이 콘텐츠는 선택한 언어로 제공되지 않습니다.
Chapter 12. Setting up Data Grid cluster transport
Data Grid requires a transport layer so nodes can automatically join and leave clusters. The transport layer also enables Data Grid nodes to replicate or distribute data across the network and perform operations such as re-balancing and state transfer.
12.1. Default JGroups stacks
Data Grid provides default JGroups stack files, default-jgroups-*.xml
, in the default-configs
directory inside the infinispan-core-14.0.21.Final-redhat-00001.jar
file.
You can find this JAR file in the $RHDG_HOME/lib
directory.
File name | Stack name | Description |
---|---|---|
|
| Uses UDP for transport and UDP multicast for discovery. Suitable for larger clusters (over 100 nodes) or if you are using replicated caches or invalidation mode. Minimizes the number of open sockets. |
|
|
Uses TCP for transport and the |
|
|
Uses TCP for transport and |
|
|
Uses TCP for transport and |
|
|
Uses TCP for transport and |
|
|
Uses TCP for transport and |
|
|
Uses |
Additional resources
12.2. Cluster discovery protocols
Data Grid supports different protocols that allow nodes to automatically find each other on the network and form clusters.
There are two types of discovery mechanisms that Data Grid can use:
- Generic discovery protocols that work on most networks and do not rely on external services.
-
Discovery protocols that rely on external services to store and retrieve topology information for Data Grid clusters.
For instance the DNS_PING protocol performs discovery through DNS server records.
Running Data Grid on hosted platforms requires using discovery mechanisms that are adapted to network constraints that individual cloud providers impose.
Additional resources
- JGroups Discovery Protocols
- JGroups cluster transport configuration for Data Grid 8.x (Red Hat knowledgebase article)
12.2.1. PING
PING, or UDPPING is a generic JGroups discovery mechanism that uses dynamic multicasting with the UDP protocol.
When joining, nodes send PING requests to an IP multicast address to discover other nodes already in the Data Grid cluster. Each node responds to the PING request with a packet that contains the address of the coordinator node and its own address. C=coordinator’s address and A=own address. If no nodes respond to the PING request, the joining node becomes the coordinator node in a new cluster.
PING configuration example
<PING num_discovery_runs="3"/>
Additional resources
12.2.2. TCPPING
TCPPING is a generic JGroups discovery mechanism that uses a list of static addresses for cluster members.
With TCPPING, you manually specify the IP address or hostname of each node in the Data Grid cluster as part of the JGroups stack, rather than letting nodes discover each other dynamically.
TCPPING configuration example
<TCP bind_port="7800" /> <TCPPING timeout="3000" initial_hosts="${jgroups.tcpping.initial_hosts:hostname1[port1],hostname2[port2]}" port_range="0" num_initial_members="3"/>
Additional resources
12.2.3. MPING
MPING uses IP multicast to discover the initial membership of Data Grid clusters.
You can use MPING to replace TCPPING discovery with TCP stacks and use multicasing for discovery instead of static lists of initial hosts. However, you can also use MPING with UDP stacks.
MPING configuration example
<MPING mcast_addr="${jgroups.mcast_addr:239.6.7.8}" mcast_port="${jgroups.mcast_port:46655}" num_discovery_runs="3" ip_ttl="${jgroups.udp.ip_ttl:2}"/>
Additional resources
12.2.4. TCPGOSSIP
Gossip routers provide a centralized location on the network from which your Data Grid cluster can retrieve addresses of other nodes.
You inject the address (IP:PORT
) of the Gossip router into Data Grid nodes as follows:
-
Pass the address as a system property to the JVM; for example,
-DGossipRouterAddress="10.10.2.4[12001]"
. - Reference that system property in the JGroups configuration file.
Gossip router configuration example
<TCP bind_port="7800" /> <TCPGOSSIP timeout="3000" initial_hosts="${GossipRouterAddress}" num_initial_members="3" />
Additional resources
12.2.5. JDBC_PING
JDBC_PING uses shared databases to store information about Data Grid clusters. This protocol supports any database that can use a JDBC connection.
Nodes write their IP addresses to the shared database so joining nodes can find the Data Grid cluster on the network. When nodes leave Data Grid clusters, they delete their IP addresses from the shared database.
JDBC_PING configuration example
<JDBC_PING connection_url="jdbc:mysql://localhost:3306/database_name" connection_username="user" connection_password="password" connection_driver="com.mysql.jdbc.Driver"/>
Add the appropriate JDBC driver to the classpath so Data Grid can use JDBC_PING.
