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mdadm Resource

This page is generated from the Chef Infra Client source code.
To suggest a change, edit the mdadm.rb file and submit a pull request to the Chef Infra Client repository.

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Use the mdadm resource to manage RAID devices in a Linux environment using the mdadm utility. The mdadm resource will create and assemble an array, but it will not create the config file that is used to persist the array upon reboot. If the config file is required, it must be done by specifying a template with the correct array layout, and then by using the mount provider to create a file systems table (fstab) entry.

Syntax

The full syntax for all of the properties that are available to the mdadm resource is:

mdadm 'name' do
  bitmap           String
  chunk            Integer # default value: 16
  devices          Array # default value: []
  layout           String
  level            Integer # default value: 1
  metadata         String # default value: "0.90"
  raid_device      String # default value: 'name' unless specified
  action           Symbol # defaults to :create if not specified
end

where:

  • mdadm is the resource.
  • name is the name given to the resource block.
  • action identifies which steps Chef Infra Client will take to bring the node into the desired state.
  • bitmap, chunk, devices, layout, level, metadata, and raid_device are the properties available to this resource.

Actions

The mdadm resource has the following actions:

:assemble
Assemble a previously created array into an active array.
:create
Create an array with per-device superblocks. If an array already exists (but does not match), update that array to match. (default)
:nothing
This resource block doesn’t act unless notified by another resource to take action. Once notified, this resource block either runs immediately or is queued up to run at the end of a Chef Infra Client run.
:stop
Stop an active array.

Properties

The mdadm resource has the following properties:

bitmap
Ruby Type: String

The path to a file in which a write-intent bitmap is stored.

chunk
Ruby Type: Integer | Default Value: 16

The chunk size. This property should not be used for a RAID 1 mirrored pair (i.e. when the level property is set to 1).

devices
Ruby Type: Array | Default Value: []

The devices to be part of a RAID array.

layout
Ruby Type: String

The RAID5 parity algorithm. Possible values: left-asymmetric (or la), left-symmetric (or ls), right-asymmetric (or ra), or right-symmetric (or rs).

level
Ruby Type: Integer | Default Value: 1

The RAID level.

metadata
Ruby Type: String | Default Value: 0.90

The superblock type for RAID metadata.

raid_device
Ruby Type: String | Default Value: The resource block's name

An optional property to specify the name of the RAID device if it differs from the resource block’s name.

Common Resource Functionality

Chef resources include common properties, notifications, and resource guards.

Common Properties

The following properties are common to every resource:

compile_time

Ruby Type: true, false | Default Value: false

Control the phase during which the resource is run on the node. Set to true to run while the resource collection is being built (the compile phase). Set to false to run while Chef Infra Client is configuring the node (the converge phase).

ignore_failure

Ruby Type: true, false, :quiet | Default Value: false

Continue running a recipe if a resource fails for any reason. :quiet won’t display the full stack trace and the recipe will continue to run if a resource fails.

retries

Ruby Type: Integer | Default Value: 0

The number of attempts to catch exceptions and retry the resource.

retry_delay

Ruby Type: Integer | Default Value: 2

The delay in seconds between retry attempts.

sensitive

Ruby Type: true, false | Default Value: false

Ensure that sensitive resource data isn’t logged by Chef Infra Client.

Notifications

notifies

Ruby Type: Symbol, 'Chef::Resource[String]'

A resource may notify another resource to take action when its state changes. Specify a 'resource[name]', the :action that resource should take, and then the :timer for that action. A resource may notify more than one resource; use a notifies statement for each resource to be notified.

If the referenced resource doesn’t exist, an error is raised. In contrast, subscribes won’t fail if the source resource isn’t found.

A timer specifies the point during a Chef Infra Client run at which a notification is run. The following timers are available:

:before

Specifies that the action on a notified resource should be run before processing the resource block in which the notification is located.

:delayed

Default. Specifies that a notification should be queued up, and then executed at the end of a Chef Infra Client run.

