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# Copyright (c) 2008-2020, Hazelcast, Inc. All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.

# This is a full example hazelcast.yaml that includes all the
# configuration elements and attributes of a Hazelcast member.
#
# To use this, rename it to hazelcast.yaml and place it in
# the directory where you start your Hazelcast member.
#
# To learn how to configure Hazelcast, please see the Reference Manual
# at https://hazelcast.org/documentation/

hazelcast:

  # You can use import to load different Hazelcast declarative configuration files you prepared.
  # You can import as many YAML files as you want and hence compose your Hazelcast configuration
  # out of those YAML files. If you want to use import, it should be placed at the top of your
  # Hazelcast YAML file right after the "hazelcast" root node.
  #
  # Below is an example where the configuration files you want to include are located at your
  # Hazelcast working directory:
  #   import:
  #     - your-configuration-file.yaml
  #
  # Below are examples showing a classpath or filesystem location:
  #   import:
  #     - file:///etc/hazelcast/your-configuration-file-1.yaml
  #     - classpath:your-configuration-file-2.yaml
  #
  # Below is an example showing property placeholders:
  #   import:
  #     - ${environment}-your-configuration-file.yaml
  #
  import:
    - your-configuration-YAML-file

  # The "config-replacers" allow to use variables (placeholders) within the configuration file and use an external
  # class to retrieve correct values (replacements).
  #
  # It can be used for masking sensitive strings such as passwords for instance.
  #
  # Format of a variable is:
  # $ PREFIX { STRING_TO_BE_REPLACED }      e.g. $ENC{nnPgTqJCcCQ=:23000:B4y/nlp6M0t3q6YiKImW+w==}
  #
  # The PREFIX value depends on the replacer implementation (e.g. "ENC" is used for the EncryptionReplacer)
  # The STRING_TO_BE_REPLACED is the value which is provided to replacer implementation.
  #
  config-replacers:
    fail-if-value-missing: false
    replacers:
      - class-name: com.hazelcast.config.replacer.EncryptionReplacer
        properties:
          passwordFile: password.txt
          passwordUserProperties: false
          cipherAlgorithm: DES
          keyLengthBits: 64
          secretKeyAlgorithm: DES
          secretKeyFactoryAlgorithm: PBKDF2WithHmacSHA1
  #
  # Specifies the cluster name. It allows creating separate sub-clusters with different names.
  #  name is also referenced in the WAN Replication configuration.
  cluster-name: my-cluster
  #
  # ===== HAZELCAST LICENSE CONFIGURATION =====
  #
  # If you have an Enterprise or Enterprise HD license, you can enter it here.
  # You can also set your license key programmatically; please refer to
  # http://docs.hazelcast.org/docs/latest/manual/html-single/index.html#setting-the-license-key
  #
  license-key: Your Hazelcast Enterprise or Enterprise HD License Key
  #
  # When Hazelcast instances are created, they are put in a global registry with their creation names.
  # "instance-name" gives you the ability to get a specific Hazelcast instance from this registry
  # by giving the instance's name.
  #
  instance-name: hzInstance1
  #
  # ===== HAZELCAST MANAGEMENT CENTER CONFIGURATION =====
  #
  # The element "management-center" has the following optional attributes:
  # * scripting-enabled:
  # Set to true to allow scripting on the member, false to disallow.
  # Default value is false.
  #
  # Hazelcast's Open Source edition provides the Management Center with monitoring at most 3 members
  # in your cluster. To use it for more members, you need to have either a Management Center,
  # Hazelcast Enterprise or Hazelcast Enterprise HD license.
  #
  management-center:
    scripting-enabled: false
  #
  # The "properties" mapping lets you add properties to some of the Hazelcast elements used to configure some of
  # the Hazelcast modules.
  # You can define the name and value of these properties.
  # You can use "properties" for the following Hazelcast configuration elements:
  # * discovery-strategy
  # * map-store
  # * queue-store
  # * wan-replication
  # * ssl
  # * service
  # * login-module
  # * security-object
  # * socket-interceptor
  #
  properties:
    your-property: Value of the property
  #
  # ===== HAZELCAST WAN REPLICATION CONFIGURATION =====
  #
  # The WAN replication feature is available only in Hazelcast Enterprise.
  # The configuration element's name is "wan-replication". It has two attributes:
  # * name:
  #     Name of your WAN Replication. This name is referenced in IMap or ICache configuration when you add WAN
  #     Replication for these data structures (using the element "wan-replication-ref" in the configuration of
  #     IMap or ICache). Please see the "map" and "cache" configuration descriptions in this YAML.
  #
  # The "wan-replication" element has the following sub-elements:
  # * "batch-publisher":
  #     WAN publisher using the built-in com.hazelcast.enterprise.wan.impl.replication.WanBatchPublisher.
  #     Waits until a batch size is reached or a delay time is passed.
  #     Please see the batch-size and batch-max-delay-millis configuration descriptions below.
  #     * "cluster-name":
  #         Sets the cluster name used as an endpoint cluster name for authentication
  #         on the target endpoint.
  #         If there is no separate publisher ID property defined, this cluster name
  #         will also be used as a WAN publisher ID. This ID is then used for
  #         identifying the publisher in a WanReplicationConfig.
  #     * "publisher-id":
  #         Sets the publisher ID used for identifying the publisher in a
  #         WanReplicationConfig.
  #         If there is no publisher ID defined (it is empty), the cluster name will
  #         be used as a publisher ID.
  #     * "batch-size":
  #         Changes the maximum size of events that are sent to the target cluster
  #         in a single batch. The batch of events is not sent until this size is
  #         reached. Its default value is 500.
  #     * "batch-max-delay-millis":
  #         If the number of events generated does not reach the "batch-size", they
  #         are sent to the target cluster after a certain amount of time is passed.
  #         You can set this time in milliseconds using this element. Its default
  #         value is 1000 milliseconds.
  #     * "response-timeout-millis":
  #         After a replication event is sent to the target cluster, the source member
  #         waits for a confirmation that says the event has reached the target. If
  #         confirmation is not received for a period of `response-timeout-millis`,
  #         the event is resent to the target cluster. The default value is 60000
  #         milliseconds.
  #     * "acknowledge-type":
  #         Acknowledgment type for each target cluster when the events are replicated.
  #         You can set it to the following values:
  #         - ACK_ON_RECEIPT:
  #             Guarantees that events are received by the target cluster. It does not
  #             guarantee that the received event is actually applied, but it is faster.
  #         - ACK_ON_OPERATION_COMPLETE (default):
  #             Guarantees that the event is both received and applied by the target cluster.
  #             It is more time consuming, but it is the best way if you have strong
  #             consistency requirements.
  #     * "initial-publisher-state":
  #         Defines the initial state in which a WAN publisher is started.
  #         - REPLICATING (default):
  #           State where both enqueuing new events is allowed, enqueued events are
  #           replicated to the target cluster and WAN sync is enabled.
  #         - PAUSED:
  #           State where new events are enqueued but they not are dequeued. Some events
  #           which have been dequeued before the state was switched may still be replicated
  #           to the target cluster but further events will not be replicated. WAN sync
  #           is enabled.
  #         - STOPPED:
  #           State where neither new events are enqueued nor dequeued. As with the PAUSED
  #           state, some events might still be replicated after the publisher has
  #           switched to this state. WAN sync is enabled.
  #     * "snapshot-enabled":
  #         Sets if key-based coalescing is configured for this WAN publisher.
  #         When enabled, only the latest WanReplicationEvent of a key is sent to target.
  #     * "idle-max-park-ns":
  #         Sets the maximum duration in nanoseconds that the WAN replication thread
  #         will be parked if there are no events to replicate.
  #     * "idle-min-park-ns":
  #         Sets the minimum duration in nanoseconds that the WAN replication thread
  #         will be parked if there are no events to replicate.
  #     * "max-concurrent-invocations":
  #         Sets the maximum number of WAN event batches being sent to the target
  #         cluster concurrently.
  #         Setting this property to anything less than 2 will only allow a
  #         single batch of events to be sent to each target endpoint and will
  #         maintain causality of events for a single partition.
  #         Setting this property to 2 or higher will allow multiple batches
  #         of WAN events to be sent to each target endpoint. Since this allows
  #         reordering or batches due to network conditions, causality and ordering
  #         of events for a single partition is lost and batches for a single
  #         partition are now sent randomly to any available target endpoint.
  #         This, however, does present faster WAN replication for certain scenarios
  #         such as replicating immutable, independent map entries which are only
  #         added once and where ordering of when these entries are added is not
  #         necessary.
  #         Keep in mind that if you set this property to a value which is less than
  #         the target endpoint count, you will lose performance as not all target
  #         endpoints will be used at any point in time to process WAN event batches.
  #         So, for instance, if you have a target cluster with 3 members (target
  #         endpoints) and you want to use this property, it makes sense to set it
  #         to a value higher than 3. Otherwise, you can simply disable it
  #         by setting it to less than 2 in which case WAN will use the
  #         default replication strategy and adapt to the target endpoint count
  #         while maintaining causality.
  #     * "discovery-period-seconds":
  #         Sets the period in seconds in which WAN tries to discover new target
  #         endpoints and reestablish connections to failed endpoints.
  #     * "use-endpoint-private-address":
  #         Sets whether the WAN connection manager should connect to the
  #         endpoint on the private address returned by the discovery SPI.
  #         By default this property is false which means the WAN connection
  #         manager will always use the public address.
  #     * "queue-full-behavior":
  #         Policy to be applied when WAN Replication event queues are full. You can
  #         set it to the following values:
  #             - DISCARD_AFTER_MUTATION (default):
  #               The new WAN events generated are dropped and not replicated to the target
  #               cluster.
  #             - THROW_EXCEPTION:
  #               The WAN queue size is checked before each supported mutating operation. If
  #               one of the queues of the target cluster is full,
  #               WANReplicationQueueFullException is thrown and the operation is not allowed.
  #     * "max-target-endpoints":
  #         Returns the maximum number of endpoints that WAN will connect to when
  #         using a discovery mechanism to define endpoints.
  #         This property has no effect when static endpoint addresses are defined
  #         using target-endpoints.
  #     * "queue-capacity":
  #         Size of the queue of events. Its default value is 10000. If you exceed
  #         this queue size, then the oldest, not yet replicated updates might get
  #         lost. Therefore, if you have a large rate of put/update/remove operations,
  #         you should increase queue capacity.
  #     * "target-endpoints":
  #         Comma separated list of IP addresses of the target cluster members for
  #         which the WAN replication is implemented.
  #     * "sync":
  #     Configuration for the WAN sync mechanism. It has the following sub-elements:
  #         - "consistency-check-strategy":
  #             Sets the strategy for checking consistency of data between source and
  #             target cluster. Any inconsistency will not be reconciled, it will be
  #             merely reported via the usual mechanisms (e.g. statistics, diagnostics).
  #             The user must initiate WAN sync to reconcile there differences. For the
  #             check procedure to work properly, the target cluster should support the
  #             chosen strategy.
  #             Default value is NONE, which means the check is disabled.
  #     * "aws":
  #         Set its "enabled" attribute to true for discovery within Amazon EC2. It has the following sub-elements:
  #         - "access-key":
  #             Access key of your account on EC2.
  #         - "secret-key":
  #             Secret key of your account on EC2.
  #         - "iam-role":
  #             IAM role that binds with your instance.
  #         - "region":
  #             The region where your Hazelcast members run. Default value is us-east-1.
  #                         It needs to be specified if the region is other than the default one.
  #         - "host-header":
  #             The URL that is the entry point for a web service. It is optional.
  #         - "security-group-name":
  #             Name of the security group you specified at the EC2 management console.
  #                         It is used to narrow the Hazelcast members to be within this group. It is optional.
  #         - "tag-key":
  #             To narrow the members in the cloud down to only Hazelcast members, you can set
  #                         this to the one you specified in the EC2 console. It is optional.
  #         - "tag-value":
  #             To narrow the members in the cloud down to only Hazelcast members, you can set
  #                         this to the one you specified in the EC2 console. It is optional.
  #     * "discovery-strategies":
  #         Set its "enabled" attribute to true for discovery in various cloud infrastructures.
  #         You can define multiple discovery strategies using the "discovery-strategy" sub-element and its properties.
  #         Please refer to
  #         http://docs.hazelcast.org/docs/latest/manual/html-single/index.html#discovering-cluster-members
  #         to see the properties you can use.
  #         The following is an example for EC2 cloud.
  #         "discovery-strategies"
  #            discovery-strategy:
  #              - enabled: true
  #                class: com.hazelcast.aws.AwsDiscoveryStrategy
  #                properties:
  #                  access-key: test-access-key
  #                  secret-key: test-secret-key
  #                  region: test-region
  #                  iam-role: test-iam-role
  #                  host-header: ec2.test-host-header
  #                  security-group-name: test-security-group-name
  #                  tag-key: test-tag-key
  #                  tag-value: test-tag-value
  #                  connection-timeout-seconds: 10
  #                  hz-port: 5702
  # * "custom-publisher":
  #     Custom implementation of a WAN publisher implementing WanPublisher.
  #     * "class-name":
  #     Mandatory config value defining the fully qualified class name of the
  #     WAN publisher implementation.
  #     * "publisher-id":
  #     Mandatory config value for the publisher ID used for identifying the
  #     publisher in a WanReplicationConfig.
  # * "consumer":
  #     Config for processing WAN events received from a target cluster.
  #     You can configure certain behaviour when processing incoming WAN events
  #     or even configure your own implementation for a WAN consumer. A custom
  #     WAN consumer allows you to define custom processing logic and is usually
  #     used in combination with a custom WAN publisher.
  #     A custom consumer is optional and you may simply omit defining it which
  #     will cause the default processing logic to be used.
  #     It has the following sub-elements:
  #     - "class-name":
  #         Sets the fully qualified class name of the class implementing
  #         a custom WAN consumer (WanConsumer).
  #         If you don't define a class name, the default processing logic for
  #         incoming WAN events will be used.
  #     - "properties":
  #         Properties for the custom WAN consumer. These properties are
  #         accessible when initalizing the WAN consumer.
  #     - "persist-wan-replicated-data":
  #         When true, an incoming event over WAN replication can be persisted to a
  #         database for example, otherwise it will not be persisted. Default value
  #         is true.
  #
  wan-replication:
    my-wan-cluster-batch:
      batch-publisher:
        nycPublisherId:
          cluster-name: nyc
          batch-size: 1000
          batch-max-delay-millis: 2000
          response-timeout-millis: 60000
          acknowledge-type: ACK_ON_OPERATION_COMPLETE
          initial-publisher-state: REPLICATING
          snapshot-enabled: false
          idle-max-park-ns: 250000000
          idle-min-park-ns: 10000000
          max-concurrent-invocations: -1
          discovery-period-seconds: 10
          use-endpoint-private-address: false
          queue-full-behavior: DISCARD_AFTER_MUTATION
          max-target-endpoints: 2147483647
          queue-capacity: 10000
          target-endpoints: 10.3.5.1:5701,10.3.5.2:5701
          sync:
            consistency-check-strategy: NONE
          # aws:
          #   enabled: false
          #   access-key: my-access-key
          #   secret-key: my-secret-key
          #   iam-role: dummy
          #   region: us-west-1
          #   host-header: ec2.amazonaws.com
          #   security-group-name: hazelcast-sg
          #   tag-key: type
          #   tag-value: hz-nodes
          # discovery-strategies:
          #   - enabled: true
          #     class: com.hazelcast.jclouds.JCloudsDiscoveryStrategy
          #     properties:
          #       - provider: google-compute-engine
          #       - identity: GCE_IDENTITY
          #       - credential: GCE_CREDENTIAL
      custom-publisher:
        customPublisherId:
          class-name: com.companyName.CustomWanPublisher
          properties:
            prop1: prop1-value
            prop2: prop2-value
      consumer:
        # class-name: com.myCompany.CustomWanConsumer
        # properties:
        #   prop1: prop1-value
        #   prop2: prop2-value
        persist-wan-replicated-data: true
  #
  # ===== HAZELCAST NETWORK CONFIGURATION =====
  #
  # The configuration to build your Hazelcast's network includes configuration for port, interface, discovery
  # mechanism, SSL, encryption, etc. The configuration element's name is "network".
  # It has the following sub-elements:
  # * "public address":
  # This optional element overrides the public address of a member. It is useful when
  # you have a private cloud. Normally, a member selects its socket address as its public address. But behind a NAT,
  # two members may not be able to see/access each other. In this case, you can set their public addresses to their
  # defined addresses on NAT. The value should be given in the format "host IP address:port number".
  # * "port":
  # Specifies the ports that Hazelcast will use to communicate between cluster members. It is optional and
  # its default value is 5701. It has the following attributes:
  # - port-count:
  #     By default, Hazelcast will try 100 ports to bind (i.e. the ports between 5701 and 5801). You can
  #     change the port count in such cases as having large instances on a single machine or you are
  #     willing to have only a few ports assigned. port-count is optional and its default value is 100.
  # - auto-increment:
  #     By default, Hazelcast tries to find a port by automatically incrementing the port numbers. If you
  #     don't want this (for example, you want to use a specific port), set auto-increment to false. If it is
  #     set to false, the port-count attribute is ignored. auto-increment is optional and its default value is true.
  #     Examples:
  #     The example below looks for ports between 5701 and 5721, incrementing the ports starting from 5701.
  #     port:
  #       port-count: 20
  #       port: 5701
  #     The example below forces Hazelcast to use only the port 5701.
  #     port:
  #       auto-increment: false
  #       port: 5701
  # * "outbound-ports":
  # By default, Hazelcast lets the system pick up an ephemeral port during socket bind operation. But security
  # policies/firewalls may require you to restrict outbound ports to be used by Hazelcast-enabled applications.
  # You can specify these ports under the element "outbound-ports". You can give a single
  # port number, comma separated multiple ports or port ranges. See the example below.
  # outbound-ports:
  #   - 33000-35000
  #   - 37000,37001,37002,37003
  #   - 38000,38500-38600
  # * "reuse-address":
  # If you set this to true, Hazelcast will use the same port when you restart a member right after you
  # shut it down. It is optional and its default value is false.
  # * "join":
  # This configuration lets you choose a discovery mechanism that Hazelcast will use to form a cluster.
  # Hazelcast can find members by multicast, TCP/IP lists and by various discovery mechanisms provided by different cloud APIs.
  # The following are the elements of "join":
  # - "multicast":
  #     Set its "enabled" attribute to true for discovery by multicast. It has another attribute
  #     ("loopbackModeEnabled") which enables or disables the loopback mode in the multicast discovery
  #     mechanism.
  #     It has the following sub-elements to fine tune the multicast discovery.
  #     - "multicast-group":
  #         Specifies the multicast group IP address when you want to create clusters within
  #         the same network. Its default value is 224.2.2.3.
  #     - "multicast-port":
  #         Specifies the multicast socket port that the Hazelcast member listens to and
  #         sends discovery messages through. Its default value is 54327.
  #     - "multicast-time-to-live":
  #         Time-to-live value for multicast packets sent out to control the scope of multicasts.
  #     - "multicast-timeout-seconds":
  #         Only when the members are starting up, this timeout (in seconds) specifies the
  #         period during which a member waits for a multicast response from another node.
  #         For example, if you set it as 60 seconds, each node will wait for 60 seconds until a
  #         leader node is selected. Its default value is 2 seconds.
  #     - "trusted-interfaces":
  #         Includes IP addresses of trusted members. When a node wants to join to the cluster,
  #         its join request will be rejected if it is not a trusted member.
  #         You can give an IP addresses range using the wildcard (*) on the last digit of
  #         IP address (e.g. 192.168.1.* or 192.168.1.100-110).
  # - "tcp-ip":
  #     It has the following sub-elements.
  #     - "enabled":
  #         Specifies whether the TCP/IP discovery is enabled or not. Default value is false.
  #     - "connection-timeout-seconds":
  #         The maximum amount of time Hazelcast is going to try to connect to a well known member
  #         before giving up. Setting it to a too low value could mean that a member is not able
  #         to connect to a cluster. Setting it to a too high value means that member startup could
  #         slow down because of longer timeouts (e.g. when a well known member is not up). Increasing
  #         this value is recommended if you have many IPs listed and the members cannot properly
  #         build up the cluster. Its default value is 5.
  #     - "required-member":
  #         IP address of the required member. Cluster will only be formed if the member with this
  #         IP address is found.
  #     - "member":
  #         IP address(es) of one or more well known members. Once members are connected to these
  #         well known ones, all member addresses will be communicated with each other. You can
  #         also give comma separated IP addresses using the "members" element or list the members
  #         under the "member-list" sequence.
  #     - "members":
  #         Comma separated IP addresses of one or more well known members.
  #     - "member-list":
  #         Sequence to list IP address(es) of one or more well known members.
  #     - "interface":
  #         IP address(es) of one or more well known members.
  #     - "aws":
  #         Set its "enabled" sub-element to true for discovery within Amazon EC2.
  #         Please refer to https://github.com/hazelcast/hazelcast-aws/#configuration for the configuration details.
  #     - "gcp":
  #         Set its "enabled" sub-element to true for discovery within the Google Cloud Platform.
  #         Please refer to https://github.com/hazelcast/hazelcast-gcp/#configuration for the configuration details.
  #     - "azure":
  #         Set its "enabled" sub-element to true for discovery within Microsoft Azure.
  #         Please refer to https://github.com/hazelcast/hazelcast-azure/#configuring-at-hazelcast-side for
  #         the configuration details.
  #     - "kubernetes":
  #         Set its "enabled" sub-element to true for discovery in the Kubernetes environment.
  #         Please refer to https://github.com/hazelcast/hazelcast-kubernetes#hazelcast-configuration for
  #         the configuration details.
  #     - "eureka":
  #         Set its "enabled" sub-element to true for discovery with using Eureka Service Registry.
  #         Please refer to https://github.com/hazelcast/hazelcast-eureka#hazelcast-configuration for
  #         the configuration details.
  # - "discovery-strategies":
  #     Set its "enabled" attribute to true for discovery in various cloud infrastructures. You also need to set the
  #     value of "hazelcast.discovery.enabled" property to true. See the description of the "properties" element
  #     to learn how to do this.
  #     You can define multiple discovery strategies and its properties. Please refer to
  #     http://docs.hazelcast.org/docs/latest/manual/html-single/index.html#discovering-cluster-members
  #     to see the properties you can use.
  #     The following is an example for EC2 cloud.
  #     discovery-strategies:
  #       - enabled: true
  #         class: com.hazelcast.jclouds.JCloudsDiscoveryStrategy>
  #         properties:
  #           provider: aws-ec2
  #           identity: AWS_IDENTITY
  #           credential: AWS_CREDENTIAL
  # * "interfaces":
  # Specifies which network interfaces Hazelcast should use. You need to set its "enabled" attribute
  # to true to be able to use your defined interfaces. You can define multiple interfaces. By default, it is disabled.
  # * "ssl":
  # Lets you configure SSL using the SSL context factory. This feature is available only in Hazelcast
  # Enterprise. To be able to use it, encryption should NOT be enabled and you should first implement
  # your SSLContextFactory class. Its configuration contains the factory class and SSL properties.
  # By default, it is disabled. The following is an example:
  # ssl:
  #   enabled: true
  #   factory-class-name: com.hazelcast.nio.ssl.BasicSSLContextFactory
  #   properties:
  #     keyStore: keyStore
  #     keyStorePassword: keyStorePassword
  #     keyManagerAlgorithm: SunX509
  #     trustManagerAlgorithm: SunX509
  #     protocol: TLS
  #     mutualAuthentication: REQUIRED
  # * "socket-interceptor":
  # Lets you add custom hooks to join and perform connection procedures (like a custom authentication protocol, etc.).
  # This feature is available only in Hazelcast Enterprise. To be able to use it, you
  # should first implement the MemberSocketInterceptor (for members joining to a cluster) or
  # SocketInterceptor (for clients connecting to a member) class. Its configuration contains the class you
  # implemented and socket interceptor properties. By default, it is disabled. The following is an example:
  # socket-interceptor:
  #   enabled: true
  #   class-name: com.hazelcast.examples.MySocketInterceptor
  #   properties:
  #     property1: value1
  #     property2: value2
  # * "symmetric-encryption":
  # Lets you encrypt the entire socket level communication among all Hazelcast members.
  # This feature is available only in Hazelcast Enterprise.  Its configuration contains the encryption
  # properties and the same configuration must be placed to all members. By default, it is disabled.
  # The following is an example:
  # symmetric-encryption:
  #   enabled: true
  #   algorithm: PBEWithMD5AndDES
  #   salt: thesalt
  #   password: thepass
  #   iteration-count: 19
  # * "member-address-provider":
  # IMPORTANT
  # This configuration is not intended to provide addresses of other cluster members with
  # which the Hazelcast instance will form a cluster. This is an SPI for advanced use in
  # cases where the DefaultAddressPicker does not pick suitable addresses to bind to
  # and publish to other cluster members. For instance, this could allow easier
  # deployment in some cases when running on Docker, AWS or other cloud environments.
  # That said, if you are just starting with Hazelcast, you will probably want to
  # set the member addresses by using the tcp-ip or multicast configuration
  # or adding a discovery strategy.
  # Member address provider allows to plug in own strategy to customize:
  #    1. What address Hazelcast will bind to
  #    2. What address Hazelcast will advertise to other members on which they can bind to
  # In most environments you don't need to customize this and the default strategy will work just
  # fine. However in some cloud environments the default strategy does not make the right choice and the
  # member address provider delegates the process of address picking to external code.
  # It has the following sub-elements:
  # - enabled:
  #     Specifies whether the member address provider SPI is enabled or not. Its default value is false.
  # - "class-name":
  #     The name of the class implementing the com.hazelcast.spi.MemberAddressProvider interface.
  # - "properties":
  #     The properties that will be provided when constructing the provided MemberAddressProvider. Hazelcast will
  #     first try instantiating the provided class by invoking a constructor accepting a single
  #     java.util.Properties instance. In the case where there is no such constructor and there are also
  #     no properties defined by this configuration, Hazelcast will exceptionally try to use the no-arg
  #     constructor.
  # * "failure-detector":
  # A failure detector is responsible to determine if a member in the cluster is unreachable or crashed.
  # Please refer to https://docs.hazelcast.org/docs/latest/manual/html-single/index.html#failure-detector-configuration
  # for the failure detectors implemented by Hazelcast.
  #
  # This element has the following sub-element:
  # * "icmp":
  #   ICMP can be used in addition to the other detectors. It operates at layer 3 and detects network
  #   and hardware issues more quickly.
  #
  #   It has the following sub-elements:
  #   * "timeout-milliseconds":
  #       Timeout in Milliseconds before declaring a failed ping.
  #   * "fail-fast-on-startup":
  #       Cluster Member will fail to start if it is unable to action an ICMP ping command when ICMP is enabled.
  #       Failure is usually due to OS level restrictions.
  #   * "interval-milliseconds":
  #       Time in milliseconds between each ICMP ping.
  #   * "max-attempts":
  #       Maximum number of consecutive failed attempts before declaring a member suspect.
  #   * "parallel-mode":
  #       Run ICMP detection in parallel with the Heartbeat failure detector.
  #   * "ttl":
  #       Maximum number of times the IP Datagram (ping) can be forwarded, in most cases
  #       all Hazelcast cluster members would be within one network switch/router therefore
  #       default of 0 is usually sufficient.
  #
  network:
    public-address: 11.22.33.44:5555
    port:
      auto-increment: true
      port-count: 100
      port: 5701
    outbound-ports:
      - 34500
    reuse-address: false
    join:
      auto-detection:
        enabled: false
      multicast:
        enabled: false
        multicast-group: 224.2.2.3
        multicast-port: 54327
      tcp-ip:
        enabled: false
        interface: 127.0.0.1
        required-member: 10.0.0.1
        member-list:
          - 10.0.0.2
          - 10.0.0.3
      aws:
        enabled: false
        access-key: my-access-key
        secret-key: my-secret-key
        region: us-west-1
        host-header: ec2.amazonaws.com
        connection-timeout-seconds: 7
        read-timeout-seconds: 7
        connection-retries: 4
        hz-port: 5701-5710
        security-group-name: hazelcast-sg
        tag-key: type
        tag-value: hz-nodes
        iam-role: dummy
        use-public-ip: true
        # cluster: my-clusters
        # family: test-family
        # service-name: test-service
      gcp:
        enabled: false
        private-key-path: key-path
        projects: project-1,project-2
        region: us-central1
        zones: us-central1-b,us-central1-c
        label: key=value
        hz-port: 5701-5710
        use-public-ip: true
      azure:
        enabled: false
        instance-metadata-available: false
        client-id: CLIENT_ID
        client-secret: CLIENT_SECRET
        tenant-id: TENANT_ID
        subscription-id: SUB_ID
        resource-group: RESOURCE-GROUP-NAME
        scale-set: SCALE-SET-NAME
        tag: TAG-NAME=HZLCAST001
        hz-port: 5701-5707
        use-public-ip: true
      kubernetes:
        enabled: false
        namespace: MY-KUBERNETES-NAMESPACE
        service-name: MY-SERVICE-NAME
        service-label-name: MY-SERVICE-LABEL-NAME
        service-label-value: MY-SERVICE-LABEL-VALUE
      eureka:
        enabled: false
        self-registration: true
        namespace: hazelcast
      discovery-strategies:
        node-filter:
          class: com.yourpackage.NodeFilter
        discovery-strategies:
          - enabled: true
            class: com.hazelcast.jclouds.JCloudsDiscoveryStrategy
            properties:
              provider: google-compute-engine
              identity: GCE_IDENTITY
              credential: GCE_CREDENTIAL
    interfaces:
      enabled: true
      interfaces:
        - 10.10.1.*
    ssl:
      enabled: false
      factory-class-name: com.hazelcast.nio.ssl.BasicSSLContextFactory
      properties:
        protocol: TLS

