Using libvirt with Ceph RBD¶
The libvirt
library creates a virtual machine abstraction layer between
hypervisor interfaces and the software applications that use them. With
libvirt
, developers and system administrators can focus on a common
management framework, common API, and common shell interface (i.e., virsh
)
to many different hypervisors, including:
QEMU/KVM
XEN
LXC
VirtualBox
etc.
Ceph block devices support QEMU/KVM. You can use Ceph block devices with
software that interfaces with libvirt
. The following stack diagram
illustrates how libvirt
and QEMU use Ceph block devices via librbd
.
The most common libvirt
use case involves providing Ceph block devices to
cloud solutions like OpenStack or CloudStack. The cloud solution uses
libvirt
to interact with QEMU/KVM, and QEMU/KVM interacts with Ceph block
devices via librbd
. See Block Devices and OpenStack and Block Devices
and CloudStack for details. See Installation for installation details.
You can also use Ceph block devices with libvirt
, virsh
and the
libvirt
API. See libvirt Virtualization API for details.
To create VMs that use Ceph block devices, use the procedures in the following
sections. In the exemplary embodiment, we have used libvirt-pool
for the pool
name, client.libvirt
for the user name, and new-libvirt-image
for the
image name. You may use any value you like, but ensure you replace those values
when executing commands in the subsequent procedures.
Configuring Ceph¶
To configure Ceph for use with libvirt
, perform the following steps:
Create a pool. The following example uses the pool name
libvirt-pool
.:ceph osd pool create libvirt-pool
Verify the pool exists.
ceph osd lspools
Use the
rbd
tool to initialize the pool for use by RBD:rbd pool init <pool-name>
Create a Ceph User (or use
client.admin
for version 0.9.7 and earlier). The following example uses the Ceph user nameclient.libvirt
and referenceslibvirt-pool
.ceph auth get-or-create client.libvirt mon 'profile rbd' osd 'profile rbd pool=libvirt-pool'
Verify the name exists.
ceph auth ls
NOTE:
libvirt
will access Ceph using the IDlibvirt
, not the Ceph nameclient.libvirt
. See User Management - User and User Management - CLI for a detailed explanation of the difference between ID and name.Use QEMU to create an image in your RBD pool. The following example uses the image name
new-libvirt-image
and referenceslibvirt-pool
.qemu-img create -f rbd rbd:libvirt-pool/new-libvirt-image 2G
Verify the image exists.
rbd -p libvirt-pool ls
NOTE: You can also use rbd create to create an image, but we recommend ensuring that QEMU is working properly.
Tip
Optionally, if you wish to enable debug logs and the admin socket for
this client, you can add the following section to /etc/ceph/ceph.conf
:
[client.libvirt]
log file = /var/log/ceph/qemu-guest-$pid.log
admin socket = /var/run/ceph/$cluster-$type.$id.$pid.$cctid.asok
The client.libvirt
section name should match the cephx user you created
above. If SELinux or AppArmor is enabled, note that this could prevent the
client process (qemu via libvirt) from writing the logs or admin socket to
the destination locations (/var/log/ceph
or /var/run/ceph
).
Preparing the VM Manager¶
You may use libvirt
without a VM manager, but you may find it simpler to
create your first domain with virt-manager
.
Install a virtual machine manager. See KVM/VirtManager for details.
sudo apt-get install virt-manager
Download an OS image (if necessary).
Launch the virtual machine manager.
sudo virt-manager
Creating a VM¶
To create a VM with virt-manager
, perform the following steps:
Press the Create New Virtual Machine button.
Name the new virtual machine domain. In the exemplary embodiment, we use the name
libvirt-virtual-machine
. You may use any name you wish, but ensure you replacelibvirt-virtual-machine
with the name you choose in subsequent commandline and configuration examples.libvirt-virtual-machine
Import the image.
/path/to/image/recent-linux.img
NOTE: Import a recent image. Some older images may not rescan for virtual devices properly.
Configure and start the VM.
You may use
virsh list
to verify the VM domain exists.sudo virsh list
Login to the VM (root/root)
Stop the VM before configuring it for use with Ceph.
