#!/usr/bin/python
#
# Copyright 2016 Red Hat | Ansible
#
# This file is part of Ansible
#
# Ansible is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# Ansible is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with Ansible. If not, see .
DOCUMENTATION = '''
---
module: docker_container
short_description: manage docker containers
description:
- Manage the life cycle of docker containers.
- Supports check mode. Run with --check and --diff to view config difference and list of actions to be taken.
version_added: "2.1.0"
options:
blkio_weight:
description:
- Block IO (relative weight), between 10 and 1000.
default: null
required: false
capabilities:
description:
- List of capabilities to add to the container.
default: null
required: false
cleanup:
description:
- Use with I(detach) to remove the container after successful execution.
default: false
required: false
version_added: 2.2
command:
description:
- Command or list of commands to execute in the container when it starts.
default: null
required: false
cpu_period:
description:
- Limit CPU CFS (Completely Fair Scheduler) period
default: 0
required: false
cpu_quota:
description:
- Limit CPU CFS (Completely Fair Scheduler) quota
default: 0
required: false
cpuset_cpus:
description:
- CPUs in which to allow execution C(1,3) or C(1-3).
default: null
required: false
cpuset_mems:
description:
- Memory nodes (MEMs) in which to allow execution C(0-3) or C(0,1)
default: null
required: false
cpu_shares:
description:
- CPU shares (relative weight).
default: null
required: false
detach:
description:
- Enable detached mode to leave the container running in background.
If disabled, the task will reflect the status of the container run (failed if the command failed).
default: true
required: false
devices:
description:
- "List of host device bindings to add to the container. Each binding is a mapping expressed
in the format: ::"
default: null
required: false
dns_servers:
description:
- List of custom DNS servers.
default: null
required: false
dns_search_domains:
description:
- List of custom DNS search domains.
default: null
required: false
env:
description:
- Dictionary of key,value pairs.
default: null
required: false
env_file:
version_added: "2.2"
description:
- Path to a file containing environment variables I(FOO=BAR).
- If variable also present in C(env), then C(env) value will override.
- Requires docker-py >= 1.4.0.
default: null
required: false
entrypoint:
description:
- String or list of commands that overwrite the default ENTRYPOINT of the image.
default: null
required: false
etc_hosts:
description:
- Dict of host-to-IP mappings, where each host name is a key in the dictionary.
Each host name will be added to the container's /etc/hosts file.
default: null
required: false
exposed_ports:
description:
- List of additional container ports to expose for port mappings or links.
If the port is already exposed using EXPOSE in a Dockerfile, it does not
need to be exposed again.
default: null
required: false
aliases:
- exposed
force_kill:
description:
- Use the kill command when stopping a running container.
default: false
required: false
groups:
description:
- List of additional group names and/or IDs that the container process will run as.
default: null
required: false
hostname:
description:
- Container hostname.
default: null
required: false
ignore_image:
description:
- When C(state) is I(present) or I(started) the module compares the configuration of an existing
container to requested configuration. The evaluation includes the image version. If
the image vesion in the registry does not match the container, the container will be
recreated. Stop this behavior by setting C(ignore_image) to I(True).
default: false
required: false
image:
description:
- Repository path and tag used to create the container. If an image is not found or pull is true, the image
will be pulled from the registry. If no tag is included, 'latest' will be used.
default: null
required: false
interactive:
description:
- Keep stdin open after a container is launched, even if not attached.
default: false
required: false
ipc_mode:
description:
- Set the IPC mode for the container. Can be one of 'container:' to reuse another
container's IPC namespace or 'host' to use the host's IPC namespace within the container.
default: null
required: false
keep_volumes:
description:
- Retain volumes associated with a removed container.
default: true
required: false
kill_signal:
description:
- Override default signal used to kill a running container.
default null:
required: false
kernel_memory:
description:
- "Kernel memory limit (format: []). Number is a positive integer.
Unit can be one of b, k, m, or g. Minimum is 4M."
default: 0
required: false
labels:
description:
- Dictionary of key value pairs.
default: null
required: false
links:
description:
- List of name aliases for linked containers in the format C(container_name:alias)
default: null
required: false
log_driver:
description:
- Specify the logging driver.
choices:
- json-file
- syslog
- journald
- gelf
- fluentd
- awslogs
- splunk
default: json-file
required: false
log_options:
description:
- Dictionary of options specific to the chosen log_driver. See https://docs.docker.com/engine/admin/logging/overview/
for details.
required: false
default: null
mac_address:
description:
- Container MAC address (e.g. 92:d0:c6:0a:29:33)
default: null
required: false
memory:
description:
- "Memory limit (format: []). Number is a positive integer.
Unit can be one of b, k, m, or g"
default: 0
required: false
memory_reservation:
description:
- "Memory soft limit (format: []). Number is a positive integer.
Unit can be one of b, k, m, or g"
default: 0
required: false
memory_swap:
description:
- Total memory limit (memory + swap, format:[]).
Number is a positive integer. Unit can be one of b, k, m, or g.
default: 0
required: false
memory_swappiness:
description:
- Tune a container's memory swappiness behavior. Accepts an integer between 0 and 100.
default: 0
required: false
name:
description:
- Assign a name to a new container or match an existing container.
- When identifying an existing container name may be a name or a long or short container ID.
required: true
network_mode:
description:
- Connect the container to a network.
choices:
- bridge
- container:
- host
- none
default: null
required: false
networks:
description:
- List of networks the container belongs to.
- Each network is a dict with keys C(name), C(ipv4_address), C(ipv6_address), C(links), C(aliases).
- For each network C(name) is required, all other keys are optional.
- If included, C(links) or C(aliases) are lists.
- For examples of the data structure and usage see EXAMPLES below.
- To remove a container from one or more networks, use the C(purge_networks) option.
default: null
required: false
version_added: "2.2"
oom_killer:
description:
- Whether or not to disable OOM Killer for the container.
default: false
required: false
paused:
description:
- Use with the started state to pause running processes inside the container.
default: false
required: false
pid_mode:
description:
- Set the PID namespace mode for the container. Currenly only supports 'host'.
default: null
required: false
privileged:
description:
- Give extended privileges to the container.
default: false
required: false
published_ports:
description:
- List of ports to publish from the container to the host.
- "Use docker CLI syntax: C(8000), C(9000:8000), or C(0.0.0.0:9000:8000), where 8000 is a
container port, 9000 is a host port, and 0.0.0.0 is a host interface."
- Container ports must be exposed either in the Dockerfile or via the C(expose) option.
- A value of ALL will publish all exposed container ports to random host ports, ignoring
any other mappings.
aliases:
- ports
required: false
default: null
pull:
description:
- If true, always pull the latest version of an image. Otherwise, will only pull an image when missing.
default: false
required: false
purge_networks:
description:
- Remove the container from ALL networks not included in C(networks) parameter.
