Updating DevRef docs

Removing superfluous documentation as well as moving changing doc structure to better reflect contents of documentation. Change-Id: I6fa798b9c6fc542ef05c954acae8641f69f5cb2b
2017-07-03 15:01:25 -05:00 · 2017-07-03 15:01:25 -05:00 · f7ce1912f7
commit f7ce1912f7
parent 7bc3d6d5fe
12 changed files with 9 additions and 325 deletions
--- a/doc/source/devref/getting-started/endpoints.rst
+++ b/doc/source/devref/getting-started/endpoints.rst
--- a/doc/source/devref/getting-started/conditionals.rst
+++ b/doc/source/devref/getting-started/conditionals.rst
@ -1,38 +0,0 @@
 Common Conditionals
 -------------------
 The OpenStack-Helm charts make the following conditions available across
 all charts, which can be set at install or upgrade time with Helm below.
 Developer Mode
 ~~~~~~~~~~~~~~
 ::
    helm install local/chart --set development.enabled=true
 The development mode flag should be used by any charts that should
 behave differently on a developer's laptop than in a production-like deployment,
 or have resources that would be difficult to spin up in a small environment.
 A chart could for instance define the following ``development:``
 override to set ``foo`` to ``bar`` in a dev environment, which
 would be triggered by setting the ``enabled`` flag to ``true``.
 ::
    development:
      enabled: false
      foo: bar
 Resources
 ~~~~~~~~~
 ::
    helm install local/chart --set resources.enabled=true
 Resource limits/requirements can be turned on and off. By default, they
 are off. Setting this enabled to ``true`` will deploy Kubernetes
 resources with resource requirements and limits.
--- a/doc/source/devref/getting-started/index.rst
+++ b/doc/source/devref/getting-started/index.rst
@ -1,18 +0,0 @@
 Getting started
 ===============
 Contents:
 .. toctree::
   :maxdepth: 2
   values
   overrides
   pod-disruption-budgets
   replicas
   images
   resources
   labels
   endpoints
   upgrades
   conditionals
--- a/doc/source/devref/getting-started/labels.rst
+++ b/doc/source/devref/getting-started/labels.rst
@ -1,102 +0,0 @@
 Labels
 ------
 This project uses ``nodeSelectors`` as well as ``podAntiAffinity`` rules
 to ensure resources land in the proper place within Kubernetes. Today,
 OpenStack-Helm employs four labels:
 -  ceph-storage: enabled
 -  openstack-control-plane: enabled
 -  openstack-compute-node: enabled
 -  openvswitch: enabled
 NOTE: The ``openvswitch`` label is an element that is applicable to both
 ``openstack-control-plane`` as well as ``openstack-compute-node`` nodes.
 Ideally, you would eliminate the ``openvswitch`` label if you could
 simply do an OR of (``openstack-control-plane`` and
 ``openstack-compute-node``). However, Kubernetes ``nodeSelectors``
 prohibits this specific logic. As a result of this, a third label that
 spans all hosts is required, which in this case is ``openvswitch``. The
 Open vSwitch service must run on both control plane and tenant nodes
 with both labels to provide connectivity for DHCP, L3, and Metadata
 services. These Open vSwitch services run as part of the control plane
 as well as tenant connectivity, which runs as part of the compute node
 infrastructure.
 Labels are of course definable and overridable by the chart operators.
 Labels are defined in charts by using a ``labels:`` section, which is a
 common convention that defines both a selector and a value:
 ::
    labels:
      node_selector_key: openstack-control-plane
      node_selector_value: enabled
 In some cases, such as with the Neutron chart, a chart may need to
 define more then one label. In cases such as this, each element should
 be articulated under the ``labels:`` section, nesting where appropriate:
 ::
    labels:
      # ovs is a special case, requiring a special
      # label that can apply to both control hosts
      # and compute hosts, until we get more sophisticated
      # with our daemonset scheduling
      ovs:
          node_selector_key: openvswitch
          node_selector_value: enabled
      agent:
        dhcp:
          node_selector_key: openstack-control-plane
          node_selector_value: enabled
        l3:
          node_selector_key: openstack-control-plane
          node_selector_value: enabled
        metadata:
          node_selector_key: openstack-control-plane
          node_selector_value: enabled
      server:
        node_selector_key: openstack-control-plane
        node_selector_value: enabled
 These labels should be leveraged by ``nodeSelector`` definitions in
 charts for all resources, including jobs:
 ::
        ...
        spec:
          nodeSelector:
            {{ .Values.labels.node_selector_key }}: {{ .Values.labels.node_selector_value }}
        containers:
        ...
