In case of MCCS needed data cannot be shared among nodes in a cluster, namely NAS or DAS, may not use latest data after failover. In this case, Mirror disk is used when there is no external shared disk, and is replicated between two nodes by using replication component. MCCS provides replication function of DRBD from Linbit and Mirror Disk Agent manages this replicated data set.
It functions properly according to the state and role of mirror disk. Actions such as state and role of mirror disk are all recorded in the system event log, and this information will be sent to MCCS through event log monitor module.
MCCS event module will start when the MCCS service starts. The DRBD operates by creating mirror set for volumes between two nodes.
The primary server has source volume and the secondary server has target volume which is an exact replica of source volume.
Client is only available to read/write in the source volume, changed block of the volume is replicated to the target volume through the TCP/IP network connection. At this point, target volume is in lock state and read/write is not allowed. This is to ensure data integrity by preventing the use of target volume.

Table of Contents

[Figure] Mirroring Configuration

Mirror Mode

Mirror mode employs both asynchronous and synchronous mirroring schemes. Understanding the advantages and disadvantages between synchronous and asynchronous mirroring is essential to the correct operation of this.

Asynchronization Mode

With asynchronous mirroring, each write is captured and a copy of this is made. That copy is queued to be transmitted to the target system as soon as the network will allow it. Meanwhile, the original write request is committed to the underlying storage device and control is immediately returned to the application that initiated the write. At any given time, there may be write transactions waiting in the queue to be sent to the target machine. But it is important to understand that these writes reach the target volume in time order, so the integrity of the data on the target volume is always a valid snapshot of the source volume at some point in time. Should the source system fail, it is possible that the target system did not receive all of the writes that were queued up, but the data that has made it to the target volume is valid and usable.

Semi Synchronization Mode

With semi-synchronous mirroring, each write is captured and transmitted to the target system. Local write completes in the source as soon as the replication packet has reached the target. Normally, no writes are lost in case of failover , but this may can be lost when both nodes are failed simultaneously.

Synchronization Mode

With synchronous mirroring, each write is captured and transmitted to the target system to be written on the target volume at the same time that the write is committed to the underlying storage device on the source system. Once both the local and target writes are complete, the write request is acknowledged as complete and control is returned to the application that initiated the write. With synchronous mirroring, each write is intercepted and transmitted to the target system to be written on the target volume at the same time that the write is committed to the underlying storage device on the source system. Once both the local and target writes are complete, the write request is acknowledged as complete and control is returned to the application that initiated the write.

Adding

Add the mirror disk resource to a group.

MCCS for linux support DRBD which is open source for Mirror disk. Therefore, DRBD 8.3.13 must be installed beforehand.
The size of disk file system that is created by mirror disk should be created with 128MB
128M space is required to store meta data that manages replication volume service. Size of meta data can be changed according to the size of the meta data.
Please refer to DRBD meta data size. (Calculation for more details.)
When use both DBRB and LVM, only DRBD ON LVM is supported and LVM In DRBD is not supported.

When add a resource from a group name, select a group → right click → "Add Resource". Or select "Edit(E)" from the main menu bar → select "Add Resource". Or select "Add Resource" icon from the tool bar.
Select "MirrorDisk" from Resource Type lists and click the "Next" button. When add a resource from the MirrorDisk resource type name, this step will be skipped.
Enter the resource name.
Select the source server and mirror volume, and enter the mount point.
The virtual device, mirror ip and mirror port will be set automatically.

[Figure] Mirror Disk Added
As the "Additional Settings", Mirror Type option is available and click the "OK" button. Default is "Semi-Synchronization" Mode.

[Figure] Mirror Disk Additional Setting
When click the "OK" button, following warning message will be displayed and click the "OK" button if the informations are correct.

[Figure] Alert popup message after click OK button
Click the "Finish" button to add the mirror disk resource

Deleting

Select resource type → right click → delete resource.
(Current online mirror disk resource cannot be deleted. So it should be taken offline before delete it.)

Click the "Delete resource" button and a confirming message about deleting resource will appear.

[Figure] Check resource view
Click the "OK" button and a confirming message about deleting the mirror configuration will appear.

[Figure] Deleting mirror disk view
Click the "OK" button and mirror disk is deleted.

State

The following table explains the state of mirror disk resource.

Mirror disk agent: Manages a mirror disk, and to use this, it is necessary to install a replication program.

State	Agent command	Description	Note

State	Agent command	Description
Online Source disk is accessible to read/write.	Offline	It unmounts (umount) the mirror disk from the mount point and the role of mirror disk is demoted to Secondary.
Online Source disk is accessible to read/write.	Monitoring	MCCS consistently handles events of the replication service. The MCCS event monitor is registered as an event receiver when starting the MCCS service. When a system event occurs, it will be automatically informed and it will detect the mirror disk status and role changes. If the mirror disk's role is primary and it is mounted in the designated mount point, it is deemed to be online. In other cases, it is recognized as an offline state. In addition, when you register a new mirror disk, if it is in the primary condition where mounting is not yet to be done, the mirror disk's role is demoted to secondary.
Offline Source and target disk is not fault state but locked so that cannot access both disk.	Online	Type of operation is determined by the role of the mirror disk at the node. <Source role disk> After setting the role of mirror disk to Primary, mount it in the designated mount point. <Target role disk> If you want to go online at the node where the mirror role is target, the following conditions should be met. 1. Both nodes' mirror network conditions are connected. 2. Both nodes' disk states are UpToDate. 3. Peer node's mirror disk role is secondary. If the mirror disk is not defined, it is processed as a failure without any operation.
	Monitoring	Refer to the description of monitoring as above.
Fault Fail on writing test in online state or fail on attempts to bring online. *Failover disabled state When a mirror network communication failure, target node or target disk failure occurs, the mirror status is changed from 'MIRRORING' to other, such as 'MIRROR_PAUSED'. If failover takes place while the mirror status is not 'MIRRORING', it may cause data losses or corruptions. To prevent from this, MCCS disabled the failover mode in this case. If the failover mode is disabled, no failover will take place even if fault occurs or attempt to switchover. If mirror network communication failures are recovered, and it is re-established, MCCS will automatically perform RESYNC. When the mirror status is changed to MIRRORING, the failover mode will be also automatically enabled.	Online	Refer to the above online command.
	Offline	It unmounts (umount) the mirror disk from the mount point and the role of mirror disk is demoted to Secondary.