2013-11-18 04:54:51 +00:00
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#!/usr/bin/env python
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# Author: Colin Johnson / colin@cloudavail.com
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# Date: 2013-11-17
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# Version 0.1
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# License Type: GNU GENERAL PUBLIC LICENSE, Version 3
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import argparse
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import logging
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import os
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import time
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from boto import ec2
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from boto import exception
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app_name = os.path.basename(__file__)
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unix_time_current = time.time()
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# datetime_format_standard is ISO 8601 combined date and time with timezone
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datetime_format_standard = '%Y-%m-%dT%H:%M:%S%z'
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datetime_current = time.strftime(datetime_format_standard,
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time.gmtime(unix_time_current))
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def attach_volume(instance_object, volume_object, device):
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''' given a ec2.instance.Instance object, an ec2.volume.Volume object and
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a device, attach the volume object and wait for the volume to show as
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in-use '''
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logging.debug('attach_volume called.')
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attach_result = volume_object.attach(instance_object.id, device)
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logging.info('attach result was: {!s}'.format(attach_result))
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wait_aws_event(object_in=volume_object, object_type='volume',
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wait_for_string='in-use')
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def create_snapshot(volume_object, snapshot_description=None):
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''' given a volume object, take a snapshot and return a snapshot object '''
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logging.debug('create_snapshot called.')
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snapshot_object = volume_object.create_snapshot(snapshot_description)
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wait_aws_event(object_in=snapshot_object, object_type='snapshot',
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wait_for_string='completed')
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return snapshot_object
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def create_volume(snapshot_object, size, availability_zone, iops=None,
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volume_type=None):
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''' given a boto.ec2.snapshot.Snapshot, size and availability zone, returns
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a volume object '''
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logging.debug('create_volume called.')
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logging.info('snapshot_id: {!s}, size: {!s}, availability_zone: {!s}, iops: {!s}, volume_type: {!s}'
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.format(snapshot_object, size, availability_zone, iops, volume_type))
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volume_object = snapshot_object.create_volume(availability_zone, size=size,
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iops=iops,
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volume_type=volume_type)
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wait_aws_event(object_in=volume_object, object_type='volume',
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wait_for_string='available')
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logging.info('new volume id is: {!s}'.format(volume_object.id))
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return volume_object
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def detach_volume(volume_object):
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''' given a boto.ec2.volume.Volume object, detaches it and waits for the
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volume to show as available'''
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logging.debug('detach_volume called.')
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try:
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detach_result = volume_object.detach()
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except exception.EC2ResponseError:
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logging.critical('An error occured when attempting to detach volume {!s}.'.format(volume_object.id))
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exit (1)
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logging.info('detach result was: {!s}'.format(detach_result))
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wait_aws_event(object_in=volume_object, object_type='volume',
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wait_for_string='available')
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def get_block_device_type(block_device_name, block_device_mapping):
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''' given a block device name and a block device mapping, returns a
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boto.ec2.blockdevicemapping.BlockDeviceType object'''
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block_device_type = None
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logging.debug('get_block_device_type called.')
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logging.info('device is {!s}.'.format(block_device_name))
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if block_device_name in block_device_mapping:
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logging.info('block device {!s} found'.format(block_device_name))
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block_device_type = block_device_mapping[block_device_name]
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else:
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logging.critical('block device {!s} not found.'
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.format(block_device_name))
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exit(1)
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logging.info('block_device_name\'s volume_id is: {!s}.'
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.format(block_device_type.volume_id))
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return block_device_type
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def get_block_device_volume(ec2_connection, volume_id):
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''' given an ec2_connection object and a volume_id, returns a volume
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object'''
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logging.debug('get_block_device_volume called.')
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volume_object = None
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get_all_volumes_result = ec2_connection.get_all_volumes(volume_ids=[volume_id])
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volume_object = get_all_volumes_result[0]
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return volume_object
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def get_selected_instances(instance_id):
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''' given an instance_id returns an instance object '''
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logging.debug('get_selected_instances called.')
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try:
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instances = ec2_connection.get_only_instances([instance_id])
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except exception.EC2ResponseError:
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logging.critical('Unable to get selected instance due to an EC2ResponseError.')
