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/**
 *  Copyright Terracotta, Inc.
 *
 *  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 net.sf.ehcache.config;

import net.sf.ehcache.Cache;
import net.sf.ehcache.CacheException;
import net.sf.ehcache.CacheManager;
import net.sf.ehcache.FeaturesManager;
import net.sf.ehcache.ObjectExistsException;
import net.sf.ehcache.config.generator.ConfigurationSource;
import net.sf.ehcache.store.Store;
import net.sf.ehcache.transaction.manager.DefaultTransactionManagerLookup;
import net.sf.ehcache.transaction.manager.TransactionManagerLookup;
import net.sf.ehcache.util.ClassLoaderUtil;
import net.sf.ehcache.util.PropertyUtil;

import org.slf4j.Logger;
import org.slf4j.LoggerFactory;

import java.beans.PropertyChangeEvent;
import java.beans.PropertyChangeListener;
import java.lang.reflect.InvocationTargetException;
import java.util.ArrayList;
import java.util.Collection;
import java.util.HashMap;
import java.util.HashSet;
import java.util.List;
import java.util.Map;
import java.util.Properties;
import java.util.Set;
import java.util.concurrent.ConcurrentHashMap;
import java.util.concurrent.CopyOnWriteArrayList;

/**
 * A bean, used by BeanUtils, to set configuration from an XML configuration file.
 *
 * @author Greg Luck
 * @version $Id: Configuration.java 6154 2012-08-18 01:07:15Z hhuynh $
 */
public final class Configuration {

    /**
     * Default value for dynamicConfig
     */
    public static final boolean DEFAULT_DYNAMIC_CONFIG = true;
    /**
     * Default value for updateCheck
     */
    public static final boolean DEFAULT_UPDATE_CHECK = true;
    /**
     * Default value for defaultTransactionTimeoutInSeconds
     */
    public static final int  DEFAULT_TRANSACTION_TIMEOUT = 15;
    /**
     * Default value for maxBytesLocalHeap when not explicitly set
     */
    public static final long DEFAULT_MAX_BYTES_ON_HEAP   =  0;
    /**
     * Default value for maxBytesLocalOffHeap when not explicitly set
     */
    public static final long DEFAULT_MAX_BYTES_OFF_HEAP  =  0;
    /**
     * Default value for maxBytesLocalDisk when not explicitly set
     */
    public static final long DEFAULT_MAX_BYTES_ON_DISK   =  0;
    /**
     * Default value for monitoring
     */
    public static final Monitoring DEFAULT_MONITORING = Monitoring.AUTODETECT;
    /**
     * Default sizeOfPolicy configuration
     */
    public static final SizeOfPolicyConfiguration DEFAULT_SIZEOF_POLICY_CONFIGURATION = new SizeOfPolicyConfiguration();

    /**
     * Default transactionManagerLookupConfiguration
     */
    public static final FactoryConfiguration DEFAULT_TRANSACTION_MANAGER_LOOKUP_CONFIG = getDefaultTransactionManagerLookupConfiguration();
    private static final int HUNDRED = 100;
    private static final Logger LOG = LoggerFactory.getLogger(Configuration.class);

    private volatile RuntimeCfg cfg;
    private final List propertyChangeListeners = new CopyOnWriteArrayList();

    /**
     * Represents whether monitoring should be enabled or not.
     *
     * @author amiller
     */
    public enum Monitoring {
        /** When possible, notice the use of Terracotta and auto register the SampledCacheMBean. */
        AUTODETECT,

        /** Always auto register the SampledCacheMBean */
        ON,

        /** Never auto register the SampledCacheMBean */
        OFF;
    }

    /**
     * Enum of all properties that can change once the Configuration is being used by a CacheManager
     */
    private static enum DynamicProperty {

        cacheManagerName {
            @Override
            void applyChange(final PropertyChangeEvent evt, final RuntimeCfg config) {
                config.cacheManagerName = (String) evt.getNewValue();
            }
        },
        defaultCacheConfiguration {
            @Override
            void applyChange(final PropertyChangeEvent evt, final RuntimeCfg config) {
                LOG.debug("Default Cache Configuration has changed, previously created caches remain untouched");
            }
        },
        maxBytesLocalHeap {
            @Override
            void applyChange(final PropertyChangeEvent evt, final RuntimeCfg config) {