- Any default networks such as I(bridge), if not found in C(networks), will be removed as well.
default: false
required: false
version_added: "2.2"
read_only:
description:
- Mount the container's root file system as read-only.
default: false
required: false
recreate:
description:
- Use with present and started states to force the re-creation of an existing container.
default: false
required: false
restart:
description:
- Use with started state to force a matching container to be stopped and restarted.
default: false
required: false
restart_policy:
description:
- Container restart policy. Place quotes around I(no) option.
choices:
- always
- no
- on-failure
- unless-stopped
default: on-failure
required: false
restart_retries:
description:
- Use with restart policy to control maximum number of restart attempts.
default: 0
required: false
shm_size:
description:
- Size of `/dev/shm`. The format is ``. `number` must be greater than `0`.
Unit is optional and can be `b` (bytes), `k` (kilobytes), `m` (megabytes), or `g` (gigabytes).
- Ommitting the unit defaults to bytes. If you omit the size entirely, the system uses `64m`.
default: null
required: false
security_opts:
description:
- List of security options in the form of C("label:user:User")
default: null
required: false
state:
description:
- 'I(absent) - A container matching the specified name will be stopped and removed. Use force_kill to kill the container
rather than stopping it. Use keep_volumes to retain volumes associated with the removed container.'
- 'I(present)" - Asserts the existence of a container matching the name and any provided configuration parameters. If no
container matches the name, a container will be created. If a container matches the name but the provided configuration
does not match, the container will be updated, if it can be. If it cannot be updated, it will be removed and re-created
with the requested config. Image version will be taken into account when comparing configuration. To ignore image
version use the ignore_image option. Use the recreate option to force the re-creation of the matching container. Use
force_kill to kill the container rather than stopping it. Use keep_volumes to retain volumes associated with a removed
container.'
- 'I(started) - Asserts there is a running container matching the name and any provided configuration. If no container
matches the name, a container will be created and started. If a container matching the name is found but the
configuration does not match, the container will be updated, if it can be. If it cannot be updated, it will be removed
and a new container will be created with the requested configuration and started. Image version will be taken into
account when comparing configuration. To ignore image version use the ignore_image option. Use recreate to always
re-create a matching container, even if it is running. Use restart to force a matching container to be stopped and
restarted. Use force_kill to kill a container rather than stopping it. Use keep_volumes to retain volumes associated
with a removed container.'
- 'I(stopped) - Asserts that the container is first I(present), and then if the container is running moves it to a stopped
state. Use force_kill to kill a container rather than stopping it.'
required: false
default: started
choices:
- absent
- present
- stopped
- started
stop_signal:
description:
- Override default signal used to stop the container.
default: null
required: false
stop_timeout:
description:
- Number of seconds to wait for the container to stop before sending SIGKILL.
required: false
default: null
trust_image_content:
description:
- If true, skip image verification.
default: false
requried: false
tty:
description:
- Allocate a psuedo-TTY.
default: false
required: false
ulimits:
description:
- "List of ulimit options. A ulimit is specified as C(nofile:262144:262144)"
default: null
required: false
user:
description:
- Sets the username or UID used and optionally the groupname or GID for the specified command.
- "Can be [ user | user:group | uid | uid:gid | user:gid | uid:group ]"
default: null
required: false
uts:
description:
- Set the UTS namespace mode for the container.
default: null
required: false
volumes:
description:
- List of volumes to mount within the container.
- "Use docker CLI-style syntax: C(/host:/container[:mode])"
- You can specify a read mode for the mount with either C(ro) or C(rw).
- SELinux hosts can additionally use C(z) or C(Z) to use a shared or
private label for the volume.
default: null
required: false
volume_driver:
description:
- The container volume driver.
default: none
required: false
volumes_from:
description:
- List of container names or Ids to get volumes from.
default: null
required: false
extends_documentation_fragment:
- docker
author:
- "Cove Schneider (@cove)"
- "Joshua Conner (@joshuaconner)"
- "Pavel Antonov (@softzilla)"
- "Thomas Steinbach (@ThomasSteinbach)"
- "Philippe Jandot (@zfil)"
- "Daan Oosterveld (@dusdanig)"
- "James Tanner (@jctanner)"
- "Chris Houseknecht (@chouseknecht)"
requirements:
- "python >= 2.6"
- "docker-py >= 1.7.0"
- "Docker API >= 1.20"
'''
EXAMPLES = '''
- name: Create a data container
docker_container:
name: mydata
image: busybox
volumes:
- /data
- name: Re-create a redis container
docker_container:
name: myredis
image: redis
command: redis-server --appendonly yes
state: present
recreate: yes
exposed_ports:
- 6379
volumes_from:
- mydata
- name: Restart a container
docker_container:
name: myapplication
image: someuser/appimage
state: started
restart: yes
links:
- "myredis:aliasedredis"
devices:
- "/dev/sda:/dev/xvda:rwm"
ports:
- "8080:9000"
- "127.0.0.1:8081:9001/udp"
env:
SECRET_KEY: ssssh
- name: Container present
docker_container:
name: mycontainer
state: present
image: ubuntu:14.04
command: sleep infinity
- name: Stop a contianer
docker_container:
name: mycontainer
state: stopped
- name: Start 4 load-balanced containers
docker_container:
name: "container{{ item }}"
recreate: yes
image: someuser/anotherappimage
command: sleep 1d
with_sequence: count=4
- name: remove container
docker_container:
name: ohno
state: absent
- name: Syslogging output
docker_container:
name: myservice
image: busybox
log_driver: syslog
log_options:
syslog-address: tcp://my-syslog-server:514
syslog-facility: daemon
syslog-tag: myservice
- name: Create db container and connect to network
docker_container:
name: db_test
image: "postgres:latest"
networks:
- name: "{{ docker_network_name }}"
- name: Start container, connect to network and link
docker_container:
name: sleeper
image: ubuntu:14.04
networks:
- name: TestingNet
ipv4_address: "172.1.1.100"
aliases:
- sleepyzz
links:
- db_test:db
- name: TestingNet2
- name: Start a container with a command
docker_container:
name: sleepy
image: ubuntu:14.04
command: sleep infinity
- name: Add container to networks
docker_container:
docker_container:
name: sleepy
networks:
- name: TestingNet
ipv4_address: 172.1.1.18
links:
- sleeper
- name: TestingNet2
ipv4_address: 172.1.10.20
- name: Update network with aliases
docker_container:
name: sleepy
networks:
- name: TestingNet
aliases:
- sleepyz
- zzzz
- name: Remove container from one network
docker_container:
name: sleepy
networks:
- name: TestingNet2
purge_networks: yes
- name: Remove container from all networks
docker_container:
name: sleepy
purge_networks: yes
'''
RETURN = '''
ansible_docker_container:
description:
- Facts representing the current state of the container. Matches the docker inspection output.