        mutualAuthentication: REQUIRED
        keyStore: /opt/hazelcast.keystore
        keyStorePassword: secret.97531
        keyStoreType: JKS
        trustStore: /opt/hazelcast.truststore
        trustStorePassword: changeit
        trustStoreType: JKS
    socket-interceptor:
      enabled: false
    symmetric-encryption:
      enabled: false
      algorithm: PBEWithMD5AndDES
      password: ...
      salt: ...
      iteration-count: 7
    member-address-provider:
      enabled: false
      class-name: com.hazelcast.MemberAddressProviderImpl
      properties:
        prop1: prop1-value
        prop2: prop2-value
    failure-detector:
      icmp:
        enabled: true
        timeout-milliseconds: 1000
        fail-fast-on-startup: true
        interval-milliseconds: 1000
        max-attempts: 2
        parallel-mode: true
        ttl: 255
    #
    # ===== HAZELCAST REST API CONFIGURATION =====
    #
    # Configures Hazelcast HTTP REST API.
    # The "rest-api" element has a global enabled switch, which controls the entrypoint to HTTP REST API. If it's disabled
    # then no text protocol is available.
    # Once the global switch is enabled there is an optional second level of control - REST endpoint groups. They are configured
    # by element "endpoint-group".
    # Groups and their defaults:
    # * CLUSTER_READ - enabled
    #   Group of operations for retrieving cluster state and its version.
    # * CLUSTER_WRITE - disabled
    #   Operations which changes cluster or node state or their configurations.
    # * HEALTH_CHECK - disabled
    #   Group of endpoints for HTTP health checking.
    # * HOT_RESTART - disabled
    #   Group of HTTP REST APIs related to Hot Restart feature.
    # * WAN - disabled
    #   Group of HTTP REST APIs related to WAN Replication feature.
    # * DATA - disabled
    #   Group of HTTP REST APIs for data manipulation in the cluster (e.g. IMap and IQueue operations).
    #
    rest-api:
      enabled: false
      endpoint-groups:
        CLUSTER_READ:
          enabled: true
        CLUSTER_WRITE:
          enabled: false
        HEALTH_CHECK:
          enabled: false
        HOT_RESTART:
          enabled: false
        WAN:
          enabled: false
        DATA:
          enabled: false

    #
    # ===== HAZELCAST MEMCACHE PROTOCOL CONFIGURATION =====
    #
    # Allows to configure Memcache text protocol support in Hazelcast.
    #
    memcache-protocol:
      enabled: false
  #
  # ===== PARTITION GROUPING CONFIGURATION =====
  #
  # Configuration element's name is "partition-group". You can enable it and specify the type using
  # the "enabled" and "group-type" attributes. For CUSTOM type, you can define groups using its
  # "member-group" and "interface" sub-elements. You can group the members with one of the following types:
  # * HOST_AWARE:
  # Members sharing the same network interface are grouped together. All members on the same host will be a
  # single partition group.
  # * CUSTOM:
  # You can add different and multiple members to a group.
  # * PER_MEMBER:
  # Each member is a group of its own and primary/backup partitions are distributed
  # randomly (not on the same physical member).
  # * ZONE_AWARE:
  # Backups are created in the other zones. Each zone will be accepted as one partition group.
  # It can be used when you make use of Hazelcast's jclouds or Azure discovery service plugins.
  # * SPI:
  # You can provide your own partition group implementation using the SPI grouping type. Please see
  # Partition Group Configuration section in Hazelcast Reference Manual.
  #
  partition-group:
    enabled: true
    group-type: CUSTOM
    member-group:
      - - 10.10.0.*
        - 10.10.3.*
        - 10.10.5.*
      - - 10.10.10.10-100
        - 10.10.1.*
        - 10.10.2.*

  #
  # ===== HAZELCAST EXECUTOR SERVICE CONFIGURATION =====
  #
  # Configuration element's name is "executor-service". It has the optional attribute "name" with which you
  # can specify the name of your executor service. Its default value is "default".
  # It has the following sub-elements:
  # * "statistics-enabled":
  # When you enable it, you can retrieve executor service statistics such as pending operations count,
  # started operations count, completed operations count, and cancelled operations count. Its default
  # value is true.
  # * "pool-size":
  # The number of executor threads per member for the executor. Its default value is 8.
  # * "queue-capacity":
  # Task queue capacity of the executor. Its default value is 0, meaning Integer.MAX_VALUE.
  # * "split-brain-protection-ref":
  # Adds the Split Brain Protection for this data-structure which you configure using the "split-brain-protection" element. You should set the
  # "split-brain-protection-ref"'s value
  # as the "split-brain-protection"'s name.
  #
  executor-service:
    default:
      statistics-enabled: true
      pool-size: 16
      queue-capacity: 0
      split-brain-protection-ref: splitBrainProtectionRuleWithThreeNodes

  #
  # ===== HAZELCAST DURABLE EXECUTOR SERVICE CONFIGURATION =====
  #
  # Configuration element's name is "durable-executor-service". It has the optional attribute "name" with which you
  # can specify the name of your durable executor service. Its default value is "default".
  # It has the following sub-elements:
  # * "pool-size":
  # The number of executor threads per member for the executor. Its default value is 16.
  # * "durability":
  #     Durability of the executor. The default value is 1.
  # * "capacity":
  # Capacity of the executor task per partition. The default value is 100.
  # * "split-brain-protection-ref":
  # Adds the Split Brain Protection for this data-structure which you configure using the "split-brain-protection" element. You should set
  # the "split-brain-protection-ref"'s value
  #     as the "split-brain-protection"'s name.
  #
  durable-executor-service:
    default:
      pool-size: 16
      durability: 1
      capacity: 100
      split-brain-protection-ref: splitBrainProtectionRuleWithThreeNodes

  #
  # ===== HAZELCAST SCHEDULED EXECUTOR SERVICE CONFIGURATION =====
  #
  # Configuration element's name is "scheduled-executor-service". It has the optional attribute "name" with which you
  # can specify the name of your scheduled executor service. Its default value is "default".
  # It has the following sub-elements:
  # * "pool-size":
  #     The number of executor threads per member for the executor. Its default value is 16.
  # * "durability":
  #     Durability of the scheduled executor. The default value is 1.
  # * "capacity":
  #     Capacity of the scheduled executor. The default value is 100.
  #     This is the maximum number of tasks for a given scheduled executor on a particular partition.
  # * "capacity-policy":
  #     The active policy for the capacity setting. Default is PER_NODE
  #     Available options (PER_PARTITION, PER_NODE)
  # * "split-brain-protection-ref":
  #     Adds the Split Brain Protection for this data-structure which you configure using the "split-brain-protection" element. You should set
  #     the "split-brain-protection-ref"'s value as the "split-brain-protection"'s name.
  # * "merge-policy":
  #     The default policy is PutIfAbsentMergePolicy with a batch size of 100.
  #     This is the policy used when merging entries from sub-clusters (after split-brain recovery).
  #
  scheduled-executor-service:
    default:
      pool-size: 16
      durability: 1
      capacity: 100
      capacity-policy: PER_NODE
      split-brain-protection-ref: splitBrainProtectionRuleWithThreeNodes
      merge-policy:
        batch-size: 100
        class-name: PutIfAbsentMergePolicy

