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/*
* Copyright 2017 Google LLC
*
* 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.cloud.spanner;
import com.google.api.core.InternalApi;
import com.google.cloud.spanner.SessionPool.Position;
import com.google.common.annotations.VisibleForTesting;
import com.google.common.base.Preconditions;
import java.util.Locale;
import java.util.Objects;
import org.threeten.bp.Duration;
/** Options for the session pool used by {@code DatabaseClient}. */
public class SessionPoolOptions {
// Default number of channels * 100.
private static final int DEFAULT_MAX_SESSIONS = 400;
private static final int DEFAULT_MIN_SESSIONS = 100;
private static final int DEFAULT_INC_STEP = 25;
private static final ActionOnExhaustion DEFAULT_ACTION = ActionOnExhaustion.BLOCK;
private final int minSessions;
private final int maxSessions;
private final int incStep;
/**
* Use {@link #minSessions} instead to set the minimum number of sessions in the pool to maintain.
* Creating a larger number of sessions during startup is relatively cheap as it is executed with
* the BatchCreateSessions RPC.
*/
@Deprecated private final int maxIdleSessions;
/**
* The session pool no longer prepares a fraction of the sessions with a read/write transaction.
* This setting therefore does not have any meaning anymore, and may be removed in the future.
*/
@Deprecated private final float writeSessionsFraction;
private final ActionOnExhaustion actionOnExhaustion;
private final long loopFrequency;
private final java.time.Duration multiplexedSessionMaintenanceLoopFrequency;
private final int keepAliveIntervalMinutes;
private final Duration removeInactiveSessionAfter;
private final ActionOnSessionNotFound actionOnSessionNotFound;
private final ActionOnSessionLeak actionOnSessionLeak;
private final boolean trackStackTraceOfSessionCheckout;
private final InactiveTransactionRemovalOptions inactiveTransactionRemovalOptions;
/**
* Use {@link #acquireSessionTimeout} instead to specify the total duration to wait while
* acquiring session for a transaction.
*/
@Deprecated private final long initialWaitForSessionTimeoutMillis;
private final boolean autoDetectDialect;
private final Duration waitForMinSessions;
private final Duration acquireSessionTimeout;
private final Position releaseToPosition;
private final long randomizePositionQPSThreshold;
/** Property for allowing mocking of session maintenance clock. */
private final Clock poolMaintainerClock;
private final boolean useMultiplexedSession;
/**
* Controls whether multiplexed session is enabled for blind write or not. This is only used for
* systest soak. TODO: Remove when multiplexed session for blind write is released.
*/
private final boolean useMultiplexedSessionBlindWrite;
private final boolean useMultiplexedSessionForRW;
// TODO: Change to use java.time.Duration.
private final Duration multiplexedSessionMaintenanceDuration;
private SessionPoolOptions(Builder builder) {
// minSessions > maxSessions is only possible if the user has only set a value for maxSessions.
// We allow that to prevent code that only sets a value for maxSessions to break if the
// maxSessions value is less than the default for minSessions.
this.minSessions = Math.min(builder.minSessions, builder.maxSessions);
this.maxSessions = builder.maxSessions;
this.incStep = builder.incStep;
this.maxIdleSessions = builder.maxIdleSessions;
this.writeSessionsFraction = builder.writeSessionsFraction;
this.actionOnExhaustion = builder.actionOnExhaustion;
this.actionOnSessionNotFound = builder.actionOnSessionNotFound;
this.actionOnSessionLeak = builder.actionOnSessionLeak;
this.trackStackTraceOfSessionCheckout = builder.trackStackTraceOfSessionCheckout;
this.initialWaitForSessionTimeoutMillis = builder.initialWaitForSessionTimeoutMillis;
this.loopFrequency = builder.loopFrequency;
this.multiplexedSessionMaintenanceLoopFrequency =
builder.multiplexedSessionMaintenanceLoopFrequency;
this.keepAliveIntervalMinutes = builder.keepAliveIntervalMinutes;
this.removeInactiveSessionAfter = builder.removeInactiveSessionAfter;
this.autoDetectDialect = builder.autoDetectDialect;
this.waitForMinSessions = builder.waitForMinSessions;
this.acquireSessionTimeout = builder.acquireSessionTimeout;