                ArrayList errors = new ArrayList();
                Long newValue = (Long)evt.getNewValue();
                if ((Long) evt.getOldValue() > (Long) evt.getNewValue()) {
                    // Double check for over-allocation again
                    for (Cache cache : getAllActiveCaches(config.cacheManager)) {
                        CacheConfiguration cacheConfiguration = cache.getCacheConfiguration();
                        errors.addAll(cacheConfiguration.validateCachePools(config.getConfiguration()));
                        errors.addAll(cacheConfiguration.verifyPoolAllocationsBeforeAddingTo(config.cacheManager,
                            newValue, config.getConfiguration().getMaxBytesLocalOffHeap(), config.getConfiguration().getMaxBytesLocalDisk()));
                    }
                }
                if (!errors.isEmpty()) {
                    throw new InvalidConfigurationException("Can't reduce CacheManager byte tuning by so much", errors);
                }
                // Recalculate % based caches
                long cacheAllocated = 0;
                for (Cache cache : getAllActiveCaches(config.cacheManager)) {
                    cache.getCacheConfiguration().configCachePools(config.getConfiguration());
                    long bytesLocalHeap = cache.getCacheConfiguration().getMaxBytesLocalHeap();
                    cacheAllocated += bytesLocalHeap;
                }
                config.cacheManager.getOnHeapPool().setMaxSize(newValue - cacheAllocated);
            }
        },
        maxBytesLocalDisk {
            @Override
            void applyChange(final PropertyChangeEvent evt, final RuntimeCfg config) {
                if ((Long)evt.getOldValue() > (Long)evt.getNewValue()) {
                    // Double check for over-allocation again
                    for (CacheConfiguration cacheConfiguration : config.getConfiguration().getCacheConfigurations().values()) {
                        cacheConfiguration.isMaxBytesLocalDiskPercentageSet();
                    }
                }
                config.cacheManager.getOnDiskPool().setMaxSize((Long) evt.getNewValue());
                // Recalculate % based caches ?
            }
        };

        abstract void applyChange(PropertyChangeEvent evt, RuntimeCfg config);
    }

    private String cacheManagerName;
    private boolean updateCheck = DEFAULT_UPDATE_CHECK;
    private int defaultTransactionTimeoutInSeconds = DEFAULT_TRANSACTION_TIMEOUT;
    private Monitoring monitoring = DEFAULT_MONITORING;
    private DiskStoreConfiguration diskStoreConfiguration;
    private CacheConfiguration defaultCacheConfiguration;
    private final List cacheManagerPeerProviderFactoryConfiguration = new ArrayList();
    private final List cacheManagerPeerListenerFactoryConfiguration = new ArrayList();
    private SizeOfPolicyConfiguration sizeOfPolicyConfiguration;
    private FactoryConfiguration transactionManagerLookupConfiguration;
    private FactoryConfiguration cacheManagerEventListenerFactoryConfiguration;
    private TerracottaClientConfiguration terracottaConfigConfiguration;
    private ManagementRESTServiceConfiguration managementRESTService;
    private final Map cacheConfigurations = new ConcurrentHashMap();
    private ConfigurationSource configurationSource;
    private boolean dynamicConfig = DEFAULT_DYNAMIC_CONFIG;
    private Long maxBytesLocalHeap;
    private String maxBytesLocalHeapInput;
    private Long maxBytesLocalOffHeap;
    private String maxBytesLocalOffHeapInput;
    private Long maxBytesLocalDisk;
    private String maxBytesLocalDiskInput;

    /**
     * Empty constructor, which is used by {@link ConfigurationFactory}, and can be also used programmatically.
     * 

