6.7 KiB
Customize CoreOS with Cloud-Config
CoreOS allows you to configure machine parameters, launch systemd units on startup and more. Only a subset of cloud-config functionality is implemented. A set of custom parameters were added to the cloud-config format that are specific to CoreOS.
Supported cloud-config Parameters
ssh_authorized_keys
Provided public SSH keys will be authorized for the core user.
The keys will be named "coreos-cloudinit" by default.
Override this with the --ssh-key-name flag when calling coreos-cloudinit.
hostname
The provided value will be used to set the system's hostname.
This is the local part of a fully-qualified domain name (i.e. foo in foo.example.com).
users
Add or modify users with the users directive by providing a list of user objects, each consisting of the following fields.
Each field is optional and of type string unless otherwise noted.
All but the passwd and ssh-authorized-keys fields will be ignored if the user already exists.
- name: Required. Login name of user
- gecos: GECOS comment of user
- passwd: Hash of the password to use for this user
- homedir: User's home directory. Defaults to /home/
- no-create-home: Boolean. Skip home directory createion.
- primary-group: Default group for the user. Defaults to a new group created named after the user.
- groups: Add user to these additional groups
- no-user-group: Boolean. Skip default group creation.
- ssh-authorized-keys: List of public SSH keys to authorize for this user
- system: Create the user as a system user. No home directory will be created.
- no-log-init: Boolean. Skip initialization of lastlog and faillog databases.
The following fields are not yet implemented:
- inactive: Deactivate the user upon creation
- lock-passwd: Boolean. Disable password login for user
- sudo: Entry to add to /etc/sudoers for user. By default, no sudo access is authorized.
- selinux-user: Corresponding SELinux user
- ssh-import-id: Import SSH keys by ID from Launchpad.
Generating a password hash
Generating a safe hash is important to the security of your system. Currently with updated tools like oclhashcat simplified hashes like md5crypt are trivial to crack on modern GPU hardware. You can generate a "safer" hash (read: not safe, never publish your hashes publicly) via:
On Debian/Ubuntu (via the package "whois")
mkpasswd --method=SHA-512 --rounds=4096
With OpenSSL (note: this will only make md5crypt. While better than plantext it should not be considered fully secure)
openssl passwd -1
With Python (change password and salt values)
python -c "import crypt, getpass, pwd; print crypt.crypt('password', '\$6\$SALT\$')"
With Perl (change password and salt values)
perl -e 'print crypt("password","\$6\$SALT\$") . "\n"'
Using a higher number of rounds will help create more secure passwords, but given enough time, password hashes can be reversed. On most RPM based distributions there is a tool called mkpasswd available in the expect package, but this does not handle "rounds" nor advanced hashing algorithms.
write_files
Inject an arbitrary set of files to the local filesystem. Provide a list of objects with the following attributes:
- path: Absolute location on disk where contents should be written
- content: Data to write at the provided
path - permissions: String representing file permissions in octal notation (i.e. '0644')
- owner: User and group that should own the file written to disk. This is equivalent to the
<user>:<group>argument tochown <user>:<group> <path>.
Custom cloud-config Parameters
coreos.etcd
The coreos.etcd.* options are translated to a partial systemd unit acting as an etcd configuration file.
coreos-cloudinit will also replace the strings $private_ipv4 and $public_ipv4 with the values generated by CoreOS based on a given provider.
For example, the following cloud-config document...
#cloud-config
coreos:
etcd:
name: node001
discovery: https://discovery.etcd.io/3445fa65423d8b04df07f59fb40218f8
bind-addr: $public_ipv4:4001
peer-bind-addr: $private_ipv4:7001
...will generate a systemd snippet like this:
[Service]
Environment="ETCD_NAME=node001""
Environment="ETCD_DISCOVERY=https://discovery.etcd.io/3445fa65423d8b04df07f59fb40218f8"
Environment="ETCD_BIND_ADDR=203.0.113.29:4001"
Environment="ETCD_PEER_BIND_ADDR=192.0.2.13:7001"
For more information about the available configuration options, see the etcd documentation. Note that hyphens in the coreos.etcd.* keys are mapped to underscores.
coreos.units
Arbitrary systemd units may be provided in the coreos.units attribute.
coreos.units is a list of objects with the following fields:
- name: string representing unit's name
- runtime: boolean indicating whether or not to persist the unit across reboots. This is analagous to the
--runtimeflag tosystemd enable. - content: plaintext string representing entire unit file
See docker example below.
user-data Script
Simply set your user-data to a script where the first line is a shebang:
#!/bin/bash
echo 'Hello, world!'
Examples
Inject an SSH key, bootstrap etcd, and start fleet
#cloud-config
coreos:
etcd:
discovery: https://discovery.etcd.io/827c73219eeb2fa5530027c37bf18877
fleet:
autostart: yes
ssh_authorized_keys:
- ssh-rsa AAAAB3NzaC1yc2EAAAADAQABAAABAQC0g+ZTxC7weoIJLUafOgrm+h...
Start a docker container on boot
#cloud-config
coreos:
units:
- name: docker-redis.service
content: |
[Unit]
Description=Redis container
Author=Me
After=docker.service
[Service]
Restart=always
ExecStart=/usr/bin/docker start -a redis_server
ExecStop=/usr/bin/docker stop -t 2 redis_server
[Install]
WantedBy=local.target
Add a user
#cloud-config
users:
- name: elroy
passwd: $6$5s2u6/jR$un0AvWnqilcgaNB3Mkxd5yYv6mTlWfOoCYHZmfi3LDKVltj.E8XNKEcwWm...
groups:
- staff
- docker
ssh-authorized-keys:
- ssh-rsa AAAAB3NzaC1yc2EAAAADAQABAAABAQC0g+ZTxC7weoIJLUafOgrm+h...
Inject configuration files
#cloud-config
write_files:
- path: /etc/hosts
contents: |
127.0.0.1 localhost
192.0.2.211 buildbox
- path: /etc/resolv.conf
contents: |
nameserver 192.0.2.13
nameserver 192.0.2.14