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When using network isolation you might want to selective
move one of the services back to the default ctlplane network
by simply using the ServiceNetMap parameter. This patch
adds ctlplane to the output parameters for both
the net_ip_map and net_ip_list_map nested stacks so that
this is possible.
As part of this patch we also split out the NetIpSubnetMap
into its own unique nested stack so that the Heat input
parameters for this stack are more clearly named.
Change-Id: Iaa2dcaebeac896404e87ec0c635688b2a59a9e0f
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Reinstates the heat-admin user via template user-data, which
replaces the previous boothook injected user provided by the
(deprecated now removed) heat instance_user option.
This has some advantages over the heat.conf option, e.g it allows
for much easier customzation of the user configuration (additional
SSH keys, adding groups etc), and also in future if we support
deploying more than one overcloud you could specify a different
user per deployment.
Co-Authored-By: Dan Prince <dprince@redhat.com>
Change-Id: I2235b9690c01542d8a28ec1c1a4607de751aea29
Closes-Bug: #1229849
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This commit provides a way to configure some additional hieradata
for compute nodes. This is similar to the earlier added infra for
supporting Controller pre-deployment extraconfig.
Change-Id: I02dda0685c7df9013693db5eeacb2f47745d05b5
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In 9b89dd20162d962480d3cb84161ed6bfd4fa9de8 we had a regression
where the default "external" traffic port was set to a VIP
when using puppet. We should not ever specify a VIP to be used
for the actual machine IPs (VIPs are only guaranteed to
work once the load balancer is running).
Also, This doesn't match the non-puppet case.
Change-Id: Icd179a70001f2bd7a97e31c7f6445001330674cd
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This change brings PublicVirtualIP in line with the rest of the
VIPs in how it is created. This allows the network where
PublicVirtualIP is instantiated to be on cltplane when network
isolation is not used, and on the external network when network
isolation is used. This change removes the PublicVirtualNetwork
parameter, since it is no longer used. In order to continue to
support the PublicVirtualFixedIPs parameter, which is used to
provide a specific IP for the PublicVirtualIP, the FixedIP
parameter was added to cltplane_vip.yaml, vip.yaml, and
noop.yaml. The value of PublicVirtualIP is passed to FixedIP
in the VIP templates. This change also moves the default
network for keystone public api to the external net (which will
fallback to ctlplane if network isolation isn't used).
Change-Id: I3f5d35cbe55d3a148e95cf49dfbaad4874df960b
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The recently added cinder-netapp extraconfig contains some additional
hieradata which needs to be applied during the initial pre-deployment
phase, e.g in controller-puppet.yaml (before the manifests are applied)
so wire in a new OS::TripleO::ControllerExtraConfigPre provider resource
which allows passing in a nested stack (empty by default) which contains
any required "pre deployment" extraconfig, such as applying this hieradata.
Some changes were required to the cinder-netapp extraconfig and environment
such that now the hieradata is actually applied, and the parameter_defaults
specified will be correctly mapped into the StructuredDeployment.
Change-Id: I8838a71db9447466cc84283b0b257bdb70353ffd
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The redis_vip should come from a Neutron Port as its cidr depends
on the Neutron Network configuration. This change adds 2 new files
and modifies 1 in the network/ports directory:
- noop.yaml - Passes through the ctlplane Controller IP (modified)
- ctlplane_vip.yaml - Creates a new VIP on the control plane
- vip.yaml - Creates a VIP on the named network (for isolated nets)
Also, changes to overcloud-without-mergepy.yaml create the
Redis Virtual IP. The standard resource registry was modified to
use noop.yaml for the new Redis VIP. The Puppet resource registry
was modified to use ctlplane_vip.yaml by default, but can be made
to use vip.yaml when network isolation is used by using an
environment file. vip.yaml will place the VIP according to the
ServiceNetMap, which can also be overridden.
We use this new VIP port definition to assign a VIP to Redis,
but follow-up patches will assign VIPs to the rest of the
services in a similar fashion.
Co-Authored-By: Dan Sneddon <dsneddon@redhat.com>
Change-Id: I2cb44ea7a057c4064d0e1999702623618ee3390c
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This change modifies overcloud-resource-registry-puppet.yaml to
use net-config-noop.yaml as the default os-net-config template
for compute nodes. The current default of net-config-bridge.yaml
will set up a br-ex on the compute nodes. Since we are not using
DVR that is not needed.
