package com.mongodb.internal.connection;
import com.mongodb.MongoException;
import com.mongodb.MongoInternalException;
import com.mongodb.MongoInterruptedException;
import com.mongodb.MongoSocketException;
import com.mongodb.MongoSocketReadTimeoutException;
import com.mongodb.MongoTimeoutException;
import com.mongodb.MongoWaitQueueFullException;
import com.mongodb.async.SingleResultCallback;
import com.mongodb.connection.ConnectionDescription;
import com.mongodb.connection.ConnectionId;
import com.mongodb.connection.ConnectionPoolSettings;
import com.mongodb.connection.ServerId;
import com.mongodb.diagnostics.logging.Logger;
import com.mongodb.diagnostics.logging.Loggers;
import com.mongodb.event.ConnectionAddedEvent;
import com.mongodb.event.ConnectionCheckedInEvent;
import com.mongodb.event.ConnectionCheckedOutEvent;
import com.mongodb.event.ConnectionPoolClosedEvent;
import com.mongodb.event.ConnectionPoolListener;
import com.mongodb.event.ConnectionPoolOpenedEvent;
import com.mongodb.event.ConnectionPoolWaitQueueEnteredEvent;
import com.mongodb.event.ConnectionPoolWaitQueueExitedEvent;
import com.mongodb.event.ConnectionRemovedEvent;
import com.mongodb.internal.connection.ConcurrentPool.Prune;
import com.mongodb.internal.thread.DaemonThreadFactory;
import com.mongodb.session.SessionContext;
import org.bson.ByteBuf;
import org.bson.codecs.Decoder;
import java.util.List;
import java.util.concurrent.ExecutorService;
import java.util.concurrent.Executors;
import java.util.concurrent.ScheduledExecutorService;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.atomic.AtomicBoolean;
import java.util.concurrent.atomic.AtomicInteger;
import static com.mongodb.assertions.Assertions.isTrue;
import static com.mongodb.assertions.Assertions.notNull;
import static com.mongodb.internal.async.ErrorHandlingResultCallback.errorHandlingCallback;
import static com.mongodb.internal.event.EventListenerHelper.getConnectionPoolListener;
import static java.lang.String.format;
import static java.util.concurrent.TimeUnit.MILLISECONDS;
class DefaultConnectionPool implements ConnectionPool {
private static final Logger LOGGER = Loggers.getLogger("connection");
private final ConcurrentPool<UsageTrackingInternalConnection> pool;
private final ConnectionPoolSettings settings;
private final AtomicInteger waitQueueSize = new AtomicInteger(0);
private final AtomicInteger generation = new AtomicInteger(0);
private final AtomicInteger lastPrunedGeneration = new AtomicInteger(0);
private final ScheduledExecutorService sizeMaintenanceTimer;
private ExecutorService asyncGetter;
private final Runnable maintenanceTask;
private final ConnectionPoolListener connectionPoolListener;
private final ServerId serverId;
private volatile boolean closed;
DefaultConnectionPool(final ServerId serverId, final InternalConnectionFactory internalConnectionFactory,
final ConnectionPoolSettings settings) {
this.serverId = notNull("serverId", serverId);
this.settings = notNull("settings", settings);
UsageTrackingInternalConnectionItemFactory connectionItemFactory =
new UsageTrackingInternalConnectionItemFactory(internalConnectionFactory);
pool = new ConcurrentPool<UsageTrackingInternalConnection>(settings.getMaxSize(), connectionItemFactory);
this.connectionPoolListener = getConnectionPoolListener(settings);
maintenanceTask = createMaintenanceTask();
sizeMaintenanceTimer = createMaintenanceTimer();
connectionPoolListener.connectionPoolOpened(new ConnectionPoolOpenedEvent(serverId, settings));
}
@Override
public void start() {
if (sizeMaintenanceTimer != null) {
sizeMaintenanceTimer.scheduleAtFixedRate(maintenanceTask, settings.getMaintenanceInitialDelay(MILLISECONDS),
settings.getMaintenanceFrequency(MILLISECONDS), MILLISECONDS);
