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21.4 Working with InnoDB Cluster

This section explains how to work with InnoDB cluster, and how to handle common administration tasks.

Using dba.checkInstanceConfiguration()

Before creating a production deployment from server instances you need to check that MySQL on each instance is correctly configured. In addition to dba.configureInstance(), which checks the configuration as part of configuring an instance, you can use the dba.checkInstanceConfiguration() function. This ensures that the instance satisfies the Section 21.2.2, “InnoDB Cluster Requirements” without changing any configuration on the instance. This does not check any data that is on the instance, see Checking Instance State for more information. The following demonstrates issuing this in a running MySQL Shell:

mysql-js> dba.checkInstanceConfiguration('ic@ic-1:3306')
Please provide the password for 'ic@ic-1:3306': ***
Validating MySQL instance at ic-1:3306 for use in an InnoDB cluster...

This instance reports its own address as ic-1
Clients and other cluster members will communicate with it through this address by default.
If this is not correct, the report_host MySQL system variable should be changed.

Checking whether existing tables comply with Group Replication requirements...
No incompatible tables detected

Checking instance configuration...

Some configuration options need to be fixed:
+--------------------------+---------------+----------------+--------------------------------------------------+
| Variable                 | Current Value | Required Value | Note                                             |
+--------------------------+---------------+----------------+--------------------------------------------------+
| binlog_checksum          | CRC32         | NONE           | Update the server variable                       |
| enforce_gtid_consistency | OFF           | ON             | Update read-only variable and restart the server |
| gtid_mode                | OFF           | ON             | Update read-only variable and restart the server |
| server_id                | 1             |                | Update read-only variable and restart the server |
+--------------------------+---------------+----------------+--------------------------------------------------+

Please use the dba.configureInstance() command to repair these issues.

{
    "config_errors": [
        {
            "action": "server_update",
            "current": "CRC32",
            "option": "binlog_checksum",
            "required": "NONE"
        },
        {
            "action": "restart",
            "current": "OFF",
            "option": "enforce_gtid_consistency",
            "required": "ON"
        },
        {
            "action": "restart",
            "current": "OFF",
            "option": "gtid_mode",
            "required": "ON"
        },
        {
            "action": "restart",
            "current": "1",
            "option": "server_id",
            "required": ""
        }
    ],
    "status": "error"
}

Repeat this process for each server instance that you plan to use as part of your cluster. The report generated after running dba.checkInstanceConfiguration() provides information about any configuration changes required before you can proceed. The action field in the config_error section of the report tells you whether MySQL on the instance requires a restart to detect any change made to the configuration file.

Configuring Instances with dba.configureLocalInstance()

Instances which do not support persisting configuration changes automatically (see Persisting Settings) require you to connect to the server, run MySQL Shell, connect to the instance locally and issue dba.configureLocalInstance(). This enables MySQL Shell to modify the instance's option file after running the following commands against a remote instance:

  • dba.configureInstance()

  • dba.createCluster()

  • Cluster.addInstance()

  • Cluster.removeInstance()

  • Cluster.rejoinInstance()

Important

Failing to persist configuration changes to an instance's option file can result in the instance not rejoining the cluster after the next restart.

The recommended method is to log in to the remote machine, for example using SSH, run MySQL Shell as the root user and then connect to the local MySQL server. For example, use the --uri option to connect to the local instance:

shell> sudo -i mysqlsh --uri=instance

Alternatively use the \connect command to log in to the local instance. Then issue dba.configureInstance(instance), where instance is the connection information to the local instance, to persist any changes made to the local instance's option file.

mysql-js> dba.configureLocalInstance('ic@ic-2:3306')

Repeat this process for each instance in the cluster which does not support persisting configuration changes automatically. For example if you add 2 instances to a cluster which do not support persisting configuration changes automatically, you must connect to each server and persist the configuration changes required for InnoDB cluster before the instance restarts. Similarly if you modify the cluster structure, for example changing the number of instances, you need to repeat this process for each server instance to update the InnoDB cluster metadata accordingly for each instance in the cluster.

Retrieving an InnoDB cluster with dba.getCluster()

When you create a cluster using dba.createCluster(), the operation returns a Cluster object which can be assigned to a variable. You use this object to work with the cluster, for example to add instances or check the cluster's status. If you want to retrieve a cluster again at a later date, for example after restarting MySQL Shell, use the dba.getCluster([name],[options]) function. For example:

mysql-js> var cluster1 = dba.getCluster()

If you do not specify a cluster name then the default cluster is returned. By default MySQL Shell attempts to connect to the primary instance of the cluster when you use dba.getCluster(). Set the connectToPrimary option to configure this behavior. If connectToPrimary is true and the active global MySQL Shell session is not to a primary instance, the cluster is queried for the primary member and the cluster object connects to it. If there is no quorum in the cluster, the operation fails. If connectToPrimary is false, the cluster object uses the active session, in other words the same instance as the MySQL Shell's current global session. If connectToPrimary is not specified, MySQL Shell treats connectToPrimary as true, and falls back to connectToPrimary being false.

To force connecting to a secondary when getting a cluster, establish a connection to the secondary member of the cluster and use the connectToPrimary option by issuing:

mysql-js> shell.connect(secondary_member)
mysql-js> var cluster1 = dba.getCluster(testCluster, {connectToPrimary:false})
Tip

Remember that secondary instances have super_read_only=ON, so you cannot write changes to them.

Using cluster.describe()

To get information about the structure of the InnoDB cluster itself, use the Cluster.describe() function:

mysql-js> cluster.describe();
{
    "clusterName": "testCluster",
    "defaultReplicaSet": {
        "name": "default",
        "topology": [
            {
                "address": "ic-1:3306",
                "label": "ic-1:3306",
                "role": "HA"
            },
            {
                "address": "ic-2:3306",
                "label": "ic-1:2306",
                "role": "HA"
            },
            {
                "address": "ic-3:3306",
                "label": "ic-3:3306",
                "role": "HA"
            }
        ]
    }
}

The output from this function shows the structure of the InnoDB cluster including all of its configuration information, and so on. The address, label and role values match those described at Checking a cluster's Status with Cluster.status() .

Checking a cluster's Status with Cluster.status()

Cluster objects provide the status() method that enables you to check how a cluster is running. Before you can check the status of the InnoDB cluster, you need to get a reference to the InnoDB cluster object by connecting to any of its instances. However, if you want to make changes to the configuration of the cluster, you must connect to a "R/W" instance. Issuing status() retrieves the status of the cluster based on the view of the cluster which the server instance you are connected to is aware of and outputs a status report.

Important

The instance's state in the cluster directly influences the information provided in the status report. Therefore ensure the instance you are connected to has a status of ONLINE.

For information about how the InnoDB cluster is running, use the cluster's status() method:

mysql-js> var cluster = dba.getCluster()
mysql-js> cluster.status()
{
    "clusterName": "testcluster", 
    "defaultReplicaSet": {
        "name": "default", 
        "primary": "ic-1:3306", 
        "ssl": "REQUIRED", 
        "status": "OK", 
        "statusText": "Cluster is ONLINE and can tolerate up to ONE failure.", 
        "topology": {
            "ic-1:3306": {
                "address": "ic-1:3306", 
                "mode": "R/W", 
                "readReplicas": {}, 
                "role": "HA", 
                "status": "ONLINE"
            }, 
            "ic-2:3306": {
                "address": "ic-2:3306", 
                "mode": "R/O", 
                "readReplicas": {}, 
                "role": "HA", 
                "status": "ONLINE"
            }, 
            "ic-3:3306": {
                "address": "ic-3:3306", 
                "mode": "R/O", 
                "readReplicas": {}, 
                "role": "HA", 
                "status": "ONLINE"
            }
        }
    }, 
    "groupInformationSourceMember": "mysql://ic@ic-1:3306"
}

The output of Cluster.status() provides the following information:

  • clusterName: name assigned to this cluster during dba.createCluster().

