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Here you can find a bunch of simple examples for using Butane, with some explanations about what they do. The examples here are in no way comprehensive, for a full list of all the options present in Butane check out the configuration specification.
This example modifies the existing core
user and sets its SSH key by providing it inline.
variant: fcos
version: 1.1.0
passwd:
users:
- name: core
ssh_authorized_keys:
- key1
This example creates one user, user1
and sets up one SSH public key for the user. The user is also given the home directory /home/user1
, but it's not created, the user is added to the wheel
and plugdev
groups, and the user's shell is set to /bin/bash
.
variant: fcos
version: 1.1.0
passwd:
users:
- name: user1
ssh_authorized_keys:
- key1
home_dir: /home/user1
no_create_home: true
groups:
- wheel
- plugdev
shell: /bin/bash
You can use a Butane config to set a password for a local user. Building on the previous example, we can configure the password_hash
for one or more users:
variant: fcos
version: 1.1.0
passwd:
users:
- name: user1
ssh_authorized_keys:
- key1
password_hash: $y$j9T$aUmgEDoFIDPhGxEe2FUjc/$C5A...
home_dir: /home/user1
no_create_home: true
groups:
- wheel
- plugdev
shell: /bin/bash
To generate a secure password hash, use mkpasswd
from the whois
package. Your Linux distro may ship a different mkpasswd
implementation; you can ensure you're using the correct one by running it from a container:
$ podman run -ti --rm quay.io/coreos/mkpasswd --method=yescrypt
Password:
$y$j9T$A0Y3wwVOKP69S.1K/zYGN.$S596l11UGH3XjN...
The yescrypt
hashing method is recommended for new passwords. For more details on hashing methods, see man 5 crypt
.
For more information, see the Fedora CoreOS documentation on Authentication.
As shown in the previous examples you can inline multiple SSH public keys per user directly in the Butane config. Additionally, you can embed keys from local files at transpile time. This example creates a core
user and configures its SSH keys from local files. The file paths are relative to the directory specified with the --files-dir
command-line option, which must be provided.
variant: fcos
version: 1.5.0
passwd:
users:
- name: core
ssh_authorized_keys_local:
- id_rsa.pub
- id_ed25519.pub
Different combinations for providing SSH keys are possible. You can provide inline ones together with file references and the files may also contain multiple keys (one per line). However, keep in mind that overall the keys must be unique. Check the configuration specification for details.
This example creates a file at /opt/file
with the contents Hello, world!
, permissions 0644 (so readable and writable by the owner, and only readable by everyone else), and the file is owned by user uid 500 and gid 501.
variant: fcos
version: 1.1.0
storage:
files:
- path: /opt/file
contents:
inline: Hello, world!
mode: 0644
user:
id: 500
group:
id: 501
This example fetches a gzip-compressed file from http://example.com/file2
, makes sure that the uncompressed contents match the provided sha512 hash, and writes it to /opt/file2
.
variant: fcos
version: 1.1.0
storage:
files:
- path: /opt/file2
contents:
source: http://example.com/file2
compression: gzip
verification:
hash: sha512-4ee6a9d20cc0e6c7ee187daffa6822bdef7f4cebe109eff44b235f97e45dc3d7a5bb932efc841192e46618f48a6f4f5bc0d15fd74b1038abf46bf4b4fd409f2e
mode: 0644
This example creates a file at /opt/file3
whose contents are read from a local file local-file3
on the system running Butane. The path of the local file is relative to a files-dir which must be specified via the -d
/--files-dir
option to Butane.
variant: fcos
version: 1.1.0
storage:
files:
- path: /opt/file3
contents:
local: local-file3
mode: 0644
Consider a directory tree at ~/conf/tree
on the system running Butane:
file
overridden-file
directory/file
directory/symlink -> ../file
This example copies that directory tree to /etc/files
on the target system. The ownership and mode for overridden-file
are explicitly set by the config. All other filesystem objects are owned by root:root
, directory modes are set to 0755, and file modes are set to 0755 if the source file is executable or 0644 otherwise. The example must be transpiled with --files-dir ~/conf
.
variant: fcos
version: 1.1.0
storage:
trees:
- local: tree
path: /etc/files
files:
- path: /etc/files/overridden-file
mode: 0600
user:
id: 500
group:
id: 501
This example creates a single partition spanning all of the sdb
device then creates a btrfs filesystem on it to use as /var
. Finally, it creates the mount unit for systemd so it gets mounted on boot.
variant: fcos
version: 1.1.0
storage:
disks:
- device: /dev/sdb
wipe_table: true
partitions:
- number: 1
label: var
filesystems:
- path: /var
device: /dev/disk/by-partlabel/var
format: btrfs
wipe_filesystem: true
label: var
with_mount_unit: true
This example creates a swap partition spanning all of the sdb
device, creates a swap area on it, and creates a systemd swap unit so the swap area is enabled on boot.
variant: fcos
version: 1.4.0
storage:
disks:
- device: /dev/sdb
wipe_table: true
partitions:
- number: 1
label: swap
filesystems:
- device: /dev/disk/by-partlabel/swap
format: swap
wipe_filesystem: true
with_mount_unit: true
This example creates three LUKS2 encrypted storage volumes: one unlocked with a static key file, one with a TPM2 device via Clevis, and one with a network Tang server via Clevis. Volumes can be unlocked with any combination of these methods, or with a custom Clevis PIN and CFG. If a key file is not specified for a device, an ephemeral one will be created.