  #
  # ===== HAZELCAST CARDINALITY ESTIMATOR SERVICE CONFIGURATION =====
  #
  # Configuration element's name is "cardinality-estimator". It has the optional attribute "name" with which you
  # can specify the name of your estimator. Its default value is "default".
  # It has the following sub-elements:
  # * "backup-count":
  #    Number of synchronous backups. For example, if 1 is set as the backup-count,
  #    then the cardinality estimation will be copied to one other JVM for
  #    fail-safety. Valid numbers are 0 (no backup), 1, 2 ... 6.
  # * "async-backup-count":
  #     Number of asynchronous backups. For example, if 1 is set as the backup-count,
  #    then the cardinality estimation will be copied to one other JVM for
  #    fail-safety. Valid numbers are 0 (no backup), 1, 2 ... 6.
  # * "split-brain-protection-ref":
  #    Adds the Split Brain Protection for this data-structure which you configure using the "split-brain-protection" element. You should set
  #    the "split-brain-protection-ref"'s value as the "split-brain-protection"'s name.
  # * "merge-policy":
  #     The default policy is `com.hazelcast.spi.merge.HyperLogLogMergePolicy` with a batch size of 100.
  #     This is the policy used when merging estimators from sub-clusters (after split-brain recovery).
  #
  cardinality-estimator:
    default:
      backup-count: 1
      async-backup-count: 0
      split-brain-protection-ref: splitBrainProtectionRuleWithThreeNodes
      merge-policy:
        batch-size: 102
        class-name: PutIfAbsentMergePolicy

  #
  # ===== HAZELCAST QUEUE CONFIGURATION =====
  #
  # Configuration element's name is "queue".
  # It has following optional attributes:
  # * "name"
  # with which you can specify the name of your queue. Its default value is "default".
  # It has the following elements:
  # * "statistics-enabled":
  # When you enable it, you can retrieve queue statistics. Its default value is true.
  # * "max-size":
  # Maximum size of the queue. When a JVM's local queue size reaches the maximum, all put/offer operations
  # will be blocked until the queue size of the JVM goes below this maximum. Its default value is 0,
  # meaning Integer.MAX_VALUE.
  # * "backup-count":
  # Number of synchronous backups. Queue is a non-partitioned data structure, so all entries of a Queue
  # resides in one partition. When this parameter is '1', it means there will be 1 backup of that Queue in
  # another member in the cluster. When it is '2', 2 members will have the backup. 0 means there will be no
  # backups. Its default value is 1.
  # * "async-backup-count":
  # Number of asynchronous backups. Its default value is 0.
  # * "empty-queue-ttl":
  # Used to purge unused or empty queues. If you define a value (time in seconds) for this element, then
  # your queue will be destroyed if it stays empty or unused for that time.
  # * "item-listeners":
  # Adds listeners (listener classes) for the queue items using its sub-element "item-listener". You can
  # also set its attribute "include-value" to true if you want the item event to contain the item values,
  # and you can set its attribute "local" to true if you want to listen to the items on the local member.
  # * "queue-store":
  # Includes configuration elements and attributes for your queue store implementation. When you want to
  # load/store the distributed queue items from/to a persistent datastore, first implement Hazelcast's
  # QueueStore interface and then configure it using this element. It includes your implemented class name
  # and the following property configurations:
  # - binary:
  #     If you do not reach the queue store from an external application, you might prefer to insert the items
  #     in binary form. To do so, set this property to true and skip the deserialization step, which is a
  #     performance optimization. Its default value is false.
  # - memory-limit:
  #     Number of items after which Hazelcast will store items only to datastore. For example,
  #     if the memory limit is 1000, then the 1001st item will be put only to datastore.
  #     This feature is useful when you want to avoid out-of-memory conditions. If you want to
  #     always use memory, you can set it to Integer.MAX_VALUE. Its default value is 1000.
  # - bulk-load:
  #     Size of the bulks loaded from QueueStore when the queue is initialized. Its default
  #     value is 250.
  # * "split-brain-protection-ref":
  #     Adds the Split Brain Protection for this data-structure which you configure using the "split-brain-protection" element. You should set
  #     the "split-brain-protection-ref"'s value as the "split-brain-protection"'s name.
  # * "priority-comparator-class-name":
  #     Fully-qualified comparator's class name to be used for the priority queue.
  #     If nothing is provided, then queue behaves as a FIFO queue.
  #
  #     If this value is non-null, then Hazelcast will ignore the queue store
  #     "memory-limit" configuration value.
  #
  queue:
    default:
      statistics-enabled: true
      max-size: 0
      backup-count: 1
      async-backup-count: 0
      empty-queue-ttl: -1
      item-listeners:
        - include-value: true
          class-name: com.hazelcast.examples.ItemListener
      queue-store:
        class-name: com.hazelcast.QueueStoreImpl
        properties:
          binary: false
          memory-limit: 1000
          bulk-load: 500
      split-brain-protection-ref: splitBrainProtectionRuleWithThreeNodes
      merge-policy:
        batch-size: 100
        class-name: PutIfAbsentMergePolicy
      priority-comparator-class-name: com.hazelcast.collection.impl.queue.model.PriorityElementComparator

  #
  # ===== HAZELCAST MAP CONFIGURATION =====
  #
  # Configuration element's name is "map". It has the optional attribute "name" with which you
  # can specify the name of your map. Its default value is "default".
  # It has the following sub-elements:
  # * "in-memory-format":
  # Specifies in which format data will be stored in your map. Available values are as follows:
  # - BINARY:
  #     Data will be stored in serialized binary format. It is the default option.
  # - OBJECT:
  #     Data will be stored in deserialized form.
  # - NATIVE:
  #     Data will be stored in the map that uses Hazelcast's High-Density Memory Store feature. This
  #     option is available only in Hazelcast Enterprise HD.
  # * "statistics-enabled":
  #     When you enable it, you can retrieve map entry statistics such as creation time, expiration time,
  #     number of hits, key, value, etc. Its default value is true.
  # * "metadata-policy"
  # Metadata policy for this map. Hazelcast may process objects of supported types ahead of time to
  # create additional metadata about them. This metadata then is used to make querying and indexing faster.
  # Metadata creation may decrease put throughput.
  # Valid values are:
  # CREATE_ON_UPDATE (default): Objects of supported types are pre-processed when they are created and updated.
  # OFF: No metadata is created.
  # * "cache-deserialized-values":
  # Controls caching of deserialized values. Caching makes the query evaluation faster, but it costs memory.
  # Available values are as follows:
  # - NEVER: Deserialized values will never be cached.
  # - INDEX-ONLY: Deserialized values will be cached only when they are inserted into an index.
  # - ALWAYS: Deserialized values will always be cached.
  # * "backup-count":
  #     Count of synchronous backups. When this count is 1, a map entry will have its backup on one other node in
  #     the cluster. If you set it to 2, then a map entry will have its backup on two other nodes. You can set it
  #     to 0 if you do not want your entries to be backed up. The maximum value for the backup count is 6.
  #     Its default value is 1.
  # * "async-backup-count":
  # Number of asynchronous backups. Unlike the synchronous backup process, asynchronous backup process does not
  # block the map operations. Its default value is 0, meaning there will be no asynchronous backups.
  # * "time-to-live-seconds":
  # Maximum time in seconds for each entry to stay in the map. If it is not 0, entries that are older than
  # this time and not updated for this time are evicted automatically. Valid values are integers between 0 and
  # Integer.MAX VALUE. Its default value is 0, which means infinite. If it is not 0, entries are evicted regardless
  # of the set eviction-policy.
  # * "max-idle-seconds":
  # Maximum time in seconds for each entry to stay idle in the map. Entries that are idle for more than
  # this time are evicted automatically. An entry is idle if no get, put, EntryProcessor.process or
  # containsKey is called.  Valid values are integers between 0 and Integer.MAX VALUE. Its default value
  # is 0, which means infinite.
  # "eviction":
  # By default map has no eviction configured. Its  is NONE.
  # To make it work you have to configure it.
  # Configuration has the following attributes:
  # - size: Maximum size of the map.
  # - max-size-policy: Maximum size policy for eviction of the map. Available values are as follows:
  #   * PER_NODE:
  #     Maximum number of map entries in each cluster member. You cannot set the max-size to a value lower
  #     than the partition count (which is 271 by default).
  #   * PER_PARTITION:
  #     Maximum number of map entries within each partition.
  #   * USED_HEAP_SIZE:
  #     Maximum used heap size in megabytes per map for each Hazelcast instance. It does not work when
  #     "in-memory-format" is set to OBJECT.
  #   * USED_HEAP_PERCENTAGE:
  #     Maximum used heap size percentage per map for each Hazelcast instance. If, for example, JVM is
  #     configured to have 1000 MB and this value is 10, then the map entries will be evicted when used heap size
  #     exceeds 100 MB. It does not work when "in-memory-format" is set to OBJECT.
  #   * FREE_HEAP_SIZE:
  #     Minimum free heap size in megabytes for each Hazelcast instance.
  #   * FREE_HEAP_PERCENTAGE:
  #     Minimum free heap size percentage for each Hazelcast instance. If, for example, JVM is configured to
  #     have 1000 MB and this value is 10, then the map entries will be evicted when free heap size is below 100 MB.
  #   * USED_NATIVE_MEMORY_SIZE:
  #     Maximum used native memory size in megabytes per map for each Hazelcast instance. It is available only in
  #     Hazelcast Enterprise HD.
  #   * USED_NATIVE_MEMORY_PERCENTAGE:
  #     Maximum used native memory size percentage per map for each Hazelcast instance. It is available only in
  #     Hazelcast Enterprise HD.
  #   * FREE_NATIVE_MEMORY_SIZE:
  #     Minimum free native memory size in megabytes for each Hazelcast instance. It is available only in
  #     Hazelcast Enterprise HD.
  #   * FREE_NATIVE_MEMORY_PERCENTAGE:
  #     Minimum free native memory size percentage for each Hazelcast instance. It is available only in
  #     Hazelcast Enterprise HD.
  # - eviction-policy:
  #     Eviction policy has following values:
  #   * NONE: No eviction.
  #   * LRU: Least recently used entries will be removed.
  #   * LFU: Least frequently used entries will be removed.
  #   * RANDOM: Randomly selected entries will be removed.
  # * "merge-policy":
  # Policy that specifies how the map entries in the small cluster will merge with the bigger cluster after a
  # split-brain syndrome. Its default values is "com.hazelcast.spi.merge.PutIfAbsentMergePolicy". Available
  # built-in policies are as follows:
  # - com.hazelcast.spi.merge.PassThroughMergePolicy:
  #     Entry will be added if there is no existing entry for the key.
  # - com.hazelcast.spi.merge.PutIfAbsentMergePolicy:
  #     Entry will be added if the merging entry does not exist in the cluster.
  # - com.hazelcast.spi.merge.HigherHitsMergePolicy:
  #     Entry with the higher number of hits wins.
  # - com.hazelcast.spi.merge.LatestUpdateMergePolicy:
  #     Entry with the latest update wins.
  # * "read-backup-data":
  # Used to enable reading from local backup map entries. Its default value is false. It can be used if there is
  # at least 1 sync or async backup.
  # * "merkle-tree":
  # It has the following sub-elements:
  # - "enabled":
  # 	Specifies whether the merkle tree is enabled.
  # - "depth":
  # 	The depth of the merkle tree.
  # 	A larger depth means that a data synchronization mechanism will be able
  # 	to pinpoint a smaller subset of the data structure contents in which a
  # 	change occurred. This causes the synchronization mechanism to be more
  # 	efficient. On the other hand, a larger tree depth means the merkle tree
  # 	will consume more memory.
  # 	A smaller depth means the data synchronization mechanism will have to
  # 	transfer larger chunks of the data structure in which a possible change
  # 	happened. On the other hand, a shallower tree consumes less memory.
  # 	The depth must be between 2 and 27 (exclusive). The default depth is 10.
  # * "hot-restart":
  # Used to enable Hazelcast's Hot Restart Persistence feature for the map. It is available only in Hazelcast
  # Enterprise HD. Set its "enabled" to true to enable the feature. By default, it is disabled. It has the following
  # sub-element.
  # - "fsync":
  #     Set to true if the writing to disk should be followed by an fsync() system call. Its default value is false.
  # * "event-journal":
  # It has the following attributes and sub-elements:
  # - enabled:
  # 	Specifies whether the event journal is enabled.
  # - "capacity":
  # 	The capacity of the event journal. The capacity is the total number of items that the event journal
  # 	can hold at any moment. The actual number of items contained in the journal can be lower. Its default value is 10000.
  # 	The capacity is shared equally between all partitions.
  # 	This is done by assigning each partition {@code getCapacity() / partitionCount}
  # 	available slots in the event journal. Because of this, the effective total
  # 	capacity may be somewhat lower and you must take into account that the
  # 	configured capacity is at least greater than the partition count.
  # - "time-to-live-seconds":
  # 	Sets the time to live in seconds.
  # 	Time to live is the time the event journal retains items before removing them from the journal.
  # 	The events are removed on journal read and write actions, not while the journal is idle.
  # 	Time to live can be disabled by setting timeToLiveSeconds to 0. This means that the
  # 	events never expire but they can be overwritten when the capacity of the journal is exceeed.
  # 	Any integer between 0 and Integer.MAX_VALUE. 0 means infinite. Its default value is 0.
  # * "map-store":
  # Configuration options when you want to load/store the map entries from/to a persistent data store such as a
  # relational database. Before configuring "map-store", you need to implement Hazelcast's MapStore or MapLoader
  # interfaces.
  # It has the following attributes:
  # - enabled:
  #     Set to true to enable the map store functionality for your map. Its default value is true.
  # - initial-mode:
  #     Sets the initial entry loading mode. Available values are as follows:
  #      - LAZY: The loading is asynchronous. It is the default mode.
  #      - EAGER: The loading is blocked until all partitions are loaded.
  #
  # It has the following sub-elements:
  # - "class-name":
  #     The name of your class implementing MapLoader and/or MapStore interface.
  # - "write-delay-seconds":
  #     Number of seconds to delay the storing of entries. If the value is 0, then it is write-through.
  #     Otherwise, it is write-behind so updates will be stored after this period. Its default value is 0.
  # - "write-batch-size":
  #     Used to create batches when writing to map store. In default mode, all map entries will try
  #     to be written in one go. To create batches, the minimum meaningful value is 2. For values smaller than 2,
  #     it works as in default mode. Its default value is 1.
  # - "write-coalescing":
  #     It is meaningful if you are using write behind in MapStore. When it is set to true,
  #     only the latest store operation on a key during the write-delay-seconds will be
  #     reflected to MapStore. Its default value is true.
  # - "properties":
  #     While you are implementing MapStore or MapLoader you can define specific properties to be configured.
  #     It can be your store's URL, credentials, etc. Please see the example map configuration snippet below.
  # * "near-cache":
  # Configuration options when you want to use a Near Cache for your map.
  # It has the following attributes:
  # - name: You can give a name for your Near Cache. It is optional and its default value is "default".
  #
  # It has the following sub-elements:
  #     - "time-to-live-seconds":
  #         Maximum number of seconds for each entry to stay in the Near Cache. Entries that are older than this
  #         period are automatically evicted from the Near Cache. Any integer between 0 and Integer.MAX_VALUE.
  #         0 means infinite. Its default value is 0.
  #     - "max-idle-seconds":
  #         Maximum number of seconds each entry can stay in the Near Cache as untouched (not read). Entries that
  #         are not read more than this period are removed from the Near Cache. Any integer between 0 and
  #         Integer.MAX_VALUE. 0 means Integer.MAX_VALUE. Its default value is 0.
  #     - "invalidate-on-change":
  #         Specifies whether the cached entries are evicted when the entries are updated or removed. Its default
  #         value is true.
  #     - "in-memory-format":
  #     Specifies in which format data will be stored in your Near Cache. Note that a map's in-memory format
  #     can be different from that of its Near Cache.
  #     Available values are as follows:
  #     - BINARY:
  #         Data will be stored in serialized binary format. It is the default option.
  #     - OBJECT:
  #         Data will be stored in deserialized form.
  #     - NATIVE:
  #         Data will be stored in the Near Cache that uses Hazelcast's High-Density Memory Store feature.
  #         This option is available only in Hazelcast Enterprise HD. Note that a map and its Near Cache
  #         can independently use High-Density Memory Store. For example, while your map does not use
  #         High-Density Memory Store, its Near Cache can use it.
  #     - "cache-local-entries":
  #         Specifies whether the local entries will be cached. It can be useful when in-memory format for
  #         Near Cache is different from that of the map. By default, it is disabled.
  #     - "eviction":
  #         Configuration for the eviction when the in-memory format of the Near Cache is NATIVE. It has the
  #         following attributes:
  #         - size: Maximum size (entry count) of the Near Cache.
  #         - max-size-policy: Maximum size policy for eviction of the Near Cache. Available values are as follows:
  #             * ENTRY_COUNT: Maximum entry count per member.
  #              * USED_NATIVE_MEMORY_SIZE: Maximum used native memory size in megabytes.
  #              * USED_NATIVE_MEMORY_PERCENTAGE: Maximum used native memory percentage.
  #              * FREE_NATIVE_MEMORY_SIZE: Minimum free native memory size to trigger cleanup.
  #              * FREE_NATIVE_MEMORY_PERCENTAGE: Minimum free native memory percentage to trigger cleanup.
  #         - eviction-policy: See the "eviction-policy" element above.
  #         - comparator-class-name: The comparator to be used while comparing entries to be evicted.
  # * "wan-replication-ref":
  #     Configuration of the WAN replication for your map.
  #     It has the following attributes:
  #     - name:
  #         Name of the WAN replication configuration specified in the "name" attribute of the
  #         "wan-replication" element. See the "wan-replication" element above.
  #
  #     It has the following sub-elements:
  #     - "filters":
  #         Filters to intercept WAN replication events before they are placed to WAN event replication
  #         queues by providing a filtering API. Just implement Hazelcast's MapWanEventFilter interface
  #         to create your filters. You can define multiple filters and add to the configuration using the
  #         "filter" sub-elements within the "filters" element.
  #     - "republishing-enabled":
  #         When enabled, an incoming event to a member is forwarded to target cluster of that member. Its
  #         default value is true.
  #      - "merge-policy-class-name":
  #         Resolve conflicts that occurred when target cluster already has the replicated
  #         entry key.
  #
  #         4 merge policy implementations for IMap and 2 merge policy implementations for
  #         ICache are provided out-of-the-box.
  #
  #         IMap has the following merge policies:
  #         com.hazelcast.spi.merge.PutIfAbsentMergePolicy: Incoming entry merges from the
  #         source map to the target map if it does not exist in the target map.
  #         com.hazelcast.spi.merge.HigherHitsMergePolicy: Incoming entry merges from the
  #         source map to the target map if the source entry has more hits than the target one.
  #         com.hazelcast.spi.merge.PassThroughMergePolicy: Incoming entry merges from the
  #         source map to the target map unless the incoming entry is not null.
  #         com.hazelcast.spi.merge.LatestUpdateMergePolicy: Incoming entry merges from the
  #         source map to the target map if the source entry has been updated more recently
  #         than the target entry. Please note that this merge policy can only be used when the
  #         clusters' clocks are in sync.
  #
  #         ICache has the following merge policies:
  #         com.hazelcast.spi.merge.HigherHitsMergePolicy: Incoming entry merges from
  #         the source cache to the target cache if the source entry has more hits than the
  #         target one.
  #         com.hazelcast.spi.merge.PassThroughMergePolicy: Incoming entry merges from
  #         the source cache to the target cache unless the incoming entry is not null.
  #
  #         The default policy is com.hazelcast.spi.merge.PassThroughMergePolicy.
  # * "indexes":
  # You can define indexes for your map using this element's "index" sub-elements. Index definition consists of type,
  # optional name and the list of columns to be indexed. Valid types are SORTED (default) and HASH.
  # * "attributes":
  # You can define attributes that may be referenced in predicates, queries and indexes using this element's
  # "attribute" sub-elements. Each "attribute" has only the "extractor-class-name" attribute which you should define
  # beforehand by implementing Hazelcast's ValueExtractor class.
  # * "entry-listeners":
  #     Adds listeners (listener classes) for the map entries using the "entry-listener" sub-elements. You can also set its
  #     attribute "include-value" to true if you want the entry event to contain the item values, and you can set its attribute
  #     "local" to true if you want to listen to the entries on the local member.
  # * "partition-lost-listeners":
  #     Adds the partition lost listeners that you created by implementing Hazelcast's PartitionLostListener interface.
  # * "split-brain-protection-ref":
  # Adds the split brain protection for this map which you configure using the "split-brain-protection" element.
  # You should set the "split-brain-protection-ref"'s value as the "split-brain-protection"'s name.
  #
  map:
    default:
      in-memory-format: BINARY
      metadata-policy: CREATE_ON_UPDATE
      statistics-enabled: true
      cache-deserialized-values: ALWAYS
      backup-count: 1
      async-backup-count: 0
      time-to-live-seconds: 0
      max-idle-seconds: 0
      eviction:
        eviction-policy: NONE
        max-size-policy: PER_NODE
        size: 0
      merge-policy:
        batch-size: 100
        class-name: PutIfAbsentMergePolicy
      read-backup-data: false
      hot-restart:
        enabled: false
        fsync: false
      event-journal:
        enabled: false
        capacity: 10000
        time-to-live-seconds: 0
      merkle-tree:
        enabled: false
        depth: 10
      map-store:
        enabled: true
        initial-mode: LAZY
        class-name: com.hazelcast.examples.DummyStore
        write-delay-seconds: 60
        write-batch-size: 1000
        write-coalescing: true
        properties:
          jdbc_url: my.jdbc.com
      near-cache:
        time-to-live-seconds: 0
        max-idle-seconds: 60
        invalidate-on-change: true
        in-memory-format: BINARY
        cache-local-entries: false
        eviction:
          size: 1000
          max-size-policy: ENTRY_COUNT
          eviction-policy: LFU
      wan-replication-ref:
        my-wan-cluster-batch:
          merge-policy-class-name: PassThroughMergePolicy
          filters:
            - com.example.SampleFilter
            - com.example.SampleFilter2
          republishing-enabled: false
      indexes:
        # unordered/hash index on the name attribute
        - type: HASH
          attributes:
            - "name"
        # ordered/tree index on the age attribute
        - attributes:
          - "age"
        # composite unordered/hash index on the name and age attributes
        - type: HASH
          attributes:
            - "name"
            - "age"
        # composite ordered/tree index on the age and name attributes
        - attributes:
          - "age"
          - "name"
        # bitmap index on the age attribute
        - type: BITMAP
          attributes:
            - "age"
        # bitmap index on the name attribute with options
        - type: BITMAP
          attributes:
            - "name"
          bitmap-index-options:
            unique-key: id
            unique-key-transformation: RAW