* If you are using it programmtically you need to call the relevant add and setter methods in this class to populate everything. */ public Configuration() { } /** * Returns all active caches managed by the Manager * @param cacheManager The cacheManager * @return the Set of all active caches */ static Set getAllActiveCaches(CacheManager cacheManager) { final Set caches = new HashSet(); for (String cacheName : cacheManager.getCacheNames()) { final Cache cache = cacheManager.getCache(cacheName); if (cache != null) { caches.add(cache); } } return caches; } /** * Freezes part of the configuration that need to be, and runs validation checks on the Configuration. * * @param cacheManager the CacheManager instance being configured * @throws InvalidConfigurationException With all the associated errors */ public RuntimeCfg setupFor(final CacheManager cacheManager, final String fallbackName) throws InvalidConfigurationException { if (cfg != null) { return cfg; } final Collection errors = validate(); if (!errors.isEmpty()) { throw new InvalidConfigurationException(errors); } cfg = new Configuration.RuntimeCfg(cacheManager, fallbackName); return cfg; } /** * Validates the current configuration * @return the list of errors withing that configuration */ public Collection validate() { final Collection errors = new ArrayList(); for (CacheConfiguration cacheConfiguration : cacheConfigurations.values()) { errors.addAll(cacheConfiguration.validate(this)); } return errors; } /** * Checks whether the user explicitly set the maxBytesOnDisk * @return true if set by user, false otherwise * @see #setMaxBytesLocalDisk(Long) */ public boolean isMaxBytesLocalDiskSet() { return maxBytesLocalDisk != null; } /** * Checks whether the user explicitly set the maxBytesOffHeat * @return true if set by user, false otherwise * @see #setMaxBytesLocalOffHeap(Long) */ public boolean isMaxBytesLocalOffHeapSet() { return maxBytesLocalOffHeap != null; } /** * Checks whether the user explicitly set the maxBytesOnHeap * @return true if set by user, false otherwise * @see #setMaxBytesLocalHeap(Long) */ public boolean isMaxBytesLocalHeapSet() { return maxBytesLocalHeap != null; } private static FactoryConfiguration getDefaultTransactionManagerLookupConfiguration() { FactoryConfiguration configuration = new FactoryConfiguration(); configuration.setClass(DefaultTransactionManagerLookup.class.getName()); return configuration; } /** * Builder to set the cache manager name. * * @see #setName(String) * @param name * the name to set * @return this configuration instance */ public final Configuration name(String name) { setName(name); return this; } /** * Allows BeanHandler to set the CacheManager name. */ public final void setName(String name) { assertArgumentNotNull("name", name); final String prop = "cacheManagerName"; final boolean publishChange = checkDynChange(prop); String oldValue = this.cacheManagerName; this.cacheManagerName = name; if (publishChange) { firePropertyChange(prop, oldValue, name); } } private void assertArgumentNotNull(String name, Object object) { if (object == null) { throw new IllegalArgumentException(name + " cannot be null"); } } /** * CacheManager name */ public final String getName() { return this.cacheManagerName; } /** * Builder to set the state of the automated update check. * * @param updateCheck * {@code true} if the update check should be turned on; or {@code false} otherwise * @return this configuration instance */ public final Configuration updateCheck(boolean updateCheck) { setUpdateCheck(updateCheck); return this; } /** * Allows BeanHandler to set the updateCheck flag. */ public final void setUpdateCheck(boolean updateCheck) { String prop = "updateCheck"; final boolean publish = checkDynChange(prop); final boolean oldValue = this.updateCheck; this.updateCheck = updateCheck; if (publish) { firePropertyChange(prop, oldValue, updateCheck); } } /** * Get flag for updateCheck */ public final boolean getUpdateCheck() { return this.updateCheck; } /** * Builder to set the default transaction timeout. * * @param defaultTransactionTimeoutInSeconds the default transaction timeout in seconds * @return this configuration instance */ public final Configuration defaultTransactionTimeoutInSeconds(int defaultTransactionTimeoutInSeconds) { setDefaultTransactionTimeoutInSeconds(defaultTransactionTimeoutInSeconds); return this; } /** * Allows BeanHandler to set the default transaction timeout. */ public final void setDefaultTransactionTimeoutInSeconds(int defaultTransactionTimeoutInSeconds) { final String prop = "defaultTransactionTimeoutInSeconds"; final boolean publish = checkDynChange(prop); final int oldValue = this.defaultTransactionTimeoutInSeconds; this.defaultTransactionTimeoutInSeconds = defaultTransactionTimeoutInSeconds; if (publish) { firePropertyChange(prop, oldValue, defaultTransactionTimeoutInSeconds); } } /** * Get default transaction timeout * @return default transaction timeout in seconds */ public final int getDefaultTransactionTimeoutInSeconds() { return defaultTransactionTimeoutInSeconds; } /** * Builder to set the monitoring approach * * @param monitoring * an non-null instance of {@link Monitoring} * @return this configuration instance */ public final Configuration monitoring(Monitoring monitoring) { if (null == monitoring) { throw new IllegalArgumentException("Monitoring value must be non-null"); } final String prop = "monitoring"; final boolean publish = checkDynChange(prop); final Monitoring oldValue = this.monitoring; this.monitoring = monitoring; if (publish) { firePropertyChange(prop, oldValue, monitoring); } return