PXE Boot Installation
Starting from version 0.2.0
, Harvester can be installed automatically. This document provides an example to do an automatic installation with PXE boot.
We recommend using iPXE to perform the network boot. It has more features than the traditional PXE Boot program and is likely available in modern NIC cards. If the iPXE firmware is not available for your NIC card, the iPXE firmware images can be loaded from the TFTP server first.
To see sample iPXE scripts, please visit Harvester iPXE Examples.
Prerequisite
Nodes need to have at least 8 GB of RAM because the installer loads the full ISO file into tmpfs.
Preparing HTTP Servers
An HTTP server is required to serve boot files.
Let's assume the NGINX HTTP server's IP is 10.100.0.10
, and it serves the /usr/share/nginx/html/
directory with the path http://10.100.0.10/
.
Preparing Boot Files
Download the required files from the Harvester releases page.
- The ISO:
harvester-<version>-amd64.iso
- The kernel:
harvester-<version>-vmlinuz-amd64
- The initrd:
harvester-<version>-initrd-amd64
- The rootfs squashfs image:
harvester-<version>-rootfs-amd64.squashfs
- The ISO:
Serve the files.
Copy or move the downloaded files to an appropriate location so they can be downloaded via the HTTP server. For example:
sudo mkdir -p /usr/share/nginx/html/harvester/
sudo cp /path/to/harvester-<version>-amd64.iso /usr/share/nginx/html/harvester/
sudo cp /path/to/harvester-<version>-vmlinuz-amd64 /usr/share/nginx/html/harvester/
sudo cp /path/to/harvester-<version>-initrd-amd64 /usr/share/nginx/html/harvester/
sudo cp /path/to/harvester-<version>-rootfs-amd64.squashfs /usr/share/nginx/html/harvester/
Preparing iPXE Boot Scripts
When performing an automatic installation, there are two modes:
CREATE
: we are installing a node to construct an initial Harvester cluster.JOIN
: we are installing a node to join an existing Harvester cluster.
CREATE Mode
Security Risks: The configuration file below contains credentials which should be kept secret. Please do not make the configuration file publicly accessible.
Create a Harvester configuration file called config-create.yaml
for CREATE
mode. Modify the values as needed:
# cat /usr/share/nginx/html/harvester/config-create.yaml
scheme_version: 1
token: token # Replace with a desired token
os:
hostname: node1 # Set a hostname. This can be omitted if DHCP server offers hostnames
ssh_authorized_keys:
- ssh-rsa ... # Replace with your public key
password: p@ssword # Replace with your password
ntp_servers:
- 0.suse.pool.ntp.org
- 1.suse.pool.ntp.org
install:
mode: create
management_interface: # available as of v1.1.0
interfaces:
- name: ens5
default_route: true
method: dhcp
bond_options:
mode: balance-tlb
miimon: 100
device: /dev/sda # The target disk to install
# data_disk: /dev/sdb # It is recommended to use a separate disk to store VM data
iso_url: http://10.100.0.10/harvester/harvester-<version>-amd64.iso
# tty: ttyS1,115200n8 # For machines without a VGA console
vip: 10.100.0.99 # The VIP to access the Harvester GUI. Make sure the IP is free to use
vip_mode: static # Or dhcp, check configuration file for more information
# vip_hw_addr: 52:54:00:ec:0e:0b # Leave empty when vip_mode is static
For machines that needs to be installed using CREATE
mode, the following is an iPXE script that boots the kernel with the above config:
#!ipxe
kernel harvester-<version>-vmlinuz ip=dhcp net.ifnames=1 rd.cos.disable rd.noverifyssl console=tty1 root=live:http://10.100.0.10/harvester/rootfs.squashfs harvester.install.automatic=true harvester.install.config_url=http://10.100.0.10/harvester/config-create.yaml
initrd harvester-<version>-initrd
boot
This assumes the iPXE script is stored in /usr/share/nginx/html/harvester/ipxe-create
.