}
}
@Override
public InternalConnection get() {
return get(settings.getMaxWaitTime(MILLISECONDS), MILLISECONDS);
}
@Override
public InternalConnection get(final long timeout, final TimeUnit timeUnit) {
try {
if (waitQueueSize.incrementAndGet() > settings.getMaxWaitQueueSize()) {
throw createWaitQueueFullException();
}
try {
connectionPoolListener.waitQueueEntered(new ConnectionPoolWaitQueueEnteredEvent(serverId));
PooledConnection pooledConnection = getPooledConnection(timeout, timeUnit);
if (!pooledConnection.opened()) {
try {
pooledConnection.open();
} catch (Throwable t) {
pool.release(pooledConnection.wrapped, true);
if (t instanceof MongoException) {
throw (MongoException) t;
} else {
throw new MongoInternalException(t.toString(), t);
}
}
}
return pooledConnection;
} finally {
connectionPoolListener.waitQueueExited(new ConnectionPoolWaitQueueExitedEvent(serverId));
}
} finally {
waitQueueSize.decrementAndGet();
}
}
@Override
public void getAsync(final SingleResultCallback<InternalConnection> callback) {
if (LOGGER.isTraceEnabled()) {
LOGGER.trace(format("Asynchronously getting a connection from the pool for server %s", serverId));
}
final SingleResultCallback<InternalConnection> errHandlingCallback = errorHandlingCallback(callback, LOGGER);
PooledConnection connection = null;
try {
connection = getPooledConnection(0, MILLISECONDS);
} catch (MongoTimeoutException e) {
} catch (Throwable t) {
callback.onResult(null, t);
return;
}
if (connection != null) {
if (LOGGER.isTraceEnabled()) {
LOGGER.trace(format("Asynchronously opening pooled connection %s to server %s",
connection.getDescription().getConnectionId(), serverId));
}
openAsync(connection, errHandlingCallback);
} else if (waitQueueSize.incrementAndGet() > settings.getMaxWaitQueueSize()) {
waitQueueSize.decrementAndGet();
if (LOGGER.isTraceEnabled()) {
LOGGER.trace(format("Asynchronously failing to get a pooled connection to %s because the wait queue is full",
serverId));
}
callback.onResult(null, createWaitQueueFullException());
} else {
final long startTimeMillis = System.currentTimeMillis();
connectionPoolListener.waitQueueEntered(new ConnectionPoolWaitQueueEnteredEvent(serverId));
getAsyncGetter().submit(new Runnable() {
@Override
public void run() {
try {
if (getRemainingWaitTime() <= 0) {
errHandlingCallback.onResult(null, createTimeoutException());
} else {
PooledConnection connection = getPooledConnection(getRemainingWaitTime(), MILLISECONDS);
openAsync(connection, errHandlingCallback);
}
} catch (Throwable t) {
errHandlingCallback.onResult(null, t);
} finally {
waitQueueSize.decrementAndGet();
connectionPoolListener.waitQueueExited(new ConnectionPoolWaitQueueExitedEvent(serverId));
}
}
private long getRemainingWaitTime() {
return startTimeMillis + settings.getMaxWaitTime(MILLISECONDS) - System.currentTimeMillis();
}
});
}
}
private void openAsync(final PooledConnection pooledConnection,
final SingleResultCallback<InternalConnection> callback) {
if (pooledConnection.opened()) {
if (LOGGER.isTraceEnabled()) {
LOGGER.trace(format("Pooled connection %s to server %s is already open",
pooledConnection.getDescription().getConnectionId(), serverId));
}
callback.onResult(pooledConnection, null);
} else {
if (LOGGER.isTraceEnabled()) {
LOGGER.trace(format("Pooled connection %s to server %s is not yet open",
pooledConnection.getDescription().getConnectionId(), serverId));
}
pooledConnection.openAsync(new SingleResultCallback<Void>() {
@Override
public void onResult(final Void result, final Throwable t) {
if (t != null) {
if (LOGGER.isTraceEnabled()) {
LOGGER.trace(format("Pooled connection %s to server %s failed to open",
pooledConnection.getDescription().getConnectionId(), serverId));
