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// Copyright (C) 2012 The Android Open Source Project
//
// 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.gerrit.server.git;

import static com.google.gerrit.server.DeadlineChecker.getTimeoutFormatter;
import static java.util.concurrent.TimeUnit.MILLISECONDS;
import static java.util.concurrent.TimeUnit.MINUTES;
import static java.util.concurrent.TimeUnit.NANOSECONDS;

import com.google.common.base.CharMatcher;
import com.google.common.base.Strings;
import com.google.common.base.Ticker;
import com.google.common.flogger.FluentLogger;
import com.google.common.util.concurrent.UncheckedExecutionException;
import com.google.gerrit.server.CancellationMetrics;
import com.google.gerrit.server.cancellation.RequestStateProvider;
import com.google.inject.assistedinject.Assisted;
import com.google.inject.assistedinject.AssistedInject;
import java.io.IOException;
import java.io.OutputStream;
import java.util.List;
import java.util.Optional;
import java.util.concurrent.CancellationException;
import java.util.concurrent.CopyOnWriteArrayList;
import java.util.concurrent.ExecutionException;
import java.util.concurrent.Future;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.TimeoutException;
import java.util.concurrent.atomic.AtomicBoolean;
import java.util.concurrent.atomic.AtomicInteger;
import org.eclipse.jgit.lib.Constants;
import org.eclipse.jgit.lib.ProgressMonitor;

/**
 * Progress reporting interface that multiplexes multiple sub-tasks.
 *
 * 

Output is of the format: * *

 *   Task: subA: 1, subB: 75% (3/4) (-)\r
 *   Task: subA: 2, subB: 75% (3/4), subC: 1 (\)\r
 *   Task: subA: 2, subB: 100% (4/4), subC: 1 (|)\r
 *   Task: subA: 4, subB: 100% (4/4), subC: 4, done    \n
 * 
* *

Callers should try to keep task and sub-task descriptions short, since the output should fit * on one terminal line. (Note that git clients do not accept terminal control characters, so true * multi-line progress messages would be impossible.) * *

Whether the client is disconnected or the deadline is exceeded can be checked by {@link * #checkIfCancelled(RequestStateProvider.OnCancelled)}. This allows the worker thread to react to * cancellations and abort its execution and finish gracefully. After a cancellation has been * signaled the worker thread has 10 * {@link #maxIntervalNanos} to react to the cancellation and * finish gracefully. If the worker thread doesn't finish gracefully in time after the cancellation * has been signaled, the future executing the task is forcefully cancelled which means that the * worker thread gets interrupted and an internal error is returned to the client. To react to * cancellations it is recommended that the task opens a {@link * com.google.gerrit.server.cancellation.RequestStateContext} in a try-with-resources block to * register the {@link MultiProgressMonitor} as a {@link RequestStateProvider}. This way the worker * thread gets aborted by a {@link com.google.gerrit.server.cancellation.RequestCancelledException} * when the request is cancelled which allows the worker thread to handle the cancellation * gracefully by catching this exception (e.g. to return a proper error message). {@link * com.google.gerrit.server.cancellation.RequestCancelledException} is only thrown when the worker * thread checks for cancellation via {@link * com.google.gerrit.server.cancellation.RequestStateContext#abortIfCancelled()}. E.g. this is done * whenever {@link com.google.gerrit.server.logging.TraceContext.TraceTimer} is opened/closed. */ public class MultiProgressMonitor implements RequestStateProvider { private static final FluentLogger logger = FluentLogger.forEnclosingClass(); /** Constant indicating the total work units cannot be predicted. */ public static final int UNKNOWN = 0; private static final char[] SPINNER_STATES = new char[] {'-', '\\', '|', '/'}; private static final char NO_SPINNER = ' '; public enum TaskKind { INDEXING, RECEIVE_COMMITS; } /** Handle for a sub-task. */ public class Task implements ProgressMonitor { private final String name; private final int total; private int count; private int lastPercent; Task(String subTaskName, int totalWork) { this.name = subTaskName; this.total = totalWork; } /** * Indicate that work has been completed on this sub-task. * *

Must be called from a worker thread. * * @param completed number of work units completed. */ @Override public void update(int completed) { boolean w = false; synchronized (MultiProgressMonitor.this) { count += completed; if (total != UNKNOWN) { int percent = count * 100 / total; if (percent > lastPercent) { lastPercent = percent; w = true; } } } if (w) { wakeUp(); } } /** * Indicate that this sub-task is finished. * *