- Note that facts are not part of registered vars but accessible directly.
- Empty if C(state) is I(absent)
- If detached is I(False), will include Output attribute containing any output from container run.
returned: always
type: dict
sample: '{
"AppArmorProfile": "",
"Args": [],
"Config": {
"AttachStderr": false,
"AttachStdin": false,
"AttachStdout": false,
"Cmd": [
"/usr/bin/supervisord"
],
"Domainname": "",
"Entrypoint": null,
"Env": [
"PATH=/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin"
],
"ExposedPorts": {
"443/tcp": {},
"80/tcp": {}
},
"Hostname": "8e47bf643eb9",
"Image": "lnmp_nginx:v1",
"Labels": {},
"OnBuild": null,
"OpenStdin": false,
"StdinOnce": false,
"Tty": false,
"User": "",
"Volumes": {
"/tmp/lnmp/nginx-sites/logs/": {}
},
...
}'
'''
import re
from ansible.module_utils.docker_common import *
try:
from docker import utils
from docker.utils.types import Ulimit
except:
# missing docker-py handled in ansible.module_utils.docker
pass
REQUIRES_CONVERSION_TO_BYTES = [
'memory',
'memory_reservation',
'memory_swap',
'shm_size'
]
VOLUME_PERMISSIONS = ('rw', 'ro', 'z', 'Z')
class TaskParameters(DockerBaseClass):
'''
Access and parse module parameters
'''
def __init__(self, client):
super(TaskParameters, self).__init__()
self.client = client
self.blkio_weight = None
self.capabilities = None
self.cleanup = None
self.command = None
self.cpu_period = None
self.cpu_quota = None
self.cpuset_cpus = None
self.cpuset_mems = None
self.cpu_shares = None
self.detach = None
self.devices = None
self.dns_servers = None
self.dns_opts = None
self.dns_search_domains = None
self.env = None
self.env_file = None
self.entrypoint = None
self.etc_hosts = None
self.exposed_ports = None
self.force_kill = None
self.groups = None
self.hostname = None
self.image = None
self.interactive = None
self.ipc_mode = None
self.keep_volumes = None
self.kernel_memory = None
self.kill_signal = None
self.labels = None
self.links = None
self.log_driver = None
self.log_options = None
self.mac_address = None
self.memory = None
self.memory_reservation = None
self.memory_swap = None
self.memory_swappiness = None
self.name = None
self.network_mode = None
self.networks = None
self.oom_killer = None
self.paused = None
self.pid_mode = None
self.privileged = None
self.purge_networks = None
self.pull = None
self.read_only = None
self.recreate = None
self.restart = None
self.restart_retries = None
self.restart_policy = None
self.shm_size = None
self.security_opts = None
self.state = None
self.stop_signal = None
self.stop_timeout = None
self.trust_image_content = None
self.tty = None
self.user = None
self.uts = None
self.volumes = None
self.volume_binds = dict()
self.volumes_from = None
self.volume_driver = None
for key, value in client.module.params.items():
setattr(self, key, value)
for param_name in REQUIRES_CONVERSION_TO_BYTES:
if client.module.params.get(param_name):
try:
setattr(self, param_name, human_to_bytes(client.module.params.get(param_name)))
except ValueError as exc:
self.fail("Failed to convert %s to bytes: %s" % (param_name, exc))
self.publish_all_ports = False
self.published_ports = self._parse_publish_ports()
if self.published_ports == 'all':
self.publish_all_ports = True
self.published_ports = None
self.ports = self._parse_exposed_ports(self.published_ports)
self.log("expose ports:")
self.log(self.ports, pretty_print=True)
self.links = self._parse_links(self.links)
if self.volumes:
self.volumes = self._expand_host_paths()
self.env = self._get_environment()
self.ulimits = self._parse_ulimits()
self.log_config = self._parse_log_config()
self.exp_links = None
self.volume_binds = self._get_volume_binds(self.volumes)
self.log("volumes:")
self.log(self.volumes, pretty_print=True)
self.log("volume binds:")
self.log(self.volume_binds, pretty_print=True)
if self.networks:
for network in self.networks:
if not network.get('name'):
self.fail("Parameter error: network must have a name attribute.")
network['id'] = self._get_network_id(network['name'])
if not network['id']:
self.fail("Parameter error: network named %s could not be found. Does it exist?" % network['name'])
if network.get('links'):
network['links'] = self._parse_links(network['links'])
def fail(self, msg):
self.client.module.fail_json(msg=msg)
@property
def update_parameters(self):
'''
Returns parameters used to update a container
'''
update_parameters = dict(
blkio_weight='blkio_weight',
cpu_period='cpu_period',
cpu_quota='cpu_quota',
cpu_shares='cpu_shares',
cpuset_cpus='cpuset_cpus',
mem_limit='memory',
mem_reservation='mem_reservation',
memswap_limit='memory_swap',
kernel_memory='kernel_memory'
)
result = dict()
for key, value in update_parameters.iteritems():
if getattr(self, value, None) is not None:
result[key] = getattr(self, value)
return result
@property
def create_parameters(self):
'''
Returns parameters used to create a container
'''
create_params = dict(
command='command',
hostname='hostname',
user='user',
detach='detach',
stdin_open='interactive',
tty='tty',
ports='ports',
environment='env',
name='name',
entrypoint='entrypoint',
cpu_shares='cpu_shares',
mac_address='mac_address',
labels='labels',
stop_signal='stop_signal',
volume_driver='volume_driver',
)
result = dict(
host_config=self._host_config(),
volumes=self._get_mounts(),
)
for key, value in create_params.items():
if getattr(self, value, None) is not None:
result[key] = getattr(self, value)
return result
def _expand_host_paths(self):
new_vols = []
for vol in self.volumes:
if ':' in vol:
if len(vol.split(':')) == 3:
host, container, mode = vol.split(':')
if re.match(r'[\.~]', host):
host = os.path.abspath(host)
new_vols.append("%s:%s:%s" % (host, container, mode))
continue
elif len(vol.split(':')) == 2:
parts = vol.split(':')
if parts[1] not in VOLUME_PERMISSIONS and re.match(r'[\.~]', parts[0]):
host = os.path.abspath(parts[0])
new_vols.append("%s:%s:rw" % (host, parts[1]))
continue
new_vols.append(vol)
return new_vols
def _get_mounts(self):
'''
Return a list of container mounts.
