Este contenido no está disponible en el idioma seleccionado.
Chapter 2. Managing local storage by using the RHEL system role
To manage LVM and local file systems (FS) by using Ansible, you can use the storage
role, which is one of the RHEL system roles available in RHEL 9.
Using the storage
role enables you to automate administration of file systems on disks and logical volumes on multiple machines and across all versions of RHEL starting with RHEL 7.7.
For more information about RHEL system roles and how to apply them, see Introduction to RHEL system roles.
2.1. Introduction to the storage
RHEL system role
The storage
role can manage:
- File systems on disks which have not been partitioned
- Complete LVM volume groups including their logical volumes and file systems
- MD RAID volumes and their file systems
With the storage
role, you can perform the following tasks:
- Create a file system
- Remove a file system
- Mount a file system
- Unmount a file system
- Create LVM volume groups
- Remove LVM volume groups
- Create logical volumes
- Remove logical volumes
- Create RAID volumes
- Remove RAID volumes
- Create LVM volume groups with RAID
- Remove LVM volume groups with RAID
- Create encrypted LVM volume groups
- Create LVM logical volumes with RAID
Additional resources
-
/usr/share/ansible/roles/rhel-system-roles.storage/README.md
file -
/usr/share/doc/rhel-system-roles/storage/
directory
2.2. Creating an XFS file system on a block device by using the storage
RHEL system role
The example Ansible playbook applies the storage
role to create an XFS file system on a block device using the default parameters.
The storage
role can create a file system only on an unpartitioned, whole disk or a logical volume (LV). It cannot create the file system on a partition.
Prerequisites
- You have prepared the control node and the managed nodes
- You are logged in to the control node as a user who can run playbooks on the managed nodes.
-
The account you use to connect to the managed nodes has
sudo
permissions on them.
Procedure
Create a playbook file, for example
~/playbook.yml
, with the following content:--- - hosts: managed-node-01.example.com roles: - rhel-system-roles.storage vars: storage_volumes: - name: barefs type: disk disks: - sdb fs_type: xfs
-
The volume name (
barefs
in the example) is currently arbitrary. Thestorage
role identifies the volume by the disk device listed under thedisks:
attribute. -
You can omit the
fs_type: xfs
line because XFS is the default file system in RHEL 9. To create the file system on an LV, provide the LVM setup under the
disks:
attribute, including the enclosing volume group. For details, see Managing logical volumes by using the storage RHEL system role.Do not provide the path to the LV device.
-
The volume name (
Validate the playbook syntax:
$ ansible-playbook --syntax-check ~/playbook.yml
Note that this command only validates the syntax and does not protect against a wrong but valid configuration.
Run the playbook:
$ ansible-playbook ~/playbook.yml
Additional resources
-
/usr/share/ansible/roles/rhel-system-roles.storage/README.md
file -
/usr/share/doc/rhel-system-roles/storage/
directory
2.3. Persistently mounting a file system by using the storage
RHEL system role
The example Ansible applies the storage
role to immediately and persistently mount an XFS file system.
Prerequisites
- You have prepared the control node and the managed nodes
- You are logged in to the control node as a user who can run playbooks on the managed nodes.
-
The account you use to connect to the managed nodes has
sudo
permissions on them.
Procedure
Create a playbook file, for example
~/playbook.yml
, with the following content:--- - hosts: managed-node-01.example.com roles: - rhel-system-roles.storage vars: storage_volumes: - name: barefs type: disk disks: - sdb fs_type: xfs mount_point: /mnt/data mount_user: somebody mount_group: somegroup mount_mode: 0755
-
This playbook adds the file system to the
/etc/fstab
file, and mounts the file system immediately. -
If the file system on the
/dev/sdb
device or the mount point directory do not exist, the playbook creates them.
-
This playbook adds the file system to the
Validate the playbook syntax:
$ ansible-playbook --syntax-check ~/playbook.yml
Note that this command only validates the syntax and does not protect against a wrong but valid configuration.
Run the playbook:
$ ansible-playbook ~/playbook.yml
Additional resources
-
/usr/share/ansible/roles/rhel-system-roles.storage/README.md
file -
/usr/share/doc/rhel-system-roles/storage/
directory
2.4. Managing logical volumes by using the storage
RHEL system role
The example Ansible playbook applies the storage
role to create an LVM logical volume in a volume group.