 In some cases, especially with infrastructure components, it is
 necessary for the chart developer to provide scheduling instruction to
 Kubernetes to help ensure proper resiliency. The most common examples
 employed today are podAntiAffinity rules, such as those used in the
 ``mariadb`` chart. These should be placed on all foundational elements
 so that Kubernetes will not only disperse resources for resiliency, but
 also allow multi-replica installations to deploy successfully into a
 single host environment:
 ::
      # alanmeadows: this soft requirement allows single
      # host deployments to spawn several mariadb containers
      # but in a larger environment, would attempt to spread
      # them out
      affinity:
        podAntiAffinity:
          preferredDuringSchedulingIgnoredDuringExecution:
          - podAffinityTerm:
              labelSelector:
                matchExpressions:
                - key: app
                  operator: In
                  values: ["mariadb"]
              topologyKey: kubernetes.io/hostname
            weight: 10
--- a/doc/source/devref/getting-started/overrides.rst
+++ b/doc/source/devref/getting-started/overrides.rst
@ -1,6 +0,0 @@
 Chart Overrides
 ===============
 This document covers Helm overrides and the OpenStack-Helm approach. For
 more information on Helm overrides in general see the Helm `Values
 Documentation <https://github.com/kubernetes/helm/blob/master/docs/charts.md#values-files>`__
--- a/doc/source/devref/getting-started/replicas.rst
+++ b/doc/source/devref/getting-started/replicas.rst
@ -1,31 +0,0 @@
 Replicas
 --------
 All charts must provide replica definitions and leverage those in the
 Kubernetes manifests. This allows site operators to tune the replica
 counts at install or when upgrading. Each chart should deploy with
 multiple replicas by default to ensure that production deployments are
 treated as first class citizens, and that services are tested with
 multiple replicas more frequently during development and testing.
 Developers wishing to deploy minimal environments can enable the
 ``development`` mode override, which should enforce only one replica per
 component.
 The convention today in OpenStack-Helm is to define a ``replicas:``
 section for the chart, where each component being deployed has its own
 tunable value.
 For example, the ``glance`` chart provides the following replicas in
 ``values.yaml``
 ::
    replicas:
      api: 2
      registry: 2
 An operator can override these on ``install`` or ``upgrade``:
 ::
    $ helm install local/glance --set replicas.api=3,replicas.registry=3
--- a/doc/source/devref/getting-started/resources.rst
+++ b/doc/source/devref/getting-started/resources.rst
@ -1,62 +0,0 @@
 Resource Limits
 ---------------
 Resource limits should be defined for all charts within OpenStack-Helm.
 The convention is to leverage a ``resources:`` section within
 values.yaml by using an ``enabled`` setting that defaults to ``false``
 but can be turned on by the operator at install or upgrade time.
 The resources specify the requests (memory and cpu) and limits (memory
 and cpu) for each deployed resource. For example, from the Nova chart
 ``values.yaml``:
 ::
    resources:
      enabled: false
      nova_compute:
        requests:
          memory: "124Mi"
          cpu: "100m"
        limits:
          memory: "1024Mi"
          cpu: "2000m"
      nova_libvirt:
        requests:
          memory: "124Mi"
          cpu: "100m"
        limits:
          memory: "1024Mi"
          cpu: "2000m"
      nova_api_metadata:
        requests:
          memory: "124Mi"
          cpu: "100m"
        limits:
          memory: "1024Mi"
          cpu: "2000m"
    ...
 These resources definitions are then applied to the appropriate
 component when the ``enabled`` flag is set. For instance, the following
 nova\_compute daemonset has the requests and limits values applied from
 ``.Values.resources.nova_compute``:
 ::
              {{- if .Values.resources.enabled }}
              resources:
                requests:
                  memory: {{ .Values.resources.nova_compute.requests.memory | quote }}
                  cpu: {{ .Values.resources.nova_compute.requests.cpu | quote }}
                limits:
                  memory: {{ .Values.resources.nova_compute.limits.memory | quote }}
                  cpu: {{ .Values.resources.nova_compute.limits.cpu | quote }}
              {{- end }}
 When a chart developer doesn't know what resource limits or requests to
 apply to a new component, they can deploy the component locally and
 examine resource utilization using tools like WeaveScope. The resource
 limits may not be perfect on initial submission, but over time and with
 community contributions, they can be refined to reflect reality.
