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Apache Geode provides a database-like consistency model, reliable transaction processing and a shared-nothing architecture to maintain very low latency performance with high concurrency processing
/*
* Licensed to the Apache Software Foundation (ASF) under one or more contributor license
* agreements. See the NOTICE file distributed with this work for additional information regarding
* copyright ownership. The ASF licenses this file to You 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 org.apache.geode.management;
import org.apache.geode.internal.security.SecurableCommunicationChannel;
/**
* Composite Data type to be used by member to depict gemfire properties in key value manner
*
* @since GemFire 7.0
*
*/
public class GemFireProperties {
/**
* a symbolic name that can be used by administrators to help identify a connection to the
* distributed system.
**/
private String memberName;
private String memberGroups;
/**
* The port used for multicast networking. If zero, then multicast will be disabled and locators
* must be used to find the other members of the distributed system. If "mcast-port" is zero and
* "locators" is "" then this distributed system will be isolated from all other GemFire
* processes. Default: "10334"
**/
private int mcastPort;
/**
* The IP address used for multicast networking. If mcast-port is zero, then mcast-address is
* ignored. Default: "239.192.81.1"
**/
private String mcastAddress;
/**
* The IP address that this distributed system's server sockets will listen on. If set to an empty
* string then the local machine's default address will be listened on.
**/
private String bindAddress;
/**
* A 16-bit integer that determines the tcp/ip port number to listen on for cache communications.
* If zero, the operating system will select an available port to listen on. Each process on a
* machine must have its own tcp-port. Note that some operating systems restrict the range of
* ports usable by non-privileged users, and using restricted port numbers can cause runtime
* errors in GemFire startup.
**/
private int tcpPort;
/**
* Specifies the name of the XML file or resource to initialize the cache with when it is created.
* Create will first look for a file that matches the value of this property. If a file is not
* found then it will be searched for using ClassLoader.getResource(java.lang.String). If the
* value of this property is the empty string (""), then the cache will not be declaratively
* initialized
**/
private String cacheXMLFile;
private String configFile;
/**
* Determines how far through your network the multicast packets used by GemFire will propagate.
* Default: "32" Allowed values: 0..255
**/
private int mcastTTL;
private String serverBindAddress;
/**
* A list of locators (host and port) that are used to find other member of the distributed
* system. This attribute's value is a possibly empty comma separated list. Each element must be
* of the form "hostName[portNum]" and may be of the form "host:bindAddress[port]" if a specific
* bind address is to be used on the locator machine. The square brackets around the portNum are
* literal character and must be specified.
*
* Since IPv6 bind addresses may contain colons, you may use an at symbol instead of a colon to
* separate the host name and bind address. For example, "server1@fdf0:76cf:a0ed:9449::5[12233]"
* specifies a locator running on "server1" and bound to fdf0:76cf:a0ed:9449::5 on port 12233.
*
* If "mcast-port" is zero and "locators" is "" then this distributed system will be isolated from
* all other GemFire processes.
**/
private String locators;
/**
* A host name or bind-address and port ("host[port],peer=,server=") that are used to start a
* locator in the same process as the DistributedSystem. The locator is started when the
* DistributedSystem connects, and is stopped when the DistributedSystem disconnects. To start a
* locator that is not tied to the DistributedSystem's lifecycle, see the Locator class in this
* same package.
*
* The peer and server parameters are optional. They specify whether the locator can be used for
* peers to discover eachother, or for clients to discover peers. By default both are true.
* Default: "" (doesn't start a locator)
**/
private String startLocator;
/**
* Name of the file to write logging messages to. If the file name if "" (default) then messages
* are written to standard out.
**/
private String logFile;
/** The type of log messages that will actually write to the log file. **/
private int logLevel;
/**
* "true" causes the statistics to be sampled periodically and operating system statistics to be
* fetched each time a sample is taken. "false" disables sampling which also disables operating
* system statistic collection. Non OS statistics will still be recorded in memory and can be
* viewed by administration tools. However, charts will show no activity and no statistics will be
* archived while sampling is disabled.
**/
private boolean statisticSamplingEnabled;
/**
* The rate, in milliseconds, at which samples of the statistics will be taken.
**/
private int statisticSampleRate;
/**
* The file that statistic samples are written to. An empty string (default) disables statistic
* archival.
**/
private String statisticArchiveFile;
private String includeFile;
/**
* The number of seconds the distributed system will wait for a message to be acknowledged before
* it sends a warning level alert to signal that something might be wrong with the system node
* that is unresponsive. After sending this alert the waiter continues to wait. The alerts are
* logged in the log as warnings and will cause an alert notification in the Admin API and GemFire
* JMX Agent. Default: "15"
**/
private int ackWaitThreshold;
/**
* The number of seconds the distributed system will wait after the ack-wait-threshold for a
* message to be acknowledged before it issues an alert at severe level. The default value is
* zero, which turns off this feature.
*
* when ack-severe-alert-threshold is used, GemFire will also initiate additional checks to see if
* the process is alive. These checks will begin when the ack-wait-threshold is reached and will
* continue until GemFire has been able to communicate with the process and ascertain its status.
**/
private int ackSevereAlertThreshold;
/**
* Limits, in megabytes, how large the current statistic archive file can grow before it is closed
* and archival rolls on to a new file. Set to zero to disable archive rolling. Default: "0"
**/
private int archiveFileSizeLimit;
/**
* Limits, in megabytes, how much disk space can be consumed by old inactive statistic archive
* files. When the limit is exceeded the oldest inactive archive is deleted. Set to zero to
* disable automatic archive deletion. Default: "0"
**/
private int archiveDiskSpaceLimit;
/**
* Limits, in megabytes, how large the current log file can grow before it is closed and logging
* rolls on to a new file. Set to zero to disable log rolling.
**/
private int logFileSizeLimit;
/**
* Limits, in megabytes, how much disk space can be consumed by old inactive log files. When the
* limit is exceeded the oldest inactive log file is deleted. Set to zero to disable automatic log
* file deletion.
**/
private int logDiskSpaceLimit;
// /**
// * If true, all gemfire socket communication is configured to use SSL through
// * JSSE.
// **/
// private boolean sslEnabled;
// /**
// * A space seperated list of the SSL cipher suites to enable. Those listed
// * must be supported by the available providers.
// **/
// private String sslCiphers;
// /**
// * A space seperated list of the SSL protocols to enable. Those listed must be
// * supported by the available providers.
// **/
// private String sslProtocols;
// /**
// * If false, allow ciphers that do not require the client side of the
// * connection to be authenticated.