Must be called from a worker thread. */ public void end() { if (total == UNKNOWN && getCount() > 0) { wakeUp(); } } @Override public void start(int totalTasks) {} @Override public void beginTask(String title, int totalWork) {} @Override public void endTask() {} @Override public boolean isCancelled() { return false; } public int getCount() { synchronized (MultiProgressMonitor.this) { return count; } } public int getTotal() { return total; } public String getName() { return name; } public String getTotalDisplay(int total) { return String.valueOf(total); } @Override public void showDuration(boolean enabled) { // not implemented } } /** Handle for a sub-task whose total work can be updated while the task is in progress. */ public class VolatileTask extends Task { protected AtomicInteger volatileTotal; protected AtomicBoolean isTotalFinalized = new AtomicBoolean(false); public VolatileTask(String subTaskName) { super(subTaskName, UNKNOWN); volatileTotal = new AtomicInteger(UNKNOWN); } /** * Update the total work for this sub-task. * *

Intended to be called from a worker thread. * * @param workUnits number of work units to be added to existing total work. */ public void updateTotal(int workUnits) { if (!isTotalFinalized.get()) { volatileTotal.addAndGet(workUnits); } else { logger.atWarning().log( "Total work has been finalized on sub-task %s and cannot be updated", getName()); } } /** * Mark the total on this sub-task as unmodifiable. * *

Intended to be called from a worker thread. */ public void finalizeTotal() { isTotalFinalized.set(true); } @Override public int getTotal() { return volatileTotal.get(); } @Override public String getTotalDisplay(int total) { return super.getTotalDisplay(total) + (isTotalFinalized.get() ? "" : "+"); } } public interface Factory { MultiProgressMonitor create(OutputStream out, TaskKind taskKind, String taskName); MultiProgressMonitor create( OutputStream out, TaskKind taskKind, String taskName, long maxIntervalTime, TimeUnit maxIntervalUnit); } private final CancellationMetrics cancellationMetrics; private final OutputStream out; private final TaskKind taskKind; private final String taskName; private final List tasks = new CopyOnWriteArrayList<>(); private int spinnerIndex; private char spinnerState = NO_SPINNER; private boolean done; private boolean clientDisconnected; private boolean deadlineExceeded; private boolean forcefulTermination; private Optional timeout = Optional.empty(); private final long maxIntervalNanos; private final Ticker ticker; /** * Create a new progress monitor for multiple sub-tasks. * * @param out stream for writing progress messages. * @param taskName name of the overall task. */ @SuppressWarnings("UnusedMethod") @AssistedInject private MultiProgressMonitor( CancellationMetrics cancellationMetrics, Ticker ticker, @Assisted OutputStream out, @Assisted TaskKind taskKind, @Assisted String taskName) { this(cancellationMetrics, ticker, out, taskKind, taskName, 500, MILLISECONDS); } /** * Create a new progress monitor for multiple sub-tasks. * * @param out stream for writing progress messages. * @param taskName name of the overall task. * @param maxIntervalTime maximum interval between progress messages. * @param maxIntervalUnit time unit for progress interval. */ @AssistedInject private MultiProgressMonitor( CancellationMetrics cancellationMetrics, Ticker ticker, @Assisted OutputStream out, @Assisted TaskKind taskKind, @Assisted String taskName, @Assisted long maxIntervalTime, @Assisted TimeUnit maxIntervalUnit) { this.cancellationMetrics = cancellationMetrics; this.ticker = ticker; this.out = out; this.taskKind = taskKind; this.taskName = taskName; maxIntervalNanos = NANOSECONDS.convert(maxIntervalTime, maxIntervalUnit); } /** * Wait for a task managed by a {@link Future}, with no timeout. * * @see #waitFor(Future, long, TimeUnit, long, TimeUnit) */ public T waitFor(Future workerFuture) { try { return waitFor( workerFuture, /* taskTimeoutTime= */ 0, /* taskTimeoutUnit= */ null, /* cancellationTimeoutTime= */ 0, /* cancellationTimeoutUnit= */ null); } catch (TimeoutException e) { throw new IllegalStateException("timout exception without setting a timeout", e); } } /** * Wait for a task managed by a {@link Future}. * *