Change-Id: I4e149a4f5a6d19e94e8c0245f52677f92f22d3ec
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This change adds config and deployment resources to trigger package
updates on nodes. The deployments are triggered by doing a stack-update
and setting one of the parameters to a unique value.
The intent is that rolling update will be controlled by setting
breakpoints on all of the UpdateDeployment resources inside the
role resource groups.
Change-Id: I56bbf944ecd6cbdbf116021b8a53f9f9111c134f
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Enables support for configuring Cinder with a NetApp backend.
This change adds all relevant parameters for:
- Clustered Data ONTAP (NFS, iSCSI, FC)
- Data ONTAP 7-Mode (NFS, iSCSI, FC)
- E-Series (iSCSI)
Change-Id: If6c6e511ef2d26c4794e3b37c61e5318485ff4db
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This patch adds VIPs for the internal_api, storage,
and storage management networks.
For puppet these are persisted into a local vip-config
hieradata file which is then used by puppet-tripleo's
loadbalancer module to apply per-service VIP settings.
Change-Id: I909c3bdc9d17a8e15351f4797287769e3f76c849
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This patch adds a new NetIpListMap abstraction which we can use
to make the all-nodes-config IP list network assignments
configurable. Ip address lists for all overcloud services
which require IPs were added to all-nodes-config so
that puppet manifests can be directly supplied the
correct network list for each service.
Change-Id: I209f2b4f97a4bb78648c54813dad8615770bcf1a
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This patch makes ServiceNetMap a top level parameter.
This is helpful to tools like Tuskar which don't support Heat
environments that contain both a resource_registry and default_parameters.
ServiceNetMap will in fact be utilized at the top level in some of
the VIP related patches that follow.
Change-Id: I375063dacf5f3fc68e6df93e11c3e88f48aa3c3a
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This change adds parameters to specify which networks the MySQL
service will use. If the internal_api network exists the MySQL
service will bind to the IP address on that network, otherwise
the services will default to the IP on the Undercloud 'ctlplane'
network.
This patch also drop the old 'controller_host' variable from
the puppet controller template since it is no longer in use.
Change-Id: I4fba2c957f7db47e916bc269fb4bd32ccc99bd4c
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This change adds parameters to select the networks for Horizon,
Redis, Rabbit MQ, and memcached services. Horizon is often used for
administration from outside the cloud, so if the external network
exists, Horizon will bind to that IP, otherwise it will default to
the Undercloud 'ctlplane' network. Redis, Rabbit MQ, and memcached
will bind to IPs on the internal_api network if it exists, else
they will default to the 'ctlplane' network as well. Any of these
network assignments can be overridden with an environment file.
Change-Id: Ie0aa46b4a3c00d3826866796b4ec3b14f71f987c
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This change adds paramters to specify which networks the Swift API
services will use. If the storage network exists, it will be used
for the Swift API, otherwise the Undercloud 'ctlplane' network will
be used. If the storage_mgmt network exists, it will be used for
the back-end storage services, otherwise the 'ctlplane' will be
used by default.
Change-Id: I1d5e966a16416c52935c22efe2d4783cd2192c32
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This change adds parameters to specify which networks the Nova API and
metadata services will use. If the internal_api network exists, it will be
used for the bind IP for Nova API and metadata servers, otherwise the
Undercloud 'ctlplane' IP will be used by default.
Change-Id: Ie420274c7fba80abf9cf2b599431acc47e28fc7a
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This change adds parameters to specify which networks the Heat services
will use. If the internal_api network exists, the Heat API, Heat Cloud
Formations, and Heat Cloudwatch services will bind to the IP address on
that network, otherwise the services will default to the IP on the
Undercloud 'ctlplane' network.
Change-Id: I5febe1b9071600b43fa76c6cf415db83cad472ab
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This change adds parameters to specify which network the Neutron API should
use. If the internal_api network exists, Neutron will bind to the IP on that
network, otherwise the Undercloud 'ctlplane' network will be used. The
network that the Neutron API is bound to can be overridden in an environment
file.