:return:
'''
result = []
if self.volumes:
for vol in self.volumes:
if ':' in vol:
if len(vol.split(':')) == 3:
host, container, _ = vol.split(':')
result.append(container)
continue
if len(vol.split(':')) == 2:
parts = vol.split(':')
if parts[1] not in VOLUME_PERMISSIONS:
result.append(parts[1])
continue
result.append(vol)
self.log("mounts:")
self.log(result, pretty_print=True)
return result
def _host_config(self):
'''
Returns parameters used to create a HostConfig object
'''
host_config_params=dict(
port_bindings='published_ports',
publish_all_ports='publish_all_ports',
links='links',
privileged='privileged',
dns='dns_servers',
dns_search='dns_search_domains',
binds='volume_binds',
volumes_from='volumes_from',
network_mode='network_mode',
cap_add='capabilities',
extra_hosts='etc_hosts',
read_only='read_only',
ipc_mode='ipc_mode',
security_opt='security_opts',
ulimits='ulimits',
log_config='log_config',
mem_limit='memory',
memswap_limit='memory_swap',
mem_swappiness='memory_swappiness',
shm_size='shm_size',
group_add='groups',
devices='devices',
pid_mode='pid_mode'
)
params = dict()
for key, value in host_config_params.iteritems():
if getattr(self, value, None) is not None:
params[key] = getattr(self, value)
if self.restart_policy:
params['restart_policy'] = dict(Name=self.restart_policy,
MaximumRetryCount=self.restart_retries)
return self.client.create_host_config(**params)
def _parse_publish_ports(self):
'''
Parse ports from docker CLI syntax
'''
if self.published_ports is None:
return None
if 'all' in self.published_ports:
return 'all'
binds = {}
for port in self.published_ports:
parts = str(port).split(':')
container_port = parts[-1]
if '/' not in container_port:
container_port = int(parts[-1])
p_len = len(parts)
if p_len == 1:
bind = ('0.0.0.0',)
elif p_len == 2:
bind = ('0.0.0.0', int(parts[0]))
elif p_len == 3:
bind = (parts[0], int(parts[1])) if parts[1] else (parts[0],)
if container_port in binds:
old_bind = binds[container_port]
if isinstance(old_bind, list):
old_bind.append(bind)
else:
binds[container_port] = [binds[container_port], bind]
else:
binds[container_port] = bind
return binds
@staticmethod
def _get_volume_binds(volumes):
'''
Extract host bindings, if any, from list of volume mapping strings.
:return: dictionary of bind mappings
'''
result = dict()
if volumes:
for vol in volumes:
host = None
if ':' in vol:
if len(vol.split(':')) == 3:
host, container, mode = vol.split(':')
if len(vol.split(':')) == 2:
parts = vol.split(':')
if parts[1] not in VOLUME_PERMISSIONS:
host, container, mode = (vol.split(':') + ['rw'])
if host is not None:
result[host] = dict(
bind=container,
mode=mode
)
return result
def _parse_exposed_ports(self, published_ports):
'''
Parse exposed ports from docker CLI-style ports syntax.
'''
exposed = []
if self.exposed_ports:
for port in self.exposed_ports:
port = str(port).strip()
protocol = 'tcp'
match = re.search(r'(/.+$)', port)
if match:
protocol = match.group(1)
exposed.append((port, protocol))
if published_ports:
# Any published port should also be exposed
for publish_port in published_ports:
match = False
if isinstance(publish_port, basestring) and '/' in publish_port:
port, protocol = publish_port.split('/')
port = int(port)
else:
protocol = 'tcp'
port = int(publish_port)
for exposed_port in exposed:
if isinstance(exposed_port[0], basestring) and '-' in exposed_port[0]:
start_port, end_port = exposed_port[0].split('-')
if int(start_port) <= port <= int(end_port):
match = True
elif exposed_port[0] == port:
match = True
if not match:
exposed.append((port, protocol))
return exposed
@staticmethod
def _parse_links(links):
'''
Turn links into a dictionary
'''
if links is None:
return None
result = {}
for link in links:
parsed_link = link.split(':', 1)
if len(parsed_link) == 2:
result[parsed_link[0]] = parsed_link[1]
else:
result[parsed_link[0]] = parsed_link[0]
return result
def _parse_ulimits(self):
'''
Turn ulimits into an array of Ulimit objects
'''
if self.ulimits is None:
return None
results = []
for limit in self.ulimits:
limits = dict()
pieces = limit.split(':')
if len(pieces) >= 2:
limits['name'] = pieces[0]
limits['soft'] = int(pieces[1])
limits['hard'] = int(pieces[1])
if len(pieces) == 3:
limits['hard'] = int(pieces[2])
try:
results.append(Ulimit(**limits))
except ValueError as exc:
self.fail("Error parsing ulimits value %s - %s" % (limit, exc))
return results
def _parse_log_config(self):
'''
Create a LogConfig object
'''
if self.log_driver is None:
return None
options = dict(
Type=self.log_driver,
Config = dict()
)
if self.log_options is not None:
options['Config'] = self.log_options
try:
return LogConfig(**options)
except ValueError as exc:
self.fail('Error parsing logging options - %s' % (exc))
def _get_environment(self):
"""
If environment file is combined with explicit environment variables, the explicit environment variables
take precedence.
"""
final_env = {}
if self.env_file:
parsed_env_file = utils.parse_env_file(self.env_file)
for name, value in parsed_env_file.iteritems():
final_env[name] = str(value)
if self.env:
for name, value in self.env.iteritems():
final_env[name] = str(value)
return final_env
def _get_network_id(self, network_name):
network_id = None
try:
for network in self.client.networks(names=[network_name]):
if network['Name'] == network_name:
network_id = network['Id']
break
except Exception as exc:
self.fail("Error getting network id for %s - %s" % (network_name, str(exc)))
return network_id
class Container(DockerBaseClass):
def __init__(self, container, parameters):
super(Container, self).__init__()
self.raw = container
self.Id = None
self.container = container
if container:
self.Id = container['Id']
self.Image = container['Image']
self.log(self.container, pretty_print=True)
self.parameters = parameters
self.parameters.expected_links = None
self.parameters.expected_ports = None
self.parameters.expected_exposed = None
self.parameters.expected_volumes = None
self.parameters.expected_ulimits = None
self.parameters.expected_etc_hosts = None
self.parameters.expected_env = None
def fail(self, msg):
self.parameters.client.module.fail_json(msg=msg)
@property
def exists(self):
return True if self.container else False
@property
def running(self):
if self.container and self.container.get('State'):
if self.container['State'].get('Running') and not self.container['State'].get('Ghost', False):
return True
return False
def has_different_configuration(self, image):
'''
Diff parameters vs existing container config. Returns tuple: (True | False, List of differences)
'''
self.log('Starting has_different_configuration')
self.parameters.expected_entrypoint = self._get_expected_entrypoint(image)
self.parameters.expected_links = self._get_expected_links()
self.parameters.expected_ports = self._get_expected_ports()
self.parameters.expected_exposed = self._get_expected_exposed(image)
self.parameters.expected_volumes = self._get_expected_volumes(image)
self.parameters.expected_binds = self._get_expected_binds(image)
self.parameters.expected_ulimits = self._get_expected_ulimits(self.parameters.ulimits)
self.parameters.expected_etc_hosts = self._convert_simple_dict_to_list('etc_hosts')
self.parameters.expected_env = self._get_expected_env(image)
self.parameters.expected_cmd = self._get_expected_cmd()
if not self.container.get('HostConfig'):
self.fail("has_config_diff: Error parsing container properties. HostConfig missing.")
