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#!/usr/bin/env python
"""AWS EC2 instance launcher and controller."""
from __future__ import print_function
import collections
import datetime
import optparse
import sys
import time
import boto3
import botocore
import yaml
_MODES = ("status", "create", "start", "stop", "force-stop", "reboot", "terminate")
class AwsEc2(object):
"""Class to support controlling AWS EC2 istances."""
InstanceStatus = collections.namedtuple("InstanceStatus", [
"instance_id", "image_id", "instance_type", "state", "private_ip_address",
"public_ip_address", "private_dns_name", "public_dns_name", "tags"
])
def __init__(self):
try:
self.connection = boto3.resource("ec2")
except botocore.exceptions.BotoCoreError:
print("Please configure your Boto environment variables or files, see"
" http://boto3.readthedocs.io/en/latest/guide/configuration.html"
" for the variable names, file names and precedence order.")
raise
@staticmethod
def wait_for_state(instance, state, wait_time_secs=0, show_progress=False):
"""Wait up to 'wait_time_secs' for instance to be in 'state'.
Return 0 if 'state' reached, 1 otherwise."""
if show_progress:
print("Waiting for instance {} to reach '{}' state".format(instance, state), end="",
file=sys.stdout)
reached_state = False
end_time = time.time() + wait_time_secs
while True:
if show_progress:
print(".", end="", file=sys.stdout)
sys.stdout.flush()
try:
client_error = ""
time_left = end_time - time.time()
instance.load()
if instance.state["Name"] == state:
reached_state = True
break
if time_left <= 0:
break
except botocore.exceptions.ClientError as err:
# A ClientError exception can sometimes be generated, due to RequestLimitExceeded,
# so we ignore it and retry until we time out.
client_error = " {}".format(err.message)
wait_interval_secs = 15 if time_left > 15 else time_left
time.sleep(wait_interval_secs)
if show_progress:
if reached_state:
print(" Instance {}!".format(instance.state["Name"]), file=sys.stdout)
else:
print(" Instance in state '{}', failed to reach state '{}'{}!".format(
instance.state["Name"], state, client_error), file=sys.stdout)
sys.stdout.flush()
return 0 if reached_state else 1
def control_instance(self, mode, image_id, wait_time_secs=0, show_progress=False):
"""Controls an AMI instance. Returns 0 & status information, if successful."""
if mode not in _MODES:
raise ValueError("Invalid mode '{}' specified, choose from {}.".format(mode, _MODES))
sys.stdout.flush()
instance = self.connection.Instance(image_id)
try:
if mode == "start":
state = "running"
instance.start()
elif mode == "stop":
state = "stopped"
instance.stop()
elif mode == "force-stop":
state = "stopped"
instance.stop(Force=True)
elif mode == "terminate":
state = "terminated"
instance.terminate()
elif mode == "reboot":
state = "running"
instance.reboot()
else:
state = None
wait_time_secs = 0
except botocore.exceptions.ClientError as err:
return 1, err.message
ret = 0
if wait_time_secs > 0:
ret = self.wait_for_state(instance=instance, state=state, wait_time_secs=wait_time_secs,
show_progress=show_progress)
try:
# Always provide status after executing command.
status = self.InstanceStatus(
getattr(instance, "instance_id", None), getattr(instance, "image_id", None),
getattr(instance, "instance_type", None), getattr(instance, "state", None),
getattr(instance, "private_ip_address", None),
getattr(instance, "public_ip_address", None),
getattr(instance, "private_dns_name", None),
getattr(instance, "public_dns_name", None), getattr(instance, "tags", None))
except botocore.exceptions.ClientError as err:
return 1, err.message
return ret, status
def tag_instance(self, image_id, tags):
"""Tags an AMI instance. """
if tags:
# It's possible that ClientError code InvalidInstanceID.NotFound could be returned,
# even if the 'image_id' exists. We will retry up to 5 times, with increasing wait,
# if this occurs.
# http://docs.aws.amazon.com/AWSEC2/latest/APIReference/query-api-troubleshooting.html
for i in range(5):
try:
instance = self.connection.Instance(image_id)
break
except botocore.exceptions.ClientError as err:
if err.response["Error"]["Code"] != "InvalidInstanceID.NotFound":
raise
time.sleep(i + 1)
instance.create_tags(Tags=tags)
def launch_instance(self, ami, instance_type, block_devices=None, key_name=None,
security_group_ids=None, security_groups=None, subnet_id=None, tags=None,
wait_time_secs=0, show_progress=False, **kwargs):
"""Launches and tags an AMI instance.