Prerequisites
- You have prepared the control node and the managed nodes
- You are logged in to the control node as a user who can run playbooks on the managed nodes.
-
The account you use to connect to the managed nodes has
sudo
permissions on them.
Procedure
Create a playbook file, for example
~/playbook.yml
, with the following content:- hosts: managed-node-01.example.com roles: - rhel-system-roles.storage vars: storage_pools: - name: myvg disks: - sda - sdb - sdc volumes: - name: mylv size: 2G fs_type: ext4 mount_point: /mnt/dat
-
The
myvg
volume group consists of the following disks:/dev/sda
,/dev/sdb
, and/dev/sdc
. -
If the
myvg
volume group already exists, the playbook adds the logical volume to the volume group. -
If the
myvg
volume group does not exist, the playbook creates it. -
The playbook creates an Ext4 file system on the
mylv
logical volume, and persistently mounts the file system at/mnt
.
-
The
Validate the playbook syntax:
$ ansible-playbook --syntax-check ~/playbook.yml
Note that this command only validates the syntax and does not protect against a wrong but valid configuration.
Run the playbook:
$ ansible-playbook ~/playbook.yml
Additional resources
-
/usr/share/ansible/roles/rhel-system-roles.storage/README.md
file -
/usr/share/doc/rhel-system-roles/storage/
directory
2.5. Enabling online block discard by using the storage
RHEL system role
The example Ansible playbook applies the storage
role to mount an XFS file system with online block discard enabled.
Prerequisites
- You have prepared the control node and the managed nodes
- You are logged in to the control node as a user who can run playbooks on the managed nodes.
-
The account you use to connect to the managed nodes has
sudo
permissions on them.
Procedure
Create a playbook file, for example
~/playbook.yml
, with the following content:--- - hosts: managed-node-01.example.com roles: - rhel-system-roles.storage vars: storage_volumes: - name: barefs type: disk disks: - sdb fs_type: xfs mount_point: /mnt/data mount_options: discard
Validate the playbook syntax:
$ ansible-playbook --syntax-check ~/playbook.yml
Note that this command only validates the syntax and does not protect against a wrong but valid configuration.
Run the playbook:
$ ansible-playbook ~/playbook.yml
Additional resources
-
/usr/share/ansible/roles/rhel-system-roles.storage/README.md
file -
/usr/share/doc/rhel-system-roles/storage/
directory
2.6. Creating and mounting an Ext4 file system by using the storage
RHEL system role
The example Ansible playbook applies the storage
role to create and mount an Ext4 file system.
Prerequisites
- You have prepared the control node and the managed nodes
- You are logged in to the control node as a user who can run playbooks on the managed nodes.
-
The account you use to connect to the managed nodes has
sudo
permissions on them.
Procedure
Create a playbook file, for example
~/playbook.yml
, with the following content:--- - hosts: managed-node-01.example.com roles: - rhel-system-roles.storage vars: storage_volumes: - name: barefs type: disk disks: - sdb fs_type: ext4 fs_label: label-name mount_point: /mnt/data
-
The playbook creates the file system on the
/dev/sdb
disk. -
The playbook persistently mounts the file system at the
/mnt/data
directory. -
The label of the file system is
label-name
.
-
The playbook creates the file system on the
Validate the playbook syntax:
$ ansible-playbook --syntax-check ~/playbook.yml
Note that this command only validates the syntax and does not protect against a wrong but valid configuration.
Run the playbook:
$ ansible-playbook ~/playbook.yml
Additional resources
-
/usr/share/ansible/roles/rhel-system-roles.storage/README.md
file -
/usr/share/doc/rhel-system-roles/storage/
directory
2.7. Creating and mounting an Ext3 file system by using the storage
RHEL system role
The example Ansible playbook applies the storage
role to create and mount an Ext3 file system.
Prerequisites
- You have prepared the control node and the managed nodes
- You are logged in to the control node as a user who can run playbooks on the managed nodes.
-
The account you use to connect to the managed nodes has
sudo
permissions on them.
Procedure
Create a playbook file, for example
~/playbook.yml
, with the following content:--- - hosts: all roles: - rhel-system-roles.storage vars: storage_volumes: - name: barefs type: disk disks: - sdb fs_type: ext3 fs_label: label-name mount_point: /mnt/data mount_user: somebody mount_group: somegroup mount_mode: 0755
-
The playbook creates the file system on the
/dev/sdb
disk. -
The playbook persistently mounts the file system at the
/mnt/data
directory. -
The label of the file system is
label-name
.