if not self.container.get('Config'):
self.fail("has_config_diff: Error parsing container properties. Config missing.")
if not self.container.get('NetworkSettings'):
self.fail("has_config_diff: Error parsing container properties. NetworkSettings missing.")
host_config = self.container['HostConfig']
log_config = host_config.get('LogConfig', dict())
restart_policy = host_config.get('RestartPolicy', dict())
config = self.container['Config']
network = self.container['NetworkSettings']
# The previous version of the docker module ignored the detach state by
# assuming if the container was running, it must have been detached.
detach = not (config.get('AttachStderr') and config.get('AttachStdout'))
# Map parameters to container inspect results
config_mapping = dict(
image=config.get('Image'),
expected_cmd=config.get('Cmd'),
hostname=config.get('Hostname'),
user=config.get('User'),
detach=detach,
interactive=config.get('OpenStdin'),
capabilities=host_config.get('CapAdd'),
devices=host_config.get('Devices'),
dns_servers=host_config.get('Dns'),
dns_opts=host_config.get('DnsOptions'),
dns_search_domains=host_config.get('DnsSearch'),
expected_env=(config.get('Env') or []),
expected_entrypoint=config.get('Entrypoint'),
expected_etc_hosts=host_config['ExtraHosts'],
expected_exposed=[re.sub(r'/.+$', '', p) for p in config.get('ExposedPorts', dict()).keys()],
groups=host_config.get('GroupAdd'),
ipc_mode=host_config.get("IpcMode"),
labels=config.get('Labels'),
expected_links=host_config.get('Links'),
log_driver=log_config.get('Type'),
log_options=log_config.get('Config'),
mac_address=network.get('MacAddress'),
memory_swappiness=host_config.get('MemorySwappiness'),
network_mode=host_config.get('NetworkMode'),
oom_killer=host_config.get('OomKillDisable'),
pid_mode=host_config.get('PidMode'),
privileged=host_config.get('Privileged'),
expected_ports=host_config.get('PortBindings'),
read_only=host_config.get('ReadonlyRootfs'),
restart_policy=restart_policy.get('Name'),
restart_retries=restart_policy.get('MaximumRetryCount'),
# Cannot test shm_size, as shm_size is not included in container inspection results.
# shm_size=host_config.get('ShmSize'),
security_opts=host_config.get("SecuriytOpt"),
stop_signal=config.get("StopSignal"),
tty=config.get('Tty'),
expected_ulimits=host_config.get('Ulimits'),
uts=host_config.get('UTSMode'),
expected_volumes=config.get('Volumes'),
expected_binds=host_config.get('Binds'),
volumes_from=host_config.get('VolumesFrom'),
volume_driver=host_config.get('VolumeDriver')
)
differences = []
for key, value in config_mapping.iteritems():
self.log('check differences %s %s vs %s' % (key, getattr(self.parameters, key), str(value)))
if getattr(self.parameters, key, None) is not None:
if isinstance(getattr(self.parameters, key), list) and isinstance(value, list):
if len(getattr(self.parameters, key)) > 0 and isinstance(getattr(self.parameters, key)[0], dict):
# compare list of dictionaries
self.log("comparing list of dict: %s" % key)
match = self._compare_dictionary_lists(getattr(self.parameters, key), value)
else:
# compare two lists. Is list_a in list_b?
self.log("comparing lists: %s" % key)
set_a = set(getattr(self.parameters, key))
set_b = set(value)
match = (set_a <= set_b)
elif isinstance(getattr(self.parameters, key), dict) and isinstance(value, dict):
# compare two dicts
self.log("comparing two dicts: %s" % key)
match = self._compare_dicts(getattr(self.parameters, key), value)
else:
# primitive compare
self.log("primitive compare: %s" % key)
match = (getattr(self.parameters, key) == value)
if not match:
# no match. record the differences
item = dict()
item[key] = dict(
parameter=getattr(self.parameters, key),
container=value
)
differences.append(item)
has_differences = True if len(differences) > 0 else False
return has_differences, differences
def _compare_dictionary_lists(self, list_a, list_b):
'''
If all of list_a exists in list_b, return True
'''
if not isinstance(list_a, list) or not isinstance(list_b, list):
return False
matches = 0
for dict_a in list_a:
for dict_b in list_b:
if self._compare_dicts(dict_a, dict_b):
matches += 1
break
result = (matches == len(list_a))
return result
def _compare_dicts(self, dict_a, dict_b):
'''
If dict_a in dict_b, return True
'''
if not isinstance(dict_a, dict) or not isinstance(dict_b, dict):
return False
for key, value in dict_a.iteritems():
if isinstance(value, dict):
match = self._compare_dicts(value, dict_b.get(key))
elif isinstance(value, list):
if len(value) > 0 and isinstance(value[0], dict):
match = self._compare_dictionary_lists(value, dict_b.get(key))
else:
set_a = set(value)
set_b = set(dict_b.get(key))
match = (set_a == set_b)
else:
match = (value == dict_b.get(key))
if not match:
return False
return True
def has_different_resource_limits(self):
'''
Diff parameters and container resource limits
'''
if not self.container.get('HostConfig'):
self.fail("limits_differ_from_container: Error parsing container properties. HostConfig missing.")
