====== Ubuntu - KVM - Setup KVM with bridged networking and virt-manager ======

KVM is the Linux kernel's virtualization tool.


===== Install The Packages =====

Even though the capabilities for KVM are built into the kernel itself, there are a couple of packages that you'll need to get started.

They're all standard packages in the default Ubuntu repositories, so install them first.

<code bash>
sudo apt install qemu-kvm libvirt-clients libvirt-daemon-system bridge-utils virtinst libvirt-daemon virt-manager
</code>

----


===== Verify the status of the libvirtd status =====

The **libvirtd** service should be started automatically. Check this:

<code bash>
sudo systemctl status libvirtd.service
</code>

----

===== Start default network =====

List available networks:

<code bash>
sudo virsh net-list --all
</code>

To make it active and auto-start across boots:

<code bash>
sudo virsh net-start default
sudo virsh net-autostart default
</code>

----

===== Add vhost_net module =====

To offload the mechanism of **virtio-net** and to improve performance of KVM VMs add the **vhost_net** kernel module.

<code bash>
sudo modprobe vhost_net

echo "vhost_net" | sudo tee -a /etc/modules vhost_net

lsmod | grep vhost
</code>

----

===== Configure The Network Bridge =====

Before you can dive in and start making virtual machines, you're going to need to set up a network bridge.

Bridged networking is what allows your VMs to access your network and be assigned their own IP addresses. 

==== Determine your network interface ====

Find out what names your network interfaces have been assigned.

This guide will use eth0, but your interface will probably be different.

To find out your network interfaces, run **ip a**.  Note the interface with your computer's local IP next to it.  Chances are, it'll be something like enp5s0. 

<code bash>
ip a
</code>

----

===== Configure the Bridge =====

Once you have your network interface, you need to edit a configuration file to tell Ubuntu that your connection is going to be bridged.

This process won't negatively impact your connection at all.

It'll just allow that connection to be shared with the VMs.

Edit /etc/network/interfaces.  

<file bash /etc/network/interfaces>
auto lo br0
iface lo inet loopback

iface eth0 inet manual

iface br0 inet dhcp
    bridge_ports eth0
</file>

or for a static IP address.

<file bash /etc/network/interfaces>
auto lo br0
iface lo inet loopback

auto ens33
iface ens33 inet manual

auto br0
iface br0 inet static
        address 192.168.1.69
        netmask 255.255.255.0
        network 192.168.1.1
        broadcast 192.168.1.255
        gateway 192.168.1.1
        bridge_ports ens33
        bridge_stp off
        bridge_fd 0
        bridge_maxwait 0
        dns-nameservers 1.1.1.1
...
</file>


If netplan is used:

<file bash /etc/netplan/01-network-manager-all.yaml>
# Let NetworkManager manage all devices on this system
network:
  version: 2
#  renderer: NetworkManager
  renderer: networkd
  ethernets:
    enp3s0:
      dhcp4: no
      # disable existing configuration for ethernet
      #addresses: [192.168.1.69/24]
      #gateway4: 192.168.1.1
      #nameservers:
        #addresses: [192.168.1.1]
      dhcp6: no

  # add configuration for bridge interface
  bridges:
    br0:
      interfaces: [enp3s0]
      dhcp4: no
      addresses: [192.168.1.69/24]
      gateway4: 192.168.1.1
      nameservers:
        addresses: [192.168.1.2,192.168.1.1,1.1.1.1]
      parameters:
        stp: false
      dhcp6: no
</file>


<WRAP center round info>
In order to bring your new bridge interface up by default, **br0** is added at the end of the **auto lo**.  

The bridge information lines tell Ubuntu that your bridge will use DHCP for automatic IP address assignment, and your bridge will manage your current interface.
</WRAP>

<WRAP center round alert>
Ubuntu 18.04 moves to using Netplan to handle Networking, and this therefore requires a different configuration to support bridging.

See:

  * https://bugs.launchpad.net/ubuntu/+source/nplan/+bug/1736975
  * https://djanotes.blogspot.com/2018/04/anonymous-bridges-in-netplan.html
</WRAP>


That's it for your bridge.

Save and exit.

----

===== Add Your User To The Groups =====

Add your user to the appropriate groups so you don't need root privileges to manage your virtual machines.

There are two groups that you need. 

<code bash>
sudo adduser username libvirt
sudo adduser username libvirt-qemu
</code>

----

===== Restart your system =====

That's the best way to ensure that both the networking and user changes take effect.

Alternatively, to refresh or reload group membership:

<code bash>
newgrp libvirt
newgrp libvirt-qemu
</code>

----

===== Verify that the bridge has come up =====

<code bash>
ip a s br0
</code>

----

====== Create a VM using Virt-Manager (GUI) ======

Use **virt-manager** to create VMs.

The window that opens up is fairly plain, but it has everything that you need to manage your VMs.

To start making a new one, click on the icon that looks like a shining screen.

It's the first one in the icon row.

A new window will pop open to walk you through the process.

The first thing that it will ask you to do is select a source.

In most cases, you're going to use a regular install ISO to make your VMs, so leave the first option selected and keep going.

The next screen asks you to select your image.

Browse to the location of your image.

If the folder with your image isn't available, use the + icon at the bottom of the left side to add it.

On the following screen, you can allocate memory and cpu cores to the VM.

Don't give it all of your system's resources.  That obviously won't go well.

The next screen lets you determine the hard drive size of your VM.  It's just a VM, so it doesn't need a huge hard drive.  Just make sure to give it enough to install and run what you need.

Finally, you can see an overview of your VM before you finalize it. On this screen, you can also name it.

Once you finalize your VM, a new window will open and boot up the VM.  In that window, you will see the installer for the image that you selected.  Everything from here is exactly the same as installing on a regular computer.

----

====== Create a VM from command line ======

<code bash>
sudo virt-install \
  --name ubuntu-vm \
  --os-type linux \
  --os-variant ubuntu18.04 \
  --ram 2048 \
  --vcpu 1 \
  --disk path=/var/lib/libvirt/images/ubuntu-vm.qcow2,size=10 \
  --graphics vnc,listen=0.0.0.0 \
  --noautoconsole \
  --hvm \
  --cdrom /home/peter/vm/ubuntu-18.04-live-server-amd64.iso \
  --boot cdrom,hd
</code>

----

===== Find VNC display port for ubuntu-vm =====

<code bash>
sudo virsh list --all
</code>

returns:

<code bash>
Id    Name          State
------------------------------
1     ubuntu-vm     running
2     debian-vm     running
...
</code>

----
or

<code bash>
sudo virsh vncdisplay ubuntu-vm
</code>

returns:

<code bash>
:0
</code>

Connect using Remote Desktop Viewer using IP address and VNC port as "0".

----


====== Closing Thoughts ======

KVM provides a great amount of flexibility and power to your computer.

It lets you easily run and manage multiple VMs from a convenient interface when paired with virt-manager. With KVM set up, you'll have access to just about any operating system in a virtualized form, directly from your Ubuntu desktop.