Deploying with anaconda deploy interface¶
Ironic supports deploying an OS with the anaconda installer.
This anaconda deploy interface works with pxe
and ipxe
boot interfaces.
Configuration¶
The anaconda deploy interface is not enabled by default. To enable this, add
anaconda
to the value of the enabled_deploy_interfaces
configuration
option in ironic.conf. For example:
[DEFAULT]
...
enabled_deploy_interfaces = direct,anaconda
...
This change takes effect after all the ironic conductors have been restarted.
The default kickstart template is specified via the configuration option
[anaconda]default_ks_template
. It is set to this ks.cfg.template
but can be modified to be some other template.
[anaconda]
default_ks_template = file:///etc/ironic/ks.cfg.template
When creating an ironic node, specify anaconda
as the deploy interface.
For example:
baremetal node create --driver ipmi \
--deploy-interface anaconda \
--boot-interface ipxe
You can also set the anaconda deploy interface via --deploy-interface
on an
existing node:
baremetal node set <node> --deploy-interface anaconda
Creating an OS Image¶
While anaconda allows installing individual RPMs, the default kickstart file expects an OS tarball to be used as the OS image.
This baremetal.yum
file contains all the yum/dnf commands that need to be run
in order to generate the OS tarball. These commands install packages and
package groups that need to be in the image:
group install 'Minimal Install'
install cloud-init
ts run
An OS tarball can be created using following set of commands, along with the above
baremetal.yum
file:
export CHROOT=/home/<user>/os-image
mkdir -p $(CHROOT)
mkdir -p $(CHROOT)/{dev,proc,run,sys}
chown -hR root:root $(CHROOT)
mount --bind /var/cache/yum $(CHROOT)/var/cache/yum
mount --bind /dev $(CHROOT)/dev
mount -t proc proc $(CHROOT)/proc
mount -t tmpfs tmpfs $(CHROOT)/run
mount -t sysfs sysfs $(CHROOT)/sys
dnf -y --installroot=$(CHROOT) makecache
dnf -y --installroot=$(CHROOT) shell baremetal.yum
rpm --root $(CHROOT) --import $(CHROOT)/etc/pki/rpm-gpg/RPM-GPG-KEY-*
truncate -s 0 $(CHROOT)/etc/machine-id
umount $(CHROOT)/var/cache/yum
umount $(CHROOT)/dev
umount $(CHROOT)/proc
umount $(CHROOT)/run
umount $(CHROOT)/sys
tar cpzf os-image.tar.gz --xattrs --acls --selinux -C $(CHROOT) .
Configuring the OS Image in glance¶
Anaconda is a two-stage installer – stage 1 consists of the kernel and ramdisk and stage 2 lives in a squashfs file. All these components can be found in the CentOS/RHEL/Fedora ISO images.
The kernel and ramdisk can be found at /images/pxeboot/vmlinuz
and
/images/pxeboot/initrd.img
respectively in the ISO. The stage 2 squashfs
image can be normally found at /LiveOS/squashfs.img
or
/images/install.img
.
The OS tarball must be configured with the following properties in glance, in order to be used with the anaconda deploy driver:
kernel_id
ramdisk_id
stage2_id
disk_file_extension
(optional)
Valid disk_file_extension
values are .img
, .tar
, .tbz
,
.tgz
, .txz
, .tar.gz
, .tar.bz2
, and .tar.xz
. When
disk_file_extension
property is not set to one of the above valid values
the anaconda installer will assume that the image provided is a mountable
OS disk.
This is an example of adding the anaconda-related images and the OS tarball to glance:
openstack image create --file ./vmlinuz --container-format aki \
--disk-format aki --shared anaconda-kernel-<version>
openstack image create --file ./initrd.img --container-format ari \
--disk-format ari --shared anaconda-ramdisk-<version>
openstack image create --file ./squashfs.img --container-format ari \
--disk-format ari --shared anaconda-stage-<version>
openstack image create --file ./os-image.tar.gz \
--container-format bare --disk-format raw --shared \
--property kernel_id=<glance_uuid_vmlinuz> \
--property ramdisk_id=<glance_uuid_ramdisk> \
--property stage2_id=<glance_uuid_stage2> disto-name-version \
--property disk_file_extension=.tgz
Creating a bare metal server¶
Apart from uploading a custom kickstart template to glance and associating it
with the OS image via the ks_template
property in glance, operators can
also set the kickstart template in the ironic node’s instance_info
field.
The kickstart template set in instance_info
takes precedence over the one
specified via the OS image in glance. If no kickstart template is specified
(via the node’s instance_info
or ks_template
glance image property),
the default kickstart template will be used to deploy the OS.
This is an example of how to set the kickstart template for a specific ironic node:
openstack baremetal node set <node> \
--instance_info ks_template=glance://uuid
Warning
In the Ironic Project terminology, the word template
often refers to
a file which is supplied to the deployment, which Ironic supplies
parameters to render a specific output. One critical example of this in
the Ironic workflow, specifically with this driver, is that the generated
agent token
is conveyed to the booting ramdisk, facilitating it to call
back to Ironic and indicate the state. This token is randomly generated
for every deploy, and is required. Specifically this is leveraged in the
template’s pre
, onerror
, and post
steps.