--- a/doc/source/devref/getting-started/values.rst
+++ b/doc/source/devref/getting-started/values.rst
@ -1,53 +0,0 @@
 Default Values
 --------------
 Two major philosophies guide the OpenStack-Helm values approach. It is
 important that new chart developers understand the ``values.yaml``
 approach OpenStack-Helm has within each of its charts to ensure that all
 charts are both consistent and remain a joy to work with.
 The first philosophy to understand is that all charts should be
 independently installable and should not require a parent chart. This
 means that the values file in each chart should be self-contained. The
 project avoids using Helm globals and parent charts as requirements for
 capturing and feeding environment specific overrides into subcharts. An
 example of a single site definition YAML that can be source controlled
 and used as ``--values`` input to all OpenStack-Helm charts to maintain
 overrides in one testable place is forthcoming. Currently Helm does not
 support a ``--values=environment.yaml`` chunking up a larger override
 file's YAML namespace. Ideally, the project seeks native Helm support
 for ``helm install local/keystone --values=environment.yaml:keystone``
 where ``environment.yaml`` is the operator's chart-wide environment
 definition and ``keystone`` is the section in environment.yaml that will
 be fed to the keystone chart during install as overrides. Standard YAML
 anchors can be used to duplicate common elements like the ``endpoints``
 sections. At the time of writing, operators can use a temporary approach
 like
 `values.py <https://github.com/att-comdev/openstack-helm/blob/master/helm-toolkit/utils/values/values.py>`__
 to chunk up a single override YAML file as input to various individual
 charts. Overrides, just like the templates themselves, should be source
 controlled and tested, especially for operators operating charts at
 scale. This project will continue to examine efforts such as
 `helm-value-store <https://github.com/skuid/helm-value-store>`__ and
 solutions in the vein of
 `helmfile <https://github.com/roboll/helmfile>`__. Another compelling
 project that seems to address the needs of orchestrating multiple charts
 and managing site specific overrides is
 `Landscape <https://github.com/Eneco/landscaper>`__
 The second philosophy is that the values files should be consistent
 across all charts, including charts in core, infra, and add-ons. This
 provides a consistent way for operators to override settings, such as
 enabling developer mode, defining resource limitations, and customizing
 the actual OpenStack configuration within chart templates without having
 to guess how a particular chart developer has laid out their
 values.yaml. There are also various macros in the ``helm-toolkit`` chart
 that will depend on the ``values.yaml`` within all charts being
 structured a certain way.
 Finally, where charts reference connectivity information for other
 services sane defaults should be provided. In cases where these services
 are provided by OpenStack-Helm itself, the defaults should assume that
 the user will use the OpenStack-Helm charts for those services, but
 should also allow those charts to be overridden if the operator has them
 externally deployed.
--- a/doc/source/devref/getting-started/images.rst
+++ b/doc/source/devref/getting-started/images.rst
--- a/doc/source/devref/index.rst
+++ b/doc/source/devref/index.rst
@ -1,9 +1,12 @@
-Helm development
+Developer References
-================
+====================
 Contents:
 .. toctree::
   :maxdepth: 2
-   getting-started/index
+   pod-disruption-budgets
   images
   endpoints
   upgrades
--- a/doc/source/devref/getting-started/pod-disruption-budgets.rst
+++ b/doc/source/devref/getting-started/pod-disruption-budgets.rst
@ -1,15 +1,6 @@
 =====================
 Kubernetes Operations
 =====================
 Init-Containers
 ===============
 Jobs
 ====
 Pod Disruption Budgets
-======================
+----------------------
 OpenStack-Helm leverages PodDistruptionBudgets to enforce quotas
 that ensure that a certain number of replicas of a pod are available
 at any given time.  This is particularly important in the case when a Kubernetes
--- a/doc/source/devref/getting-started/upgrades.rst
+++ b/doc/source/devref/getting-started/upgrades.rst