:immediate, :immediately

Specifies that a notification should be run immediately, for each resource notified.

The syntax for notifies is:

notifies :action, 'resource[name]', :timer
subscribes

Ruby Type: Symbol, 'Chef::Resource[String]'

A resource may listen to another resource, and then take action if the state of the resource being listened to changes. Specify a 'resource[name]', the :action to be taken, and then the :timer for that action.

Note that subscribes doesn’t apply the specified action to the resource that it listens to - for example:

file '/etc/nginx/ssl/example.crt' do
  mode '0600'
  owner 'root'
end

service 'nginx' do
  subscribes :reload, 'file[/etc/nginx/ssl/example.crt]', :immediately
end

In this case the subscribes property reloads the nginx service whenever its certificate file, located under /etc/nginx/ssl/example.crt, is updated. subscribes doesn’t make any changes to the certificate file itself, it merely listens for a change to the file, and executes the :reload action for its resource (in this example nginx) when a change is detected.

If the other resource doesn’t exist, the subscription won’t raise an error. Contrast this with the stricter semantics of notifies, which will raise an error if the other resource doesn’t exist.

A timer specifies the point during a Chef Infra Client run at which a notification is run. The following timers are available:

:before

Specifies that the action on a notified resource should be run before processing the resource block in which the notification is located.

:delayed

Default. Specifies that a notification should be queued up, and then executed at the end of a Chef Infra Client run.

:immediate, :immediately

Specifies that a notification should be run immediately, for each resource notified.

The syntax for subscribes is:

subscribes :action, 'resource[name]', :timer

Guards

A guard property can be used to evaluate the state of a node during the execution phase of a Chef Infra Client run. Based on the results of this evaluation, a guard property is then used to tell Chef Infra Client if it should continue executing a resource. A guard property accepts either a string value or a Ruby block value:

  • A string is executed as a shell command. If the command returns 0, the guard is applied. If the command returns any other value, then the guard property isn’t applied. String guards in a powershell_script run Windows PowerShell commands and may return true in addition to 0.
  • A block is executed as Ruby code that must return either true or false. If the block returns true, the guard property is applied. If the block returns false, the guard property isn’t applied.

A guard property is useful for ensuring that a resource is idempotent by allowing that resource to test for the desired state as it’s being executed, and then if the desired state is present, for Chef Infra Client to don’thing.

Properties

The following properties can be used to define a guard that’s evaluated during the execution phase of a Chef Infra Client run:

not_if

Prevent a resource from executing when the condition returns true.

only_if

Allow a resource to execute only if the condition returns true.

Examples

The following examples demonstrate various approaches for using the mdadm resource in recipes:

Create and assemble a RAID 0 array

The mdadm command can be used to create RAID arrays. For example, a RAID 0 array named /dev/md0 with 10 devices would have a command similar to the following:

mdadm --create /dev/md0 --level=0 --raid-devices=10 /dev/s01.../dev/s10

where /dev/s01 .. /dev/s10 represents 10 devices (01, 02, 03, and so on). This same command, when expressed as a recipe using the mdadm resource, would be similar to:

mdadm '/dev/md0' do
  devices [ '/dev/s01', ... '/dev/s10' ]
  level 0
  action :create
end

(again, where /dev/s01 .. /dev/s10 represents devices /dev/s01, /dev/s02, /dev/s03, and so on).

Create and assemble a RAID 1 array

mdadm '/dev/md0' do
  devices [ '/dev/sda', '/dev/sdb' ]
  level 1
  action [ :create, :assemble ]
end

Create and assemble a RAID 5 array

The mdadm command can be used to create RAID arrays. For example, a RAID 5 array named /dev/sd0 with 4, and a superblock type of 0.90 would be similar to:

mdadm '/dev/sd0' do
  devices [ '/dev/s1', '/dev/s2', '/dev/s3', '/dev/s4' ]
  level 5
  metadata '0.90'
  chunk 32
  action :create
end
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