  • defaultReplicaSet: the server instances which belong to an InnoDB cluster and contain the data set.

  • primary: displayed when the cluster is operating in single-primary mode only. Shows the address of the current primary instance. If this field is not displayed, the cluster is operating in multi-primary mode.

  • ssl: whether secure connections are used by the cluster or not. Shows values of REQUIRED or DISABLED, depending on how the memberSslMode option was configured during either createCluster() or addInstance(). The value returned by this parameter corresponds to the value of the group_replication_ssl_mode server variable on the instance. See Securing your Cluster.

  • status: The status of this element of the cluster. For the overall cluster this describes the high availability provided by this cluster. The status is one of the following:

    • ONLINE: The instance is online and participating in the cluster.

    • OFFLINE: The instance has lost connection to the other instances.

    • RECOVERING: The instance is attempting to synchronize with the cluster by retrieving transactions it needs before it can become an ONLINE member.

    • UNREACHABLE: The instance has lost communication with the cluster.

    • ERROR: The instance has encountered an error during the recovery phase or while applying a transaction.

      Important

      Once an instance enters ERROR state, the super_read_only option is set to ON. To leave the ERROR state you must manually configure the instance with super_read_only=OFF.

    • (MISSING): The state of an instance which is part of the configured cluster, but is currently unavailable.

      Note

      The MISSING state is specific to InnoDB cluster, it is not a state generated by Group Replication. MySQL Shell uses this state to indicate instances that are registered in the metadata, but cannot be found in the live cluster view.

  • topology: The instances which have been added to the cluster.

  • Host name of instance: The host name of an instance, for example localhost:3310.

  • role: what function this instance provides in the cluster. Currently only HA, for high availability.

  • mode: whether the server is read-write ("R/W") or read-only ("R/O"). From version 8.0.17, this is the current state of the super_read_only variable on the instance. In previous versions the value of mode was derived from whether the instance was serving as a primary or secondary instance. Usually if the instance is a primary, then the mode is "R/W", and if the instance is a secondary the mode is "R/O". From version 8.0.17, the mode attribute also considers whether the cluster has quorum. Any instances in a cluster that have no visible quorum are marked as "R/O".

  • groupInformationSourceMember: the internal connection used to get information about the cluster, shown as a URI-like connection string. Usually the connection initially used to create the cluster.

To display more information about the cluster use the extended option. From version 8.0.17, the extended option supports integer or Boolean values. To configure the additional information that Cluster.status({'extended':value}) provides, use the following values:

  • 0: disables the additional information, the default

  • 1: includes information about the Group Replication Protocol Version, Group name, cluster member UUIDs, cluster member roles and states as reported by Group Replication, and the list of fenced system variables

  • 2: includes information about transactions processed by connection and applier

  • 3: includes more detailed statistics about the replication performed by each cluster member.

Setting extended using Boolean values is the equivalent of setting the integer values 0 and 1. In versions prior to 8.0.17, the extended option was only Boolean. Similarly prior versions used the queryMembers Boolean option to provide more information about the instances in the cluster, which is the equivalent of setting extended to 3. The queryMembers option is deprecated and scheduled to be removed in a future release.

When you issue Cluster.status({'extended':1}), or the extended option is set to true, the output includes:

  • the following additional attributes for the defaultReplicaSet object:

    • GRProtocolVersion is the Group Replication Protocol Version being used in the cluster.

      Tip

      InnoDB cluster manages the Group Replication Protocol version being used automatically, see InnoDB cluster and Group Replication Protocol for more information.

    • groupName is the group's name, a UUID.

  • the following additional attributes for each object of the topology object:

    • fenceSysVars a list containing the name of the fenced system variables which are enabled. Currently the fenced system variables considered are read_only, super_read_only and offline_mode.

    • memberId Each cluster member UUID.

    • memberRole the Member Role as reported by the Group Replication plugin, see the MEMBER_ROLE column of the replication_group_members table.

    • memberState the Member State as reported by the Group Replication plugin, see the MEMBER_STATE column of the replication_group_members table.

To see information about recovery and regular transaction I/O, applier worker thread statistics and any lags; applier coordinator statistics, if parallel apply is enabled; error, and other information from I/O and applier threads issue use the values 2 and 3. A value of 3 is the equivalent of setting the deprecated queryMembers option to true. When you use these values, a connection to each instance in the cluster is opened so that additional instance specific statistics can be queried. The exact statistics that are included in the output depend on the state and configuration of the instance and the server version. This information matches that shown in the replication_group_member_stats table, see the descriptions of the matching columns for more information. Instances which are ONLINE have a transactions section included in the output. Instances which are RECOVERING have a recovery section included in the output. When you set extended to 2, in either case, these sections can contain the following:

  • appliedCount: see COUNT_TRANSACTIONS_REMOTE_APPLIED

  • checkedCount: see COUNT_TRANSACTIONS_CHECKED

  • committedAllMembers: see TRANSACTIONS_COMMITTED_ALL_MEMBERS

  • conflictsDetectedCount: see COUNT_CONFLICTS_DETECTED

  • inApplierQueueCount: see COUNT_TRANSACTIONS_REMOTE_IN_APPLIER_QUEUE

  • inQueueCount: see COUNT_TRANSACTIONS_IN_QUEUE

  • lastConflictFree: see LAST_CONFLICT_FREE_TRANSACTION

  • proposedCount: see COUNT_TRANSACTIONS_LOCAL_PROPOSED

  • rollbackCount: see COUNT_TRANSACTIONS_LOCAL_ROLLBACK

When you set extended to 3, the connection section shows information from the replication_connection_status table. The connection section can contain the following:

The currentlyQueueing section has information about the transactions currently queued:

  • immediateCommitTimestamp: see QUEUEING_TRANSACTION_IMMEDIATE_COMMIT_TIMESTAMP

  • immediateCommitToNowTime: see QUEUEING_TRANSACTION_IMMEDIATE_COMMIT_TIMESTAMP minus NOW()

  • originalCommitTimestamp: see QUEUEING_TRANSACTION_ORIGINAL_COMMIT_TIMESTAMP

  • originalCommitToNowTime: see QUEUEING_TRANSACTION_ORIGINAL_COMMIT_TIMESTAMP minus NOW()

  • startTimestamp: see QUEUEING_TRANSACTION_START_QUEUE_TIMESTAMP

  • transaction: see QUEUEING_TRANSACTION

  • lastHeartbeatTimestamp: see LAST_HEARTBEAT_TIMESTAMP

The lastQueued section has information about the most recently queued transaction:

  • endTimestamp: see LAST_QUEUED_TRANSACTION_END_QUEUE_TIMESTAMP

  • immediateCommitTimestamp: see LAST_QUEUED_TRANSACTION_IMMEDIATE_COMMIT_TIMESTAMP

  • immediateCommitToEndTime: LAST_QUEUED_TRANSACTION_IMMEDIATE_COMMIT_TIMESTAMP minus NOW()

  • originalCommitTimestamp: see LAST_QUEUED_TRANSACTION_ORIGINAL_COMMIT_TIMESTAMP

  • originalCommitToEndTime: LAST_QUEUED_TRANSACTION_ORIGINAL_COMMIT_TIMESTAMP minus NOW()

  • queueTime: LAST_QUEUED_TRANSACTION_END_QUEUE_TIMESTAMP minus LAST_QUEUED_TRANSACTION_START_QUEUE_TIMESTAMP

  • startTimestamp: see LAST_QUEUED_TRANSACTION_START_QUEUE_TIMESTAMP

  • transaction: see LAST_QUEUED_TRANSACTION

  • receivedHeartbeats: see COUNT_RECEIVED_HEARTBEATS

  • receivedTransactionSet: see RECEIVED_TRANSACTION_SET

  • threadId: see THREAD_ID

Instances which are using a multithreaded slave have a workers section which contains information about the worker threads, and matches the information shown by the replication_applier_status_by_worker table.