12.2.5.1. Using a server datasource for JDBC_PING discovery
Add a managed datasource to a Data Grid Server and use it to provide database connections for the cluster transport JDBC_PING discovery protocol.
Prerequisites
- Install a Data Grid Server cluster.
Procedure
-
Deploy a JDBC driver JAR to your Data Grid Server
server/lib
directory Create a datasource for your database.
<server xmlns="urn:infinispan:server:14.0"> <data-sources> <!-- Defines a unique name for the datasource and JNDI name that you reference in JDBC cache store configuration. Enables statistics for the datasource, if required. --> <data-source name="ds" jndi-name="jdbc/postgres" statistics="true"> <!-- Specifies the JDBC driver that creates connections. --> <connection-factory driver="org.postgresql.Driver" url="jdbc:postgresql://localhost:5432/postgres" username="postgres" password="changeme"> <!-- Sets optional JDBC driver-specific connection properties. --> <connection-property name="name">value</connection-property> </connection-factory> <!-- Defines connection pool tuning properties. --> <connection-pool initial-size="1" max-size="10" min-size="3" background-validation="1000" idle-removal="1" blocking-timeout="1000" leak-detection="10000"/> </data-source> </data-sources> </server>
-
Create a JGroups stack which uses the
JDBC_PING
protocol for discovery. Configure cluster transport to use the datasource by specifying the name of the datasource with the
server:data-source
attribute.<infinispan> <jgroups> <stack name="jdbc" extends="tcp"> <JDBC_PING stack.combine="REPLACE" stack.position="MPING" /> </stack> </jgroups> <cache-container> <transport stack="jdbc" server:data-source="ds" /> </cache-container> </infinispan>
Additional resources
12.2.6. DNS_PING
JGroups DNS_PING queries DNS servers to discover Data Grid cluster members in Kubernetes environments such as OKD and Red Hat OpenShift.
DNS_PING configuration example
<dns.DNS_PING dns_query="myservice.myproject.svc.cluster.local" />
Additional resources
- JGroups DNS_PING
- DNS for Services and Pods (Kubernetes documentation for adding DNS entries)
12.2.7. Cloud discovery protocols
Data Grid includes default JGroups stacks that use discovery protocol implementations that are specific to cloud providers.
Discovery protocol | Default stack file | Artifact | Version |
---|---|---|---|
|
|
|
|
|
|
|
|
|
|
|
|
Providing dependencies for cloud discovery protocols
To use aws.S3_PING
, GOOGLE_PING2
, or azure.AZURE_PING
cloud discovery protocols, you need to provide dependent libraries to Data Grid.
Procedure
- Download the artifact JAR file and all dependencies.
Add the artifact JAR file and all dependencies to the
$RHDG_HOME/server/lib
directory of your Data Grid Server installation.For more details see the Downloading artifacts for JGroups cloud discover protocols for Data Grid Server (Red Hat knowledgebase article)
You can then configure the cloud discovery protocol as part of a JGroups stack file or with system properties.
Additional resources
12.3. Using the default JGroups stacks
Data Grid uses JGroups protocol stacks so nodes can send each other messages on dedicated cluster channels.
Data Grid provides preconfigured JGroups stacks for UDP
and TCP
protocols. You can use these default stacks as a starting point for building custom cluster transport configuration that is optimized for your network requirements.
Procedure
Do one of the following to use one of the default JGroups stacks:
Use the
stack
attribute in yourinfinispan.xml
file.<infinispan> <cache-container default-cache="replicatedCache"> <!-- Use the default UDP stack for cluster transport. --> <transport cluster="${infinispan.cluster.name}" stack="udp" node-name="${infinispan.node.name:}"/> </cache-container> </infinispan>
Use the
cluster-stack
argument to set the JGroups stack file when Data Grid Server starts:bin/server.sh --cluster-stack=udp
Verification
Data Grid logs the following message to indicate which stack it uses:
[org.infinispan.CLUSTER] ISPN000078: Starting JGroups channel cluster with stack udp
Additional resources
- JGroups cluster transport configuration for Data Grid 8.x (Red Hat knowledgebase article)
12.4. Customizing JGroups stacks
Adjust and tune properties to create a cluster transport configuration that works for your network requirements.
Data Grid provides attributes that let you extend the default JGroups stacks for easier configuration. You can inherit properties from the default stacks while combining, removing, and replacing other properties.
