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-rw-r--r--inventory/aws/hosts/ec2.ini189
-rwxr-xr-xinventory/aws/hosts/ec2.py1511
-rw-r--r--inventory/aws/hosts/hosts1
3 files changed, 0 insertions, 1701 deletions
diff --git a/inventory/aws/hosts/ec2.ini b/inventory/aws/hosts/ec2.ini
deleted file mode 100644
index 64c097d47..000000000
--- a/inventory/aws/hosts/ec2.ini
+++ /dev/null
@@ -1,189 +0,0 @@
-# Ansible EC2 external inventory script settings
-#
-
-[ec2]
-
-# to talk to a private eucalyptus instance uncomment these lines
-# and edit edit eucalyptus_host to be the host name of your cloud controller
-#eucalyptus = True
-#eucalyptus_host = clc.cloud.domain.org
-
-# AWS regions to make calls to. Set this to 'all' to make request to all regions
-# in AWS and merge the results together. Alternatively, set this to a comma
-# separated list of regions. E.g. 'us-east-1,us-west-1,us-west-2'
-regions = all
-regions_exclude = us-gov-west-1,cn-north-1
-
-# When generating inventory, Ansible needs to know how to address a server.
-# Each EC2 instance has a lot of variables associated with it. Here is the list:
-# http://docs.pythonboto.org/en/latest/ref/ec2.html#module-boto.ec2.instance
-# Below are 2 variables that are used as the address of a server:
-# - destination_variable
-# - vpc_destination_variable
-
-# This is the normal destination variable to use. If you are running Ansible
-# from outside EC2, then 'public_dns_name' makes the most sense. If you are
-# running Ansible from within EC2, then perhaps you want to use the internal
-# address, and should set this to 'private_dns_name'. The key of an EC2 tag
-# may optionally be used; however the boto instance variables hold precedence
-# in the event of a collision.
-destination_variable = public_dns_name
-
-# This allows you to override the inventory_name with an ec2 variable, instead
-# of using the destination_variable above. Addressing (aka ansible_ssh_host)
-# will still use destination_variable. Tags should be written as 'tag_TAGNAME'.
-hostname_variable = tag_Name
-
-# For server inside a VPC, using DNS names may not make sense. When an instance
-# has 'subnet_id' set, this variable is used. If the subnet is public, setting
-# this to 'ip_address' will return the public IP address. For instances in a
-# private subnet, this should be set to 'private_ip_address', and Ansible must
-# be run from within EC2. The key of an EC2 tag may optionally be used; however
-# the boto instance variables hold precedence in the event of a collision.
-# WARNING: - instances that are in the private vpc, _without_ public ip address
-# will not be listed in the inventory until You set:
-# vpc_destination_variable = private_ip_address
-vpc_destination_variable = ip_address
-
-# The following two settings allow flexible ansible host naming based on a
-# python format string and a comma-separated list of ec2 tags. Note that:
-#
-# 1) If the tags referenced are not present for some instances, empty strings
-# will be substituted in the format string.
-# 2) This overrides both destination_variable and vpc_destination_variable.
-#
-#destination_format = {0}.{1}.example.com
-#destination_format_tags = Name,environment
-
-# To tag instances on EC2 with the resource records that point to them from
-# Route53, uncomment and set 'route53' to True.
-route53 = False
-
-# To exclude RDS instances from the inventory, uncomment and set to False.
-rds = False
-
-# To exclude ElastiCache instances from the inventory, uncomment and set to False.
-elasticache = False
-
-# Additionally, you can specify the list of zones to exclude looking up in
-# 'route53_excluded_zones' as a comma-separated list.
-# route53_excluded_zones = samplezone1.com, samplezone2.com
-
-# By default, only EC2 instances in the 'running' state are returned. Set
-# 'all_instances' to True to return all instances regardless of state.
-all_instances = False
-
-# By default, only EC2 instances in the 'running' state are returned. Specify
-# EC2 instance states to return as a comma-separated list. This
-# option is overridden when 'all_instances' is True.
-# instance_states = pending, running, shutting-down, terminated, stopping, stopped
-
-# By default, only RDS instances in the 'available' state are returned. Set
-# 'all_rds_instances' to True return all RDS instances regardless of state.
-all_rds_instances = False
-
-# Include RDS cluster information (Aurora etc.)
-include_rds_clusters = False
-
-# By default, only ElastiCache clusters and nodes in the 'available' state
-# are returned. Set 'all_elasticache_clusters' and/or 'all_elastic_nodes'
-# to True return all ElastiCache clusters and nodes, regardless of state.