this.releaseToPosition = builder.releaseToPosition;
this.randomizePositionQPSThreshold = builder.randomizePositionQPSThreshold;
this.inactiveTransactionRemovalOptions = builder.inactiveTransactionRemovalOptions;
this.poolMaintainerClock = builder.poolMaintainerClock;
// useMultiplexedSession priority => Environment var > private setter > client default
Boolean useMultiplexedSessionFromEnvVariable = getUseMultiplexedSessionFromEnvVariable();
this.useMultiplexedSession =
(useMultiplexedSessionFromEnvVariable != null)
? useMultiplexedSessionFromEnvVariable
: builder.useMultiplexedSession;
this.useMultiplexedSessionBlindWrite = builder.useMultiplexedSessionBlindWrite;
// useMultiplexedSessionForRW priority => Environment var > private setter > client default
Boolean useMultiplexedSessionForRWFromEnvVariable =
getUseMultiplexedSessionForRWFromEnvVariable();
this.useMultiplexedSessionForRW =
(useMultiplexedSessionForRWFromEnvVariable != null)
? useMultiplexedSessionForRWFromEnvVariable
: builder.useMultiplexedSessionForRW;
this.multiplexedSessionMaintenanceDuration = builder.multiplexedSessionMaintenanceDuration;
}
@Override
public boolean equals(Object o) {
if (!(o instanceof SessionPoolOptions)) {
return false;
}
SessionPoolOptions other = (SessionPoolOptions) o;
return Objects.equals(this.minSessions, other.minSessions)
&& Objects.equals(this.maxSessions, other.maxSessions)
&& Objects.equals(this.incStep, other.incStep)
&& Objects.equals(this.maxIdleSessions, other.maxIdleSessions)
&& Objects.equals(this.writeSessionsFraction, other.writeSessionsFraction)
&& Objects.equals(this.actionOnExhaustion, other.actionOnExhaustion)
&& Objects.equals(this.actionOnSessionNotFound, other.actionOnSessionNotFound)
&& Objects.equals(this.actionOnSessionLeak, other.actionOnSessionLeak)
&& Objects.equals(
this.trackStackTraceOfSessionCheckout, other.trackStackTraceOfSessionCheckout)
&& Objects.equals(
this.initialWaitForSessionTimeoutMillis, other.initialWaitForSessionTimeoutMillis)
&& Objects.equals(this.loopFrequency, other.loopFrequency)
&& Objects.equals(
this.multiplexedSessionMaintenanceLoopFrequency,
other.multiplexedSessionMaintenanceLoopFrequency)
&& Objects.equals(this.keepAliveIntervalMinutes, other.keepAliveIntervalMinutes)
&& Objects.equals(this.removeInactiveSessionAfter, other.removeInactiveSessionAfter)
&& Objects.equals(this.autoDetectDialect, other.autoDetectDialect)
&& Objects.equals(this.waitForMinSessions, other.waitForMinSessions)
&& Objects.equals(this.acquireSessionTimeout, other.acquireSessionTimeout)
&& Objects.equals(this.releaseToPosition, other.releaseToPosition)
&& Objects.equals(this.randomizePositionQPSThreshold, other.randomizePositionQPSThreshold)
&& Objects.equals(
this.inactiveTransactionRemovalOptions, other.inactiveTransactionRemovalOptions)
&& Objects.equals(this.poolMaintainerClock, other.poolMaintainerClock)
&& Objects.equals(this.useMultiplexedSession, other.useMultiplexedSession)
&& Objects.equals(this.useMultiplexedSessionForRW, other.useMultiplexedSessionForRW)
&& Objects.equals(
this.multiplexedSessionMaintenanceDuration,
other.multiplexedSessionMaintenanceDuration);
}
@Override
public int hashCode() {
return Objects.hash(
this.minSessions,
this.maxSessions,
this.incStep,
this.maxIdleSessions,
this.writeSessionsFraction,
this.actionOnExhaustion,
this.actionOnSessionNotFound,
this.actionOnSessionLeak,
this.trackStackTraceOfSessionCheckout,
this.initialWaitForSessionTimeoutMillis,
this.loopFrequency,
this.multiplexedSessionMaintenanceLoopFrequency,
this.keepAliveIntervalMinutes,
this.removeInactiveSessionAfter,
this.autoDetectDialect,
this.waitForMinSessions,
this.acquireSessionTimeout,
this.releaseToPosition,
this.randomizePositionQPSThreshold,
this.inactiveTransactionRemovalOptions,
this.poolMaintainerClock,
this.useMultiplexedSession,
this.useMultiplexedSessionBlindWrite,
this.useMultiplexedSessionForRW,
this.multiplexedSessionMaintenanceDuration);
}
public Builder toBuilder() {
return new Builder(this);
}
public int getMinSessions() {
return minSessions;
}
public int getMaxSessions() {
return maxSessions;
}
int getIncStep() {
return incStep;
}
/**
* @deprecated Use a higher value for {@link SessionPoolOptions.Builder#setMinSessions(int)}
* instead of setting this option.