this; } /** * Allows BeanHandler to set the monitoring flag */ public final void setMonitoring(String monitoring) { assertArgumentNotNull("Monitoring", monitoring); monitoring(Monitoring.valueOf(Monitoring.class, monitoring.toUpperCase())); } /** * Get monitoring type, should not be null */ public final Monitoring getMonitoring() { return this.monitoring; } /** * Builder to set the dynamic config capability * * @param dynamicConfig * {@code true} if dynamic config should be enabled; or {@code false} otherwise. * @return this configuration instance */ public final Configuration dynamicConfig(boolean dynamicConfig) { setDynamicConfig(dynamicConfig); return this; } /** * Allows BeanHandler to set the dynamic configuration flag */ public final void setDynamicConfig(boolean dynamicConfig) { final String prop = "dynamicConfig"; final boolean publish = checkDynChange(prop); final boolean oldValue = this.dynamicConfig; this.dynamicConfig = dynamicConfig; if (publish) { firePropertyChange(prop, oldValue, dynamicConfig); } } /** * Get flag for dynamicConfig */ public final boolean getDynamicConfig() { return this.dynamicConfig; } /** * Maximum amount of bytes the CacheManager will use on the heap * @return amount of bytes, 0 is unbound */ public long getMaxBytesLocalHeap() { return maxBytesLocalHeap == null ? DEFAULT_MAX_BYTES_ON_HEAP : maxBytesLocalHeap; } /** * Sets maximum amount of bytes the CacheManager will use on the Disk Tier. * @param maxBytesOnHeap String representation of the size. * @see MemoryUnit#parseSizeInBytes(String) */ public void setMaxBytesLocalHeap(final String maxBytesOnHeap) { assertArgumentNotNull("MaxBytesLocalHeap", maxBytesOnHeap); if (isPercentage(maxBytesOnHeap)) { long maxMemory = Runtime.getRuntime().maxMemory(); long mem = maxMemory / HUNDRED * parsePercentage(maxBytesOnHeap); setMaxBytesLocalHeap(mem); } else { setMaxBytesLocalHeap(MemoryUnit.parseSizeInBytes(maxBytesOnHeap)); } maxBytesLocalHeapInput = maxBytesOnHeap; } /** * @return Original input for maxBytesLocalHeap */ public String getMaxBytesLocalHeapAsString() { return maxBytesLocalHeapInput != null ? maxBytesLocalHeapInput : Long.toString(getMaxBytesLocalHeap()); } private int parsePercentage(final String stringValue) { String trimmed = stringValue.trim(); int percentage = Integer.parseInt(trimmed.substring(0, trimmed.length() - 1)); if (percentage > HUNDRED || percentage < 0) { throw new IllegalArgumentException("Percentage need values need to be between 0 and 100 inclusive, but got : " + percentage); } return percentage; } private boolean isPercentage(final String stringValue) { String trimmed = stringValue.trim(); return trimmed.charAt(trimmed.length() - 1) == '%'; } /** * Sets the maximum amount of bytes the cache manager being configured will use on the OnHeap tier * @param maxBytesOnHeap amount of bytes */ public void setMaxBytesLocalHeap(final Long maxBytesOnHeap) { final String prop = "maxBytesLocalHeap"; verifyGreaterThanZero(maxBytesOnHeap, prop); final boolean publish = checkDynChange(prop); Long oldValue = this.maxBytesLocalHeap; this.maxBytesLocalHeap = maxBytesOnHeap; if (publish) { firePropertyChange(prop, oldValue, maxBytesOnHeap); } } /** * Sets the maxOnHeap size for the cache being configured * @param amount the amount of unit * @param memoryUnit the actual unit * @return this * @see #setMaxBytesLocalHeap(Long) */ public Configuration maxBytesLocalHeap(final long amount, final MemoryUnit memoryUnit) { setMaxBytesLocalHeap(memoryUnit.toBytes(amount)); return this; } /** * Maximum amount of bytes the CacheManager will use on the OffHeap Tier. * @return amount in bytes */ public long getMaxBytesLocalOffHeap() { return maxBytesLocalOffHeap == null ? DEFAULT_MAX_BYTES_OFF_HEAP : maxBytesLocalOffHeap; } /** * Sets maximum amount of bytes the CacheManager will use on the OffHeap Tier. * @param maxBytesOffHeap String representation of the size. * @see MemoryUnit#parseSizeInBytes(String) */ public void setMaxBytesLocalOffHeap(final String maxBytesOffHeap) { assertArgumentNotNull("MaxBytesLocalOffHeap", maxBytesOffHeap); if (isPercentage(maxBytesOffHeap)) { long maxMemory = getOffHeapLimit(); long mem = maxMemory / HUNDRED * parsePercentage(maxBytesOffHeap); setMaxBytesLocalOffHeap(mem); } else { setMaxBytesLocalOffHeap(MemoryUnit.parseSizeInBytes(maxBytesOffHeap)); } maxBytesLocalOffHeapInput = maxBytesOffHeap; } /** * @return Original input for maxBytesLocalOffHeap */ public String getMaxBytesLocalOffHeapAsString() { return maxBytesLocalOffHeapInput != null ? maxBytesLocalOffHeapInput : Long.toString(getMaxBytesLocalOffHeap()); } /** * @return Total amount offheap configured by current caches */ public long getTotalConfiguredOffheap() { long total = getMaxBytesLocalOffHeap(); for (String cacheName : getCacheConfigurationsKeySet()) { CacheConfiguration config = getCacheConfigurations().get(cacheName); total += config.getMaxBytesLocalOffHeap(); } return total; } private long getOffHeapLimit() { try { Class enterpriseFmClass = ClassLoaderUtil.loadClass(FeaturesManager.ENTERPRISE_FM_CLASSNAME); try { return (Long)enterpriseFmClass.getMethod("getMaxBytesAllocatable").invoke(null); } catch (NoSuchMethodException e) { throw new CacheException("Cache: " + getName() + " cannot find static factory" + " method create(Ehcache, String)" + " in store class " + FeaturesManager.ENTERPRISE_FM_CLASSNAME, e); } catch (InvocationTargetException e) { Throwable cause = e.getCause(); throw new CacheException("Cache: " + getName() + " cannot instantiate store " + FeaturesManager.ENTERPRISE_FM_CLASSNAME, cause); } catch (IllegalAccessException