// **/
// private boolean sslRequireAuthentication;
/**
* The number of milliseconds a thread can keep exclusive access to a socket that it is not
* actively using. Once a thread loses its lease to a socket it will need to re-acquire a socket
* the next time it sends a message. A value of zero causes socket leases to never expire. This
* property is ignored if "conserve-sockets" is true. Default: "15000"
**/
private int socketLeaseTime;
/**
* The size of each socket buffer, in bytes. Smaller buffers conserve memory. Larger buffers can
* improve performance; in particular if large messages are being sent. Default: "32768"
**/
private int socketBufferSize;
/**
* Description: Sets the size of the socket buffer used for outgoing multicast transmissions.
* Default: "65535" Allowed values: 2048..Operating System maximum
**/
private int mcastSendBufferSize;
/**
* Description: Sets the size of the socket buffer used for incoming multicast transmissions. You
* should set this high if there will be high volumes of messages. Default: "1048576" Allowed
* values: 2048..Operating System maximum
**/
private int mcastRecvBufferSize;
/**
* The byteAllowance determines how many bytes can be sent without a recharge from other processes
**/
private int mcastByteAllowance;
/**
* The rechargeThreshold tells receivers how low the sender's initial to remaining allowance ratio
* should be before sending a recharge
**/
private float mcastRechargeThreshold;
/**
* The rechargeBlockMs tells the sender how long to wait for a recharge before explicitly
* requesting one.
**/
private int mcastRechargeBlockMs;
/**
* When messages are sent over datagram sockets, GemFire breaks large messages down into fragments
* for transmission. This property sets the maximum fragment size for transmission.
**/
private int udpFragmentSize;
/**
* Sets the size of the socket buffer used for outgoing udp point-to-point transmissions.
**/
private int udpSendBufferSize;
/**
* Sets the size of the socket buffer used for incoming udp point-to-point transmissions. Note: if
* multicast is not enabled and disable-tcp is not enabled, a reduced default size of 65535 is
* used.
**/
private int udpRecvBufferSize;
/**
* Turns off use of tcp/ip sockets, forcing the cache to use datagram sockets for all
* communication. This is useful if you have a large number of processes in the distributed cache
* since it eliminates the per-connection reader-thread that is otherwise required. However, udp
* communications are somewhat slower than tcp/ip communications due to the extra work required in
* Java to break messages down to transmittable sizes, and the extra work required to guarantee
* message delivery.
**/
private boolean disableTcp;
/**
* "true" causes additional time-based statistics to be gathered for gemfire operations. This can
* aid in discovering where time is going in cache operations, albeit at the expense of extra
* clock probes on every operation. "false" disables the additional time-based statistics.
**/
private boolean enableTimeStatistics;
/**
* Turns on network partitioning detection algorithms, which detect loss of processes eligible to
* function as the membership coordinator and correlates it with loss of a selected lead member.
**/
private boolean enableNetworkPartitionDetection;
/**
* Establishes the number of seconds of process failure history kept by the system for correlating
* loss of processes eligible to be the membership coordinator and the lead member.
**/
private int departureCorrelationWindow;
/**
* Sets the timeout interval, in milliseconds, used to determine whether another process is alive
* or not. When another process appears to be gone, GemFire tries five times to contact it before
* giving up. This property sets the timeout interval for each of these attempts. Default: "5000"
**/
private int memberTimeout;
/**
* The allowed range of ports for use in forming an unique membership identifier (UDP) and for
* failure detection purposes (TCP). This range is given as two numbers separated by a minus sign.
**/
private int[] membershipPortRange;
/**
* If "true" then a minimal number of sockets will be used when connecting to the distributed
* system. This conserves resource usage but can cause performance to suffer. If "false" then
* every application thread that sends distribution messages to other members of the distributed
* system will own its own sockets and have exclusive access to them. The length of time a thread
* can have exclusive access to a socket can be configured with "socket-lease-time". Default:
* "true"
**/
private boolean conserveSockets;
/**
* Specifies the application roles that this member performs in the distributed system. This is a
* comma delimited list of user-defined strings. Any number of members can be configured to
* perform the same role, and a member can be configured to perform any number of roles.
*
* @deprecated this feature is scheduled to be removed
**/
private String roles;
/**
* Specifies the maximum number of milliseconds to wait for the distributed system to reconnect in
* case of required role loss. The system will attempt to reconnect more than once, and this
* timeout period applies to each reconnection attempt. Default: "10000"
*
* @deprecated this feature is scheduled to be removed
**/
private int maxWaitTimeForReconnect;
/**
* Specifies the maximum number or times to attempt to reconnect to the distributed system when
* required roles are missing. Default: "3"
**/
private int maxNumReconnectTries;
/**
* The number of milliseconds before a publishing process should attempt to distribute a cache
* operation before switching over to asynchronous messaging for this process. To enable
* asynchronous messaging, the value must be set above zero. If a thread that is publishing to the
* cache exceeds this value when attempting to distribute to this process, it will switch to
* asynchronous messaging until this process catches up, departs, or some specified limit is
* reached, such as async-queue-timeout or async-max-queue-size. Default: "0"
*
* @deprecated this feature is scheduled to be removed
**/
private int asyncDistributionTimeout;
/**
* The number of milliseconds a queuing publisher may enqueue asynchronous messages without any
* distribution to this process before that publisher requests this process to depart. If a
* queuing publisher has not been able to send this process any cache operations prior to the
* timeout, this process will attempt to close its cache and disconnect from the distributed
* system. Default: "60000"
**/
private int asyncQueueTimeout;
/**
* The maximum size in megabytes that a publishing process should be allowed to asynchronously
* enqueue for this process before asking this process to depart from the distributed system.
**/
private int asyncMaxQueueSize;
/**
* This is a client-side property that is passed to the server. Allowable values are "server",
* "true", and "false". With the "server" setting, this client's servers use their own client
* queue conflation settings. With a "true" setting, the servers disregard their own configuration
* and enable conflation of events for all regions for the client. A "false" setting causes the
* client's servers to disable conflation for all regions for the client. Default: "server"
**/
private String clientConflation;
/**
* The id to be used by this durable client. When a durable client connects to a server, this id
* is used by the server to identify it. The server will accumulate updates for a durable client
* while it is disconnected and deliver these events to the client when it reconnects. Default: ""
**/
private String durableClientId;
/**
* The number of seconds a disconnected durable client is kept alive and updates are accumulated
* for it by the server before it is terminated. Default: "300"
**/
private int durableClientTimeout;
/**
* Authentication module name for Clients that requires to act upon credentials read from the
* gemfire.properties file. Module must implement AuthInitialize interface. Default: ""
**/
private String securityClientAuthInit;
private String securityClientAuthenticator;
private String securityClientDHAlgo;
private String securityPeerAuthInit;
private String securityPeerAuthenticator;
private String securityClientAccessor;
private String securityClientAccessorPP;
private int securityLogLevel;
private String securityLogFile;
private int securityPeerMembershipTimeout;
private boolean removeUnresponsiveClient;
/**
* "true" indicates that server propagates delta generated from Delta type of objects. If "false"
* then server propagates full object but not delta. Default: "true"
**/
private boolean deltaPropagation;
/**
* Defines the redundancy zone from this member. If this property is set, partitioned regions will
* not put two redundant copies of data in two members with the same redundancy zone setting.