Must be called from the main thread, not a worker thread. Once a worker thread * calls {@link #end()}, the future has an additional {@code maxInterval} to finish before it is * forcefully cancelled and {@link ExecutionException} is thrown. * * @see #waitForNonFinalTask(Future, long, TimeUnit, long, TimeUnit) * @param workerFuture a future that returns when worker threads are finished. * @param taskTimeoutTime overall timeout for the task; the future gets a cancellation signal * after this timeout is exceeded; non-positive values indicate no timeout. * @param taskTimeoutUnit unit for overall task timeout. * @param cancellationTimeoutTime timeout for the task to react to the cancellation signal; if the * task doesn't terminate within this time it is forcefully cancelled; non-positive values * indicate no timeout. * @param cancellationTimeoutUnit unit for the cancellation timeout. * @throws TimeoutException if this thread or a worker thread was interrupted, the worker was * cancelled, or timed out waiting for a worker to call {@link #end()}. */ public T waitFor( Future workerFuture, long taskTimeoutTime, TimeUnit taskTimeoutUnit, long cancellationTimeoutTime, TimeUnit cancellationTimeoutUnit) throws TimeoutException { T t = waitForNonFinalTask( workerFuture, taskTimeoutTime, taskTimeoutUnit, cancellationTimeoutTime, cancellationTimeoutUnit); synchronized (this) { if (!done) { // The worker may not have called end() explicitly, which is likely a // programming error. logger.atWarning().log("MultiProgressMonitor worker did not call end() before returning"); end(); } } sendDone(); return t; } /** * Wait for a non-final task managed by a {@link Future}, with no timeout. * * @see #waitForNonFinalTask(Future, long, TimeUnit, long, TimeUnit) */ public T waitForNonFinalTask(Future workerFuture) { try { return waitForNonFinalTask(workerFuture, 0, null, 0, null); } catch (TimeoutException e) { throw new IllegalStateException("timout exception without setting a timeout", e); } } /** * Wait for a task managed by a {@link Future}. This call does not expect the worker thread to * call {@link #end()}. It is intended to be used to track a non-final task. * * @param workerFuture a future that returns when worker threads are finished. * @param taskTimeoutTime overall timeout for the task; the future is forcefully cancelled if the * task exceeds the timeout. Non-positive values indicate no timeout. * @param taskTimeoutUnit unit for overall task timeout. * @param cancellationTimeoutTime timeout for the task to react to the cancellation signal; if the * task doesn't terminate within this time it is forcefully cancelled; non-positive values * indicate no timeout. * @param cancellationTimeoutUnit unit for the cancellation timeout. * @throws TimeoutException if this thread or a worker thread was interrupted, the worker was * cancelled, or timed out waiting for a worker to call {@link #end()}. */ public T waitForNonFinalTask( Future workerFuture, long taskTimeoutTime, TimeUnit taskTimeoutUnit, long cancellationTimeoutTime, TimeUnit cancellationTimeoutUnit) throws TimeoutException { long overallStart = ticker.read(); long cancellationNanos = cancellationTimeoutTime > 0 ? NANOSECONDS.convert(cancellationTimeoutTime, cancellationTimeoutUnit) : 0; long deadline; if (taskTimeoutTime > 0) { timeout = Optional.of(NANOSECONDS.convert(taskTimeoutTime, taskTimeoutUnit)); deadline = overallStart + timeout.get(); } else { deadline = 0; } synchronized (this) { long left = maxIntervalNanos; while (!workerFuture.isDone() && !done) { long start = ticker.read(); try { // Conditions below gives better granularity for timeouts. // Originally, code always used fixed interval: // NANOSECONDS.timedWait(this, maxIntervalNanos); // As a result, the actual check for timeouts happened only every maxIntervalNanos // (default value 500ms); so even if timout was set to 1ms, the actual timeout was 500ms. // This is not a big issue, however it made our tests for timeouts flaky. For example, // some tests in the CancellationIT set timeout to 1ms and expect that server returns // timeout. However, server often returned OK result, because a request takes less than // 500ms. if (deadlineExceeded || deadline == 0) { // We want to set deadlineExceeded flag as earliest as possible. If it is already // set - there is no reason to wait less than maxIntervalNanos NANOSECONDS.timedWait(this, maxIntervalNanos); } else if (start <= deadline) { // if deadlineExceeded is not set, then we should wait until deadline, but no longer // than maxIntervalNanos (because we want to report a progress every maxIntervalNanos). NANOSECONDS.timedWait(this, Math.min(deadline - start + 1, maxIntervalNanos)); } } catch (InterruptedException e) { throw new UncheckedExecutionException(e); } // Send an update on every wakeup (manual or spurious), but only move // the spinner every maxInterval. long now = ticker.read(); if (deadline > 0 && now > deadline) { if (!deadlineExceeded) { logger.atFine().log( "deadline exceeded after %sms, signaling cancellation (timeout=%sms, task=%s(%s))", MILLISECONDS.convert(now - overallStart, NANOSECONDS), MILLISECONDS.convert(now - deadline, NANOSECONDS), taskKind, taskName); } deadlineExceeded = true; // After setting deadlineExceeded = true give the cancellationNanos to react to the // cancellation and return gracefully. if (now > deadline + cancellationNanos) { // The worker didn't react to the cancellation, cancel it forcefully by an interrupt. workerFuture.cancel(true); forcefulTermination = true; if (workerFuture.isCancelled()) { logger.atWarning().log( "MultiProgressMonitor worker killed after %sms, cancelled (timeout=%sms, task=%s(%s))", MILLISECONDS.convert(now - overallStart, NANOSECONDS), MILLISECONDS.convert(now - deadline, NANOSECONDS), taskKind, taskName); if (taskKind == TaskKind.RECEIVE_COMMITS) { cancellationMetrics.countForcefulReceiveTimeout(); } } break; } } left -= now - start; if (left <= 0) { moveSpinner(); left = maxIntervalNanos; } sendUpdate(); } if (deadlineExceeded && !forcefulTermination && taskKind == TaskKind.RECEIVE_COMMITS) { cancellationMetrics.countGracefulReceiveTimeout(); } wakeUp(); } // The loop exits as soon as the worker calls end(), but we give it another // 2 x maxIntervalNanos to finish up and return. try { return workerFuture.get(2 * maxIntervalNanos, NANOSECONDS); } catch (InterruptedException | CancellationException e) { logger.atWarning().withCause(e).log( "unable to finish processing (task=%s(%s))", taskKind, taskName); throw new UncheckedExecutionException(e); } catch (TimeoutException e) { workerFuture.cancel(true); throw e; } catch (ExecutionException e) { throw new UncheckedExecutionException(e); } } private synchronized void wakeUp() { notifyAll(); } /** * Begin a sub-task. * * @param subTask sub-task name. * @param subTaskWork total work units in sub-task, or {@link #UNKNOWN}. * @return sub-task handle. */ public Task beginSubTask(String subTask, int subTaskWork) { Task task = new Task(subTask, subTaskWork); tasks.add(task); return task; } /** * Begin a sub-task whose total work can be updated. * * @param subTask sub-task name. * @return sub-task handle. */ public VolatileTask beginVolatileSubTask(String subTask) { VolatileTask task = new VolatileTask(subTask); tasks.add(task); return task; } /** * End the overall task. * *