*/
@Deprecated
public int getMaxIdleSessions() {
return maxIdleSessions;
}
/**
* @deprecated This value is no longer used. The session pool does not prepare any sessions for
* read/write transactions. Instead, a transaction will be started by including a
* BeginTransaction option with the first statement of a transaction. This method may be
* removed in a future release.
*/
@Deprecated
public float getWriteSessionsFraction() {
return writeSessionsFraction;
}
long getLoopFrequency() {
return loopFrequency;
}
java.time.Duration getMultiplexedSessionMaintenanceLoopFrequency() {
return this.multiplexedSessionMaintenanceLoopFrequency;
}
public int getKeepAliveIntervalMinutes() {
return keepAliveIntervalMinutes;
}
public Duration getRemoveInactiveSessionAfter() {
return removeInactiveSessionAfter;
}
public boolean isFailIfPoolExhausted() {
return actionOnExhaustion == ActionOnExhaustion.FAIL;
}
public boolean isBlockIfPoolExhausted() {
return actionOnExhaustion == ActionOnExhaustion.BLOCK;
}
public boolean isAutoDetectDialect() {
return autoDetectDialect;
}
InactiveTransactionRemovalOptions getInactiveTransactionRemovalOptions() {
return inactiveTransactionRemovalOptions;
}
boolean closeInactiveTransactions() {
return inactiveTransactionRemovalOptions.actionOnInactiveTransaction
== ActionOnInactiveTransaction.CLOSE;
}
boolean warnAndCloseInactiveTransactions() {
return inactiveTransactionRemovalOptions.actionOnInactiveTransaction
== ActionOnInactiveTransaction.WARN_AND_CLOSE;
}
boolean warnInactiveTransactions() {
return inactiveTransactionRemovalOptions.actionOnInactiveTransaction
== ActionOnInactiveTransaction.WARN;
}
@VisibleForTesting
long getInitialWaitForSessionTimeoutMillis() {
return initialWaitForSessionTimeoutMillis;
}
@VisibleForTesting
boolean isFailIfSessionNotFound() {
return actionOnSessionNotFound == ActionOnSessionNotFound.FAIL;
}
@VisibleForTesting
boolean isFailOnSessionLeak() {
return actionOnSessionLeak == ActionOnSessionLeak.FAIL;
}
@VisibleForTesting
Clock getPoolMaintainerClock() {
return poolMaintainerClock;
}
public boolean isTrackStackTraceOfSessionCheckout() {
return trackStackTraceOfSessionCheckout;
}
Duration getWaitForMinSessions() {
return waitForMinSessions;
}
@VisibleForTesting
Duration getAcquireSessionTimeout() {
return acquireSessionTimeout;
}
Position getReleaseToPosition() {
return releaseToPosition;
}
long getRandomizePositionQPSThreshold() {
return randomizePositionQPSThreshold;
}
@VisibleForTesting
@InternalApi
public boolean getUseMultiplexedSession() {
return useMultiplexedSession;
}
@VisibleForTesting
@InternalApi
protected boolean getUseMultiplexedSessionBlindWrite() {
return getUseMultiplexedSession() && useMultiplexedSessionBlindWrite;
}
@VisibleForTesting
@InternalApi
public boolean getUseMultiplexedSessionForRW() {
// Multiplexed sessions for R/W are enabled only if both global multiplexed sessions and
// read-write multiplexed session flags are set to true.
return getUseMultiplexedSession() && useMultiplexedSessionForRW;
}
private static Boolean getUseMultiplexedSessionFromEnvVariable() {
String useMultiplexedSessionFromEnvVariable =
System.getenv("GOOGLE_CLOUD_SPANNER_MULTIPLEXED_SESSIONS");
if (useMultiplexedSessionFromEnvVariable != null
&& useMultiplexedSessionFromEnvVariable.length() > 0) {
if ("true".equalsIgnoreCase(useMultiplexedSessionFromEnvVariable)
|| "false".equalsIgnoreCase(useMultiplexedSessionFromEnvVariable)) {
return Boolean.parseBoolean(useMultiplexedSessionFromEnvVariable);
} else {
throw new IllegalArgumentException(
"GOOGLE_CLOUD_SPANNER_MULTIPLEXED_SESSIONS should be either true or false.");
}
}
return null;
}
private static Boolean getUseMultiplexedSessionForRWFromEnvVariable() {
// Checks the value of env, GOOGLE_CLOUD_SPANNER_MULTIPLEXED_SESSIONS_FOR_RW
// This returns null until RW is supported.
