Dell - Internal Use - Confidential
Andrew,
Say you have 3 controller nodes cluster where all services but compute and swift run.
HA proxy and pacemaker are configured on that controller cluster with each service
configured under HA proxy and pacemaker.
Now you are trying to define another pacemaker cluster that includes original controller
cluster plus all compute nodes.
If you can put all nodes into one cluster and then define that a service runs on a subset
of its node then it would work.
Integration and deployment tooling can be handled if that works.
Thanks,
Arkady
-----Original Message-----
From: Andrew Beekhof [mailto:abeekhof@redhat.com]
Sent: Wednesday, April 08, 2015 4:52 PM
To: Kanevsky, Arkady
Cc: rdo-list(a)redhat.com; milind.manjrekar(a)redhat.com; Perry Myers; Marcos Garcia; Balaji
Jayavelu
Subject: Re: [Rdo-list] New deployment model for HA compute nodes - now with automated
recovery of VMs
On 9 Apr 2015, at 6:52 am, Arkady_Kanevsky(a)DELL.com wrote:
Dell - Internal Use - Confidential
Does that work with HA controller cluster where pacemaker non-remote runs?
I'm not sure I understand the question.
The compute and control nodes are all part of a single cluster, its just that the compute
nodes are not running a full stack.
Or do you mean, "could the same approach work for control nodes"?
For example, could this be used to manage more than 16 swift ACO nodes...
Short answer: yes
Longer answer: yes, but there would likely need additional integration work required so
don't expect it in a hurry
That specific case is on my mental list of options to explore in the future.
-- Andrew
-----Original Message-----
From: rdo-list-bounces(a)redhat.com [mailto:rdo-list-bounces@redhat.com] On Behalf Of
Andrew Beekhof
Sent: Tuesday, April 07, 2015 9:13 PM
To: rdo-list(a)redhat.com; rhos-pgm
Cc: milind.manjrekar(a)redhat.com; Perry Myers; Marcos Garcia; Balaji Jayavelu
Subject: [Rdo-list] New deployment model for HA compute nodes - now with automated
recovery of VMs
Previously in order monitor the healthiness of compute nodes and the services running on
them, we had to create single node clusters due to corosync's scaling limits.
We can now announce a new deployment model that allows Pacemaker to continue this role,
but presents a single coherent view of the entire deployment while allowing us to scale
beyond corosync's limits.
Having this single administrative domain then allows us to do clever things like
automated recovery of VMs running on a failed or failing compute node.
The main difference with the previous deployment mode is that services on the compute
nodes are now managed and driven by the Pacemaker cluster on the control plane.
The compute nodes do not become full members of the cluster and they no longer require
the full cluster stack, instead they run pacemaker_remoted which acts as a conduit.
Implementation Details:
- Pacemaker monitors the connection to pacemaker_remoted to verify that the node is
reachable or not.
Failure to talk to a node triggers recovery action.
- Pacemaker uses pacemaker_remoted to start compute node services in the same sequence as
before (neutron-ovs-agent -> ceilometer-compute -> nova-compute).
- If a service fails to start, any services that depend on the FAILED service will not be
started.
This avoids the issue of adding a broken node (back) to the pool.
- If a service fails to stop, the node where the service is running will be fenced.
This is necessary to guarantee data integrity and a core HA concept (for the purposes of
this particular discussion, please take this as a given).
- If a service's health check fails, the resource (and anything that depends on it)
will be stopped and then restarted.
Remember that failure to stop will trigger a fencing action.
- A successful restart of all the services can only potentially affect network
connectivity of the instances for a short period of time.
With these capabilities in place, we can exploit Pacemaker's node monitoring and
fencing capabilities to drive nova host-evacuate for the failed compute nodes and recover
the VMs elsewhere.
When a compute node fails, Pacemaker will:
1. Execute 'nova service-disable'
2. fence (power off) the failed compute node 3. fence_compute off (waiting for nova to
detect the compute node is gone) 4. fence_compute on (a no-op unless the host happens to
be up already) 5. Execute 'nova service-enable' when the compute node returns
Technically steps 1 and 5 are optional and they are aimed to improve user experience by
immediately excluding a failed host from nova scheduling.
The only benefit is a faster scheduling of VMs that happens during a failure (nova does
not have to recognize a host is down, timeout and subsequently schedule the VM on another
host).
Step 2 will make sure the host is completely powered off and nothing is running on the
host.
Optionally, you can have the failed host reboot which would potentially allow it to
re-enter the pool.
We have an implementation for Step 3 but the ideal solution depends on extensions to the
nova API.
Currently fence_compute loops, waiting for nova to recognise that the failed host is
down, before we make a host-evacuate call which triggers nova to restart the VMs on
another host.
The discussed nova API extensions will speed up recovery times by allowing fence_compute
to proactively push that information into nova instead.
To take advantage of the VM recovery features:
- VMs need to be running off a cinder volume or using shared ephemeral storage (like RBD
or NFS)
- If VM is not running using shared storage, recovery of the instance on a new compute
node would need to revert to a previously stored snapshot/image in Glance (potentially
losing state, but in some cases that may not matter)
- RHEL7.1+ required for infrastructure nodes (controllers and compute). Instance guests
can run anything.
- Compute nodes need to have a working fencing mechanism (IPMI, hardware watchdog, etc)
Detailed instructions for deploying this new model are of course available on Github:
https://github.com/beekhof/osp-ha-deploy/blob/master/ha-openstack.md#comp...
It has been successfully deployed in our labs, but we'd really like to hear how it
works for you in the field.
Please contact me if you encounter any issues.
-- Andrew
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