      attributes:
        currency:
          extractor-class-name: com.bank.CurrencyExtractor
      entry-listeners:
        - class-name: com.your-package.MyEntryListener
          include-value: false
          local: false
      partition-lost-listeners:
        - com.your-package.YourPartitionLostListener
      split-brain-protection-ref: splitBrainProtectionRuleWithThreeNodes
      #
      # ===== HAZELCAST CONTINUOUS QUERY CACHE CONFIGURATION =====
      #
      # Configuration element's name is "query-caches".
      # You can create your query caches using its  "query-cache" sub-element. Its parent element is "map",
      # i.e. it should be placed within the "map" configuration. Each "query-cache" has the attribute "name" with which you
      # can specify the name of your query cache.
      # It has the following sub-elements:
      # * "include-value":
      #     Set to true if you want to cache the value too. Its default value is true.
      # * "predicate":
      #     Predicate to filter events which will be applied to the query cache.
      # * "entry-listeners":
      #     Adds listeners (listener classes) for your query cache entries. See "entry-listeners" in the map configuration above.
      # * "in-memory-format":
      #     Type of the data to be stored in your query cache. See "in-memory-format" in the map configuration above.
      # * "populate":
      #     Set to true if you want to enable the initial population of your query cache. Its default value is true.
      # * "coalesce":
      #     Set to true if you want to enable the coalescing of your query cache. Its default value is false.
      # * "delay-seconds":
      #     Minimum time in seconds that an event waits in the member's buffer. Its default value is 0.
      # * "batch-size":
      #     Batch size used to determine the number of events sent in a batch to your query cache. Its default value is 1.
      # * "buffer-size":
      #     Maximum number of events which can be stored in a partition buffer. Its default value is 16.
      # * "eviction":
      #     Configuration for the eviction of your query cache. See "eviction" in the map configuration above.
      # * "indexes":
      #     You can define indexes for your query cache using this element's "index" sub-elements. See "index" in the
      #     map configuration above.
      #
      query-caches:
        myContQueryCache:
          include-value: true
          predicate:
            class-name: com.hazelcast.examples.ExamplePredicate
          entry-listeners:
            - class-name: "..."
          in-memory-format: BINARY
          populate: true
          coalesce: false
          delay-seconds: 3
          batch-size: 2
          buffer-size: 32
          eviction:
            size: 1000
            max-size-policy: ENTRY_COUNT
            eviction-policy: LFU
          indexes:
            - attributes:
              - "name"
  #
  # ===== HAZELCAST MULTIMAP CONFIGURATION =====
  #
  # Configuration element's name is "multimap". It has the optional attribute "name" with which you
  # can specify the name of your multimap. Its default value is "default".
  # All sub-elements of "multimap" except "value-collection-type" and "binary" have the same meaning as in "map" configuration.
  # You can specify the type of the value collection using "value-collection-type". Available values are SET and LIST.
  # By default, BINARY in-memory format is used, meaning that the object is stored in a serialized form.
  # You can set the element "binary" to false, then, the OBJECT in-memory format is used.
  # It has also the following sub-elements:
  # * "split-brain-protection-ref":
  # Adds the Split Brain Protection for this data-structure which you configure using the "split-brain-protection" element. You should set the
  # "split-brain-protection-ref"'s value as the "split-brain-protection"'s name.
  #
  multimap:
    default:
      backup-count: 1
      async-backup-count: 0
      binary: true
      value-collection-type: SET
      entry-listeners:
        - class-name: com.hazelcast.examples.EntryListener
          include-value: true
          local: true
      split-brain-protection-ref: splitBrainProtectionRuleWithThreeNodes
      merge-policy:
        batch-size: 100
        class-name: PutIfAbsentMergePolicy

  #
  # ===== HAZELCAST REPLICATED MAP CONFIGURATION =====
  #
  # Configuration element's name is "replicatedmap". It has the required attribute "name" with which you
  # can specify the name of your replicated map.
  # It has the following sub-elements:
  # * "in-memory-format":
  # Specifies in which format data will be stored in your replicated map.
  # Available values are as follows:
  # - BINARY:
  #     Data will be stored in serialized binary format. It is the default option.
  # - OBJECT:
  #     Data will be stored in deserialized form.
  # * "async-fillup":
  #     Specifies whether the replicated map is available for reads before the initial
  # replication is completed. Its default value is true. If false, no Exception will be
  # thrown when the replicated map is not yet ready, but call is blocked until the initial
  # replication is completed.
  # * "statistics-enabled":
  # When you enable it, you can retrieve replicated map entry statistics such as creation time,
  # expiration time, number of hits, key, value, etc. Its default value is true.
  # * "entry-listeners":
  #     Adds listeners (listener classes) for the replicated map entries.
  #     You can also set its attribute "include-value" to true if you want the entry event to contain the item values,
  #     and you can set its attribute "local" to true if you want to listen to the entries on the local member.
  # * "split-brain-protection-ref":
  # Adds the Split Brain Protection for this data-structure which you configure using the "split-brain-protection" element. You should set the
  # "split-brain-protection-ref"'s value as the "split-brain-protection"'s name.
  #
  replicatedmap:
    replicatedMap1:
      in-memory-format: BINARY
      async-fillup: true
      statistics-enabled: true
      entry-listeners:
        - class-name: com.hazelcast.examples.EntryListener
          include-value: true
          local: true
      split-brain-protection-ref: splitBrainProtectionRuleWithThreeNodes
      merge-policy:
        batch-size: 100
        class-name: LatestAccessMergePolicy

  #
  # ===== HAZELCAST CACHE CONFIGURATION =====
  #
  # Configuration element's name is "cache". It has the required attribute "name" with which you
  # can specify the name of your cache.
  # It has the following sub-elements:
  # * "key-type":
  # Type of the cache entries' keys. The fully qualified class name of the cache key type should be given
  # using its "class-name" attribute.
  # * "value-type":
  # Type of the cache entries' values. The fully qualified class name of the cache value type should be given
  # using its "class-name" attribute.
  # * "statistics-enabled":
  #     When you enable it, you can retrieve cache entry statistics such as creation time, expiration time,
  #     number of hits, key, value, etc. Its default value is false.
  # * "management-enabled":
  # If set to true, JMX beans are enabled and collected statistics are provided. It doesn't automatically
  # enable statistics collection. Its default value is false.
  # * "read-through":
  # If set to true, enables read-through behavior of the cache to an underlying configured
  # javax.cache.integration.CacheLoader which is also known as lazy-loading. Its default value is false.
  # * "write-through":
  # If set to true, enables write-through behavior of the cache to an underlying configured
  # javax.cache.integration.CacheWriter which passes any changed value to the external backend resource. Its default
  # value is false.
  # * "cache-loader-factory":
  # Fully qualified class name of the javax.cache.configuration.Factory implementation providing a
  # javax.cache.integration.CacheLoader instance to the cache. Provide this class name by using its "class-name"
  # attribute.
  # * "cache-loader": Name of the cache loader class.
  # * "cache-writer-factory":
  # Fully qualified class name of the javax.cache.configuration.Factory implementation providing a
  # javax.cache.integration.CacheWriter instance to the cache. Provide this class name using its "class-name"
  # attribute.
  # * "cache-writer": Name of the cache writer class.
  # * "expiry-policy-factory":
  # Fully qualified class name of the javax.cache.configuration.Factory implementation providing a
  # javax.cache.expiry.ExpiryPolicy instance to the cache. Provide this class name using its "class-name"
  # attribute.
  # * "cache-entry-listeners":
  # List of cache entry listeners given by its "cache-entry-listener" sub-element. Each "cache-entry-listener"
  # has the following attributes:
  # - old-value-required:
  #     If set to true, previously assigned values for the affected keys will be sent to the
  #     javax.cache.event.CacheEntryListener implementation. Setting this attribute to true creates additional
  #     traffic. Its default value is false.
  # - synchronous:
  #     If set to true, the javax.cache.event.CacheEntryListener implementation will be called in a synchronous
  #     manner. Its default value is false.
  # It has the following sub-elements:
  # - cache-entry-listener-factory:
  #     Fully qualified class name of the javax.cache.configuration.Factory implementation providing a
  #     javax.cache.event.CacheEntryListener instance.
  # - cache-entry-event-filter-factory:
  #     Fully qualified class name of the javax.cache.configuration.Factory implementation providing a
  #     javax.cache.event.CacheEntryEventFilter instance.
  # * "in-memory-format":
  #     Specifies in which format data will be stored in your cache. Available values are as follows:
  # - BINARY:
  #     Data will be stored in serialized binary format. It is the default option.
  # - OBJECT:
  #     Data will be stored in deserialized form.
  # - NATIVE:
  #     Data will be stored in the cache that uses Hazelcast's High-Density Memory Store feature.
  #     This option is available only in Hazelcast Enterprise HD.
  # * "backup-count":
  # Number of synchronous backups. If it is 1, for example, then all entries of the cache are copied to
  # one other instance as synchronous for fail-safety. Its default value is 1.
  # * "async-backup-count":
  #     Number of asynchronous backups. For example, if it is 1, then all entries of the cache are copied to
  #     one other instance as asynchronous for fail-safety. The sum of "backup-count" and "async-backup-count"
  #     cannot be larger than 6. Its default value is 0.
  # * "eviction":
  # Configuration for the eviction of your cache. It has the following attributes:
  # - size: Maximum size (entry count) of the cache.
  # - max-size-policy: Maximum size policy for eviction of the cache. Available values are as follows:
  #     * ENTRY_COUNT: Maximum entry count per member.
  #     * USED_NATIVE_MEMORY_SIZE: Maximum used native memory size in megabytes.
  #     * USED_NATIVE_MEMORY_PERCENTAGE: Maximum used native memory percentage.
  #     * FREE_NATIVE_MEMORY_SIZE: Minimum free native memory size to trigger cleanup.
  #     * FREE_NATIVE_MEMORY_PERCENTAGE: Minimum free native memory percentage to trigger cleanup.
  # - eviction-policy: See the "eviction-policy" element above.
  # * "wan-replication-ref":
  #     Configuration of the WAN replication for your cache.
  #     It has the following attributes:
  #     - name:
  #         Name of the WAN replication configuration specified in the "name" attribute of the
  #         "wan-replication" element. See the "wan-replication" element above.
  #
  #     It has the following sub-elements:
  #     - "filters":
  #         Filters to intercept WAN replication events before they are placed to WAN event replication
  #         queues by providing a filtering API. Just implement Hazelcast's CacheWanEventFilter interface
  #         to create your filters. You can define multiple filters within the "filters" element.
  #     - "republishing-enabled":
  #         When enabled, an incoming event to a member is forwarded to target cluster of that member. Its
  #         default value is true.
  #      - "merge-policy":
  #         Resolve conflicts that occurred when target cluster already has the replicated
  #         entry key.
  #
  #         4 merge policy implementations for IMap and 2 merge policy implementations for
  #         ICache are provided out-of-the-box.
  #
  #         ICache has the following merge policies:
  #         com.hazelcast.spi.merge.HigherHitsMergePolicy: Incoming entry merges from
  #         the source cache to the target cache if the source entry has more hits than the
  #         target one.
  #         com.hazelcast.spi.merge.PassThroughMergePolicy: Incoming entry merges from
  #         the source cache to the target cache unless the incoming entry is not null.
  # * "split-brain-protection-ref":
  #     Adds the split brain protection for this cache which you configure using the "split-brain-protection" element.
  #     You should set the "split-brain-protection-ref"'s value as the "split-brain-protection"'s name.
  # * "partition-lost-listeners":
  #     Adds the partition lost listeners that you created by implementing Hazelcast's PartitionLostListener interface.
  # * "merge-policy":
  #     The following are the built-in merge policies for cache. You can either use their full class names or constant
  #     names (given in parentheses).
  # - com.hazelcast.spi.merge.PassThroughMergePolicy (PASS_THROUGH)
  # - com.hazelcast.spi.merge.PutIfAbsentMergePolicy (PUT_IF_ABSENT)
  # - com.hazelcast.spi.merge.HigherHitsMergePolicy (HIGHER_HITS)
  # - com.hazelcast.spi.merge.LatestAccessMergePolicy (LATEST_ACCESS)
  # * "hot-restart":
  # Used to enable Hazelcast's Hot Restart Persistence feature for the cache. It is available only in Hazelcast
  # Enterprise HD. Set its "enabled" to true to enable the feature. By default, it is disabled. It has the following
  # sub-element.
  # - "fsync":
  #     Set as true if the writing to disk should be followed by an fsync() system call. Its default value is false.
  # * "event-journal":
  # It has the following attributes and sub-elements:
  # - enabled:
  # 	Specifies whether the event journal is enabled.
  # - "capacity":
  # 	The capacity of the event journal. The capacity is the total number of items that the event journal
  # 	can hold at any moment. The actual number of items contained in the journal can be lower. Its default value is 10000.
  # 	The capacity is shared equally between all partitions.
  # 	This is done by assigning each partition {@code getCapacity() / partitionCount}
  # 	available slots in the event journal. Because of this, the effective total
  # 	capacity may be somewhat lower and you must take into account that the
  # 	configured capacity is at least greater than the partition count.
  # - "time-to-live-seconds":
  # 	Sets the time to live in seconds.
  # 	Time to live is the time the event journal retains items before removing them from the journal.
  # 	The events are removed on journal read and write actions, not while the journal is idle.
  # 	Time to live can be disabled by setting timeToLiveSeconds to 0. This means that the
  # 	events never expire but they can be overwritten when the capacity of the journal is exceeed.
  # 	Any integer between 0 and Integer.MAX_VALUE. 0 means infinite. Its default value is 0.
  # * "disable-per-entry-invalidation-events":
  # Disables invalidation events for each entry; but full-flush invalidation events are still enabled.
  # Full-flush invalidation means the invalidation of events for all entries when clear is called.
  # The default value is false.
  #
  cache:
    default:
      key-type:
        class-name: java.lang.Object
      value-type:
        class-name: java.lang.Object
      statistics-enabled: false
      management-enabled: false
      read-through: true
      write-through: true
      cache-loader-factory:
        class-name: com.example.cache.MyCacheLoaderFactory
      cache-writer-factory:
        class-name: com.example.cache.MyCacheWriterFactory
      expiry-policy-factory:
        class-name: com.example.cache.MyExpirePolicyFactory
      cache-entry-listeners:
        cache-entry-listener:
          old-value-required: false
          synchronous: false
          cache-entry-listener-factory:
            class-name: com.example.cache.MyEntryListenerFactory
          cache-entry-event-filter-factory:
            class-name: com.example.cache.MyEntryEventFilterFactory
      in-memory-format: BINARY
      backup-count: 1
      async-backup-count: 0
      eviction:
        size: 1000
        max-size-policy: ENTRY_COUNT
        eviction-policy: LFU
      wan-replication-ref:
         name: my-wan-cluster-batch
         merge-policy-class-name: PassThroughMergePolicy
         republishing-enabled: true
         filters:
           - com.example.SampleFilter
      split-brain-protection-ref: splitBrainProtectionRuleWithThreeNodes
      partition-lost-listeners:
        - com.your-package.YourPartitionLostListener
      merge-policy:
        batch-size: 100
        class-name: LatestAccessMergePolicy
      hot-restart:
        enabled: false
        fsync: false
      event-journal:
        enabled: false
        capacity: 10000
        time-to-live-seconds: 0
      disable-per-entry-invalidation-events: true