**/
private String redundancyZone;
/**
* Whether or not partitioned regions will put redundant copies of the same data in different JVMs
* running on the same physical host. By default, partitioned regions will try to put redundancy
* copies on different physical hosts, but it may put them on the same physical host if no other
* hosts are available. Setting this property to true will prevent partitions regions from ever
* putting redundant copies of data on the same physical host.
**/
private boolean enforceUniqueHost;
private boolean jmxManager;
private boolean jmxManagerStart;
private boolean jmxManagerSSL;
private int jmxManagerPort;
private String jmxManagerBindAddress;
private String jmxManagerHostnameForClients;
private String jmxManagerPasswordFile;
private String jmxManagerAccessFile;
private int jmxManagerHttpPort;
private int httpServicePort;
private String httpServiceBindAddress;
private boolean startDevRestApi;
private int jmxManagerUpdateRate;
/**
* @deprecated Geode 1.0 use {@link #clusterSSLEnabled}
*/
@Deprecated
private boolean jmxManagerSSLEnabled;
/**
* @deprecated Geode 1.0 use {@link #clusterSSLProtocols}
*/
@Deprecated
private String jmxManagerSSLProtocols;
/**
* @deprecated Geode 1.0 use {@link #clusterSSLCiphers}
*/
@Deprecated
private String jmxManagerSSLCiphers;
/**
* @deprecated Geode 1.0 use {@link #clusterSSLRequireAuthentication}
*/
@Deprecated
private boolean jmxManagerSSLRequireAuthentication;
/**
* @deprecated Geode 1.0 use {@link #clusterSSLKeyStore}
*/
@Deprecated
private String jmxManagerSSLKeyStore;
/**
* @deprecated Geode 1.0 use {@link #clusterSSLKeyStoreType}
*/
@Deprecated
private String jmxManagerSSLKeyStoreType;
/**
* @deprecated Geode 1.0 use {@link #clusterSSLKeyStorePassword}
*/
@Deprecated
private String jmxManagerSSLKeyStorePassword;
/**
* @deprecated Geode 1.0 use {@link #clusterSSLTrustStore}
*/
@Deprecated
private String jmxManagerSSLTrustStore;
/**
* @deprecated Geode 1.0 use {@link #clusterSSLTrustStorePassword}
*/
@Deprecated
private String jmxManagerSSLTrustStorePassword;
private String jmxSSLAlias;
private boolean clusterSSLEnabled;
private String clusterSSLProtocols;
private String clusterSSLCiphers;
private boolean clusterSSLRequireAuthentication;
private String clusterSSLKeyStore;
private String clusterSSLKeyStoreType;
private String clusterSSLKeyStorePassword;
private String clusterSSLTrustStore;
private String clusterSSLTrustStorePassword;
private String clusterSSLAlias;
/**
* @deprecated Geode 1.0 use {@link #clusterSSLEnabled}
*/
@Deprecated
private boolean serverSSLEnabled;
/**
* @deprecated Geode 1.0 use {@link #clusterSSLProtocols}
*/
@Deprecated
private String serverSSLProtocols;
/**
* @deprecated Geode 1.0 use {@link #clusterSSLCiphers}
*/
@Deprecated
private String serverSSLCiphers;
/**
* @deprecated Geode 1.0 use {@link #clusterSSLRequireAuthentication}
*/
@Deprecated
private boolean serverSSLRequireAuthentication;
/**
* @deprecated Geode 1.0 use {@link #clusterSSLKeyStore}
*/
@Deprecated
private String serverSSLKeyStore;
/**
* @deprecated Geode 1.0 use {@link #clusterSSLKeyStoreType}
*/
@Deprecated
private String serverSSLKeyStoreType;
/**
* @deprecated Geode 1.0 use {@link #clusterSSLKeyStorePassword}
*/
@Deprecated
private String serverSSLKeyStorePassword;
/**
* @deprecated Geode 1.0 use {@link #clusterSSLTrustStore}
*/
@Deprecated
private String serverSSLTrustStore;
/**
* @deprecated Geode 1.0 use {@link #clusterSSLTrustStorePassword}
*/
@Deprecated
private String serverSSLTrustStorePassword;
private String serverSSLAlias;
/**
* @deprecated Geode 1.0 use {@link #clusterSSLEnabled}
*/
@Deprecated
private boolean gatewaySSLEnabled;
/**
* @deprecated Geode 1.0 use {@link #clusterSSLProtocols}
*/
@Deprecated
private String gatewaySSLProtocols;
/**
* @deprecated Geode 1.0 use {@link #clusterSSLCiphers}
*/
@Deprecated
private String gatewaySSLCiphers;
/**
* @deprecated Geode 1.0 use {@link #clusterSSLRequireAuthentication}
*/
@Deprecated
private boolean gatewaySSLRequireAuthentication;
/**
* @deprecated Geode 1.0 use {@link #clusterSSLKeyStore}
*/
@Deprecated
private String gatewaySSLKeyStore;
/**
* @deprecated Geode 1.0 use {@link #clusterSSLKeyStoreType}
*/
@Deprecated
private String gatewaySSLKeyStoreType;
/**
* @deprecated Geode 1.0 use {@link #clusterSSLKeyStorePassword}
*/
@Deprecated
private String gatewaySSLKeyStorePassword;
/**
* @deprecated Geode 1.0 use {@link #clusterSSLTrustStore}
*/
@Deprecated
private String gatewaySSLTrustStore;
/**
* @deprecated Geode 1.0 use {@link #clusterSSLTrustStorePassword}
*/
@Deprecated
private String gatewaySSLTrustStorePassword;
private String gatewaySSLAlias;
/**
* @deprecated Geode 1.0 use {@link #clusterSSLEnabled}
*/
@Deprecated
private boolean httpServiceSSLEnabled;
/**
* @deprecated Geode 1.0 use {@link #clusterSSLRequireAuthentication}
*/
@Deprecated
private boolean httpServiceSSLRequireAuthentication;
/**
* @deprecated Geode 1.0 use {@link #clusterSSLProtocols}
*/
@Deprecated
private String httpServiceSSLProtocols;
/**
* @deprecated Geode 1.0 use {@link #clusterSSLCiphers}
*/
@Deprecated
private String httpServiceSSLCiphers;
/**
* @deprecated Geode 1.0 use {@link #clusterSSLKeyStore}
*/
@Deprecated
private String httpServiceSSLKeyStore;
/**
* @deprecated Geode 1.0 use {@link #clusterSSLKeyStoreType}
*/
@Deprecated
private String httpServiceSSLKeyStoreType;
/**
* @deprecated Geode 1.0 use {@link #clusterSSLKeyStorePassword}
*/
@Deprecated
private String httpServiceSSLKeyStorePassword;
/**
* @deprecated Geode 1.0 use {@link #clusterSSLTrustStore}
*/
@Deprecated
private String httpServiceSSLTrustStore;
/**
* @deprecated Geode 1.0 use {@link #clusterSSLTrustStorePassword}
*/
@Deprecated
private String httpServiceSSLTrustStorePassword;
private String httpServiceSSLAlias;
/**
* Specifies whether the default transaction mode should be distributed.