e) { throw new CacheException("Cache: " + getName() + " cannot instantiate store " + FeaturesManager.ENTERPRISE_FM_CLASSNAME, e); } } catch (ClassNotFoundException e) { throw new CacheException("Cache " + getName() + " cannot be configured because the off-heap store class could not be found. " + "You must use an enterprise version of Ehcache to successfully enable overflowToOffHeap."); } } /** * Sets maximum amount of bytes the CacheManager will use on the OffHeap Tier. * @param maxBytesOffHeap max bytes on disk in bytes. Needs be be greater than 0 */ public void setMaxBytesLocalOffHeap(final Long maxBytesOffHeap) { String prop = "maxBytesLocalOffHeap"; verifyGreaterThanZero(maxBytesOffHeap, prop); boolean publish = checkDynChange(prop); Long oldValue = this.maxBytesLocalOffHeap; this.maxBytesLocalOffHeap = maxBytesOffHeap; if (publish) { firePropertyChange(prop, oldValue, maxBytesOffHeap); } } /** * Sets the maximum size for the OffHeap tier for all the caches this CacheManagers holds. * @param amount the amount of unit * @param memoryUnit the actual unit * @return this */ public Configuration maxBytesLocalOffHeap(final long amount, final MemoryUnit memoryUnit) { setMaxBytesLocalOffHeap(memoryUnit.toBytes(amount)); return this; } /** * Maximum amount of bytes the CacheManager will use on the Disk Tier. * @return amount in bytes */ public long getMaxBytesLocalDisk() { return maxBytesLocalDisk == null ? DEFAULT_MAX_BYTES_ON_DISK : maxBytesLocalDisk; } /** * Sets maximum amount of bytes the CacheManager will use on the Disk Tier. * @param maxBytesOnDisk String representation of the size. * @see MemoryUnit#parseSizeInBytes(String) */ public void setMaxBytesLocalDisk(final String maxBytesOnDisk) { assertArgumentNotNull("MaxBytesLocalDisk", maxBytesOnDisk); setMaxBytesLocalDisk(MemoryUnit.parseSizeInBytes(maxBytesOnDisk)); maxBytesLocalDiskInput = maxBytesOnDisk; } /** * @return Original input for maxBytesLocalDisk */ public String getMaxBytesLocalDiskAsString() { return maxBytesLocalDiskInput != null ? maxBytesLocalDiskInput : Long.toString(getMaxBytesLocalDisk()); } /** * Sets maximum amount of bytes the CacheManager will use on the Disk Tier. * @param maxBytesOnDisk max bytes on disk in bytes. Needs be be greater than 0 */ public void setMaxBytesLocalDisk(final Long maxBytesOnDisk) { String prop = "maxBytesLocalDisk"; verifyGreaterThanZero(maxBytesOnDisk, prop); boolean publish = checkDynChange(prop); Long oldValue = this.maxBytesLocalDisk; this.maxBytesLocalDisk = maxBytesOnDisk; if (publish) { firePropertyChange(prop, oldValue, maxBytesOnDisk); } } /** * Sets the maxOnDisk size * @param amount the amount of unit * @param memoryUnit the actual unit * @return this * @see #setMaxBytesLocalDisk(Long) */ public Configuration maxBytesLocalDisk(final long amount, final MemoryUnit memoryUnit) { setMaxBytesLocalDisk(memoryUnit.toBytes(amount)); return this; } private void verifyGreaterThanZero(final Long maxBytesOnHeap, final String field) { if (maxBytesOnHeap != null && maxBytesOnHeap < 1) { throw new IllegalArgumentException(field + " has to be larger than 0"); } } /** * Builder to add a disk store to the cache manager, only one disk store can be added. * * @param diskStoreConfigurationParameter * the disk store configuration to use * @return this configuration instance * @throws ObjectExistsException * if the disk store has already been configured */ public final Configuration diskStore(DiskStoreConfiguration diskStoreConfigurationParameter) throws ObjectExistsException { addDiskStore(diskStoreConfigurationParameter); return this; } /** * Allows BeanHandler to add disk store location to the configuration. */ public final void addDiskStore(DiskStoreConfiguration diskStoreConfigurationParameter) throws ObjectExistsException { if (diskStoreConfiguration != null) { throw new ObjectExistsException("The Disk Store has already been configured"); } final String prop = "diskStoreConfiguration"; boolean publish = checkDynChange(prop); DiskStoreConfiguration oldValue = diskStoreConfiguration; diskStoreConfiguration = diskStoreConfigurationParameter; if (publish) { firePropertyChange(prop, oldValue, diskStoreConfiguration); } } /** * Builder to set the default SizeOfPolicyConfiguration for this cache manager. * * @param sizeOfPolicyConfiguration the SizeOfPolicy Configuration * @return this configuration instance */ public final Configuration sizeOfPolicy(SizeOfPolicyConfiguration sizeOfPolicyConfiguration) { addSizeOfPolicy(sizeOfPolicyConfiguration); return this; } /** * Sets the default SizeOfPolicyConfiguration for this cache manager. * * @param sizeOfPolicy the SizeOfPolicy Configuration */ public final void addSizeOfPolicy(SizeOfPolicyConfiguration sizeOfPolicy) { if (sizeOfPolicyConfiguration != null) { throw new ObjectExistsException("The SizeOfPolicy class has already been configured"); } sizeOfPolicyConfiguration = sizeOfPolicy; } /** * Builder to add a transaction manager lookup class to the cache manager, only one of these can be added. * * @param transactionManagerLookupParameter * the transaction manager lookup class to use * @return this configuration instance * @throws ObjectExistsException * if the transaction manager lookup has already been configured */ public final Configuration transactionManagerLookup(FactoryConfiguration transactionManagerLookupParameter) throws ObjectExistsException { addTransactionManagerLookup(transactionManagerLookupParameter); return this; } /** * Allows BeanHandler to add transaction manager lookup to the configuration. */ public final void addTransactionManagerLookup(FactoryConfiguration