-[[chapter-ha-manager]]
+[[chapter_ha_manager]]
ifdef::manvolnum[]
-PVE({manvolnum})
-================
-include::attributes.txt[]
+ha-manager(1)
+=============
+:pve-toplevel:
NAME
----
ha-manager - Proxmox VE HA Manager
-SYNOPSYS
+SYNOPSIS
--------
include::ha-manager.1-synopsis.adoc[]
DESCRIPTION
-----------
endif::manvolnum[]
-
ifndef::manvolnum[]
High Availability
=================
-include::attributes.txt[]
+:pve-toplevel:
endif::manvolnum[]
-
Our modern society depends heavily on information provided by
computers over the network. Mobile devices amplified that dependency,
because people can access the network any time from anywhere. If you
software:
* Use reliable ``server'' components
-
++
NOTE: Computer components with same functionality can have varying
reliability numbers, depending on the component quality. Most vendors
sell components with higher reliability as ``server'' components -
times of about 2 minutes, so you can get no more than 99.999%
availability.
+
Requirements
------------
+You must meet the following requirements before you start with HA:
+
* at least three cluster nodes (to get reliable quorum)
* shared storage for VMs and containers
* hardware redundancy (everywhere)
+* use reliable “server” components
+
* hardware watchdog - if not available we fall back to the
linux kernel software watchdog (`softdog`)
* optional hardware fencing devices
+[[ha_manager_resources]]
Resources
---------
`pve-ha-lrm`::
-The local resource manager (LRM), it controls the services running on
-the local node.
-It reads the requested states for its services from the current manager
-status file and executes the respective commands.
+The local resource manager (LRM), which controls the services running on
+the local node. It reads the requested states for its services from
+the current manager status file and executes the respective commands.
`pve-ha-crm`::
-The cluster resource manager (CRM), it controls the cluster wide
-actions of the services, processes the LRM results and includes the state
-machine which controls the state of each service.
+The cluster resource manager (CRM), which makes the cluster wide
+decisions. It sends commands to the LRM, processes the results,
+and moves resources to other nodes if something fails. The CRM also
+handles node fencing.
+
.Locks in the LRM & CRM
[NOTE]
They are used to guarantee that each LRM is active once and working. As a
LRM only executes actions when it holds its lock we can mark a failed node
as fenced if we can acquire its lock. This lets us then recover any failed
-HA services securely without any interference from the now unknown failed Node.
+HA services securely without any interference from the now unknown failed node.
This all gets supervised by the CRM which holds currently the manager master
lock.
It can be in three states:
-* *wait for agent lock*: the LRM waits for our exclusive lock. This is
- also used as idle sate if no service is configured
-* *active*: the LRM holds its exclusive lock and has services configured
-* *lost agent lock*: the LRM lost its lock, this means a failure happened
- and quorum was lost.
+wait for agent lock::
+
+The LRM waits for our exclusive lock. This is also used as idle state if no
+service is configured.
+
+active::
+
+The LRM holds its exclusive lock and has services configured.
+
+lost agent lock::
+
+The LRM lost its lock, this means a failure happened and quorum was lost.
After the LRM gets in the active state it reads the manager status
file in `/etc/pve/ha/manager_status` and determines the commands it
has to execute for the services it owns.
For each command a worker gets started, this workers are running in
-parallel and are limited to maximal 4 by default. This default setting
+parallel and are limited to at most 4 by default. This default setting
may be changed through the datacenter configuration key `max_worker`.
When finished the worker process gets collected and its result saved for
the CRM.
-.Maximal Concurrent Worker Adjustment Tips
+.Maximum Concurrent Worker Adjustment Tips
[NOTE]
-The default value of 4 maximal concurrent Workers may be unsuited for
+The default value of at most 4 concurrent workers may be unsuited for
a specific setup. For example may 4 live migrations happen at the same
time, which can lead to network congestions with slower networks and/or
big (memory wise) services. Ensure that also in the worst case no congestion
It can be in three states:
-* *wait for agent lock*: the LRM waits for our exclusive lock. This is
- also used as idle sate if no service is configured
-* *active*: the LRM holds its exclusive lock and has services configured
-* *lost agent lock*: the LRM lost its lock, this means a failure happened
- and quorum was lost.
+wait for agent lock::
+
+The CRM waits for our exclusive lock. This is also used as idle state if no
+service is configured
+
+active::
+
+The CRM holds its exclusive lock and has services configured
+
+lost agent lock::
+
+The CRM lost its lock, this means a failure happened and quorum was lost.
It main task is to manage the services which are configured to be highly
available and try to always enforce them to the wanted state, e.g.: a
quorum the node cannot reset the watchdog. This will trigger a reboot
after the watchdog then times out, this happens after 60 seconds.
+
Configuration
-------------
-The HA stack is well integrated in the Proxmox VE API2. So, for
-example, HA can be configured via `ha-manager` or the PVE web
-interface, which both provide an easy to use tool.
+The HA stack is well integrated into the {pve} API. So, for example,
+HA can be configured via the `ha-manager` command line interface, or
+the {pve} web interface - both interfaces provide an easy way to
+manage HA. Automation tools can use the API directly.
+
+All HA configuration files are within `/etc/pve/ha/`, so they get
+automatically distributed to the cluster nodes, and all nodes share
+the same HA configuration.
+
+
+Resources
+~~~~~~~~~
+
+The resource configuration file `/etc/pve/ha/resources.cfg` stores
+the list of resources managed by `ha-manager`. A resource configuration
+inside that list look like this:
+
+----
+<type>: <name>
+ <property> <value>
+ ...
