An Ansible role for managing High Availability Clustering.
- Compatible OS
- RHEL 8.3+, Fedora 31+
- SLES 15 SP5+ with HA extension, SLES4SAP 15 SP5+
- Systems running RHEL are expected to be registered and have High-Availability
repositories accessible, and ResilientStorage repositories accessible if using
ha_cluster_enable_repos_resilient_storage
- The role replaces the configuration of HA Cluster on specified nodes. Any settings not specified in the role variables will be lost.
- The role is capable of configuring:
- single-link or multi-link cluster
- Corosync transport options including compression and encryption
- Corosync totem options
- Corosync quorum options
- Corosync quorum device (both qnetd and qdevice)
- SBD
- Pacemaker cluster properties
- stonith and resources
- resource defaults and resource operation defaults
- stonith levels, also known as fencing topology
- resource constraints
- Pacemaker node attributes
- Pacemaker Access Control Lists (ACLs)
- node and resource utilization
- Pacemaker Alerts
See below
The role requires the firewall
role and the selinux
role from the
fedora.linux_system_roles
collection, if ha_cluster_manage_firewall
and ha_cluster_manage_selinux
is set to true, respectively.
Please see also ha_cluster_manage_firewall
and ha_cluster_manage_selinux
.
If the ha_cluster
is a role from the fedora.linux_system_roles
collection or from the Fedora RPM package, the requirement is already
satisfied.
If you need to manage rpm-ostree
systems, you will need to install additional
collections. Please run the following command line to install the collections.
ansible-galaxy collection install -r meta/collection-requirements.yml
boolean, default: true
RHEL and CentOS only, enable repositories containing needed packages
boolean, default: false
RHEL and CentOS only, enable repositories containing resilient storage
packages, such as dlm or gfs2. For this option to take effect,
ha_cluster_enable_repos
must be set to true
.
boolean, default: false
Manage the firewall high-availability service
as well as the fence-virt port
.
When ha_cluster_manage_firewall
is true
, the firewall high-availability service
and fence-virt port
are enabled.
When ha_cluster_manage_firewall
is false
, the ha_cluster role
does not
manage the firewall.
NOTE: ha_cluster_manage_firewall
is limited to adding ports.
It cannot be used for removing ports.
If you want to remove ports, you will need to use the firewall system
role directly.
NOTE: The version of the ha_cluster
role is 1.7.5 or older,
the firewall was configured by default if the firewalld was available
when the ha_cluster
role was executed. In the newer version,
it does not happen unless ha_cluster_manage_firewall
is set to true
.
boolean, default: false
Manage the ports belonging to the firewall high-availability service
using
the selinux role.
When ha_cluster_manage_selinux
is true
, the ports belonging to the
firewall high-availability service
are associated with the selinux port type
cluster_port_t
.
When ha_cluster_manage_selinux
is false
, the ha_cluster role
does not
manage the selinux.
NOTE: The firewall configuration is prerequisite for managing selinux. If the firewall is not installed, managing selinux policy is skipped.
NOTE: ha_cluster_manage_selinux
is limited to adding policy.
It cannot be used for removing policy.
If you want to remove policy, you will need to use the selinux system
role directly.
boolean, default: true
If set to true
, HA cluster will be configured on the hosts according to other
variables. If set to false
, all HA Cluster configuration will be purged from
target hosts.
boolean, default: true
If set to true
, cluster services will be configured to start on boot. If set
to false
, cluster services will be configured not to start on boot.
boolean, default: false
The role automatically installs needed HA Cluster packages. However, resource
and fence agents for cloud environments are not installed by default on RHEL.
If you need those to be installed, set this variable to true
. Alternatively,
you can specify those packages in
ha_cluster_fence_agent_packages
and
ha_cluster_extra_packages
variables.
list of fence agent packages to install, default: fence-agents-all, fence-virt
list of additional packages to be installed, default: no packages
This variable can be used to install additional packages not installed automatically by the role, for example custom resource agents.
It is possible to specify fence agents here as well. However,
ha_cluster_fence_agent_packages
is
preferred for that, so that its default value is overridden.
string, no default - must be specified
Password of the hacluster
user. This user has full access to a cluster. It is
recommended to vault encrypt the value, see
https://docs.ansible.com/ansible/latest/user_guide/vault.html for details.
string, no default - optional
Needed only if a ha_cluster_quorum
is configured to use a qdevice of type
net
AND password of the hacluster
user on the qdevice is different from
ha_cluster_hacluster_password
. This user has full access to a cluster. It is
recommended to vault encrypt the value, see
https://docs.ansible.com/ansible/latest/user_guide/vault.html for details.
path to Corosync authkey file, default: null
Authentication and encryption key for Corosync communication. It is highly recommended to have a unique value for each cluster. The key should be 256 bytes of random data.
If value is provided, it is recommended to vault encrypt it. See https://docs.ansible.com/ansible/latest/user_guide/vault.html for details.
If no key is specified, a key already present on the nodes will be used. If nodes don't have the same key, a key from one node will be distributed to other nodes so that all nodes have the same key. If no node has a key, a new key will be generated and distributed to the nodes.
If this variable is set, ha_cluster_regenerate_keys
is ignored for this key.
path to Pacemaker authkey file, default: null
Authentication and encryption key for Pacemaker communication. It is highly recommended to have a unique value for each cluster. The key should be 256 bytes of random data.
If value is provided, it is recommended to vault encrypt it. See https://docs.ansible.com/ansible/latest/user_guide/vault.html for details.
If no key is specified, a key already present on the nodes will be used. If nodes don't have the same key, a key from one node will be distributed to other nodes so that all nodes have the same key. If no node has a key, a new key will be generated and distributed to the nodes.
If this variable is set, ha_cluster_regenerate_keys
is ignored for this key.
path to fence-virt or fence-xvm pre-shared key file, default: null
Authentication key for fence-virt or fence-xvm fence agent.
If value is provided, it is recommended to vault encrypt it. See https://docs.ansible.com/ansible/latest/user_guide/vault.html for details.
If no key is specified, a key already present on the nodes will be used. If nodes don't have the same key, a key from one node will be distributed to other nodes so that all nodes have the same key. If no node has a key, a new key will be generated and distributed to the nodes.
If this variable is set, ha_cluster_regenerate_keys
is ignored for this key.
If you let the role to generate new key, you are supposed to copy the key to your nodes' hypervisor to ensure that fencing works.
path to pcsd TLS certificate and key, default: null
TLS certificate and private key for pcsd. If this is not specified, a certificate - key pair already present on the nodes will be used. If certificate - key pair is not present, a random new one will be generated.
If private key value is provided, it is recommended to vault encrypt it. See https://docs.ansible.com/ansible/latest/user_guide/vault.html for details.
If these variables are set, ha_cluster_regenerate_keys
is ignored for this
certificate - key pair.
If there is no pcsd private key and certificate, there are two ways to create them.
One way is by setting ha_cluster_pcsd_certificates
variable. Another way is
by setting none of
ha_cluster_pcsd_public_key_src
and ha_cluster_pcsd_private_key_src
and ha_cluster_pcsd_certificates
.