Change-Id: I11bcebba3a22e8850095250a2ddfaf972339476b
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This change adds parameters to specify which networks the Keystone API
services will use. If the external network exists, Keystone will bind to
the IP on that network for the public API, otherwise it will default to
the IP on the Undercloud 'ctlplane' network. If the internal_api network
exists it will be used for the Keystone Admin API, otherwise it will
default to the 'ctlplane' IP. The networks these APIs are bound to can
be overridden in an environment file.
Change-Id: I6694ef6ca3b9b7afbde5d4f9d173723b9ce71b20
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This change adds parameters to specify which networks the Glance services
will use. If the internal_api network exists, Glance Registry will bind
to the IP on that network, otherwise it will default to the Undercloud
'ctlplane' network. If the storage network exists, Glance API will bind
to the IP on that network, otherwise it will default to 'ctlplane'. The
networks that these services use can be overridden with an environment
file.
Change-Id: I6114b2d898c5a0ba4cdb26a3da2dbf669666ba99
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This change adds parameters to specify which networks the Cinder API and
Cinder iSCSI services will listen on. If the internal_api network exists,
Cinder API will be bound to the IP on that network, otherwise it will
default to the Undercloud 'ctlplane' network. The Cinder iSCSI service will
bind to the storage network if it exists, otherwise will also default to
using the Undercloud 'ctlplane' network.
Change-Id: I98149f108baf28d46eb199b69a72d0f6914486fd
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This change adds the parameters to specify which networks the Ceilometer
and MongoDB servers listen on. It is set to the internal_api network if
present, and reverts to the default Undercloud 'ctlplane' network if not.
Change-Id: Ib646e4a34496966f9b1d454f04d07bf95543517f
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This patch uses the new NetIpMap and ServiceMap abstractions
to assign the Neutron tenant tunneling network addresses.
By default this is associated with the tenant network. If no
tenant network is activated this will still default to
the control plane IP address.
Change-Id: I9db7dd0c282af4e5f24947f31da2b89f231e6ae4
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This patch adds a resource which constructs a Json output
parameter called net_ip_map which will allow us to easily
extract arbitrary IP addresses for each network using the
get_attr function in heat.
The goal is to use this data construct in each role
template to obtain the correct IP address on each
network.
Change-Id: I1a8c382651f8096f606ad38f78bbd76314fbae5f
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This patch updates the cinder block storage roles so that
they can optionally make use of isolated network
ports on the storage, storage management, and internal_api
networks.
-Multiple networks are created based upon settings in the heat
resource registry. These nets will either use the noop network (the
control plane pass-thru default) or create a custom Neutron port on
each of the configured networks.
-The ipaddress/subnet of each network is passed passed into the
NetworkConfig resource which drives os-net-config. This allows the
deployer to define a custom network template for static IPs, etc
on each of the networks.
-The ipaddress is exposed as an output parameter. By exposing
the individual addresses as outputs we allow Heat to construct
collections of ports for various services.
Change-Id: I4e18cd4763455f815a8f8b82c93a598c99cc3842
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This patch updates the swift roles so that
they can optionally make use of isolated network
ports on the storage, storage management, and internal API
networks.
-Multiple networks are created based upon settings in the heat
resource registry. These nets will either use the noop network (the
control plane pass-thru default) or create a custom Neutron port on
each of the configured networks.
-The ipaddress/subnet of each network is passed passed into the
NetworkConfig resource which drives os-net-config. This allows the
deployer to define a custom network template for static IPs, etc
on each of the networks.
-The ipaddress is exposed as an output parameter. By exposing
the individual addresses as outputs we allow Heat to construct
collections of ports for various services.
Change-Id: I9984404331705f6ce569fb54a38b2838a8142faa
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This patch updates the ceph roles so that
they can optionally make use of isolated network
ports on the storage and storage management networks.
-Multiple networks are created based upon settings in the heat
resource registry. These nets will either use the noop network (the
control plane pass-thru default) or create a custom Neutron port on
each of the configured networks.
-The ipaddress/subnet of each network is passed passed into the
NetworkConfig resource which drives os-net-config. This allows the
deployer to define a custom network template for static IPs, etc
on each of the networks.
-The ipaddress is exposed as an output parameter. By exposing
the individual addresses as outputs we allow Heat to construct
collections of ports for various services.