Procedure
-
Create a new JGroups stack declaration in your
infinispan.xml
file. -
Add the
extends
attribute and specify a JGroups stack to inherit properties from. -
Use the
stack.combine
attribute to modify properties for protocols configured in the inherited stack. -
Use the
stack.position
attribute to define the location for your custom stack. Specify the stack name as the value for the
stack
attribute in thetransport
configuration.For example, you might evaluate using a Gossip router and symmetric encryption with the default TCP stack as follows:
<infinispan> <jgroups> <!-- Creates a custom JGroups stack named "my-stack". --> <!-- Inherits properties from the default TCP stack. --> <stack name="my-stack" extends="tcp"> <!-- Uses TCPGOSSIP as the discovery mechanism instead of MPING --> <TCPGOSSIP initial_hosts="${jgroups.tunnel.gossip_router_hosts:localhost[12001]}" stack.combine="REPLACE" stack.position="MPING" /> <!-- Removes the FD_SOCK2 protocol from the stack. --> <FD_SOCK2 stack.combine="REMOVE"/> <!-- Modifies the timeout value for the VERIFY_SUSPECT2 protocol. --> <VERIFY_SUSPECT2 timeout="2000"/> <!-- Adds SYM_ENCRYPT to the stack after VERIFY_SUSPECT2. --> <SYM_ENCRYPT sym_algorithm="AES" keystore_name="mykeystore.p12" keystore_type="PKCS12" store_password="changeit" key_password="changeit" alias="myKey" stack.combine="INSERT_AFTER" stack.position="VERIFY_SUSPECT2" /> </stack> </jgroups> <cache-container name="default" statistics="true"> <!-- Uses "my-stack" for cluster transport. --> <transport cluster="${infinispan.cluster.name}" stack="my-stack" node-name="${infinispan.node.name:}"/> </cache-container> </infinispan>
Check Data Grid logs to ensure it uses the stack.
[org.infinispan.CLUSTER] ISPN000078: Starting JGroups channel cluster with stack my-stack
Reference
- JGroups cluster transport configuration for Data Grid 8.x (Red Hat knowledgebase article)
12.4.1. Inheritance attributes
When you extend a JGroups stack, inheritance attributes let you adjust protocols and properties in the stack you are extending.
-
stack.position
specifies protocols to modify. stack.combine
uses the following values to extend JGroups stacks:Value Description COMBINE
Overrides protocol properties.
REPLACE
Replaces protocols.
INSERT_AFTER
Adds a protocol into the stack after another protocol. Does not affect the protocol that you specify as the insertion point.
Protocols in JGroups stacks affect each other based on their location in the stack. For example, you should put a protocol such as
NAKACK2
after theSYM_ENCRYPT
orASYM_ENCRYPT
protocol so thatNAKACK2
is secured.INSERT_BEFORE
Inserts a protocols into the stack before another protocol. Affects the protocol that you specify as the insertion point.
REMOVE
Removes protocols from the stack.
12.5. Using JGroups system properties
Pass system properties to Data Grid at startup to tune cluster transport.
Procedure
-
Use
-D<property-name>=<property-value>
arguments to set JGroups system properties as required.
For example, set a custom bind port and IP address as follows:
bin/server.sh -Djgroups.bind.port=1234 -Djgroups.bind.address=192.0.2.0
12.5.1. Cluster transport properties
Use the following properties to customize JGroups cluster transport.
System Property | Description | Default Value | Required/Optional |
---|---|---|---|
| Bind address for cluster transport. |
| Optional |
| Bind port for the socket. |
| Optional |
| IP address for multicast, both discovery and inter-cluster communication. The IP address must be a valid "class D" address that is suitable for IP multicast. |
| Optional |
| Port for the multicast socket. |
| Optional |
| Time-to-live (TTL) for IP multicast packets. The value defines the number of network hops a packet can make before it is dropped. | 2 | Optional |
| Minimum number of threads for the thread pool. | 0 | Optional |
| Maximum number of threads for the thread pool. | 200 | Optional |
| Maximum number of milliseconds to wait for join requests to succeed. | 2000 | Optional |
| Number of times a thread pool needs to be full before a thread dump is logged. | 10000 | Optional |
|
Offset from |
| Optional |
| Maximum number of bytes in a message. Messages larger than that are fragmented. | 60000 | Optional |
| Enables JGroups diagnostic probing. | false | Optional |
Additional resources
12.5.2. System properties for cloud discovery protocols
Use the following properties to configure JGroups discovery protocols for hosted platforms.