}
callback.onResult(null, t);
pool.release(pooledConnection.wrapped, true);
} else {
if (LOGGER.isTraceEnabled()) {
LOGGER.trace(format("Pooled connection %s to server %s is now open",
pooledConnection.getDescription().getConnectionId(), serverId));
}
callback.onResult(pooledConnection, null);
}
}
});
}
}
private synchronized ExecutorService getAsyncGetter() {
if (asyncGetter == null) {
asyncGetter = Executors.newSingleThreadExecutor(new DaemonThreadFactory("AsyncGetter"));
}
return asyncGetter;
}
private synchronized void shutdownAsyncGetter() {
if (asyncGetter != null) {
asyncGetter.shutdownNow();
}
}
@Override
public void invalidate() {
LOGGER.debug("Invalidating the connection pool");
generation.incrementAndGet();
}
@Override
public void close() {
if (!closed) {
pool.close();
if (sizeMaintenanceTimer != null) {
sizeMaintenanceTimer.shutdownNow();
}
shutdownAsyncGetter();
closed = true;
connectionPoolListener.connectionPoolClosed(new ConnectionPoolClosedEvent(serverId));
}
}
public void doMaintenance() {
if (maintenanceTask != null) {
maintenanceTask.run();
}
}
private PooledConnection getPooledConnection(final long timeout, final TimeUnit timeUnit) {
UsageTrackingInternalConnection internalConnection = pool.get(timeout, timeUnit);
while (shouldPrune(internalConnection)) {
pool.release(internalConnection, true);
internalConnection = pool.get(timeout, timeUnit);
}
connectionPoolListener.connectionCheckedOut(new ConnectionCheckedOutEvent(internalConnection.getDescription().getConnectionId()));
if (LOGGER.isTraceEnabled()) {
LOGGER.trace(format("Checked out connection [%s] to server %s", getId(internalConnection), serverId.getAddress()));
}
return new PooledConnection(internalConnection);
}
private MongoTimeoutException createTimeoutException() {
return new MongoTimeoutException(format("Timed out after %d ms while waiting for a connection to server %s.",
settings.getMaxWaitTime(MILLISECONDS), serverId.getAddress()));
}
private MongoWaitQueueFullException createWaitQueueFullException() {
return new MongoWaitQueueFullException(format("Too many operations are already waiting for a connection. "
+ "Max number of operations (maxWaitQueueSize) of %d has been exceeded.",
settings.getMaxWaitQueueSize()));
}
ConcurrentPool<UsageTrackingInternalConnection> getPool() {
return pool;
}
private Runnable createMaintenanceTask() {
Runnable newMaintenanceTask = null;
if (shouldPrune() || shouldEnsureMinSize()) {
newMaintenanceTask = new Runnable() {
@Override
public synchronized void run() {
try {
int curGeneration = generation.get();
if (shouldPrune() || curGeneration > lastPrunedGeneration.get()) {
if (LOGGER.isDebugEnabled()) {
LOGGER.debug(format("Pruning pooled connections to %s", serverId.getAddress()));
}
pool.prune();
}
lastPrunedGeneration.set(curGeneration);
if (shouldEnsureMinSize()) {
if (LOGGER.isDebugEnabled()) {
LOGGER.debug(format("Ensuring minimum pooled connections to %s", serverId.getAddress()));
}
pool.ensureMinSize(settings.getMinSize(), true);
}
} catch (MongoInterruptedException e) {
} catch (Exception e) {
LOGGER.warn("Exception thrown during connection pool background maintenance task", e);
}
}
};
}
return newMaintenanceTask;
}
private ScheduledExecutorService createMaintenanceTimer() {
if (maintenanceTask == null) {
return null;
} else {
return Executors.newSingleThreadScheduledExecutor(new DaemonThreadFactory("MaintenanceTimer"));
}
}
private boolean shouldEnsureMinSize() {
return settings.getMinSize() > 0;
}
private boolean shouldPrune() {
return settings.getMaxConnectionIdleTime(MILLISECONDS) > 0 || settings.getMaxConnectionLifeTime(MILLISECONDS) > 0;
}
private boolean shouldPrune(final UsageTrackingInternalConnection connection) {
