If you will be using PXE, it needs to be set up on the Bare Metal service
node(s) where ironic-conductor
is running.
Make sure the tftp root directory exist and can be written to by the
user the ironic-conductor
is running as. For example:
sudo mkdir -p /tftpboot
sudo chown -R ironic /tftpboot
Install tftp server and the syslinux package with the PXE boot images:
Ubuntu: (Up to and including 14.04)
sudo apt-get install xinetd tftpd-hpa syslinux-common syslinux
Ubuntu: (14.10 and after)
sudo apt-get install xinetd tftpd-hpa syslinux-common pxelinux
Fedora 21/RHEL7/CentOS7:
sudo yum install tftp-server syslinux-tftpboot xinetd
Fedora 22 or higher:
sudo dnf install tftp-server syslinux-tftpboot xinetd
Using xinetd to provide a tftp server setup to serve /tftpboot
.
Create or edit /etc/xinetd.d/tftp
as below:
service tftp
{
protocol = udp
port = 69
socket_type = dgram
wait = yes
user = root
server = /usr/sbin/in.tftpd
server_args = -v -v -v -v -v --map-file /tftpboot/map-file /tftpboot
disable = no
# This is a workaround for Fedora, where TFTP will listen only on
# IPv6 endpoint, if IPv4 flag is not used.
flags = IPv4
}
and restart xinetd service:
Ubuntu:
sudo service xinetd restart
Fedora:
sudo systemctl restart xinetd
Copy the PXE image to /tftpboot
. The PXE image might be found at [1]:
Ubuntu (Up to and including 14.04):
sudo cp /usr/lib/syslinux/pxelinux.0 /tftpboot
Ubuntu (14.10 and after):
sudo cp /usr/lib/PXELINUX/pxelinux.0 /tftpboot
If whole disk images need to be deployed via PXE-netboot, copy the
chain.c32 image to /tftpboot
to support it. The chain.c32 image
might be found at:
Ubuntu (Up to and including 14.04):
sudo cp /usr/lib/syslinux/chain.c32 /tftpboot
Ubuntu (14.10 and after):
sudo cp /usr/lib/syslinux/modules/bios/chain.c32 /tftpboot
Fedora/RHEL7/CentOS7:
sudo cp /boot/extlinux/chain.c32 /tftpboot
If the version of syslinux is greater than 4 we also need to make sure
that we copy the library modules into the /tftpboot
directory [2]
[1]:
Ubuntu:
sudo cp /usr/lib/syslinux/modules/*/ldlinux.* /tftpboot
Create a map file in the tftp boot directory (/tftpboot
):
echo 're ^(/tftpboot/) /tftpboot/\2' > /tftpboot/map-file
echo 're ^/tftpboot/ /tftpboot/' >> /tftpboot/map-file
echo 're ^(^/) /tftpboot/\1' >> /tftpboot/map-file
echo 're ^([^/]) /tftpboot/\1' >> /tftpboot/map-file
[1] | (1, 2) On Fedora/RHEL the syslinux-tftpboot package already install
the library modules and PXE image at /tftpboot . If the TFTP server
is configured to listen to a different directory you should copy the
contents of /tftpboot to the configured directory |
[2] | http://www.syslinux.org/wiki/index.php/Library_modules |
If you want to deploy on a UEFI supported bare metal, perform these additional steps on the ironic conductor node to configure the PXE UEFI environment.
Install Grub2 and shim packages:
Ubuntu: (14.04LTS and later)
sudo apt-get install grub-efi-amd64-signed shim-signed
Fedora 21/RHEL7/CentOS7:
sudo yum install grub2-efi shim
Fedora 22 or higher:
sudo dnf install grub2-efi shim
Copy grub and shim boot loader images to /tftpboot
directory:
Ubuntu: (14.04LTS and later)
sudo cp /usr/lib/shim/shim.efi.signed /tftpboot/bootx64.efi
sudo cp /usr/lib/grub/x86_64-efi-signed/grubnetx64.efi.signed \
/tftpboot/grubx64.efi
Fedora: (21 and later)
sudo cp /boot/efi/EFI/fedora/shim.efi /tftpboot/bootx64.efi
sudo cp /boot/efi/EFI/fedora/grubx64.efi /tftpboot/grubx64.efi
CentOS: (7 and later)
sudo cp /boot/efi/EFI/centos/shim.efi /tftpboot/bootx64.efi
sudo cp /boot/efi/EFI/centos/grubx64.efi /tftpboot/grubx64.efi
Create master grub.cfg:
Ubuntu: Create grub.cfg under ``/tftpboot/grub`` directory.