return null;
}
Duration getMultiplexedSessionMaintenanceDuration() {
return multiplexedSessionMaintenanceDuration;
}
public static Builder newBuilder() {
return new Builder();
}
private enum ActionOnExhaustion {
BLOCK,
FAIL,
}
private enum ActionOnSessionNotFound {
RETRY,
FAIL
}
private enum ActionOnSessionLeak {
WARN,
FAIL
}
@VisibleForTesting
enum ActionOnInactiveTransaction {
WARN,
WARN_AND_CLOSE,
CLOSE
}
/** Configuration options for task to clean up inactive transactions. */
static class InactiveTransactionRemovalOptions {
/** Option to set the behaviour when there are inactive transactions. */
private final ActionOnInactiveTransaction actionOnInactiveTransaction;
/**
* Frequency for closing inactive transactions. Between two consecutive task executions, it's
* ensured that the duration is greater or equal to this duration.
*/
private final Duration executionFrequency;
/**
* Long-running transactions will be cleaned up if utilisation is greater than the below value.
*/
private final double usedSessionsRatioThreshold;
/**
* A transaction is considered to be idle if it has not been used for a duration greater than
* the below value.
*/
private final Duration idleTimeThreshold;
InactiveTransactionRemovalOptions(final Builder builder) {
this.actionOnInactiveTransaction = builder.actionOnInactiveTransaction;
this.idleTimeThreshold = builder.idleTimeThreshold;
this.executionFrequency = builder.executionFrequency;
this.usedSessionsRatioThreshold = builder.usedSessionsRatioThreshold;
}
@Override
public boolean equals(Object o) {
if (!(o instanceof InactiveTransactionRemovalOptions)) {
return false;
}
InactiveTransactionRemovalOptions other = (InactiveTransactionRemovalOptions) o;
return Objects.equals(this.actionOnInactiveTransaction, other.actionOnInactiveTransaction)
&& Objects.equals(this.idleTimeThreshold, other.idleTimeThreshold)
&& Objects.equals(this.executionFrequency, other.executionFrequency)
&& Objects.equals(this.usedSessionsRatioThreshold, other.usedSessionsRatioThreshold);
}
@Override
public int hashCode() {
return Objects.hash(
this.actionOnInactiveTransaction,
this.idleTimeThreshold,
this.executionFrequency,
this.usedSessionsRatioThreshold);
}
Duration getExecutionFrequency() {
return executionFrequency;
}
double getUsedSessionsRatioThreshold() {
return usedSessionsRatioThreshold;
}
Duration getIdleTimeThreshold() {
return idleTimeThreshold;
}
static InactiveTransactionRemovalOptions.Builder newBuilder() {
return new Builder();
}
static class Builder {
private ActionOnInactiveTransaction actionOnInactiveTransaction =
ActionOnInactiveTransaction.WARN;
private Duration executionFrequency = Duration.ofMinutes(2);
private double usedSessionsRatioThreshold = 0.95;
private Duration idleTimeThreshold = Duration.ofMinutes(60L);
public Builder() {}
InactiveTransactionRemovalOptions build() {
validate();
return new InactiveTransactionRemovalOptions(this);
}
private void validate() {
Preconditions.checkArgument(
executionFrequency.toMillis() > 0,
"Execution frequency %s should be positive",
executionFrequency.toMillis());
Preconditions.checkArgument(
idleTimeThreshold.toMillis() > 0,
"Idle Time Threshold duration %s should be positive",
idleTimeThreshold.toMillis());
}
@VisibleForTesting
InactiveTransactionRemovalOptions.Builder setActionOnInactiveTransaction(
final ActionOnInactiveTransaction actionOnInactiveTransaction) {
this.actionOnInactiveTransaction = actionOnInactiveTransaction;
return this;
}
@VisibleForTesting
InactiveTransactionRemovalOptions.Builder setExecutionFrequency(
final Duration executionFrequency) {
this.executionFrequency = executionFrequency;
return this;
}
@VisibleForTesting
InactiveTransactionRemovalOptions.Builder setUsedSessionsRatioThreshold(
final double usedSessionsRatioThreshold) {
this.usedSessionsRatioThreshold = usedSessionsRatioThreshold;
return this;
}
@VisibleForTesting
InactiveTransactionRemovalOptions.Builder setIdleTimeThreshold(
final Duration idleTimeThreshold) {
this.idleTimeThreshold = idleTimeThreshold;
return this;
}
}
}
/** Builder for creating SessionPoolOptions. */
public static class Builder {
private boolean minSessionsSet = false;
private int minSessions = DEFAULT_MIN_SESSIONS;
private int maxSessions = DEFAULT_MAX_SESSIONS;
private int incStep = DEFAULT_INC_STEP;
/** Set a higher value for {@link #minSessions} instead of using this field. */
@Deprecated private int maxIdleSessions;
/**
* The session pool no longer prepares a fraction of the sessions with a read/write transaction.