If ha_cluster_pcsd_certificates
is provided, the certificate
role is
internally used and it creates the private key and certificate for pcsd as
defined. If none of the variables are provided, the ha_cluster
role will
create pcsd certificates via pcsd itself.
The value of ha_cluster_pcsd_certificates
is set to the variable
certificate_requests
in the certificate
role. For more information, see the
certificate_requests
section in the certificate
role documentation.
The default value is []
.
NOTE: The certificate
role, unless using IPA and joining the systems to an
IPA domain, creates self-signed certificates, so you will need to explicitly
configure trust, which is not currently supported by the system roles.
NOTE: When you set ha_cluster_pcsd_certificates
, you must not set
ha_cluster_pcsd_public_key_src
and ha_cluster_pcsd_private_key_src
variables.
NOTE: When you set ha_cluster_pcsd_certificates
, ha_cluster_regenerate_keys
is ignored for this certificate - key pair.
boolean, default: false
If this is set to true
, pre-shared keys and TLS certificates will be
regenerated.
See also:
ha_cluster_corosync_key_src
,
ha_cluster_pacemaker_key_src
,
ha_cluster_fence_virt_key_src
,
ha_cluster_pcsd_public_key_src
,
ha_cluster_pcsd_private_key_src
ha_cluster_pcsd_certificates
structure and default value:
ha_cluster_pcs_permission_list:
- type: group
name: haclient
allow_list:
- grant
- read
- write
This configures permissions to manage a cluster using pcsd. The items are as follows:
type
-user
orgroup
name
- user or group nameallow_list
- Allowed actions for the specified user or group:read
- allows to view cluster status and settingswrite
- allows to modify cluster settings except permissions and ACLsgrant
- allows to modify cluster permissions and ACLsfull
- allows unrestricted access to a cluster including adding and removing nodes and access to keys and certificates
string, default: my-cluster
Name of the cluster.
structure, default: no settings
ha_cluster_transport:
type: knet
options:
- name: option1_name
value: option1_value
- name: option2_name
value: option2_value
links:
-
- name: option1_name
value: option1_value
- name: option2_name
value: option2_value
-
- name: option1_name
value: option1_value
- name: option2_name
value: option2_value
compression:
- name: option1_name
value: option1_value
- name: option2_name
value: option2_value
crypto:
- name: option1_name
value: option1_value
- name: option2_name
value: option2_value
type
(optional) - Transport type:knet
,udp
orudpu
. Defaults toknet
if not specified.options
(optional) - List of name-value dictionaries with transport options.links
(optional) - List of lists of name-value dictionaries. Each list of name-value dictionaries holds options for one Corosync link. It is recommended to setlinknumber
value for each link. Otherwise, the first list of dictionaries is assigned to the first link, the second one to the second link and so on. Only one link is supported withudp
andudpu
transports.compression
(optional) - List of name-value dictionaries configuring transport compression. Only available forknet
transport.crypto
(optional) - List of name-value dictionaries configuring transport encryption. Only available forknet
transport, where encryption is enabled by default. Encryption is always disabled withudp
andudpu
transports.
For a list of allowed options, see pcs -h cluster setup
or pcs(8)
man page,
section 'cluster', command 'setup'. For a detailed description, see
corosync.conf(5)
man page.
You may take a look at an example.
structure, default: no totem settings
ha_cluster_totem:
options:
- name: option1_name
value: option1_value
- name: option2_name
value: option2_value
Corosync totem configuration. For a list of allowed options, see pcs -h cluster setup
or pcs(8)
man page, section 'cluster', command 'setup'. For a
detailed description, see corosync.conf(5)
man page.
You may take a look at an example.
structure, default: no quorum settings
ha_cluster_quorum:
options:
- name: option1_name
value: option1_value
- name: option2_name
value: option2_value
device:
model: string
model_options:
- name: option1_name
value: option1_value
- name: option2_name
value: option2_value
generic_options:
- name: option1_name
value: option1_value
- name: option2_name
value: option2_value
heuristics_options:
- name: option1_name
value: option1_value
- name: option2_name
value: option2_value
Cluster quorum configuration. The items are as follows:
options
(optional) - List of name-value dictionaries configuring quorum. Allowed options are:auto_tie_breaker
,last_man_standing
,last_man_standing_window
,wait_for_all
. They are documented invotequorum(5)
man page.device
(optional) - Configures the cluster to use a quorum device. By default, no quorum device is used.model
(mandatory) - Specifies a type of the quorum device. Currently, onlynet
is supported.model_options
(optional) - List of name-value dictionaries configuring the specified quorum device model. For modelnet
, optionshost
andalgorithm
must be specified.- You may use the
pcs-address
option to set a custom pcsd address and port to connect to the qnetd host. Otherwise, the role connects to default pcsd port on the value ofhost
.
- You may use the
generic_options
(optional) - List of name-value dictionaries setting quorum device options which are not model specific.heuristics_options
(optional) - List of name-value dictionaries configuring quorum device heuristics.
Quorum device options are documented in corosync-qdevice(8)
man page; generic
options are sync_timeout
and timeout
, for model net options check the
quorum.device.net
section, for heuristics options see the
quorum.device.heuristics
section.
To regenerate quorum device TLS certificate, set the
ha_cluster_regenerate_keys
variable to true
.
You may take a look at a quorum example and a quorum device example.
boolean, default: false
Defines whether to use SBD.
You may take a look at an example.
list, default: []
List of name-value dictionaries specifying SBD options. See sbd(8)
man page,
section 'Configuration via environment' for their description. Supported
options are:
delay-start
false
orinteger
, defaults tofalse
- documented as SBD_DELAY_START
startmode
string
, defaults toalways
- documented as SBD_STARTMODE
timeout-action
string
, defaults toflush,reboot
- documented as SBD_TIMEOUT_ACTION
watchdog-timeout
integer
, defaults to5
- documented as SBD_WATCHDOG_TIMEOUT
You may take a look at an example.
Watchdog and SBD devices can be configured on a node to node basis in two variables:
ha_cluster_node_options
is a single variable expected to have the same value for all cluster nodes. It is a list of dictionaries, each dictionary defines options for one node.ha_cluster
dictionary defines options for one node only. To set different values for each node, you define the variable separately for each node.
structure, default: no node options
ha_cluster_node_options:
- node_name: node1
pcs_address: node1-address
corosync_addresses:
- 192.168.1.11
- 192.168.2.11
sbd_watchdog_modules:
- module1
- module2
sbd_watchdog_modules_blocklist:
- module3
sbd_watchdog: /dev/watchdog2
sbd_devices:
- /dev/vdx
- /dev/vdy
attributes:
- attrs:
- name: attribute1
value: value1_node1
- name: attribute2
value: value2_node1
utilization:
- attrs:
- name: utilization1
value: value1_node1
- name: utilization2
value: value2_node1
- node_name: node2
pcs_address: node2-address:2224
corosync_addresses:
- 192.168.1.12
- 192.168.2.12
sbd_watchdog_modules:
- module1
sbd_watchdog_modules_blocklist:
- module3
sbd_watchdog: /dev/watchdog1
sbd_devices:
- /dev/vdw
- /dev/vdz
attributes:
- attrs:
- name: attribute1
value: value1_node2
- name: attribute2
value: value2_node2
utilization:
- attrs:
- name: utilization1
value: value1_node2
- name: utilization2
value: value2_node2
This variable defines various settings which vary from cluster node to cluster node.
