Book Image

Red Hat Enterprise Linux Server Cookbook

By : Jakub Gaj, Leemans
5 (1)
Book Image

Red Hat Enterprise Linux Server Cookbook

5 (1)
By: Jakub Gaj, Leemans

Overview of this book

Dominating the server market, the Red Hat Enterprise Linux operating system gives you the support you need to modernize your infrastructure and boost your organization’s efficiency. Combining both stability and flexibility, RHEL helps you meet the challenges of today and adapt to the demands of tomorrow. This practical Cookbook guide will help you get to grips with RHEL 7 Server and automating its installation. Designed to provide targeted assistance through hands-on recipe guidance, it will introduce you to everything you need to know about KVM guests and deploying multiple standardized RHEL systems effortlessly. Get practical reference advice that will make complex networks setups look like child’s play, and dive into in-depth coverage of configuring a RHEL system. Also including full recipe coverage of how to set up, configuring, and troubleshoot SELinux, you’ll also discover how secure your operating system, as well as how to monitor it.
Table of Contents (12 chapters)
11
Index

Moving VMs

Moving disks will mitigate the risk of failing disks. When your CPUs, memory, and other non-disk-related components start failing, you have no other option but to move the guests to other host(s).

The recipe for this task is rather simple, but it's the prerequisites that can make it succeed or fail miserably.

Getting ready

The prerequisites for this recipe are quite extended.

For the host, the following are the requirements:

  • You'll need to have access to shared data. Both the source and destination KVM machine will need to be able to access the same storage—for example, iSCSI, NFS, and so on.
  • Both hosts need the same type of CPU—that is, Intel or AMD (one cannot live migrate a guest from a host with Intel CPUs to a host with AMD CPUs).
  • Both hosts need to be installed with the same version and updates of libvirt.
  • Both hosts need to have the same network ports open.
  • Both hosts must have identical KVM network configurations or at least the same network configurations for the interfaces used by the guest.
  • Both hosts must be accessible through the network.
  • It's a good idea to have a management network set up and connected to the two hosts, which can be used for data transfer. This will cause less network traffic on your "production" network and increase the overall speed.
  • The No execution bit must be the same on both hosts.

The requirement for the guest is:

  • The cache=none must be specified for all block devices that are opened in write mode.

How to do it…

There are multiple ways to migrate hosts, but we will only highlight the two most common ways.

Live native migration over the default network

This process to migrate a host is luckily very simple and can be summarized in one command.

On the source host, execute the following:

~]# virsh migrate --domain <guestname> --live –-persistent --undefinesource --verbose --desturl qemu+ssh://<host 2>/system

Live native migration over a dedicated network

It is possible to perform the migration over a dedicated network. By default, this will use the first network it finds that suits it needs. You'll need to specify the listening address (on the host) and the protocol. This requires the same command as before, but we'll need to specify the local listening IP address and protocol, such as TCP.

On the source host, execute the following:

~]# virsh migrate --domain <guestname> --live –-persistent --undefinesource --verbose --desturl qemu+ssh://<host 2>/system tcp://<local ip address on dedicated network>/

How it works…

This type of migration is called a "hypervisor native" transport. The biggest advantage of this type of migration is that it incurs the lowest computational cost by minimizing the number of data copies involved.

When we migrate a host, it performs a copy of the memory of the guest to the new host. When the copying is successful, it kills the guest on the source host and starts it on the new host. As the memory is copied, the interruption will be very short-lived.

There's more…

Communication between the two hosts is over SSH, which is already pretty secure. However, it's also possible to tunnel the data over an even more strongly encrypted channel by specifying the --tunnelled option. This will impose more traffic on your network as there will be extra data communication between the two hosts.

The --compress option can help you out if you wish to reduce the traffic over your network, but this will increase the load on both your hosts as they need to compress/decompress the data, which, in turn, may impact your guests performance. If time is not of the essence but traffic is, this is a good solution.

See also

There's very good and in-depth documentation about this process at https://libvirt.org/migration.html.