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/*
* Copyright (c) 2010-2015 Pivotal Software, Inc. 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. See accompanying
* LICENSE file.
*/
package com.gemstone.gemfire.internal.cache;
import com.gemstone.gemfire.cache.AttributesFactory;
import com.gemstone.gemfire.cache.CacheClosedException;
import com.gemstone.gemfire.cache.DiskStoreFactory;
import com.gemstone.gemfire.cache.DiskWriteAttributes;
import com.gemstone.gemfire.cache.Region;
import com.gemstone.gemfire.cache.RegionAttributes;
import com.gemstone.gemfire.cache.util.GatewayQueueAttributes;
import com.gemstone.gemfire.internal.cache.xmlcache.CacheXml;
import com.gemstone.gemfire.internal.i18n.LocalizedStrings;
import java.io.File;
import java.io.IOException;
import java.util.Properties;
/**
* Implementation of DiskWriteAttributes
*
* @see AttributesFactory#setDiskWriteAttributes
* @see RegionAttributes#getDiskWriteAttributes
* @see Region#writeToDisk
*
* @author David Whitlock
* @author Mitul Bid
*
* @since 5.1
*/
@SuppressWarnings({"deprecation", "unused"})
public final class DiskWriteAttributesImpl implements DiskWriteAttributes
{
private static final long serialVersionUID = -4269181954992768424L;
/** Are writes synchronous? */
private final boolean isSynchronous;
/**
* The the number of milliseconds that can elapse before unwritten data is
* written to disk.
*/
private final long timeInterval;
/**
* The number of bytes of region entry data to queue up before writing to
* disk.
*/
private final long bytesThreshold;
/** Whether compaction is to be permitted or not. Defaults to true * */
private final boolean compactOplogs;
/** stored in bytes as a long but specified in megabytes by client applications**/
private final long maxOplogSize;
/** default max in bytes **/
private static final long DEFAULT_MAX_OPLOG_SIZE = Long.getLong("gemfire.DEFAULT_MAX_OPLOG_SIZE", 1024L).longValue() * (1024 * 1024); // 1 GB
/** default max limit in bytes **/
private static final long DEFAULT_MAX_OPLOG_SIZE_LIMIT = (long)Integer.MAX_VALUE * (1024*1024);
private static final boolean DEFAULT_ROLL_OPLOGS = true;
private static final boolean DEFAULT_ALLOW_FORCE_COMPACTION = false;
private static final boolean DEFAULT_IS_SYNCHRONOUS = false; // the pre 6.5 default
// private static final long DEFAULT_BYTES_THRESHOLD = 0;
static final long DEFAULT_TIME_INTERVAL = 1000; // 1 sec
private static final int DEFAULT_COMPACTION_THRESHOLD = 50;
public static final String SYNCHRONOUS_PROPERTY = "synchronous";
/**
* Default disk directory size in megabytes
*
* @since 5.1
*/
public static final int DEFAULT_DISK_DIR_SIZE = DiskStoreFactory.DEFAULT_DISK_DIR_SIZE;
private static final DiskWriteAttributes DEFAULT_ASYNC_DWA;
static {
Properties props = new Properties();
props.setProperty(SYNCHRONOUS_PROPERTY, "false");
DEFAULT_ASYNC_DWA = new DiskWriteAttributesImpl(props);
}
private static final DiskWriteAttributes DEFAULT_SYNC_DWA;
static {
Properties props = new Properties();
props.setProperty(SYNCHRONOUS_PROPERTY, "true");
DEFAULT_SYNC_DWA = new DiskWriteAttributesImpl(props);
}
/////////////////////// Constructors ///////////////////////
/**
*
* Creates a new DiskWriteAttributes object using the
* properties specified. The properties that can be specified are:
*
* - synchronous : boolean to specify whether DiskWrites will be
* synchronous (true)/asynchronous (false)
*
- auto-compact : boolean to specify whether to automatically compact
* disk files so they use less disk space (true)
*
- allow-force-compaction : boolean to specify whether to manual compaction
* of disk files is allowed (false)
*
- compaction-threshold: The threshold at which an oplog becomes compactable.
* Must be in the range 0..100 inclusive. (50)
*
- max-oplog-size: The maximum size of an oplog. 0 would mean infinity
*
- time-interval: The number of milliseconds that can elapse before
* unwritten data is written to disk.
*
- bytes-threshold: The number of unwritten bytes of data that can be
* enqueued before being written to disk
*
* The above properties are case sensitive and if a propery which is not in
* the list above is passed no action is taken. If a property which is present
* above is not specified then the following default values will be uses
*
*
* - synchronous = false
*
- auto-compact = true
*
- allow-force-compaction = false
*
- compaction-threshold = 50 %
*
- max-oplog-size = 1 GB
*
- time-interval = 1000 milliseconds
*
- byte-threshold = 0 bytes
*
*
* @param properties
*
* @throws IllegalArgumentException
* If any of the properties specified are not in the expected
* format.