-#
-# Note that all_elasticache_nodes only applies to listed clusters. That means
-# if you set all_elastic_clusters to false, no node will be return from
-# unavailable clusters, regardless of the state and to what you set for
-# all_elasticache_nodes.
-all_elasticache_replication_groups = False
-all_elasticache_clusters = False
-all_elasticache_nodes = False
-
-# API calls to EC2 are slow. For this reason, we cache the results of an API
-# call. Set this to the path you want cache files to be written to. Two files
-# will be written to this directory:
-# - ansible-ec2.cache
-# - ansible-ec2.index
-cache_path = ~/.ansible/tmp
-
-# The number of seconds a cache file is considered valid. After this many
-# seconds, a new API call will be made, and the cache file will be updated.
-# To disable the cache, set this value to 0
-cache_max_age = 300
-
-# Organize groups into a nested/hierarchy instead of a flat namespace.
-nested_groups = False
-
-# Replace - tags when creating groups to avoid issues with ansible
-replace_dash_in_groups = False
-
-# If set to true, any tag of the form "a,b,c" is expanded into a list
-# and the results are used to create additional tag_* inventory groups.
-expand_csv_tags = False
-
-# The EC2 inventory output can become very large. To manage its size,
-# configure which groups should be created.
-group_by_instance_id = True
-group_by_region = True
-group_by_availability_zone = True
-group_by_ami_id = True
-group_by_instance_type = True
-group_by_key_pair = True
-group_by_vpc_id = True
-group_by_security_group = True
-group_by_tag_keys = True
-group_by_tag_none = True
-group_by_route53_names = True
-group_by_rds_engine = True
-group_by_rds_parameter_group = True
-group_by_elasticache_engine = True
-group_by_elasticache_cluster = True
-group_by_elasticache_parameter_group = True
-group_by_elasticache_replication_group = True
-
-# If you only want to include hosts that match a certain regular expression
-# pattern_include = staging-*
-
-# If you want to exclude any hosts that match a certain regular expression
-# pattern_exclude = staging-*
-
-# Instance filters can be used to control which instances are retrieved for
-# inventory. For the full list of possible filters, please read the EC2 API
-# docs: http://docs.aws.amazon.com/AWSEC2/latest/APIReference/ApiReference-query-DescribeInstances.html#query-DescribeInstances-filters
-# Filters are key/value pairs separated by '=', to list multiple filters use
-# a list separated by commas. See examples below.
-
-# Retrieve only instances with (key=value) env=staging tag
-# instance_filters = tag:env=staging
-
-# Retrieve only instances with role=webservers OR role=dbservers tag
-# instance_filters = tag:role=webservers,tag:role=dbservers
-
-# Retrieve only t1.micro instances OR instances with tag env=staging
-# instance_filters = instance-type=t1.micro,tag:env=staging
-
-# You can use wildcards in filter values also. Below will list instances which
-# tag Name value matches webservers1*
-# (ex. webservers15, webservers1a, webservers123 etc)
-# instance_filters = tag:Name=webservers1*
-
-# A boto configuration profile may be used to separate out credentials
-# see http://boto.readthedocs.org/en/latest/boto_config_tut.html
-# boto_profile = some-boto-profile-name
-
-
-[credentials]
-
-# The AWS credentials can optionally be specified here. Credentials specified
-# here are ignored if the environment variable AWS_ACCESS_KEY_ID or
-# AWS_PROFILE is set, or if the boto_profile property above is set.
-#
-# Supplying AWS credentials here is not recommended, as it introduces
-# non-trivial security concerns. When going down this route, please make sure
-# to set access permissions for this file correctly, e.g. handle it the same
-# way as you would a private SSH key.
-#
-# Unlike the boto and AWS configure files, this section does not support
-# profiles.
-#
-# aws_access_key_id = AXXXXXXXXXXXXXX
-# aws_secret_access_key = XXXXXXXXXXXXXXXXXXX
-# aws_security_token = XXXXXXXXXXXXXXXXXXXXXXXXXXXX
diff --git a/inventory/aws/hosts/ec2.py b/inventory/aws/hosts/ec2.py
deleted file mode 100755
index b71458a29..000000000
--- a/inventory/aws/hosts/ec2.py
+++ /dev/null
@@ -1,1511 +0,0 @@
-#!/usr/bin/env python2
-# pylint: skip-file
-
-'''
-EC2 external inventory script
-=================================
-
-Generates inventory that Ansible can understand by making API request to
-AWS EC2 using the Boto library.
