/kitchen-docker

A Test Kitchen Driver for Docker

Primary LanguageRubyApache License 2.0Apache-2.0

Kitchen-Docker

Build Status Gem Version Coverage License

A Test Kitchen Driver and Transport for Docker.

Requirements

Installation and Setup

Please read the Test Kitchen docs for more details.

Example (Linux) .kitchen.local.yml:

---
driver:
  name: docker
  env_variables:
    TEST_KEY: TEST_VALUE
    
platforms:
- name: ubuntu
  run_list:
  - recipe[apt]
- name: centos
  driver_config:
    image: centos
    platform: rhel
  run_list:
  - recipe[yum]

transport:
  name: docker

Example (Windows) .kitchen.local.yml:

---
driver:
  name: docker

platforms:
- name: windows
  driver_config:
    image: mcr.microsoft.com/windows/servercore:1607
    platform: windows
  run_list:
  - recipe[chef_client]

transport:
  name: docker
  env_variables:
    TEST_KEY: TEST_VALUE

Default Configuration

This driver can determine an image and platform type for a select number of platforms.

Examples:

---
platforms:
- name: ubuntu-18.04
- name: centos-7

This will effectively generate a configuration similar to:

---
platforms:
- name: ubuntu-18.04
  driver_config:
    image: ubuntu:18.04
    platform: ubuntu
- name: centos-7
  driver_config:
    image: centos:7
    platform: centos

Configuration

binary

The Docker binary to use.

The default value is docker.

Examples:

  binary: docker.io
  binary: /opt/docker

socket

The Docker daemon socket to use. By default, Docker will listen on unix:///var/run/docker.sock (On Windows, npipe:////./pipe/docker_engine), and no configuration here is required. If Docker is binding to another host/port or Unix socket, you will need to set this option. If a TCP socket is set, its host will be used for SSH access to suite containers.

Examples:

  socket: unix:///tmp/docker.sock
  socket: tcp://docker.example.com:4242

If you are using the InSpec verifier on Windows, using named pipes for the Docker engine will not work with the Docker transport. Set the socket option with the TCP socket address of the Docker engine as shown below:

socket: tcp://localhost:2375

The Docker engine must be configured to listen on a TCP port (default port is 2375). This can be configured by editing the configuration file (usually located in C:\ProgramData\docker\config\daemon.json) and adding the hosts value:

"hosts": ["tcp://0.0.0.0:2375"]

Example configuration is shown below:

{
  "registry-mirrors": [],
  "insecure-registries": [],
  "debug": true,
  "experimental": false,
  "hosts": ["tcp://0.0.0.0:2375"]
}

If you use Boot2Docker or docker-machine set your DOCKER_HOST environment variable properly with export DOCKER_HOST=tcp://192.168.59.103:2375 or eval "$(docker-machine env $MACHINE)" then use the following:

socket: tcp://192.168.59.103:2375

image

The Docker image to use as the base for the suite containers. You can find images using the Docker Index.

The default will be computed, using the platform name (see the Default Configuration section for more details).

platform

The platform of the chosen image. This is used to properly bootstrap the suite container for Test Kitchen. Kitchen Docker currently supports:

  • arch
  • debian or ubuntu
  • amazonlinux, rhel, centos, fedora or oraclelinux
  • gentoo or gentoo-paludis
  • opensuse/tumbleweed, opensuse/leap, opensuse or sles
  • windows

The default will be computed, using the platform name (see the Default Configuration section for more details).

require_chef_omnibus

Determines whether or not a Chef Omnibus package will be installed. There are several different behaviors available:

  • true - the latest release will be installed. Subsequent converges will skip re-installing if chef is present.
  • latest - the latest release will be installed. Subsequent converges will always re-install even if chef is present.
  • <VERSION_STRING> (ex: 10.24.0) - the desired version string will be passed the the install.sh script. Subsequent converges will skip if the installed version and the desired version match.
  • false or nil - no chef is installed.

The default value is true.

disable_upstart

Disables upstart on Debian/Ubuntu containers, as many images do not support a working upstart.

The default value is true.

provision_command

Custom command(s) to be run when provisioning the base for the suite containers.

Examples:

  provision_command: curl -L https://www.opscode.com/chef/install.sh | bash
  provision_command:
    - apt-get install dnsutils
    - apt-get install telnet
driver_config:
  provision_command: curl -L https://www.opscode.com/chef/install.sh | bash
  require_chef_omnibus: false

env_variables

Adds environment variables to Docker container

Examples:

  env_variables:
    TEST_KEY_1: TEST_VALUE
    SOME_VAR: SOME_VALUE

use_cache

This determines if the Docker cache is used when provisioning the base for suite containers.