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exit(1)
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if len(instances) == 0:
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exit(1)
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instance = instances[0]
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logging.info('instance_id found: {!s}'.format(instance.id))
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return instance
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def return_desired_volume_size(aws_limits, args, volume_object):
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# determine volume_attributes['size']
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desired_volume_size = None
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if args.volume_size is not None:
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if args.volume_size > aws_limits['max_volume_size']:
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logging.critical('--volume-size can not be greater than {!s}. You requested --volume-size {!s}.'
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.format(aws_limits['max_volume_size'],
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args.volume_size))
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exit(1)
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else:
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desired_volume_size = args.volume_size
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else:
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desired_volume_size = volume_object.size
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# validate volume_attributes['size']
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# the desired_volume_size must be greater than the previous_volume.size
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if volume_object.size > desired_volume_size:
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logging.critical('--volume-size must be greater than the existing volume size. You requested --volume-size {!s} and volume {!s} has a size of {!s}.'
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.format(desired_volume_size, volume_object.id,
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volume_object.size))
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exit(1)
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logging.info('desired volume size will be: {!s}'
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.format(desired_volume_size))
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return desired_volume_size
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def return_desired_iops(aws_limits, args, volume_object, volume_size):
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desired_iops = None
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# handle the condition where the user has input --volume-type io1 and
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# not input an --iops value
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if args.iops is None:
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if args.volume_type is not None:
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logging.critical('if a --volume-type except standard is specified --iops <int> must be specified as well.')
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exit(1)
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else:
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desired_iops = volume_object.iops
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else:
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desired_iops = args.iops
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if desired_iops < aws_limits['min_iops']:
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logging.critical('--iops must be greater than {!s}.'.format(aws_limits['min_iops']))
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exit(1)
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elif desired_iops > aws_limits['max_iops']:
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logging.critical('--iops must be less than {!s}.'.format(aws_limits['max_iops']))
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exit(1)
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# validate volume_attributes['iops'] settings with volume_attributes['size']
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# http://docs.aws.amazon.com/AWSEC2/latest/UserGuide/EBSVolumeTypes.html#EBSVolumeTypes_piops
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max_allowed_iops = (aws_limits['max_iops_size_multiplier'] * volume_size)
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if desired_iops > max_allowed_iops:
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logging.critical('--iops may not be greater than {!s} times volume size. Maximum allowable iops is {!s}.'
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.format(aws_limits['max_iops_size_multiplier'], max_allowed_iops))
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exit(1)
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logging.info('desired volume iops will be: {!s}'.format(desired_iops))
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return desired_iops
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def validate_standard_volume_attrs(args, volume_object, aws_limits):
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if args.iops is not None:
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logging.critical('--iops can only be used if --volume-type io1.')
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exit(1)
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if volume_object.type is not 'standard':
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logging.warning('You requested standard and current volume type is {!s}.'
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.format(volume_object.type))
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def return_desired_volume_attrs(args, volume_object):
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''' given an arguments object and a volume object returns sensible volume
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attributes for a new volume. Rule is to always use argument if provided, else
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to fall back to existing attributes else to use defaults.'''
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logging.debug('return_desired_volume_attrs called.')
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volume_attributes = {'size': None, 'volume_type': None, 'iops': None}
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# max_iops_size_multiplier is used to determine the allowable number of iops
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# given a volume size. iops can be no greater than 30 x volume size as of
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# 2013-11-17
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aws_limits = {'max_volume_size': 1024, 'min_iops': 100, 'max_iops': 4000,
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'max_iops_size_multiplier': 30}
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volume_attributes['size'] = return_desired_volume_size(aws_limits=aws_limits,
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args=args,
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volume_object=volume_object)
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# determine volume_attributes['type']
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if args.volume_type is not None:
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volume_attributes['type'] = args.volume_type
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else:
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volume_attributes['type'] = volume_object.type
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logging.info('desired volume type will be: {!s}'
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.format(volume_attributes['type']))
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if volume_attributes['type'] == 'standard':
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validate_standard_volume_attrs(aws_limits=aws_limits, args=args, volume_object=volume_object)
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elif volume_attributes['type'] == 'io1':
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volume_attributes['iops'] = return_desired_iops(aws_limits=aws_limits,
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args=args,
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volume_object=volume_object,
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volume_size=volume_attributes['size'])
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else:
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logging.critical('Supported --volume-types are \'io1\' and \'standard\'.')