For more information on Agent Token, please see Agent Token.
Standalone deployments¶
While this deployment interface driver was developed around the use of other
OpenStack services, it is not explicitly required. For example HTTP(S) URLs
can be supplied by the API user to explicitly set the expected baremetal node
instance_info
fields
baremetal node set <node> \
--instance_info image_source=<Mirror URL> \
--instance_info kernel=<Kernel URL> \
--instance_info ramdisk=<Initial Ramdisk URL> \
--instance_info stage2=<Installer Stage2 Ramdisk URL>
When doing so, you may wish to also utilize a customized kickstart template, which can also be a URL. Please reference the ironic community provided template ks.cfg.template and use it as a basis of your own kickstart as it accounts for the particular stages and appropriate callbacks to Ironic.
Warning
The default template (for the kickstart ‘liveimg’ command) expects an
instance_info\image_info
setting to
be provided by the user, which serves as a base operating system image.
In the context of the anaconda driver, it should be thought of almost
like “stage3”. If you’re using a custom template, it may not be required,
but proceed with caution.
See pykickstart documentation
for more information on liveimg file format, structure, and use.
baremetal node set <node> \
--instance_info ks_template=<URL>
If you do choose to use a liveimg with a customized template, or if you wish to use the stock template with a liveimg, you will need to provide this setting.
baremetal node set <node> \
--instance_info image_info=<URL>
Warning
This is required if you do not utilize a customised template. As in use Ironic’s stock template.
The pattern of deployment in this case is identical to a deployment case where Ironic is integrated with OpenStack, however in this case Ironic collects the files, and stages them appropriately.
At this point, you should be able to request the baremetal node to deploy.
Standalone using a repository¶
Anaconda supports a concept of passing a repository as opposed to a dedicated
URL path which has a .treeinfo
file, which tells the initial boot scripts
where to get various dependencies, such as what would be used as the anaconda
stage2
ramdisk. Unfortunately, this functionality is not well documented.
An example .treeinfo
file can be found at
http://mirror.stream.centos.org/9-stream/BaseOS/x86_64/os/.treeinfo.
Note
In the context of the .treeinfo
file and the related folder structure
for a deployment utilizing the anaconda
deployment interface,
images/install.img
file represents a stage2
ramdisk.
In the context of one wishing to deploy Centos Stream-9, the following may be useful.
baremetal node set <node> \
--instance_info image_source=http://mirror.stream.centos.org/9-stream/BaseOS/x86_64/os/ \
--instance_info kernel=http://mirror.stream.centos.org/9-stream/BaseOS/x86_64/os/images/pxeboot/vmlinuz \
--instance_info ramdisk=http://mirror.stream.centos.org/9-stream/BaseOS/x86_64/os/images/pxeboot/initrd.img
Once set, a kickstart template can be provided via an instance_info
parameter, and the node deployed.
Deployment Process¶
At a high level, the mechanics of the anaconda driver works in the following flow, where we also note the stages and purpose of each part for informational purposes.
Network Boot Program (Such as iPXE) downloads the kernel, and initial ramdisk.
Kernel launches, uncompresses initial ramdisk, and executes init inside of the ramdisk.
The initial ramdisk boot scripts, such as Dracut, recognize the kernel command line parameters Ironic supplied with the boot configuration, and downloads the second stage artifacts, in this case called the
stage2
image. This image contains Anaconda and base dependencies.Anaconda downloads and parses the kickstart configuration which was also supplied on the kernel command line, and executes the commands as defined in the kickstart template.
The kickstart template, if specified in its contents, downloads a
liveimg
which is used as the base operating system image to start with.
Configuration Considerations¶
When using the anaconda
deployment interface, some configuration
parameters may need to be adjusted in your environment. This is in large
part due to the general defaults being set to much lower values for image
based deployments, but the way the anaconda deployment interface works,
you may need to make some adjustments.
[conductor]deploy_callback_timeout
likely needs to be adjusted for mostanaconda
deployment interface users. By default this is a timer which looks for “agents” which have not checked in with Ironic, or agents which may have crashed or failed after they started. If the value is reached, then the current operation is failed. This value should be set to a number of seconds which exceeds your average anaconda deployment time.[pxe]boot_retry_timeout
can also be triggered and result in an anaconda deployment in progress getting reset as it is intended to reboot nodes which might have failed their initial PXE operation. Depending on sizes of images, and the exact nature of what was deployed, it may be necessary to ensure this is a much higher value.
Limitations¶
This deploy interface has only been tested with Red Hat based operating systems that use anaconda. Other systems are not supported.
Runtime TLS certificate injection into ramdisks is not supported. Assets such as
ramdisk
or astage2
ramdisk image need to have trusted Certificate Authority certificates present within the images or the Ironic API endpoint utilized should utilize a known trusted Certificate Authority.The
anaconda
tooling deploying the instance/workload does not heartbeat to Ironic like theironic-python-agent
driven ramdisks. As such, you may need to adjust some timers. See Configuration Considerations for some details on this.