Hi All,
I was wondering if the time has come to document what exactly are we
doing with tripleo-heat-templates and merge.py[1], figure out what needs
to happen to move away and raise the necessary blueprints on Heat and
TripleO side.
(merge.py is a script we use to build the final TripleO Heat templates
from smaller chunks)
There probably isn't an immediate need for us to drop merge.py, but its
existence either indicates deficiencies within Heat or our unfamiliarity
with some of Heat's features (possibly both).
I worry that the longer we stay with merge.py the harder it will be to
move forward. We're still adding new features and fixing bugs in it (at
a slow pace but still).
Below is my understanding of the main marge.py functionality and a rough
plan of what I think might be a good direction to move to. It is almost
certainly incomplete -- please do poke holes in this. I'm hoping we'll
get to a point where everyone's clear on what exactly merge.py does and
why. We can then document that and raise the appropriate blueprints.
## merge.py features ##
1. Merging parameters and resources
Any uniquely-named parameters and resources from multiple templates are
put together into the final template.
If a resource of the same name is in multiple templates, an error is
raised. Unless it's of a whitelisted type (nova server, launch
configuration, etc.) in which case they're all merged into a single
resource.
For example: merge.py overcloud-source.yaml swift-source.yaml
The final template has all the parameters from both. Moreover, these two
resources will be joined together:
#### overcloud-source.yaml ####
notCompute0Config:
Type: AWS::AutoScaling::LaunchConfiguration
Properties:
ImageId: '0'
InstanceType: '0'
Metadata:
admin-password: {Ref: AdminPassword}
admin-token: {Ref: AdminToken}
bootstack:
public_interface_ip:
Ref: NeutronPublicInterfaceIP
#### swift-source.yaml ####
notCompute0Config:
Type: AWS::AutoScaling::LaunchConfiguration
Metadata:
swift:
devices:
...
hash: {Ref: SwiftHashSuffix}
service-password: {Ref: SwiftPassword}
The final template will contain:
notCompute0Config:
Type: AWS::AutoScaling::LaunchConfiguration
Properties:
ImageId: '0'
InstanceType: '0'
Metadata:
admin-password: {Ref: AdminPassword}
admin-token: {Ref: AdminToken}
bootstack:
public_interface_ip:
Ref: NeutronPublicInterfaceIP
swift:
devices:
...
hash: {Ref: SwiftHashSuffix}
service-password: {Ref: SwiftPassword}
We use this to keep the templates more manageable (instead of having one
huge file) and also to be able to pick the components we want: instead
of `undercloud-bm-source.yaml` we can pick `undercloud-vm-source` (which
uses the VirtualPowerManager driver) or `ironic-vm-source`.
2. FileInclude
If you have a pseudo resource with the type of `FileInclude`, we will
look at the specified Path and SubKey and put the resulting dictionary in:
#### overcloud-source.yaml ####
NovaCompute0Config:
Type: FileInclude
Path: nova-compute-instance.yaml
SubKey: Resources.NovaCompute0Config
Parameters:
NeutronNetworkType: "gre"
NeutronEnableTunnelling: "True"
#### nova-compute-instance.yaml ####
NovaCompute0Config:
Type: AWS::AutoScaling::LaunchConfiguration
Properties:
InstanceType: '0'
ImageId: '0'
Metadata:
keystone:
host: {Ref: KeystoneHost}
neutron:
host: {Ref: NeutronHost}
tenant_network_type: {Ref: NeutronNetworkType}
network_vlan_ranges: {Ref: NeutronNetworkVLANRanges}
bridge_mappings: {Ref: NeutronBridgeMappings}
enable_tunneling: {Ref: NeutronEnableTunnelling}
physical_bridge: {Ref: NeutronPhysicalBridge}
public_interface: {Ref: NeutronPublicInterface}
service-password:
Ref: NeutronPassword
admin-password: {Ref: AdminPassword}
The result:
NovaCompute0Config:
Type: AWS::AutoScaling::LaunchConfiguration
Properties:
InstanceType: '0'
ImageId: '0'
Metadata:
keystone:
host: {Ref: KeystoneHost}
neutron:
host: {Ref: NeutronHost}
tenant_network_type: "gre"
network_vlan_ranges: {Ref: NeutronNetworkVLANRanges}
bridge_mappings: {Ref: NeutronBridgeMappings}
enable_tunneling: "True"
physical_bridge: {Ref: NeutronPhysicalBridge}
public_interface: {Ref: NeutronPublicInterface}
service-password:
Ref: NeutronPassword
admin-password: {Ref: AdminPassword}
Note the `NeutronNetworkType` and `NeutronEnableTunneling` parameter
substitution.