  #
  # ===== HAZELCAST LIST CONFIGURATION =====
  #
  # Configuration element's name is "list". It has the optional attribute "name" with which you
  # can specify the name of your list. This attribute's default value is "default".
  # It has the following sub-elements:
  # * "statistics-enabled":
  # When you enable it, you can retrieve list statistics. Its default value is true.
  # * "max-size":
  # Maximum size of the list (item count). Its default value is 0, meaning Integer.MAX_VALUE.
  # * "backup-count":
  # Number of synchronous backups. List is a non-partitioned data structure, so all entries of a
  # List reside in one partition. If it is set to 1, there will be 1 backup of that List in another
  # member in the cluster. When it is 2, 2 members will have the backup. Its default value is 1.
  # * "async-backup-count":
  # Number of asynchronous backups. Its default value is 0.
  # * "item-listeners":
  # Adds listeners (listener classes) for the List items using its sub-element "item-listener". You can
  # also set its attribute "include-value" to true if you want the item event to contain the item values.
  # * "split-brain-protection-ref":
  # Adds the Split Brain Protection for this data-structure which you configure using the "split-brain-protection" element. You should set the
  # "split-brain-protection-ref"'s value as the "split-brain-protection"'s name.
  #
  list:
    default:
      statistics-enabled: false
      max-size: 0
      backup-count: 1
      async-backup-count: 0
      item-listeners:
        - class-name: com.hazelcast.examples.ItemListener
          include-value: true
      split-brain-protection-ref: splitBrainProtectionRuleWithThreeNodes
      merge-policy:
        batch-size: 100
        class-name: PutIfAbsentMergePolicy

  #
  # ===== HAZELCAST SET CONFIGURATION =====
  #
  # Configuration element's name is "set". It has the optional attribute "name" with which you
  # can specify the name of your set. This attribute's default value is "default".
  # It has the following sub-elements:
  # * "statistics-enabled":
  # When you enable it, you can retrieve set statistics. Its default value is true.
  # * "max-size":
  # Maximum size of the set (item count). Its default value is 0, meaning Integer.MAX_VALUE.
  # * "backup-count":
  # Number of synchronous backups. Set is a non-partitioned data structure, so all entries of a
  # Set reside in one partition. If it is set to 1, there will be 1 backup of that Set in another
  # member in the cluster. When it is 2, 2 members will have the backup. Its default value is 1.
  # * "async-backup-count":
  # Number of asynchronous backups. Its default value is 0.
  # * "item-listeners":
  # Adds listeners (listener classes) for the Set items. You can
  # also set its attribute "include-value" to true if you want the item event to contain the item values.
  # * "split-brain-protection-ref":
  # Adds the Split Brain Protection for this data-structure which you configure using the "split-brain-protection" element. You should set the
  # "split-brain-protection-ref"'s value as the "split-brain-protection"'s name.
  #
  set:
    default:
      backup-count: 1
      async-backup-count: 0
      max-size: 10
      item-listeners:
        - class-name: com.hazelcast.examples.ItemListener
          include-value: true
      split-brain-protection-ref: splitBrainProtectionRuleWithThreeNodes
      merge-policy:
        batch-size: 100
        class-name: PutIfAbsentMergePolicy

  #
  # ===== HAZELCAST TOPIC CONFIGURATION =====
  #
  # Configuration element's name is "topic". It has the optional attribute "name" with which you
  # can specify the name of your topic. This attribute's default value is "default".
  # It has the following sub-elements:
  # * "global-ordering-enabled":
  # When it is set to true, all cluster members that listen to a topic will receive the messages in the
  # same order they were published by all members. This way, Hazelcast guarantees that all members will
  # see the in the same order. Its default value is false.
  # * "statistics-enabled":
  # When you enable it, you can retrieve topic statistics such as total number of published and
  # received messages. Its default value is true.
  # * "message-listeners":
  # Adds listeners (listener classes) for the Topic messages using its sub-element "message-listener".
  # * "multi-threading-enabled":
  # Default is `false`, meaning only one dedicated thread will handle topic messages.
  #     When multi-threading is enabled (true), all threads from event thread pool can be used for message handling.
  #
  topic:
    default:
      global-ordering-enabled: true
      statistics-enabled: true
      message-listeners:
        - com.hazelcast.examples.MessageListener
  #
  # ===== HAZELCAST RELIABLE TOPIC CONFIGURATION =====
  #
  # Reliable Topic uses the same ITopic interface. The main difference is that it is backed up by
  # Hazelcast Ringbuffer data structure. Reliable Topic messages are stored in the Ringbuffer
  # Configuration element's name is "reliable-topic". It has the optional attribute "name" with which you
  # can specify the name of your Reliable Topic, which is the same name you give to your Ringbuffer.
  # This attribute's default value is "default".
  # It has the following sub-elements:
  # * "statistics-enabled":
  #     Enables or disables statistics for this reliable topic.
  #     Collects the creation time, total number of published and received
  #     messages for each member locally. Its default value is true.
  # * "read-batch-size":
  #     Sets the read batch size.
  #     The ReliableTopic tries to read a batch of messages from the ringbuffer.
  #     It will get at least one, but if there are more available, then it will
  #     try to get more to increase throughput. The maximum read batch size can
  #     be influenced using the read batch size.
  #     Apart from influencing the number of messages to retrieve, the
  #     readBatchSize also determines how many messages will be processed
  #     by the thread running the MessageListener before it returns back
  #     to the pool to look for other MessageListeners that need to be
  #     processed. The problem with returning to the pool and looking for new work
  #     is that interacting with an executor is quite expensive due to contention
  #     on the work-queue. The more work that can be done without retuning to the
  #     pool, the smaller the overhead.
  #     If the readBatchSize is 10 and there are 50 messages available,
  #     10 items are retrieved and processed consecutively before the thread goes
  #     back to the pool and helps out with the processing of other messages.
  #     If the readBatchSize is 10 and there are 2 items available,
  #     2 items are retrieved and processed consecutively.
  #     If the readBatchSize is an issue because a thread will be busy
  #     too long with processing a single MessageListener and it can't
  #     help out other MessageListeners, increase the size of the
  #     threadpool so the other MessageListeners don't need to wait for
  #     a thread, but can be processed in parallel.
  # * "topic-overload-policy":
  #     A policy to deal with an overloaded topic; so topic where there is no place to store new messages.
  #     This policy can only be used in combination with the
  #     com.hazelcast.core.HazelcastInstance#getReliableTopic(String).
  #     The reliable topic uses a com.hazelcast.ringbuffer.Ringbuffer to
  #     store the messages. A ringbuffer doesn't track where readers are, so
  #     it has no concept of a slow consumers. This provides many advantages like
  #     high performance reads, but it also gives the ability to the reader to
  #     re-read the same message multiple times in case of an error.
  #     A ringbuffer has a limited, fixed capacity. A fast producer may overwrite
  #     old messages that are still being read by a slow consumer. To prevent
  #     this, we may configure a time-to-live on the ringbuffer (see
  #     com.hazelcast.config.RingbufferConfig#setTimeToLiveSeconds(int).
  #     Once the time-to-live is configured, the TopicOverloadPolicy
  #     controls how the publisher is going to deal with the situation that a
  #     ringbuffer is full and the oldest item in the ringbuffer is not old
  #     enough to get overwritten.
  #     Keep in mind that this retention period (time-to-live) can keep messages
  #     from being overwritten, even though all readers might have already completed reading.
  #     Its default value is BLOCK. Available values are as follows:
  #     - DISCARD_OLDEST:
  #         Using this policy, a message that has not expired can be overwritten.
  #         No matter the retention period set, the overwrite will just overwrite
  #         the item.
  #         This can be a problem for slow consumers because they were promised a
  #         certain time window to process messages. But it will benefit producers
  #         and fast consumers since they are able to continue. This policy sacrifices
  #         the slow producer in favor of fast producers/consumers.
  #     - DISCARD_NEWEST:
  #         Message that was to be published is discarded.
  #     - BLOCK:
  #         The caller will wait until there is space in the Ringbuffer.
  #     - ERROR:
  #         The publish call fails immediately.
  # * "message-listeners":
  #     Adds listeners (listener classes) for the Reliable Topic messages.
  #
  reliable-topic:
    default:
      statistics-enabled: true
      topic-overload-policy: ERROR
      read-batch-size: 10
      message-listeners:
        - com.hazelcast.examples.MessageListener

  #
  # ===== HAZELCAST RINGBUFFER CONFIGURATION =====
  #
  # Configuration element's name is "ringbuffer". It has the required attribute "name" with which you
  # can specify the name of your Ringbuffer.
  # It has the following sub-elements:
  # * "capacity":
  #     Number of items in the Ringbuffer. If no "time-to-live-seconds" is set,
  #     this value will always be equal to the capacity after the head completes
  #     the first loop around the ring. This is because no items are being
  #     expired. Its default value is 10000.
  # * "time-to-live-seconds":
  #     Sets the time to live in seconds which is the maximum number of seconds
  #     for each item to stay in the ringbuffer before being removed.
  #     Entries that are older than time-to-live-seconds are removed from the
  #     ringbuffer on the next ringbuffer operation (read or write).
  #     Time to live can be disabled by setting time-to-live-seconds to 0.
  #     It means that items won't get removed because they expire. They may only
  #     be overwritten.
  #     When time-to-live-seconds is disabled and after the tail does a full
  #     loop in the ring, the ringbuffer size will always be equal to the capacity.
  #     The time-to-live-seconds can be any integer between 0 and Integer#MAX_VALUE.
  #     0 means infinite. The default is 0.
  # * "backup-count":
  #     Number of synchronous backups. For example, if it is set to 1, then the Ringbuffer items
  #     are copied to one other member for fail-safety. Its default value is 1.
  # * "async-backup-count":
  #     Number of asynchronous backups. Its default value is 0.
  # * "in-memory-format":
  #     Sets the in-memory format.
  #     Setting the in-memory format controls the format of the stored item in the
  #     ringbuffer:
  #     - OBJECT: the item is stored in deserialized format (a regular object)
  #     - BINARY (default): the item is stored in serialized format (a binary blob)
  #     The object in-memory format is useful when:
  #     - the object stored in object format has a smaller footprint than in
  #     binary format
  #     - if there are readers using a filter. Since for every filter
  #     invocation, the object needs to be available in object format.
  # * "ringbuffer-store":
  #     Includes the Ringbuffer store factory class name and property configurations.
  #     The store format is the same as the in-memory-format for the Ringbuffer.
  # * "split-brain-protection-ref":
  #     Adds the Split Brain Protection for this data-structure which you configure
  #     using the "split-brain-protection" element. You should set the "split-brain-protection-ref"'s value as
  #     the "split-brain-protection"'s name.
  #
  ringbuffer:
    default:
      capacity: 10000
      time-to-live-seconds: 0
      backup-count: 1
      async-backup-count: 0
      in-memory-format: BINARY
      ringbuffer-store:
        class-name: com.hazelcast.RingbufferStoreImpl
        properties:
          prop1: prop1-value
          prop2: prop2-value
      split-brain-protection-ref: splitBrainProtectionRuleWithThreeNodes
      merge-policy:
        class-name: PutIfAbsentMergePolicy

  #
  # ===== HAZELCAST FLAKE ID GENERATOR CONFIGURATION =====
  # Configuration element's name is "flake-id-generator". It has the required attribute "name" with which you
  # can specify the name of your Flake ID generator.
  # It has the following sub-elements:
  #
  # * "prefetch-count":
  #     Sets how many IDs are pre-fetched on the background when one call to
  #     FlakeIdGenerator.newId() is made. Value must be in the range 1..100,000, default
  #     is 100.
  #
  #     This setting pertains only to newId() calls made on the member that configured it.
  #
  # * "prefetch-validity-millis":
  #     Sets for how long the pre-fetched IDs can be used. If this time elapses, a new batch of IDs
  #     will be fetched. Time unit is milliseconds, default is 600,000 (10 minutes).
  #
  #     The IDs contain timestamp component, which ensures rough global ordering of IDs. If an
  #     ID is assigned to an object that was created much later, it will be much out of order. If you
  #     don't care about ordering, set this value to 0.
  #
  #     This setting pertains only to newId() calls made on the member that configured it.
  #
  # * "epoch-start":
  #     Sets the offset of timestamp component. Time unit is milliseconds, default is 1514764800000
  #     (1.1.2018 0:00 UTC).
  #
  # * "node-id-offset":
  #     Sets the offset that will be added to the node ID assigned to cluster member for this generator.
  #     Might be useful in A/B deployment scenarios where you have cluster A which you want to upgrade.
  #     You create cluster B and for some time both will generate IDs and you want to have them unique.
  #     In this case, configure node ID offset for generators on cluster B.
  #
  # * "bits-sequence":
  #     Sets the bit-length of the sequence component, default is 6 bits.
  #
  # * "bits-node-id":
  #     Sets the bit-length of node id component. Default value is 16 bits.
  #
  # * "allowed-future-millis":
  #     Sets how far to the future is the generator allowed to go to generate IDs without blocking, default is
  #     15 seconds.
  #
  # * "statistics-enabled":
  #     When you enable it, you can retrieve the Flake ID generators statistics. Its default value is true.
  #
  flake-id-generator:
    default:
      prefetch-count: 100
      prefetch-validity-millis: 600000
      epoch-start: 1514764800000
      node-id-offset: 0
      bits-sequence: 6
      bits-node-id: 16
      allowed-future-millis: 15000
      statistics-enabled: true