host_config = self.container['HostConfig']
config_mapping = dict(
cpu_period=host_config.get('CpuPeriod'),
cpu_quota=host_config.get('CpuQuota'),
cpuset_cpus=host_config.get('CpusetCpus'),
cpuset_mems=host_config.get('CpusetMems'),
cpu_shares=host_config.get('CpuShares'),
kernel_memory=host_config.get("KernelMemory"),
memory=host_config.get('Memory'),
memory_reservation=host_config.get('MemoryReservation'),
memory_swap=host_config.get('MemorySwap'),
)
differences = []
for key, value in config_mapping.iteritems():
if getattr(self.parameters, key, None) and getattr(self.parameters, key) != value:
# no match. record the differences
item = dict()
item[key] = dict(
parameter=getattr(self.parameters, key),
container=value
)
differences.append(item)
different = (len(differences) > 0)
return different, differences
def has_network_differences(self):
'''
Check if the container is connected to requested networks with expected options: links, aliases, ipv4, ipv6
'''
different = False
differences = []
if not self.parameters.networks:
return different, differences
if not self.container.get('NetworkSettings'):
self.fail("has_missing_networks: Error parsing container properties. NetworkSettings missing.")
connected_networks = self.container['NetworkSettings']['Networks']
for network in self.parameters.networks:
if connected_networks.get(network['name'], None) is None:
different = True
differences.append(dict(
parameter=network,
container=None
))
else:
diff = False
if network.get('ipv4_address') and network['ipv4_address'] != connected_networks[network['name']].get('IPAddress'):
diff = True
if network.get('ipv6_address') and network['ipv6_address'] != connected_networks[network['name']].get('GlobalIPv6Address'):
diff = True
if network.get('aliases') and not connected_networks[network['name']].get('Aliases'):
diff = True
if network.get('aliases') and connected_networks[network['name']].get('Aliases'):
if set(network.get('aliases')) != set(connected_networks[network['name']].get('Aliases')):
diff = True
if network.get('links') and not connected_networks[network['name']].get('Links'):
diff = True
if network.get('links') and connected_networks[network['name']].get('Links'):
expected_links = []
for link, alias in network['links'].iteritems():
expected_links.append("%s:%s" % (link, alias))
if set(expected_links) != set(connected_networks[network['name']].get('Links', [])):
diff = True
if diff:
different = True
differences.append(dict(
parameter=network,
container=dict(
name=network['name'],
ipv4_address=connected_networks[network['name']].get('IPAddress'),
ipv6_address=connected_networks[network['name']].get('GlobalIPv6Address'),
aliases=connected_networks[network['name']].get('Aliases'),
links=connected_networks[network['name']].get('Links')
)
))
return different, differences
def has_extra_networks(self):
'''
Check if the container is connected to non-requested networks
'''
extra_networks = []
extra = False
if not self.container.get('NetworkSettings'):
self.fail("has_extra_networks: Error parsing container properties. NetworkSettings missing.")
connected_networks = self.container['NetworkSettings'].get('Networks')
if connected_networks:
for network, network_config in connected_networks.iteritems():
keep = False
if self.parameters.networks:
for expected_network in self.parameters.networks:
if expected_network['name'] == network:
keep = True
if not keep:
extra = True
extra_networks.append(dict(name=network, id=network_config['NetworkID']))
return extra, extra_networks
def _get_expected_entrypoint(self, image):
self.log('_get_expected_entrypoint')
if isinstance(self.parameters.entrypoint, list):
entrypoint = self.parameters.entrypoint
else:
entrypoint = []
if image and image['ContainerConfig'].get('Entrypoint'):
entrypoint = list(set(entrypoint + image['ContainerConfig'].get('Entrypoint')))
if len(entrypoint) == 0:
return None
return entrypoint
def _get_expected_ports(self):
if not self.parameters.published_ports:
return None
expected_bound_ports = {}
for container_port, config in self.parameters.published_ports.iteritems():
if isinstance(container_port, int):
container_port = "%s/tcp" % container_port
if len(config) == 1:
expected_bound_ports[container_port] = [{'HostIp': "0.0.0.0", 'HostPort': ""}]
elif isinstance(config[0], tuple):
expected_bound_ports[container_port] = []
for host_ip, host_port in config:
expected_bound_ports[container_port].append({ 'HostIp': host_ip, 'HostPort': str(host_port)})
else:
expected_bound_ports[container_port] = [{'HostIp': config[0], 'HostPort': str(config[1])}]
return expected_bound_ports
def _get_expected_links(self):
if self.parameters.links is None:
return None
self.log('parameter links:')
self.log(self.parameters.links, pretty_print=True)
exp_links = []
for link, alias in self.parameters.links.iteritems():
exp_links.append("/%s:%s/%s" % (link, ('/' + self.parameters.name), alias))
return exp_links
def _get_expected_binds(self, image):
self.log('_get_expected_binds')
image_vols = []
if image:
image_vols = self._get_image_binds(image['ContainerConfig'].get('Volumes'))
param_vols = []
if self.parameters.volumes:
for vol in self.parameters.volumes:
host = None
if ':' in vol:
if len(vol.split(':')) == 3:
host, container, mode = vol.split(':')
if len(vol.split(':')) == 2:
parts = vol.split(':')
if parts[1] not in VOLUME_PERMISSIONS:
host, container, mode = vol.split(':') + ['rw']
if host:
param_vols.append("%s:%s:%s" % (host, container, mode))
result = list(set(image_vols + param_vols))
self.log("expected_binds:")
self.log(result, pretty_print=True)
return result
def _get_image_binds(self, volumes):
'''
Convert array of binds to array of strings with format host_path:container_path:mode
:param volumes: array of bind dicts
:return: array of strings
'''
results = []
if isinstance(volumes, dict):
results += self._get_bind_from_dict(volumes)
elif isinstance(volumes, list):
for vol in volumes:
results += self._get_bind_from_dict(vol)
return results
@staticmethod
def _get_bind_from_dict(volume_dict):
results = []
if volume_dict:
for host_path, config in volume_dict.items():
if isinstance(config, dict) and config.get('bind'):
container_path = config.get('bind')
mode = config.get('mode', 'rw')
results.append("%s:%s:%s" % (host_path, container_path, mode))
return results
def _get_expected_volumes(self, image):
self.log('_get_expected_volumes')
expected_vols = dict()
if image and image['ContainerConfig'].get('Volumes'):
expected_vols.update(image['ContainerConfig'].get('Volumes'))
if self.parameters.volumes:
for vol in self.parameters.volumes:
container = None
if ':' in vol:
if len(vol.split(':')) == 3:
host, container, mode = vol.split(':')
if len(vol.split(':')) == 2:
parts = vol.split(':')
if parts[1] not in VOLUME_PERMISSIONS:
host, container, mode = vol.split(':') + ['rw']
new_vol = dict()
if container:
new_vol[container] = dict()
else:
new_vol[vol] = dict()
expected_vols.update(new_vol)
if not expected_vols:
expected_vols = None
self.log("expected_volumes:")
self.log(expected_vols, pretty_print=True)
return expected_vols
def _get_expected_env(self, image):