12.5.2.1. Amazon EC2
System properties for configuring aws.S3_PING
.
System Property | Description | Default Value | Required/Optional |
---|---|---|---|
| Name of the Amazon S3 region. | No default value. | Optional |
| Name of the Amazon S3 bucket. The name must exist and be unique. | No default value. | Optional |
12.5.2.2. Google Cloud Platform
System properties for configuring GOOGLE_PING2
.
System Property | Description | Default Value | Required/Optional |
---|---|---|---|
| Name of the Google Compute Engine bucket. The name must exist and be unique. | No default value. | Required |
12.5.2.3. Azure
System properties for azure.AZURE_PING`.
System Property | Description | Default Value | Required/Optional |
---|---|---|---|
| Name of the Azure storage account. The name must exist and be unique. | No default value. | Required |
| Name of the Azure storage access key. | No default value. | Required |
| Valid DNS name of the container that stores ping information. | No default value. | Required |
12.5.2.4. OpenShift
System properties for DNS_PING
.
System Property | Description | Default Value | Required/Optional |
---|---|---|---|
| Sets the DNS record that returns cluster members. | No default value. | Required |
| Sets the DNS record type. | A | Optional |
12.6. Using inline JGroups stacks
You can insert complete JGroups stack definitions into infinispan.xml
files.
Procedure
Embed a custom JGroups stack declaration in your
infinispan.xml
file.<infinispan> <!-- Contains one or more JGroups stack definitions. --> <jgroups> <!-- Defines a custom JGroups stack named "prod". --> <stack name="prod"> <TCP bind_port="7800" port_range="30" recv_buf_size="20000000" send_buf_size="640000"/> <RED/> <MPING break_on_coord_rsp="true" mcast_addr="${jgroups.mping.mcast_addr:239.2.4.6}" mcast_port="${jgroups.mping.mcast_port:43366}" num_discovery_runs="3" ip_ttl="${jgroups.udp.ip_ttl:2}"/> <MERGE3 /> <FD_SOCK2 /> <FD_ALL3 timeout="3000" interval="1000" timeout_check_interval="1000" /> <VERIFY_SUSPECT2 timeout="1000" /> <pbcast.NAKACK2 use_mcast_xmit="false" xmit_interval="200" xmit_table_num_rows="50" xmit_table_msgs_per_row="1024" xmit_table_max_compaction_time="30000" /> <UNICAST3 conn_close_timeout="5000" xmit_interval="200" xmit_table_num_rows="50" xmit_table_msgs_per_row="1024" xmit_table_max_compaction_time="30000" /> <pbcast.STABLE desired_avg_gossip="2000" max_bytes="1M" /> <pbcast.GMS print_local_addr="false" join_timeout="${jgroups.join_timeout:2000}" /> <UFC max_credits="4m" min_threshold="0.40" /> <MFC max_credits="4m" min_threshold="0.40" /> <FRAG4 /> </stack> </jgroups> <cache-container default-cache="replicatedCache"> <!-- Uses "prod" for cluster transport. --> <transport cluster="${infinispan.cluster.name}" stack="prod" node-name="${infinispan.node.name:}"/> </cache-container> </infinispan>
12.7. Using external JGroups stacks
Reference external files that define custom JGroups stacks in infinispan.xml
files.
Procedure
Add custom JGroups stack files to the
$RHDG_HOME/server/conf
directory.Alternatively you can specify an absolute path when you declare the external stack file.
Reference the external stack file with the
stack-file
element.<infinispan> <jgroups> <!-- Creates a "prod-tcp" stack that references an external file. --> <stack-file name="prod-tcp" path="prod-jgroups-tcp.xml"/> </jgroups> <cache-container default-cache="replicatedCache"> <!-- Use the "prod-tcp" stack for cluster transport. --> <transport stack="prod-tcp" /> <replicated-cache name="replicatedCache"/> </cache-container> <!-- Cache configuration goes here. --> </infinispan>
12.8. Encrypting cluster transport
Secure cluster transport so that nodes communicate with encrypted messages. You can also configure Data Grid clusters to perform certificate authentication so that only nodes with valid identities can join.
12.8.1. Securing cluster transport with TLS identities
Add SSL/TLS identities to a Data Grid Server security realm and use them to secure cluster transport. Nodes in the Data Grid Server cluster then exchange SSL/TLS certificates to encrypt JGroups messages, including RELAY messages if you configure cross-site replication.