-
-NOTE: This script assumes Ansible is being executed where the environment
-variables needed for Boto have already been set:
- export AWS_ACCESS_KEY_ID='AK123'
- export AWS_SECRET_ACCESS_KEY='abc123'
-
-This script also assumes there is an ec2.ini file alongside it. To specify a
-different path to ec2.ini, define the EC2_INI_PATH environment variable:
-
- export EC2_INI_PATH=/path/to/my_ec2.ini
-
-If you're using eucalyptus you need to set the above variables and
-you need to define:
-
- export EC2_URL=http://hostname_of_your_cc:port/services/Eucalyptus
-
-If you're using boto profiles (requires boto>=2.24.0) you can choose a profile
-using the --boto-profile command line argument (e.g. ec2.py --boto-profile prod) or using
-the AWS_PROFILE variable:
-
- AWS_PROFILE=prod ansible-playbook -i ec2.py myplaybook.yml
-
-For more details, see: http://docs.pythonboto.org/en/latest/boto_config_tut.html
-
-When run against a specific host, this script returns the following variables:
- - ec2_ami_launch_index
- - ec2_architecture
- - ec2_association
- - ec2_attachTime
- - ec2_attachment
- - ec2_attachmentId
- - ec2_block_devices
- - ec2_client_token
- - ec2_deleteOnTermination
- - ec2_description
- - ec2_deviceIndex
- - ec2_dns_name
- - ec2_eventsSet
- - ec2_group_name
- - ec2_hypervisor
- - ec2_id
- - ec2_image_id
- - ec2_instanceState
- - ec2_instance_type
- - ec2_ipOwnerId
- - ec2_ip_address
- - ec2_item
- - ec2_kernel
- - ec2_key_name
- - ec2_launch_time
- - ec2_monitored
- - ec2_monitoring
- - ec2_networkInterfaceId
- - ec2_ownerId
- - ec2_persistent
- - ec2_placement
- - ec2_platform
- - ec2_previous_state
- - ec2_private_dns_name
- - ec2_private_ip_address
- - ec2_publicIp
- - ec2_public_dns_name
- - ec2_ramdisk
- - ec2_reason
- - ec2_region
- - ec2_requester_id
- - ec2_root_device_name
- - ec2_root_device_type
- - ec2_security_group_ids
- - ec2_security_group_names
- - ec2_shutdown_state
- - ec2_sourceDestCheck
- - ec2_spot_instance_request_id
- - ec2_state
- - ec2_state_code
- - ec2_state_reason
- - ec2_status
- - ec2_subnet_id
- - ec2_tenancy
- - ec2_virtualization_type
- - ec2_vpc_id
-
-These variables are pulled out of a boto.ec2.instance object. There is a lack of
-consistency with variable spellings (camelCase and underscores) since this
-just loops through all variables the object exposes. It is preferred to use the
-ones with underscores when multiple exist.
-
-In addition, if an instance has AWS Tags associated with it, each tag is a new
-variable named:
- - ec2_tag_[Key] = [Value]
-
-Security groups are comma-separated in 'ec2_security_group_ids' and
-'ec2_security_group_names'.
-'''
-
-# (c) 2012, Peter Sankauskas
-#
-# 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/>.
-
-######################################################################
-
-import sys
-import os
-import argparse
-import re
-from time import time
-import boto
-from boto import ec2
-from boto import rds
-from boto import elasticache
-from boto import route53
-import six
-
-from ansible.module_utils import ec2 as ec2_utils
-
-HAS_BOTO3 = False
-try:
- import boto3
- HAS_BOTO3 = True
-except ImportError:
- pass
-
-from six.moves import configparser
-from collections import defaultdict
-
-try:
- import json
-except ImportError:
- import simplejson as json
-
-
-class Ec2Inventory(object):
-
- def _empty_inventory(self):
- return {"_meta" : {"hostvars" : {}}}
-
- def __init__(self):
- ''' Main execution path '''
-
- # Inventory grouped by instance IDs, tags, security groups, regions,
- # and availability zones
- self.inventory = self._empty_inventory()
-
- # Index of hostname (address) to instance ID
- self.index = {}
-
- # Boto profile to use (if any)
- self.boto_profile = None
-
- # AWS credentials.