*/
private boolean distributedTransactions;
private String locatorSSLAlias;
private SecurableCommunicationChannel[] securableCommunicationChannels;
private String sslProtocols;
private String sslCiphers;
private boolean sslRequireAuthentication;
private String sslKeyStore;
private String sslKeyStoreType;
private String sslKeyStorePassword;
private String sslTrustStore;
private String sslTrustStorePassword;
private boolean sslWebServiceRequireAuthentication;
private String sslDefaultAlias;
/**
* This constructor is to be used by internal JMX framework only. User should not try to create an
* instance of this class.
*/
public GemFireProperties() {
}
// Getters Starts ************************************//
public String getMemberName() {
return memberName;
}
public String getMemberGroups() {
return memberGroups;
}
public int getMcastPort() {
return mcastPort;
}
public String getMcastAddress() {
return mcastAddress;
}
public String getBindAddress() {
return bindAddress;
}
public int getTcpPort() {
return tcpPort;
}
public String getCacheXMLFile() {
return cacheXMLFile;
}
public String getConfigFile() {
return configFile;
}
public int getMcastTTL() {
return mcastTTL;
}
public String getServerBindAddress() {
return serverBindAddress;
}
public String getLocators() {
return locators;
}
public String getStartLocator() {
return startLocator;
}
public String getLogFile() {
return logFile;
}
public int getLogLevel() {
return logLevel;
}
public boolean isStatisticSamplingEnabled() {
return statisticSamplingEnabled;
}
public String getStatisticArchiveFile() {
return statisticArchiveFile;
}
public String getIncludeFile() {
return includeFile;
}
public int getAckWaitThreshold() {
return ackWaitThreshold;
}
public int getAckSevereAlertThreshold() {
return ackSevereAlertThreshold;
}
public int getArchiveFileSizeLimit() {
return archiveFileSizeLimit;
}
public int getArchiveDiskSpaceLimit() {
return archiveDiskSpaceLimit;
}
public int getLogFileSizeLimit() {
return logFileSizeLimit;
}
public int getLogDiskSpaceLimit() {
return logDiskSpaceLimit;
}
public int getSocketLeaseTime() {
return socketLeaseTime;
}
public int getSocketBufferSize() {
return socketBufferSize;
}
public int getMcastSendBufferSize() {
return mcastSendBufferSize;
}
public int getMcastRecvBufferSize() {
return mcastRecvBufferSize;
}
public int getMcastByteAllowance() {
return mcastByteAllowance;
}
public float getMcastRechargeThreshold() {
return mcastRechargeThreshold;
}
public int getMcastRechargeBlockMs() {
return mcastRechargeBlockMs;
}
public int getUdpFragmentSize() {
return udpFragmentSize;
}
public int getUdpSendBufferSize() {
return udpSendBufferSize;
}
public int getUdpRecvBufferSize() {
return udpRecvBufferSize;
}
public boolean isDisableTcp() {
return disableTcp;
}
public boolean isEnableTimeStatistics() {
return enableTimeStatistics;
}
public boolean isEnableNetworkPartitionDetection() {
return enableNetworkPartitionDetection;
}
public int getDepartureCorrelationWindow() {
return departureCorrelationWindow;
}
public int getMemberTimeout() {
return memberTimeout;
}
public int[] getMembershipPortRange() {
return membershipPortRange;
}
public boolean isConserveSockets() {
return conserveSockets;
}
public String getRoles() {
return roles;
}
public int getMaxWaitTimeForReconnect() {
return maxWaitTimeForReconnect;
}
public int getMaxNumReconnectTries() {
return maxNumReconnectTries;
}
public int getAsyncDistributionTimeout() {
return asyncDistributionTimeout;
}
public int getAsyncQueueTimeout() {
return asyncQueueTimeout;
}
public int getAsyncMaxQueueSize() {
return asyncMaxQueueSize;
}
public String getClientConflation() {
return clientConflation;
}
public String getDurableClientId() {
return durableClientId;
}
public int getDurableClientTimeout() {
return durableClientTimeout;
}
public String getSecurityClientAuthInit() {
return securityClientAuthInit;
}
public String getSecurityClientAuthenticator() {
return securityClientAuthenticator;
}
public String getSecurityClientDHAlgo() {
return securityClientDHAlgo;
}
public String getSecurityPeerAuthInit() {
return securityPeerAuthInit;
}
public String getSecurityPeerAuthenticator() {
return securityPeerAuthenticator;
}
public String getSecurityClientAccessor() {
return securityClientAccessor;
}
public String getSecurityClientAccessorPP() {
return securityClientAccessorPP;
}
public int getSecurityLogLevel() {
return securityLogLevel;
}
public String getSecurityLogFile() {
return securityLogFile;
}
public int getSecurityPeerMembershipTimeout() {
return securityPeerMembershipTimeout;
}
public boolean isRemoveUnresponsiveClient() {
return removeUnresponsiveClient;
}
public boolean isDeltaPropagation() {
return deltaPropagation;
}
public String getRedundancyZone() {
return redundancyZone;
}
public boolean isEnforceUniqueHost() {
return enforceUniqueHost;
}
public int getStatisticSampleRate() {
return statisticSampleRate;
}
public void setMemberName(String memberName) {
this.memberName = memberName;
}
public void setMemberGroups(String memberGroups) {
this.memberGroups = memberGroups;
}
public void setMcastPort(int mcastPort) {
this.mcastPort = mcastPort;
}
public void setMcastAddress(String mcastAddress) {
this.mcastAddress = mcastAddress;
}
public void setBindAddress(String bindAddress) {
this.bindAddress = bindAddress;
}
public void setTcpPort(int tcpPort) {
this.tcpPort = tcpPort;
}
public void setCacheXMLFile(String cacheXMLFile) {
this.cacheXMLFile = cacheXMLFile;