The lastApplied section shows the following information about the last transaction applied by the worker:

  • applyTime: see LAST_APPLIED_TRANSACTION_END_APPLY_TIMESTAMP minus LAST_APPLIED_TRANSACTION_START_APPLY_TIMESTAMP

  • endTimestamp: see LAST_APPLIED_TRANSACTION_END_APPLY_TIMESTAMP

  • immediateCommitTimestamp: see LAST_APPLIED_TRANSACTION_IMMEDIATE_COMMIT_TIMESTAMP

  • immediateCommitToEndTime: see LAST_APPLIED_TRANSACTION_IMMEDIATE_COMMIT_TIMESTAMP minus NOW()

  • originalCommitTimestamp: see LAST_APPLIED_TRANSACTION_ORIGINAL_COMMIT_TIMESTAMP

  • originalCommitToEndTime: see LAST_APPLIED_TRANSACTION_ORIGINAL_COMMIT_TIMESTAMP minus NOW()

  • startTimestamp: see LAST_APPLIED_TRANSACTION_START_APPLY_TIMESTAMP

  • transaction: see LAST_APPLIED_TRANSACTION

The currentlyApplying section shows the following information about the transaction currently being applied by the worker:

  • immediateCommitTimestamp: see APPLYING_TRANSACTION_IMMEDIATE_COMMIT_TIMESTAMP

  • immediateCommitToNowTime: see APPLYING_TRANSACTION_IMMEDIATE_COMMIT_TIMESTAMP minus NOW()

  • originalCommitTimestamp: see APPLYING_TRANSACTION_ORIGINAL_COMMIT_TIMESTAMP

  • originalCommitToNowTime: see APPLYING_TRANSACTION_ORIGINAL_COMMIT_TIMESTAMP minus NOW()

  • startTimestamp: see APPLYING_TRANSACTION_START_APPLY_TIMESTAMP

  • transaction: see APPLYING_TRANSACTION

The lastProcessed section has the following information about the last transaction processed by the worker:

  • bufferTime: LAST_PROCESSED_TRANSACTION_END_BUFFER_TIMESTAMP minus LAST_PROCESSED_TRANSACTION_START_BUFFER_TIMESTAMP

  • endTimestamp: see LAST_PROCESSED_TRANSACTION_END_BUFFER_TIMESTAMP

  • immediateCommitTimestamp: see LAST_PROCESSED_TRANSACTION_IMMEDIATE_COMMIT_TIMESTAMP

  • immediateCommitToEndTime: LAST_PROCESSED_TRANSACTION_IMMEDIATE_COMMIT_TIMESTAMP minus LAST_PROCESSED_TRANSACTION_END_BUFFER_TIMESTAMP

  • originalCommitTimestamp: see LAST_PROCESSED_TRANSACTION_ORIGINAL_COMMIT_TIMESTAMP

  • originalCommitToEndTime: LAST_PROCESSED_TRANSACTION_ORIGINAL_COMMIT_TIMESTAMP minus LAST_PROCESSED_TRANSACTION_END_BUFFER_TIMESTAMP

  • startTimestamp: see LAST_PROCESSED_TRANSACTION_START_BUFFER_TIMESTAMP

  • transaction: see LAST_PROCESSED_TRANSACTION

If parallel applier workers are enabled, then the number of objects in the workers array in transactions or recovery matches the number of configured workers and an additional coordinator object is included. The information shown matches the information in the replication_applier_status_by_coordinator table. The object can contain:

The currentlyProcessing section has the following information about the transaction being processed by the worker:

  • immediateCommitTimestamp: see PROCESSING_TRANSACTION_IMMEDIATE_COMMIT_TIMESTAMP

  • immediateCommitToNowTime: PROCESSING_TRANSACTION_IMMEDIATE_COMMIT_TIMESTAMP minus NOW()

  • originalCommitTimestamp: see PROCESSING_TRANSACTION_ORIGINAL_COMMIT_TIMESTAMP

  • originalCommitToNowTime: PROCESSING_TRANSACTION_ORIGINAL_COMMIT_TIMESTAMP minus NOW()

  • startTimestamp: see PROCESSING_TRANSACTION_START_BUFFER_TIMESTAMP

  • transaction: see PROCESSING_TRANSACTION

worker objects have the following information if an error was detected in the replication_applier_status_by_worker table:

  • lastErrno: see LAST_ERROR_NUMBER

  • lastError: see LAST_ERROR_MESSAGE

  • lastErrorTimestamp: see LAST_ERROR_TIMESTAMP

connection objects have the following information if an error was detected in the replication_connection_status table:

  • lastErrno: see LAST_ERROR_NUMBER

  • lastError: see LAST_ERROR_MESSAGE

  • lastErrorTimestamp: see LAST_ERROR_TIMESTAMP

coordinator objects have the following information if an error was detected in the replication_applier_status_by_coordinator table:

  • lastErrno: see LAST_ERROR_NUMBER

  • lastError: see LAST_ERROR_MESSAGE

  • lastErrorTimestamp: see LAST_ERROR_TIMESTAMP

Monitoring Recovery Operations

The output of Cluster.status() shows information about the progress of recovery operations for instances in RECOVERING state. Information is shown for instances recovering using either MySQL Clone, or incremental recovery. Monitor these fields:

  • The recoveryStatusText field includes information about the type of recovery being used. When MySQL Clone is working the field shows Cloning in progress. When incremental recovery is working the field shows Distributed recovery in progress.

  • When MySQL Clone is being used, the recovery field includes a dictionary with the following fields:

    • cloneStartTime: The timestamp of the start of the clone process

    • cloneState: The state of the clone progress

    • currentStage: The current stage which the clone process has reached

    • currentStageProgress: The current stage progress as a percentage of completion

    • currentStageState: The current stage state

    Example Cluster.status() output, trimmed for brevity:

                        ...
                        "recovery": {
                        "cloneStartTime": "2019-07-15 12:50:22.730", 
                        "cloneState": "In Progress", 
                        "currentStage": "FILE COPY", 
                        "currentStageProgress": 61.726837675213865, 
                        "currentStageState": "In Progress"
                        }, 
                        "recoveryStatusText": "Cloning in progress", 
                        ...
  • When incremental recovery is being used, the recovery field includes a dictionary with the following field:

    • state: The state of the group_replication_recovery channel

    Example output Cluster.status(), trimmed for brevity:

                        ...
                        "recovery": {
                        "state": "ON"
                        }, 
                        ...

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InnoDB cluster and Group Replication Protocol

From MySQL 8.0.16, Group Replication has the concept of a communication protocol for the group, see Section 18.4.1.4, “Setting a Group's Communication Protocol Version” for background information. The Group Replication communication protocol version usually has to be managed explicitly, and set to accommodate the oldest MySQL Server version that you want the group to support. However, InnoDB cluster automatically and transparently manages the communication protocol versions of its members, whenever the cluster topology is changed using AdminAPI operations. A cluster always uses the most recent communication protocol version that is supported by all the instances that are currently part of the cluster or joining it.

  • When an instance is added to, removed from, or rejoins the cluster, or a rescan or reboot operation is carried out on the cluster, the communication protocol version is automatically set to a version supported by the instance that is now at the earliest MySQL Server version.

