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#!/usr/bin/python
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# 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 <http://www.gnu.org/licenses/>.
DOCUMENTATION = '''
---
module: ec2
short_description: create an instance in ec2, return instanceid
description:
- creates ec2 instances and optionally waits for it to be 'running'. This module has a dependency on python-boto >= 2.5
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version_added: "0.9"
options:
key_name:
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description:
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- key pair to use on the instance
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required: true
default: null
aliases: ['keypair']
id:
description:
- identifier for this instance or set of instances, so that the module will be idempotent with respect to EC2 instances.
required: false
default: null
aliases: []
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group:
description:
- security group (or list of groups) to use with the instance
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required: false
default: null
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aliases: [ 'groups' ]
group_id:
version_added: "1.1"
description:
- security group id to use with the instance
required: false
default: null
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aliases: []
region:
version_added: "1.2"
description:
- the EC2 region to use
required: false
default: null
aliases: []
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zone:
version_added: "1.2"
description:
- availability zone in which to launch the instance
required: false
default: null
aliases: []
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instance_type:
description:
- instance type to use for the instance
required: true
default: null
aliases: []
image:
description:
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- I(emi) (or I(ami)) to use for the instance
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required: true
default: null
aliases: []
kernel:
description:
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- kernel I(eki) to use for the instance
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required: false
default: null
aliases: []
ramdisk:
description:
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- ramdisk I(eri) to use for the instance
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required: false
default: null
aliases: []
wait:
description:
- wait for the instance to be in state 'running' before returning
required: false
default: "no"
choices: [ "yes", "no" ]
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aliases: []
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wait_timeout:
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description:
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- how long before wait gives up, in seconds
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default: 300
aliases: []
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ec2_url:
description:
- url to use to connect to EC2 or your Eucalyptus cloud (by default the module will use EC2 endpoints)
required: false
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default: null
aliases: []
ec2_secret_key:
description:
- ec2 secret key
required: false
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default: null
aliases: []
ec2_access_key:
description:
- ec2 access key
required: false
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default: null
aliases: []
count:
description:
- number of instances to launch
required: False
default: 1
aliases: []
monitor:
version_added: "1.1"
description:
- enable detailed monitoring (CloudWatch) for instance
required: false
default: null
aliases: []
user_data:
version_added: "0.9"
description:
- opaque blob of data which is made available to the ec2 instance
required: false
default: null
aliases: []
instance_tags:
version_added: "1.0"
description:
- a hash/dictionary of tags to add to the new instance; '{"key":"value"}' and '{"key":"value","key":"value"}'
required: false
default: null
aliases: []
placement_group:
version_added: "1.3"
description:
- placement group for the instance when using EC2 Clustered Compute
required: false
default: null
aliases: []
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vpc_subnet_id:
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version_added: "1.1"
description:
- the subnet ID in which to launch the instance (VPC)
required: false
default: null
aliases: []
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private_ip:
version_added: "1.2"
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description:
- the private ip address to assign the instance (from the vpc subnet)
required: false
defualt: null
aliases: []
requirements: [ "boto" ]
author: Seth Vidal, Tim Gerla, Lester Wade