}
public void setConfigFile(String configFile) {
this.configFile = configFile;
}
public void setMcastTTL(int mcastTTL) {
this.mcastTTL = mcastTTL;
}
public void setServerBindAddress(String serverBindAddress) {
this.serverBindAddress = serverBindAddress;
}
public void setLocators(String locators) {
this.locators = locators;
}
public void setStartLocator(String startLocator) {
this.startLocator = startLocator;
}
public void setLogFile(String logFile) {
this.logFile = logFile;
}
public void setLogLevel(int logLevel) {
this.logLevel = logLevel;
}
public void setStatisticSamplingEnabled(boolean statisticSamplingEnabled) {
this.statisticSamplingEnabled = statisticSamplingEnabled;
}
public void setStatisticArchiveFile(String statisticArchiveFile) {
this.statisticArchiveFile = statisticArchiveFile;
}
public void setIncludeFile(String includeFile) {
this.includeFile = includeFile;
}
public void setAckWaitThreshold(int ackWaitThreshold) {
this.ackWaitThreshold = ackWaitThreshold;
}
public void setAckSevereAlertThreshold(int ackSevereAlertThreshold) {
this.ackSevereAlertThreshold = ackSevereAlertThreshold;
}
public void setArchiveFileSizeLimit(int archiveFileSizeLimit) {
this.archiveFileSizeLimit = archiveFileSizeLimit;
}
public void setArchiveDiskSpaceLimit(int archiveDiskSpaceLimit) {
this.archiveDiskSpaceLimit = archiveDiskSpaceLimit;
}
public void setLogFileSizeLimit(int logFileSizeLimit) {
this.logFileSizeLimit = logFileSizeLimit;
}
public void setLogDiskSpaceLimit(int logDiskSpaceLimit) {
this.logDiskSpaceLimit = logDiskSpaceLimit;
}
// public void setSSLEnabled(boolean sslEnabled) {
// this.sslEnabled = sslEnabled;
//
// }
//
// public void setSSLCiphers(String sslCiphers) {
// this.sslCiphers = sslCiphers;
//
// }
//
// public void setSSLProtocols(String sslProtocols) {
// this.sslProtocols = sslProtocols;
//
// }
//
// public void setSSLRequireAuthentication(boolean sslRequireAuthentication) {
// this.sslRequireAuthentication = sslRequireAuthentication;
//
// }
public void setSocketLeaseTime(int socketLeaseTime) {
this.socketLeaseTime = socketLeaseTime;
}
public void setSocketBufferSize(int socketBufferSize) {
this.socketBufferSize = socketBufferSize;
}
public void setMcastSendBufferSize(int mcastSendBufferSize) {
this.mcastSendBufferSize = mcastSendBufferSize;
}
public void setMcastRecvBufferSize(int mcastRecvBufferSize) {
this.mcastRecvBufferSize = mcastRecvBufferSize;
}
public void setMcastByteAllowance(int mcastByteAllowance) {
this.mcastByteAllowance = mcastByteAllowance;
}
public void setMcastRechargeThreshold(float mcastRechargeThreshold) {
this.mcastRechargeThreshold = mcastRechargeThreshold;
}
public void setMcastRechargeBlockMs(int mcastRechargeBlockMs) {
this.mcastRechargeBlockMs = mcastRechargeBlockMs;
}
public void setUdpFragmentSize(int udpFragmentSize) {
this.udpFragmentSize = udpFragmentSize;
}
public void setUdpSendBufferSize(int udpSendBufferSize) {
this.udpSendBufferSize = udpSendBufferSize;
}
public void setUdpRecvBufferSize(int udpRecvBufferSize) {
this.udpRecvBufferSize = udpRecvBufferSize;
}
public void setDisableTcp(boolean disableTcp) {
this.disableTcp = disableTcp;
}
public void setEnableTimeStatistics(boolean enableTimeStatistics) {
this.enableTimeStatistics = enableTimeStatistics;
}
public void setEnableNetworkPartitionDetection(boolean enableNetworkPartitionDetection) {
this.enableNetworkPartitionDetection = enableNetworkPartitionDetection;
}
public void setDepartureCorrelationWindow(int departureCorrelationWindow) {
this.departureCorrelationWindow = departureCorrelationWindow;
}
public void setMemberTimeout(int memberTimeout) {
this.memberTimeout = memberTimeout;
}
public void setMembershipPortRange(int[] membershipPortRange) {
this.membershipPortRange = membershipPortRange;
}
public void setConserveSockets(boolean conserveSockets) {
this.conserveSockets = conserveSockets;
}
public void setRoles(String roles) {
this.roles = roles;
}
public void setMaxWaitTimeForReconnect(int maxWaitTimeForReconnect) {
this.maxWaitTimeForReconnect = maxWaitTimeForReconnect;
}
public void setMaxNumReconnectTries(int maxNumReconnectTries) {
this.maxNumReconnectTries = maxNumReconnectTries;
}
public void setAsyncDistributionTimeout(int asyncDistributionTimeout) {
this.asyncDistributionTimeout = asyncDistributionTimeout;
}
public void setAsyncQueueTimeout(int asyncQueueTimeout) {
this.asyncQueueTimeout = asyncQueueTimeout;
}
public void setAsyncMaxQueueSize(int asyncMaxQueueSize) {
this.asyncMaxQueueSize = asyncMaxQueueSize;
}
public void setClientConflation(String clientConflation) {
this.clientConflation = clientConflation;
}
public void setDurableClientId(String durableClientId) {
this.durableClientId = durableClientId;
}
public void setDurableClientTimeout(int durableClientTimeout) {
this.durableClientTimeout = durableClientTimeout;
}
public void setSecurityClientAuthInit(String securityClientAuthInit) {
this.securityClientAuthInit = securityClientAuthInit;
}
public void setSecurityClientAuthenticator(String securityClientAuthenticator) {
this.securityClientAuthenticator = securityClientAuthenticator;
}
public void setSecurityClientDHAlgo(String securityClientDHAlgo) {
this.securityClientDHAlgo = securityClientDHAlgo;
}
public void setSecurityPeerAuthInit(String securityPeerAuthInit) {
this.securityPeerAuthInit = securityPeerAuthInit;
}
public void setSecurityPeerAuthenticator(String securityPeerAuthenticator) {