If you have multiple network interfaces, you can leverage dracut's ip=
parameter to specify the booting interface and any other network configurations that dracut supports (e.g., ip=eth1:dhcp
).
See man dracut.cmdline
for more information.
Use ip=
parameter to designate the booting interface only, as we only support one single ip=
parameter.
JOIN Mode
Security Risks: The configuration file below contains credentials which should be kept secret. Please do not make the configuration file publicly accessible.
Create a Harvester configuration file called config-join.yaml
for JOIN
mode. Modify the values as needed:
# cat /usr/share/nginx/html/harvester/config-join.yaml
scheme_version: 1
server_url: https://10.100.0.99:443 # Should be the VIP set up in "CREATE" config
token: token
os:
hostname: node2
ssh_authorized_keys:
- ssh-rsa ... # Replace with your public key
password: p@ssword # Replace with your password
dns_nameservers:
- 1.1.1.1
- 8.8.8.8
install:
mode: join
management_interface: # available as of v1.1.0
interfaces:
- name: ens5
default_route: true
method: dhcp
bond_options:
mode: balance-tlb
miimon: 100
device: /dev/sda # The target disk to install
# data_disk: /dev/sdb # It is recommended to use a separate disk to store VM data
iso_url: http://10.100.0.10/harvester/harvester-<version>-amd64.iso
# tty: ttyS1,115200n8 # For machines without a VGA console
Note that the mode
is join
and the server_url
needs to be provided.
For machines that needs to be installed in JOIN
mode, the following is an iPXE script that boots the kernel with the above config:
#!ipxe
kernel harvester-<version>-vmlinuz ip=dhcp net.ifnames=1 rd.cos.disable rd.noverifyssl console=tty1 root=live:http://10.100.0.10/harvester/rootfs.squashfs harvester.install.automatic=true harvester.install.config_url=http://10.100.0.10/harvester/config-join.yaml
initrd harvester-<version>-initrd
boot
This assumes the iPXE script is stored in /usr/share/nginx/html/harvester/ipxe-join
.
DHCP Server Configuration
In the PXE installation scenario, you are required to add the routers option (option routers
) when configuring the DHCP server. This option is used to add the default route on the Harvester host. Without the default route, the node will fail to start.
In the ISO installation scenario, when the management network interface is in DHCP mode, you are also required to add the routers option (option routers
) when configuring the DHCP server.
For example:
Harvester Host:~ # ip route
default via 192.168.122.1 dev mgmt-br proto dhcp
For more information, see ISC DHCPv4 Option Configuration.
The following is an example of how to configure the ISC DHCP server to offer iPXE scripts:
option architecture-type code 93 = unsigned integer 16;
subnet 10.100.0.0 netmask 255.255.255.0 {
option routers 10.100.0.10;
option domain-name-servers 192.168.2.1;
range 10.100.0.100 10.100.0.253;
}
group {
# create group
if exists user-class and option user-class = "iPXE" {
# iPXE Boot
if option architecture-type = 00:07 {
filename "http://10.100.0.10/harvester/ipxe-create-efi";
} else {
filename "http://10.100.0.10/harvester/ipxe-create";
}
} else {
# PXE Boot
if option architecture-type = 00:07 {
# UEFI
filename "ipxe.efi";
} else {
# Non-UEFI
filename "undionly.kpxe";
}
}
host node1 { hardware ethernet 52:54:00:6b:13:e2; }
}
group {
# join group
if exists user-class and option user-class = "iPXE" {
# iPXE Boot
if option architecture-type = 00:07 {
filename "http://10.100.0.10/harvester/ipxe-join-efi";
} else {
filename "http://10.100.0.10/harvester/ipxe-join";
}
} else {
# PXE Boot
if option architecture-type = 00:07 {
# UEFI
filename "ipxe.efi";
} else {
# Non-UEFI
filename "undionly.kpxe";
}
}
host node2 { hardware ethernet 52:54:00:69:d5:92; }
}
The config file declares a subnet and two groups. The first group is for hosts to boot using CREATE
mode and the other one is for JOIN
mode. By default, the iPXE path is chosen, but if it sees a PXE client it offers the iPXE image according to the client architecture. Please prepare those images and a TFTP server first.