Configuring the VM¶
When configuring the VM for use with Ceph, it is important to use virsh
where appropriate. Additionally, virsh
commands often require root
privileges (i.e., sudo
) and will not return appropriate results or notify
you that that root privileges are required. For a reference of virsh
commands, refer to Virsh Command Reference.
Open the configuration file with
virsh edit
.sudo virsh edit {vm-domain-name}
Under
<devices>
there should be a<disk>
entry.<devices> <emulator>/usr/bin/kvm</emulator> <disk type='file' device='disk'> <driver name='qemu' type='raw'/> <source file='/path/to/image/recent-linux.img'/> <target dev='vda' bus='virtio'/> <address type='drive' controller='0' bus='0' unit='0'/> </disk>
Replace
/path/to/image/recent-linux.img
with the path to the OS image. The minimum kernel for using the fastervirtio
bus is 2.6.25. See Virtio for details.IMPORTANT: Use
sudo virsh edit
instead of a text editor. If you edit the configuration file under/etc/libvirt/qemu
with a text editor,libvirt
may not recognize the change. If there is a discrepancy between the contents of the XML file under/etc/libvirt/qemu
and the result ofsudo virsh dumpxml {vm-domain-name}
, then your VM may not work properly.Add the Ceph RBD image you created as a
<disk>
entry.<disk type='network' device='disk'> <source protocol='rbd' name='libvirt-pool/new-libvirt-image'> <host name='{monitor-host}' port='6789'/> </source> <target dev='vda' bus='virtio'/> </disk>
Replace
{monitor-host}
with the name of your host, and replace the pool and/or image name as necessary. You may add multiple<host>
entries for your Ceph monitors. Thedev
attribute is the logical device name that will appear under the/dev
directory of your VM. The optionalbus
attribute indicates the type of disk device to emulate. The valid settings are driver specific (e.g., “ide”, “scsi”, “virtio”, “xen”, “usb” or “sata”).See Disks for details of the
<disk>
element, and its child elements and attributes.Save the file.
If your Ceph Storage Cluster has Ceph Authentication enabled (it does by default), you must generate a secret.
cat > secret.xml <<EOF <secret ephemeral='no' private='no'> <usage type='ceph'> <name>client.libvirt secret</name> </usage> </secret> EOF
Define the secret.
sudo virsh secret-define --file secret.xml <uuid of secret is output here>
Get the
client.libvirt
key and save the key string to a file.ceph auth get-key client.libvirt | sudo tee client.libvirt.key
Set the UUID of the secret.
sudo virsh secret-set-value --secret {uuid of secret} --base64 $(cat client.libvirt.key) && rm client.libvirt.key secret.xml
You must also set the secret manually by adding the following
<auth>
entry to the<disk>
element you entered earlier (replacing theuuid
value with the result from the command line example above).sudo virsh edit {vm-domain-name}
Then, add
<auth></auth>
element to the domain configuration file:... </source> <auth username='libvirt'> <secret type='ceph' uuid='9ec59067-fdbc-a6c0-03ff-df165c0587b8'/> </auth> <target ...
NOTE: The exemplary ID is
libvirt
, not the Ceph nameclient.libvirt
as generated at step 2 of Configuring Ceph. Ensure you use the ID component of the Ceph name you generated. If for some reason you need to regenerate the secret, you will have to executesudo virsh secret-undefine {uuid}
before executingsudo virsh secret-set-value
again.
Summary¶
Once you have configured the VM for use with Ceph, you can start the VM. To verify that the VM and Ceph are communicating, you may perform the following procedures.
Check to see if Ceph is running:
ceph health
Check to see if the VM is running.
sudo virsh list
Check to see if the VM is communicating with Ceph. Replace
{vm-domain-name}
with the name of your VM domain:sudo virsh qemu-monitor-command --hmp {vm-domain-name} 'info block'
Check to see if the device from
<target dev='hdb' bus='ide'/>
appears under/dev
or underproc/partitions
.ls dev cat proc/partitions
If everything looks okay, you may begin using the Ceph block device within your VM.