variant: fcos
version: 1.2.0
storage:
luks:
- name: static-key-example
device: /dev/sdb
key_file:
inline: REPLACE-THIS-WITH-YOUR-KEY-MATERIAL
- name: tpm-example
device: /dev/sdc
clevis:
tpm2: true
- name: tang-example
device: /dev/sdd
clevis:
tang:
- url: https://tang.example.com
thumbprint: REPLACE-THIS-WITH-YOUR-TANG-THUMBPRINT
filesystems:
- path: /var/lib/static_key_example
device: /dev/disk/by-id/dm-name-static-key-example
format: ext4
label: STATIC-EXAMPLE
with_mount_unit: true
- path: /var/lib/tpm_example
device: /dev/disk/by-id/dm-name-tpm-example
format: ext4
label: TPM-EXAMPLE
with_mount_unit: true
- path: /var/lib/tang_example
device: /dev/disk/by-id/dm-name-tang-example
format: ext4
label: TANG-EXAMPLE
with_mount_unit: true
This example uses the shortcut boot_device
syntax to configure an encrypted root filesystem unlocked with a combination of a TPM2 device and a network Tang server.
variant: fcos
version: 1.3.0
boot_device:
luks:
tpm2: true
tang:
- url: https://tang.example.com
thumbprint: REPLACE-THIS-WITH-YOUR-TANG-THUMBPRINT
This example combines boot_device
with a manually-specified filesystem format
to create an encrypted root filesystem formatted with ext4
instead of the default xfs
.
variant: fcos
version: 1.3.0
boot_device:
luks:
tpm2: true
storage:
filesystems:
- device: /dev/mapper/root
format: ext4
This example uses the shortcut boot_device
syntax to configure an encrypted root filesystem in s390x on the dasda
DASD device unlocked with a network Tang server.
variant: fcos
version: 1.6.0-experimental
boot_device:
layout: s390x-eckd
luks:
device: /dev/dasda
tang:
- url: https://tang.example.com
thumbprint: REPLACE-THIS-WITH-YOUR-TANG-THUMBPRINT
This example uses the shortcut boot_device
syntax to configure an encrypted root filesystem in s390x on the sdb
zFCP device unlocked with a network Tang server.
variant: fcos
version: 1.6.0-experimental
boot_device:
layout: s390x-zfcp
luks:
device: /dev/sdb
tang:
- url: https://tang.example.com
thumbprint: REPLACE-THIS-WITH-YOUR-TANG-THUMBPRINT
This example uses the shortcut boot_device
syntax to configure an encrypted root filesystem in s390x KVM unlocked with a network Tang server.
variant: fcos
version: 1.6.0-experimental
boot_device:
layout: s390x-virt
luks:
tang:
- url: https://tang.example.com
thumbprint: REPLACE-THIS-WITH-YOUR-TANG-THUMBPRINT
This example replicates all default partitions on the boot disk across multiple disks, allowing the system to survive disk failure.
variant: fcos
version: 1.3.0
boot_device:
mirror:
devices:
- /dev/sda
- /dev/sdb
This example configures a mirrored boot disk with a TPM2-encrypted root filesystem, overrides the size of the root partition replicas, and adds a mirrored /var
partition which consumes the remainder of the disks.
variant: fcos
version: 1.3.0
boot_device:
luks:
tpm2: true
mirror:
devices:
- /dev/sda
- /dev/sdb
storage:
disks:
- device: /dev/sda
partitions:
- label: root-1
size_mib: 8192
- label: var-1
- device: /dev/sdb
partitions:
- label: root-2
size_mib: 8192
- label: var-2
raid:
- name: md-var
level: raid1
devices:
- /dev/disk/by-partlabel/var-1
- /dev/disk/by-partlabel/var-2
filesystems:
- device: /dev/md/md-var
path: /var
format: xfs
wipe_filesystem: true
with_mount_unit: true
This example adds a drop-in for the serial-getty@ttyS0
unit, turning on autologin on ttyS0
by overriding the ExecStart=
defined in the default unit. More information on systemd dropins can be found in the systemd docs.
variant: fcos
version: 1.1.0
systemd:
units:
- name: serial-getty@ttyS0.service
dropins:
- name: autologin.conf
contents: |
[Service]
TTYVTDisallocate=no
ExecStart=
ExecStart=-/usr/sbin/agetty --autologin core --noclear %I $TERM
This example creates a new systemd unit called hello.service
, enables it so it will run on boot, and defines the contents to simply echo "Hello, World!"
.
variant: fcos
version: 1.1.0
systemd:
units:
- name: hello.service
enabled: true
contents: |
[Unit]
Description=A hello world unit!
[Service]
Type=oneshot
RemainAfterExit=yes
ExecStart=/usr/bin/echo "Hello, World!"
[Install]
WantedBy=multi-user.target
This example specifies a systemd unit (example.service
) and a dropin (proxy.conf
) to be read from local files at transpile time. The file paths are relative to the directory specified with the --files-dir
command-line option, which must be provided.
variant: fcos
version: 1.5.0
systemd:
units:
- name: example.service
contents_local: example.service
- name: rpm-ostreed.service
dropins:
- name: proxy.conf
contents_local: example.conf
This example adds a superuser to GRUB and sets a password. Users without the given username and password will not be able to access GRUB command line, modify kernel command-line arguments, or boot non-default OSTree deployments. Password hashes can be generated with grub2-mkpasswd-pbkdf2
.
variant: fcos
version: 1.5.0
grub:
users:
- name: root
password_hash: grub.pbkdf2.sha512.10000.874A958E5264...