Note: Use an inventory or playbook hosts to specify which nodes form the cluster. This variable merely sets options for the specified nodes.
The items are as follows:
node_name
(mandatory) - Node name. It must match a name defined for a node. See alsoha_cluster.node_name
.pcs_address
(optional) - Address used by pcs to communicate with the node, it can be a name, a FQDN or an IP address. Port can be specified as well.corosync_addresses
(optional) - List of addresses used by Corosync, all nodes must have the same number of addresses and the order of the addresses matters.sbd_watchdog_modules
(optional) - Watchdog kernel modules to be loaded (creates/dev/watchdog*
devices). Defaults to empty list if not set.sbd_watchdog_modules_blocklist
(optional) - Watchdog kernel modules to be unloaded and blocked. Defaults to empty list if not set.sbd_watchdog
(optional) - Watchdog device to be used by SBD. Defaults to/dev/watchdog
if not set.sbd_devices
(optional) - Devices to use for exchanging SBD messages and for monitoring. Defaults to empty list if not set.attributes
(optional) - List of sets of Pacemaker node attributes for the node. Currently, only one set is supported, so the first set is used and the rest are ignored.utilization
(optional) - List of sets of the node's utilization. The fieldvalue
must be an integer. Currently, only one set is supported, so the first set is used and the rest are ignored.
You may take a look at examples:
structure, default: no properties
ha_cluster_cluster_properties:
- attrs:
- name: property1_name
value: property1_value
- name: property2_name
value: property2_value
List of sets of cluster properties - Pacemaker cluster-wide configuration. Currently, only one set is supported, so the first set is used and the rest are ignored.
You may take a look at an example.
structure, default: no resources
ha_cluster_resource_primitives:
- id: resource-id
agent: resource-agent
instance_attrs:
- attrs:
- name: attribute1_name
value: attribute1_value
- name: attribute2_name
value: attribute2_value
meta_attrs:
- attrs:
- name: meta_attribute1_name
value: meta_attribute1_value
- name: meta_attribute2_name
value: meta_attribute2_value
copy_operations_from_agent: bool
operations:
- action: operation1-action
attrs:
- name: operation1_attribute1_name
value: operation1_attribute1_value
- name: operation1_attribute2_name
value: operation1_attribute2_value
- action: operation2-action
attrs:
- name: operation2_attribute1_name
value: operation2_attribute1_value
- name: operation2_attribute2_name
value: operation2_attribute2_value
utilization:
- attrs:
- name: utilization1_name
value: utilization1_value
- name: utilization2_name
value: utilization2_value
This variable defines Pacemaker resources (including stonith) configured by the role. The items are as follows:
id
(mandatory) - ID of a resource.agent
(mandatory) - Name of a resource or stonith agent, for exampleocf:pacemaker:Dummy
orstonith:fence_xvm
. It is mandatory to usestonith:
for stonith agents. For resource agents, it is possible to use a short name, such asDummy
instead ofocf:pacemaker:Dummy
. However, if several agents with the same short name are installed, the role will fail as it will be unable to decide which agent should be used. Therefore, it is recommended to use full names.instance_attrs
(optional) - List of sets of the resource's instance attributes. Currently, only one set is supported, so the first set is used and the rest are ignored. The exact names and values of attributes, as well as whether they are mandatory or not, depends on the resource or stonith agent.meta_attrs
(optional) - List of sets of the resource's meta attributes. Currently, only one set is supported, so the first set is used and the rest are ignored.copy_operations_from_agent
(optional) - Resource agents usually define default settings for resource operations (e.g. interval, timeout) optimized for the specific agent. If this variable is set totrue
, then those settings are copied to the resource configuration. Otherwise, clusterwide defaults will apply to the resource. You may want to set this tofalse
if you also define resource operation defaults for the resource. Defaults totrue
.operations
(optional) - List of the resource's operations.action
(mandatory) - Operation action as defined by Pacemaker and the resource or stonith agent.attrs
(mandatory) - Operation options, at least one option must be specified.
utilization
(optional) - List of sets of the resource's utilization. The fieldvalue
must be an integer. Currently, only one set is supported, so the first set is used and the rest are ignored.
You may take a look at examples:
structure, default: no resource groups
ha_cluster_resource_groups:
- id: group-id
resource_ids:
- resource1-id
- resource2-id
meta_attrs:
- attrs:
- name: group_meta_attribute1_name
value: group_meta_attribute1_value
- name: group_meta_attribute2_name
value: group_meta_attribute2_value
This variable defines resource groups. The items are as follows:
id
(mandatory) - ID of a group.resources
(mandatory) - List of the group's resources. Each resource is referenced by its ID and the resources must be defined inha_cluster_resource_primitives
. At least one resource must be listed.meta_attrs
(optional) - List of sets of the group's meta attributes. Currently, only one set is supported, so the first set is used and the rest are ignored.
You may take a look at an example.
structure, default: no resource clones
ha_cluster_resource_clones:
- resource_id: resource-to-be-cloned
promotable: true
id: custom-clone-id
meta_attrs:
- attrs:
- name: clone_meta_attribute1_name
value: clone_meta_attribute1_value
- name: clone_meta_attribute2_name
value: clone_meta_attribute2_value
This variable defines resource clones. The items are as follows:
resource_id
(mandatory) - Resource to be cloned. The resource must be defined inha_cluster_resource_primitives
orha_cluster_resource_groups
.promotable
(optional) - Create a promotable clone,true
orfalse
.id
(optional) - Custom ID of the clone. If no ID is specified, it will be generated. Warning will be emitted if this option is not supported by the cluster.meta_attrs
(optional) - List of sets of the clone's meta attributes. Currently, only one set is supported, so the first set is used and the rest are ignored.
