|Linux||RedHat/CentOS||Primary platform||RHEL 4, 5, and 6 as well as CentOS 5.x and 6.x versions are fully supported. CentOS 7 is supported in 5.3.0 and higher.|
|Linux||Ubuntu||Primary platform||Ubuntu 9.x-13.x versions are fully supported.|
|Linux||Debian/Suse/Other||Secondary Platform||Other Linux platforms are supported but are not regularly tested. We will fix any bugs reported by customers.|
|Solaris||Secondary Platform||Solaris 10 is fully supported. OpenSolaris is not supported at this time.|
|Mac OS X||Secondary platform||Mac OS/X Leopard and Snow Leopard are used for development at Continuent but not certified. We will fix any bugs reported by customers.|
|Windows||Limited Support||Tungsten 1.3 and above will support Windows platforms for connectivity (Tungsten Connector and SQL Router) but may require manual configuration. Tungsten clusters do not run on Windows.|
|BSD||Limited Support||Tungsten 1.3 and above will support BSD for connectivity (Tungsten Connector and SQL Router) but may require manual configuration. Tungsten clusters do not run on BSD.|
|MySQL||5.0, 5.1, 5.5, 5.6, 5.7 (without JSON, virtual/generated column support, or Geometry support)||Primary platform||Statement and row based replication is supported. MyISAM and InnoDB table types are fully supported; InnoDB tables are recommended.|
|MySQL||5.7||Primary platform||Support is provided for compatibility with MySQL 5.7 in 5.0 and later, but new datatypes (JSON, virtual columns) in MySQL 5.7 are not yet supported.|
|Percona||5.5, 5.6||Primary platform|
|MariaDB||5.5, 10.0||Primary platform|
|Oracle (CDC)||10g Release 2 (10.2.0.5), 11g||Primary Platform||Synchronous CDC is supported on Standard Edition only; Synchronous and Asynchronous are supported on Eneterprise Editions|
|Oracle (Redo Reader)||9.2, 10g, 11g, 12c||Primary Platform||Redo Reader reads data direct from the Oracle redo logs.|
|Drizzle||Secondary Platform||Experimental support for Drizzle is available. Drizzle replication is not tested.|
RAM requirements are dependent on the workload being used and applied, but the following provide some guidance on the basic RAM requirements:
Tungsten Replicator requires 2GB of VM space for the Java execution, including the shared libraries, with approximate 1GB of Java VM heapspace. This can be adjusted as required, for example, to handle larger transactions or bigger commit blocks and large packets.
Performance can be improved within the Tungsten Replicator if there is a 2-3GB available in the OS Page Cache. Replicators work best when pages written to replicator log files remain memory-resident for a period of time, so that there is no file system I/O required to read that data back within the replicator. This is the biggest potential point of contention between replicators and DBMS servers.
Disk space usage is based on the space used by the core application, the staging directory used for installation, and the space used for the THL files:
The staging directory containing the core installation is
approximately 150MB. When performing a staging-directory based
installation, this space requirement will be used once. When using a
INI-file based deployment, this space will be required on each server.
For more information on the different methods, see
Section 10.1, “Comparing Staging and
Deployment of a live installation also requires approximately 150MB.
The THL files required for installation are based on the size of the
binary logs generated by MySQL. THL size is typically twice the size
of the binary log. This space will be required on each machine in the
cluster. The retention times and rotation of THL data can be
controlled, see Section D.1.5, “The
thl Directory” for more
information, including how to change the retention time and move files
When replicating from Oracle, the size of the THL will depend on the quantity of Change Data Capture (CDC) information generated. This can be managed by altering the intervals used to check for and extract the information.
A dedicated partition for THL or Tungsten Replication is recommended to ensure that a full disk does not impact your OS or DBMS. Local disk, SAN, iSCSI and AWS EBS are suitable for storing THL. NFS is NOT recommended.
Because the replicator reads and writes information using buffered I/O in a serial fashion, there is no random-access or seeking.
Tungsten Replicator is known to work with with the following Java versions and JVMs:
Oracle JVM/JDK 7
Oracle JVM/JDK 8
Cloud deployments require a different set of considerations over and above the general requirements. The following is a guide only, and where specific cloud environment requirements are known, they are explicitly included:
|Instance Type||Instance sizes and types are dependent on the workload, but larger instances are recommended for transactional databases.||
|Instance Boot Volume||Use block, not ephemeral storage.||EBS|
|Instance Deployment||Use standard Linux distributions and bases. For ease of deployment and configuration, use Puppet.||Amazon Linux AMIs|
Development/QA nodes should always match the expected production environment.
Use Virtual Private Cloud (VPC) deployments, as these provide consistent IP address support.
Multiple EBS-optimized volumes for data, using Provisioned IOPS for the EBS volumes depending on workload:
|Parameter||tpm Option||tpm Value||
MySQL ||MySQL Value|
|MySQL Binary Logs||
|Transaction History Logs (THL)||
Recommended Replication Formats
MIXED is recommended for MySQL
master/slave topologies (e.g., either single clusters or
ROW is strongly recommended
for multi-master setups. Without ROW, data drift is a possible problem
STATEMENT. Even with
ROW there are still cases
where drift is possible but the window is far smaller.
ROW is required for