* This setting therefore does not have any meaning anymore, and may be removed in the future.
*/
@Deprecated private float writeSessionsFraction = 0.2f;
private ActionOnExhaustion actionOnExhaustion = DEFAULT_ACTION;
private long initialWaitForSessionTimeoutMillis = 30_000L;
private ActionOnSessionNotFound actionOnSessionNotFound = ActionOnSessionNotFound.RETRY;
private ActionOnSessionLeak actionOnSessionLeak = ActionOnSessionLeak.WARN;
/**
* Capture the call stack of the thread that checked out a session of the pool. This will
* pre-create a {@link com.google.cloud.spanner.SessionPool.LeakedSessionException} already when
* a session is checked out. This can be disabled by users, for example if their monitoring
* systems log the pre-created exception. If disabled, the {@link
* com.google.cloud.spanner.SessionPool.LeakedSessionException} will only be created when an
* actual session leak is detected. The stack trace of the exception will in that case not
* contain the call stack of when the session was checked out.
*/
private boolean trackStackTraceOfSessionCheckout = true;
private InactiveTransactionRemovalOptions inactiveTransactionRemovalOptions =
InactiveTransactionRemovalOptions.newBuilder().build();
private long loopFrequency = 10 * 1000L;
private java.time.Duration multiplexedSessionMaintenanceLoopFrequency =
java.time.Duration.ofMinutes(10);
private int keepAliveIntervalMinutes = 30;
private Duration removeInactiveSessionAfter = Duration.ofMinutes(55L);
private boolean autoDetectDialect = false;
private Duration waitForMinSessions = Duration.ZERO;
private Duration acquireSessionTimeout = Duration.ofSeconds(60);
private final Position releaseToPosition = getReleaseToPositionFromSystemProperty();
/**
* The session pool will randomize the position of a session that is being returned when this
* threshold is exceeded. That is: If the transactions per second exceeds this threshold, then
* the session pool will use a random order for the sessions instead of LIFO. The default is 0,
* which means that the option is disabled.
*/
private long randomizePositionQPSThreshold = 0L;
// This field controls the default behavior of session management in Java client.
// Set useMultiplexedSession to true to make multiplexed session the default.
private boolean useMultiplexedSession = false;
// TODO: Remove when multiplexed session for blind write is released.
private boolean useMultiplexedSessionBlindWrite = false;
// This field controls the default behavior of session management for RW operations in Java
// client.
// Set useMultiplexedSessionForRW to true to make multiplexed session for RW operations the
// default.
private boolean useMultiplexedSessionForRW = false;
private Duration multiplexedSessionMaintenanceDuration = Duration.ofDays(7);
private Clock poolMaintainerClock = Clock.INSTANCE;
private static Position getReleaseToPositionFromSystemProperty() {
// NOTE: This System property is a beta feature. Support for it can be removed in the future.
String key = "com.google.cloud.spanner.session_pool_release_to_position";
if (System.getProperties().containsKey(key)) {
try {
return Position.valueOf(System.getProperty(key).toUpperCase(Locale.ENGLISH));
} catch (Throwable ignore) {
// fallthrough and return the default.