You may take a look at an example.
structure, default: no bundle resources
- id: bundle-id
resource_id: resource-id
container:
type: container-type
options:
- name: container_option1_name
value: container_option1_value
- name: container_option2_name
value: container_option2_value
network_options:
- name: network_option1_name
value: network_option1_value
- name: network_option2_name
value: network_option2_value
port_map:
-
- name: option1_name
value: option1_value
- name: option2_name
value: option2_value
-
- name: option1_name
value: option1_value
- name: option2_name
value: option2_value
storage_map:
-
- name: option1_name
value: option1_value
- name: option2_name
value: option2_value
-
- name: option1_name
value: option1_value
- name: option2_name
value: option2_value
meta_attrs:
- attrs:
- name: bundle_meta_attribute1_name
value: bundle_meta_attribute1_value
- name: bundle_meta_attribute2_name
value: bundle_meta_attribute2_value
This variable defines resource bundles. The items are as follows:
id
(mandatory) - ID of a bundle.resource_id
(optional) - Resource to be placed into the bundle. The resource must be defined inha_cluster_resource_primitives
.container.type
(mandatory) - Container technology, such asdocker
,podman
orrkt
.container.options
(optional) - List of name-value dictionaries. Depending on the selectedcontainer.type
, certain options may be required to be specified, such asimage
.network_options
(optional) - List of name-value dictionaries. When a resource is placed into a bundle, somenetwork_options
may be required to be specified, such ascontrol-port
orip-range-start
.port_map
(optional) - List of lists of name-value dictionaries defining port forwarding from the host network to the container network. Each list of name-value dictionaries holds options for one port forwarding.storage_map
(optional) - List of lists of name-value dictionaries mapping directories on the host's filesystem into the container. Each list of name-value dictionaries holds options for one directory mapping.meta_attrs
(optional) - List of sets of the bundle's meta attributes. Currently, only one set is supported, so the first set is used and the rest are ignored.
Note, that the role does not install container launch technology automatically.
However, you can install it by listing appropriate packages in
ha_cluster_extra_packages
variable.
Note, that the role does not build and distribute container images. Please, use other means to supply a fully configured container image to every node allowed to run a bundle depending on it.
You may take a look at an example.
structure, default: no resource defaults
ha_cluster_resource_defaults:
meta_attrs:
- id: defaults-set-1-id
rule: rule-string
score: score-value
attrs:
- name: meta_attribute1_name
value: meta_attribute1_value
- name: meta_attribute2_name
value: meta_attribute2_value
- id: defaults-set-2-id
rule: rule-string
score: score-value
attrs:
- name: meta_attribute3_name
value: meta_attribute3_value
- name: meta_attribute4_name
value: meta_attribute4_value
This variable defines sets of resource defaults. You can define multiple sets of the defaults and apply them to resources of specific agents using rules. Note, that defaults do not apply to resources which override them with their own defined values.
Only meta attributes can be specified as defaults.
The items of each defaults set are as follows:
id
(optional) - ID of the defaults set. If not specified, it will be autogenerated.rule
(optional) - Rule written using pcs syntax specifies when and for which resources the set applies. Seepcs(8)
man page, sectionresource defaults set create
for details.score
(optional) - Score sets weight of the defaults set.attrs
(optional) - Meta attributes applied to resources as defaults.
You may take a look at an example.
structure, default: no resource operation defaults
This variable defines sets of resource operation defaults. You can define
multiple sets of the defaults and apply them to resources of specific agents
and / or specific resource operations using rules. Note, that defaults do not
apply to resource operations which override them with their own defined values.
Note, that by default, the role configures resources in such a way that they
define their own values for resource operations. See
copy_operations_from_agent
in
ha_cluster_resource_primitives
for more
information.
Only meta attributes can be specified as defaults.
The structure is the same as for
ha_cluster_resource_defaults
, except that
rules are described in section resource op defaults set create
of pcs(8)
man page.
structure, default: no stonith levels
ha_cluster_stonith_levels:
- level: 1..9
target: node_name
target_pattern: node_name_regular_expression
target_attribute: node_attribute_name
target_value: node_attribute_value
resource_ids:
- fence_device_1
- fence_device_2
- level: 1..9
target: node_name
target_pattern: node_name_regular_expression
target_attribute: node_attribute_name
target_value: node_attribute_value
resource_ids:
- fence_device_1
- fence_device_2
This variable defines stonith levels, also known as fencing topology. They configure the cluster to use multiple devices to fence nodes. You may define alternative devices in case one fails, or require multiple devices to all be executed successfully in order to consider a node successfully fenced, or even a combination of the two.
The items are as follows:
level
(mandatory) - Order in which to attempt the levels. Levels are attempted in ascending order until one succeeds.target
(optional) - Name of a node this level applies to.target_pattern
(optional) - Regular expression (as defined in POSIX) matching names of nodes this level applies to.target_attribute
andtarget_value
(optional) - Name and value of a node attribute that is set for nodes this level applies to.- Exactly one of
target
,target_pattern
,target_attribute
must be specified. resource_ids
(mandatory) - List of stonith resources that must all be tried for this level.
structure, default: no constraints
This variable defines resource location constraints. They tell the cluster which nodes a resource can run on. Resources can be specified by their ID or a pattern matching more resources. Nodes can be specified by their name or a rule.
Structure for constraints with resource ID and node name:
ha_cluster_constraints_location:
- resource:
id: resource-id
node: node-name
id: constraint-id
options:
- name: score
value: score-value
- name: option-name
value: option-value
resource
(mandatory) - Specification of a resource the constraint applies to.node
(mandatory) - Name of a node the resource should prefer or avoid.id
(optional) - ID of the constraint. If not specified, it will be autogenerated.options
(optional) - List of name-value dictionaries.score
- Score sets weight of the constraint.- Positive value means the resource prefers running on the node.
- Negative value means the resource should avoid running on the node.
-INFINITY
means the resource must avoid running on the node.- If not specified,
score
defaults toINFINITY
.
You may take a look at an example.
Structure for constraints with resource pattern and node name:
ha_cluster_constraints_location:
- resource:
pattern: resource-pattern
node: node-name
id: constraint-id
options:
- name: score
value: score-value
- name: resource-discovery
value: resource-discovery-value
- This is the same as the previous type, except the resource specification.
pattern
(mandatory) - POSIX extended regular expression resource IDs are matched against.
You may take a look at an example.
Structure for constraints with resource ID and a rule:
ha_cluster_constraints_location:
- resource:
id: resource-id
role: resource-role
rule: rule-string
id: constraint-id
options:
- name: score
value: score-value
- name: resource-discovery
value: resource-discovery-value
resource
(mandatory) - Specification of a resource the constraint applies to.id
(mandatory) - Resource ID.role
(optional) - You may limit the constraint to the specified resource role:Started
,Unpromoted
,Promoted
.
rule
(mandatory) - Constraint rule written using pcs syntax. Seepcs(8)
man page, sectionconstraint location
for details.- Other items have the same meaning as above.
You may take a look at an example.
Structure for constraints with resource pattern and a rule:
ha_cluster_constraints_location:
- resource:
pattern: resource-pattern
role: resource-role
rule: rule-string
id: constraint-id
options:
- name: score
value: score-value
- name: resource-discovery
value: resource-discovery-value
- This is the same as the previous type, except the resource specification.
pattern
(mandatory) - POSIX extended regular expression resource IDs are matched against.
You may take a look at an example.
structure, default: no constraints
This variable defines resource colocation constraints. They tell the cluster that the location of one resource depends on the location of another one. There are two types of colocation constraints: a simple one for two resources, and a set constraint for multiple resources.
