While YAML allow 4 spaces to define a dict, being consistent with two spaces provides clarity for the deployer. Change-Id: Iff2aa15267205a04b58bc0324af5eb26ad937f52
3.9 KiB
Endpoints
The project's goal is to provide a consistent mechanism for endpoints. OpenStack is a highly interconnected application, with various components requiring connectivity details to numerous services, including other OpenStack components and infrastructure elements such as databases, queues, and memcached infrastructure. The project's goal is to ensure that it can provide a consistent mechanism for defining these "endpoints" across all charts and provide the macros necessary to convert those definitions into usable endpoints. The charts should consistently default to building endpoints that assume the operator is leveraging all charts to build their OpenStack cloud. Endpoints should be configurable if an operator would like a chart to work with their existing infrastructure or run elements in different namespaces.
For instance, in the Neutron chart values.yaml
the
following endpoints are defined:
# typically overridden by environmental
# values, but should include all endpoints
# required by this chart
endpoints:
image:
hosts:
default: glance-api
type: image
path: null
scheme: 'http'
port:
api: 9292
registry: 9191
compute:
hosts:
default: nova-api
path: "/v2/%(tenant_id)s"
type: compute
scheme: 'http'
port:
api: 8774
metadata: 8775
novncproxy: 6080
identity:
hosts:
default: keystone-api
path: /v3
type: identity
scheme: 'http'
port:
admin: 35357
public: 5000
network:
hosts:
default: neutron-server
path: null
type: network
scheme: 'http'
port:
api: 9696
These values define all the endpoints that the Neutron chart may need in order to build full URL compatible endpoints to various services. Long-term, these will also include database, memcached, and rabbitmq elements in one place. Essentially, all external connectivity can be be defined centrally.
The macros that help translate these into the actual URLs necessary
are defined in the helm-toolkit
chart. For instance, the
cinder chart defines a glance_api_servers
definition in the
cinder.conf
template:
+glance_api_servers = {{ tuple "image" "internal" "api" . | include "helm-toolkit.endpoint_type_lookup_addr" }}
As an example, this line uses the
endpoint_type_lookup_addr
macro in the
helm-toolkit
chart (since it is used by all charts). Note
that there is a second convention here. All {{ define }}
macros in charts should be pre-fixed with the chart that is defining
them. This allows developers to easily identify the source of a Helm
macro and also avoid namespace collisions. In the example above, the
macro endpoint_type_look_addr
is defined in the
helm-toolkit
chart. This macro is passing three parameters
(aided by the tuple
method built into the go/sprig
templating library used by Helm):
- image: This is the OpenStack service that the endpoint is being
built for. This will be mapped to
glance
which is the image service for OpenStack. - internal: This is the OpenStack endpoint type we are looking for
-valid values would be
internal
,admin
, andpublic
- api: This is the port to map to for the service. Some components,
such as glance, provide an
api
port and aregistry
port, for example.
Charts should not use hard coded values such as
http://keystone-api:5000
because these are not compatible
with operator overrides and do not support spreading components out over
various namespaces.
By default, each endpoint is located in the same namespace as the
current service's helm chart. To connect to a service which is running
in a different Kubernetes namespace, a namespace
can be
provided to each individual endpoint.