* @throws IllegalStateException
* if max-oplog-size is set to infinity(0) and compaction is set to
* true
*/
public DiskWriteAttributesImpl(Properties properties) {
String isSynchronousString = properties.getProperty(SYNCHRONOUS_PROPERTY);
if (isSynchronousString == null) {
this.isSynchronous = DEFAULT_IS_SYNCHRONOUS;
}
else {
verifyBooleanString(isSynchronousString, SYNCHRONOUS_PROPERTY);
this.isSynchronous = Boolean.valueOf(isSynchronousString).booleanValue();
}
String compactOplogsString = properties.getProperty(CacheXml.ROLL_OPLOG);
if (compactOplogsString == null) {
this.compactOplogs = DEFAULT_ROLL_OPLOGS;
} else {
verifyBooleanString(compactOplogsString, CacheXml.ROLL_OPLOG);
this.compactOplogs = Boolean.valueOf(compactOplogsString).booleanValue();
}
String bytesThresholdString = properties
.getProperty(CacheXml.BYTES_THRESHOLD);
if (bytesThresholdString != null) {
if (this.isSynchronous) {
// log warning, no use setting time if is synchronous
}
this.bytesThreshold = verifyLongInString(bytesThresholdString,
CacheXml.BYTES_THRESHOLD);
}
else {
this.bytesThreshold = 0L;
}
String timeIntervalString = properties.getProperty(CacheXml.TIME_INTERVAL);
if (timeIntervalString != null) {
if (this.isSynchronous) {
// log warning, no use setting time if is synchronous
}
this.timeInterval = verifyLongInString(timeIntervalString,
CacheXml.TIME_INTERVAL);
}
else {
if (!this.isSynchronous && this.bytesThreshold == 0 ) {
this.timeInterval =DiskWriteAttributesImpl.DEFAULT_TIME_INTERVAL;
}else {
this.timeInterval = 0;
}
}
String maxOplogSizeString = properties.getProperty(CacheXml.MAX_OPLOG_SIZE);
if (maxOplogSizeString != null) {
long opSize = verifyLongInString(maxOplogSizeString,
CacheXml.MAX_OPLOG_SIZE);
if (opSize == 0 && this.compactOplogs == true) {
throw new IllegalStateException(LocalizedStrings.DiskWriteAttributesImpl_COMPACTION_CANNOT_BE_SET_TO_TRUE_IF_MAXOPLOGSIZE_IS_SET_TO_INFINITE_INFINITE_IS_REPRESENTED_BY_SIZE_ZERO_0.toLocalizedString());
}
if (opSize == 0 || opSize == DEFAULT_MAX_OPLOG_SIZE_LIMIT) {
if (this.compactOplogs) {
throw new IllegalArgumentException(LocalizedStrings.DiskWriteAttributesImpl_CANNOT_SET_MAXOPLOGS_SIZE_TO_INFINITY_0_IF_COMPACTION_IS_SET_TO_TRUE.toLocalizedString());
}
else {
this.maxOplogSize = DEFAULT_MAX_OPLOG_SIZE_LIMIT; // infinity
}
}
else {
this.maxOplogSize = opSize;
}
}
else {
this.maxOplogSize = DEFAULT_MAX_OPLOG_SIZE;
}
}
/**
* Verifys if the propertyString passed is a valid boolean value or null else
* throws an IllegalArgument exception
*
* @param propertyString
* @param property
* @throws IllegalArgumentException
* if the property string passed does not represent a boolean or
* null
*
*/
private void verifyBooleanString(String propertyString, String property)
{
if (!(propertyString.equalsIgnoreCase("true")
|| propertyString.equalsIgnoreCase("false"))) {
throw new IllegalArgumentException(LocalizedStrings.DiskWriteAttributesImpl_0_PROPERTY_HAS_TO_BE_TRUE_OR_FALSE_OR_NULL_AND_CANNOT_BE_1.toLocalizedString(new Object[] {property, propertyString}));
}
}
/**
* Verifys if the string passed, is in a number format which is acceptable and
* returns the long value of the string.
*
* @param propertyString
* @param property
* @return the long value of the string
*/
private long verifyLongInString(String propertyString, String property)
{
long returnValue;
try {
returnValue = Long.valueOf(propertyString).longValue();
}
catch (NumberFormatException e) {
throw new IllegalArgumentException(LocalizedStrings.DiskWriteAttributesImpl_0_HAS_TO_BE_A_VALID_NUMBER_AND_NOT_1.toLocalizedString(new Object[] {property, propertyString}));
}
if (returnValue < 0) {
throw new IllegalArgumentException(LocalizedStrings.DiskWriteAttributesImpl_0_HAS_TO_BE_POSITIVE_NUMBER_AND_THE_VALUE_GIVEN_1_IS_NOT_ACCEPTABLE.toLocalizedString(
new Object[] {property, Long.valueOf(returnValue)}));
}
return returnValue;
}
/**
* Verifys if the string passed, is in a number format which is acceptable and
* returns the int value of the string.