This is useful when you want to pick only bits and pieces of an existing
template. In the example above, `nova-compute-instance.yaml` is a
standalone template you can launch on its own. But when launching the
overcloud, you don't want to merge nova-compute-instance wholesale. All
you want is the NovaCompute0Config resource plus a few others.
I admit I'm not entirely clear on how/why do we need this, though.
FileInclude is being used just for the overcloud nova compute resources
(server, config, waitcondition, etc.).
The undercloud as well as the additional overcloud resources (swift,
block storage) seem get by without FileInclude.
3. OpenStack::Role metadata key
I'm not sure what this does or why would we need it. The Ironic
templates used it but it was removed because they were broken.
Right now it's used in `tuskar-source.yaml` and `undercloud-source.yaml`
only.
4. OpenStack::ImageBuilder::Elements metadata key
Again, this seems to receive custom handling by merge.py, but I'm
unclear as to why.
5. Scaling
We can mark resources in a Heat template as scalable by giving them the
'0' suffix. We can then use the `--scale` parameter to make copies of these:
SwiftStorage0CompletionHandle:
Type: AWS::CloudFormation::WaitConditionHandle
SwiftStorage0:
Type: OS::Nova::Server
Properties:
image:
{Ref: SwiftStorageImage}
flavor: {Ref: OvercloudSwiftStorageFlavor}
key_name: {Ref: KeyName}
...
$ merge.py swift-storage-source.yaml --scale SwiftStorage=2
result:
SwiftStorage0CompletionHandle:
Type: AWS::CloudFormation::WaitConditionHandle
SwiftStorage0:
Type: OS::Nova::Server
Properties:
image:
{Ref: SwiftStorageImage}
flavor: {Ref: OvercloudSwiftStorageFlavor}
key_name: {Ref: KeyName}
...
SwiftStorage1CompletionHandle:
Type: AWS::CloudFormation::WaitConditionHandle
SwiftStorage1:
Type: OS::Nova::Server
Properties:
image:
{Ref: SwiftStorageImage}
flavor: {Ref: OvercloudSwiftStorageFlavor}
key_name: {Ref: KeyName}
...
This seems rather close to what OS::Heat::ResourceGroup[2] does. Can we
just switch to using that instead? I seem to remember reading something
about the order of deleted resources of being wrong for our purposes.
Is that correct? What are the specifics?
6. Merge::Map helper function
Returns the list of values from a dictionary given as a parameter.
I'm assuming this would be great to have, but isn't blocking us from
moving to native Heat templates.
Clint sent a proposal of this to the Heat developers but it went largely
unanswered. Perhaps we could revisit it?
7-... Whatever I've missed!
(here's where you get to point out my vast ignorance)
## a vision of a world without merge.py ##
Seems to me provider resources ought be able to handle the composability
side of things (while still allowing us to use them as standalone
templates) and resource groups should handle the scaling.
We could keep roughly the same structure: a separate template for each
OpenStack service (compute, block storage, object storage, ironic, nova
baremetal). We would then use Heat environments to treat each of these
templates as a custom resource (e.g. OS::TripleO::Nova,
OS::TripleO::Swift, etc.).
Our overcloud and undercloud templates would then reference all these
each wrapped in a ResourceGroup or a more sophisticated scaling mechanism.
## tangential but nice to have stuff ##
* move to HOT
- It's where any new syntax extensions will happen
* move to Software Config
- Clint has a WIP patch:
- https://review.openstack.org/#/c/81666/
What have I missed and what are your thoughts?
Tomas
[1]:
https://github.com/openstack/tripleo-heat-templates/blob/master/tripleo_heat_merge/merge.py
[2]:
http://docs.openstack.org/developer/heat/template_guide/openstack.html#OS::Heat::ResourceGroup
[3]:
http://docs.openstack.org/developer/heat/template_guide/environment.html
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