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exit(1)
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return volume_attributes
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def start_instance(instance_object):
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logging.debug('start_instance called.')
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instance_object.start()
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wait_aws_event(object_in=instance_object, object_type='instance',
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wait_for_string='running')
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def stop_instance(instance_object):
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logging.debug('stop_instance called.')
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instance_object.stop()
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wait_aws_event(object_in=instance_object, object_type='instance',
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wait_for_string='stopped')
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def wait_aws_event(object_in, object_type, wait_for_string):
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''' given an object, a string describing the type of object and a string
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that will be return when the resource represented by the object is available,
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wait_aws_event will poll the object to determine if the resource is represents
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is available for service. wait_aws_event returns when '''
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logging.debug('wait_aws_event called.')
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# allowed_wait_time reflects the number of seconds a that wait_aws_event
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# will wait for a status or state change
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2014-04-12 21:23:12 +00:00
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allowed_wait_time = 900
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2013-11-18 04:54:51 +00:00
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# determines the correct attribute to poll to determine the state/status
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# of an object. Instance resources/objects use 'state' while other
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# resources/objects use status.
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if object_type == 'instance':
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attribute = 'state'
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else:
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attribute = 'status'
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total_time_waiting = 0
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time_between_polling = 5
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object_id = getattr(object_in, 'id')
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object_status = getattr(object_in, attribute)
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logging.info('wait_aws_event will wait for {!s} seconds {!s} {!s} to return to {!s} {!s}.'
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.format(allowed_wait_time, object_type, object_id, attribute,
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wait_for_string))
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while object_status != unicode(wait_for_string) and total_time_waiting < allowed_wait_time:
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object_in.update()
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object_status = getattr(object_in, attribute)
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logging.info('{!s} {!s}\'s {!s} is {!s}. Time elapsed is {!s} seconds.'
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.format(object_type, object_id, attribute, object_status,
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total_time_waiting))
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time.sleep(time_between_polling)
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total_time_waiting += time_between_polling
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logging.info('total time waiting for {!s} {!s} to return to {!s} {!s}: {!s} seconds.'
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.format(object_type, object_id, attribute, wait_for_string,
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total_time_waiting))
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if object_status == unicode(wait_for_string):
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pass
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else:
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logging.critical('{!s} {!s} did not return to {!s} {!s} in {!s} seconds.'
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.format(object_type, object_id, attribute,
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wait_for_string, allowed_wait_time))
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exit(1)
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return object_status
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# creates ec2_connection object
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try:
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ec2_connection = ec2.connect_to_region('us-east-1')
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except:
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logging.critical('An error occured when attempting to connect to the AWS API.')
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exit(1)
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# aws_regions contains a list of strings representing AWS regions
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aws_regions = [ (str(region.name)) for region in ec2_connection.get_all_regions() ]
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parser = argparse.ArgumentParser()
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parser.add_argument('--device', default='root',
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help='select the device to modify by device attachment point. Example, /dev/sda1, /dev/sdf or root to select the root device.')
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parser.add_argument('--instance-id', dest='instance_id', required=True,
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help='set the instance-id of the instance that should have the EBS volume expanded.')
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parser.add_argument('--iops', type=int, default=None,
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help='set the number of iops the EBS volume should provide.')
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parser.add_argument('--log-level', dest='log_level', default='INFO',
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choices=['DEBUG', 'INFO', 'WARNING', 'ERROR', 'CRITICAL'],
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help='set the log level when running {!s}.'.format(app_name))
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parser.add_argument('--region',
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help='set the region where instances should be located.',
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default='us-east-1', choices=aws_regions)
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parser.add_argument('--volume-size', dest='volume_size', type=int, default=None,
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help='set the volume size that the EBS volume should be.')