Change-Id: I35cb8e7812202f8a7bc0379067bf33d483cd2aec
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This patch updates the compute roles so that
they can optionally make use of isolated network
ports on the tenant, storage, and internal_api networks.
-Multiple networks are created based upon settings in the heat
resource registry. These nets will either use the noop network (the
control plane pass-thru default) or create a custom Neutron port on
each of the configured networks.
-The ipaddress/subnet of each network is passed passed into the
NetworkConfig resource which drives os-net-config. This allows the
deployer to define a custom network template for static IPs, etc
on each of the networks.
-The ipaddress is exposed as an output parameter. By exposing
the individual addresses as outputs we allow Heat to construct
collections of ports for various services.
Change-Id: Ib07b4b7256ede7fb47ecc4eb5abe64b9144b9aa1
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This patch updates the controller roles so that
they can optionally make use of isolated network
ports on each of 5 available overcloud networks.
-Multiple networks are created based upon settings in the heat
resource registry. These nets will either use the noop network (the
control plane pass-thru default) or create a custom Neutron port on
each of the configured networks.
-The ipaddress/subnet of each network is passed passed into the
NetworkConfig resource which drives os-net-config. This allows the
deployer to define a custom network template for static IPs, etc
on each of the networks.
-The ipaddress is exposed as an output parameter. By exposing
the individual addresses as outputs we allow Heat to construct
collections of ports for various services.
Change-Id: I9bbd6c8f5b9697ab605bcdb5f84280bed74a8d66
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This patch enables uses to selectively enable the creation
of split out networks for the overcloud traffic. These
networks will be created on the undercloud's neutron
instance.
By default a noop network is used so that no extra networks
are created. This allows our default to continue being
all traffic on the control plane.
Change-Id: Ied49d9458c2d94e9d8e7d760d5b2d971c7c7ed2d
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This patch adds support for using the Heat resource registry
so that end users can enable pacemaker. Using this approach
allows us to isolate all of the pacemaker logic for the
controller in a single template rather than use conditionals
for every service that must support it.
Change-Id: Ibefb80d0d8f98404133e4c31cf078d729b64dac3
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This change allows a different network config for each family of hosts. For
instance, the controller may have a different network configuration than a
block storage node. This change adds a declaration for each family in the
overcloud-resource-registry.yaml & overcloud-resource-registry-puppet.yaml.
Change-Id: I083df7ebbb535f97d8ddec2ac0e06281c55986cd
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Adds optional hooks which can run operator defined additional config on
nodes after the application deployment has completed.
Change-Id: I3f99e648efad82ce2cd51e2d5168c716f0cee8fe
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Currently all the OS::Nova::Server resource created don't pass any
user-data. It's possible to pass user-data as well as using heat
SoftwareConfig/SoftwareDeployment resources, and this can be useful
when you have simple "first boot" tasks which are possible either via
cloud-init, or via simple run-once scripts.
This enables passing such data by implementing a new provider resource
OS::TripleO::NodeUserData, which defaults to passing an empty mime
archive (thus it's a no-op). An example of non no-op usage is also
provided.
Change-Id: Id0caba69768630e3a10439ba1fc2547a609c0cfe
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Also, we can actually uncomment this now that heatclient 0.3
has been released.
Change-Id: I0b4ce13f1426c364ea7921596022e5165e025fdb
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This is a first implementation of Ceph support in TripleO with Puppet:
* Install ceph-mon on controller node
* Install ceph-osd on cephstorage node
Co-Authored-By: Giulio Fidente <gfidente@redhat.com>
Change-Id: I48488cbe950047fae5e746e458106d6edb9a6183
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This patch adds a new BlockStoreNodesPostDeployment resource
which can be used along with the environment file to
specify a nested stack which is guaranteed to execute
after all the BlockStore config deployments have executed.
This is really useful for Puppet in that Heat actually
controls where puppet executes in the deployment
process and we want to ensure puppet runs after
all hiera configuration data has be deployed to
the nodes. With the previous approach some of the
data would be there, but allNodes data would not be
guaranteed to be there in time.
As os-apply-config (tripleo-image-elements) have their
ordering controlled within the elements themselves an empty stubbed
in nested stack has been added so that we don't break that
implementation.