+----
+
+It starts with a resource type followed by a resource specific name,
+separated with colon. Together this forms the HA resource ID, which is
+used by all `ha-manager` commands to uniquely identify a resource
+(example: `vm:100` or `ct:101`). The next lines contain additional
+properties:
+
+include::ha-resources-opts.adoc[]
+
+Here is a real world example with one VM and one container. As you see,
+the syntax of those files is really simple, so it is even posiible to
+read or edit those files using your favorite editor:
+
+.Configuration Example (`/etc/pve/ha/resources.cfg`)
+----
+vm: 501
+ state started
+ max_relocate 2
+
+ct: 102
+ # Note: use default settings for everything
+----
+
+Above config was generated using the `ha-manager` command line tool:
+
+----
+# ha-manager add vm:501 --state started --max_relocate 2
+# ha-manager add ct:102
+----
+
+
+[[ha_manager_groups]]
+Groups
+~~~~~~
+
+The HA group configuration file `/etc/pve/ha/groups.cfg` is used to
+define groups of cluster nodes. A resource can be restricted to run
+only on the members of such group. A group configuration look like
+this:
+
+----
+group: <group>
+ nodes <node_list>
+ <property> <value>
+ ...
+----
+
+include::ha-groups-opts.adoc[]
+
+A commom requirement is that a resource should run on a specific
+node. Usually the resource is able to run on other nodes, so you can define
+an unrestricted group with a single member:
+
+----
+# ha-manager groupadd prefer_node1 --nodes node1
+----
+
+For bigger clusters, it makes sense to define a more detailed failover
+behavior. For example, you may want to run a set of services on
+`node1` if possible. If `node1` is not available, you want to run them
+equally splitted on `node2` and `node3`. If those nodes also fail the
+services should run on `node4`. To achieve this you could set the node
+list to:
+
+----
+# ha-manager groupadd mygroup1 -nodes "node1:2,node2:1,node3:1,node4"
+----
+
+Another use case is if a resource uses other resources only available
+on specific nodes, lets say `node1` and `node2`. We need to make sure
+that HA manager does not use other nodes, so we need to create a
+restricted group with said nodes:
+
+----
+# ha-manager groupadd mygroup2 -nodes "node1,node2" -restricted
+----
+
+Above commands created the following group configuration fils:
+
+.Configuration Example (`/etc/pve/ha/groups.cfg`)
+----
+group: prefer_node1
+ nodes node1
+
+group: mygroup1
+ nodes node2:1,node4,node1:2,node3:1
+
+group: mygroup2
+ nodes node2,node1
+ restricted 1
+----
+
+
+The `nofailback` options is mostly useful to avoid unwanted resource
+movements during administartion tasks. For example, if you need to
+migrate a service to a node which hasn't the highest priority in the
+group, you need to tell the HA manager to not move this service
+instantly back by setting the `nofailback` option.
+
+Another scenario is when a service was fenced and it got recovered to
+another node. The admin tries to repair the fenced node and brings it
+up online again to investigate the failure cause and check if it runs
+stable again. Setting the `nofailback` flag prevents that the
+recovered services move straight back to the fenced node.
-The resource configuration file can be located at
-`/etc/pve/ha/resources.cfg` and the group configuration file at
-`/etc/pve/ha/groups.cfg`. Use the provided tools to make changes,
-there shouldn't be any need to edit them manually.
Node Power Status
-----------------
a watchdog reset.
+[[ha_manager_fencing]]
Fencing
-------
-What Is Fencing
+What is Fencing
~~~~~~~~~~~~~~~
Fencing secures that on a node failure the dangerous node gets will be rendered
unresponsive node and as a result a chain reaction of node failures in the
cluster.
-Groups
-------
-
-A group is a collection of cluster nodes which a service may be bound to.
-
-Group Settings
-~~~~~~~~~~~~~~
-
-nodes::
-
-List of group node members where a priority can be given to each node.
-A service bound to this group will run on the nodes with the highest priority
-available. If more nodes are in the highest priority class the services will
-get distributed to those node if not already there. The priorities have a
-relative meaning only.
-
-restricted::
-
-resources bound to this group may only run on nodes defined by the
-group. If no group node member is available the resource will be
-placed in the stopped state.
-
-nofailback::
-
-the resource won't automatically fail back when a more preferred node
-(re)joins the cluster.
-
Start Failure Policy
---------------------
max_restart::
-maximal number of tries to restart an failed service on the actual
+Maximum number of tries to restart an failed service on the actual
node. The default is set to one.
max_relocate::
-maximal number of tries to relocate the service to a different node.
+Maximum number of tries to relocate the service to a different node.
A relocate only happens after the max_restart value is exceeded on the
actual node. The default is set to one.
by the HA stack anymore. To recover from this state you should follow
these steps:
-* bring the resource back into an safe and consistent state (e.g:
+* bring the resource back into a safe and consistent state (e.g.,
killing its process)
* disable the ha resource to place it in an stopped state
* *after* you fixed all errors you may enable the service again
+[[ha_manager_service_operations]]
Service Operations
------------------
enable::
-the service will be started by the LRM if not already running.
+The service will be started by the LRM if not already running.
disable::
-the service will be stopped by the LRM if running.
+The service will be stopped by the LRM if running.
migrate/relocate::
-the service will be relocated (live) to another node.
+The service will be relocated (live) to another node.
remove::
-the service will be removed from the HA managed resource list. Its
+The service will be removed from the HA managed resource list. Its
current state will not be touched.
start/stop::