  • When you carry out a rolling upgrade by removing instances from the cluster, upgrading them, and adding them back into the cluster, the communication protocol version is automatically upgraded when the last remaining instance at the old MySQL Server version is removed from the cluster prior to its upgrade.

To see the communication protocol version being used in a cluster, use the Cluster.status() function with the extended option enabled. The communication protocol version is returned in the GRProtocolVersion field, provided that the cluster has quorum and no cluster members are unreachable.

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Checking the MySQL Version on Instances

The following operations can report information about the MySQL Server version running on the instance:

  • Cluster.status()

  • Cluster.describe()

  • Cluster.rescan()

The behavior varies depending on the MySQL Server version of the Cluster object session.

  • Cluster.status()

    If either of the following requirements are met, a version string attribute is returned for each instance JSON object of the topology object:

    • The Cluster object's current session is version 8.0.11 or later.

    • The Cluster object's current session is running a version earlier than version 8.0.11 but the extended option is set to 3 (or the deprecated queryMembers is true).

    For example on an instance running version 8.0.16:

    "topology": {
        "ic-1:3306": {
            "address": "ic-1:3306",
            "mode": "R/W",
            "readReplicas": {},
            "role": "HA",
            "status": "ONLINE",
            "version": "8.0.16"
    }

    For example on an instance running version 5.7.24:

    "topology": {
        "ic-1:3306": {
            "address": "ic-1:3306",
            "mode": "R/W",
            "readReplicas": {},
            "role": "HA",
            "status": "ONLINE",
            "version": "5.7.24"
    }
  • Cluster.describe()

    If the Cluster object's current session is version 8.0.11 or later, a version string attribute is returned for each instance JSON object of the topology object

    For example on an instance running version 8.0.16:

    "topology": [
        {
            "address": "ic-1:3306",
            "label": "ic-1:3306",
            "role": "HA",
            "version": "8.0.16"
        }
    ]
  • Cluster.rescan()

    If the Cluster object's current session is version 8.0.11 or later, and the Cluster.rescan() operation detects instances which do not belong to the cluster, a version string attribute is returned for each instance JSON object of the newlyDiscoveredInstance object.

    For example on an instance running version 8.0.16:

    "newlyDiscoveredInstances": [
        {
            "host": "ic-4:3306",
            "member_id": "82a67a06-2ba3-11e9-8cfc-3c6aa7197deb",
            "name": null,
            "version": "8.0.16"
        }
    ]

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Super Read-only and Instances

Whenever Group Replication stops, the super_read_only variable is set to ON to ensure no writes are made to the instance. When you try to use such an instance with the following AdminAPI commands you are given the choice to set super_read_only=OFF on the instance:

  • dba.configureInstance()

  • dba.configureLocalInstance()

  • dba.dropMetadataSchema()

When AdminAPI encounters an instance which has super_read_only=ON, in interactive mode you are given the choice to set super_read_only=OFF. For example:

mysql-js> var myCluster = dba.dropMetadataSchema()
Are you sure you want to remove the Metadata? [y/N]: y
The MySQL instance at 'localhost:3310' currently has the super_read_only system
variable set to protect it from inadvertent updates from applications. You must
first unset it to be able to perform any changes to this instance.
For more information see:
https://dev.mysql.com/doc/refman/en/server-system-variables.html#sysvar_super_read_only.

Do you want to disable super_read_only and continue? [y/N]: y

Metadata Schema successfully removed.

The number of current active sessions to the instance is shown. You must ensure that no applications can write to the instance inadvertently. By answering y you confirm that AdminAPI can write to the instance. If there is more than one open session to the instance listed, exercise caution before permitting AdminAPI to set super_read_only=OFF.

To force the function to set super_read_only=OFF in a script, pass the clearReadOnly option set to true. For example dba.configureInstance(instance, {clearReadOnly: true}).

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Configuring Users for InnoDB Cluster

The recommended way to create a user which can administer an InnoDB cluster is to use the clusterAdmin and clusterAdminPassword options with the dba.createCluster() operation. If you want to manually configure a user which can administer an InnoDB cluster that user requires the following privileges, all with GRANT OPTION:

If only read operations are needed, for example to create a user for monitoring purposes, an account with more restricted privileges can be used. To give the user your_user the privileges needed to monitor InnoDB cluster issue:

  1. GRANT SELECT ON mysql_innodb_cluster_metadata.* TO your_user@'%';
  2. GRANT SELECT ON performance_schema.global_status TO your_user@'%';
  3. GRANT SELECT ON performance_schema.replication_applier_configuration TO your_user@'%';
  4. GRANT SELECT ON performance_schema.replication_applier_status TO your_user@'%';
  5. GRANT SELECT ON performance_schema.replication_applier_status_by_coordinator TO your_user@'%';
  6. GRANT SELECT ON performance_schema.replication_applier_status_by_worker TO your_user@'%';
  7. GRANT SELECT ON performance_schema.replication_connection_configuration TO your_user@'%';
  8. GRANT SELECT ON performance_schema.replication_connection_status TO your_user@'%';
  9. GRANT SELECT ON performance_schema.replication_group_member_stats TO your_user@'%';
  10. GRANT SELECT ON performance_schema.replication_group_members TO your_user@'%';
  11. GRANT SELECT ON performance_schema.threads TO your_user@'%' WITH GRANT OPTION;

For more information, see Section 13.7.1, “Account Management Statements”.

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Configuring Automatic Rejoin of Instances

Instances running MySQL 8.0.16 and later support the Group Replication automatic rejoin functionality, which enables you to configure instances to automatically rejoin the cluster after being expelled. See Section 18.6.6, “Responses to Failure Detection and Network Partitioning” for background information. AdminAPI provides the autoRejoinTries option to configure the number of tries instances make to rejoin the cluster after being expelled. By default instances do not automatically rejoin the cluster. You can configure the autoRejoinTries option at either the cluster level or for an individual instance using the following commands:

  • dba.createCluster()

  • Cluster.addInstance()

  • Cluster.setOption()

  • Cluster.setInstanceOption()

The autoRejoinTries option accepts positive integer values between 0 and 2016 and the default value is 0, which means that instances do not try to automatically rejoin. When you are using the automatic rejoin functionality, your cluster is more tolerant to faults, especially temporary ones such as unreliable networks. But if quorum has been lost, you should not expect members to automatically rejoin the cluster, because majority is required to rejoin instances.

Instances running MySQL version 8.0.12 and later have the group_replication_exit_state_action variable, which you can configure using the AdminAPI exitStateAction option. This controls what instances do in the event of leaving the cluster unexpectedly. By default the exitStateAction option is READ_ONLY, which means that instances which leave the cluster unexpectedly become read-only. If exiStateAction is ABORT_SERVER then in the event of leaving the cluster unexpectedly, the instance shuts down MySQL, and it has to be started again before it can rejoin the cluster. Note that when you are using the automatic rejoin functionality, the action configured by the exitStateAction option only happens in the event that all attempts to rejoin the cluster fail.

There is a chance you might connect to an instance and try to configure it using the AdminAPI, but at that moment the instance could be rejoining the cluster. This could happen whenever you use any of these operations:

  • Cluster.status()

  • dba.getCluster()

  • Cluster.rejoinInstance()

  • Cluster.addInstance()

  • Cluster.removeInstance()

  • Cluster.rescan()

  • Cluster.checkInstanceState()

These operations might provide extra information while the instance is automatically rejoining the cluster. In addition, when you are using Cluster.removeInstance(), if the target instance is automatically rejoining the cluster the operation aborts unless you pass in force:true.

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Managing Sandbox Instances

Once a sandbox instance is running, it is possible to change its status at any time using the following:

  • To stop a sandbox instance use dba.stopSandboxInstance(instance). This stops the instance gracefully, unlike dba.killSandboxInstance(instance).

