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From:Sreedhar S Date:October 23 2018 3:06pm
Subject:MySQL Cluster 7.4.22 has been released
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Dear MySQL Users,

MySQL Cluster is the distributed, shared-nothing variant of MySQL.
This storage engine provides:

   - In-Memory storage - Real-time performance
   - Transparent Auto-Sharding - Read & write scalability
   - Active-Active/Multi-Master geographic replication
   - 99.999% High Availability with no single point of failure
     and on-line maintenance
   - NoSQL and SQL APIs (including C++, Java, http, Memcached
     and JavaScript/Node.js)

MySQL Cluster 7.4 makes significant advances in performance;
operational efficiency (such as enhanced reporting and faster restarts
and upgrades) and conflict detection and resolution for active-active
replication between MySQL Clusters.

MySQL Cluster 7.4.22, has been released and can be downloaded from

http://www.mysql.com/downloads/cluster/

where you will also find Quick Start guides to help you get your
first MySQL Cluster database up and running.

The release notes are available from

http://dev.mysql.com/doc/relnotes/mysql-cluster/7.4/en/index.html

MySQL Cluster enables users to meet the database challenges of next
generation web, cloud, and communications services with uncompromising
scalability, uptime and agility.

More details can be found at

http://www.mysql.com/products/cluster/

Enjoy !

==============================================================================
Changes in MySQL NDB Cluster 7.4.22 (5.6.42-ndb-7.4.22) (2018-10-23, 
General Availability)

    MySQL NDB Cluster 7.4.22 is a new release of MySQL NDB
    Cluster 7.4, based on MySQL Server 5.6 and including features
    in version 7.4 of the NDB storage engine, as well as fixing
    recently discovered bugs in previous NDB Cluster releases.

    Obtaining MySQL NDB Cluster 7.4.  MySQL NDB Cluster 7.4
    source code and binaries can be obtained from
https://dev.mysql.com/downloads/cluster/.

    For an overview of changes made in MySQL NDB Cluster 7.4, see
    What is New in NDB Cluster 7.4
    
(http://dev.mysql.com/doc/refman/5.6/en/mysql-cluster-what-is-new-7-4.html).

    This release also incorporates all bug fixes and changes made
    in previous NDB Cluster releases, as well as all bug fixes
    and feature changes which were added in mainline MySQL 5.6
    through MySQL 5.6.42 (see Changes in MySQL 5.6.42 (Not yet
    released, General Availability)
    (http://dev.mysql.com/doc/relnotes/mysql/5.6/en/news-5-6-42.html)).

Bugs Fixed

      * MySQL NDB ClusterJ: When a table containing a BLOB or a
        TEXT field was being queried with ClusterJ for a
record
        that did not exist, an exception ("The method is not
        valid in current blob state") was thrown. (Bug
#28536926)

      * MySQL NDB ClusterJ: A NullPointerException was thrown
        when a full table scan was performed with ClusterJ
on
        tables containing either a BLOB or a TEXT field. It
was
        because the proper object initializations were
omitted,
        and they have now been added by this fix. (Bug
#28199372,
        Bug #91242)

      * When the SUMA kernel block receives a SUB_STOP_REQ
        signal, it executes the signal then replies with
        SUB_STOP_CONF. (After this response is relayed back
to
        the API, the API is open to send more SUB_STOP_REQ
        signals.) After sending the SUB_STOP_CONF, SUMA
drops the
        subscription if no subscribers are present, which
        involves sending multiple DROP_TRIG_IMPL_REQ
messages to
        DBTUP. LocalProxy can handle up to 21 of these
requests
        in parallel; any more than this are queued in the
Short
        Time Queue. When execution of a DROP_TRIG_IMPL_REQ
was
        delayed, there was a chance for the queue to become
        overloaded, leading to a data node shutdown with
Error in
        short time queue.
        This issue is fixed by delaying the execution of the
        SUB_STOP_REQ signal if DBTUP is already handling
        DROP_TRIG_IMPL_REQ signals at full capacity, rather
than
        queueing up the DROP_TRIG_IMPL_REQ signals. (Bug
        #26574003)

      * Having a large number of deferred triggers could
        sometimes lead to job buffer exhaustion. This could
occur
        due to the fact that a single trigger can execute
many
        operations---for example, a foreign key parent
trigger
        may perform operations on multiple matching child
table
        rows---and that a row operation on a base table can
        execute multiple triggers. In such cases, row
operations
        are executed in batches. When execution of many
triggers
        was deferred---meaning that all deferred triggers
are
        executed at pre-commit---the resulting concurrent
        execution of a great many trigger operations could
cause
        the data node job buffer or send buffer to be
exhausted,
        leading to failure of the node.
        This issue is fixed by limiting the number of
concurrent
        trigger operations as well as the number of trigger
fire
        requests outstanding per transaction.
        For immediate triggers, limiting of concurrent
trigger
        operations may increase the number of triggers
waiting to
        be executed, exhausting the trigger record pool and
        resulting in the error Too many concurrently fired
        triggers (increase MaxNoOfFiredTriggers. This can be
        avoided by increasing MaxNoOfFiredTriggers, reducing
the
        user transaction batch size, or both. (Bug
#22529864)
        References: See also: Bug #18229003, Bug #27310330.

On Behalf of MySQL Release Engineering team,
-Sreedhar S
Thread
MySQL Cluster 7.4.22 has been releasedSreedhar S23 Oct