Change-Id: I29b3574e341eecd53b2867788f415bff153cfa9f
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This patch adds a new ObjectStoreNodesPostDeployment resource
which can be used along with the environment file to
specify a nested stack which is guaranteed to execute
after all the ObjectStore config deployments have executed.
This is really useful for Puppet in that Heat actually
controls where puppet executes in the deployment
process and we want to ensure puppet runs after
all hiera configuration data has be deployed to
the nodes. With the previous approach some of the
data would be there, but allNodes data would not be
guaranteed to be there in time.
As os-apply-config (tripleo-image-elements) have their
ordering controlled within the elements themselves an empty stubbed
in nested stack has been added so that we don't break that
implementation.
Change-Id: I778b87a17d5e6824233fdf9957c76549c36b3f78
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This patch adds a new ComputeNodesPostDeployment resource
which can be used along with the environment file to
specify a nested stack which is guaranteed to execute
after all the Compute config deployments have executed.
This is really useful for Puppet in that Heat actually
controls where puppet executes in the deployment
process and we want to ensure puppet runs after
all hiera configuration data has be deployed to
the nodes. With the previous approach some of the
data would be there, but allNodes data would not be
guaranteed to be there in time.
As os-apply-config (tripleo-image-elements) have their
ordering controlled within the elements themselves an empty stubbed
in nested stack has been added so that we don't break that
implementation.
Change-Id: I80bccd692e45393f8250607073d1fe7beb0d7396
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This patch splits out the BootstrapNode config
such that alternate implementation (puppet for example)
can implement their own SoftwareConfig's via a nested stack.
This is controlled by the standard overcloud heat environment.
For os-apply-config deployments the implementation should work the
same as before.
For puppet deployments the implementation uses hiera metadata
to configure bootstrap_nodeid.
Change-Id: I691a9d7c474866038a5d47beab295899b5479d03
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This patch splits out the allNodesConfig config
such that alternate implementation (puppet for example)
can implement their own SoftwareConfig's via a nested stack.
This is controlled by the standard overcloud heat environment.
For os-apply-config deployments the implementation should work the
same as before.
For puppet deployments the implementation uses hiera metadata
to configure rabbit_nodes. The puppet deployment doesn't support
hosts, or freeform sysctl metadata yet so those are the same
for now as well.
Change-Id: I34ae30b1f37aca8b39586f7e350511462d66f694
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This patch splits out the SwiftDevicesAndProxy config
such that alternate implementation (puppet for example)
can implement their own SoftwareConfig's via a nested stack.
This is controlled by the standard overcloud heat environment.
For os-apply-config deployments the implementation should work the
same as before.
For puppet deployments the implementation uses hiera metadata
to configure swift devices.
Partial-bug: 1418805
Change-Id: Ibf6038460f36279ad51a04947589d4a03a553f66
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This patch adds a new ControllerNodesPostDeployment resource
which can be used along with the environment file to
specify a nested stack which is guaranteed to execute
after all the Controller config (HA, or other) have
executed.
This is really useful for Puppet in that Heat actually
controls where puppet executes in the deployment
process and we want to ensure puppet runs after
all hiera configuration data has be deployed to
the nodes. With the previous approach some of the
data would be there, but most of the HA data which
actually gets composed outside of the controller-puppet.yaml
nested stack would not be guaranteed to be there in time.
As os-apply-config (tripleo-image-elements) have their
ordering controlled within the elements themselves an empty stubbed
in nested stack has been added so that we don't break that
implementation.
Partial-bug: 1418805
Change-Id: Icd6b2c9c1f9b057c28649ee3bdce0039f3fd8422
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This cleans up the top level tree by moving all the puppet
related bits into the puppet directory. The only exception
is overcloud-resource-registry-puppet.yaml which is
the puppet environment file and is used externally.
Change-Id: Idb65a7143b0f29e5579d4e9d1642e4cda6f65d50
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The new ceph-source.yaml file provides the config settings needed
by the elements which configure Ceph on controllers (monitors) and
storage nodes (OSDs) as well as the Cinder backend which uses it.
There is also a without-mergepy copy named ceph-storage.yaml
Change-Id: I954861536c41b2a7e6cbd86a0f0b55004eed4c70
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