Boot stages#

There are five stages to boot:

  1. Detect

  2. Local

  3. Network

  4. Config

  5. Final

Detect#

A platform identification tool called ds-identify runs in the first stage. This tool detects which platform the instance is running on. This tool is integrated into the init system to disable cloud-init when no platform is found, and enable cloud-init when a valid platform is detected. This stage might not be present for every installation of cloud-init.

Local#

systemd service

cloud-init-local.service

runs

as soon as possible with / mounted read-write

blocks

as much of boot as possible, must block network

modules

none

The purpose of the local stage is to:

  • Locate “local” data sources, and

  • Apply networking configuration to the system (including “fallback”).

In most cases, this stage does not do much more than that. It finds the datasource and determines the network configuration to be used. That network configuration can come from:

  • datasource: Cloud-provided network configuration via metadata.

  • fallback: Cloud-init’s fallback networking consists of rendering the equivalent to dhcp on eth0, which was historically the most popular mechanism for network configuration of a guest.

  • none: Network configuration can be disabled by writing the file /etc/cloud/cloud.cfg with the content: network: {config: disabled}.

If this is an instance’s first boot, then the selected network configuration is rendered. This includes clearing of all previous (stale) configuration including persistent device naming with old MAC addresses.

This stage must block network bring-up or any stale configuration that might have already been applied. Otherwise, that could have negative effects such as DHCP hooks or broadcast of an old hostname. It would also put the system in an odd state to recover from, as it may then have to restart network devices.

Cloud-init then exits and expects for the continued boot of the operating system to bring network configuration up as configured.

Note

In the past, local datasources have been only those that were available without network (such as ‘ConfigDrive’). However, as seen in the recent additions to the DigitalOcean datasource, even data sources that require a network can operate at this stage.

Network#

systemd service

cloud-init.service

runs

after local stage and configured networking is up

blocks

as much of remaining boot as possible

modules

cloud_init_modules in /etc/cloud/cloud.cfg

This stage requires all configured networking to be online, as it will fully process any user data that is found. Here, processing means it will:

  • retrieve any #include or #include-once (recursively) including http,

  • decompress any compressed content, and

  • run any part-handler found.

This stage runs the disk_setup and mounts modules which may partition and format disks and configure mount points (such as in /etc/fstab). Those modules cannot run earlier as they may receive configuration input from sources only available via the network. For example, a user may have provided user data in a network resource that describes how local mounts should be done.

On some clouds, such as Azure, this stage will create filesystems to be mounted, including ones that have stale (previous instance) references in /etc/fstab. As such, entries in /etc/fstab other than those necessary for cloud-init to run should not be done until after this stage.

A part-handler and boothooks will run at this stage.

Config#

systemd service

cloud-config.service

runs

after network

blocks

nothing

modules

cloud_config_modules in /etc/cloud/cloud.cfg

This stage runs config modules only. Modules that do not really have an effect on other stages of boot are run here, including runcmd.

Final#

systemd service

cloud-final.service

runs

as final part of boot (traditional “rc.local”)

blocks

nothing

modules

cloud_final_modules in /etc/cloud/cloud.cfg

This stage runs as late in boot as possible. Any scripts that a user is accustomed to running after logging into a system should run correctly here. Things that run here include:

  • package installations,

  • configuration management plugins (Ansible, Puppet, Chef, salt-minion), and

  • user-defined scripts (i.e., shell scripts passed as user data).

For scripts external to cloud-init looking to wait until cloud-init is finished, the cloud-init status --wait subcommand can help block external scripts until cloud-init is done without having to write your own systemd units dependency chains. See status for more info.

First boot determination#

Cloud-init has to determine whether or not the current boot is the first boot of a new instance, so that it applies the appropriate configuration. On an instance’s first boot, it should run all “per-instance” configuration, whereas on a subsequent boot it should run only “per-boot” configuration. This section describes how cloud-init performs this determination, as well as why it is necessary.

When it runs, cloud-init stores a cache of its internal state for use across stages and boots.

If this cache is present, then cloud-init has run on this system before [1]. There are two cases where this could occur. Most commonly, the instance has been rebooted, and this is a second/subsequent boot. Alternatively, the filesystem has been attached to a new instance, and this is the instance’s first boot. The most obvious case where this happens is when an instance is launched from an image captured from a launched instance.

By default, cloud-init attempts to determine which case it is running in by checking the instance ID in the cache against the instance ID it determines at runtime. If they do not match, then this is an instance’s first boot; otherwise, it’s a subsequent boot. Internally, cloud-init refers to this behaviour as check.

This behaviour is required for images captured from launched instances to behave correctly, and so is the default that generic cloud images ship with. However, there are cases where it can cause problems [2]. For these cases, cloud-init has support for modifying its behaviour to trust the instance ID that is present in the system unconditionally. This means that cloud-init will never detect a new instance when the cache is present, and it follows that the only way to cause cloud-init to detect a new instance (and therefore its first boot) is to manually remove cloud-init’s cache. Internally, this behaviour is referred to as trust.

To configure which of these behaviours to use, cloud-init exposes the manual_cache_clean configuration option. When false (the default), cloud-init will check and clean the cache if the instance IDs do not match (this is the default, as discussed above). When true, cloud-init will trust the existing cache (and therefore not clean it).

Manual cache cleaning#

Cloud-init ships a command for manually cleaning the cache: cloud-init clean. See clean’s documentation for further details.

Reverting manual_cache_clean setting#

Currently there is no support for switching an instance that is launched with manual_cache_clean: true from trust behaviour to check behaviour, other than manually cleaning the cache.

Warning

If you want to capture an instance that is currently in trust mode as an image for launching other instances, you must manually clean the cache. If you do not do so, then instances launched from the captured image will all detect their first boot as a subsequent boot of the captured instance, and will not apply any per-instance configuration.

This is a functional issue, but also a potential security one: cloud-init is responsible for rotating SSH host keys on first boot, and this will not happen on these instances.