-
The playbook creates the file system on the
Validate the playbook syntax:
$ ansible-playbook --syntax-check ~/playbook.yml
Note that this command only validates the syntax and does not protect against a wrong but valid configuration.
Run the playbook:
$ ansible-playbook ~/playbook.yml
Additional resources
-
/usr/share/ansible/roles/rhel-system-roles.storage/README.md
file -
/usr/share/doc/rhel-system-roles/storage/
directory
2.8. Resizing an existing file system on LVM by using the storage
RHEL system role
The example Ansible playbook applies the storage
RHEL system role to resize an LVM logical volume with a file system.
Prerequisites
- You have prepared the control node and the managed nodes
- You are logged in to the control node as a user who can run playbooks on the managed nodes.
-
The account you use to connect to the managed nodes has
sudo
permissions on them.
Procedure
Create a playbook file, for example
~/playbook.yml
, with the following content:--- - name: Create LVM pool over three disks hosts: managed-node-01.example.com tasks: - name: Resize LVM logical volume with file system ansible.builtin.include_role: name: rhel-system-roles.storage vars: storage_pools: - name: myvg disks: - /dev/sda - /dev/sdb - /dev/sdc volumes: - name: mylv1 size: 10 GiB fs_type: ext4 mount_point: /opt/mount1 - name: mylv2 size: 50 GiB fs_type: ext4 mount_point: /opt/mount2
This playbook resizes the following existing file systems:
-
The Ext4 file system on the
mylv1
volume, which is mounted at/opt/mount1
, resizes to 10 GiB. -
The Ext4 file system on the
mylv2
volume, which is mounted at/opt/mount2
, resizes to 50 GiB.
-
The Ext4 file system on the
Validate the playbook syntax:
$ ansible-playbook --syntax-check ~/playbook.yml
Note that this command only validates the syntax and does not protect against a wrong but valid configuration.
Run the playbook:
$ ansible-playbook ~/playbook.yml
Additional resources
-
/usr/share/ansible/roles/rhel-system-roles.storage/README.md
file -
/usr/share/doc/rhel-system-roles/storage/
directory
2.9. Creating a swap volume by using the storage
RHEL system role
This section provides an example Ansible playbook. This playbook applies the storage
role to create a swap volume, if it does not exist, or to modify the swap volume, if it already exist, on a block device by using the default parameters.
Prerequisites
- You have prepared the control node and the managed nodes
- You are logged in to the control node as a user who can run playbooks on the managed nodes.
-
The account you use to connect to the managed nodes has
sudo
permissions on them.
Procedure
Create a playbook file, for example
~/playbook.yml
, with the following content:--- - name: Create a disk device with swap hosts: managed-node-01.example.com roles: - rhel-system-roles.storage vars: storage_volumes: - name: swap_fs type: disk disks: - /dev/sdb size: 15 GiB fs_type: swap
The volume name (
swap_fs
in the example) is currently arbitrary. Thestorage
role identifies the volume by the disk device listed under thedisks:
attribute.Validate the playbook syntax:
$ ansible-playbook --syntax-check ~/playbook.yml
Note that this command only validates the syntax and does not protect against a wrong but valid configuration.
Run the playbook:
$ ansible-playbook ~/playbook.yml
Additional resources
-
/usr/share/ansible/roles/rhel-system-roles.storage/README.md
file -
/usr/share/doc/rhel-system-roles/storage/
directory
2.10. Configuring a RAID volume by using the storage
RHEL system role
With the storage
system role, you can configure a RAID volume on RHEL by using Red Hat Ansible Automation Platform and Ansible-Core. Create an Ansible playbook with the parameters to configure a RAID volume to suit your requirements.
Device names might change in certain circumstances, for example, when you add a new disk to a system. Therefore, to prevent data loss, do not use specific disk names in the playbook.
Prerequisites
- You have prepared the control node and the managed nodes
- You are logged in to the control node as a user who can run playbooks on the managed nodes.
-
The account you use to connect to the managed nodes has
sudo
permissions on them.