}
}
return Position.FIRST;
}
public Builder() {}
private Builder(SessionPoolOptions options) {
this.minSessionsSet = true;
this.minSessions = options.minSessions;
this.maxSessions = options.maxSessions;
this.incStep = options.incStep;
this.maxIdleSessions = options.maxIdleSessions;
this.writeSessionsFraction = options.writeSessionsFraction;
this.actionOnExhaustion = options.actionOnExhaustion;
this.initialWaitForSessionTimeoutMillis = options.initialWaitForSessionTimeoutMillis;
this.actionOnSessionNotFound = options.actionOnSessionNotFound;
this.actionOnSessionLeak = options.actionOnSessionLeak;
this.trackStackTraceOfSessionCheckout = options.trackStackTraceOfSessionCheckout;
this.loopFrequency = options.loopFrequency;
this.multiplexedSessionMaintenanceLoopFrequency =
options.multiplexedSessionMaintenanceLoopFrequency;
this.keepAliveIntervalMinutes = options.keepAliveIntervalMinutes;
this.removeInactiveSessionAfter = options.removeInactiveSessionAfter;
this.autoDetectDialect = options.autoDetectDialect;
this.waitForMinSessions = options.waitForMinSessions;
this.acquireSessionTimeout = options.acquireSessionTimeout;
this.randomizePositionQPSThreshold = options.randomizePositionQPSThreshold;
this.inactiveTransactionRemovalOptions = options.inactiveTransactionRemovalOptions;
this.useMultiplexedSession = options.useMultiplexedSession;
this.useMultiplexedSessionBlindWrite = options.useMultiplexedSessionBlindWrite;
this.useMultiplexedSessionForRW = options.useMultiplexedSessionForRW;
this.multiplexedSessionMaintenanceDuration = options.multiplexedSessionMaintenanceDuration;
this.poolMaintainerClock = options.poolMaintainerClock;
}
/**
* Minimum number of sessions that this pool will always maintain. These will be created eagerly
* in parallel. Defaults to 100.
*/
public Builder setMinSessions(int minSessions) {
Preconditions.checkArgument(minSessions >= 0, "minSessions must be >= 0");
this.minSessionsSet = true;
this.minSessions = minSessions;
return this;
}
/**
* Maximum number of sessions that this pool will have. If current numbers of sessions in the
* pool is less than this and they are all busy, then a new session will be created for any new
* operation. If current number of in use sessions is same as this and a new request comes, pool
* can either block or fail. Defaults to 400.
*/
public Builder setMaxSessions(int maxSessions) {
Preconditions.checkArgument(maxSessions > 0, "maxSessions must be > 0");
this.maxSessions = maxSessions;
return this;
}
/**
* Number of sessions to batch create when the pool needs at least one more session. Defaults to
* 25.
*/
Builder setIncStep(int incStep) {
Preconditions.checkArgument(incStep > 0, "incStep must be > 0");
this.incStep = incStep;
return this;
}
/**
* Maximum number of idle sessions that this pool will maintain. Pool will close any sessions
* beyond this but making sure to always have at least as many sessions as specified by {@link
* #setMinSessions}. To determine how many sessions are idle we look at maximum number of
* sessions used concurrently over a window of time. Any sessions beyond that are idle. Defaults
* to 0.
*
* @deprecated set a higher value for {@link #setMinSessions(int)} instead of using this
* configuration option. This option will be removed in a future release.
*/
@Deprecated
public Builder setMaxIdleSessions(int maxIdleSessions) {
this.maxIdleSessions = maxIdleSessions;
return this;
}
Builder setLoopFrequency(long loopFrequency) {
this.loopFrequency = loopFrequency;
return this;
}
Builder setMultiplexedSessionMaintenanceLoopFrequency(java.time.Duration frequency) {
this.multiplexedSessionMaintenanceLoopFrequency = frequency;
return this;
}
Builder setInactiveTransactionRemovalOptions(
InactiveTransactionRemovalOptions inactiveTransactionRemovalOptions) {
this.inactiveTransactionRemovalOptions = inactiveTransactionRemovalOptions;
return this;
}
public Builder setRemoveInactiveSessionAfter(Duration duration) {
this.removeInactiveSessionAfter = duration;
return this;
}
/**
* How frequently to keep alive idle sessions. This should be less than 60 since an idle session
* is automatically closed after 60 minutes. Sessions will be kept alive by sending a dummy
* query "Select 1". Default value is 30 minutes.
*/
public Builder setKeepAliveIntervalMinutes(int intervalMinutes) {
this.keepAliveIntervalMinutes = intervalMinutes;
return this;
}
/**
* If all sessions are in use and and {@code maxSessions} has been reached, fail the request by
* throwing a {@link SpannerException} with the error code {@code RESOURCE_EXHAUSTED}. Default
* behavior is to block the request.
*/
public Builder setFailIfPoolExhausted() {
this.actionOnExhaustion = ActionOnExhaustion.FAIL;
return this;
}
/**
* If all sessions are in use and there is no more room for creating new sessions, block for a
* session to become available. Default behavior is same.