return fromPreviousGeneration(connection) || pastMaxLifeTime(connection) || pastMaxIdleTime(connection);
}
private boolean pastMaxIdleTime(final UsageTrackingInternalConnection connection) {
return expired(connection.getLastUsedAt(), System.currentTimeMillis(), settings.getMaxConnectionIdleTime(MILLISECONDS));
}
private boolean pastMaxLifeTime(final UsageTrackingInternalConnection connection) {
return expired(connection.getOpenedAt(), System.currentTimeMillis(), settings.getMaxConnectionLifeTime(MILLISECONDS));
}
private boolean fromPreviousGeneration(final UsageTrackingInternalConnection connection) {
return generation.get() > connection.getGeneration();
}
private boolean expired(final long startTime, final long curTime, final long maxTime) {
return maxTime != 0 && curTime - startTime > maxTime;
}
private void incrementGenerationOnSocketException(final InternalConnection connection, final Throwable t) {
if (t instanceof MongoSocketException && !(t instanceof MongoSocketReadTimeoutException)) {
if (LOGGER.isWarnEnabled()) {
LOGGER.warn(format("Got socket exception on connection [%s] to %s. All connections to %s will be closed.",
getId(connection), serverId.getAddress(), serverId.getAddress()));
}
invalidate();
}
}
private ConnectionId getId(final InternalConnection internalConnection) {
return internalConnection.getDescription().getConnectionId();
}
private class PooledConnection implements InternalConnection {
private final UsageTrackingInternalConnection wrapped;
private final AtomicBoolean isClosed = new AtomicBoolean();
PooledConnection(final UsageTrackingInternalConnection wrapped) {
this.wrapped = notNull("wrapped", wrapped);
}
@Override
public void open() {
isTrue("open", !isClosed.get());
wrapped.open();
}
@Override
public void openAsync(final SingleResultCallback<Void> callback) {
isTrue("open", !isClosed.get());
wrapped.openAsync(callback);
}
@Override
public void close() {
if (!isClosed.getAndSet(true)) {
connectionPoolListener.connectionCheckedIn(new ConnectionCheckedInEvent(getId(wrapped)));
if (LOGGER.isTraceEnabled()) {
LOGGER.trace(format("Checked in connection [%s] to server %s", getId(wrapped), serverId.getAddress()));
}
pool.release(wrapped, wrapped.isClosed() || shouldPrune(wrapped));
}
}
@Override
public boolean opened() {
isTrue("open", !isClosed.get());
return wrapped.opened();
}
@Override
public boolean isClosed() {
return isClosed.get() || wrapped.isClosed();
}
@Override
public ByteBuf getBuffer(final int capacity) {
return wrapped.getBuffer(capacity);
}
@Override
public void sendMessage(final List<ByteBuf> byteBuffers, final int lastRequestId) {
isTrue("open", !isClosed.get());
try {
wrapped.sendMessage(byteBuffers, lastRequestId);
} catch (MongoException e) {
incrementGenerationOnSocketException(this, e);
throw e;
}
}
@Override
public <T> T sendAndReceive(final CommandMessage message, final Decoder<T> decoder, final SessionContext sessionContext) {
isTrue("open", !isClosed.get());
try {
return wrapped.sendAndReceive(message, decoder, sessionContext);
} catch (MongoException e) {
incrementGenerationOnSocketException(this, e);
throw e;
}
}
@Override
public <T> void sendAndReceiveAsync(final CommandMessage message, final Decoder<T> decoder,
final SessionContext sessionContext, final SingleResultCallback<T> callback) {
isTrue("open", !isClosed.get());
wrapped.sendAndReceiveAsync(message, decoder, sessionContext, new SingleResultCallback<T>() {
@Override
public void onResult(final T result, final Throwable t) {
if (t != null) {
incrementGenerationOnSocketException(PooledConnection.this, t);
}
callback.onResult(result, t);
}
});
}
@Override
public ResponseBuffers receiveMessage(final int responseTo) {