Procedure
Create a playbook file, for example
~/playbook.yml
, with the following content:--- - name: Configure the storage hosts: managed-node-01.example.com tasks: - name: Create a RAID on sdd, sde, sdf, and sdg ansible.builtin.include_role: name: rhel-system-roles.storage vars: storage_safe_mode: false storage_volumes: - name: data type: raid disks: [sdd, sde, sdf, sdg] raid_level: raid0 raid_chunk_size: 32 KiB mount_point: /mnt/data state: present
Validate the playbook syntax:
$ ansible-playbook --syntax-check ~/playbook.yml
Note that this command only validates the syntax and does not protect against a wrong but valid configuration.
Run the playbook:
$ ansible-playbook ~/playbook.yml
Additional resources
-
/usr/share/ansible/roles/rhel-system-roles.storage/README.md
file -
/usr/share/doc/rhel-system-roles/storage/
directory
2.11. Configuring an LVM pool with RAID by using the storage
RHEL system role
With the storage
system role, you can configure an LVM pool with RAID on RHEL by using Red Hat Ansible Automation Platform. You can set up an Ansible playbook with the available parameters to configure an LVM pool with RAID.
Prerequisites
- You have prepared the control node and the managed nodes
- You are logged in to the control node as a user who can run playbooks on the managed nodes.
-
The account you use to connect to the managed nodes has
sudo
permissions on them.
Procedure
Create a playbook file, for example
~/playbook.yml
, with the following content:--- - name: Configure LVM pool with RAID hosts: managed-node-01.example.com roles: - rhel-system-roles.storage vars: storage_safe_mode: false storage_pools: - name: my_pool type: lvm disks: [sdh, sdi] raid_level: raid1 volumes: - name: my_volume size: "1 GiB" mount_point: "/mnt/app/shared" fs_type: xfs state: present
To create an LVM pool with RAID, you must specify the RAID type by using the
raid_level
parameter.Validate the playbook syntax:
$ ansible-playbook --syntax-check ~/playbook.yml
Note that this command only validates the syntax and does not protect against a wrong but valid configuration.
Run the playbook:
$ ansible-playbook ~/playbook.yml
Additional resources
-
/usr/share/ansible/roles/rhel-system-roles.storage/README.md
file -
/usr/share/doc/rhel-system-roles/storage/
directory - Managing RAID
2.12. Configuring a stripe size for RAID LVM volumes by using the storage
RHEL system role
With the storage
system role, you can configure a stripe size for RAID LVM volumes on RHEL by using Red Hat Ansible Automation Platform. You can set up an Ansible playbook with the available parameters to configure an LVM pool with RAID.
Prerequisites
- You have prepared the control node and the managed nodes
- You are logged in to the control node as a user who can run playbooks on the managed nodes.
-
The account you use to connect to the managed nodes has
sudo
permissions on them.
Procedure
Create a playbook file, for example
~/playbook.yml
, with the following content:--- - name: Configure stripe size for RAID LVM volumes hosts: managed-node-01.example.com roles: - rhel-system-roles.storage vars: storage_safe_mode: false storage_pools: - name: my_pool type: lvm disks: [sdh, sdi] volumes: - name: my_volume size: "1 GiB" mount_point: "/mnt/app/shared" fs_type: xfs raid_level: raid1 raid_stripe_size: "256 KiB" state: present
Validate the playbook syntax:
$ ansible-playbook --syntax-check ~/playbook.yml
Note that this command only validates the syntax and does not protect against a wrong but valid configuration.
Run the playbook:
$ ansible-playbook ~/playbook.yml
Additional resources
-
/usr/share/ansible/roles/rhel-system-roles.storage/README.md
file -
/usr/share/doc/rhel-system-roles/storage/
directory - Managing RAID
2.13. Compressing and deduplicating a VDO volume on LVM by using the storage
RHEL system role
The example Ansible playbook applies the storage
RHEL system role to enable compression and deduplication of Logical Volumes (LVM) by using Virtual Data Optimizer (VDO).
Because of the storage
system role use of LVM VDO, only one volume per pool can use the compression and deduplication.
Prerequisites
- You have prepared the control node and the managed nodes
- You are logged in to the control node as a user who can run playbooks on the managed nodes.
-
The account you use to connect to the managed nodes has
sudo
permissions on them.
Procedure
Create a playbook file, for example
~/playbook.yml
, with the following content:- name: Create LVM VDO volume under volume group 'myvg' hosts: managed-node-01.example.com roles: - rhel-system-roles.storage vars: storage_pools: - name: myvg disks: - /dev/sdb volumes: - name: mylv1 compression: true deduplication: true vdo_pool_size: 10 GiB size: 30 GiB mount_point: /mnt/app/shared
In this example, the
compression
anddeduplication
pools are set to true, which specifies that the VDO is used. The following describes the usage of these parameters:-
The
deduplication
is used to deduplicate the duplicated data stored on the storage volume. - The compression is used to compress the data stored on the storage volume, which results in more storage capacity.