GRUB_DIR=/tftpboot/grub
Fedora: Create grub.cfg under ``/tftpboot/EFI/fedora`` directory.
GRUB_DIR=/tftpboot/EFI/fedora
CentOS: Create grub.cfg under ``/tftpboot/EFI/centos`` directory.
GRUB_DIR=/tftpboot/EFI/centos
Create directory GRUB_DIR
sudo mkdir -p $GRUB_DIR
This file is used to redirect grub to baremetal node specific config file. It redirects it to specific grub config file based on DHCP IP assigned to baremetal node.
set default=master
set timeout=5
set hidden_timeout_quiet=false
menuentry "master" {
configfile /tftpboot/$net_default_ip.conf
}
Change the permission of grub.cfg:
sudo chmod 644 $GRUB_DIR/grub.cfg
Update the bare metal node with boot_mode
capability in node’s properties
field:
ironic node-update <node-uuid> add properties/capabilities='boot_mode:uefi'
Make sure that bare metal node is configured to boot in UEFI boot mode and boot device is set to network/pxe.
NOTE: pxe_ilo
driver supports automatic setting of UEFI boot mode and
boot device on the bare metal node. So this step is not required for
pxe_ilo
driver.
Note
For more information on configuring boot modes, see boot_mode_support.
Elilo is a UEFI bootloader. It is an alternative to Grub2, although it isn’t recommended since it is not being supported.
Download and untar the elilo bootloader version >= 3.16 from http://sourceforge.net/projects/elilo/:
sudo tar zxvf elilo-3.16-all.tar.gz
Copy the elilo boot loader image to /tftpboot
directory:
sudo cp ./elilo-3.16-x86_64.efi /tftpboot/elilo.efi
Update bootfile and template file configuration parameters for UEFI PXE boot in the Bare Metal Service’s configuration file (/etc/ironic/ironic.conf):
[pxe]
# Bootfile DHCP parameter for UEFI boot mode. (string value)
uefi_pxe_bootfile_name=elilo.efi
# Template file for PXE configuration for UEFI boot loader.
# (string value)
uefi_pxe_config_template=$pybasedir/drivers/modules/elilo_efi_pxe_config.template
An alternative to PXE boot, iPXE was introduced in the Juno release (2014.2.0) of Bare Metal service.
If you will be using iPXE to boot instead of PXE, iPXE needs to be set up
on the Bare Metal service node(s) where ironic-conductor
is running.
Make sure these directories exist and can be written to by the user
the ironic-conductor
is running as. For example:
sudo mkdir -p /tftpboot
sudo mkdir -p /httpboot
sudo chown -R ironic /tftpboot
sudo chown -R ironic /httpboot
Create a map file in the tftp boot directory (/tftpboot
):
echo 'r ^([^/]) /tftpboot/\1' > /tftpboot/map-file
echo 'r ^(/tftpboot/) /tftpboot/\2' >> /tftpboot/map-file
Set up TFTP and HTTP servers.
These servers should be running and configured to use the local /tftpboot and /httpboot directories respectively, as their root directories. (Setting up these servers is outside the scope of this install guide.)
These root directories need to be mounted locally to the
ironic-conductor
services, so that the services can access them.
The Bare Metal service’s configuration file (/etc/ironic/ironic.conf) should be edited accordingly to specify the TFTP and HTTP root directories and server addresses. For example:
[pxe]
# Ironic compute node's tftp root path. (string value)
tftp_root=/tftpboot
# IP address of Ironic compute node's tftp server. (string
# value)
tftp_server=192.168.0.2
[deploy]
# Ironic compute node's http root path. (string value)
http_root=/httpboot
# Ironic compute node's HTTP server URL. Example:
# http://192.1.2.3:8080 (string value)
http_url=http://192.168.0.2:8080
Install the iPXE package with the boot images:
Ubuntu:
apt-get install ipxe
Fedora 21/RHEL7/CentOS7:
yum install ipxe-bootimgs
Fedora 22 or higher:
dnf install ipxe-bootimgs
Copy the iPXE boot image (undionly.kpxe
for BIOS and
ipxe.efi
for UEFI) to /tftpboot
. The binary might
be found at:
Ubuntu:
cp /usr/lib/ipxe/{undionly.kpxe,ipxe.efi} /tftpboot
Fedora/RHEL7/CentOS7:
cp /usr/share/ipxe/{undionly.kpxe,ipxe.efi} /tftpboot
Note
If the packaged version of the iPXE boot image doesn’t work, you can download a prebuilt one from http://boot.ipxe.org or build one image from source, see http://ipxe.org/download for more information.
