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Oracle Solaris 10 9/10 Installation Guide: Planning for Installation and Upgrade
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Document Information


Part I Overall Planning of Any Solaris Installation or Upgrade

1.  Where to Find Solaris Installation Planning Information

2.  What's New in Solaris Installation

3.  Solaris Installation and Upgrade (Roadmap)

4.  System Requirements, Guidelines, and Upgrade (Planning)

5.  Gathering Information Before Installation or Upgrade (Planning)

Part II Understanding Installations That Relate to ZFS, Booting, Solaris Zones, and RAID-1 Volumes

6.  ZFS Root File System Installation (Planning)

7.  SPARC and x86 Based Booting (Overview and Planning)

8.  Upgrading When Solaris Zones Are Installed on a System (Planning)

9.  Creating RAID-1 Volumes (Mirrors) During Installation (Overview)

Why Use RAID-1 Volumes?

How Do RAID-1 Volumes Work?

Overview of Solaris Volume Manager Components

State Database and State Database Replicas

RAID-1 Volumes (Mirrors)

RAID-0 Volumes (Concatenations)

Example of RAID-1 Volume Disk Layout

10.  Creating RAID-1 Volumes (Mirrors) During Installation (Planning)



Overview of Solaris Volume Manager Components

The custom JumpStart installation method and Solaris Live Upgrade enable you to create the following components that are required to replicate data.

This section briefly describes each of these components. For complete information about these components, see Solaris Volume Manager Administration Guide.

State Database and State Database Replicas

The state database is a database that stores information on a physical disk. The state database records and tracks changes that are made to your configuration. Solaris Volume Manager automatically updates the state database when a configuration or state change occurs. Creating a new volume is an example of a configuration change. A submirror failure is an example of a state change.

The state database is actually a collection of multiple, replicated database copies. Each copy, referred to as a state database replica, ensures that the data in the database is always valid. Having copies of the state database protects against data loss from single points of failure. The state database tracks the location and status of all known state database replicas.

Solaris Volume Manager cannot operate until you have created the state database and its state database replicas. A Solaris Volume Manager configuration must have an operating state database.

The state database replicas ensure that the data in the state database is always valid. When the state database is updated, each state database replica is also updated. The updates occur one at a time to protect against corruption of all updates if the system crashes.

If your system loses a state database replica, Solaris Volume Manager must identify which state database replicas still contain valid data. Solaris Volume Manager determines this information by using a majority consensus algorithm. This algorithm requires that a majority (half + 1) of the state database replicas be available and in agreement before any of them are considered valid. Because of this majority consensus algorithm, you must create at least three state database replicas when you set up your disk configuration. A consensus can be reached if at least two of the three state database replicas are available.

Each state database replica occupies 4 Mbytes (8192 disk sectors) of disk storage by default. Replicas can be stored on the following devices:

Replicas cannot be stored on the root (/), swap, or /usr slices, or on slices that contain existing file systems or data. After the replicas have been stored, volumes or file systems can be placed on the same slice.

You can keep more than one copy of a state database on one slice. However, you might make the system more vulnerable to a single point of failure by placing state database replicas on a single slice.

For More Information
When using custom JumpStart or Solaris Live Upgrade to install RAID-1 volumes, review these guidelines and requirements.
Obtain more detailed information about the state database and state database replicas.

RAID-1 Volumes (Mirrors)

A RAID-1 volume, or mirror, is a volume that maintains identical copies of the data in RAID-0 volumes (single-slice concatenations). After you configure a RAID-1 volume, the volume can be used just as if it were a physical slice. You can duplicate any file system, including existing file systems. You can also use a RAID-1 volume for any application, such as a database.

Using RAID-1 volumes to mirror file systems has advantages and disadvantages:

For More Information
Planning for RAID-1 volumes
Detailed information about RAID-1 volumes

RAID-0 Volumes (Concatenations)

A RAID-0 volume is a single-slice concatenation. The concatenation is a volume whose data is organized serially and adjacently across components, forming one logical storage unit. The custom JumpStart installation method and Solaris Live Upgrade do not enable you to create stripes or other complex Solaris Volume Manager volumes.

During the installation or upgrade, you can create RAID-1 volumes (mirrors) and attach RAID-0 volumes to these mirrors. The RAID-0 volumes that are mirrored are called submirrors. A mirror is made of one or more RAID-0 volumes. After the installation, you can manage the data on separate RAID-0 submirror volumes by administering the RAID-1 mirror volume through the Solaris Volume Manager software.

The custom JumpStart installation method enables you to create a mirror that consists of up to two submirrors. Solaris Live Upgrade enables you to create a mirror that consists of up to three submirrors. Practically, a two-way mirror is usually sufficient. A third submirror enables you to make online backups without losing data redundancy while one submirror is offline for the backup.

For More Information
Planning for RAID–0 volumes
Detailed information about RAID-0 volumes