Structure for simple constraints:
ha_cluster_constraints_colocation:
- resource_follower:
id: resource-id1
role: resource-role1
resource_leader:
id: resource-id2
role: resource-role2
id: constraint-id
options:
- name: score
value: score-value
- name: option-name
value: option-value
resource_follower
(mandatory) - A resource that should be located relative toresource_leader
.id
(mandatory) - Resource ID.role
(optional) - You may limit the constraint to the specified resource role:Started
,Unpromoted
,Promoted
.
resource_leader
(mandatory) - The cluster will decide where to put this resource first and then decide where to putresource_follower
.id
(mandatory) - Resource ID.role
(optional) - You may limit the constraint to the specified resource role:Started
,Unpromoted
,Promoted
.
id
(optional) - ID of the constraint. If not specified, it will be autogenerated.options
(optional) - List of name-value dictionaries.score
(optional) - Score sets weight of the constraint.- Positive values indicate the resources should run on the same node.
- Negative values indicate the resources should run on different nodes.
- Values of
+INFINITY
and-INFINITY
change "should" to "must". - If not specified,
score
defaults toINFINITY
.
You may take a look at an example.
Structure for set constraints:
ha_cluster_constraints_colocation:
- resource_sets:
- resource_ids:
- resource-id1
- resource-id2
options:
- name: option-name
value: option-value
id: constraint-id
options:
- name: score
value: score-value
- name: option-name
value: option-value
resource_sets
(mandatory) - List of resource sets.resource_ids
(mandatory) - List of resources in a set.options
(optional) - List of name-value dictionaries fine-tuning how resources in the sets are treated by the constraint.
id
(optional) - Same as above.options
(optional) - Same as above.
You may take a look at an example.
structure, default: no constraints
This variable defines resource order constraints. They tell the cluster the order in which certain resource actions should occur. There are two types of order constraints: a simple one for two resources, and a set constraint for multiple resources.
Structure for simple constraints:
ha_cluster_constraints_order:
- resource_first:
id: resource-id1
action: resource-action1
resource_then:
id: resource-id2
action: resource-action2
id: constraint-id
options:
- name: score
value: score-value
- name: option-name
value: option-value
resource_first
(mandatory) - Resource that theresource_then
depends on.id
(mandatory) - Resource ID.action
(optional) - The action that the resource must complete before an action can be initiated for theresource_then
. Allowed values:start
,stop
,promote
,demote
.
resource_then
(mandatory) - The dependent resource.id
(mandatory) - Resource ID.action
(optional) - The action that the resource can execute only after the action on theresource_first
has completed. Allowed values:start
,stop
,promote
,demote
.
id
(optional) - ID of the constraint. If not specified, it will be autogenerated.options
(optional) - List of name-value dictionaries.
You may take a look at an example.
Structure for set constraints:
ha_cluster_constraints_order:
- resource_sets:
- resource_ids:
- resource-id1
- resource-id2
options:
- name: option-name
value: option-value
id: constraint-id
options:
- name: score
value: score-value
- name: option-name
value: option-value
resource_sets
(mandatory) - List of resource sets.resource_ids
(mandatory) - List of resources in a set.options
(optional) - List of name-value dictionaries fine-tuning how resources in the sets are treated by the constraint.
id
(optional) - Same as above.options
(optional) - Same as above.
You may take a look at an example.
structure, default: no constraints
This variable defines resource ticket constraints. They let you specify the resources depending on a certain ticket. There are two types of ticket constraints: a simple one for two resources, and a set constraint for multiple resources.
Structure for simple constraints:
ha_cluster_constraints_ticket:
- resource:
id: resource-id
role: resource-role
ticket: ticket-name
id: constraint-id
options:
- name: loss-policy
value: loss-policy-value
- name: option-name
value: option-value
resource
(mandatory) - Specification of a resource the constraint applies to.id
(mandatory) - Resource ID.role
(optional) - You may limit the constraint to the specified resource role:Started
,Unpromoted
,Promoted
.
ticket
(mandatory) - Name of a ticket the resource depends on.id
(optional) - ID of the constraint. If not specified, it will be autogenerated.options
(optional) - List of name-value dictionaries.loss-policy
(optional) - Action that should happen to the resource if the ticket is revoked.
You may take a look at an example.
Structure for set constraints:
ha_cluster_constraints_ticket:
- resource_sets:
- resource_ids:
- resource-id1
- resource-id2
options:
- name: option-name
value: option-value
ticket: ticket-name
id: constraint-id
options:
- name: option-name
value: option-value
resource_sets
(mandatory) - List of resource sets.resource_ids
(mandatory) - List of resources in a set.options
(optional) - List of name-value dictionaries fine-tuning how resources in the sets are treated by the constraint.
ticket
(mandatory) - Same as above.id
(optional) - Same as above.options
(optional) - Same as above.
You may take a look at an example.
structure, default: no ACLs
ha_cluster_acls:
acl_roles:
- id: role-id-1
description: role description
permissions:
- kind: access-type
xpath: XPath expression
- kind: access-type
reference: cib-element-id
- id: role-id-2
permissions:
- kind: access-type
xpath: XPath expression
acl_users:
- id: user-name
roles:
- role-id-1
- role-id-2
acl_groups:
- id: group-name
roles:
- role-id-2
This variable defines ACLs roles, users and groups.
The items of acl_roles
are as follows:
id
(mandatory) - ID of an ACL role.description
(optional) - Description of the ACL role.permissions
(optional) - List of ACL role permissions.kind
(mandatory) - The access being granted. Allowed values areread
,write
, anddeny
.xpath
(optional) - An XPath specification selecting an XML element in the CIB to which the permission applies. It is mandatory to specify exactly one of the items:xpath
orreference
.reference
(optional) - The ID of an XML element in the CIB to which the permission applies. It is mandatory to specify exactly one of the items:xpath
orreference
. Note: the ID must exist.
The items of acl_users
are as follows:
id
(mandatory) - ID of an ACL user.roles
(optional) - List of ACL role IDs assigned to the user.
The items of acl_groups
are as follows:
id
(mandatory) - ID of an ACL group.roles
(optional) - List of ACL role IDs assigned to the group.
Note: Configure cluster property enable-acl
to enable ACLs in the cluster:
ha_cluster_cluster_properties:
- attrs:
- name: enable-acl
value: 'true'
You may take a look at an example.
structure, default: no alerts
ha_cluster_alerts:
- id: alert1
path: /alert1/path
description: Alert1 description
instance_attrs:
- attrs:
- name: alert_attr1_name
value: alert_attr1_value
meta_attrs:
- attrs:
- name: alert_meta_attr1_name
value: alert_meta_attr1_value
recipients:
- value: recipient_value
id: recipient1
description: Recipient1 description
instance_attrs:
- attrs:
- name: recipient_attr1_name
value: recipient_attr1_value
meta_attrs:
- attrs:
- name: recipient_meta_attr1_name
value: recipient_meta_attr1_value
This variable defines Pacemaker alerts.
The items of alerts
are as follows:
id
(mandatory) - ID of an alert.path
(mandatory) - Path to the alert agent executable.description
(optional) - Description of the alert.instance_attrs
(optional) - List of sets of the alert's instance attributes. Currently, only one set is supported, so the first set is used and the rest are ignored.meta_attrs
(optional) - List of sets of the alert's meta attributes. Currently, only one set is supported, so the first set is used and the rest are ignored.recipients
(optional) - List of alert's recipients.