isTrue("open", !isClosed.get());
try {
return wrapped.receiveMessage(responseTo);
} catch (MongoException e) {
incrementGenerationOnSocketException(this, e);
throw e;
}
}
@Override
public void sendMessageAsync(final List<ByteBuf> byteBuffers, final int lastRequestId, final SingleResultCallback<Void> callback) {
isTrue("open", !isClosed.get());
wrapped.sendMessageAsync(byteBuffers, lastRequestId, new SingleResultCallback<Void>() {
@Override
public void onResult(final Void result, final Throwable t) {
if (t != null) {
incrementGenerationOnSocketException(PooledConnection.this, t);
}
callback.onResult(null, t);
}
});
}
@Override
public void receiveMessageAsync(final int responseTo, final SingleResultCallback<ResponseBuffers> callback) {
isTrue("open", !isClosed.get());
wrapped.receiveMessageAsync(responseTo, new SingleResultCallback<ResponseBuffers>() {
@Override
public void onResult(final ResponseBuffers result, final Throwable t) {
if (t != null) {
incrementGenerationOnSocketException(PooledConnection.this, t);
}
callback.onResult(result, t);
}
});
}
@Override
public ConnectionDescription getDescription() {
return wrapped.getDescription();
}
}
private class UsageTrackingInternalConnectionItemFactory implements ConcurrentPool.ItemFactory<UsageTrackingInternalConnection> {
private final InternalConnectionFactory internalConnectionFactory;
UsageTrackingInternalConnectionItemFactory(final InternalConnectionFactory internalConnectionFactory) {
this.internalConnectionFactory = internalConnectionFactory;
}
@Override
public UsageTrackingInternalConnection create(final boolean initialize) {
UsageTrackingInternalConnection internalConnection =
new UsageTrackingInternalConnection(internalConnectionFactory.create(serverId), generation.get());
if (initialize) {
internalConnection.open();
}
connectionPoolListener.connectionAdded(new ConnectionAddedEvent(getId(internalConnection)));
return internalConnection;
}
@Override
public void close(final UsageTrackingInternalConnection connection) {
connectionPoolListener.connectionRemoved(new ConnectionRemovedEvent(getId(connection), getReasonForClosing(connection)));
if (LOGGER.isInfoEnabled()) {
LOGGER.info(format("Closed connection [%s] to %s because %s.", getId(connection), serverId.getAddress(),
getReasonStringForClosing(connection)));
}
connection.close();
}
private String getReasonStringForClosing(final UsageTrackingInternalConnection connection) {
String reason;
if (connection.isClosed()) {
reason = "there was a socket exception raised by this connection";
} else if (fromPreviousGeneration(connection)) {
reason = "there was a socket exception raised on another connection from this pool";
} else if (pastMaxLifeTime(connection)) {
reason = "it is past its maximum allowed life time";
} else if (pastMaxIdleTime(connection)) {
reason = "it is past its maximum allowed idle time";
} else {
reason = "the pool has been closed";
}
return reason;
}
private ConnectionRemovedEvent.Reason getReasonForClosing(final UsageTrackingInternalConnection connection) {
ConnectionRemovedEvent.Reason reason;
if (connection.isClosed()) {
reason = ConnectionRemovedEvent.Reason.ERROR;
} else if (fromPreviousGeneration(connection)) {
reason = ConnectionRemovedEvent.Reason.STALE;
} else if (pastMaxLifeTime(connection)) {
reason = ConnectionRemovedEvent.Reason.MAX_LIFE_TIME_EXCEEDED;
} else if (pastMaxIdleTime(connection)) {
reason = ConnectionRemovedEvent.Reason.MAX_IDLE_TIME_EXCEEDED;
} else {
reason = ConnectionRemovedEvent.Reason.POOL_CLOSED;
}
return reason;
}
@Override
public Prune shouldPrune(final UsageTrackingInternalConnection usageTrackingConnection) {
return DefaultConnectionPool.this.shouldPrune(usageTrackingConnection) ? Prune.YES : Prune.NO;
}
}
}