  #
  # ===== HAZELCAST LISTENER CONFIGURATIONS =====
  #
  # Configuration used to register the listeners that you created by implementing Hazelcast's
  # MembershipListener, DistributedObjectListener, MigrationListener and PartitionLostListener interfaces.
  #
  listeners:
    - your-package.YourMembershipListener
    - your-package.YourDistributedObjectListener
    - your-package.YourMigrationListener
    - your-package.YourPartitionLostListener
  #
  # ===== HAZELCAST SERIALIZATION CONFIGURATION =====
  #
  # Configuration element's name is "serialization".
  # It has the following sub-elements:
  # * "portable-version":
  #     Version of the portable serialization. Portable version is used to differentiate two
  #     of the same classes that have changes such as a new field or a new field type.
  # * "use-native-byte-order":
  #     Set as true if you want to use the native byte order of the underlying platform. Its default value is false.
  # * "byte-order":
  #     Specifies the byte order that the serialization will use. Its default value is BIG_ENDIAN. Available values
  #     are BIG_ENDIAN and LITTLE_ENDIAN.
  # * "enable-compression":
  #     Set as true to enable compression when default Java serialization is used. Its default value is false.
  # * "enable-shared-object":
  #     Set as true to enable shared object when default Java serialization is used. Its default value is false.
  # * "allow-unsafe":
  #     Set as true to allow the usage of unsafe. Its default value is false.
  # * "data-serializable-factories":
  #     Lists your class implementations of Hazelcast's DataSerializableFactory. Each factory has the required
  #     "factory-id" attribute that you should give as the ID of your factory.
  # * "portable-factories":
  #     Lists your class implementations of Hazelcast's PortableFactory. Each factory has the required "factory-id"
  #     attribute that you should give as the ID of your factory.
  # * "global-serializer":
  #     Global serializer should be defined with "global-serializer" element. It has an optional boolean
  #     "override-java-serialization" attribute. If you set it as true, the Java serialization step will be handled by the
  #     global serializer, not by the Java Serializable or Externalizable
  # * "serializers":
  #     Lists the serializers (classes) that you implement using Hazelcast's StreamSerializer, ByteArraySerializer etc.
  #
  #     The serializer sub-elements has two required attributes:
  #     - class-name: Full class name of the serializer you implemented.
  #     - type-class: Type of your serializer class implementation.
  #
  # * "check-class-def-errors":
  #     If set to true, serialization system will check the class definitions error at the start of serialization process
  #     and throw a Serialization Exception with the error definition.
  # * "java-serialization-filter":
  #     Allows to configure blacklisting and whitelisting for deserialized classes when Java serialization is used.
  #
  serialization:
    portable-version: 0
    use-native-byte-order: false
    byte-order: BIG_ENDIAN
    data-serializable-factories:
      - factory-id: 1
        class-name: com.hazelcast.examples.DataSerializableFactory
    portable-factories:
      - factory-id: 1
        class-name: com.hazelcast.examples.PortableFactory
    global-serializer:
      class-name: com.hazelcast.examples.GlobalSerializerFactory
    serializers:
      - type-class: com.hazelcast.examples.DummyType
        class-name: com.hazelcast.examples.SerializerFactory
    check-class-def-errors: true
    java-serialization-filter:
      defaults-disabled: true
      blacklist:
        class:
          - com.acme.app.BeanComparator
      whitelist:
        class:
          - java.lang.String
          - example.Foo
        package:
          - com.acme.app
          - com.acme.app.subpkg
        prefix:
          - com.hazelcast.
          - java
  #
  # ===== HAZELCAST HIGH-DENSITY MEMORY STORE CONFIGURATION =====
  #
  # This feature is available only in Hazelcast Enterprise HD. Configuration element's name is
  # "native-memory".
  # It has the following attributes:
  # - enabled:
  #     Set as true to enable the High-Density Memory Store usage. Its default value is false.
  # - allocator-type:
  #     Type of the memory allocator. Its default value is POOLED. Available values are as follows:
  # * STANDARD: Allocates/frees the memory using default OS memory manager.
  # * POOLED: Manages memory blocks in thread local pools.
  #
  # It has the following sub-elements:
  # - "size":
  #     Size of the total native memory to allocate. You can give the size using its "value" attribute and the unit
  #     using its "unit" attribute. Unit can be bytes, kilobytes, megabytes and gigabytes. Default value is 128 and
  #     default unit is MEGABYTES.
  # - "min-block-size":
  #     Minimum size of the blocks in bytes to split and fragment a page block to assign to an allocation request.
  #     It is used only by the POOLED memory allocator. The value has to be power of two.  Default value is 16.
  # - "page-size":
  #     Size of the page in bytes to allocate memory as a block. It is used only by the POOLED memory allocator. Its
  #     default value is 1 << 22 (about 4 MB).
  # - "metadata-space-percentage":
  #     Percentage of the allocated native memory that is used for the metadata such as indexes, offsets, etc. It is
  #     used only by the POOLED memory allocator. Its default value is 12.5.
  # - "persistent-memory-directory":
  #     Simple configuration option for a single directory where the non-volatile memory (e.g. Intel Optane) is mounted.
  #     This should be used only on single-socket systems as only one directory can be defined. On multi-socket systems
  #     use  instead.
  #     If neither this or  elements are defined, the RAM is used as native memory. This directory
  #     will be created automatically if it does not exist. To avoid collisions, every member of the cluster will create
  #     its own subfolder to work with the non-volatile memory.
  # - "persistent-memory":
  #     Specifies the configuration for the non-volatile memory (e.g. Intel Optane) in the system. Under this configuration
  #     section multiple directories can be listed with optionally specifying the NUMA node the non-volatile memory mounted
  #     in the given directory is attached to for NUMA-aware allocations. If neither this or the
  #      elements are defined, the RAM is used as native memory. The directories defined under
  #     this section will be created automatically if they do not exist. To avoid collisions, every member of the cluster
  #     will create its own subfolder to work with the non-volatile memory.
  #
  native-memory:
    enabled: true
    allocator-type: POOLED
    size:
      unit: MEGABYTES
      value: 256
    min-block-size: 32
    page-size: 4194304
    metadata-space-percentage: 12.5
    # Simple configuration for single-socket machines with non-volatile memory
    # persistent-memory-directory: /mnt/optane
    # Advanced configuration for non-volatile memory
    persistent-memory:
      enabled: true
      mode: MOUNTED
      directories:
        - directory: /mnt/pmem0
          numa-node: 0
        - directory: /mnt/pmem1
          numa-node: 1
  #
  # ===== HAZELCAST SECURITY CONFIGURATION =====
  #
  # This feature is available only in Hazelcast Enterprise. Configuration element's name is "security".
  # It has the following attributes and sub-elements:
  # * enabled:
  #     Set to true to enable Hazelcast's security features.
  # * realms:
  #     Defines set of named security realms
  # * member-authentication
  #     Maps member authentication to a realm name. It has the "realm" attribute.
  # * client-authentication
  #     Maps client authentication to a realm name. It has the "realm" attribute.
  # * "client-permission-policy":
  #     Specifies the name and properties of your class that you developed by implementing Hazelcast's
  #     IPermissionPolicy interface, which is the default permission policy (com.hazelcast.security.IPermissionPolicy).
  #     This policy defines the client authorization specifications.
  # * "client-permissions":
  #     Lists the client permissions that can be accessed by the client permission policy. For each permission, you
  #     need to provide the end points and actions to be permitted. Also, the name and principal for each permission
  #     should be given using the "name" and "principal" attributes. Please see
  #     http://docs.hazelcast.org/docs/latest/manual/html-single/index.html#permissions for all permissions and actions.
  # * "security-interceptor"
  #     Specifies the security interceptor class that you developed by implementing Hazelcast's SecurityInterceptor
  #     interface to intercept every remote operation executed by a client.
  # * "client-block-unmapped-actions"
  #     Specifies whether to block (true) or allow (false) actions, submitted as tasks in an Executor from
  #     the clients and have no permission mappings.
  #
  #  HAZELCAST SECURITY REALMS
  #  Security realms are named security configurations which can be referenced from Hazelcast security configuration.
  #  Currently, the realms support configuring  and/or . Only one type of authentication
  #  configuration and one type of identity configuration is allowed per the realm.
  #  Authentication types:
  #  * jaas
  #      Defines JAAS authentication - i.e. list of  and its optional 
  #  * tls
  #      TLS defines X.509 based authentication (for cases when SSL mutual authentication is configured
  #      in Hazelcast network configuration)
  #  * ldap
  #      LDAP based authentication
  #  Identity configuration types:
  #  * credentials-factory
  #      Specifies the name and properties of your class that you developed by implementing Hazelcast's Credentials
  #      interface.
  #      This element has a mandatory "class-name" attribute where you should define the factory class implementing
  #      ICredentialsFactory used to create Credentials objects.
  #      With the  sub-element, you can define properties for the factory class. The properties can be
  #      defined with the  sub-element nested in the . The  element has the attribute
  #      "name" used to define the name of the attribute. The value of the property is defined in the body.
  #  * username-password
  #      Defines a static UsernamePasswordCredentials instance as the member's identity. It has mandatory
  #       "username" and "password" attributes.
  #  * token
  #      Defines a static TokenCredentials instance as the client's identity. It has a "value" and
  #      it can have also "encoding" defined.
  security:
    enabled: false
    realms:
      - name: mr
        authentication:
          jaas:
            - class-name: com.hazelcast.examples.MyRequiredLoginModule
              usage: REQUIRED
              properties:
                property: value
        identity:
          credentials-factory:
            class-name: com.hazelcast.examples.MyCredentialsFactory
            properties:
              property: value
      - name: cr
        authentication:
          jaas:
            - class-name: com.hazelcast.examples.MyOptionalLoginModule
              usage: OPTIONAL
              properties:
                property: value
            - class-name: com.hazelcast.examples.MyRequiredLoginModule
              usage: REQUIRED
              properties:
                property: value
      - name: ldapRealm
        authentication:
          ldap:
             url: ldap://ldap.my-company.example
             socket-factory-class-name: socketFactoryClassName
             parse-dn: true
             role-context: roleContext
             role-filter: roleFilter
             role-mapping-attribute: roleMappingAttribute
             role-mapping-mode: reverse
             role-name-attribute: roleNameAttribute
             role-recursion-max-depth: 25
             role-search-scope: object
             user-name-attribute: userNameAttribute
             system-user-dn: systemUserDn
             system-user-password: systemUserPassword
             system-authentication: simple
             security-realm: realmName
             password-attribute: passwordAttribute
             user-context: userContext
             user-filter: userFilter
             user-search-scope: one-level
      - name: tlsRealm
        authentication:
          tls:
             roleAttribute: cn
      - name: usernamePasswordIdentityRealm
        identity:
          username-password:
             username: user
             password: Hazelcast
      - name: tokenIdentityRealm
        identity:
          token:
             encoding: base64
             value: SGF6ZWxjYXN0
      - name: kerberosRealm
        authentication:
          kerberos:
            skip-role: true
            relax-flags-check: true
            use-name-without-realm: true
            security-realm: krb5Acceptor
            ldap:
              url: ldap://127.0.0.1/
              system-authentication: GSSAPI
              security-realm: krb5Initiator
              skip-authentication: true
              user-filter: "(krb5PrincipalName={login})"
              role-mapping-attribute: cn
        identity:
          kerberos:
            realm: HAZELCAST.COM
            security-realm: krb5Initiator
            service-name-prefix: hz/
            use-canonical-hostname: true
            spn: hz/[email protected]
      - name: simpleKerberosRealm
        authentication:
          kerberos:
            principal: hz/[email protected]
            keytab-file: /opt/localhost.keytab
        identity:
          kerberos:
            realm: HAZELCAST.COM
            principal: hz/[email protected]
            keytab-file: /opt/localhost.keytab
      - name: krb5Acceptor
        authentication:
          jaas:
            - class-name: com.sun.security.auth.module.Krb5LoginModule
              usage: REQUIRED
              properties:
                isInitiator: false
                useTicketCache: false
                doNotPrompt: true
                useKeyTab: true
                storeKey: true
                principal: hz/[email protected]
                keyTab: /opt/hz-localhost.keytab
      - name: krb5Initiator
        authentication:
          jaas:
            - class-name: com.sun.security.auth.module.Krb5LoginModule
              usage: REQUIRED
              properties:
                isInitiator: true
                useTicketCache: false
                doNotPrompt: true
                useKeyTab: true
                storeKey: true
                principal: hz/[email protected]
                keyTab: /opt/hz-localhost.keytab
    member-authentication:
      realm: mr
    client-authentication:
      realm: cr
    client-permission-policy:
      class-name: com.hazelcast.examples.MyPermissionPolicy
      properties:
        property: value
    client-permissions:
      on-join-operation: RECEIVE
      all:
        principal: admin
        endpoints:
          - 127.0.0.1
      config:
        endpoints:
          - 127.0.0.1
      transaction:
        endpoints:
          - 127.0.0.1
      map:
        - name: custom
          principal: dev
          endpoints:
            - 127.0.0.1
          actions:
            - create
            - destroy
            - put
            - read
      queue:
        - name: "*"
          actions:
            - all
      topic:
        - name: "*"
          actions:
            - all
      multimap:
        - name: "*"
          actions:
            - all
      list:
        - name: "*"
          actions:
            - all
      set:
        - name: "*"
          actions:
            - all
      flake-id-generator:
        - name: "*"
          actions:
            - all
      lock:
        - name: "*"
          actions:
            - all
      atomic-long:
        - name: "*"
          actions:
            action: all
      countdown-latch:
        - name: "*"
          actions:
            - all
      semaphore:
        - name: "*"
          actions:
            - all
      executor-service:
        - name: "*"
          actions:
            - all
      durable-executor-service:
        - name: "*"
          actions:
            - all
      cardinality-estimator:
        - name: "*"
          actions:
            - all
      scheduled-executor:
        - name: "*"
          actions:
            - all
      cache:
        - name: "*"
          actions:
            - all
      user-code-deployment:
        - name: "*"
          actions:
            - all
      pn-counter:
        - name: "*"
          actions:
            - all
      replicatedmap:
        - name: "*"
          actions:
            - all
    client-block-unmapped-actions: true
    security-interceptors:
      - com.your-package.YourSecurityInterceptorImplementation
  #
  # ===== HAZELCAST MEMBER ATTRIBUTE CONFIGURATION =====
  #
  # You can define member attributes for your Hazelcast members to tag your members according to your
  # business logic requirements. Configuration element's name is "member-attributes". You can list
  # each member attribute by their name. For each attribute, you need to provide its
  # type and value.
  #
  member-attributes:
    CPU_CORE_COUNT:
      type: int
      value: 4
    CPU_CORE_FREQ:
      type: int
      value: 1033
  #
  # ===== HAZELCAST SPLIT BRAIN PROTECTION CONFIGURATION =====
  #
  # Configuration element's name is "split-brain-protection".
  # It has the following attributes:
  # * name:
  #     Name of your split brain protection. This name will be given as the value for "split-brain-protection-ref"
  #     element in the data structure configuration for which you want to define a split brain protection.
  #     Currently, IMap, TransactionalMap and Cache structures support split brain protection.
  # * enabled:
  #     Specifies whether this split brain protection is enabled.
  #
  # It has the following sub-elements:
  # * "minimum-cluster-size":
  #     The minimum number of members required in a cluster for the cluster to remain in an
  # operational state. If the number of members is below the defined minimum at any time,
  # the operations are rejected and the rejected operations return a SplitBrainProtectionException to
  # their callers.
  # * "protect-on":
  #     Specifies for which operations the split brain protection will be applied. Available values are
  #     READ, WRITE and READ_WRITE.
  # * "function-class-name":
  #     Name of the class that you develop by implementing Hazelcast's SplitBrainProtectionFunction interface to
  #     conclude the absence/presence of your split brain protection. This function is triggered when any change
  #     happens to the member list.
  # * "listeners":
  #     Provides the list of split brain protection listeners that you can register to be notified about
  #     split brain protection results.
  #     Each listener is specified by "listener" sub-element. Split brain protection listeners are local to the member
  #     that they are registered, so they receive only events occurred on that local member.
  #
  split-brain-protection:
    splitBrainProtectionRuleWithThreeMembers:
      enabled: true
      minimum-cluster-size: 3
      protect-on: READ_WRITE
      function-class-name: com.your-package.AbsPresMySplitBrainProtection
      listeners:
        - com.your-package.ThreeMemberSplitBrainProtectionListener
  #
  # ===== HAZELCAST LITE MEMBER CONFIGURATION =====
  #
  # Configuration element's name is "lite-member". When you want to use a Hazelcast member as a lite member,
  # set this element's "enabled" attribute to true in that member's YAML configuration. Lite members do not store
  # data and are used mainly to execute tasks and register listeners. They do not have partitions.
  #
  lite-member:
    enabled: true
  #
  # ===== HAZELCAST HOT RESTART PERSISTENCE CONFIGURATION =====
  #
  # This feature is available only in Hazelcast Enterprise HD. Configuration element's name is
  # "hot-restart-persistence". It has the required attribute "enabled" to specify whether this feature will be enabled
  # on your cluster. This part is the feature's configuration itself and you define the general specifications for
  # the feature. However, note that "map" and "cache" have a sub-element called "hot-restart" with which you should
  # enable its usage on those data structures. Keep in mind that the Hot Restart feature is currently supported for
  # Hazelcast's map and cache data structures.
  # It has the following sub-elements:
  # * "base-dir":
  #     Specifies the directory where the Hot Restart data will be stored. Its default value is hot-restart.
  #     You can use the default value, or you can specify another folder.
  #     This directory will be created automatically if it does not exist.
  # * "backup-dir":
  #     Specifies the directory where the Hot backup data will be stored. If this element is not defined, hot backup will
  #     be disabled. If a directory is defined which does not exist, it will be created on first backup. To avoid clashing data
  #     on multiple backups, each backup has a unique sequence ID which determines the name of the directory which will
  #     contain all hot restart data. This unique directory is created as a subdirectory of the configured `backup-dir`.
  # * "parallelism":
  #     Level of parallelism in Hot Restart Persistence. There will be this many IO threads,
  #     each writing in parallel to its own files. During the Hot Restart procedure, this many
  #     IO threads will be reading the files and this many Rebuilder threads will be rebuilding
  #     the Hot Restart metadata.
  # * "validation-timeout-seconds":
  #     Validation timeout for the Hot Restart process when validating the cluster members expected to join and the partition
  #     table on the whole cluster.
  # * "data-load-timeout-seconds":
  #     Data load timeout for the Hot Restart process. All members in the cluster should finish restoring their local data
  #     before this timeout period.
  # * "cluster-data-recovery-policy":
  #     Specifies the data recovery policy that will be respected during Hot Restart cluster start. Valid values are;
  #     FULL_RECOVERY_ONLY: Starts the cluster only when all expected members are present and correct. Otherwise, it fails.
  #     This is the default value.
  #     PARTIAL_RECOVERY_MOST_RECENT: Starts the cluster with the members which have most up-to-date partition table and
  #     successfully restored their data. All other members will leave the cluster and force start themselves. If no member
  #     restores its data successfully, cluster start fails.
  #     PARTIAL_RECOVERY_MOST_COMPLETE: Starts the cluster with the largest group of members which have the same partition
  #     table version and successfully restored their data. All other members will leave the cluster and force start themselves.
  #     If no member restores its data successfully, cluster start fails.
  # * "encryption-at-rest":
  #     Specifies the (optional) encryption settings for Hot Restart persistence. It has the required attribute "enabled"
  #     to specify whether encryption is enabled. In addition to that, it specifies the symmetric cipher to use (such as
  #     AES/CBC/PKCS5Padding), the encryption salt, the key size for generating encryption keys and, in the "secure-store"
  #     sub-element, the configuration of the Secure Store that it will be used to retrieve the encryption keys.
  #          * :
  #              Provides integration with Java KeyStore. Specifies the path to the KeyStore file, the KeyStore type (such as
  #              PKCS12 or JCEKS), the KeyStore password, an (optional) alias for the current encryption key entry, and
  #              (optionally) a polling interval for checking for changes in the KeyStore.
  #          * :
  #              Provides integration with HashiCorp Vault. Specifies the address of the Vault server, the (optional) secrets
  #              engine path, the secret path where the encryption key is stored, the access token, the (optional) namespace,
  #              the (optional)  configuration for HTTPS support, and an (optional) polling interval for checking for
  #              changes in Vault.
  #
  hot-restart-persistence:
    enabled: true
    base-dir: /mnt/hot-restart
    backup-dir: /mnt/hot-backup
    validation-timeout-seconds: 120
    data-load-timeout-seconds: 900
    cluster-data-recovery-policy: PARTIAL_RECOVERY_MOST_COMPLETE
    encryption-at-rest:
      enabled: true
      algorithm: AES/CBC/PKCS5Padding
      salt: somesalt
      key-size: 16
      secure-store:
        keystore:
          path: /path/to/keystore.file
          type: PKCS12
          password: password
          current-key-alias: current
          polling-interval: 60
  #     vault:
  #       address: http://localhost:1234
  #       secret-path: secret/path
  #       token: token
  #       polling-interval: 60
  #       ssl:
  #         enabled: false
  #         factory-class-name: com.hazelcast.nio.ssl.BasicSSLContextFactory
  #         properties:
  #           protocol: TLS
  #           mutualAuthentication: REQUIRED
  #           keyStore: /opt/hazelcast.keystore
  #           keyStorePassword: secret.97531
  #           keyStoreType: JKS
  #           trustStore: /opt/hazelcast.truststore
  #           trustStorePassword: changeit
  #           trustStoreType: JKS