Prerequisites
- Install a Data Grid Server cluster.
Procedure
Create a TLS keystore that contains a single certificate to identify Data Grid Server.
You can also use a PEM file if it contains a private key in PKCS#1 or PKCS#8 format, a certificate, and has an empty password:
password=""
.NoteIf the certificate in the keystore is not signed by a public certificate authority (CA) then you must also create a trust store that contains either the signing certificate or the public key.
-
Add the keystore to the
$RHDG_HOME/server/conf
directory. Add the keystore to a new security realm in your Data Grid Server configuration.
ImportantYou should create dedicated keystores and security realms so that Data Grid Server endpoints do not use the same security realm as cluster transport.
<server xmlns="urn:infinispan:server:14.0"> <security> <security-realms> <security-realm name="cluster-transport"> <server-identities> <ssl> <!-- Adds a keystore that contains a certificate that provides SSL/TLS identity to encrypt cluster transport. --> <keystore path="server.pfx" relative-to="infinispan.server.config.path" password="secret" alias="server"/> </ssl> </server-identities> </security-realm> </security-realms> </security> </server>
Configure cluster transport to use the security realm by specifying the name of the security realm with the
server:security-realm
attribute.<infinispan> <cache-container> <transport server:security-realm="cluster-transport"/> </cache-container> </infinispan>
Verification
When you start Data Grid Server, the following log message indicates that the cluster is using the security realm for cluster transport:
[org.infinispan.SERVER] ISPN080060: SSL Transport using realm <security_realm_name>
12.8.2. JGroups encryption protocols
To secure cluster traffic, you can configure Data Grid nodes to encrypt JGroups message payloads with secret keys.
Data Grid nodes can obtain secret keys from either:
- The coordinator node (asymmetric encryption).
- A shared keystore (symmetric encryption).
Retrieving secret keys from coordinator nodes
You configure asymmetric encryption by adding the ASYM_ENCRYPT
protocol to a JGroups stack in your Data Grid configuration. This allows Data Grid clusters to generate and distribute secret keys.
When using asymmetric encryption, you should also provide keystores so that nodes can perform certificate authentication and securely exchange secret keys. This protects your cluster from man-in-the-middle (MitM) attacks.
Asymmetric encryption secures cluster traffic as follows:
- The first node in the Data Grid cluster, the coordinator node, generates a secret key.
- A joining node performs certificate authentication with the coordinator to mutually verify identity.
- The joining node requests the secret key from the coordinator node. That request includes the public key for the joining node.
- The coordinator node encrypts the secret key with the public key and returns it to the joining node.
- The joining node decrypts and installs the secret key.
- The node joins the cluster, encrypting and decrypting messages with the secret key.
Retrieving secret keys from shared keystores
You configure symmetric encryption by adding the SYM_ENCRYPT
protocol to a JGroups stack in your Data Grid configuration. This allows Data Grid clusters to obtain secret keys from keystores that you provide.
- Nodes install the secret key from a keystore on the Data Grid classpath at startup.
- Node join clusters, encrypting and decrypting messages with the secret key.
Comparison of asymmetric and symmetric encryption
ASYM_ENCRYPT
with certificate authentication provides an additional layer of encryption in comparison with SYM_ENCRYPT
. You provide keystores that encrypt the requests to coordinator nodes for the secret key. Data Grid automatically generates that secret key and handles cluster traffic, while letting you specify when to generate secret keys. For example, you can configure clusters to generate new secret keys when nodes leave. This ensures that nodes cannot bypass certificate authentication and join with old keys.
SYM_ENCRYPT
, on the other hand, is faster than ASYM_ENCRYPT
because nodes do not need to exchange keys with the cluster coordinator. A potential drawback to SYM_ENCRYPT
is that there is no configuration to automatically generate new secret keys when cluster membership changes. Users are responsible for generating and distributing the secret keys that nodes use to encrypt cluster traffic.
12.8.3. Securing cluster transport with asymmetric encryption
Configure Data Grid clusters to generate and distribute secret keys that encrypt JGroups messages.
Procedure
- Create a keystore with certificate chains that enables Data Grid to verify node identity.
Place the keystore on the classpath for each node in the cluster.
For Data Grid Server, you put the keystore in the $RHDG_HOME directory.