The items of recipients
are as follows:
value
(mandatory) - Value of a recipient.id
(optional) - ID of the recipient.description
(optional) - Description of the recipient.instance_attrs
(optional) - List of sets of the recipient's instance attributes. Currently, only one set is supported, so the first set is used and the rest are ignored.meta_attrs
(optional) - List of sets of the recipient's meta attributes. Currently, only one set is supported, so the first set is used and the rest are ignored.
Note: The role configures the cluster to call external programs to handle alerts. It is your responsibility to provide the programs and distribute them to cluster nodes.
You may take a look at an example.
structure and default value:
ha_cluster_qnetd:
present: boolean
start_on_boot: boolean
regenerate_keys: boolean
This configures a qnetd host which can then serve as an external quorum device for clusters. The items are as follows:
present
(optional) - Iftrue
, configure a qnetd instance on the host. Iffalse
, remove qnetd configuration from the host. Defaults tofalse
. If you set this totrue
, you must setha_cluster_cluster_present
tofalse
.start_on_boot
(optional) - Configures whether the qnetd should start automatically on boot. Defaults totrue
.regenerate_keys
(optional) - Set this variable totrue
to regenerate qnetd TLS certificate. If you regenerate the certificate, you will need to re-run the role for each cluster to connect it to the qnetd again or run pcs manually to do that.
Note that you cannot run qnetd on a cluster node as fencing would disrupt qnetd operation.
You may take a look at an example.
Nodes' names and addresses can be configured in ha_cluster
variable, for
example in inventory. This is optional.
Addresses configured in ha_cluster_node_options
override those configured in ha_cluster
.
If no names or addresses are configured, play's targets will be used.
Example inventory with targets node1
and node2
:
all:
hosts:
node1:
ha_cluster:
node_name: node-A
pcs_address: node1-address
corosync_addresses:
- 192.168.1.11
- 192.168.2.11
node2:
ha_cluster:
node_name: node-B
pcs_address: node2-address:2224
corosync_addresses:
- 192.168.1.12
- 192.168.2.12
node_name
- the name of a node in a clusterpcs_address
- an address used by pcs to communicate with the node, it can be a name, FQDN or an IP address and it can contain portcorosync_addresses
- list of addresses used by Corosync, all nodes must have the same number of addresses and the order of the addresses matters
When using SBD, you may optionally configure watchdog and SBD devices for each
node in ha_cluster
variable, for example in inventory.
Even though all SBD devices must be shared to and accessible from all nodes,
each node may use different names for the devices. The loaded watchdog modules
and used devices may also be different for each node.
SBD settings defined in ha_cluster_node_options
override those defined in ha_cluster
.
See also SBD variables.
Example inventory with targets node1
and node2
:
all:
hosts:
node1:
ha_cluster:
sbd_watchdog_modules:
- module1
- module2
sbd_watchdog: /dev/watchdog2
sbd_devices:
- /dev/vdx
- /dev/vdy
node2:
ha_cluster:
sbd_watchdog_modules:
- module1
sbd_watchdog_modules_blocklist:
- module2
sbd_watchdog: /dev/watchdog1
sbd_devices:
- /dev/vdw
- /dev/vdz
sbd_watchdog_modules
(optional) - Watchdog kernel modules to be loaded (creates/dev/watchdog*
devices). Defaults to empty list if not set.sbd_watchdog_modules_blocklist
(optional) - Watchdog kernel modules to be unloaded and blocked. Defaults to empty list if not set.sbd_watchdog
(optional) - Watchdog device to be used by SBD. Defaults to/dev/watchdog
if not set.sbd_devices
(optional) - Devices to use for exchanging SBD messages and for monitoring. Defaults to empty list if not set.
Following examples show what the structure of the role variables looks like. They are not guides or best practices for configuring a cluster.
To run ha_cluster
properly, the ha_cluster
ports need to be configured
for firewalld
and the SELinux
policy as shown in this example. Although
they are omitted in each example playbook, we highly recommend to set them
to true
in your playbooks using the ha_cluster
role.
- name: Manage HA cluster and firewall and selinux
hosts: node1 node2
vars:
ha_cluster_manage_firewall: true
ha_cluster_manage_selinux: true
roles:
- linux-system-roles.ha_cluster
This example creates self-signed pcsd certificate and private key files in /var/lib/pcsd with the file name FILENAME.crt and FILENAME.key, respectively.
- name: Manage HA cluster with certificates
hosts: node1 node2
vars:
ha_cluster_pcsd_certificates:
- name: FILENAME
common_name: "{{ ansible_hostname }}"
ca: self-sign
roles:
- linux-system-roles.ha_cluster
- name: Manage HA cluster with no resources
hosts: node1 node2
vars:
ha_cluster_cluster_name: my-new-cluster
ha_cluster_hacluster_password: password
roles:
- linux-system-roles.ha_cluster
- name: Manage HA cluster with Corosync options
hosts: node1 node2
vars:
ha_cluster_cluster_name: my-new-cluster
ha_cluster_hacluster_password: password
ha_cluster_transport:
type: knet
options:
- name: ip_version
value: ipv4-6
- name: link_mode
value: active
links:
-
- name: linknumber
value: 1
- name: link_priority
value: 5
-
- name: linknumber
value: 0
- name: link_priority
value: 10
compression:
- name: level
value: 5
- name: model
value: zlib
crypto:
- name: cipher
value: none
- name: hash
value: none
ha_cluster_totem:
options:
- name: block_unlisted_ips
value: 'yes'
- name: send_join
value: 0
ha_cluster_quorum:
options:
- name: auto_tie_breaker
value: 1
- name: wait_for_all
value: 1
roles:
- linux-system-roles.ha_cluster
- hosts: node1 node2
vars:
ha_cluster_cluster_name: my-new-cluster
ha_cluster_hacluster_password: password
ha_cluster_sbd_enabled: true
ha_cluster_sbd_options:
- name: delay-start
value: 'no'
- name: startmode
value: always
- name: timeout-action
value: 'flush,reboot'
- name: watchdog-timeout
value: 30
ha_cluster_node_options:
- node_name: node1
sbd_watchdog_modules:
- iTCO_wdt
sbd_watchdog_modules_blocklist:
- ipmi_watchdog
sbd_watchdog: /dev/watchdog1
sbd_devices:
- /dev/vdx
- /dev/vdy
- /dev/vdz
- node_name: node2
sbd_watchdog_modules:
- iTCO_wdt
sbd_watchdog_modules_blocklist:
- ipmi_watchdog
sbd_watchdog: /dev/watchdog1
sbd_devices:
- /dev/vdx
- /dev/vdy
- /dev/vdz
# Best practice for setting SBD timeouts:
# watchdog-timeout * 2 = msgwait-timeout (set automatically)
# msgwait-timeout * 1.2 = stonith-timeout
ha_cluster_cluster_properties:
- attrs:
- name: stonith-timeout
value: 72
ha_cluster_resource_primitives:
- id: fence_sbd
agent: 'stonith:fence_sbd'
instance_attrs:
- attrs:
# taken from host_vars
- name: devices
value: "{{ ha_cluster.sbd_devices | join(',') }}"
- name: pcmk_delay_base
value: 30
roles:
- linux-system-roles.ha_cluster
The same result can be achieved by specifying node-specific options in inventory like this:
all:
hosts:
node1:
ha_cluster:
sbd_watchdog_modules:
- iTCO_wdt
sbd_watchdog_modules_blocklist:
- ipmi_watchdog
sbd_watchdog: /dev/watchdog1
sbd_devices:
- /dev/vdx
- /dev/vdy
- /dev/vdz
node2:
ha_cluster:
sbd_watchdog_modules:
- iTCO_wdt
sbd_watchdog_modules_blocklist:
- ipmi_watchdog
sbd_watchdog: /dev/watchdog1
sbd_devices:
- /dev/vdx
- /dev/vdy
- /dev/vdz
Variables specified in inventory can be omitted when writing the playbook:
- hosts: node1 node2
vars:
ha_cluster_cluster_name: my-new-cluster
ha_cluster_hacluster_password: password
ha_cluster_sbd_enabled: true
ha_cluster_sbd_options:
- name: delay-start
value: 'no'
- name: startmode
value: always
- name: timeout-action
value: 'flush,reboot'
- name: watchdog-timeout
value: 30
# Best practice for setting SBD timeouts:
# watchdog-timeout * 2 = msgwait-timeout (set automatically)
# msgwait-timeout * 1.2 = stonith-timeout
ha_cluster_cluster_properties:
- attrs:
- name: stonith-timeout
value: 72
ha_cluster_resource_primitives:
- id: fence_sbd
agent: 'stonith:fence_sbd'
instance_attrs:
- attrs:
# taken from host_vars
- name: devices
value: "{{ ha_cluster.sbd_devices | join(',') }}"
- name: pcmk_delay_base
value: 30
roles:
- linux-system-roles.ha_cluster
If both the ha_cluster_node_options
and ha_cluster
variables contain SBD
options, those in ha_cluster_node_options
have precedence.
- hosts: node1 node2
vars:
ha_cluster_cluster_name: my-new-cluster
ha_cluster_hacluster_password: password
ha_cluster_cluster_properties:
- attrs:
- name: stonith-enabled
value: 'true'
- name: no-quorum-policy
value: stop
roles:
- linux-system-roles.ha_cluster
- hosts: node1 node2
vars:
ha_cluster_cluster_name: my-new-cluster
ha_cluster_hacluster_password: password
ha_cluster_resource_primitives:
- id: xvm-fencing
agent: 'stonith:fence_xvm'
instance_attrs:
- attrs:
- name: pcmk_host_list
value: node1 node2
- id: simple-resource
# wokeignore:rule=dummy
agent: 'ocf:pacemaker:Dummy'
- id: resource-with-options
# wokeignore:rule=dummy
agent: 'ocf:pacemaker:Dummy'
instance_attrs:
- attrs:
- name: fake
value: fake-value
- name: passwd
value: passwd-value
meta_attrs:
- attrs:
- name: target-role
value: Started
- name: is-managed
value: 'true'
operations:
- action: start
attrs:
- name: timeout
value: '30s'
- action: monitor
attrs:
- name: timeout
value: '5'
- name: interval
value: '1min'
- id: example-1
# wokeignore:rule=dummy
agent: 'ocf:pacemaker:Dummy'
- id: example-2
# wokeignore:rule=dummy
agent: 'ocf:pacemaker:Dummy'
- id: example-3
# wokeignore:rule=dummy
agent: 'ocf:pacemaker:Dummy'
- id: simple-clone
# wokeignore:rule=dummy
agent: 'ocf:pacemaker:Dummy'
- id: clone-with-options
# wokeignore:rule=dummy
agent: 'ocf:pacemaker:Dummy'
- id: bundled-resource
# wokeignore:rule=dummy
agent: 'ocf:pacemaker:Dummy'
ha_cluster_resource_groups:
- id: simple-group
resource_ids:
- example-1
- example-2
meta_attrs:
- attrs:
- name: target-role
value: Started
- name: is-managed
value: 'true'
- id: cloned-group
resource_ids:
- example-3
ha_cluster_resource_clones:
- resource_id: simple-clone
- resource_id: clone-with-options
promotable: true
id: custom-clone-id
meta_attrs:
- attrs:
- name: clone-max
value: '2'
- name: clone-node-max
value: '1'
- resource_id: cloned-group
promotable: true
ha_cluster_resource_bundles:
- id: bundle-with-resource
resource-id: bundled-resource
container:
type: podman
options:
- name: image
value: my:image
network_options:
- name: control-port
value: 3121
port_map:
-
- name: port
value: 10001
-
- name: port
value: 10002
- name: internal-port
value: 10003
storage_map:
-
- name: source-dir
value: /srv/daemon-data
- name: target-dir
value: /var/daemon/data
-
- name: source-dir-root
value: /var/log/pacemaker/bundles
- name: target-dir
value: /var/log/daemon
meta_attrs:
- attrs:
- name: target-role
value: Started
- name: is-managed
value: 'true'
roles:
- linux-system-roles.ha_cluster
- hosts: node1 node2
vars:
ha_cluster_cluster_name: my-new-cluster
ha_cluster_hacluster_password: password
# Set a different `resource-stickiness` value during and outside work
# hours. This allows resources to automatically move back to their most
# preferred hosts, but at a time that (in theory) does not interfere with
# business activities.
ha_cluster_resource_defaults:
meta_attrs:
- id: core-hours
rule: date-spec hours=9-16 weekdays=1-5
score: 2
attrs:
- name: resource-stickiness
value: INFINITY
- id: after-hours
score: 1
attrs:
- name: resource-stickiness
value: 0
# Default the timeout on all 10-second-interval monitor actions on IPaddr2
# resources to 8 seconds.
ha_cluster_resource_operation_defaults:
meta_attrs:
- rule: resource ::IPaddr2 and op monitor interval=10s
score: INFINITY
attrs:
- name: timeout
value: 8s
roles:
- linux-system-roles.ha_cluster
- hosts: node1 node2
vars:
ha_cluster_cluster_name: my-new-cluster
ha_cluster_hacluster_password: password
ha_cluster_resource_primitives:
- id: apc1
agent: 'stonith:fence_apc_snmp'
instance_attrs:
- attrs:
- name: ip
value: apc1.example.com
- name: username
value: user
- name: password
value: secret
- name: pcmk_host_map
value: node1:1;node2:2
- id: apc2
agent: 'stonith:fence_apc_snmp'
instance_attrs:
- attrs:
