#!/usr/bin/env python # # The MIT License (MIT) # # Copyright (c) 2013 Cove Schneider # # Permission is hereby granted, free of charge, to any person obtaining a copy # of this software and associated documentation files (the "Software"), to deal # in the Software without restriction, including without limitation the rights # to use, copy, modify, merge, publish, distribute, sublicense, and/or sell # copies of the Software, and to permit persons to whom the Software is # furnished to do so, subject to the following conditions: # # The above copyright notice and this permission notice shall be included in # all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR # IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, # FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE # AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER # LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, # OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN # THE SOFTWARE. DOCUMENTATION = ''' --- module: docker short_description: manage docker containers description: - Manage the life cycle of docker containers. options: count: description: - Set number of containers to run required: False default: 1 aliases: [] image: description: - Set container image to use required: true default: null aliases: [] command: description: - Set command to run in a container on startup required: false default: null aliases: [] ports: description: - Set private to public port mapping specification (e.g. ports=22,80 or ports=:8080 maps 8080 directly to host) required: false default: null aliases: [] volumes: description: - Set volume(s) to mount on the container required: false default: null aliases: [] volumes_from: description: - Set shared volume(s) from another container required: false default: null aliases: [] memory_limit: description: - Set RAM allocated to container required: false default: null aliases: [] default: 256MB docker_url: description: - URL of docker host to issue commands to required: false default: unix://var/run/docker.sock aliases: [] username: description: - Set remote API username required: false default: null aliases: [] password: description: - Set remote API password required: false default: null aliases: [] hostname: description: - Set container hostname required: false default: null aliases: [] env: description: - Set environment variables required: false default: null aliases: [] dns: description: - Set custom DNS servers for the container required: false default: null aliases: [] detach: description: - Enable detached mode on start up, leaves container running in background required: false default: true aliases: [] state: description: - Set the state of the container required: false default: present choices: [ "present", "stopped", "absent", "killed", "restarted" ] aliases: [] privileged: description: - Set whether the container should run in privileged mode required: false default: false aliases: [] lxc_conf: description: - LXC config parameters, e.g. lxc.aa_profile:unconfined required: false default: aliases: [] requirements: [ "docker-py" ] author: Cove Schneider ''' EXAMPLES = ''' Start one docker container running tomcat in each host of the web group and bind tomcat's listening port to 8080 on the host: - hosts: web sudo: yes tasks: - name: run tomcat servers docker: image=centos command="service tomcat6 start" ports=:8080 The tomcat server's port is NAT'ed to a dynamic port on the host, but you can determine which port the server was mapped to using $DockerContainers: - hosts: web sudo: yes tasks: - name: run tomcat servers docker: image=centos command="service tomcat6 start" ports=8080 count=5 - name: Display IP address and port mappings for containers debug: msg="Mapped to {{inventory_hostname}}:{{item.NetworkSettings.PortMapping.Tcp['8080']}}" with_items: $DockerContainers Just as in the previous example, but iterates over the list of docker containers with a sequence: - hosts: web sudo: yes vars: start_containers_count: 5 tasks: - name: run tomcat servers docker: image=centos command="service tomcat6 start" ports=8080 count={{start_containers_count}} - name: Display IP address and port mappings for containers debug: msg="Mapped to {{inventory_hostname}}:{{DockerContainers[{{item}}].NetworkSettings.PortMapping.Tcp['8080']}}" with_sequence: start=0 end={{start_containers_count - 1}} Stop and remove all of the running tomcat containers: - hosts: web sudo: yes tasks: - name: stop tomcat servers docker: image=centos command="service tomcat6 start" state=absent ''' try: import sys import json import docker.client from requests.exceptions import * from urlparse import urlparse except ImportError, e: print "failed=True msg='failed to import python module: %s'" % e sys.exit(1) def _human_to_bytes(number): suffixes = ['B', 'KB', 'MB', 'GB', 'TB', 'PB'] if isinstance(number, int): return number if number[-1] == suffixes[0] and number[-2].isdigit(): return number[:-1] i = 1 for each in suffixes[1:]: if number[-len(each):] == suffixes[i]: return int(number[:-len(each)]) * (1024 ** i) i = i + 1 print "failed=True msg='Could not convert %s to integer'" % (number) sys.exit(1) def _ansible_facts(container_list): return {"DockerContainers": container_list} class AnsibleDocker: counters = {'created':0, 'started':0, 'stopped':0, 'killed':0, 'removed':0, 'restarted':0, 'pull':0} def __init__(self, module): self.module = module # connect to docker server docker_url = urlparse(module.params.get('docker_url')) self.client = docker.Client(base_url=docker_url.geturl()) def get_summary_counters_msg(self): msg = "" for k, v in self.counters.iteritems(): msg = msg + "%s %d " % (k, v) return