Add the
SSL_KEY_EXCHANGE
andASYM_ENCRYPT
protocols to a JGroups stack in your Data Grid configuration, as in the following example:<infinispan> <jgroups> <!-- Creates a secure JGroups stack named "encrypt-tcp" that extends the default TCP stack. --> <stack name="encrypt-tcp" extends="tcp"> <!-- Adds a keystore that nodes use to perform certificate authentication. --> <!-- Uses the stack.combine and stack.position attributes to insert SSL_KEY_EXCHANGE into the default TCP stack after VERIFY_SUSPECT2. --> <SSL_KEY_EXCHANGE keystore_name="mykeystore.jks" keystore_password="changeit" stack.combine="INSERT_AFTER" stack.position="VERIFY_SUSPECT2"/> <!-- Configures ASYM_ENCRYPT --> <!-- Uses the stack.combine and stack.position attributes to insert ASYM_ENCRYPT into the default TCP stack before pbcast.NAKACK2. --> <!-- The use_external_key_exchange = "true" attribute configures nodes to use the `SSL_KEY_EXCHANGE` protocol for certificate authentication. --> <ASYM_ENCRYPT asym_keylength="2048" asym_algorithm="RSA" change_key_on_coord_leave = "false" change_key_on_leave = "false" use_external_key_exchange = "true" stack.combine="INSERT_BEFORE" stack.position="pbcast.NAKACK2"/> </stack> </jgroups> <cache-container name="default" statistics="true"> <!-- Configures the cluster to use the JGroups stack. --> <transport cluster="${infinispan.cluster.name}" stack="encrypt-tcp" node-name="${infinispan.node.name:}"/> </cache-container> </infinispan>
Verification
When you start your Data Grid cluster, the following log message indicates that the cluster is using the secure JGroups stack:
[org.infinispan.CLUSTER] ISPN000078: Starting JGroups channel cluster with stack <encrypted_stack_name>
Data Grid nodes can join the cluster only if they use ASYM_ENCRYPT
and can obtain the secret key from the coordinator node. Otherwise the following message is written to Data Grid logs:
[org.jgroups.protocols.ASYM_ENCRYPT] <hostname>: received message without encrypt header from <hostname>; dropping it
Additional resources
12.8.4. Securing cluster transport with symmetric encryption
Configure Data Grid clusters to encrypt JGroups messages with secret keys from keystores that you provide.
Procedure
- Create a keystore that contains a secret key.
Place the keystore on the classpath for each node in the cluster.
For Data Grid Server, you put the keystore in the $RHDG_HOME directory.
-
Add the
SYM_ENCRYPT
protocol to a JGroups stack in your Data Grid configuration.
<infinispan> <jgroups> <!-- Creates a secure JGroups stack named "encrypt-tcp" that extends the default TCP stack. --> <stack name="encrypt-tcp" extends="tcp"> <!-- Adds a keystore from which nodes obtain secret keys. --> <!-- Uses the stack.combine and stack.position attributes to insert SYM_ENCRYPT into the default TCP stack after VERIFY_SUSPECT2. --> <SYM_ENCRYPT keystore_name="myKeystore.p12" keystore_type="PKCS12" store_password="changeit" key_password="changeit" alias="myKey" stack.combine="INSERT_AFTER" stack.position="VERIFY_SUSPECT2"/> </stack> </jgroups> <cache-container name="default" statistics="true"> <!-- Configures the cluster to use the JGroups stack. --> <transport cluster="${infinispan.cluster.name}" stack="encrypt-tcp" node-name="${infinispan.node.name:}"/> </cache-container> </infinispan>
Verification
When you start your Data Grid cluster, the following log message indicates that the cluster is using the secure JGroups stack:
[org.infinispan.CLUSTER] ISPN000078: Starting JGroups channel cluster with stack <encrypted_stack_name>
Data Grid nodes can join the cluster only if they use SYM_ENCRYPT
and can obtain the secret key from the shared keystore. Otherwise the following message is written to Data Grid logs:
[org.jgroups.protocols.SYM_ENCRYPT] <hostname>: received message without encrypt header from <hostname>; dropping it
Additional resources
12.9. TCP and UDP ports for cluster traffic
Data Grid uses the following ports for cluster transport messages:
Default Port | Protocol | Description |
---|---|---|
| TCP/UDP | JGroups cluster bind port |
| UDP | JGroups multicast |
Cross-site replication
Data Grid uses the following ports for the JGroups RELAY2 protocol:
7900
- For Data Grid clusters running on OpenShift.
7800
- If using UDP for traffic between nodes and TCP for traffic between clusters.
7801
- If using TCP for traffic between nodes and TCP for traffic between clusters.