Must be called from a worker thread. */ public synchronized void end() { done = true; wakeUp(); } private void sendDone() { spinnerState = NO_SPINNER; StringBuilder s = format(); boolean any = false; for (Task t : tasks) { if (t.count != 0) { any = true; break; } } if (any) { s.append(","); } s.append(" done \n"); send(s); } private void moveSpinner() { spinnerIndex = (spinnerIndex + 1) % SPINNER_STATES.length; spinnerState = SPINNER_STATES[spinnerIndex]; } private void sendUpdate() { send(format()); } private StringBuilder format() { StringBuilder s = new StringBuilder().append("\r").append(taskName).append(':'); if (!tasks.isEmpty()) { boolean first = true; for (Task t : tasks) { int count = t.getCount(); int total = t.getTotal(); if (count == 0) { continue; } if (!first) { s.append(','); } else { first = false; } s.append(' '); if (!Strings.isNullOrEmpty(t.name)) { s.append(t.name).append(": "); } if (total == UNKNOWN) { s.append(count); } else { s.append( String.format("%d%% (%d/%s)", count * 100 / total, count, t.getTotalDisplay(total))); } } } if (spinnerState != NO_SPINNER) { // Don't output a spinner until the alarm fires for the first time. s.append(" (").append(spinnerState).append(')'); } return s; } private void send(StringBuilder s) { String progress = s.toString(); logger.atInfo().atMostEvery(1, MINUTES).log( "%s", CharMatcher.javaIsoControl().removeFrom(progress)); if (!clientDisconnected) { try { out.write(Constants.encode(progress)); out.flush(); } catch (IOException e) { logger.atWarning().withCause(e).log( "Sending progress to client failed. Stop sending updates for task %s(%s)", taskKind, taskName); clientDisconnected = true; } } } @Override public void checkIfCancelled(OnCancelled onCancelled) { if (clientDisconnected) { onCancelled.onCancel(RequestStateProvider.Reason.CLIENT_CLOSED_REQUEST, /* message= */ null); } else if (deadlineExceeded) { onCancelled.onCancel( RequestStateProvider.Reason.SERVER_DEADLINE_EXCEEDED, timeout .map( taskKind == TaskKind.RECEIVE_COMMITS ? getTimeoutFormatter("receive.timeout") : getTimeoutFormatter("timeout")) .orElse(null)); } } }





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