Pod sequencing functionality for Kubernetes
Go to file
Sergiy Markin ee94fb324f Add docker image build gate
Change-Id: I8f03743fb56f231eb35cad69797ed6a1f58d1fb8
2024-03-22 19:50:13 +00:00
.github Add SECURITY.md 2020-02-20 17:16:42 -06:00
client Add CRD resolution 2019-10-14 16:47:42 -05:00
dependencies Add CRD resolution 2019-10-14 16:47:42 -05:00
doc Create roadmap. 2017-02-10 13:50:19 +01:00
entrypoint Add CRD resolution 2019-10-14 16:47:42 -05:00
logger This is a code-linting refactor 2019-09-30 14:20:43 -05:00
mocks Add CRD resolution 2019-10-14 16:47:42 -05:00
playbooks Add docker image build gate 2024-03-22 19:50:13 +00:00
tools Add proper CI gating 2019-10-04 14:45:04 -05:00
util Add CRD resolution 2019-10-14 16:47:42 -05:00
zuul.d Add docker image build gate 2024-03-22 19:50:13 +00:00
.gitignore Extend functionality of kubernetes-entrypoint with adding namespace per service option. 2017-09-27 12:25:14 +02:00
.gitreview Add .gitreview file 2019-08-06 08:24:01 +02:00
.golangci.yaml Update linter config 2020-05-01 20:48:54 +00:00
AUTHORS Add initial license/contribution files 2016-07-18 18:51:08 +02:00
CONTRIBUTING.md Add initial license/contribution files 2016-07-18 18:51:08 +02:00
DCO Add initial license/contribution files 2016-07-18 18:51:08 +02:00
Dockerfile Add docker image build gate 2024-03-22 19:50:13 +00:00
go.mod Add CRD resolution 2019-10-14 16:47:42 -05:00
go.sum Add CRD resolution 2019-10-14 16:47:42 -05:00
image_tags.py Add docker image build gate 2024-03-22 19:50:13 +00:00
kubernetes-entrypoint.go Add CRD resolution 2019-10-14 16:47:42 -05:00
LICENSE Add initial license/contribution files 2016-07-18 18:51:08 +02:00
Makefile Add docker image build gate 2024-03-22 19:50:13 +00:00
NOTICE Add initial license/contribution files 2016-07-18 18:51:08 +02:00
README.md Update image location 2020-11-19 11:36:31 -06:00

Kubernetes Entrypoint

============

Kubernetes-entrypoint enables complex deployments on top of Kubernetes.

Overview

Kubernetes-entrypoint is meant to be used as a container entrypoint, which means it has to bundled in the container. Before launching the desired application, the entrypoint verifies and waits for all specified dependencies to be met.

Kubernetes-entrypoint queries the Kubernetes API directly, and each container is self-aware of its dependencies and their states. Therefore, no centralized orchestration layer is required to manage deployments, and scenarios (such as failure recovery or pod migration) become easy.

Usage

Kubernetes-entrypoint reads the dependencies out of environment variables passed into a container. There is only one required environment variable COMMAND which specifies a command (arguments delimited by whitespace) which has to be executed when all dependencies are resolved:

COMMAND="sleep inf"

Latest features

Extending functionality of kubernetes-entrypoint by adding an ability to specify dependencies in different namespaces. The new format for writing dependencies is namespace:name, with the exception of pod dependencies (which use JSON). In order to ensure backward compatibility, if namespace is omitted, it is assumed that dependencies are running in the same namespace as kubernetes-entrypoint, just like in previous versions. This feature is not implemented for Container, Config or Socket dependency because the different namespace is irrelevant for those cases.

For instance: DEPENDENCY_SERVICE=mysql:mariadb,keystone-api

The new entrypoint will resolve mariadb in the mysql namespace and keystone-api in the same namespace as kubernetes-entrypoint was deployed in.

Supported types of dependencies

All dependencies are passed as environment variables with the format DEPENDENCY_<NAME>, delimited by a colon. For dependencies to be effective please use readiness probes for all containers.

Service

Checks whether given kubernetes service has at least one endpoint. Example:

DEPENDENCY_SERVICE=mariadb,keystone-api

Container

Within a pod composed of multiple containers, kubernetes-entrypoint waits for the containers specified by their names to start. This dependency requires a POD_NAME environment variable which can be easily passed through the downward api. Example:

DEPENDENCY_CONTAINER=nova-libvirt,virtlogd

Daemonset

Checks if a specified daemonset is already running on the same host This dependency requires a POD_NAME environment variable which can be easily passed through the downward api. The POD_NAME variable is mandatory and is used to resolve dependencies. Example:

DEPENDENCY_DAEMONSET=openvswitch-agent

A simple example of how to use downward API to get POD_NAME can be found here.

Job

Checks if a given job or set of jobs with matching name and/or labels succeeded at least once. In order to use labels, DEPENDENCY_JOBS_JSON must be used. DEPENDENCY_JOBS is supported as well for backward compatibility. Examples:

DEPENDENCY_JOBS_JSON='[{"namespace": "foo", "name": "nova-init"}, {"labels": {"initializes": "neutron"}}]' DEPENDENCY_JOBS=nova-init,neutron-init'

Config

This dependency performs a container level templating of configuration files. It can template an ip address {{ .IP }} and hostname {{ .HOSTNAME }}. Templated config has to be stored in an arbitrary directory /configmaps/<name_of_file>/<name_of_file>. This dependency requires an INTERFACE_NAME environment variable to know which interface to use to obtain the ip address. Example:

DEPENDENCY_CONFIG=/etc/nova/nova.conf

Kubernetes-entrypoint will look for the configuration file /configmaps/nova.conf/nova.conf, template the {{ .IP }} and {{ .HOSTNAME }} tags, and then save the file as /etc/nova/nova.conf.

Socket

Checks whether a given file exists and that the container has rights to read it. Example:

DEPENDENCY_SOCKET=/var/run/openvswitch/ovs.socket

Pod

Checks if at least one pod matching the specified labels is already running, by default anywhere in the cluster, or use "requireSameNode": true to require a pod on the same node. Labels are specified using JSON, as seen in the example below. This dependency requires a POD_NAME env which can be easily passed through the downward api. The POD_NAME variable is mandatory and is used to resolve dependencies. Example:

DEPENDENCY_POD_JSON='[{"namespace": "foo", "labels": {"k1": "v1", "k2": "v2"}}, {"labels": {"k1": "v1", "k2": "v2"}, "requireSameNode": true}]'

Custom Resource

This dependency checks whether an arbitrary key on a given CustomResource matches a desired value. The environment variable DEPENDENCY_CUSTOM_RESOURCE dictates the specific object to watch, as well as the key and its desired value.

For example, suppose you have the following DEPENDENCY_CUSTOM_RESOURCE and CustomResource: DEPENDENCY_CUSTOM_RESOURCE='[{"apiVersion":"stable.example.com/v1","kind":"Foo","namespace":"default","name":"my-foo","fields":[{"key":"spec.arbitrary-key","value":"ready"}]}]'

apiVersion: stable.example.com/v1
kind: Foo
metadata:
  name: my-foo
  namespace: default
spec:
  arbitrary-key: not-ready

Given the above, kubernetes-entrypoint will wait until the value of spec.arbitrary-key has flipped from not-ready to ready.

Note also that fields is a list, meaning that multiple fields can be monitered.

Image

Build process for image is triggered after each commit. Can be found here, and pulled by executing: docker pull quay.io/airshipit/kubernetes-entrypoint:v0.1.0

Examples

OpenStack Helm uses kubernetes-entrypoint to manage dependencies when deploying OpenStack on Kubernetes.