  • To start a sandbox instance use dba.startSandboxInstance(instance).

  • To kill a sandbox instance use dba.killSandboxInstance(instance). This stops the instance without gracefully stopping it and is useful in simulating unexpected halts.

  • To delete a sandbox instance use dba.deleteSandboxInstance(instance). This completely removes the sandbox instance from your file system.

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Removing Instances from the InnoDB Cluster

You can remove an instance from a cluster at any time should you wish to do so. This can be done with the Cluster.removeInstance(instance) method, as in the following example:

mysql-js> cluster.removeInstance('root@localhost:3310')

The instance will be removed from the InnoDB cluster. Depending on the instance
being the Seed or not, the Metadata session might become invalid. If so, please
start a new session to the Metadata Storage R/W instance.

Attempting to leave from the Group Replication group...

The instance 'localhost:3310' was successfully removed from the cluster.

You can optionally pass in the interactive option to control whether you are prompted to confirm the removal of the instance from the cluster. In interactive mode, you are prompted to continue with the removal of the instance (or not) in case it is not reachable. The cluster.removeInstance() operation ensures that the instance is removed from the metadata of all the cluster members which are ONLINE, and the instance itself.

When the instance being removed has transactions which still need to be applied, AdminAPI waits for up to the number of seconds configured by the MySQL Shell dba.gtidWaitTimeout option for transactions (GTIDs) to be applied. The MySQL Shell dba.gtidWaitTimeout option has a default value of 60 seconds, see Configuring MySQL Shell Options for information on changing the default. If the timeout value defined by dba.gtidWaitTimeout is reached when waiting for transactions to be applied and the force option is false (or not defined) then an error is issued and the remove operation is aborted. If the timeout value defined by dba.gtidWaitTimeout is reached when waiting for transactions to be applied and the force option is set to true then the operation continues without an error and removes the instance from the cluster.

Important

The force option should only be used with Cluster.removeInstance(instance) when you want to ignore any errors, for example unprocessed transactions or an instance being UNREACHABLE, and do not plan to reuse the instance with the cluster. Ignoring errors when removing an instance from the cluster could result in an instance which is not in synchrony with the cluster, preventing it from rejoining the cluster at a later time. Only use the force option when you plan to no longer use the instance with the cluster, in all other cases you should always try to recover the instance and only remove it when it is available and healthy, in other words with the status ONLINE.

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Customizing InnoDB clusters

When you create a cluster and add instances to it, values such as the group name, the local address, and the seed instances are configured automatically by AdminAPI. These default values are recommended for most deployments, but advanced users can override the defaults by passing the following options to the dba.createCluster() and Cluster.addInstance().

To customize the name of the replication group created by InnoDB cluster, pass the groupName option to the dba.createCluster() command. This sets the group_replication_group_name system variable. The name must be a valid UUID.

To customize the address which an instance provides for connections from other instances, pass the localAddress option to the dba.createCluster() and cluster.addInstance() commands. Specify the address in the format host:port. This sets the group_replication_local_address system variable on the instance. The address must be accessible to all instances in the cluster, and must be reserved for internal cluster communication only. In other words do not use this address for communication with the instance.

To customize the instances used as seeds when an instance joins the cluster, pass the groupSeeds option to the dba.createCluster() and cluster.addInstance() commands. Seed instances are contacted when a new instance joins a cluster and used to provide data to the new instance. The addresses are specified as a comma separated list such as host1:port1,host2:port2. This configures the group_replication_group_seeds system variable.

For more information see the documentation of the system variables configured by these AdminAPI options.

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Rejoining a Cluster

If an instance leaves the cluster, for example because it lost connection, and for some reason it could not automatically rejoin the cluster, it might be necessary to rejoin it to the cluster at a later stage. To rejoin an instance to a cluster issue Cluster.rejoinInstance(instance).

Tip

If the instance has super_read_only=ON then you might need to confirm that AdminAPI can set super_read_only=OFF. See Super Read-only and Instances for more information.

In the case where an instance has not had it's configuration persisted (see Persisting Settings), upon restart the instance does not rejoin the cluster automatically. The solution is to issue cluster.rejoinInstance() so that the instance is added to the cluster again and ensure the changes are persisted. Once the InnoDB cluster configuration is persisted to the instance's option file it rejoins the cluster automatically.

If you are rejoining an instance which has changed in some way then you might have to modify the instance to make the rejoin process work correctly. For example, when you restore a MySQL Enterprise Backup backup, the server_uuid changes. Attempting to rejoin such an instance fails because InnoDB cluster instances are identified by the server_uuid variable. In such a situation, information about the instance's old server_uuid must be removed from the InnoDB cluster metadata and then a Cluster.rescan() must be executed to add the instance to the metadata using it's new server_uuid. For example:

cluster.removeInstance("root@instanceWithOldUUID:3306", {force: true})

cluster.rescan()

In this case you must pass the force option to the Cluster.removeInstance() method because the instance is unreachable from the cluster's perspective and we want to remove it from the InnoDB cluster metadata anyway.

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Restoring a Cluster from Quorum Loss

If an instance (or instances) fail, then a cluster can lose its quorum, which is the ability to vote in a new primary. This can happen when a there is a failure of enough instances that there is no longer a majority of the instances which make up the cluster to vote on Group Replication operations. When a cluster loses quorum you can no longer process write transactions with the cluster, or change the cluster's topology, for example by adding, rejoining, or removing instances. However if you have an instance online which contains the InnoDB cluster metadata, it is possible to restore a cluster with quorum. This assumes you can connect to an instance that contains the InnoDB cluster metadata, and that instance can contact the other instances you want to use to restore the cluster.

Important

This operation is potentially dangerous because it can create a split-brain scenario if incorrectly used and should be considered a last resort. Make absolutely sure that there are no partitions of this group that are still operating somewhere in the network, but not accessible from your location.

Connect to an instance which contains the cluster's metadata, then use the Cluster.forceQuorumUsingPartitionOf(instance) operation, which restores the cluster based on the metadata on instance, and then all the instances that are ONLINE from the point of view of the given instance definition are added to the restored cluster.

mysql-js> cluster.forceQuorumUsingPartitionOf("ic@ic-1:3306")

  Restoring replicaset 'default' from loss of quorum, by using the partition composed of [ic@ic-1:3306]

  Please provide the password for 'ic@ic-1:3306': ******
  Restoring the InnoDB cluster ...

  The InnoDB cluster was successfully restored using the partition from the instance 'ic@ic-1:3306'.

  WARNING: To avoid a split-brain scenario, ensure that all other members of the replicaset
  are removed or joined back to the group that was restored.

In the event that an instance is not automatically added to the cluster, for example if its settings were not persisted, use Cluster.rejoinInstance() to manually add the instance back to the cluster.

The restored cluster might not, and does not have to, consist of all of the original instances which made up the cluster. For example, if the original cluster consisted of the following five instances:

  • ic-1

  • ic-2

  • ic-3

  • ic-4

  • ic-5

and the cluster experiences a split-brain scenario, with ic-1, ic-2, and ic-3 forming one partition while ic-4 and ic-5 form another partition. If you connect to ic-1 and issue Cluster.forceQuorumUsingPartitionOf('ic@ic-1:3306') to restore the cluster the reulting cluster would consist of these three instances:

  • ic-1

  • ic-2

  • ic-3

because ic-1 sees ic-2 and ic-3 as ONLINE and does not see ic-4 and ic-5.