Harvester Configuration
For more information about Harvester configuration, please refer to the Harvester configuration page.
By default, the first node will be the management node of the cluster. When there are 3 nodes, the other 2 nodes added first are automatically promoted to management nodes to form an HA cluster.
If you want to promote management nodes from different zones, you can add the node label topology.kubernetes.io/zone
in the os.labels config. In this case, at least three different zones are required.
Users can also provide configuration via kernel parameters. For example, to specify the CREATE
install mode, users can pass the harvester.install.mode=create
kernel parameter when booting. Values passed through kernel parameters have higher priority than values specified in the config file.
UEFI HTTP Boot support
UEFI firmware supports loading a boot image from an HTTP server. This section demonstrates how to use UEFI HTTP boot to load the iPXE program and perform an automatic installation.
Serve the iPXE Program
Download the iPXE UEFI program from http://boot.ipxe.org/ipxe.efi and make sure ipxe.efi
can be downloaded from the HTTP server. For example:
cd /usr/share/nginx/html/harvester/
wget http://boot.ipxe.org/ipxe.efi
The file now can be downloaded from http://10.100.0.10/harvester/ipxe.efi locally.
DHCP Server Configuration
If the user plans to use the UEFI HTTP boot feature by getting a dynamic IP first, the DHCP server needs to provide the iPXE program URL when it sees such a request. The following is an updated ISC DHCP server group example:
group {
# create group
if exists user-class and option user-class = "iPXE" {
# iPXE Boot
if option architecture-type = 00:07 {
filename "http://10.100.0.10/harvester/ipxe-create-efi";
} else {
filename "http://10.100.0.10/harvester/ipxe-create";
}
} elsif substring (option vendor-class-identifier, 0, 10) = "HTTPClient" {
# UEFI HTTP Boot
option vendor-class-identifier "HTTPClient";
filename "http://10.100.0.10/harvester/ipxe.efi";
} else {
# PXE Boot
if option architecture-type = 00:07 {
# UEFI
filename "ipxe.efi";
} else {
# Non-UEFI
filename "undionly.kpxe";
}
}
host node1 { hardware ethernet 52:54:00:6b:13:e2; }
}
The elsif substring
statement is new, and it offers http://10.100.0.10/harvester/ipxe.efi
when it sees a UEFI HTTP boot DHCP request. After the client fetches the iPXE program and runs it, the iPXE program will send a DHCP request again and load the iPXE script from the URL http://10.100.0.10/harvester/ipxe-create-efi
.
The iPXE Script for UEFI Boot
It's mandatory to specify the initrd image for UEFI boot in the kernel parameters. The following is an updated version of iPXE script for CREATE
mode.
#!ipxe
kernel harvester-<version>-vmlinuz initrd=harvester-<version>-initrd ip=dhcp net.ifnames=1 rd.cos.disable rd.noverifyssl console=tty1 root=live:http://10.100.0.10/harvester/rootfs.squashfs harvester.install.automatic=true harvester.install.config_url=http://10.100.0.10/harvester/config-create.yaml
initrd harvester-<version>-initrd
boot
The parameter initrd=harvester-<version>-initrd
is required.
Useful Kernel Parameters
Besides the Harvester configuration, you can also specify other kernel parameters that are useful in different scenarios. See also dracut.cmdline(7).
ip=dhcp
If you have multiple network interfaces, you could add the ip=dhcp
parameter to get IP from the DHCP server from all interfaces.
rd.net.dhcp.retry=<cnt>
Failing to get IP from the DHCP server would cause iPXE booting to fail. You can add parameter rd.net.dhcp.retry=<cnt>
to retry DHCP request for <cnt>
times.