self.log('_get_expected_env')
expected_env = dict()
if image and image['ContainerConfig'].get('Env'):
for env_var in image['ContainerConfig']['Env']:
parts = env_var.split('=', 1)
expected_env[parts[0]] = parts[1]
if self.parameters.env:
expected_env.update(self.parameters.env)
param_env = []
for key, value in expected_env.items():
param_env.append("%s=%s" % (key, value))
return param_env
def _get_expected_exposed(self, image):
self.log('_get_expected_exposed')
image_ports = []
if image:
image_ports = [re.sub(r'/.+$', '', p) for p in (image['ContainerConfig'].get('ExposedPorts') or {}).keys()]
param_ports = []
if self.parameters.ports:
param_ports = [str(p[0]) for p in self.parameters.ports]
result = list(set(image_ports + param_ports))
self.log(result, pretty_print=True)
return result
def _get_expected_ulimits(self, config_ulimits):
self.log('_get_expected_ulimits')
if config_ulimits is None:
return None
results = []
for limit in config_ulimits:
results.append(dict(
Name=limit.name,
Soft=limit.soft,
Hard=limit.hard
))
return results
def _get_expected_cmd(self):
self.log('_get_expected_cmd')
if not self.parameters.command:
return None
return shlex.split(self.parameters.command)
def _convert_simple_dict_to_list(self, param_name, join_with=':'):
if getattr(self.parameters, param_name, None) is None:
return None
results = []
for key, value in getattr(self.parameters, param_name).iteritems():
results.append("%s%s%s" % (key, join_with, value))
return results
class ContainerManager(DockerBaseClass):
'''
Perform container management tasks
'''
def __init__(self, client):
super(ContainerManager, self).__init__()
self.client = client
self.parameters = TaskParameters(client)
self.check_mode = self.client.check_mode
self.results = {'changed': False, 'actions': []}
self.diff = {}
self.facts = {}
state = self.parameters.state
if state in ('stopped', 'started', 'present'):
self.present(state)
elif state == 'absent':
self.absent()
if not self.check_mode:
try:
del self.results['actions']
except:
pass
if self.client.module._diff:
self.results['diff'] = self.diff
if self.facts:
self.results['ansible_facts'] = {'ansible_docker_container': self.facts}
def present(self, state):
container = self._get_container(self.parameters.name)
image = self._get_image()
if not container.exists:
# New container
self.log('No container found')
new_container = self.container_create(self.parameters.image, self.parameters.create_parameters)
if new_container:
container = new_container
else:
# Existing container
different, differences = container.has_different_configuration(image)
image_different = self._image_is_different(image, container)
if image_different or different or self.parameters.recreate:
self.diff['differences'] = differences
if image_different:
self.diff['image_different'] = True
self.log("differences")
self.log(differences, pretty_print=True)
if container.running:
self.container_stop(container.Id)
self.container_remove(container.Id)
new_container = self.container_create(self.parameters.image, self.parameters.create_parameters)
if new_container:
container = new_container
if container and container.exists:
container = self.update_limits(container)
container = self.update_networks(container)
if state == 'started' and not container.running:
container = self.container_start(container.Id)
elif state == 'started' and self.parameters.restart:
self.container_stop(container.Id)
container = self.container_start(container.Id)
elif state == 'stopped' and container.running:
self.container_stop(container.Id)
container = self._get_container(container.Id)
self.facts = container.raw
def absent(self):
container = self._get_container(self.parameters.name)
if container.exists:
if container.running:
self.container_stop(container.Id)
self.container_remove(container.Id)
def fail(self, msg, **kwargs):
self.client.module.fail_json(msg=msg, **kwargs)
def _get_container(self, container):
'''
Expects container ID or Name. Returns a container object
'''
return Container(self.client.get_container(container), self.parameters)
def _get_image(self):
if not self.parameters.image:
self.log('No image specified')
return None
repository, tag = utils.parse_repository_tag(self.parameters.image)
if not tag:
tag = "latest"
image = self.client.find_image(repository, tag)
if not self.check_mode:
if not image or self.parameters.pull:
self.log("Pull the image.")
image = self.client.pull_image(repository, tag)
self.results['actions'].append(dict(pulled_image="%s:%s" % (repository, tag)))
self.results['changed'] = True
self.log("image")
self.log(image, pretty_print=True)
return image
def _image_is_different(self, image, container):
if image and image.get('Id'):
if container and container.Image:
if image.get('Id') != container.Image:
return True
return False
def update_limits(self, container):
limits_differ, different_limits = container.has_different_resource_limits()
if limits_differ:
self.log("limit differences:")
self.log(different_limits, pretty_print=True)
if limits_differ and not self.check_mode:
self.container_update(container.Id, self.parameters.update_parameters)
return self._get_container(container.Id)
return container
def update_networks(self, container):
has_network_differences, network_differences = container.has_network_differences()
updated_container = container
if has_network_differences:
if self.diff.get('differences'):
self.diff['differences'].append(dict(network_differences=network_differences))
else:
self.diff['differences'] = [dict(network_differences=network_differences)]
self.results['changed'] = True
updated_container = self._add_networks(container, network_differences)
if self.parameters.purge_networks:
has_extra_networks, extra_networks = container.has_extra_networks()
if has_extra_networks:
if self.diff.get('differences'):
self.diff['differences'].append(dict(purge_networks=extra_networks))
else:
self.diff['differences'] = [dict(purge_networks=extra_networks)]
self.results['changed'] = True
updated_container = self._purge_networks(container, extra_networks)
return updated_container
def _add_networks(self, container, differences):
for diff in differences:
# remove the container from the network, if connected
if diff.get('container'):
self.results['actions'].append(dict(removed_from_network=diff['parameter']['name']))
if not self.check_mode:
try:
self.client.disconnect_container_from_network(container.Id, diff['parameter']['id'])
except Exception as exc:
self.fail("Error disconnecting container from network %s - %s" % (diff['parameter']['name'],
str(exc)))
# connect to the network
params = dict(
ipv4_address=diff['parameter'].get('ipv4_address', None),
ipv6_address=diff['parameter'].get('ipv6_address', None),
links=diff['parameter'].get('links', None),
aliases=diff['parameter'].get('aliases', None)
)
self.results['actions'].append(dict(added_to_network=diff['parameter']['name'], network_parameters=params))
if not self.check_mode:
try:
self.log("Connecting conainer to network %s" % diff['parameter']['id'])
self.log(params, pretty_print=True)
self.client.connect_container_to_network(container.Id, diff['parameter']['id'], **params)