transactionManagerLookupParameter) throws ObjectExistsException { if (transactionManagerLookupConfiguration != null) { throw new ObjectExistsException("The TransactionManagerLookup class has already been configured"); } final String prop = "transactionManagerLookupConfiguration"; boolean publish = checkDynChange(prop); FactoryConfiguration oldValue = this.transactionManagerLookupConfiguration; transactionManagerLookupConfiguration = transactionManagerLookupParameter; if (publish) { firePropertyChange(prop, oldValue, transactionManagerLookupParameter); } } /** * Builder to set the event lister through a factory, only one of these can be added and subsequent calls are ignored. * * @return this configuration instance */ public final Configuration cacheManagerEventListenerFactory(FactoryConfiguration cacheManagerEventListenerFactoryConfiguration) { addCacheManagerEventListenerFactory(cacheManagerEventListenerFactoryConfiguration); return this; } /** * Allows BeanHandler to add the CacheManagerEventListener to the configuration. */ public final void addCacheManagerEventListenerFactory(FactoryConfiguration cacheManagerEventListenerFactoryConfiguration) { final String prop = "cacheManagerEventListenerFactoryConfiguration"; boolean publish = checkDynChange(prop); if (this.cacheManagerEventListenerFactoryConfiguration == null) { this.cacheManagerEventListenerFactoryConfiguration = cacheManagerEventListenerFactoryConfiguration; if (publish) { firePropertyChange(prop, null, cacheManagerEventListenerFactoryConfiguration); } } } /** * Builder method to add a peer provider through a factory. * * @return this configuration instance */ public final Configuration cacheManagerPeerProviderFactory(FactoryConfiguration factory) { addCacheManagerPeerProviderFactory(factory); return this; } /** * Adds a CacheManagerPeerProvider through FactoryConfiguration. */ public final void addCacheManagerPeerProviderFactory(FactoryConfiguration factory) { final String prop = "cacheManagerPeerProviderFactoryConfiguration"; boolean publish = checkDynChange(prop); List oldValue = null; if (publish) { oldValue = new ArrayList(cacheManagerPeerProviderFactoryConfiguration); } cacheManagerPeerProviderFactoryConfiguration.add(factory); if (publish) { firePropertyChange(prop, oldValue, cacheManagerPeerProviderFactoryConfiguration); } } /** * Builder method to add a peer listener through a factory. * * @return this configuration instance */ public final Configuration cacheManagerPeerListenerFactory(FactoryConfiguration factory) { addCacheManagerPeerListenerFactory(factory); return this; } /** * Adds a CacheManagerPeerListener through FactoryConfiguration. */ public final void addCacheManagerPeerListenerFactory(FactoryConfiguration factory) { final String prop = "cacheManagerPeerListenerFactoryConfiguration"; boolean publish = checkDynChange(prop); List oldValue = null; if (publish) { oldValue = new ArrayList(cacheManagerPeerListenerFactoryConfiguration); } cacheManagerPeerListenerFactoryConfiguration.add(factory); if (publish) { firePropertyChange(prop, oldValue, cacheManagerPeerListenerFactoryConfiguration); } } /** * Builder method to Terracotta capabilities to the cache manager through a dedicated configuration, this can only be used once. * * @return this configuration instance * @throws ObjectExistsException * if the Terracotta config has already been configured */ public final Configuration terracotta(TerracottaClientConfiguration terracottaConfiguration) throws ObjectExistsException { addTerracottaConfig(terracottaConfiguration); return this; } /** * Allows BeanHandler to add a Terracotta configuration to the configuration */ public final void addTerracottaConfig(TerracottaClientConfiguration terracottaConfiguration) throws ObjectExistsException { if (this.terracottaConfigConfiguration != null) { throw new ObjectExistsException("The TerracottaConfig has already been configured"); } final String prop = "terracottaConfigConfiguration"; final boolean publish = checkDynChange(prop); final TerracottaClientConfiguration oldValue = this.terracottaConfigConfiguration; this.terracottaConfigConfiguration = terracottaConfiguration; if (publish) { firePropertyChange(prop, oldValue, terracottaConfiguration); } } /** * Builder method to REST management capabilities to the cache manager through a dedicated configuration, this can only be used once. * * @return this configuration instance * @throws ObjectExistsException * if the REST management config has already been configured */ public final Configuration managementRESTService(ManagementRESTServiceConfiguration cfg) throws ObjectExistsException { addManagementRESTService(cfg); return this; } /** * Allows BeanHandler to add a ManagementRESTService configuration to the configuration */ public final void addManagementRESTService(ManagementRESTServiceConfiguration managementRESTServiceConfiguration) throws ObjectExistsException { if (this.managementRESTService != null) { throw new ObjectExistsException("The ManagementRESTService has already been configured"); } final String prop = "managementRESTService"; final boolean publish = checkDynChange(prop); final ManagementRESTServiceConfiguration oldValue = this.managementRESTService; this.managementRESTService = managementRESTServiceConfiguration; if (publish) { firePropertyChange(prop, oldValue, managementRESTServiceConfiguration); } } /** * Builder method to set the default cache configuration, this can only be used once. * * @return this configuration instance * @throws ObjectExistsException * if the default cache config has already been configured */ public final Configuration defaultCache(CacheConfiguration defaultCacheConfiguration) throws ObjectExistsException { setDefaultCacheConfiguration(defaultCacheConfiguration); return this; } /** * Allows BeanHandler to add a default configuration to the configuration. */ public final void addDefaultCache(CacheConfiguration defaultCacheConfiguration) throws ObjectExistsException { if (this.defaultCacheConfiguration != null) { throw new ObjectExistsException("The Default Cache has already been configured"); } setDefaultCacheConfiguration(defaultCacheConfiguration); } /** * Builder to add a new cache through its config * * @return this configuration instance * @throws ObjectExistsException * if a cache with the same name already exists, or if the name conflicts with the name of the default cache */ public final Configuration cache(CacheConfiguration cacheConfiguration) throws ObjectExistsException { addCache(cacheConfiguration); return this; } /** * Allows BeanHandler to add Cache Configurations to the configuration. */ public final void addCache(CacheConfiguration cacheConfiguration) throws ObjectExistsException { addCache(cacheConfiguration, true); } /** * Maintains the known Cache's configuration map in this Configuration * @param cacheConfiguration the CacheConfiguration * @param strict true if added regularly, validation dyn config constraints, false if added through the cache being added */ void addCache(CacheConfiguration cacheConfiguration, final boolean strict) throws ObjectExistsException { final String prop = "cacheConfigurations"; Object oldValue = null; boolean publishChange = strict && checkDynChange(prop); if (publishChange) { oldValue = new HashMap(cacheConfigurations); } if (cacheConfigurations.get(cacheConfiguration.name) != null) { throw new ObjectExistsException("Cannot create cache: " + cacheConfiguration.name + " with the same name as an existing one."); } if (cacheConfiguration.name.equalsIgnoreCase(net.sf.ehcache.Cache.DEFAULT_CACHE_NAME)) { throw new ObjectExistsException("The Default Cache has already been configured"); } cacheConfigurations.put(cacheConfiguration.name, cacheConfiguration); if (publishChange) { firePropertyChange(prop, oldValue, cacheConfigurations); } } private boolean checkDynChange(final String prop) { if (!propertyChangeListeners.isEmpty()) { try { if (cfg != null) { DynamicProperty.valueOf(prop); } } catch (IllegalArgumentException e) { throw new IllegalStateException(this.getClass().getName() + "." + prop + " can't be changed dynamically"); } return true; } else { return false; } } /** * Gets a Map of cacheConfigurations. */ public final Set getCacheConfigurationsKeySet() { return cacheConfigurations.keySet(); } /** * @return the configuration's default cache configuration */ public final CacheConfiguration getDefaultCacheConfiguration() { return defaultCacheConfiguration; } /** * @param defaultCacheConfiguration */ public final void setDefaultCacheConfiguration(CacheConfiguration defaultCacheConfiguration) { final String prop = "defaultCacheConfiguration"; final boolean publish = checkDynChange(prop); final CacheConfiguration oldValue = this.defaultCacheConfiguration; this.defaultCacheConfiguration = defaultCacheConfiguration; if (publish) { firePropertyChange(prop, oldValue, defaultCacheConfiguration); } } /** * Gets the disk store configuration. */ public final DiskStoreConfiguration getDiskStoreConfiguration() { return diskStoreConfiguration; } /** * Gets the SizeOf policy configuration. */ public final SizeOfPolicyConfiguration getSizeOfPolicyConfiguration() { if (sizeOfPolicyConfiguration == null) { return DEFAULT_SIZEOF_POLICY_CONFIGURATION; } return sizeOfPolicyConfiguration; } /** * Gets the transaction manager lookup configuration. */ public final FactoryConfiguration getTransactionManagerLookupConfiguration() { if (transactionManagerLookupConfiguration == null) { return getDefaultTransactionManagerLookupConfiguration(); } return transactionManagerLookupConfiguration; } /** * Gets the CacheManagerPeerProvider factory configuration. */ public final List getCacheManagerPeerProviderFactoryConfiguration() { return cacheManagerPeerProviderFactoryConfiguration; } /** * Gets the CacheManagerPeerListener factory configuration. */ public final List getCacheManagerPeerListenerFactoryConfigurations() { return cacheManagerPeerListenerFactoryConfiguration; } /** * Gets the ManagementRESTServiceConfiguration */ public final ManagementRESTServiceConfiguration getManagementRESTService() { return managementRESTService; } /** * Gets the CacheManagerEventListener factory configuration. */ public final FactoryConfiguration getCacheManagerEventListenerFactoryConfiguration() { return cacheManagerEventListenerFactoryConfiguration; } /** * Gets the TerracottaClientConfiguration */ public final TerracottaClientConfiguration getTerracottaConfiguration() { return this.terracottaConfigConfiguration; } /** * Gets a Map of cache configurations, keyed by name. */ public final Map getCacheConfigurations() { return cacheConfigurations; } /** * Builder to set the configuration source. * * @return this configuration instance */ public final Configuration source(ConfigurationSource configurationSource) { setSource(configurationSource); return this; } /** * Sets the configuration source. * * @param configurationSource * an informative description of the source, preferably * including the resource name and location. */ public final void setSource(ConfigurationSource configurationSource) { final String prop = "configurationSource"; final boolean publish = checkDynChange(prop); final ConfigurationSource