Returns the tuple (0, status_information), if successful."""
bdms = []
if block_devices is None:
block_devices = {}
for block_device in block_devices:
bdm = {}
bdm["DeviceName"] = block_device
bdm["Ebs"] = {"DeleteOnTermination": True, "VolumeSize": block_devices[block_device]}
bdms.append(bdm)
if bdms:
kwargs["BlockDeviceMappings"] = bdms
if security_group_ids:
kwargs["SecurityGroupIds"] = security_group_ids
if security_groups:
kwargs["SecurityGroups"] = security_groups
if subnet_id:
kwargs["SubnetId"] = subnet_id
if key_name:
kwargs["KeyName"] = key_name
try:
instances = self.connection.create_instances(ImageId=ami, InstanceType=instance_type,
MaxCount=1, MinCount=1, **kwargs)
except (botocore.exceptions.ClientError, botocore.exceptions.ParamValidationError) as err:
return 1, err.message
instance = instances[0]
if wait_time_secs > 0:
self.wait_for_state(instance=instance, state="running", wait_time_secs=wait_time_secs,
show_progress=show_progress)
self.tag_instance(instance.instance_id, tags)
return self.control_instance("status", instance.instance_id)
def main():
"""Main program."""
required_create_options = ["ami", "key_name"]
parser = optparse.OptionParser(description=__doc__)
control_options = optparse.OptionGroup(parser, "Control options")
create_options = optparse.OptionGroup(parser, "Create options")
parser.add_option("--mode", dest="mode", choices=_MODES, default="status",
help=("Operations to perform on an EC2 instance, choose one of"
" '{}', defaults to '%default'.".format(", ".join(_MODES))))
control_options.add_option("--imageId", dest="image_id", default=None,
help="EC2 image_id to perform operation on [REQUIRED for control].")
control_options.add_option("--waitTimeSecs", dest="wait_time_secs", type=int, default=5 * 60,
help=("Time to wait for EC2 instance to reach it's new state,"
" defaults to '%default'."))
create_options.add_option("--ami", dest="ami", default=None,
help="EC2 AMI to launch [REQUIRED for create].")
create_options.add_option("--blockDevice", dest="block_devices",
metavar="DEVICE-NAME DEVICE-SIZE-GB", action="append", default=[],
nargs=2,
help=("EBS device name and volume size in GiB."
" More than one device can be attached, by specifying"
" this option more than once."
" The device will be deleted on termination of the instance."))
create_options.add_option("--instanceType", dest="instance_type", default="t1.micro",
help="EC2 instance type to launch, defaults to '%default'.")
create_options.add_option("--keyName", dest="key_name", default=None,
help="EC2 key name [REQUIRED for create].")
create_options.add_option("--securityGroupIds", dest="security_group_ids", action="append",
default=[],
help=("EC2 security group ids. More than one security group id can be"
" added, by specifying this option more than once."))
create_options.add_option("--securityGroup", dest="security_groups", action="append",
default=[],
help=("EC2 security group. More than one security group can be added,"
" by specifying this option more than once."))
create_options.add_option("--subnetId", dest="subnet_id", default=None,
help="EC2 subnet id to use in VPC.")
create_options.add_option("--tagExpireHours", dest="tag_expire_hours", type=int, default=2,
help="EC2 tag expire time in hours, defaults to '%default'.")
create_options.add_option("--tagName", dest="tag_name", default="",
help="EC2 tag and instance name.")
create_options.add_option("--tagOwner", dest="tag_owner", default="", help="EC2 tag owner.")
create_options.add_option(
"--extraArgs", dest="extra_args", metavar="{key1: value1, key2: value2, ..., keyN: valueN}",
default=None, help=("EC2 create instance keyword args. The argument is specified as"
" bracketed YAML - i.e. JSON with support for single quoted"
" and unquoted keys. Example, '{DryRun: True}'"))
parser.add_option_group(control_options)
parser.add_option_group(create_options)
(options, _) = parser.parse_args()
aws_ec2 = AwsEc2()
if options.mode == "create":
for option in required_create_options:
if not getattr(options, option, None):
parser.print_help()
parser.error("Missing required create option")
block_devices = {}
for (device_name, device_size) in options.block_devices:
try:
device_size = int(device_size)
except ValueError:
parser.print_help()
parser.error("Block size must be an integer")
block_devices[device_name] = device_size
# The 'expire-on' key is a UTC time.
expire_dt = datetime.datetime.utcnow() + datetime.timedelta(hours=options.tag_expire_hours)
tags = [{"Key": "expire-on", "Value": expire_dt.strftime("%Y-%m-%d %H:%M:%S")},
{"Key": "Name",
"Value": options.tag_name}, {"Key": "owner", "Value": options.tag_owner}]
my_kwargs = {}
if options.extra_args is not None:
my_kwargs = yaml.safe_load(options.extra_args)
(ret_code, instance_status) = aws_ec2.launch_instance(
ami=options.ami, instance_type=options.instance_type, block_devices=block_devices,
key_name=options.key_name, security_group_ids=options.security_group_ids,
security_groups=options.security_groups, subnet_id=options.subnet_id, tags=tags,
wait_time_secs=options.wait_time_secs, show_progress=True, **my_kwargs)
else:
if not getattr(options, "image_id", None):
parser.print_help()
parser.error("Missing required control option")
(ret_code, instance_status) = aws_ec2.control_instance(
mode=options.mode, image_id=options.image_id, wait_time_secs=options.wait_time_secs,
show_progress=True)
print("Return code: {}, Instance status:".format(ret_code))
if ret_code:
print(instance_status)
else:
for field in instance_status._fields:
print("\t{}: {}".format(field, getattr(instance_status, field)))
sys.exit(ret_code)
if __name__ == "__main__":
main()
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