this.securityPeerAuthenticator = securityPeerAuthenticator;
}
public void setSecurityClientAccessor(String securityClientAccessor) {
this.securityClientAccessor = securityClientAccessor;
}
public void setSecurityClientAccessorPP(String securityClientAccessorPP) {
this.securityClientAccessorPP = securityClientAccessorPP;
}
public void setSecurityLogLevel(int securityLogLevel) {
this.securityLogLevel = securityLogLevel;
}
public void setSecurityLogFile(String securityLogFile) {
this.securityLogFile = securityLogFile;
}
public void setSecurityPeerMembershipTimeout(int securityPeerMembershipTimeout) {
this.securityPeerMembershipTimeout = securityPeerMembershipTimeout;
}
public void setRemoveUnresponsiveClient(boolean removeUnresponsiveClient) {
this.removeUnresponsiveClient = removeUnresponsiveClient;
}
public void setDeltaPropagation(boolean deltaPropagation) {
this.deltaPropagation = deltaPropagation;
}
public void setRedundancyZone(String redundancyZone) {
this.redundancyZone = redundancyZone;
}
public void setEnforceUniqueHost(boolean enforceUniqueHost) {
this.enforceUniqueHost = enforceUniqueHost;
}
public void setStatisticSampleRate(int statisticSampleRate) {
this.statisticSampleRate = statisticSampleRate;
}
public boolean isJmxManager() {
return jmxManager;
}
public void setJmxManager(boolean jmxManager) {
this.jmxManager = jmxManager;
}
public boolean isJmxManagerStart() {
return jmxManagerStart;
}
public void setJmxManagerStart(boolean jmxManagerStart) {
this.jmxManagerStart = jmxManagerStart;
}
public boolean isJmxManagerSSL() {
return jmxManagerSSL;
}
public void setJmxManagerSSL(boolean jmxManagerSSL) {
this.jmxManagerSSL = jmxManagerSSL;
}
public int getJmxManagerPort() {
return jmxManagerPort;
}
public void setJmxManagerPort(int jmxManagerPort) {
this.jmxManagerPort = jmxManagerPort;
}
public String getJmxManagerBindAddress() {
return jmxManagerBindAddress;
}
public void setJmxManagerBindAddress(String jmxManagerBindAddress) {
this.jmxManagerBindAddress = jmxManagerBindAddress;
}
public String getJmxManagerHostnameForClients() {
return jmxManagerHostnameForClients;
}
public void setJmxManagerHostnameForClients(String jmxManagerHostnameForClients) {
this.jmxManagerHostnameForClients = jmxManagerHostnameForClients;
}
public String getJmxManagerPasswordFile() {
return jmxManagerPasswordFile;
}
public void setJmxManagerPasswordFile(String jmxManagerPasswordFile) {
this.jmxManagerPasswordFile = jmxManagerPasswordFile;
}
public String getJmxManagerAccessFile() {
return jmxManagerAccessFile;
}
public void setJmxManagerAccessFile(String jmxManagerAccessFile) {
this.jmxManagerAccessFile = jmxManagerAccessFile;
}
public int getJmxManagerHttpPort() {
return getHttpServicePort();
}
public void setJmxManagerHttpPort(int jmxManagerHttpPort) {
// this.jmxManagerHttpPort = jmxManagerHttpPort;
setHttpServicePort(jmxManagerHttpPort);
}
public int getHttpServicePort() {
return httpServicePort;
}
public void setHttpServicePort(int httpServicePort) {
this.httpServicePort = httpServicePort;
}
public String getHttpServiceBindAddress() {
return httpServiceBindAddress;
}
public void setHttpServiceBindAddress(String httpServiceBindAddress) {
this.httpServiceBindAddress = httpServiceBindAddress;
}
public boolean getStartDevRestApi() {
return startDevRestApi;
}
public void setStartDevRestApi(boolean startDevRestApi) {
this.startDevRestApi = startDevRestApi;
}
public int getJmxManagerUpdateRate() {
return jmxManagerUpdateRate;
}
public void setJmxManagerUpdateRate(int jmxManagerUpdateRate) {
this.jmxManagerUpdateRate = jmxManagerUpdateRate;
}
public boolean isJmxManagerSSLEnabled() {
return jmxManagerSSLEnabled;
}
public void setJmxManagerSSLEnabled(boolean jmxManagerSSLEnabled) {
this.jmxManagerSSLEnabled = jmxManagerSSLEnabled;
}
public String getJmxManagerSSLProtocols() {
return jmxManagerSSLProtocols;
}
public void setJmxManagerSSLProtocols(String jmxManagerSSLProtocols) {
this.jmxManagerSSLProtocols = jmxManagerSSLProtocols;
}
public String getJmxManagerSSLCiphers() {
return jmxManagerSSLCiphers;
}
public void setJmxManagerSSLCiphers(String jmxManagerSSLCiphers) {
this.jmxManagerSSLCiphers = jmxManagerSSLCiphers;
}
public boolean isJmxManagerSSLRequireAuthentication() {
return jmxManagerSSLRequireAuthentication;
}
public void setJmxManagerSSLRequireAuthentication(boolean jmxManagerSSLRequireAuthentication) {
this.jmxManagerSSLRequireAuthentication = jmxManagerSSLRequireAuthentication;
}
public String getJmxManagerSSLKeyStore() {
return jmxManagerSSLKeyStore;
}
public void setJmxManagerSSLKeyStore(String jmxManagerSSLKeyStore) {
this.jmxManagerSSLKeyStore = jmxManagerSSLKeyStore;
}
public String getJmxManagerSSLKeyStoreType() {
return jmxManagerSSLKeyStoreType;
}
public void setJmxManagerSSLKeyStoreType(String jmxManagerSSLKeyStoreType) {
this.jmxManagerSSLKeyStoreType = jmxManagerSSLKeyStoreType;
}
public String getJmxManagerSSLKeyStorePassword() {
return jmxManagerSSLKeyStorePassword;
}
public void setJmxManagerSSLKeyStorePassword(String jmxManagerSSLKeyStorePassword) {
this.jmxManagerSSLKeyStorePassword = jmxManagerSSLKeyStorePassword;
}
public String getJmxManagerSSLTrustStore() {
return jmxManagerSSLTrustStore;
}
public void setJmxManagerSSLTrustStore(String jmxManagerSSLTrustStore) {
this.jmxManagerSSLTrustStore = jmxManagerSSLTrustStore;
}
public String getJmxManagerSSLTrustStorePassword() {
return jmxManagerSSLTrustStorePassword;
}
public void setJmxManagerSSLTrustStorePassword(String jmxManagerSSLTrustStorePassword) {