msg def increment_counter(self, name): self.counters[name] = self.counters[name] + 1 def has_changed(self): for k, v in self.counters.iteritems(): if v > 0: return True return False def get_deployed_containers(self): # determine which images/commands are running already containers = self.client.containers() image = self.module.params.get('image') command = self.module.params.get('command') deployed = [] for i in containers: if i["Image"].split(":")[0] == image.split(":")[0] and (not command or i["Command"].strip() == command.strip()): details = self.client.inspect_container(i['Id']) # XXX: some quirk in docker if 'ID' in details: details['Id'] = details['ID'] del details['ID'] deployed.append(details) return deployed def get_running_containers(self): running = [] for i in self.get_deployed_containers(): if i['State']['Running'] == True: running.append(i) return running def create_containers(self, count=1): params = {'image': self.module.params.get('image'), 'command': self.module.params.get('command'), 'volumes_from': self.module.params.get('volumes_from'), 'mem_limit': _human_to_bytes(self.module.params.get('memory_limit')), 'environment': self.module.params.get('env'), 'dns': self.module.params.get('dns'), 'hostname': self.module.params.get('hostname'), 'detach': self.module.params.get('detach'), 'privileged': self.module.params.get('privileged'), } if self.module.params.get('ports'): params['ports'] = self.module.params.get('ports').split(",") def do_create(count, params): results = [] for i in range(count): result = self.client.create_container(**params) self.increment_counter('created') results.append(result) return results try: containers = do_create(count, params) except: self.client.pull(params['image']) self.increment_counter('pull') containers = do_create(count, params) return containers def start_containers(self, containers): binds = None if self.module.params.get('volumes'): binds = {} vols = self.module.params.get('volumes').split(" ") for vol in vols: parts = vol.split(":") binds[parts[0]] = parts[1] lxc_conf = None if self.module.params.get('lxc_conf'): lxc_conf = [] options = self.module.params.get('lxc_conf').split(" ") for option in options: parts = option.split(':') lxc_conf.append({"Key": parts[0], "Value": parts[1]}) for i in containers: self.client.start(i['Id'], lxc_conf=lxc_conf, binds=binds) self.increment_counter('started') def stop_containers(self, containers): for i in containers: self.client.stop(i['Id']) self.increment_counter('stopped') return [self.client.wait(i['Id']) for i in containers] def remove_containers(self, containers): for i in containers: self.client.remove_container(i['Id']) self.increment_counter('removed') def kill_containers(self, containers): for i in containers: self.client.kill(i['Id']) self.increment_counter('killed') def restart_containers(self, containers): for i in containers: self.client.restart(i['Id']) self.increment_counter('restarted') def main(): module = AnsibleModule( argument_spec = dict( count = dict(default=1), image = dict(required=True), command = dict(required=False, default=None), ports = dict(required=False, default=None), volumes = dict(default=None), volumes_from = dict(default=None), memory_limit = dict(default=0), memory_swap = dict(default=0), docker_url = dict(default='unix://var/run/docker.sock'), user = dict(default=None), password = dict(), email = dict(), hostname = dict(default=None), env = dict(), dns = dict(), detach = dict(default=True, type='bool'), state = dict(default='present', choices=['absent', 'present', 'stopped', 'killed', 'restarted']), debug = dict(default=False, type='bool'), privileged = dict(default=False, type='bool'), lxc_conf = dict(default=None) ) ) try: docker_client = AnsibleDocker(module) state = module.params.get('state') count = int(module.params.get('count')) if count < 1: module.fail_json(msg="Count must be positive number") running_containers = docker_client.get_running_containers() running_count = len(running_containers) delta = count - running_count deployed_containers = docker_client.get_deployed_containers() facts = None failed = False changed = False # start/stop containers if state == "present": # start more containers if we don't have enough if delta > 0: containers = docker_client.create_containers(delta) docker_client.start_containers(containers) # stop containers if we have too many elif delta < 0: docker_client.stop_containers(running_containers[0:abs(delta)]) docker_client.remove_containers(running_containers[0:abs(delta)]) facts = docker_client.get_running_containers() # stop and remove containers elif state == "absent": facts = docker_client.stop_containers(deployed_containers) docker_client.remove_containers(containers) # stop containers elif state == "stopped": facts = docker_client.stop_containers(running_containers) # kill containers elif state == "killed": docker_client.kill_containers(running_containers) # restart containers elif state == "restarted": docker_client.restart_containers(running_containers) msg = "%s container(s) running image %s with command %s" % \ (docker_client.get_summary_counters_msg(), module.params.get('image'), module.params.get('command')) changed = docker_client.has_changed() module.exit_json(failed=failed, changed=changed, msg=msg, ansible_facts=_ansible_facts(facts)) except docker.client.APIError as e: changed = docker_client.has_changed() module.exit_json(failed=True, changed=changed, msg="Docker API error: " + e.explanation) except RequestException as e: changed = docker_client.has_changed() module.exit_json(failed=True, changed=changed, msg=repr(e)) # this is magic, see lib/ansible/module_common.py #<> main()