*
* By default the requests are blocked for 60s and will fail with a `SpannerException` with
* error code `ResourceExhausted` if this timeout is exceeded. If you wish to block for a
* different period use the option {@link Builder#setAcquireSessionTimeout(Duration)} ()}
*/
public Builder setBlockIfPoolExhausted() {
this.actionOnExhaustion = ActionOnExhaustion.BLOCK;
return this;
}
/**
* If there are inactive transactions, log warning messages with the origin of such transactions
* to aid debugging. A transaction is classified as inactive if it executes for more than a
* system defined duration.
*
*
This option won't change the state of the transactions. It only generates warning logs
* that can be used for debugging.
*
* @return this builder for chaining
*/
public Builder setWarnIfInactiveTransactions() {
this.inactiveTransactionRemovalOptions =
InactiveTransactionRemovalOptions.newBuilder()
.setActionOnInactiveTransaction(ActionOnInactiveTransaction.WARN)
.build();
return this;
}
/**
* If there are inactive transactions, release the resources consumed by such transactions. A
* transaction is classified as inactive if it executes for more than a system defined duration.
* The option would also produce necessary warning logs through which it can be debugged as to
* what resources were released due to this option.
*
*
Use the option {@link Builder#setWarnIfInactiveTransactions()} if you only want to log
* warnings about long-running transactions.
*
* @return this builder for chaining
*/
public Builder setWarnAndCloseIfInactiveTransactions() {
this.inactiveTransactionRemovalOptions =
InactiveTransactionRemovalOptions.newBuilder()
.setActionOnInactiveTransaction(ActionOnInactiveTransaction.WARN_AND_CLOSE)
.build();
return this;
}
/**
* If there are inactive transactions, release the resources consumed by such transactions. A
* transaction is classified as inactive if it executes for more than a system defined duration.
*
*
Use the option {@link Builder#setWarnIfInactiveTransactions()} if you only want to log
* warnings about long-running sessions.
*
*
Use the option {@link Builder#setWarnAndCloseIfInactiveTransactions()} if you want to log
* warnings along with closing the long-running transactions.
*
* @return this builder for chaining
*/
@VisibleForTesting
Builder setCloseIfInactiveTransactions() {
this.inactiveTransactionRemovalOptions =
InactiveTransactionRemovalOptions.newBuilder()
.setActionOnInactiveTransaction(ActionOnInactiveTransaction.CLOSE)
.build();
return this;
}
@VisibleForTesting
Builder setPoolMaintainerClock(Clock poolMaintainerClock) {
this.poolMaintainerClock = Preconditions.checkNotNull(poolMaintainerClock);
return this;
}
/**
* Sets whether the client should use multiplexed session or not. If set to true, the client
* optimises and runs multiple applicable requests concurrently on a single session. A single
* multiplexed session is sufficient to handle all concurrent traffic.
*
*
When set to false, the client uses the regular session cached in the session pool for
* running 1 concurrent transaction per session. We require to provision sufficient sessions by
* making use of {@link SessionPoolOptions#minSessions} and {@link
* SessionPoolOptions#maxSessions} based on the traffic load. Failing to do so will result in
* higher latencies.
*/
Builder setUseMultiplexedSession(boolean useMultiplexedSession) {
this.useMultiplexedSession = useMultiplexedSession;
return this;
}
/**
* This method enables multiplexed sessions for blind writes. This method will be removed in the
* future when multiplexed sessions has been made the default for all operations.
*/
@InternalApi
@VisibleForTesting
Builder setUseMultiplexedSessionBlindWrite(boolean useMultiplexedSessionBlindWrite) {
this.useMultiplexedSessionBlindWrite = useMultiplexedSessionBlindWrite;
return this;
}
/**
* Sets whether the client should use multiplexed session for R/W operations or not. This method
* is intentionally package-private and intended for internal use.
*/
Builder setUseMultiplexedSessionForRW(boolean useMultiplexedSessionForRW) {
this.useMultiplexedSessionForRW = useMultiplexedSessionForRW;
return this;
}
@VisibleForTesting
Builder setMultiplexedSessionMaintenanceDuration(
Duration multiplexedSessionMaintenanceDuration) {
this.multiplexedSessionMaintenanceDuration = multiplexedSessionMaintenanceDuration;
return this;
}
/**
* Sets whether the client should automatically execute a background query to detect the dialect
* that is used by the database or not. Set this option to true if you do not know what the
* dialect of the database will be.
