Once you complete a clean file system check on the restored volume, you must create bootable partitions.
GNU Grand Unified Bootloader (GRUB) is a boot loader that allows administrators to configure which operating system or specific kernel configuration is used to start the system. After a BMR, the configuration file for GRUB must be modified so that the machine uses the appropriate universally unique identifier (UUID) for the root volume. Before this step you must mount the root and boot volumes, and check the UUIDs for each. This ensures that you can boot from the partition.
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NOTE: This procedure applies to Linux machines that use GRUB1 or GRUB2. When using this procedure, ensure that the boot partition is healthy and protected. |
GRUB or GRUB2 is typically installed with Linux operating systems. You can perform this procedure using the version that comes with your Linux distribution. If a version of GRUB is not installed, you will have to re-install the default version appropriate for your Linux distribution.
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Caution: When you boot a restored Linux machine for the first time after a BMR, Rapid Recovery takes a base image of the restored machine. This process typically takes longer than taking an incremental snapshot. For more information about base images and incremental snapshots, see Understanding protection schedules. |
This task is a step in Performing a bare metal restore for Linux machines. It is part of the process for Verifying the bare metal restore from the command line.
Perform the task below to create bootable partitions using the command line.
mount /<restored volume[root]> /mnt
For example, if /dev/sda2 is the root volume, then type mount /dev/sda2 /mnt and then press Enter.
mount /<restored volume[boot]> /mnt/boot
For example, if /dev/sda1 is the boot volume, then type mount /dev/sda1 /mnt/boot and then press Enter.
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NOTE: Some system configurations may include the boot directory as part of the root volume. |
blkid
command. Type the following and then press Enter:
blkid [volume]
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NOTE: You can also use the |
mount --bind /dev /mnt/dev
mount --bind /proc /mnt/proc
mount --bind /sys /mnt/sys
chroot /mnt /bin/bash
/etc/fstab
file and compare it to the UUIDs for the root (for Ubuntu and CentOS), boot (for CentOS and RHEL), or data partitions by typing the following command and then press Enter:
less /mnt/etc/fstab
/etc/mtab
file and compare it to the UUIDs for the root (for Ubuntu and CentOS), boot (for CentOS and RHEL), and data partitions by typing the following command and then press Enter:
less /mnt/etc/mtab
grub-install --recheck /dev/sda
grub-install /dev/sda
grub-install /dev/sda
grub2-install /dev/sda
grub-install.unsupported --recheck /dev/sda grub-install.unsupported /dev/sda update-grub
NOTE: If the |
grub-install /dev/sda update-grub
NOTE: If the |
This section describes how to manage aging snapshot data saved to your repository. It includes information about retaining recovery points in your repository, retention policies, and the resulting process of rolling up recovery points to conserve space.
This section also describes how to manage retention policies that control rollup, and how to force rollup on demand.
Topics include:
Each time your Core captures a snapshot, the data is saved as a recovery point to your repository. Recovery points naturally accumulate over time. The Core uses a retention policy to determine how long snapshot data is retained in the repository. When nightly jobs run (specifically, during the rollup process), the Core enforces the retention policy to reduce the amount of storage space consumed. The date of each recovery point is compared to the date of the most recent recovery point. The Core then rolls up (combines) older recovery points. Over time, older recovery points in the repository are continually replaced with newer ones as the oldest recovery points eventually reach the oldest age defined in the retention period.
To keep recovery points that would otherwise be combined and eventually deleted, you can create an archive from the Core Console. An archive is a file containing a copy of the full set of recovery points for machines protected on your Core at the point in time in which it was created. You can later access archived information from the Core Console. In contrast with recovery points in the repository, recovery points in an archive do not get rolled up.
Archives are useful for maintaining compliance data; backing up your Core; seeding replication data to a remote replica Core; and for saving space in your Core for retaining recent business-critical transaction while maintaining backups for a longer period of time.
For more information about archives, see Archiving.
A retention policy is a set of rules that dictates the length of time for the Core to retain recovery points before starting to roll them up. Retention policies can be set to roll up based on hours, days, weeks, months and years. You can set up to six rules (the default policy sets five rules).
Since you can back up as frequently as every 5 minutes, the first rule in the retention policy typically sets how long to retain all recovery points. For example, if you back up a machine every quarter hour, 96 recovery points are saved to the repository for that machine per day, until rollup begins. Without managing your retention policy, that amount of data can quickly fill a repository.
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NOTE: Administrators should note that frequent backups can have an impact on network traffic. Other factors affecting network traffic include other transfers (such as replication), the change rate of your data, and your network hardware, cables and switches. |
The Core comes preset with a default retention policy. The default policy retains:
Following this default policy, the oldest recovery point is typically 92 days old. Data past that origination date for a default policy is deleted.
Setting the retention policy at the Core level applies automatically to all machines that the Core protects. You can change the default policy to suit your needs.
For any machine, you can also create a custom retention policy. Setting the policy at the machine level lets you specify a different retention policy than the default Core policy. For more information about configuring retention policies, see Configuring Core default retention policy settings and Customizing retention policy settings for a protected machine.
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