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Rebooting a Cluster from a Major Outage

If your cluster suffers from a complete outage, you can ensure it is reconfigured correctly using dba.rebootClusterFromCompleteOutage(). This operation takes the instance which MySQL Shell is currently connected to and uses its metadata to recover the cluster. In the event that a cluster's instances have completely stopped, the instances must be started and only then can the cluster be started. For example if the machine a sandbox cluster was running on has been restarted, and the instances were at ports 3310, 3320 and 3330, issue:

mysql-js> dba.startSandboxInstance(3310)
mysql-js> dba.startSandboxInstance(3320)
mysql-js> dba.startSandboxInstance(3330)

This ensures the sandbox instances are running. In the case of a production deployment you would have to start the instances outside of MySQL Shell. Once the instances have started, you need to connect to an instance with the GTID superset, which means the instance which had applied the most transaction before the outage. If you are unsure which instance contains the GTID superset, connect to any instance and follow the interactive messages from the dba.rebootClusterFromCompleteOutage(), which detects if the instance you are connected to contains the GTID superset. Reboot the cluster by issuing:

mysql-js> var cluster = dba.rebootClusterFromCompleteOutage();

The dba.rebootClusterFromCompleteOutage() operation then follows these steps to ensure the cluster is correctly reconfigured:

  • The InnoDB cluster metadata found on the instance which MySQL Shell is currently connected to is checked to see if it contains the GTID superset, in other words the transactions applied by the cluster. If the currently connected instance does not contain the GTID superset, the operation aborts with that information. See the subsequent paragraphs for more information.

  • If the instance contains the GTID superset, the cluster is recovered based on the metadata of the instance.

  • Assuming you are running MySQL Shell in interactive mode, a wizard is run that checks which instances of the cluster are currently reachable and asks if you want to rejoin any discovered instances to the rebooted cluster.

  • Similarly, in interactive mode the wizard also detects instances which are currently not reachable and asks if you would like to remove such instances from the rebooted cluster.

If you are not using MySQL Shell's interactive mode, you can use the rejoinInstances and removeInstances options to manually configure instances which should be joined or removed during the reboot of the cluster.

If you encounter an error such as The active session instance isn't the most updated in comparison with the ONLINE instances of the Cluster's metadata. then the instance you are connected to does not have the GTID superset of transactions applied by the cluster. In this situation, connect MySQL Shell to the instance suggested in the error message and issue dba.rebootClusterFromCompleteOutage() from that instance.

Tip

To manually detect which instance has the GTID superset rather than using the interactive wizard, check the gtid_executed variable on each instance. For example issue:

  1. mysql-sql> SHOW VARIABLES LIKE 'gtid_executed';

The instance which has applied the largest GTID set of transactions contains the GTID superset.

If this process fails, and the cluster metadata has become badly corrupted, you might need to drop the metadata and create the cluster again from scratch. You can drop the cluster metadata using dba.dropMetadataSchema().

Warning

The dba.dropMetadataSchema() method should only be used as a last resort, when it is not possible to restore the cluster. It cannot be undone.

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Rescanning a Cluster

If you make configuration changes to a cluster outside of the AdminAPI commands, for example by changing an instance's configuration manually to resolve configuration issues or after the loss of an instance, you need to update the InnoDB cluster metadata so that it matches the current configuration of instances. In these cases, use the Cluster.rescan() operation, which enables you to update the InnoDB cluster metadata either manually or using an interactive wizard. The Cluster.rescan() operation can detect new active instances that are not registered in the metadata and add them, or obsolete instances (no longer active) still registered in the metadata, and remove them. You can automatically update the metadata depending on the instances found by the command, or you can specify a list of instance addresses to either add to the metadata or remove from the metadata. You can also update the topology mode stored in the metadata, for example after changing from single-primary mode to multi-primary mode outside of AdminAPI.

The syntax of the command is Cluster.rescan([options]). The options dictionary supports the following:

  • interactive: boolean value used to disable or enable the wizards in the command execution. Controls whether prompts and confirmations are provided. The default value is equal to MySQL Shell wizard mode, specified by shell.options.useWizards.

  • addInstances: list with the connection data of the new active instances to add to the metadata, or auto to automatically add missing instances to the metadata. The value auto is case-insensitive.

    • Instances specified in the list are added to the metadata, without prompting for confirmation

    • In interactive mode, you are prompted to confirm the addition of newly discovered instances that are not included in the addInstances option

    • In non-interactive mode, newly discovered instances that are not included in the addInstances option are reported in the output, but you are not prompted to add them

  • removeInstances: list with the connection data of the obsolete instances to remove from the metadata, or auto to automatically remove obsolete instances from the metadata.

    • Instances specified in the list are removed from the metadata, without prompting for confirmation

    • In interactive mode, you are prompted to confirm the removal of obsolete instances that are not included in the removeInstances option

    • In non-interactive mode, obsolete instances that are not included in the removeInstances option are reported in the output but you are not prompted to remove them

  • updateTopologyMode: boolean value used to indicate if the topology mode (single-primary or multi-primary) in the metadata should be updated (true) or not (false) to match the one being used by the cluster. By default, the metadata is not updated (false).

    • If the value is true then the InnoDB cluster metadata is compared to the current mode being used by Group Replication, and the metadata is updated if necessary. Use this option to update the metadata after making changes to the topology mode of your cluster outside of AdminAPI.

    • If the value is false then InnoDB cluster metadata about the cluster's topology mode is not updated even if it is different from the topology used by the cluster's Group Replication group

    • If the option is not specified and the topology mode in the metadata is different from the topology used by the cluster's Group Replication group, then:

      • In interactive mode, you are prompted to confirm the update of the topology mode in the metadata

      • In non-interactive mode, if there is a difference between the topology used by the cluster's Group Replication group and the InnoDB cluster metadata, it is reported and no changes are made to the metadata

    • When the metadata topology mode is updated to match the Group Replication mode, the auto-increment settings on all instances are updated as described at InnoDB cluster and Auto-increment.

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Checking Instance State

The cluster.checkInstanceState() function can be used to verify the existing data on an instance does not prevent it from joining a cluster. This process works by validating the instance's global transaction identifier (GTID) state compared to the GTIDs already processed by the cluster. For more information on GTIDs see Section 17.1.3.1, “GTID Format and Storage”. This check enables you to determine if an instance which has processed transactions can be added to the cluster.

The following demonstrates issuing this in a running MySQL Shell:

mysql-js> cluster.checkInstanceState('ic@ic-4:3306')

The output of this function can be one of the following:

  • OK new: the instance has not executed any GTID transactions, therefore it cannot conflict with the GTIDs executed by the cluster

  • OK recoverable: the instance has executed GTIDs which do not conflict with the executed GTIDs of the cluster seed instances

  • ERROR diverged: the instance has executed GTIDs which diverge with the executed GTIDs of the cluster seed instances

  • ERROR lost_transactions: the instance has more executed GTIDs than the executed GTIDs of the cluster seed instances

Instances with an OK status can be added to the cluster because any data on the instance is consistent with the cluster. In other words the instance being checked has not executed any transactions which conflict with the GTIDs executed by the cluster, and can be recovered to the same state as the rest of the cluster instances.

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Dissolving an InnoDB Cluster

To dissolve an InnoDB cluster you connect to a read-write instance, for example the primary in a single-primary cluster, and use the Cluster.dissolve() command. This removes all metadata and configuration associated with the cluster, and disables Group Replication on the instances. Any data that was replicated between the instances is not removed.

Important

There is no way to undo the dissolving of a cluster. To create it again use dba.createCluster().

The Cluster.dissolve() operation can only configure instances which are ONLINE or reachable. If members of a cluster cannot be reached by the member where you issued the Cluster.dissolve() command you have to decide how the dissolve operation should proceed. If there is any chance you want to rejoin any instances that are identified as missing from the cluster, it is strongly recommended to cancel the dissolve operation and first bring the missing instances back online, before proceeding with a dissolve operation. This ensures that all instances can have their metadata updated correctly, and that there is no chance of a split-brain situation. However, if the instances from the cluster which cannot be reached have permanently left the cluster there could be no choice but to force the dissolve operation, which means that the missing instances are ignored and only online instances are affected by the operation.