*
*
Note that you can always call {@link DatabaseClient#getDialect()} to get the dialect of a
* database regardless of this setting, but by setting this to true, the value will be
* pre-populated and cached in the client.
*
* @param autoDetectDialect Whether the client should automatically execute a background query
* to detect the dialect of the underlying database
* @return this builder for chaining
*/
public Builder setAutoDetectDialect(boolean autoDetectDialect) {
this.autoDetectDialect = autoDetectDialect;
return this;
}
/**
* The initial number of milliseconds to wait for a session to become available when one is
* requested. The session pool will keep retrying to get a session, and the timeout will be
* doubled for each new attempt. The default is 30 seconds.
*/
@VisibleForTesting
Builder setInitialWaitForSessionTimeoutMillis(long timeout) {
this.initialWaitForSessionTimeoutMillis = timeout;
return this;
}
/**
* If a session has been invalidated by the server, the {@link SessionPool} will by default
* retry the session. Set this option to throw an exception instead of retrying.
*/
@VisibleForTesting
Builder setFailIfSessionNotFound() {
this.actionOnSessionNotFound = ActionOnSessionNotFound.FAIL;
return this;
}
@VisibleForTesting
Builder setFailOnSessionLeak() {
this.actionOnSessionLeak = ActionOnSessionLeak.FAIL;
return this;
}
/**
* Sets whether the session pool should capture the call stack trace when a session is checked
* out of the pool. This will internally prepare a {@link
* com.google.cloud.spanner.SessionPool.LeakedSessionException} that will only be thrown if the
* session is actually leaked. This makes it easier to debug session leaks, as the stack trace
* of the thread that checked out the session will be available in the exception.
*
*
Some monitoring tools might log these exceptions even though they are not thrown. This
* option can be used to suppress the creation and logging of these exceptions.
*/
public Builder setTrackStackTraceOfSessionCheckout(boolean trackStackTraceOfSessionCheckout) {
this.trackStackTraceOfSessionCheckout = trackStackTraceOfSessionCheckout;
return this;
}
/**
* @deprecated This configuration value is no longer in use. The session pool does not prepare
* any sessions for read/write transactions. Instead, a transaction will automatically be
* started by the first statement that is executed by a transaction by including a
* BeginTransaction option with that statement.
*
This method may be removed in a future release.
*/
public Builder setWriteSessionsFraction(float writeSessionsFraction) {
this.writeSessionsFraction = writeSessionsFraction;
return this;
}
/**
* If greater than zero, waits for the session pool to have at least {@link
* SessionPoolOptions#minSessions} before returning the database client to the caller. Note that
* this check is only done during the session pool creation. This is usually done asynchronously
* in order to provide the client back to the caller as soon as possible. We don't recommend
* using this option unless you are executing benchmarks and want to guarantee the session pool
* has min sessions in the pool before continuing.
*
*
Defaults to zero (initialization is done asynchronously).
*/
public Builder setWaitForMinSessions(Duration waitForMinSessions) {
this.waitForMinSessions = waitForMinSessions;
return this;
}
/**
* If greater than zero, we wait for said duration when no sessions are available in the {@link
* SessionPool}. The default is a 60s timeout. Set the value to null to disable the timeout.
*/
public Builder setAcquireSessionTimeout(Duration acquireSessionTimeout) {
try {
if (acquireSessionTimeout != null) {
Preconditions.checkArgument(
acquireSessionTimeout.toMillis() > 0,
"acquireSessionTimeout should be greater than 0 ns");
}
} catch (ArithmeticException ex) {
throw new IllegalArgumentException(
"acquireSessionTimeout in millis should be lesser than Long.MAX_VALUE");
}
this.acquireSessionTimeout = acquireSessionTimeout;
return this;
}
Builder setRandomizePositionQPSThreshold(long randomizePositionQPSThreshold) {
Preconditions.checkArgument(
randomizePositionQPSThreshold >= 0L, "randomizePositionQPSThreshold must be >= 0");
this.randomizePositionQPSThreshold = randomizePositionQPSThreshold;
return this;
}
/** Build a SessionPoolOption object */
public SessionPoolOptions build() {
validate();
return new SessionPoolOptions(this);
}
private void validate() {
if (minSessionsSet) {
Preconditions.checkArgument(
maxSessions >= minSessions,
"Min sessions(%s) must be <= max sessions(%s)",
minSessions,
maxSessions);
}
Preconditions.checkArgument(
keepAliveIntervalMinutes < 60, "Keep alive interval should be less than" + "60 minutes");
}
}
}