except Exception as exc:
self.fail("Error connecting container to network %s - %s" % (diff['parameter']['name'], str(exc)))
return self._get_container(container.Id)
def _purge_networks(self, container, networks):
for network in networks:
self.results['actions'].append(dict(removed_from_network=network['name']))
if not self.check_mode and network.get('id'):
try:
self.client.disconnect_container_from_network(container.Id, network['id'])
except Exception as exc:
self.fail("Error disconnecting container from network %s - %s" % (network['name'],
str(exc)))
return self._get_container(container.Id)
def container_create(self, image, create_parameters):
self.log("create container")
self.log("image: %s parameters:" % image)
self.log(create_parameters, pretty_print=True)
self.results['actions'].append(dict(created="Created container", create_parameters=create_parameters))
self.results['changed'] = True
new_container = None
if not self.check_mode:
try:
new_container = self.client.create_container(image, **create_parameters)
except Exception as exc:
self.fail("Error creating container: %s" % str(exc))
return self._get_container(new_container['Id'])
return new_container
def container_start(self, container_id):
self.log("start container %s" % (container_id))
self.results['actions'].append(dict(started=container_id))
self.results['changed'] = True
if not self.check_mode:
try:
self.client.start(container=container_id)
except Exception as exc:
self.fail("Error starting container %s: %s" % (container_id, str(exc)))
if not self.parameters.detach:
status = self.client.wait(container_id)
output = self.client.logs(container_id, stdout=True, stderr=True, stream=False, timestamps=False)
if status != 0:
self.fail(output, status=status)
if self.parameters.cleanup:
self.container_remove(container_id, force=True)
insp = self._get_container(container_id)
if insp.raw:
insp.raw['Output'] = output
else:
insp.raw = dict(Output=output)
return insp
return self._get_container(container_id)
def container_remove(self, container_id, link=False, force=False):
volume_state = (not self.parameters.keep_volumes)
self.log("remove container container:%s v:%s link:%s force%s" % (container_id, volume_state, link, force))
self.results['actions'].append(dict(removed=container_id, volume_state=volume_state, link=link, force=force))
self.results['changed'] = True
response = None
if not self.check_mode:
try:
response = self.client.remove_container(container_id, v=volume_state, link=link, force=force)
except Exception as exc:
self.fail("Error removing container %s: %s" % (container_id, str(exc)))
return response
def container_update(self, container_id, update_parameters):
if update_parameters:
self.log("update container %s" % (container_id))
self.log(update_parameters, pretty_print=True)
self.results['actions'].append(dict(updated=container_id, update_parameters=update_parameters))
self.results['changed'] = True
if not self.check_mode and callable(getattr(self.client, 'update_container')):
try:
self.client.update_container(container_id, **update_parameters)
except Exception as exc:
self.fail("Error updating container %s: %s" % (container_id, str(exc)))
return self._get_container(container_id)
def container_kill(self, container_id):
self.results['actions'].append(dict(killed=container_id, signal=self.parameters.kill_signal))
self.results['changed'] = True
response = None
if not self.check_mode:
try:
if self.parameters.kill_signal:
response = self.client.kill(container_id, signal=self.parameters.kill_signal)
else:
response = self.client.kill(container_id)
except Exception as exc:
self.fail("Error killing container %s: %s" % (container_id, exc))
return response
def container_stop(self, container_id):
if self.parameters.force_kill:
self.container_kill(container_id)
return
self.results['actions'].append(dict(stopped=container_id, timeout=self.parameters.stop_timeout))
self.results['changed'] = True
response = None
if not self.check_mode:
try:
if self.parameters.stop_timeout:
response = self.client.stop(container_id, timeout=self.parameters.stop_timeout)
else:
response = self.client.stop(container_id)
except Exception as exc:
self.fail("Error stopping container %s: %s" % (container_id, str(exc)))
return response
def main():
argument_spec = dict(
blkio_weight=dict(type='int'),
capabilities=dict(type='list'),
cleanup=dict(type='bool', default=False),
command=dict(type='str'),
cpu_period=dict(type='int'),
cpu_quota=dict(type='int'),
cpuset_cpus=dict(type='str'),
cpuset_mems=dict(type='str'),
cpu_shares=dict(type='int'),
detach=dict(type='bool', default=True),
devices=dict(type='list'),
dns_servers=dict(type='list'),
dns_opts=dict(type='list'),
dns_search_domains=dict(type='list'),
env=dict(type='dict'),
env_file=dict(type='path'),
entrypoint=dict(type='list'),
etc_hosts=dict(type='dict'),
exposed_ports=dict(type='list', aliases=['exposed', 'expose']),
force_kill=dict(type='bool', default=False, aliases=['forcekill']),
groups=dict(type='list'),
hostname=dict(type='str'),
image=dict(type='str'),
interactive=dict(type='bool', default=False),
ipc_mode=dict(type='str'),
keep_volumes=dict(type='bool', default=True),
kernel_memory=dict(type='str'),
kill_signal=dict(type='str'),
labels=dict(type='dict'),
links=dict(type='list'),
log_driver=dict(type='str', choices=['json-file', 'syslog', 'journald', 'gelf', 'fluentd', 'awslogs', 'splunk'], default='json-file'),
log_options=dict(type='dict', aliases=['log_opt']),
mac_address=dict(type='str'),
memory=dict(type='str', default='0'),
memory_reservation=dict(type='str'),
memory_swap=dict(type='str'),
memory_swappiness=dict(type='int'),
name=dict(type='str', required=True),
network_mode=dict(type='str'),
networks=dict(type='list'),
oom_killer=dict(type='bool'),
paused=dict(type='bool', default=False),
pid_mode=dict(type='str'),
privileged=dict(type='bool', default=False),
published_ports=dict(type='list', aliases=['ports']),
pull=dict(type='bool', default=False),
purge_networks=dict(type='bool', deault=False),
read_only=dict(type='bool', default=False),
recreate=dict(type='bool', default=False),
restart=dict(type='bool', default=False),
restart_policy=dict(type='str', choices=['no', 'on-failure', 'always', 'unless-stopped']),
restart_retries=dict(type='int', default=0),
shm_size=dict(type='str'),
security_opts=dict(type='list'),
state=dict(type='str', choices=['absent', 'present', 'started', 'stopped'], default='started'),
stop_signal=dict(type='str'),
stop_timeout=dict(type='int'),
trust_image_content=dict(type='bool', default=False),
tty=dict(type='bool', default=False),
ulimits=dict(type='list'),
user=dict(type='str'),
uts=dict(type='str'),
volumes=dict(type='list'),
volumes_from=dict(type='list'),
volume_driver=dict(type='str'),
)
required_if = [
('state', 'present', ['image'])
]
client = AnsibleDockerClient(
argument_spec=argument_spec,
required_if=required_if,
supports_check_mode=True
)
cm = ContainerManager(client)
client.module.exit_json(**cm.results)
# import module snippets
from ansible.module_utils.basic import *
if __name__ == '__main__':
main()