*
* @param propertyString
* @param property
* @return the int value of the string
*/
private int verifyPercentInString(String propertyString, String property)
{
int returnValue;
try {
returnValue = Integer.valueOf(propertyString).intValue();
}
catch (NumberFormatException e) {
throw new IllegalArgumentException(LocalizedStrings.DiskWriteAttributesImpl_0_HAS_TO_BE_A_VALID_NUMBER_AND_NOT_1.toLocalizedString(new Object[] {property, propertyString}));
}
if (returnValue < 0) {
throw new IllegalArgumentException(LocalizedStrings.DiskWriteAttributesImpl_0_HAS_TO_BE_POSITIVE_NUMBER_AND_THE_VALUE_GIVEN_1_IS_NOT_ACCEPTABLE.toLocalizedString(
new Object[] {property, Integer.valueOf(returnValue)}));
} else if (returnValue > 100) {
throw new IllegalArgumentException(LocalizedStrings.DiskWriteAttributesImpl_0_HAS_TO_BE_LESS_THAN_2_BUT_WAS_1.toLocalizedString(new Object[] {property, Integer.valueOf(returnValue), Integer.valueOf(100)}));
}
return returnValue;
}
// //////////////////// Instance Methods //////////////////////
/**
* Returns whether or not this DiskWriteAttributes configures
* synchronous writes.
*/
public boolean isSynchronous()
{
return this.isSynchronous;
}
/**
* Returns true if the oplogs is to be rolled
*/
public boolean isRollOplogs()
{
return this.compactOplogs;
}
/** Get the max Oplog Size in megabytes. The value is stored in bytes so division is necessary **/
public int getMaxOplogSize()
{
return (int)(maxOplogSize/(1024 * 1024));
}
/** Get the max Oplog Size in bytes **/
long getMaxOplogSizeInBytes()
{
return maxOplogSize;
}
/**
* Returns the number of milliseconds that can elapse before unwritten data is
* written to disk. If this DiskWriteAttributes configures
* synchronous writing, then timeInterval has no meaning.
*/
public long getTimeInterval()
{
return this.timeInterval;
}
/**
* Returns the number of unwritten bytes of data that can be enqueued before
* being written to disk. If this DiskWriteAttributes
* configures synchronous writing, then bytesThreshold has no
* meaning.
*/
public long getBytesThreshold()
{
return this.bytesThreshold;
}
/**
* Two DiskWriteAttributes are equal if the both specify the
* synchronous writes, or they both specify asynchronous writes with the same
* time interval and bytes threshold.
*/
@Override
public boolean equals(Object o)
{
if (!(o instanceof DiskWriteAttributesImpl)) {
return false;
}
DiskWriteAttributesImpl other = (DiskWriteAttributesImpl)o;
if (other.isSynchronous() != isSynchronous()) {
return false;
}
boolean result = other.isRollOplogs() == isRollOplogs()
&& other.getMaxOplogSize() == getMaxOplogSize();
if (!isSynchronous()) {
result = result
&& other.getTimeInterval() == getTimeInterval()
&& other.getBytesThreshold() == getBytesThreshold();
}
return result;
}
/*
* (non-Javadoc)
* @see java.lang.Object#hashCode()
*
* Note that we just need to make sure that equal objects return equal
* hashcodes; nothing really elaborate is done here.
*/
@Override
public int hashCode() {
int result = 0;
if (this.isSynchronous()) {
if (this.isRollOplogs()) {
result += 2;
}
}
else {
result += 1; // asynchronous
result += this.getTimeInterval();
result += this.getBytesThreshold();
}
result += this.getMaxOplogSize();
return result;
}
@Override
public String toString()
{
StringBuffer sb = new StringBuffer();
if (this.isSynchronous()) {
sb.append("Synchronous writes to disk");
}
else {
sb.append("Asynchronous writes to disk after a threshold of ");
sb.append(this.getTimeInterval());
sb.append("ms or ");
sb.append(this.getBytesThreshold());
sb.append(" bytes");
}
sb.append(". MaxOplog size is : " + maxOplogSize);
sb.append(". RollOplogs is : " + compactOplogs);
return sb.toString();
}
/**
* Get the default max oplog size limit in megabytes
* @return the default max oplog size limit in megabytes
*/
public static int getDefaultMaxOplogSizeLimit()
{
return (int)(DEFAULT_MAX_OPLOG_SIZE_LIMIT/(1024*1024));
}
/**
*
* Returns the default compaction oplog value
*
* @return the default compaction oplog value
*/
public static boolean getDefaultRollOplogsValue()
{
return DEFAULT_ROLL_OPLOGS;
}
/**
*
* Gets the default max oplog size in megabytes
*
* @return the default max oplog size in megabytes
*/
public static int getDefaultMaxOplogSize()
{
return (int)(DEFAULT_MAX_OPLOG_SIZE/(1024*1024));
}
/**
* Returns a default instance of DiskWriteAttributes
* @return the default DiskWriteAttributes instance
*/
public static DiskWriteAttributes getDefaultAsyncInstance()
{
return DEFAULT_ASYNC_DWA;
}
public static DiskWriteAttributes getDefaultSyncInstance()
{
return DEFAULT_SYNC_DWA;
}
}