oldValue = this.configurationSource; this.configurationSource = configurationSource; if (publish) { firePropertyChange(prop, oldValue, configurationSource); } } /** * Gets a description of the source from which this configuration was created. */ public final ConfigurationSource getConfigurationSource() { return configurationSource; } /** * Adds a {@link PropertyChangeListener} for this configuration * @param listener the listener instance * @return true if added, false otherwise */ public boolean addPropertyChangeListener(final PropertyChangeListener listener) { return this.propertyChangeListeners.add(listener); } /** * Removes a {@link PropertyChangeListener} for this configuration * @param listener the listener to be removed * @return true if removed, false otherwise */ public boolean removePropertyChangeListener(final PropertyChangeListener listener) { return this.propertyChangeListeners.remove(listener); } private void firePropertyChange(final String prop, final T oldValue, final T newValue) { if ((oldValue != null && !oldValue.equals(newValue)) || newValue != null) { for (PropertyChangeListener propertyChangeListener : propertyChangeListeners) { propertyChangeListener.propertyChange(new PropertyChangeEvent(Configuration.this, prop, oldValue, newValue)); } } } /** * Runtime configuration as being used by the CacheManager */ public class RuntimeCfg implements PropertyChangeListener { private final CacheManager cacheManager; private volatile String cacheManagerName; private final boolean named; private TransactionManagerLookup transactionManagerLookup; private boolean allowsSizeBasedTunings; /** * Constructor * @param cacheManager the cacheManager instance using this config * @param fallbackName the fallbackName in case the configuration doesn't declare an explicit name */ public RuntimeCfg(final CacheManager cacheManager, final String fallbackName) { if (Configuration.this.cacheManagerName != null) { this.cacheManagerName = Configuration.this.cacheManagerName; named = true; } else if (hasTerracottaClusteredCaches()) { this.cacheManagerName = CacheManager.DEFAULT_NAME; named = false; } else { this.cacheManagerName = fallbackName; named = false; } FactoryConfiguration lookupConfiguration = getTransactionManagerLookupConfiguration(); try { Properties properties = PropertyUtil.parseProperties(lookupConfiguration.getProperties(), lookupConfiguration .getPropertySeparator()); Class transactionManagerLookupClass = (Class) Class .forName(lookupConfiguration.getFullyQualifiedClassPath()); this.transactionManagerLookup = transactionManagerLookupClass.newInstance(); this.transactionManagerLookup.setProperties(properties); } catch (Exception e) { LOG.error("could not instantiate transaction manager lookup class: {}", lookupConfiguration.getFullyQualifiedClassPath(), e); } this.cacheManager = cacheManager; propertyChangeListeners.add(this); allowsSizeBasedTunings = defaultCacheConfiguration == null || !defaultCacheConfiguration.isCountBasedTuned(); for (CacheConfiguration cacheConfiguration : cacheConfigurations.values()) { if (cacheConfiguration.isCountBasedTuned()) { allowsSizeBasedTunings = false; break; } } } /** * @return the CacheManager's name */ public String getCacheManagerName() { return cacheManagerName; } /** * @return Whether dynamic config changes are available */ public boolean allowsDynamicCacheConfig() { return getDynamicConfig(); } /** * @return Whether the CacheManager is explicitly named */ public boolean isNamed() { return named; } /** * @return the underlying Configuration instance */ public Configuration getConfiguration() { return Configuration.this; } /** * @return Whether terracotta clustering is being used and rejoin is enabled */ public boolean isTerracottaRejoin() { TerracottaClientConfiguration terracottaConfiguration = getTerracottaConfiguration(); return terracottaConfiguration != null && terracottaConfiguration.isRejoin(); } private boolean hasTerracottaClusteredCaches() { if (defaultCacheConfiguration != null && defaultCacheConfiguration.isTerracottaClustered()) { return true; } else { for (CacheConfiguration config : cacheConfigurations.values()) { if (config.isTerracottaClustered()) { return true; } } } return false; } /** * @return The transactionManagerLookup instance */ public TransactionManagerLookup getTransactionManagerLookup() { return transactionManagerLookup; } /** * Removes a cache from the known list * @param cacheConfiguration the cacheConfiguration to be removed */ public void removeCache(final CacheConfiguration cacheConfiguration) { if (cacheManager.getOnHeapPool() != null) { cacheManager.getOnHeapPool().setMaxSize(cacheManager.getOnHeapPool() .getMaxSize() + cacheConfiguration.getMaxBytesLocalHeap()); } if (cacheManager.getOnDiskPool() != null) { cacheManager.getOnDiskPool().setMaxSize(cacheManager.getOnDiskPool() .getMaxSize() + cacheConfiguration.getMaxBytesLocalDisk()); } getConfiguration().getCacheConfigurations().remove(cacheConfiguration.getName()); } /** * Handles changes to the Configuration this RuntimeCfg backs * @param evt the PropertyChangeEvent */ public void propertyChange(final PropertyChangeEvent evt) { try { DynamicProperty.valueOf(evt.getPropertyName()).applyChange(evt, this); } catch (IllegalArgumentException e) { throw new IllegalStateException(evt.getPropertyName() + " can't be changed dynamically"); } } /** * Checks whether the CacheManager uses a OffHeapPool * @return true if using one, false otherwise */ public boolean hasOffHeapPool() { return isMaxBytesLocalOffHeapSet(); } } }





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