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'''
EXAMPLES = '''
# Basic provisioning example
- local_action:
module: ec2
keypair: mykey
instance_type: c1.medium
image: emi-40603AD1
wait: yes
group: webserver
count: 3
# Advanced example with tagging and CloudWatch
- local_action:
module: ec2
keypair: mykey
group: databases
instance_type: m1.large
image: ami-6e649707
wait: yes
wait_timeout: 500
count: 5
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instance_tags: '{"db":"postgres"}' monitoring=yes'
# Multiple groups example
local_action:
module: ec2
keypair: mykey
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group: ['databases', 'internal-services', 'sshable', 'and-so-forth']
instance_type: m1.large
image: ami-6e649707
wait: yes
wait_timeout: 500
count: 5
instance_tags: '{"db":"postgres"}' monitoring=yes'
# VPC example
- local_action:
module: ec2
keypair: mykey
group_id: sg-1dc53f72
instance_type: m1.small
image: ami-6e649707
wait: yes
vpc_subnet_id: subnet-29e63245'
'''
import sys
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import time
try:
import boto.ec2
except ImportError:
print "failed=True msg='boto required for this module'"
sys.exit(1)
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def main():
module = AnsibleModule(
argument_spec = dict(
key_name = dict(required=True, aliases = ['keypair']),
id = dict(),
group = dict(type='list'),
group_id = dict(),
region = dict(choices=['eu-west-1', 'sa-east-1', 'us-east-1', 'ap-northeast-1', 'us-west-2', 'us-west-1', 'ap-southeast-1', 'ap-southeast-2']),
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zone = dict(),
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instance_type = dict(aliases=['type']),
image = dict(required=True),
kernel = dict(),
count = dict(default='1'),
monitoring = dict(choices=BOOLEANS, default=False),
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ramdisk = dict(),
wait = dict(choices=BOOLEANS, default=False),
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wait_timeout = dict(default=300),
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ec2_url = dict(aliases=['EC2_URL']),
ec2_secret_key = dict(aliases=['EC2_SECRET_KEY'], no_log=True),
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ec2_access_key = dict(aliases=['EC2_ACCESS_KEY']),
placement_group = dict(),
user_data = dict(),
instance_tags = dict(),
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vpc_subnet_id = dict(),
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private_ip = dict(),
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)
)
key_name = module.params.get('key_name')
id = module.params.get('id')
group_name = module.params.get('group')
group_id = module.params.get('group_id')
region = module.params.get('region')
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zone = module.params.get('zone')
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instance_type = module.params.get('instance_type')
image = module.params.get('image')
count = module.params.get('count')
monitoring = module.params.get('monitoring')
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kernel = module.params.get('kernel')
ramdisk = module.params.get('ramdisk')
wait = module.params.get('wait')
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wait_timeout = int(module.params.get('wait_timeout'))
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ec2_url = module.params.get('ec2_url')
ec2_secret_key = module.params.get('ec2_secret_key')
ec2_access_key = module.params.get('ec2_access_key')
placement_group = module.params.get('placement_group')
user_data = module.params.get('user_data')
instance_tags = module.params.get('instance_tags')
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vpc_subnet_id = module.params.get('vpc_subnet_id')
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private_ip = module.params.get('private_ip')
# allow eucarc environment variables to be used if ansible vars aren't set
if not ec2_url and 'EC2_URL' in os.environ:
ec2_url = os.environ['EC2_URL']
if not ec2_secret_key and 'EC2_SECRET_KEY' in os.environ:
ec2_secret_key = os.environ['EC2_SECRET_KEY']
if not ec2_access_key and 'EC2_ACCESS_KEY' in os.environ:
ec2_access_key = os.environ['EC2_ACCESS_KEY']
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# If we have a region specified, connect to its endpoint.
if region:
try:
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ec2 = boto.ec2.connect_to_region(region, aws_access_key_id=ec2_access_key, aws_secret_access_key=ec2_secret_key)
except boto.exception.NoAuthHandlerFound, e:
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module.fail_json(msg = str(e))
# Otherwise, no region so we fallback to the old connection method
else:
try:
if ec2_url: # if we have an URL set, connect to the specified endpoint
ec2 = boto.connect_ec2_endpoint(ec2_url, ec2_access_key, ec2_secret_key)
else: # otherwise it's Amazon.
