiver;
}
@Override
public void accept(long elapsedTimeNanos) {
firstReceiver.accept(elapsedTimeNanos);
secondReceiver.accept(elapsedTimeNanos);
}
}
/** {@link ElapsedTimeReceiver} that will not log a message if the time elapsed is too small. */
public abstract static class FilteringElapsedTimeReceiver implements ElapsedTimeReceiver {
private final String taskDescription;
private final TimeUnit timeUnit;
private final long minNanosForLogging;
protected FilteringElapsedTimeReceiver(
String taskDescription, long minTimeForLogging, TimeUnit timeUnit) {
this.taskDescription = taskDescription;
this.timeUnit = timeUnit;
this.minNanosForLogging = timeUnit.toNanos(minTimeForLogging);
}
protected abstract void log(String logMessage);
/**
* Returns a message about the amount of time spent doing a task if {@code elapsedTimeNanos} is
* at least {@link #minNanosForLogging} and null otherwise.
*/
@Nullable
private String loggingMessage(long elapsedTimeNanos) {
if (elapsedTimeNanos >= minNanosForLogging) {
return String.format(
"Spent %d %s doing %s",
timeUnit.convert(elapsedTimeNanos, TimeUnit.NANOSECONDS),
timeUnit.toString().toLowerCase(),
taskDescription);
} else {
return null;
}
}
@Override
public final void accept(long elapsedTimeNanos) {
String logMessage = loggingMessage(elapsedTimeNanos);
if (logMessage != null) {
log(logMessage);
}
}
}
/**
* {@link ElapsedTimeReceiver} that logs a message in {@link #accept} if the elapsed time is at
* least a given threshold.
*/
public static class LoggingElapsedTimeReceiver extends FilteringElapsedTimeReceiver {
private static final LoggingElapsedTimeReceiverFactory FACTORY =
new LoggingElapsedTimeReceiverFactory() {
@Override
public ElapsedTimeReceiver create(
String taskDescription, Logger logger, long minTimeForLogging, TimeUnit timeUnit) {
return new LoggingElapsedTimeReceiver(
taskDescription, logger, minTimeForLogging, timeUnit);
}
};
protected final Logger logger;
protected LoggingElapsedTimeReceiver(
String taskDescription, Logger logger, long minTimeForLogging, TimeUnit timeUnit) {
super(taskDescription, minTimeForLogging, timeUnit);
this.logger = logger;
}
@Override
protected void log(String logMessage) {
logger.info(logMessage);
}
}
private static class ProfilingElapsedTimeReceiver implements ElapsedTimeReceiver {
private final long startTimeNanos;
private final String description;
private final ProfilerTask profilerTaskType;
private ProfilingElapsedTimeReceiver(String description, ProfilerTask profilerTaskType) {
this.startTimeNanos = Profiler.nanoTimeMaybe();
this.description = description;
this.profilerTaskType = profilerTaskType;
}
@Override
public void accept(long elapsedTimeNanos) {
if (elapsedTimeNanos > 0) {
Profiler.instance()
.logSimpleTaskDuration(
startTimeNanos, Duration.ofNanos(elapsedTimeNanos), profilerTaskType, description);
}
}
}
}