Warning

Forcing the dissolve operation to ignore cluster instances can result in instances which could not be reached during the dissolve operation continuing to operate, creating the risk of a split-brain situation. Only ever force a dissolve operation to ignore missing instances if you are sure there is no chance of the instance coming online again.

In interactive mode, if members of a cluster are not reachable during a dissolve operation then an interactive prompt is displayed, for example:

mysql-js> Cluster.dissolve()
The cluster still has the following registered ReplicaSets:
{
    "clusterName": "testCluster", 
    "defaultReplicaSet": {
        "name": "default", 
        "topology": [
            {
                "address": "ic-1:3306", 
                "label": "ic-1:3306", 
                "role": "HA"
            }, 
            {
                "address": "ic-2:3306", 
                "label": "ic-2:3306", 
                "role": "HA"
            }, 
            {
                "address": "ic-3:3306", 
                "label": "ic-3:3306", 
                "role": "HA"
            }
        ]
    }
}
WARNING: You are about to dissolve the whole cluster and lose the high
availability features provided by it. This operation cannot be reverted. All
members will be removed from their ReplicaSet and replication will be stopped,
internal recovery user accounts and the cluster metadata will be dropped. User
data will be maintained intact in all instances.

Are you sure you want to dissolve the cluster? [y/N]: y

ERROR: The instance 'ic-2:3306' cannot be removed because it is on a '(MISSING)'
state. Please bring the instance back ONLINE and try to dissolve the cluster
again. If the instance is permanently not reachable, then you can choose to
proceed with the operation and only remove the instance from the Cluster
Metadata.

Do you want to continue anyway (only the instance metadata will be removed)?
[y/N]: y

Instance 'ic-3:3306' is attempting to leave the cluster...  Instance 'ic-1:3306'
is attempting to leave the cluster...

WARNING: The cluster was successfully dissolved, but the following instance was
skipped: 'ic-2:3306'. Please make sure this instance is permanently unavailable
or take any necessary manual action to ensure the cluster is fully dissolved.

In this example, the cluster consisted of three instances, one of which was offline when dissolve was issued. The error is caught, and you are given the choice how to proceed. In this case the missing ic-2 instance is ignored and the reachable members have their metadata updated.

When MySQL Shell is running in non-interactive mode, for example when running a batch file, you can configure the behavior of the Cluster.dissolve() operation using the force option. To force the dissolve operation to ignore any instances which are unreachable, issue:

mysql-js> Cluster.dissolve({force: true})

Any instances which can be reached are removed from the cluster, and any unreachable instances are ignored. The warnings in this section about forcing the removal of missing instances from a cluster apply equally to this technique of forcing the dissolve operation.

You can also use the interactive option with the Cluster.dissolve() operation to override the mode which MySQL Shell is running in, for example to make the interactive prompt appear when running a batch script. For example:

mysql-js> Cluster.dissolve({interactive: true})

The dba.gtidWaitTimeout MySQL Shell option configures how long the Cluster.dissolve() operation waits for cluster transactions to be applied before removing a target instance from the cluster, but only if the target instance is ONLINE. An error is issued if the timeout is reached when waiting for cluster transactions to be applied on any of the instances being removed, except if force: true is used, which skips the error in that case.

Note

After issuing cluster.dissolve(), any variable assigned to the Cluster object is no longer valid.

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Securing your Cluster

Server instances can be configured to use secure connections. For general information on using SSL with MySQL see Section 6.3, “Using Encrypted Connections”. This section explains how to configure a cluster to use SSL. An additional security possibility is to configure which servers can access the cluster, see Creating a Whitelist of Servers.

Important

Once you have configured a cluster to use SSL you must add the servers to the ipWhitelist.

When using dba.createCluster() to set up a cluster, if the server instance provides SSL encryption then it is automatically enabled on the seed instance. Pass the memberSslMode option to the dba.createCluster() method to specify a different SSL mode. The SSL mode of a cluster can only be set at the time of creation. The memberSslMode option is a string that configures the SSL mode to be used, it defaults to AUTO. The permitted values are DISABLED, REQUIRED, and AUTO. These modes are defined as:

  • Setting createCluster({memberSslMode:'DISABLED'}) ensures SSL encryption is disabled for the seed instance in the cluster.

  • Setting createCluster({memberSslMode:'REQUIRED'}) then SSL encryption is enabled for the seed instance in the cluster. If it cannot be enabled an error is raised.

  • Setting createCluster({memberSslMode:'AUTO'}) (the default) then SSL encryption is automatically enabled if the server instance supports it, or disabled if the server does not support it.

Note

When using the commercial version of MySQL, SSL is enabled by default and you might need to configure the whitelist for all instances. See Creating a Whitelist of Servers.

When you issue the cluster.addInstance() and cluster.rejoinInstance() commands, SSL encryption on the instance is enabled or disabled based on the setting found for the seed instance.

When using createCluster() with the adoptFromGR option to adopt an existing Group Replication group, no SSL settings are changed on the adopted cluster:

  • memberSslMode cannot be used with adoptFromGR.

  • If the SSL settings of the adopted cluster are different from the ones supported by the MySQL Shell, in other words SSL for Group Replication recovery and Group Communication, both settings are not modified. This means you are not be able to add new instances to the cluster, unless you change the settings manually for the adopted cluster.

MySQL Shell always enables or disables SSL for the cluster for both Group Replication recovery and Group Communication, see Section 18.5.2, “Group Replication Secure Socket Layer (SSL) Support”. A verification is performed and an error issued in case those settings are different for the seed instance (for example as the result of a dba.createCluster() using adoptFromGR) when adding a new instance to the cluster. SSL encryption must be enabled or disabled for all instances in the cluster. Verifications are performed to ensure that this invariant holds when adding a new instance to the cluster.

The deploySandboxInstance() command attempts to deploy sandbox instances with SSL encryption support by default. If it is not possible, the server instance is deployed without SSL support. Use the ignoreSslError option set to false to ensure that sandbox instances are deployed with SSL support, issuing an error if SSL support cannot be provided. When ignoreSslError is true, which is the default, no error is issued during the operation if the SSL support cannot be provided and the server instance is deployed without SSL support.

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Creating a Whitelist of Servers

When using a cluster's createCluster(), addInstance(), and rejoinInstance() methods you can optionally specify a list of approved servers that belong to the cluster, referred to as a whitelist. By specifying the whitelist explicitly in this way you can increase the security of your cluster because only servers in the whitelist can connect to the cluster. Using the ipWhitelist option configures the group_replication_ip_whitelist system variable on the instance. By default, if not specified explicitly, the whitelist is automatically set to the private network addresses that the server has network interfaces on. To configure the whitelist, specify the servers to add with the ipWhitelist option when using the method. Pass the servers as a comma separated list, surrounded by quotes. For example:

mysql-js> cluster.addInstance("ic@ic-3:3306", {ipWhitelist: "203.0.113.0/24, 198.51.100.110"})

This configures the instance to only accept connections from servers at addresses 203.0.113.0/24 and 198.51.100.110. The whitelist can also include host names, which are resolved only when a connection request is made by another server.

Warning

Host names are inherently less secure than IP addresses in a whitelist. MySQL carries out FCrDNS verification, which provides a good level of protection, but can be compromised by certain types of attack. Specify host names in your whitelist only when strictly necessary, and ensure that all components used for name resolution, such as DNS servers, are maintained under your control. You can also implement name resolution locally using the hosts file, to avoid the use of external components.