- name: ip
value: apc2.example.com
- name: username
value: user
- name: password
value: secret
- name: pcmk_host_map
value: node1:1;node2:2
# Nodes have redundant power supplies, apc1 and apc2. Cluster must ensure
# that when attempting to reboot a node, both power supplies are turned off
# before either power supply is turned back on.
ha_cluster_stonith_levels:
- level: 1
target: node1
resource_ids:
- apc1
- apc2
- level: 1
target: node2
resource_ids:
- apc1
- apc2
roles:
- linux-system-roles.ha_cluster
- hosts: node1 node2
vars:
ha_cluster_cluster_name: my-new-cluster
ha_cluster_hacluster_password: password
# In order to use constraints, we need resources the constraints will apply
# to.
ha_cluster_resource_primitives:
- id: xvm-fencing
agent: 'stonith:fence_xvm'
instance_attrs:
- attrs:
- name: pcmk_host_list
value: node1 node2
- id: example-1
# wokeignore:rule=dummy
agent: 'ocf:pacemaker:Dummy'
- id: example-2
# wokeignore:rule=dummy
agent: 'ocf:pacemaker:Dummy'
- id: example-3
# wokeignore:rule=dummy
agent: 'ocf:pacemaker:Dummy'
- id: example-4
# wokeignore:rule=dummy
agent: 'ocf:pacemaker:Dummy'
- id: example-5
# wokeignore:rule=dummy
agent: 'ocf:pacemaker:Dummy'
- id: example-6
# wokeignore:rule=dummy
agent: 'ocf:pacemaker:Dummy'
# location constraints
ha_cluster_constraints_location:
# resource ID and node name
- resource:
id: example-1
node: node1
options:
- name: score
value: 20
# resource pattern and node name
- resource:
pattern: example-\d+
node: node1
options:
- name: score
value: 10
# resource ID and rule
- resource:
id: example-2
rule: '#uname eq node2 and date in_range 2022-01-01 to 2022-02-28'
# resource pattern and rule
- resource:
pattern: example-\d+
rule: node-type eq weekend and date-spec weekdays=6-7
# colocation constraints
ha_cluster_constraints_colocation:
# simple constraint
- resource_leader:
id: example-3
resource_follower:
id: example-4
options:
- name: score
value: -5
# set constraint
- resource_sets:
- resource_ids:
- example-1
- example-2
- resource_ids:
- example-5
- example-6
options:
- name: sequential
value: "false"
options:
- name: score
value: 20
# order constraints
ha_cluster_constraints_order:
# simple constraint
- resource_first:
id: example-1
resource_then:
id: example-6
options:
- name: symmetrical
value: "false"
# set constraint
- resource_sets:
- resource_ids:
- example-1
- example-2
options:
- name: require-all
value: "false"
- name: sequential
value: "false"
- resource_ids:
- example-3
- resource_ids:
- example-4
- example-5
options:
- name: sequential
value: "false"
# ticket constraints
ha_cluster_constraints_ticket:
# simple constraint
- resource:
id: example-1
ticket: ticket1
options:
- name: loss-policy
value: stop
# set constraint
- resource_sets:
- resource_ids:
- example-3
- example-4
- example-5
ticket: ticket2
options:
- name: loss-policy
value: fence
roles:
- linux-system-roles.ha_cluster
Before you can add a quorum device to a cluster, you need to set the device up. This is only needed to be done once for each quorum device. Once it has been set up, you can use a quorom device in any number of clusters.
Note that you cannot run a quorum device on a cluster node.
- hosts: nodeQ
vars:
ha_cluster_cluster_present: false
ha_cluster_hacluster_password: password
ha_cluster_qnetd:
present: true
roles:
- linux-system-roles.ha_cluster
- hosts: node1 node2
vars:
ha_cluster_cluster_name: my-new-cluster
ha_cluster_hacluster_password: password
ha_cluster_quorum:
device:
model: net
model_options:
- name: host
value: nodeQ
- name: algorithm
value: lms
roles:
- linux-system-roles.ha_cluster
- hosts: node1 node2
vars:
ha_cluster_cluster_name: my-new-cluster
ha_cluster_hacluster_password: password
ha_cluster_node_options:
- node_name: node1
attributes:
- attrs:
- name: attribute1
value: value1A
- name: attribute2
value: value2A
- node_name: node2
attributes:
- attrs:
- name: attribute1
value: value1B
- name: attribute2
value: value2B
roles:
- linux-system-roles.ha_cluster
- hosts: node1 node2
vars:
ha_cluster_cluster_name: my-new-cluster
ha_cluster_hacluster_password: password
# To use an ACL role permission reference, the reference must exist in CIB.
ha_cluster_resource_primitives:
- id: not-for-operator
# wokeignore:rule=dummy
agent: 'ocf:pacemaker:Dummy'
# ACLs must be enabled (using the enable-acl cluster property) in order to
# be effective.
ha_cluster_cluster_properties:
- attrs:
- name: enable-acl
value: 'true'
ha_cluster_acls:
acl_roles:
- id: operator
description: HA cluster operator
permissions:
- kind: write
xpath: //crm_config//nvpair[@name='maintenance-mode']
- kind: deny
reference: not-for-operator
- id: administrator
permissions:
- kind: write
xpath: /cib
acl_users:
- id: alice
roles:
- operator
- administrator
- id: bob
roles:
- administrator
acl_groups:
- id: admins
roles:
- administrator
roles:
- linux-system-roles.ha_cluster
- hosts: node1 node2
vars:
ha_cluster_cluster_name: my-new-cluster
ha_cluster_hacluster_password: password
# For utilization to have an effect, the `placement-strategy` property
# must be set and its value must be different from the value `default`.
ha_cluster_cluster_properties:
- attrs:
- name: placement-strategy
value: utilization
ha_cluster_node_options:
- node_name: node1
utilization:
- attrs:
- name: utilization1
value: 1
- name: utilization2
value: 2
- node_name: node2
utilization:
- attrs:
- name: utilization1
value: 3
- name: utilization2
value: 4
ha_cluster_resource_primitives:
- id: resource1
# wokeignore:rule=dummy
agent: 'ocf:pacemaker:Dummy'
utilization:
- attrs:
- name: utilization1
value: 2
- name: utilization2
value: 3
roles:
- linux-system-roles.ha_cluster
- hosts: node1 node2
vars:
ha_cluster_cluster_name: my-new-cluster
ha_cluster_hacluster_password: password
ha_cluster_alerts:
- id: alert1
path: /alert1/path
description: Alert1 description
instance_attrs:
- attrs:
- name: alert_attr1_name
value: alert_attr1_value
meta_attrs:
- attrs:
- name: alert_meta_attr1_name
value: alert_meta_attr1_value
recipients:
- value: recipient_value
id: recipient1
description: Recipient1 description
instance_attrs:
- attrs:
- name: recipient_attr1_name
value: recipient_attr1_value
meta_attrs:
- attrs:
- name: recipient_meta_attr1_name
value: recipient_meta_attr1_value
roles:
- linux-system-roles.ha_cluster
- hosts: node1 node2
vars:
ha_cluster_cluster_present: false
roles:
- linux-system-roles.ha_cluster
See README-ostree.md
MIT
Tomas Jelinek