this.jmxManagerSSLTrustStorePassword = jmxManagerSSLTrustStorePassword;
}
public boolean isClusterSSLEnabled() {
return clusterSSLEnabled;
}
public void setClusterSSLEnabled(boolean clusterSSLEnabled) {
this.clusterSSLEnabled = clusterSSLEnabled;
}
public String getClusterSSLProtocols() {
return clusterSSLProtocols;
}
public void setClusterSSLProtocols(String clusterSSLProtocols) {
this.clusterSSLProtocols = clusterSSLProtocols;
}
public String getClusterSSLCiphers() {
return clusterSSLCiphers;
}
public void setClusterSSLCiphers(String clusterSSLCiphers) {
this.clusterSSLCiphers = clusterSSLCiphers;
}
public boolean isClusterSSLRequireAuthentication() {
return clusterSSLRequireAuthentication;
}
public void setClusterSSLRequireAuthentication(boolean clusterSSLRequireAuthentication) {
this.clusterSSLRequireAuthentication = clusterSSLRequireAuthentication;
}
public String getClusterSSLKeyStore() {
return clusterSSLKeyStore;
}
public void setClusterSSLKeyStore(String clusterSSLKeyStore) {
this.clusterSSLKeyStore = clusterSSLKeyStore;
}
public String getClusterSSLKeyStoreType() {
return clusterSSLKeyStoreType;
}
public void setClusterSSLKeyStoreType(String clusterSSLKeyStoreType) {
this.clusterSSLKeyStoreType = clusterSSLKeyStoreType;
}
public String getClusterSSLKeyStorePassword() {
return clusterSSLKeyStorePassword;
}
public void setClusterSSLKeyStorePassword(String clusterSSLKeyStorePassword) {
this.clusterSSLKeyStorePassword = clusterSSLKeyStorePassword;
}
public String getClusterSSLTrustStore() {
return clusterSSLTrustStore;
}
public void setClusterSSLTrustStore(String clusterSSLTrustStore) {
this.clusterSSLTrustStore = clusterSSLTrustStore;
}
public String getClusterSSLTrustStorePassword() {
return clusterSSLTrustStorePassword;
}
public void setClusterSSLTrustStorePassword(String clusterSSLTrustStorePassword) {
this.clusterSSLTrustStorePassword = clusterSSLTrustStorePassword;
}
public boolean isServerSSLEnabled() {
return serverSSLEnabled;
}
public void setServerSSLEnabled(boolean serverSSLEnabled) {
this.serverSSLEnabled = serverSSLEnabled;
}
public String getServerSSLProtocols() {
return serverSSLProtocols;
}
public void setServerSSLProtocols(String serverSSLProtocols) {
this.serverSSLProtocols = serverSSLProtocols;
}
public String getServerSSLCiphers() {
return serverSSLCiphers;
}
public void setServerSSLCiphers(String serverSSLCiphers) {
this.serverSSLCiphers = serverSSLCiphers;
}
public boolean isServerSSLRequireAuthentication() {
return serverSSLRequireAuthentication;
}
public void setServerSSLRequireAuthentication(boolean serverSSLRequireAuthentication) {
this.serverSSLRequireAuthentication = serverSSLRequireAuthentication;
}
public String getServerSSLKeyStore() {
return serverSSLKeyStore;
}
public void setServerSSLKeyStore(String serverSSLKeyStore) {
this.serverSSLKeyStore = serverSSLKeyStore;
}
public String getServerSSLKeyStoreType() {
return serverSSLKeyStoreType;
}
public void setServerSSLKeyStoreType(String serverSSLKeyStoreType) {
this.serverSSLKeyStoreType = serverSSLKeyStoreType;
}
public String getServerSSLKeyStorePassword() {
return serverSSLKeyStorePassword;
}
public void setServerSSLKeyStorePassword(String serverSSLKeyStorePassword) {
this.serverSSLKeyStorePassword = serverSSLKeyStorePassword;
}
public String getServerSSLTrustStore() {
return serverSSLTrustStore;
}
public void setServerSSLTrustStore(String serverSSLTrustStore) {
this.serverSSLTrustStore = serverSSLTrustStore;
}
public String getServerSSLTrustStorePassword() {
return serverSSLTrustStorePassword;
}
public void setServerSSLTrustStorePassword(String serverSSLTrustStorePassword) {
this.serverSSLTrustStorePassword = serverSSLTrustStorePassword;
}
public boolean isGatewaySSLEnabled() {
return gatewaySSLEnabled;
}
public void setGatewaySSLEnabled(boolean gatewaySSLEnabled) {
this.gatewaySSLEnabled = gatewaySSLEnabled;
}
public String getGatewaySSLProtocols() {
return gatewaySSLProtocols;
}
public void setGatewaySSLProtocols(String gatewaySSLProtocols) {
this.gatewaySSLProtocols = gatewaySSLProtocols;
}
public String getGatewaySSLCiphers() {
return gatewaySSLCiphers;
}
public void setGatewaySSLCiphers(String gatewaySSLCiphers) {
this.gatewaySSLCiphers = gatewaySSLCiphers;
}
public boolean isGatewaySSLRequireAuthentication() {
return gatewaySSLRequireAuthentication;
}
public void setGatewaySSLRequireAuthentication(boolean gatewaySSLRequireAuthentication) {
this.gatewaySSLRequireAuthentication = gatewaySSLRequireAuthentication;
}
public String getGatewaySSLKeyStore() {
return gatewaySSLKeyStore;
}
public void setGatewaySSLKeyStore(String gatewaySSLKeyStore) {
this.gatewaySSLKeyStore = gatewaySSLKeyStore;
}
public String getGatewaySSLKeyStoreType() {
return gatewaySSLKeyStoreType;
}
public void setGatewaySSLKeyStoreType(String gatewaySSLKeyStoreType) {
this.gatewaySSLKeyStoreType = gatewaySSLKeyStoreType;
}
public String getGatewaySSLKeyStorePassword() {
return gatewaySSLKeyStorePassword;
}
public void setGatewaySSLKeyStorePassword(String gatewaySSLKeyStorePassword) {
this.gatewaySSLKeyStorePassword = gatewaySSLKeyStorePassword;
}
public String getGatewaySSLTrustStore() {
return gatewaySSLTrustStore;
}
public void setGatewaySSLTrustStore(String gatewaySSLTrustStore) {
this.gatewaySSLTrustStore = gatewaySSLTrustStore;
}
public String getGatewaySSLTrustStorePassword() {
return gatewaySSLTrustStorePassword;
}
public void setGatewaySSLTrustStorePassword(String gatewaySSLTrustStorePassword) {