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parser.add_argument('--volume-type', dest='volume_type', default=None,
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choices=['standard', 'io1'],
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help='set the type of EBS volume.')
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args = parser.parse_args()
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# configure logging
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log_format = '%(message)s'
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log_level = str.upper(args.log_level)
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logging.basicConfig(level=log_level, format=log_format)
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region = args.region
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instance_id = args.instance_id
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device = args.device
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# gets an instance object corresponding to the instance_id
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selected_instance = get_selected_instances(instance_id)
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# if the given instance_id's shutdown behavior is not stop then exit
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# if the instance_id's shutdown behavior is terminate than the EBS volume would
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# be deleted
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shutdown_behavior = ec2_connection.get_instance_attribute(instance_id, 'instanceInitiatedShutdownBehavior')
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if shutdown_behavior[unicode('instanceInitiatedShutdownBehavior')] != unicode('stop'):
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logging.critical('instance_id {!s}\'s shutdown behavior must be "stop."\
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|
{!s}\'s shutdown behavior is "{!s}."'.format(instance_id, instance_id,
|
|
|
|
shutdown_behavior[unicode('instanceInitiatedShutdownBehavior')]))
|
|
|
|
exit(1)
|
|
|
|
|
|
|
|
instance_az = selected_instance.placement
|
|
|
|
instance_initial_state = selected_instance.state
|
|
|
|
logging.info('instance_id {!s}\'s state is {!s}.'
|
|
|
|
.format(selected_instance.id, instance_initial_state))
|
|
|
|
if device == 'root':
|
|
|
|
selected_device = selected_instance.root_device_name
|
|
|
|
else:
|
|
|
|
selected_device = device
|
|
|
|
logging.info('selected device is: {!s}'.format(selected_device))
|
|
|
|
instance_block_device_mapping = selected_instance.block_device_mapping
|
|
|
|
|
|
|
|
# given the device and mapping, get a BlockDeviceType object - this object
|
|
|
|
# represents the volume to be modified
|
|
|
|
block_device_type = get_block_device_type(selected_device,
|
|
|
|
instance_block_device_mapping)
|
|
|
|
# given a BlockDeviceType object, get the a volume object - this object
|
|
|
|
# represents the volume resource that will be increased in size
|
|
|
|
previous_volume = get_block_device_volume(ec2_connection,
|
|
|
|
block_device_type.volume_id)
|
|
|
|
|
|
|
|
desired_volume_attrs = return_desired_volume_attrs(args=args,
|
|
|
|
volume_object=previous_volume)
|
|
|
|
|
|
|
|
# stops the instance - this may not be required, but is recommended in
|
|
|
|
# http://docs.aws.amazon.com/AWSEC2/latest/UserGuide/ebs-expand-volume.html#recognize-expanded-volume-linux
|
|
|
|
stop_instance(instance_object=selected_instance)
|
|
|
|
# detach the volume to be resized from the instance - this could be done after
|
|
|
|
# the snapshot is taken
|
|
|
|
detach_volume(volume_object=previous_volume)
|
|
|
|
|
|
|
|
snapshot_description = '{!s}-{!s}'.format(app_name, datetime_current)
|
|
|
|
previous_volume_snapshot = create_snapshot(volume_object=previous_volume,
|
|
|
|
snapshot_description=snapshot_description)
|
|
|
|
|
|
|
|
new_volume = create_volume(snapshot_object=previous_volume_snapshot,
|
|
|
|
availability_zone=instance_az,
|
|
|
|
size=desired_volume_attrs['size'],
|
|
|
|
iops=desired_volume_attrs['iops'],
|
|
|
|
volume_type=desired_volume_attrs['type'])
|
|
|
|
attach_volume(instance_object=selected_instance, volume_object=new_volume,
|
|
|
|
device=selected_device)
|
|
|
|
|
|
|
|
if instance_initial_state == unicode('running'):
|
|
|
|
logging.info('instance_id {!s}\'s state was {!s}. instance_id {!s} will be returned to running state.'
|
|
|
|
.format(selected_instance.id, instance_initial_state,
|
|
|
|
selected_instance.id))
|
|
|
|
start_instance(instance_object=selected_instance)
|