  #
  # ===== HAZELCAST USER CODE DEPLOYMENT CONFIGURATION =====
  #
  # Configuration element's name is "user-code-deployment". It has the required attribute "enabled" to
  # specify whether this feature will be enabled on your cluster.
  # It has the following sub-elements:
  # * "class-cache-mode":
  #     Controls the local caching behavior for the classes loaded from the remote class repository.
  #     Available values are as follows:
  #     ETERNAL: Cache the loaded classes locally. This is the default value and suitable when you load long-living objects,
  #     such as domain objects stored in a map.
  #     OFF: Do not cache the loaded classes locally.
  # * "provider-mode":
  #     Controls how the classes are served to the other cluster members. Available values are as follows:
  #     LOCAL_AND_CACHED_CLASSES: Serve classes loaded from both local classpath and from other members.
  #     This is the default value.
  #     LOCAL_CLASSES_ONLY: Serve classes from the local classpath only. Classes loaded from other members
  #     will be used locally, but they are not served to other members.
  #     OFF: Never serve classes to other members.
  # * "blacklist-prefixes":
  #     Comma separated name prefixes of classes/packages to be prevented from dynamic class loading.
  #     For example, if you set it as "com.foo", remote loading of all classes from the "com.foo" package
  #     will be blacklisted, including the classes from all its sub-packages. If you set it as "com.foo.Class",
  #     then the "Class" and all classes having the "Class" as prefix in the "com.foo" package will be blacklisted.
  # * "whitelist-prefixes":
  #     Comma separated name prefixes of classes/packages only from which the classes will be loaded. It allows
  #     to quickly configure remote loading only for classes from selected packages. It can be used together
  #     with blacklisting. For example, you can whitelist the prefix "com.foo" and blacklist the prefix "com.foo.secret".
  # * "provider-filter":
  #     Filter to constraint members to be used for a class loading request when a class is not available
  #     locally. The value is in the format "HAS_ATTRIBUTE:foo". When it is set as "HAS_ATTRIBUTE:foo", the class
  #     loading request will only be sent to the members which have "foo" as a member attribute.
  #
  user-code-deployment:
    enabled: true
    class-cache-mode: ETERNAL
    provider-mode: LOCAL_CLASSES_ONLY
    blacklist-prefixes: com.foo
    whitelist-prefixes: com.bar.MyClass
    provider-filter: HAS_ATTRIBUTE:lite
  #
  # ===== HAZELCAST CRDT REPLICATION CONFIGURATION =====
  #
  # Configures the replication mechanism for all CRDT implementations.
  # The CRDT states are replicated in rounds (the period is configurable) and in each round the state is replicated
  # up to the configured number of members.
  # It has the following sub-elements:
  # * "max-concurrent-replication-targets":
  #     The maximum number of target members that we replicate the CRDT states to in one period. A higher count
  #     will lead to states being disseminated more rapidly at the expense of burst-like behaviour - one update
  #     to a CRDT will lead to a sudden burst in the number of replication messages in a short time interval.
  # * "replication-period-millis":
  #     The period between two replications of CRDT states in milliseconds. A lower value will increase the
  #     speed at which changes are disseminated to other cluster members at the expense of burst-like behaviour - less
  #     updates will be batched together in one replication message and one update to a CRDT may cause a sudden
  #     burst of replication messages in a short time interval. The value must be a positive non-null integer.
  #
  crdt-replication:
    max-concurrent-replication-targets: 1
    replication-period-millis: 1000

  #
  # ===== HAZELCAST PN COUNTER CONFIGURATION =====
  #
  # Configuration element's name is "pn-counter". It has the optional attribute "name" with which you
  # can specify the name of your PN counter. Its default value is "default".
  # It has the following sub-elements:
  # * "replica-count":
  #    Number of replicas on which the CRDT state will be kept. The updates are replicated
  #    asynchronously between replicas.
  #    The number must be greater than 1 and up to 2147483647 (Integer.MAX_VALUE).
  #    The default value is 2147483647 (Integer.MAX_VALUE).
  # * "split-brain-protection-ref":
  #    Adds the Split Brain Protection for this data-structure which you configure using the "split-brain-protection" element. You should set
  #    the "split-brain-protection-ref"'s value as the "split-brain-protection"'s name.
  # * "statistics-enabled":
  #     When you enable it, you can retrieve the PN counter statistics. Its default value is true.
  #
  pn-counter:
    default:
      replica-count: 2147483647
      split-brain-protection-ref: splitBrainProtectionRuleWithThreeNodes
      statistics-enabled: true

  #
  #  ===== HAZELCAST ADVANCED NETWORK CONFIGURATION =====
  #
  #  The advanced network configuration provides fine-tuning capabilities for
  #  configuring network with the ability of defining separate server sockets for
  #  different protocols, such as for member-member and member-client
  #  communication. This configuration renders exclusive or relation with the
  #  generic "network" configuration element.
  #
  #  The "advanced-network" element has the following sub-elements:
  #  * "enabled":
  #     Indicates whether the advanced network configuration is enabled or not. Default is false.
  #  * "join":
  #      This configuration lets you choose a discovery mechanism that Hazelcast will use to form a cluster.
  #      Hazelcast can find members by multicast, TCP/IP lists and by various discovery mechanisms provided by different cloud APIs.
  #      The following are the elements of "join":
  #      - "multicast":
  #          It has the following sub-elements to fine tune the multicast discovery.
  #          - "enabled":
  #              Specifies whether multicast discovery is enabled. Default value is true.
  #          - "loopbackModeEnabled":
  #              Specifies if the loopback mode is enabled for multicast discovery. Default value is false.
  #          - "multicast-group":
  #              Specifies the multicast group IP address when you want to create clusters within
  #              the same network. Its default value is 224.2.2.3.
  #          - "multicast-port":
  #              Specifies the multicast socket port that the Hazelcast member listens to and
  #              sends discovery messages through. Its default value is 54327.
  #          - "multicast-time-to-live":
  #              Time-to-live value for multicast packets sent out to control the scope of multicasts.
  #          - "multicast-timeout-seconds":
  #              Only when the members are starting up, this timeout (in seconds) specifies the
  #              period during which a member waits for a multicast response from another node.
  #              For example, if you set it as 60 seconds, each node will wait for 60 seconds until a
  #              leader node is selected. Its default value is 2 seconds.
  #          - "trusted-interfaces":
  #              Includes IP addresses of trusted members. When a node wants to join to the cluster,
  #              its join request will be rejected if it is not a trusted member.
  #              You can give an IP addresses range using the wildcard (*) on the last digit of
  #              IP address (e.g. 192.168.1.* or 192.168.1.100-110).
  #      - "tcp-ip":
  #          It has the following sub-elements.
  #          - "enabled":
  #              Specifies whether the TCP/IP discovery is enabled or not. Default value is false.
  #          - "connection-timeout-seconds":
  #              The maximum amount of time Hazelcast is going to try to connect to a well known member
  #              before giving up. Setting it to a too low value could mean that a member is not able
  #              to connect to a cluster. Setting it to a too high value means that member startup could
  #              slow down because of longer timeouts (e.g. when a well known member is not up). Increasing
  #              this value is recommended if you have many IPs listed and the members cannot properly
  #              build up the cluster. Its default value is 5.
  #          - "required-member":
  #              IP address of the required member. Cluster will only be formed if the member with this
  #              IP address is found.
  #          - "member":
  #              IP address(es) of one or more well known members. Once members are connected to these
  #              well known ones, all member addresses will be communicated with each other. You can
  #              also give comma separated IP addresses using the "members" element or list the members
  #              with the "member" element under "member-list".
  #          - "members":
  #              Comma separated IP addresses of one or more well known members.
  #          - "member-list":
  #              Sequence of IP address(es) of one or more well known members.
  #          - "interface":
  #              IP address(es) of one or more well known members.
  #      - "aws":
  #          Set its "enabled" sub-element to true for discovery within Amazon EC2.
  #          Please refer to https://github.com/hazelcast/hazelcast-aws/#configuration for the configuration details.
  #      - "gcp":
  #          Set its "enabled" sub-element to true for discovery within the Google Cloud Platform.
  #          Please refer to https://github.com/hazelcast/hazelcast-gcp/#configuration for the configuration details.
  #      - "azure":
  #          Set its "enabled" sub-element to true for discovery within Microsoft Azure.
  #          Please refer to https://github.com/hazelcast/hazelcast-azure/#configuring-at-hazelcast-side for
  #          the configuration details.
  #      - "kubernetes":
  #          Set its "enabled" sub-element to true for discovery in the Kubernetes environment.
  #          Please refer to https://github.com/hazelcast/hazelcast-kubernetes#hazelcast-configuration for
  #          the configuration details.
  #      - "eureka":
  #          Set its "enabled" sub-element to true for discovery with using Eureka Service Registry.
  #          Please refer to https://github.com/hazelcast/hazelcast-eureka#hazelcast-configuration for
  #          the configuration details.
  #      - "discovery-strategies":
  #          Set its "enabled" sub-element to true for discovery in various cloud infrastructures. You also need to set the
  #          value of "hazelcast.discovery.enabled" property to true. See the description of the "properties" element
  #          to learn how to do this.
  #          You can define multiple discovery strategies using the "discovery-strategy" sub-element and its
  #          properties. Please refer to
  #          http://docs.hazelcast.org/docs/latest/manual/html-single/index.html#discovering-cluster-members
  #          to see the properties you can use.
  #          The following is an example for EC2 cloud.
  #          discovery-strategies:
  #              - enabled: true
  #                class: com.hazelcast.jclouds.JCloudsDiscoveryStrategy
  #                properties:
  #                  provider: aws-ec2
  #                  identity: AWS_IDENTITY
  #                  credential: AWS_CREDENTIAL
  #  * "member-address-provider":
  #      IMPORTANT
  #      This configuration is not intended to provide addresses of other cluster members with
  #      which the Hazelcast instance will form a cluster. This is an SPI for advanced use in
  #      cases where the DefaultAddressPicker does not pick suitable addresses to bind to
  #      and publish to other cluster members. For instance, this could allow easier
  #      deployment in some cases when running on Docker, AWS or other cloud environments.
  #      That said, if you are just starting with Hazelcast, you will probably want to
  #      set the member addresses by using the tcp-ip or multicast configuration
  #      or adding a discovery strategy.
  #      Member address provider allows to plug in own strategy to customize:
  #         1. What address Hazelcast will bind to
  #         2. What address Hazelcast will advertise to other members on which they can bind to
  #      In most environments you don't need to customize this and the default strategy will work just
  #      fine. However in some cloud environments the default strategy does not make the right choice and the
  #      member address provider delegates the process of address picking to external code.
  #      It has the following sub-elements:
  #          - enabled:
  #              Specifies whether the member address provider SPI is enabled or not. Its default value is false.
  #          - "class-name":
  #              The name of the class implementing the com.hazelcast.spi.MemberAddressProvider interface.
  #          - "properties":
  #              The properties that will be provided when constructing the provided MemberAddressProvider. Hazelcast will
  #              first try instantiating the provided class by invoking a constructor accepting a single
  #              java.util.Properties instance. In the case where there is no such constructor and there are also
  #              no properties defined by this configuration, Hazelcast will exceptionally try to use the no-arg
  #              constructor.
  #  * "failure-detector":
  #      A failure detector is responsible to determine if a member in the cluster is unreachable or crashed.
  #      Please refer to https://docs.hazelcast.org/docs/latest/manual/html-single/index.html#failure-detector-configuration
  #      for the failure detectors implemented by Hazelcast.
  #
  #      This element has the following sub-element:
  #      * "icmp":
  #          ICMP can be used in addition to the other detectors. It operates at layer 3 and detects network
  #          and hardware issues more quickly.
  #
  #          It has the following sub-elements:
  #          * "timeout-milliseconds":
  #              Timeout in Milliseconds before declaring a failed ping.
  #          * "fail-fast-on-startup":
  #              Cluster Member will fail to start if it is unable to action an ICMP ping command when ICMP is enabled.
  #              Failure is usually due to OS level restrictions.
  #          * "interval-milliseconds":
  #              Time in milliseconds between each ICMP ping.
  #          * "max-attempts":
  #              Maximum number of consecutive failed attempts before declaring a member suspect.
  #          * "parallel-mode":
  #              Run ICMP detection in parallel with the Heartbeat failure detector.
  #          * "ttl":
  #              Maximum number of times the IP Datagram (ping) can be forwarded, in most cases
  #              all Hazelcast cluster members would be within one network switch/router therefore
  #              default of 0 is usually sufficient.
  #
  #
  #  * "member-server-socket-endpoint-config":
  #      Configures the server socket used for the member-member communication.
  #  * "client-server-socket-endpoint-config":
  #      Configures the server socket used for the member-client communication.
  #  * "wan-server-socket-endpoint-config":
  #      Configures the server sockets used for the WAN replication's inbound WAN connections.
  #      Multiple WAN server sockets can be configured to allow configuring separate server sockets
  #      for each inbound WAN connection.
  #  * "memcache-server-socket-endpoint-config":
  #
  #      These four server socket elements have the following sub-elements:
  #      - "name":
  #          Name of the endpoint configuration. Only relevant when defining WAN server sockets.
  #      * "port":
  #          The ports which Hazelcast will use to communicate between cluster members. Its default value is 5701.
  #          It has the following sub-elements.
  #          - "port-count":
  #              The default value is 100, meaning that Hazelcast will try to bind 100 ports.
  #              If you set the value of port as 5701, as members join the cluster, Hazelcast tries to find
  #              ports between 5701 and 5801. You can change the port count in cases like having large
  #              instances on a single machine or you are willing to have only a few ports assigned.
  #          - "auto-increment":
  #              Default value is true. If port is set to 5701, Hazelcast will try to find free
  #              ports between 5701 and 5801. Normally, you will not need to change this value, but it comes
  #              in handy when needed. You may also want to choose to use only one port. In that case, you can
  #              disable the auto-increment feature of port by setting its value as false.
  #      * "public-address":
  #          Overrides the public address of a node. By default, a node selects its socket address
  #          as its public address. But behind a network address translation (NAT), two endpoints (nodes)
  #          may not be able to see/access each other. If both nodes set their public addresses to their
  #          defined addresses on NAT, then they can communicate with each other. In this case, their
  #          public addresses are not an address of a local network interface but a virtual address defined by
  #          NAT.
  #          This is optional to set and useful when you have a private cloud.
  #      * "reuse-address":
  #          When you shutdown a cluster member, the server socket port will be in the TIME_WAIT
  #          state for the next couple of minutes. If you start the member right after shutting it down,
  #          you may not be able to bind it to the same port because it is in the TIME_WAIT state. If you
  #          set reuse-address to true, the TIME_WAIT state is ignored and you can bind the member to the
  #          same port again. Default value is false.
  #      * "outbound-ports":
  #          By default, Hazelcast lets the system pick up an ephemeral port during socket bind operation.
  #          But security policies/firewalls may require to restrict outbound ports to be used by
  #          Hazelcast-enabled applications. To fulfill this requirement, you can configure Hazelcast to use
  #          only defined outbound ports.
  #          The outbound ports are listed as a sequence under the "outbound-ports" element.
  #      * "interfaces":
  #          Specifies which network interfaces Hazelcast should use. You need to set its "enabled" sub-element
  #          to true to be able to use your defined interfaces. By default, it is disabled.
  #          You can define multiple interfaces using a nested "interfaces" sequence.
  #      * "ssl":
  #          Lets you configure SSL using the SSL context factory. This feature is available only in Hazelcast
  #          Enterprise. To be able to use it, encryption should NOT be enabled and you should first implement
  #          your SSLContextFactory class. Its configuration contains the factory class and SSL properties.
  #          By default, it is disabled. The following is an example:
  #          ssl:
  #            enabled: true
  #            factory-class-name: com.hazelcast.nio.ssl.BasicSSLContextFactory
  #            properties:
  #              keyStore: keyStore
  #              keyStorePassword: keyStorePassword
  #              keyManagerAlgorithm: SunX509
  #              trustManagerAlgorithm: SunX509
  #              protocol: TLS
  #              mutualAuthentication: REQUIRED
  #      * "socket-interceptor":
  #          Lets you add custom hooks to join and perform connection procedures (like a custom authentication
  #          protocol, etc.). This feature is available only in Hazelcast Enterprise. To be able to use it, you
  #          should first implement the MemberSocketInterceptor (for members joining to a cluster) or
  #          SocketInterceptor (for clients connecting to a member) class. Its configuration contains the class you
  #          implemented and socket interceptor properties. By default, it is disabled. The following is an example:
  #          socket-interceptor:
  #            enabled: true
  #            class-name: com.hazelcast.examples.MySocketInterceptor
  #            properties:
  #              property1: value1
  #              property2: value2
  #      * "symmetric-encryption":
  #          Lets you encrypt the entire socket level communication among all Hazelcast members.
  #          This feature is available only in Hazelcast Enterprise.  Its configuration contains the encryption
  #          properties and the same configuration must be placed to all members. By default, it is disabled.
  #          The following is an example:
  #          symmetric-encryption:
  #            enabled: true
  #            algorithm: PBEWithMD5AndDES
  #            salt: thesalt
  #            password: thepass
  #            iteration-count: 19
  #      * "socket-options":
  #          It has the following sub-elements:
  #          * "buffer-direct":
  #              Specifies whether direct or non-direct buffers should be allocated for the socket. The default value is false.
  #          * "tcp-no-delay":
  #              Specifies whether Nagle's algorithm should be disabled. The default value is true meaning that Nagle's
  #              algorithm is disabled.
  #          * "keep-alive":
  #              Specifies whether TCP keep-alive should be enabled. The default value is true.
  #          * "connect-timeout-seconds":
  #              Specifies the TCP timeout in seconds. The default value is 0.
  #          * "send-buffer-size-kb":
  #              Specifies the size of the send buffer. The default value is 128KB.
  #          * "receive-buffer-size-kb":
  #              Specifies the size of the receive buffer. The default value is 128KB.
  #          * "linger-seconds":
  #              Specifies the TCP linger seconds. The default value is 0.
  #
  #  * "rest-server-socket-endpoint-config":
  #      Controls access to Hazelcast HTTP REST API.
  #      The methods available through REST API are grouped to several REST endpoint groups, which can be specified
  #      in this section.
  #
  #      The "rest-server-socket-endpoint-config" element has the same sub-elements that the above server socket
  #      elements have plus it has the following additional sub-element.
  #      * "endpoint-groups":
  #          Enables or disables named REST endpoint groups.
  #          If a group is not listed within the rest-api configuration, then it's 'enabledByDefault' flag is used
  #          to control the behavior of the group.
  #
  #          The groups can be defined with the "endpoint-group" sub-element. Groups and their defaults:
  #          * CLUSTER_READ - enabled
  #            Group of operations for retrieving cluster state and its version.
  #          * CLUSTER_WRITE - disabled
  #            Operations which changes cluster or node state or their configurations.
  #          * HEALTH_CHECK - disabled
  #            Group of endpoints for HTTP health checking.
  #          * HOT_RESTART - disabled
  #            Group of HTTP REST APIs related to Hot Restart feature.
  #          * WAN - disabled
  #            Group of HTTP REST APIs related to WAN Replication feature.
  #          * DATA - disabled
  #            Group of HTTP REST APIs for data manipulation in the cluster (e.g. IMap and IQueue operations).
  #
  #  * "wan-endpoint-config":
  #      This element configures socket settings for the outgoing WAN connections.
  #
  #      This element has the following sub-elements from the list above:
  #      * "name"
  #      * "outbound-ports"
  #      * "interfaces"
  #      * "ssl"
  #      * "socket-interceptor"
  #      * "symmetric-encryption"
  #      * "socket-options"
  #
  advanced-network:
    enabled: false
    join:
      multicast:
        enabled: true
        loopback-mode-enabled: true
        multicast-group: 1.2.3.4
        multicast-port: 12345
        multicast-timeout-seconds: 5
        multicast-time-to-live: 10
        trusted-interfaces:
          - 10.10.1.*
          - 10.10.2.*
      tcp-ip:
        enabled: false
        connection-timeout-seconds: 123
        required-member: dummy
        member: dummy1,dummy2
        interface: 127.0.0.10
        members: dummy3,dummy4
        member-list:
          - dummy5
          - dummy6
      aws:
        enabled: false
        access-key: my-access-key
        secret-key: my-secret-key
        region: us-west-1
        host-header: ec2.amazonaws.com
        connection-timeout-seconds: 7
        read-timeout-seconds: 7
        connection-retries: 4
        hz-port: 5701-5710
        security-group-name: hazelcast-sg
        tag-key: type
        tag-value: hz-nodes
        iam-role: dummy
        use-public-ip: true
        # cluster: my-clusters
        # family: test-family
        # service-name: test-service
      gcp:
        enabled: false
        private-key-path: key-path
        projects: project-1,project-2
        region: us-central1
        zones: us-central1-b,us-central1-c
        label: key=value
        hz-port: 5701-5710
        use-public-ip: true
      azure:
        enabled: false
        instance-metadata-available: false
        client-id: CLIENT_ID
        client-secret: CLIENT_SECRET
        tenant-id: TENANT_ID
        subscription-id: SUB_ID
        resource-group: RESOURCE-GROUP-NAME
        scale-set: SCALE-SET-NAME
        tag: TAG-NAME=HZLCAST001
        hz-port: 5701-5707
        use-public-ip: true
      kubernetes:
        enabled: false
        namespace: MY-KUBERNETES-NAMESPACE
        service-name: MY-SERVICE-NAME
        service-label-name: MY-SERVICE-LABEL-NAME
        service-label-value: MY-SERVICE-LABEL-VALUE
      eureka:
        enabled: false
        self-registration: true
        namespace: hazelcast
    #      discovery-strategies:
    #        node-filter:
    #          class: DummyFilterClass
    #        discovery-strategies:
    #          - class: DummyClass
    #            enabled: true
    #            properties:
    #              foo: bar
    interfaces:
      enabled: true
      interfaces:
        - 10.10.1.*
    failure-detector:
      icmp:
        enabled: false
        timeout-milliseconds: 1000
        fail-fast-on-startup: true
        interval-milliseconds: 1000
        max-attempts: 2
        parallel-mode: true
        ttl: 255
    member-address-provider:
      enabled: false
      class-name: DummyMemberAddressProvider
      properties:
        foo: bar
    member-server-socket-endpoint-config:
      outbound-ports:
        - 33000-35000
        - 37000,37001,37002,37003
        - 38000,38500-38600
      interfaces:
        enabled: true
        interfaces:
          - 10.10.1.*
      ssl:
        enabled: true
        factory-class-name: com.hazelcast.examples.MySSLContextFactory
        properties:
          foo: bar
      socket-interceptor:
        enabled: true
        class-name: com.hazelcast.examples.MySocketInterceptor
        properties:
          foo: bar
      socket-options:
        buffer-direct: true
        tcp-no-delay: true
        keep-alive: true
        connect-timeout-seconds: 64
        send-buffer-size-kb: 25
        receive-buffer-size-kb: 33
        linger-seconds: 99
      port:
        port-count: 100
        auto-increment: true
        port: 5701
      public-address: dummy
      # If the address should be reused. See NetworkConfig.setReuseAddress for more information.
      reuse-address: true
    client-server-socket-endpoint-config:
      outbound-ports:
        - 38000,38500-38600
      interfaces:
        enabled: false
        interfaces:
          - 10.10.1.*
      ssl:
        enabled: true
        factory-class-name: com.hazelcast.examples.MySSLContextFactory
        properties:
          foo: bar
      socket-interceptor:
        enabled: true
        class-name: com.hazelcast.examples.MySocketInterceptor
        properties:
          foo: bar
      port:
        port-count: 100
        auto-increment: true
        port: 9999
      public-address: 10.10.0.10
      reuse-address: true
    rest-server-socket-endpoint-config:
      name: internal-server-socket
      interfaces:
        enabled: false
        interfaces:
          - 10.10.1.*
      port:
        auto-increment: false
        port: 8080
      public-address: 192.168.1.10
      reuse-address: true
      endpoint-groups:
        WAN:
          enabled: true
        CLUSTER_READ:
          enabled: true
        CLUSTER_WRITE:
          enabled: false
        HEALTH_CHECK:
          enabled: true
    wan-endpoint-config:
      endpoint-tokyo:
        ssl:
          enabled: true
          factory-class-name: com.hazelcast.examples.MySSLContextFactory
          properties:
            foo: bar
      endpoint-london:
        symmetric-encryption:
          enabled: true
          algorithm: Algorithm
          salt: thesalt
          password: thepassword
          iteration-count: 1000
    wan-server-socket-endpoint-config:
      wan-server-socket-config:
        interfaces:
          enabled: false
          interfaces:
            - 192.168.8.101
            - 10.20.10.100
    memcache-server-socket-endpoint-config:
      name: memcache
      port:
        auto-increment: false
        port-count: 10
        port: 6000