ec2 = boto.connect_ec2(ec2_access_key, ec2_secret_key)
except boto.exception.NoAuthHandlerFound, e:
module.fail_json(msg = str(e))
# Here we try to lookup the group name from the security group id - if group_id is set.
if group_id and group_name:
module.fail_json(msg = str("Use only one type of parameter (group_name) or (group_id)"))
sys.exit(1)
try:
# Here we try to lookup the group id from the security group name - if group is set.
if group_name:
grp_details = ec2.get_all_security_groups()
if type(group_name) == list:
group_id = list(filter(lambda grp: str(grp.id) if str(tmp) in str(grp) else None, grp_details) for tmp in group_name)
elif type(group_name) == str:
for grp in grp_details:
if str(group_name) in str(grp):
group_id = [str(grp.id)]
group_name = [group_name]
# Now we try to lookup the group id testing if group exists.
elif group_id:
grp_details = ec2.get_all_security_groups(group_ids=group_id)
grp_item = grp_details[0]
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group_name = [grp_item.name]
except boto.exception.NoAuthHandlerFound, e:
module.fail_json(msg = str(e))
# Lookup any instances that much our run id.
running_instances = []
count_remaining = int(count)
if id != None:
filter_dict = {'client-token':id, 'instance-state-name' : 'running'}
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previous_reservations = ec2.get_all_instances(None, filter_dict)
for res in previous_reservations:
for prev_instance in res.instances:
running_instances.append(prev_instance)
count_remaining = count_remaining - len(running_instances)
# Both min_count and max_count equal count parameter. This means the launch request is explicit (we want count, or fail) in how many instances we want.
if count_remaining > 0:
try:
params = {'image_id': image,
'key_name': key_name,
'client_token': id,
'min_count': count_remaining,
'max_count': count_remaining,
'monitoring_enabled': monitoring,
'placement': zone,
'placement_group': placement_group,
'instance_type': instance_type,
'kernel_id': kernel,
'ramdisk_id': ramdisk,
'subnet_id': vpc_subnet_id,
'private_ip_address': private_ip,
'user_data': user_data}
if vpc_subnet_id:
params['security_group_ids'] = group_id
else:
params['security_groups'] = group_name
res = ec2.run_instances(**params)
except boto.exception.BotoServerError, e:
module.fail_json(msg = "%s: %s" % (e.error_code, e.error_message))
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instids = [ i.id for i in res.instances ]
while True:
try:
res.connection.get_all_instances(instids)
break
except boto.exception.EC2ResponseError as e:
if "<Code>InvalidInstanceID.NotFound</Code>" in str(e):
# there's a race between start and get an instance
continue
else:
module.fail_json(msg = str(e))
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if instance_tags:
try:
ec2.create_tags(instids, module.from_json(instance_tags))
except boto.exception.EC2ResponseError as e:
module.fail_json(msg = "%s: %s" % (e.error_code, e.error_message))
# wait here until the instances are up
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res_list = res.connection.get_all_instances(instids)
this_res = res_list[0]
num_running = 0
wait_timeout = time.time() + wait_timeout
while wait and wait_timeout > time.time() and num_running < len(instids):
res_list = res.connection.get_all_instances(instids)
this_res = res_list[0]
num_running = len([ i for i in this_res.instances if i.state=='running' ])
time.sleep(5)
if wait and wait_timeout <= time.time():
# waiting took too long
module.fail_json(msg = "wait for instances running timeout on %s" % time.asctime())
for inst in this_res.instances:
running_instances.append(inst)
instance_dict_array = []
for inst in running_instances:
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d = {
'id': inst.id,
'ami_launch_index': inst.ami_launch_index,
'private_ip': inst.private_ip_address,
'private_dns_name': inst.private_dns_name,
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'public_ip': inst.ip_address,
'dns_name': inst.dns_name,
'public_dns_name': inst.public_dns_name,
'state_code': inst.state_code,
'architecture': inst.architecture,
'image_id': inst.image_id,
'key_name': inst.key_name,
'virtualization_type': inst.virtualization_type,
'placement': inst.placement,
'kernel': inst.kernel,
'ramdisk': inst.ramdisk,
'launch_time': inst.launch_time,
'instance_type': inst.instance_type,
'root_device_type': inst.root_device_type,
'root_device_name': inst.root_device_name,
'state': inst.state,
'hypervisor': inst.hypervisor
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}
instance_dict_array.append(d)
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module.exit_json(changed=True, instances=instance_dict_array)
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# this is magic, see lib/ansible/module_common.py
#<<INCLUDE_ANSIBLE_MODULE_COMMON>>
main()