-
The vdo_pool_size specifies the actual size the volume takes on the device. The virtual size of VDO volume is set by the
size
parameter.
-
The
Validate the playbook syntax:
$ ansible-playbook --syntax-check ~/playbook.yml
Note that this command only validates the syntax and does not protect against a wrong but valid configuration.
Run the playbook:
$ ansible-playbook ~/playbook.yml
Additional resources
-
/usr/share/ansible/roles/rhel-system-roles.storage/README.md
file -
/usr/share/doc/rhel-system-roles/storage/
directory
2.14. Creating a LUKS2 encrypted volume by using the storage
RHEL system role
You can use the storage
role to create and configure a volume encrypted with LUKS by running an Ansible playbook.
Prerequisites
- You have prepared the control node and the managed nodes
- You are logged in to the control node as a user who can run playbooks on the managed nodes.
-
The account you use to connect to the managed nodes has
sudo
permissions on them.
Procedure
Create a playbook file, for example
~/playbook.yml
, with the following content:--- - name: Create and configure a volume encrypted with LUKS hosts: managed-node-01.example.com roles: - rhel-system-roles.storage vars: storage_volumes: - name: barefs type: disk disks: - sdb fs_type: xfs fs_label: label-name mount_point: /mnt/data encryption: true encryption_password: <password>
You can also add other encryption parameters, such as
encryption_key
,encryption_cipher
,encryption_key_size
, andencryption_luks
, to the playbook file.Validate the playbook syntax:
$ ansible-playbook --syntax-check ~/playbook.yml
Note that this command only validates the syntax and does not protect against a wrong but valid configuration.
Run the playbook:
$ ansible-playbook ~/playbook.yml
Verification
View the encryption status:
# cryptsetup status sdb /dev/mapper/sdb is active and is in use. type: LUKS2 cipher: aes-xts-plain64 keysize: 512 bits key location: keyring device: /dev/sdb ...
Verify the created LUKS encrypted volume:
# cryptsetup luksDump /dev/sdb Version: 2 Epoch: 6 Metadata area: 16384 [bytes] Keyslots area: 33521664 [bytes] UUID: a4c6be82-7347-4a91-a8ad-9479b72c9426 Label: (no label) Subsystem: (no subsystem) Flags: allow-discards Data segments: 0: crypt offset: 33554432 [bytes] length: (whole device) cipher: aes-xts-plain64 sector: 4096 [bytes] ...
Additional resources
-
/usr/share/ansible/roles/rhel-system-roles.storage/README.md
file -
/usr/share/doc/rhel-system-roles/storage/
directory - Encrypting block devices by using LUKS
2.15. Expressing pool volume sizes as percentage by using the storage
RHEL system role
The example Ansible playbook applies the storage
system role to enable you to express Logical Manager Volumes (LVM) volume sizes as a percentage of the pool’s total size.
Prerequisites
- You have prepared the control node and the managed nodes
- You are logged in to the control node as a user who can run playbooks on the managed nodes.
-
The account you use to connect to the managed nodes has
sudo
permissions on them.
Procedure
Create a playbook file, for example
~/playbook.yml
, with the following content:--- - name: Express volume sizes as a percentage of the pool's total size hosts: managed-node-01.example.com roles: - rhel-system-roles.storage vars: storage_pools: - name: myvg disks: - /dev/sdb volumes: - name: data size: 60% mount_point: /opt/mount/data - name: web size: 30% mount_point: /opt/mount/web - name: cache size: 10% mount_point: /opt/cache/mount
This example specifies the size of LVM volumes as a percentage of the pool size, for example:
60%
. Alternatively, you can also specify the size of LVM volumes as a percentage of the pool size in a human-readable size of the file system, for example,10g
or50 GiB
.Validate the playbook syntax:
$ ansible-playbook --syntax-check ~/playbook.yml
Note that this command only validates the syntax and does not protect against a wrong but valid configuration.
Run the playbook:
$ ansible-playbook ~/playbook.yml
Additional resources
-
/usr/share/ansible/roles/rhel-system-roles.storage/README.md
file -
/usr/share/doc/rhel-system-roles/storage/
directory