  #
  # ===== HAZELCAST CP SUBSYSTEM CONFIGURATION =====
  #
  # Configuration element's name is "cp-subsystem".
  #
  # It has the following sub-elements:
  # * "cp-member-count":
  #     Number of CP Members to initialize the CP Subsystem.
  #     It is 0 by default, meaning that the CP subsystem is disabled.
  #     The CP subsystem is enabled when a positive value is set.
  #     After the CP subsystem is initialized successfully, more CP members can
  #     be added at run-time and number of active CP members can go beyond
  #     the configured CP member count. Number of CP members can be smaller than
  #     total size of the Hazelcast cluster. For instance, you can run
  #     5 CP members in a 20-member Hazelcast cluster.
  #     If set, must be greater than or equal to "group-size".
  # * "group-size":
  #     Number of CP members to run CP groups. If set, it must be an odd
  #     number between 3 and 7. Otherwise, "cp-member-count" is respected.
  #     If set, must be smaller than or equal to "cp-member-count".
  # * "session-time-to-live-seconds":
  #     Duration for a CP session to be kept alive after the last received
  #     heartbeat. The session will be closed if there is no new heartbeat
  #     this duration. Session TTL must be decided wisely. If a very low value is set,
  #     CP session of a Hazelcast instance can be closed prematurely if the instance
  #     temporarily loses connectivity to the CP subsystem because of a network
  #     partition or a GC pause. In such an occasion, all CP resources of this Hazelcast
  #     instance, such as FencedLock or ISemaphore, are released. On the other hand,
  #     if a very large value is set, CP resources can remain assigned to an actually
  #     crashed Hazelcast instance for too long and liveliness problems can occur.
  #     The CP subsystem offers an API, CPSessionManagementService, to deal with
  #     liveliness issues related to CP sessions. In order to prevent premature
  #     session expires, session TTL configuration can be set a relatively large value
  #     and CPSessionManagementService#forceCloseSession() can be manually called to
  #     close CP session of a crashed Hazelcast instance.
  #     Must be greater than "session-heartbeat-interval-seconds", and
  #     smaller than or equal to "missing-cp-member-auto-removal-seconds".
  # * "session-heartbeat-interval-seconds":
  #     Interval for the periodically-committed CP session heartbeats.
  #     A CP session is started on a CP group with the first session-based
  #     request of a Hazelcast instance. After that moment, heartbeats are
  #     periodically committed to the CP group.
  #     Must be smaller than "session-time-to-live-seconds".
  # * "missing-cp-member-auto-removal-seconds":
  #     Duration to wait before automatically removing a missing CP member
  #     from the CP subsystem. When a CP member leaves the cluster, it is not
  #     automatically removed from the CP subsystem, since it could be still
  #     alive and left the cluster because of a network partition.
  #     On the other hand, if a missing CP member is actually crashed,
  #     it creates a danger for its CP groups, because it will be still part of
  #     majority calculations. This situation could lead to losing majority of
  #     CP groups if multiple CP members leave the cluster over time.
  #     With the default configuration, missing CP members will be automatically
  #     removed from the CP subsystem after 4 hours. This feature is very useful
  #     in terms of fault tolerance when CP member count is also configured
  #     to be larger than group size. In this case, a missing CP member will be
  #     safely replaced in its CP groups with other available CP members
  #     in the CP subsystem. This configuration also implies that no network
  #     partition is expected to be longer than the configured duration.
  #     Must be greater than or equal to "session-time-to-live-seconds".
  #     If a missing CP member comes back alive after it is automatically
  #     removed from the CP subsystem with this feature, that CP member
  #     must be terminated manually.
  # * "fail-on-indeterminate-operation-state":
  #     Offers a choice between at-least-once and at-most-once execution
  #     of the operations on top of the Raft consensus algorithm.
  #     It is disabled by default and offers at-least-once execution guarantee.
  #     If enabled, it switches to at-most-once execution guarantee.
  #     When you invoke an API method on a CP data structure proxy, it
  #     replicates an internal operation to the corresponding CP group. After
  #     this operation is committed to majority of this CP group by the Raft
  #     leader node, it sends a response for the public API call. If a failure
  #     causes loss of the response, then the calling side cannot determine if
  #     the operation is committed on the CP group or not. In this case, if this
  #     configuration is disabled, the operation is replicated again to the CP
  #     group, and hence could be committed multiple times. If it is enabled,
  #     the public API call fails with
  #     com.hazelcast.core.IndeterminateOperationStateException
  # * "persistence-enabled":
  #     Flag to denote whether or not CP Subsystem Persistence is enabled.
  #     If enabled, CP members persist their local CP data to stable storage and
  #     can recover from crashes.
  # * "base-dir":
  #    Base directory to store all CP data when persistence-enabled
  #    is true. This directory can be shared between multiple CP members.
  #    Each CP member creates a unique directory for itself under the base
  #    directory. This is especially useful for cloud environments where CP
  #    members generally use a shared filesystem.
  # * "data-load-timeout-seconds":
  #   Timeout duration for CP members to restore their data from disk.
  #   A CP member fails its startup if it cannot complete its CP data restore
  #   process in the configured duration.
  #
  # * "raft-algorithm":
  #     These parameters tune specific parameters of Hazelcast’s Raft consensus
  #     algorithm implementation and are only for power users.
  #
  #     * "leader-election-timeout-in-millis":
  #         Leader election timeout in milliseconds. If a candidate cannot win
  #         majority of the votes in time, a new election round is initiated.
  #     * "leader-heartbeat-period-in-millis":
  #         Period in milliseconds for a leader to send heartbeat messages
  #         to its followers.
  #     * "max-missed-leader-heartbeat-count":
  #         Maximum number of missed leader heartbeats to trigger a new leader election.
  #     * "append-request-max-entry-count":
  #         Maximum number of entries that can be sent in a single batch of append
  #         entries request.
  #     * "commit-index-advance-count-to-snapshot":
  #         Number of new commits to initiate a new snapshot after the last snapshot.
  #     * "uncommitted-entry-count-to-reject-new-appends":
  #         Maximum number of uncommitted entries in the leader's Raft log before
  #         temporarily rejecting new requests of callers.
  #     * "append-request-backoff-timeout-in-millis":
  #         Timeout in milliseconds for append request backoff. After the leader
  #         sends an append request to a follower, it will not send a subsequent
  #         append request until the follower responds to the former request
  #         or this timeout occurs.
  #
  # * "semaphores":
  #     Configurations for CP Semaphore instances. The CP Semaphores can be configured
  #     with mappings under keys as their names. CP Semaphores have the following
  #     sub-element:
  #     * "jdk-compatible":
  #         Enables / disables JDK compatibility of the CP ISemaphore.
  #         When it is JDK compatible, just as in the Semaphore#release()
  #         method, a permit can be released without acquiring it first, because
  #         acquired permits are not bound to threads. However, there is no
  #         auto-cleanup of acquired permits upon Hazelcast server / client failures.
  #         If a permit holder fails, its permits must be released manually.
  #         When JDK compatibility is disabled, a HazelcastInstance must
  #         acquire permits before releasing them and it cannot release a permit
  #         that it has mot acquired. It means, you can acquire a permit
  #         from one thread and release it from another thread using the same
  #         HazelcastInstance, but not different HazelcastInstances. In this mode,
  #         acquired permits are automatically released upon failure of the holder
  #         HazelcastInstance. So there is a minor behavioral difference
  #         to the Semaphore#release() method.
  #         JDK compatibility is disabled by default.
  #
  # * "locks":
  #     Configurations for FencedLock instances. The FencedLocks can be configured
  #     with mappings under keys as their names. FencedLocks have the following
  #     sub-element:
  #     * "lock-acquire-limit":
  #         Maximum number of reentrant lock acquires. Once a caller acquires
  #         the lock this many times, it will not be able to acquire the lock again,
  #         until it makes at least one unlock() call.
  #         By default, no upper bound is set for the number of reentrant lock
  #         acquires, which means that once a caller acquires a FencedLock,
  #         all of its further lock() calls will succeed. However, for instance,
  #         if you set lock-acquire-limit to 2, once a caller acquires
  #         the lock, it will be able to acquire it once more, but its third lock()
  #         call will not succeed.
  #         If lock-acquire-limit is set to 1, then the lock becomes non-reentrant.
  #
  cp-subsystem:
    cp-member-count: 10
    group-size: 3
    session-time-to-live-seconds: 60
    session-heartbeat-interval-seconds: 5
    missing-cp-member-auto-removal-seconds: 120
    fail-on-indeterminate-operation-state: false
    persistence-enabled: true
    base-dir: custom-cp-dir
    data-load-timeout-seconds: 30
    raft-algorithm:
      leader-election-timeout-in-millis: 2000
      leader-heartbeat-period-in-millis: 5000
      max-missed-leader-heartbeat-count: 5
      append-request-max-entry-count: 50
      commit-index-advance-count-to-snapshot: 1000
      uncommitted-entry-count-to-reject-new-appends: 100
      append-request-backoff-timeout-in-millis: 100
    semaphores:
      sem1:
        jdk-compatible: true
        initial-permits: 1
      sem2:
        jdk-compatible: false
        initial-permits: 2
    locks:
      lock1:
        lock-acquire-limit: 1
      lock2:
        lock-acquire-limit: 2

  #
  # ===== HAZELCAST METRICS CONFIGURATION =====
  #
  # Configuration element's name is "metrics".
  #
  # It has the following sub-elements:
  #     * "enabled":
  #         The master-switch for the metrics collection. If this is set
  #         to false no metrics collection is done, regardless of the other
  #         settings. Its default value is true.
  #
  # * "management-center":
  #     Defines the Hazelcast Management Center related metrics configuration.
  #
  #       It has the following sub-elements:
  #     * "enabled":
  #         Controls whether the metrics collected are exposed to
  #         Hazelcast Management Center. It is enabled by default.
  #         Please note that the metrics are polled by the
  #         Hazelcast Management Center, hence the members need to
  #         buffer the collected metrics between two polls. The aim
  #         for this switch is to reduce memory consumption of the
  #         metrics system if the Hazelcast Management Center is not
  #         used.
  #
  #       It has the following  sub-elements:
  #     * "retention-seconds":
  #         Sets the number of seconds the metrics will be retained on the
  #         instance. By default, metrics are retained for 5 seconds (that is for
  #         one collection of metrics values, if default "collection-frequency-seconds"
  #         collection frequency is used). More retention means more heap memory, but
  #         allows for longer client hiccups without losing a value (for example to
  #         restart the Management Center).
  #
  # * "jmx":
  #     Defines the JMX related metrics configuration.
  #
  #       It has the following attributes:
  #     * "enabled":
  #         Controls whether the metrics collected are exposed to
  #         through JMX. It is enabled by default.
  #         In order to expose the metrics, the metrics system need
  #         to be enabled via the enabled master-switch attribute.
  #
  # * "collection-frequency-seconds":
  #     Sets the metrics collection frequency in seconds.
  #     By default, metrics are collected every 5 seconds.
  #
  #
  metrics:
    enabled: false
    management-center:
      enabled: false
      retention-seconds: 30
    jmx:
      enabled: false
    collection-frequency-seconds: 10

  auditlog:
    enabled: false
    factory-class-name: com.acme.AuditlogToSyslogFactory
    properties:
      host: syslogserver.acme.com
      port: 514
      type: tcp

  #
  # ===== HAZELCAST INSTANCE TRACKING CONFIGURATION =====
  #
  # Configuration element's name is "instance-tracking".
  #
  # It has the following sub-elements:
  #     * "enabled":
  #         Enables or disables instance tracking.
  #
  # * "format-pattern":
  #     Sets the pattern used to render the contents of the instance tracking file.
  #     It may contain placeholders for these properties:
  #     - "product": The instance product name, e.g. "Hazelcast" or "Hazelcast Enterprise".
  #     - "version": The instance version.
  #     - "mode": The instance mode which can be "server", "embedded" or "client".
  #     - "start_timestamp": The timestamp of when the instance was started expressed the difference,
  #     measured in milliseconds, between the current time and midnight, January 1, 1970 UTC
  #     - "licensed": If this instance is using a license or not. The value 0 signifies
  #     that there is no license set and the value 1 signifies that a license is in use.
  #     - "pid": Attempts to get the process ID value. The algorithm does not guarantee to get the
  #     process ID on all JVMs and operating systems so please test before use. In case we are unable to
  #     get the PID, the value will be -1.
  #     The placeholders are defined by a $HZ_INSTANCE_TRACKING{ prefix and followed by }.
  #     For instance, a placeholder for the "start_timestamp" would be $HZ_INSTANCE_TRACKING{start_timestamp}.
  #     The placeholders are resolved in a fail-safe manner. Any incorrect syntax
  #     is ignored and only the known properties are resolved, placeholders for
  #     any parameters which do not have defined values will be ignored. This also
  #     means that if there is a missing closing bracket in one of the placeholders,
  #     the property name will be resolved as anything from the opening bracket
  #     to the next closing bracket, which might contain additional opening brackets.
  #     If unset, a JSON formatted output will be used.
  #
  # * "file-name":
  #     Sets the name of the file which will contain the tracking metadata. If left unset
  #     a file named "Hazelcast.process" will be created in the directory as returned by
  #     System.getProperty("java.io.tmpdir").
  #     The filename can contain placeholders that will be resolved in the same way
  #     as placeholders for the format pattern.
  #
  instance-tracking:
    enabled: false
    file-name: hazelcast.process
    format-pattern: $HZ_INSTANCE_TRACKING{product}:$HZ_INSTANCE_TRACKING{version}

  #
  # ===== HAZELCAST SQL CONFIGURATION =====
  #
  # Configuration element's name is "sql".
  #
  # It has the following sub-elements:
  #     * "executor-pool-size":
  #         Defines the number of threads responsible for query execution.
  #
  #     * "operation-pool-size":
  #         Defines the number of threads responsible for network operations processing.
  #
  #     * "statement-timeout-millis":
  #         Defines the timeout in milliseconds that is applied to queries without an explicit timeout.
  #
  sql:
    executor-pool-size: 8
    operation-pool-size: 8
    statement-timeout-millis: 0




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