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This will configure the sysctl settings via puppet instead of
sysctl image element.
Change-Id: Ieb129d4cbe4b6d4184172631499ecd638073564f
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The overcloud networking is managed by Neutron so we do not want
Nova to append its default domain part to hostnames.
Change-Id: Ic1edda158bf0579ed34455ad27db8ca444d26b85
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Remove references to the .novalocal domain part in the hosts file.
Change-Id: Idf14907adaf2f35440b6f28870fe18434eadd1be
Depends-On: Iadfdf4120c4d1c9b6976321753957fd4eecf301c
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We're already configuring Neutron in Overcloud, but the controller
is still configured to use the default Nova neutron_api_class for
default configuration for networking, which means it used Nova Network
and not Neutron. This causes some of the Nova API is_neutron
checks to behave incorrectly.
This patch updates the controller to use nova::network::neutron (like
we already do on the overcloud_compute.pp role). As part of the change
several of the compute specific hiera settings for the
nova::network::neutron class have been moved to common.yaml.
Change-Id: Id2d5a5a0aa1ca087de714880ef1ea98484b06849
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This patch adds support for the Ceilometer controller
role including the Ceilometer:
-API
-central agent
-alarm notifier
-alarm evaluator
-collector
-expirer
In order to enable swift metering the swift::proxy ceilometer middleware
was added in.
Also, a minor adjustment to the existing ceilometer HA proxy setting
was made to accommodate ceilometer auth settings. (not exactly sure
why but this seems to be required)
Like upstream TripleO Ceilometer is currently using a MySQL database
backend. A follow on patch can support configuring MongoDB for use
with Ceilometer.
Change-Id: I4e171274bd7679d386d93492d13dfa7c5d37f6a8
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This patch adds support for a Swift proxy and storage
node on the controller.
The implementation is fairly straightforward with the
exception of building the ring. I've followed an
upstream TripleO model here where we build the
actual ring on each node (rather than build once
and rsync). This works because Heat will always
know all the devices ahead of time. In the future
when we have Heat breakpoints it might be possible
to consider optimizing this by generating the ring
once and then rsyncing to all the nodes.
The ringbuilder logic is executed as a seperate
Heat software deployment. On the controller the ring
is executed in between the base service (mysql/rabbit)
and OpenStack service steps. This is to ensure the
ring exists before the Swift proxy is started.
Having the ringbuilder.pp logic as a separate software
config should allow us to reuse it for the Storage
node role.
It should also be noted that swift.zones support is
added here but we are missing an upstream Heat
template change in order for it to be wired
in properly. See: I0e0f5189da1575f2e1ed7fba4bbbe13a8fbf6221
Likewise we need to properly wire in SwiftRingBuild as well.
See: I01311ec3ca265b151f8740bf7dc57cdf0cf0df6f
The underlying puppet ringbuilder code is already wired
to support this change when it lands.
As is this works today and will provide a working Overcloud
Swift-proxy/storage node config. Will follow this up with
a related Swift storage node patch which should allow
puppet to be used for configuration on the storage nodes
as well...
Change-Id: Id1272f796e2507a7357309e8cd6a51ad9e0160af
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This patch provides an alternate implementation of
the OS::TripleO::Compute::SoftwareConfig which uses Puppet
to drive the configuration. Using this it is possible
to create a fully functional overcloud compute instance
which has the compute node configured via Puppet
stackforge modules. This includes all the Nova, Neutron,
and Ceilometer configuration required to make things work.
In order to test this you'll want to build your images
with these elements:
os-net-config
heat-config-puppet
puppet-modules
hiera
None of the OpenStack specific TripleO elements
should be used with this approach (the nova/neutron/ceilometer
elements were NOT used to build the compute image).
Also, rather than use neutron-openvswitch-agent to configure
low level networking it is recommended that os-net-config
by configured directly via heat modeling rather than
parameter passing to init-neutron-ovs. This allows us to
configure the physical network while avoiding the coupling to
the neutron-openvswitch-element that our standard
parameter driven networking currently uses. (We still need
to move init-neutron-ovs so that it isn't coupled and/or deprecate
its use entirely because the heat drive stuff is more flexible.)
Packages may optionally be pre-installed via DIB using the
-p option (-p openstack-neutron,openstack-nova).
Change-Id: Ic36be25d70f0a94ca07ffda6e0005669b81c1ac7
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