Enable/Configure iPXE in the Bare Metal Service’s configuration file (/etc/ironic/ironic.conf):
[pxe]
# Enable iPXE boot. (boolean value)
ipxe_enabled=True
# Neutron bootfile DHCP parameter. (string value)
pxe_bootfile_name=undionly.kpxe
# Bootfile DHCP parameter for UEFI boot mode. (string value)
uefi_pxe_bootfile_name=ipxe.efi
# Template file for PXE configuration. (string value)
pxe_config_template=$pybasedir/drivers/modules/ipxe_config.template
# Template file for PXE configuration for UEFI boot loader.
# (string value)
uefi_pxe_config_template=$pybasedir/drivers/modules/ipxe_config.template
It is possible to configure the Bare Metal service in such a way that nodes will boot into the deploy image directly from Object Storage. Doing this avoids having to cache the images on the ironic-conductor host and serving them via the ironic-conductor’s HTTP server. This can be done if:
Configure this by setting the [pxe]/ipxe_use_swift
configuration
option to True
as follows:
[pxe]
# Download deploy images directly from swift using temporary
# URLs. If set to false (default), images are downloaded to
# the ironic-conductor node and served over its local HTTP
# server. Applicable only when 'ipxe_enabled' option is set to
# true. (boolean value)
ipxe_use_swift=True
Although the HTTP server still has to be deployed and configured (as it will serve iPXE boot script and boot configuration files for nodes), such configuration will shift some load from ironic-conductor hosts to the Object Storage service which can be scaled horizontally.
Note that when SSL is enabled on the Object Storage service you have to ensure that iPXE firmware on the nodes can indeed boot from generated temporary URLs that use HTTPS protocol.
Restart the ironic-conductor
process:
Fedora/RHEL7/CentOS7:
sudo systemctl restart openstack-ironic-conductor
Ubuntu:
sudo service ironic-conductor restart
DHCP requests from iPXE need to have a DHCP tag called ipxe
, in order
for the DHCP server to tell the client to get the boot.ipxe script via
HTTP. Otherwise, if the tag isn’t there, the DHCP server will tell the
DHCP client to chainload the iPXE image (undionly.kpxe).
The Networking service needs to be configured to create this DHCP tag,
since it isn’t created by default.
Create a custom dnsmasq.conf
file with a setting for the ipxe tag. For
example, create the file /etc/dnsmasq-ironic.conf
with the content:
# Create the "ipxe" tag if request comes from iPXE user class
dhcp-userclass=set:ipxe,iPXE
# Alternatively, create the "ipxe" tag if request comes from DHCP option 175
# dhcp-match=set:ipxe,175
In the Networking service DHCP Agent configuration file (typically located at
/etc/neutron/dhcp_agent.ini), set the custom /etc/dnsmasq-ironic.conf
file as the dnsmasq configuration file:
[DEFAULT]
dnsmasq_config_file = /etc/dnsmasq-ironic.conf
Restart the neutron-dhcp-agent
process:
service neutron-dhcp-agent restart
If using the IPMITool driver, the ipmitool
command must be present on the
service node(s) where ironic-conductor
is running. On most distros, this
is provided as part of the ipmitool
package. Source code is available at
http://ipmitool.sourceforge.net/
Note that certain distros, notably Mac OS X and SLES, install openipmi
instead of ipmitool
by default. THIS DRIVER IS NOT COMPATIBLE WITH
openipmi
AS IT RELIES ON ERROR HANDLING OPTIONS NOT PROVIDED BY THIS TOOL.