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Scripting AdminAPI

You can automate cluster configuration with scripts, which can be run using MySQL Shell. For example:

shell> mysqlsh -f setup-innodb-cluster.js
Note

Any command line options specified after the script file name are passed to the script and not to MySQL Shell. You can access those options using the os.argv array in JavaScript, or the sys.argv array in Python. In both cases, the first option picked up in the array is the script name.

The contents of an example script file is shown here:

print('InnoDB cluster sandbox set up\n');
print('==================================\n');
print('Setting up a MySQL InnoDB cluster with 3 MySQL Server sandbox instances.\n');
print('The instances will be installed in ~/mysql-sandboxes.\n');
print('They will run on ports 3310, 3320 and 3330.\n\n');

var dbPass = shell.prompt('Please enter a password for the MySQL root account: ', {type:"password"});

try {
   print('\nDeploying the sandbox instances.');
   dba.deploySandboxInstance(3310, {password: dbPass});
   print('.');
   dba.deploySandboxInstance(3320, {password: dbPass});
   print('.');
   dba.deploySandboxInstance(3330, {password: dbPass});
   print('.\nSandbox instances deployed successfully.\n\n');

   print('Setting up InnoDB cluster...\n');
   shell.connect('root@localhost:3310', dbPass);

   var cluster = dba.createCluster("prodCluster");

   print('Adding instances to the cluster.');
   cluster.addInstance({user: "root", host: "localhost", port: 3320, password: dbPass});
   print('.');
   cluster.addInstance({user: "root", host: "localhost", port: 3330, password: dbPass});
   print('.\nInstances successfully added to the cluster.');

   print('\nInnoDB cluster deployed successfully.\n');
} catch(e) {
   print('\nThe InnoDB cluster could not be created.\n\nError: ' +
   + e.message + '\n');
}

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Configuring the Election Process

You can optionally configure how a single-primary cluster elects a new primary, for example to prefer one instance as the new primary to fail over to. Use the memberWeight option and pass it to the dba.createCluster() and Cluster.addInstance() methods when creating your cluster. The memberWeight option accepts an integer value between 0 and 100, which is a percentage weight for automatic primary election on failover. When an instance has a higher precentage number set by memberWeight, it is more likely to be elected as primary in a single-primary cluster. When a primary election takes place, if multiple instances have the same memberWeight value, the instances are then prioritized based on their server UUID in lexicographical order (the lowest) and by picking the first one.

Setting the value of memberWeight configures the group_replication_member_weight system variable on the instance. Group Replication limits the value range from 0 to 100, automatically adjusting it if a higher or lower value is provided. Group Replication uses a default value of 50 if no value is provided. See Section 18.1.3.1, “Single-Primary Mode” for more information.

For example to configure a cluster where ic-3 is the preferred instance to fail over to in the event that ic-1, the current primary, leaves the cluster unexpectedly use memberWeight as follows:

dba.createCluster('cluster1', {memberWeight:35})
var mycluster = dba.getCluster()
mycluster.addInstance('ic@ic2', {memberWeight:25})
mycluster.addInstance('ic@ic3', {memberWeight:50})

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Configuring Failover Consistency

Group Replication provides the ability to specify the failover guarantees (eventual or read your writes) if a primary failover happens in single-primary mode (see Section 18.4.2.2, “Configuring Transaction Consistency Guarantees”). You can configure the failover guarantees of an InnoDB cluster at creation by passing the consistency option (prior to version 8.0.16 this option was the failoverConsistency option, which is now deprecated) to the dba.createCluster() operation, which configures the group_replication_consistency system variable on the seed instance. This option defines the behavior of a new fencing mechanism used when a new primary is elected in a single-primary group. The fencing restricts connections from writing and reading from the new primary until it has applied any pending backlog of changes that came from the old primary (sometimes referred to as read your writes). While the fencing mechanism is in place, applications effectively do not see time going backward for a short period of time while any backlog is applied. This ensures that applications do not read stale information from the newly elected primary.

The consistency option is only supported if the target MySQL server version is 8.0.14 or later, and instances added to a cluster which has been configured with the consistency option are automatically configured to have group_replication_consistency the same on all cluster members that have support for the option. The variable default value is controlled by Group Replication and is EVENTUAL, change the consistency option to BEFORE_ON_PRIMARY_FAILOVER to enable the fencing mechanism. Alternatively use consistency=0 for EVENTUAL and consistency=1 for BEFORE_ON_PRIMARY_FAILOVER.

Note

Using the consistency option on a multi-primary InnoDB cluster has no effect but is allowed because the cluster can later be changed into single-primary mode with the Cluster.switchToSinglePrimaryMode() operation.

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Changing a Cluster's Topology

By default, an InnoDB cluster runs in single-primary mode, where the cluster has one primary server that accepts read and write queries (R/W), and all of the remaining instances in the cluster accept only read queries (R/O). When you configure a cluster to run in multi-primary mode, all of the instances in the cluster are primaries, which means that they accept both read and write queries (R/W). If a cluster has all of its instances running MySQL server version 8.0.15 or later, you can make changes to the topology of the cluster while the cluster is online. In previous versions it was necessary to completely dissolve and re-create the cluster to make the configuration changes. This uses the group action coordinator exposed through the UDFs described at Section 18.4.1, “Configuring an Online Group”, and as such you should observe the rules for configuring online groups.

Note

multi-primary mode is considered an advanced mode

Usually a single-primary cluster elects a new primary when the current primary leaves the cluster unexpectedly, for example due to an unexpected halt. The election process is normally used to choose which of the current secondaries becomes the new primary. To override the election process and force a specific server to become the new primary, use the Cluster.setPrimaryInstance(instance) function, where instance specifies the connection to the instance which should become the new primary. This enables you to configure the underlying Group Replication group to choose a specific instance as the new primary, bypassing the election process.

You can change the mode (sometimes described as the topology) which a cluster is running in between single-primary and multi-primary using the following operations:

  • Cluster.switchToMultiPrimaryMode(), which switches the cluster to multi-primary mode. All instances become primaries.

  • Cluster.switchToSinglePrimaryMode([instance]), which switches the cluster to single-primary mode. If instance is specified, it becomes the primary and all the other instances become secondaries. If instance is not specified, the new primary is the instance with the highest member weight (and the lowest UUID in case of a tie on member weight).

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Setting Options for InnoDB cluster

You can check and modify the settings in place for an InnoDB cluster while the instances are online. To check the current settings of a cluster, use the following operation:

  • Cluster.options(), which lists the cluster configuration options for its ReplicaSets and instances. A boolean option all can also be specified to include information about all Group Replication system variables in the output.

You can configure the options of an InnoDB cluster at a cluster level or instance level, while instances remain online. This avoids the need to remove, reconfigure and then again add the instance to change InnoDB cluster options. Use the following operations:

  • Cluster.setOption(option, value) to change the settings of all cluster instances globally or cluster global settings such as clusterName.

  • Cluster.setInstanceOption(instance, option, value) to change the settings of individual cluster instances

The way which you use InnoDB cluster options with the operations listed depends on whether the option can be changed to be the same on all instances or not. These options are changeable at both the cluster (all instances) and per instance level:

  • exitStateAction

  • memberWeight

This option is changeable at the per instance level only:

  • label

These options are changeable at the cluster level only:

  • consistency

  • expelTimeout

  • clusterName

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InnoDB cluster and Auto-increment

When you are using an instance as part of an InnoDB cluster, the auto_increment_increment and auto_increment_offset variables are configured to avoid the possibility of auto increment collisions for multi-primary clusters up to a size of 9 (the maximum supported size of a Group Replication group). The logic used to configure these variables can be summarized as:


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Document created the 26/06/2006, last modified the 26/10/2018
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