this.gatewaySSLTrustStorePassword = gatewaySSLTrustStorePassword;
}
public boolean isHttpServiceSSLEnabled() {
return httpServiceSSLEnabled;
}
public void setHttpServiceSSLEnabled(boolean httpServiceSSLEnabled) {
this.httpServiceSSLEnabled = httpServiceSSLEnabled;
}
public boolean isHttpServiceSSLRequireAuthentication() {
return httpServiceSSLRequireAuthentication;
}
public void setHttpServiceSSLRequireAuthentication(boolean httpServiceSSLRequireAuthentication) {
this.httpServiceSSLRequireAuthentication = httpServiceSSLRequireAuthentication;
}
public String getHttpServiceSSLProtocols() {
return httpServiceSSLProtocols;
}
public void setHttpServiceSSLProtocols(String httpServiceSSLProtocols) {
this.httpServiceSSLProtocols = httpServiceSSLProtocols;
}
public String getHttpServiceSSLCiphers() {
return httpServiceSSLCiphers;
}
public void setHttpServiceSSLCiphers(String httpServiceSSLCiphers) {
this.httpServiceSSLCiphers = httpServiceSSLCiphers;
}
public String getHttpServiceSSLKeyStore() {
return httpServiceSSLKeyStore;
}
public void setHttpServiceSSLKeyStore(String httpServiceSSLKeyStore) {
this.httpServiceSSLKeyStore = httpServiceSSLKeyStore;
}
public String getHttpServiceSSLKeyStoreType() {
return httpServiceSSLKeyStoreType;
}
public void setHttpServiceSSLKeyStoreType(String httpServiceSSLKeyStoreType) {
this.httpServiceSSLKeyStoreType = httpServiceSSLKeyStoreType;
}
public String getHttpServiceSSLKeyStorePassword() {
return httpServiceSSLKeyStorePassword;
}
public void setHttpServiceSSLKeyStorePassword(String httpServiceSSLKeyStorePassword) {
this.httpServiceSSLKeyStorePassword = httpServiceSSLKeyStorePassword;
}
public String getHttpServiceSSLTrustStore() {
return httpServiceSSLTrustStore;
}
public void setHttpServiceSSLTrustStore(String httpServiceSSLTrustStore) {
this.httpServiceSSLTrustStore = httpServiceSSLTrustStore;
}
public String getHttpServiceSSLTrustStorePassword() {
return httpServiceSSLTrustStorePassword;
}
public void setHttpServiceSSLTrustStorePassword(String httpServiceSSLTrustStorePassword) {
this.httpServiceSSLTrustStorePassword = httpServiceSSLTrustStorePassword;
}
public void setDistributedTransactions(boolean value) {
this.distributedTransactions = value;
}
public boolean getDistributedTransactions() {
return this.distributedTransactions;
}
public String getJmxSSLAlias() {
return jmxSSLAlias;
}
public void setJmxSSLAlias(final String jmxSSLAlias) {
this.jmxSSLAlias = jmxSSLAlias;
}
public String getClusterSSLAlias() {
return clusterSSLAlias;
}
public void setClusterSSLAlias(final String clusterSSLAlias) {
this.clusterSSLAlias = clusterSSLAlias;
}
public String getServerSSLAlias() {
return serverSSLAlias;
}
public void setServerSSLAlias(final String serverSSLAlias) {
this.serverSSLAlias = serverSSLAlias;
}
public String getGatewaySSLAlias() {
return gatewaySSLAlias;
}
public void setGatewaySSLAlias(final String gatewaySSLAlias) {
this.gatewaySSLAlias = gatewaySSLAlias;
}
public String getHttpServiceSSLAlias() {
return httpServiceSSLAlias;
}
public void setHttpServiceSSLAlias(final String httpServiceSSLAlias) {
this.httpServiceSSLAlias = httpServiceSSLAlias;
}
public String getLocatorSSLAlias() {
return locatorSSLAlias;
}
public void setLocatorSSLAlias(final String locatorSSLAlias) {
this.locatorSSLAlias = locatorSSLAlias;
}
public SecurableCommunicationChannel[] getSecurableCommunicationChannel() {
return securableCommunicationChannels;
}
public void setSecurableCommunicationChannel(
final SecurableCommunicationChannel[] sslEnabledComponents) {
this.securableCommunicationChannels = sslEnabledComponents;
}
public String getSSLProtocols() {
return sslProtocols;
}
public void setSSLProtocols(final String sslProtocols) {
this.sslProtocols = sslProtocols;
}
public String getSSLCiphers() {
return sslCiphers;
}
public void setSSLCiphers(final String sslCiphers) {
this.sslCiphers = sslCiphers;
}
public boolean isSSLRequireAuthentication() {
return sslRequireAuthentication;
}
public void setSSLRequireAuthentication(final boolean sslRequireAuthentication) {
this.sslRequireAuthentication = sslRequireAuthentication;
}
public String getSSLKeyStore() {
return sslKeyStore;
}
public void setSSLKeyStore(final String sslKeyStore) {
this.sslKeyStore = sslKeyStore;
}
public String getSSLKeyStoreType() {
return sslKeyStoreType;
}
public void setSSLKeyStoreType(final String sslKeyStoreType) {
this.sslKeyStoreType = sslKeyStoreType;
}
public String getSSLKeyStorePassword() {
return sslKeyStorePassword;
}
public void setSSLKeyStorePassword(final String sslKeyStorePassword) {
this.sslKeyStorePassword = sslKeyStorePassword;
}
public String getSSLTrustStore() {
return sslTrustStore;
}
public void setSSLTrustStore(final String sslTrustStore) {
this.sslTrustStore = sslTrustStore;
}
public String getSSLTrustStorePassword() {
return sslTrustStorePassword;
}
public void setSSLTrustStorePassword(final String sslTrustStorePassword) {
this.sslTrustStorePassword = sslTrustStorePassword;
}
public boolean getSSLWebServiceRequireAuthentication() {
return sslWebServiceRequireAuthentication;
}
public void setSSLWebServiceRequireAuthentication(
final boolean sslWebServiceRequireAuthentication) {
this.sslWebServiceRequireAuthentication = sslWebServiceRequireAuthentication;
}
public String getSSLDefaultAlias() {
return sslDefaultAlias;
}
public void setSSLDefaultAlias(final String sslDefaultAlias) {
this.sslDefaultAlias = sslDefaultAlias;
}
}