Check that you can connect to and authenticate with the IPMI
controller in your bare metal server by using ipmitool
:
ipmitool -I lanplus -H <ip-address> -U <username> -P <password> chassis power status
<ip-address> = The IP of the IPMI controller you want to access
Note:
ipmitool
is installed.Note
If there are slow or unresponsive BMCs in the environment, the retry_timeout configuration option in the [ipmi] section may need to be lowered. The default is fairly conservative, as setting this timeout too low can cause older BMCs to crash and require a hard-reset.
Bare Metal service supports sending IPMI sensor data to Telemetry with pxe_ipmitool,
pxe_ipminative, agent_ipmitool, agent_pyghmi, agent_ilo, iscsi_ilo, pxe_ilo,
and with pxe_irmc driver starting from Kilo release. By default, support for
sending IPMI sensor data to Telemetry is disabled. If you want to enable it,
you should make the following two changes in ironic.conf
:
notification_driver = messaging
in the DEFAULT
sectionsend_sensor_data = true
in the conductor
sectionIf you want to customize the sensor types which will be sent to Telemetry,
change the send_sensor_data_types
option. For example, the below
settings will send temperature, fan, voltage and these three sensor types
of data to Telemetry:
If we use default value ‘All’ for all the sensor types which are supported by Telemetry, they are:
The following drivers support setting of boot mode (Legacy BIOS or UEFI).
pxe_ipmitool
The boot modes can be configured in Bare Metal service in the following way:
When no boot mode setting is provided, these drivers default the boot_mode to Legacy BIOS.
Only one boot mode (either uefi
or bios
) can be configured for
the node.
If the operator wants a node to boot always in uefi
mode or bios
mode, then they may use capabilities
parameter within properties
field of an bare metal node. The operator must manually set the appropriate
boot mode on the bare metal node.
To configure a node in uefi
mode, then set capabilities
as below:
ironic node-update <node-uuid> add properties/capabilities='boot_mode:uefi'
Nodes having boot_mode
set to uefi
may be requested by adding an
extra_spec
to the Compute service flavor:
nova flavor-key ironic-test-3 set capabilities:boot_mode="uefi"
nova boot --flavor ironic-test-3 --image test-image instance-1
If capabilities
is used in extra_spec
as above, nova scheduler
(ComputeCapabilitiesFilter
) will match only bare metal nodes which have
the boot_mode
set appropriately in properties/capabilities
. It will
filter out rest of the nodes.
The above facility for matching in the Compute service can be used in
heterogeneous environments where there is a mix of uefi
and bios
machines, and operator wants to provide a choice to the user regarding
boot modes. If the flavor doesn’t contain boot_mode
and boot_mode
is configured for bare metal nodes, then nova scheduler will consider all
nodes and user may get either bios
or uefi
machine.
Note
The term disk label
is historically used in Ironic and was taken
from parted. Apparently
everyone seems to have a different word for disk label
- these
are all the same thing: disk type, partition table, partition map
and so on…
Ironic allows operators to choose which disk label they want their
bare metal node to be deployed with when Ironic is responsible for
partitioning the disk; therefore choosing the disk label does not apply
when the image being deployed is a whole disk image
.
There are some edge cases where someone may want to choose a specific disk label for the images being deployed, including but not limited to:
bios
boot mode with disks larger than 2 terabytes
it’s recommended to use a gpt
disk label. That’s because
a capacity beyond 2 terabytes is not addressable by using the
MBR partitioning type. But, although GPT claims to be backward
compatible with legacy BIOS systems that’s not always the case.uefi
) to avoid breakage
of applications and tools running on those instances.The disk label can be configured in two ways; when Ironic is used with the Compute service or in standalone mode. The following bullet points and sections will describe both methods:
bios
boot mode will use
msdos
and uefi
boot mode will use gpt
.msdos
or gpt
- can be configured
for the node.When Ironic is used with the Compute service the disk label should be
set to node’s properties/capabilities
field and also to the flavor
which will request such capability, for example:
ironic node-update <node-uuid> add properties/capabilities='disk_label:gpt'
As for the flavor:
nova flavor-key baremetal set capabilities:disk_label="gpt"
When used without the Compute service, the disk label should be set
directly to the node’s instance_info
field, as below:
ironic node-update <node-uuid> add instance_info/capabilities='{"disk_label": "gpt"}'
Except where otherwise noted, this document is licensed under Creative Commons Attribution 3.0 License. See all OpenStack Legal Documents.