The default value is true.

use_sudo

This determines if Docker commands are run with sudo.

The default value depends on the type of socket being used. For local sockets, the default value is true. For remote sockets, the default value is false.

This should be set to false if you're using boot2docker, as every command passed into the VM runs as root by default.

remove_images

This determines if images are automatically removed when the suite container is destroyed.

The default value is false.

run_command

Sets the command used to run the suite container.

The default value is /usr/sbin/sshd -D -o UseDNS=no -o UsePAM=no -o PasswordAuthentication=yes -o UsePrivilegeSeparation=no -o PidFile=/tmp/sshd.pid.

Examples:

  run_command: /sbin/init

memory

Sets the memory limit for the suite container in bytes. Otherwise use Dockers default. You can read more about memory.limit_in_bytes here.

cpu

Sets the CPU shares (relative weight) for the suite container. Otherwise use Dockers defaults. You can read more about cpu.shares here.

volume

Adds a data volume(s) to the suite container.

Examples:

  volume: /ftp
  volume:
  - /ftp
  - /srv

volumes_from

Mount volumes managed by other containers.

Examples:

  volumes_from: repos
  volumes_from:
  - repos
  - logging
  - rvm

dns

Adjusts resolv.conf to use the dns servers specified. Otherwise use Dockers defaults.

Examples:

  dns: 8.8.8.8
  dns:
  - 8.8.8.8
  - 8.8.4.4

http_proxy

Sets an http proxy for the suite container using the http_proxy environment variable.

Examples:

  http_proxy: http://proxy.host.com:8080

https_proxy

Sets an https proxy for the suite container using the https_proxy environment variable.

Examples:

  https_proxy: http://proxy.host.com:8080

forward

Set suite container port(s) to forward to the host machine. You may specify the host (public) port in the mappings, if not, Docker chooses for you.

Examples:

  forward: 80
  forward:
  - 22:2222
  - 80:8080

hostname

Set the suite container hostname. Otherwise use Dockers default.

Examples:

  hostname: foobar.local

privileged

Run the suite container in privileged mode. This allows certain functionality inside the Docker container which is not otherwise permitted.

The default value is false.

Examples:

  privileged: true

cap_add

Adds a capability to the running container.

Examples:

cap_add:
- SYS_PTRACE

cap_drop

Drops a capability from the running container.

Examples:

cap_drop:
- CHOWN

security_opt

Apply a security profile to the Docker container. Allowing finer granularity of access control than privileged mode, through leveraging SELinux/AppArmor profiles to grant access to specific resources.

Examples:

security_opt:
  - apparmor:my_profile

dockerfile

Use a custom Dockerfile, instead of having Kitchen-Docker build one for you.

Examples:

  dockerfile: test/Dockerfile

instance_name

Set the name of container to link to other container(s).

Examples:

  instance_name: web

links

Set instance_name(and alias) of other container(s) that connect from the suite container.

Examples:

 links: db:db
  links:
  - db:db
  - kvs:kvs

publish_all

Publish all exposed ports to the host interfaces. This option used to communicate between some containers.

The default value is false.

Examples:

  publish_all: true

devices

Share a host device with the container. Host device must be an absolute path.

Examples:

devices: /dev/vboxdrv
devices:
  - /dev/vboxdrv
  - /dev/vboxnetctl

build_context

Transfer the cookbook directory (cwd) as build context. This is required for Dockerfile commands like ADD and COPY. When using a remote Docker server, the whole directory has to be copied, which can be slow.

The default value is true for local Docker and false for remote Docker.

Examples:

  build_context: true

build_options

Extra command-line options to pass to docker build when creating the image.

Examples:

  build_options: --rm=false
  build_options:
    rm: false
    build-arg: something

run_options

Extra command-line options to pass to docker run when starting the container.

Examples:

  run_options: --ip=1.2.3.4
  run_options:
    tmpfs:
    - /run/lock
    - /tmp
    net: br3

use_internal_docker_network

If you want to use kitchen-docker from within another Docker container you'll need to set this to true. When set to true uses port 22 as the SSH port and the IP of the container that chef is going to run in as the hostname so that you can connect to it over SSH from within another Docker container.

Examples:

  use_internal_docker_network: true

Development

Pull requests are very welcome! Make sure your patches are well tested. Ideally create a topic branch for every separate change you make. For example:

  1. Fork the repo
  2. Create your feature branch (git checkout -b my-new-feature)
  3. Commit your changes (git commit -am 'Added some feature')
  4. Push to the branch (git push origin my-new-feature)
  5. Create new Pull Request

License

Copyright 2013-2016, Sean Porter Copyright 2015-2016, Noah Kantrowitz

Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at

http://www.apache.org/licenses/LICENSE-2.0

Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License.