- self.credentials = {}
-
- # Read settings and parse CLI arguments
- self.parse_cli_args()
- self.read_settings()
-
- # Make sure that profile_name is not passed at all if not set
- # as pre 2.24 boto will fall over otherwise
- if self.boto_profile:
- if not hasattr(boto.ec2.EC2Connection, 'profile_name'):
- self.fail_with_error("boto version must be >= 2.24 to use profile")
-
- # Cache
- if self.args.refresh_cache:
- self.do_api_calls_update_cache()
- elif not self.is_cache_valid():
- self.do_api_calls_update_cache()
-
- # Data to print
- if self.args.host:
- data_to_print = self.get_host_info()
-
- elif self.args.list:
- # Display list of instances for inventory
- if self.inventory == self._empty_inventory():
- data_to_print = self.get_inventory_from_cache()
- else:
- data_to_print = self.json_format_dict(self.inventory, True)
-
- print(data_to_print)
-
-
- def is_cache_valid(self):
- ''' Determines if the cache files have expired, or if it is still valid '''
-
- if os.path.isfile(self.cache_path_cache):
- mod_time = os.path.getmtime(self.cache_path_cache)
- current_time = time()
- if (mod_time + self.cache_max_age) > current_time:
- if os.path.isfile(self.cache_path_index):
- return True
-
- return False
-
-
- def read_settings(self):
- ''' Reads the settings from the ec2.ini file '''
- if six.PY3:
- config = configparser.ConfigParser()
- else:
- config = configparser.SafeConfigParser()
- ec2_default_ini_path = os.path.join(os.path.dirname(os.path.realpath(__file__)), 'ec2.ini')
- ec2_ini_path = os.path.expanduser(os.path.expandvars(os.environ.get('EC2_INI_PATH', ec2_default_ini_path)))
- config.read(ec2_ini_path)
-
- # is eucalyptus?
- self.eucalyptus_host = None
- self.eucalyptus = False
- if config.has_option('ec2', 'eucalyptus'):
- self.eucalyptus = config.getboolean('ec2', 'eucalyptus')
- if self.eucalyptus and config.has_option('ec2', 'eucalyptus_host'):
- self.eucalyptus_host = config.get('ec2', 'eucalyptus_host')
-
- # Regions
- self.regions = []
- configRegions = config.get('ec2', 'regions')
- configRegions_exclude = config.get('ec2', 'regions_exclude')
- if (configRegions == 'all'):
- if self.eucalyptus_host:
- self.regions.append(boto.connect_euca(host=self.eucalyptus_host).region.name, **self.credentials)
- else:
- for regionInfo in ec2.regions():
- if regionInfo.name not in configRegions_exclude:
- self.regions.append(regionInfo.name)
- else:
- self.regions = configRegions.split(",")
-
- # Destination addresses
- self.destination_variable = config.get('ec2', 'destination_variable')
- self.vpc_destination_variable = config.get('ec2', 'vpc_destination_variable')
-
- if config.has_option('ec2', 'hostname_variable'):
- self.hostname_variable = config.get('ec2', 'hostname_variable')
- else:
- self.hostname_variable = None
-
- if config.has_option('ec2', 'destination_format') and \
- config.has_option('ec2', 'destination_format_tags'):
- self.destination_format = config.get('ec2', 'destination_format')
- self.destination_format_tags = config.get('ec2', 'destination_format_tags').split(',')
- else:
- self.destination_format = None
- self.destination_format_tags = None
-
- # Route53
- self.route53_enabled = config.getboolean('ec2', 'route53')
- self.route53_excluded_zones = []
- if config.has_option('ec2', 'route53_excluded_zones'):
- self.route53_excluded_zones.extend(
- config.get('ec2', 'route53_excluded_zones', '').split(','))
-
- # Include RDS instances?
- self.rds_enabled = True
- if config.has_option('ec2', 'rds'):
- self.rds_enabled = config.getboolean('ec2', 'rds')
-
- # Include RDS cluster instances?
- if config.has_option('ec2', 'include_rds_clusters'):
- self.include_rds_clusters = config.getboolean('ec2', 'include_rds_clusters')
- else:
- self.include_rds_clusters = False
-
- # Include ElastiCache instances?
- self.elasticache_enabled = True
- if config.has_option('ec2', 'elasticache'):
- self.elasticache_enabled = config.getboolean('ec2', 'elasticache')
-
- # Return all EC2 instances?
- if config.has_option('ec2', 'all_instances'):
- self.all_instances = config.getboolean('ec2', 'all_instances')
- else:
- self.all_instances = False
-
- # Instance states to be gathered in inventory. Default is 'running'.
- # Setting 'all_instances' to 'yes' overrides this option.
- ec2_valid_instance_states = [
- 'pending',
- 'running',
- 'shutting-down',
- 'terminated',
- 'stopping',
- 'stopped'
- ]
- self.ec2_instance_states = []
- if self.all_instances:
- self.ec2_instance_states = ec2_valid_instance_states
- elif config.has_option('ec2', 'instance_states'):
- for instance_state in config.get('ec2', 'instance_states').split(','):
- instance_state = instance_state.strip()
- if instance_state not in ec2_valid_instance_states:
- continue
- self.ec2_instance_states.append(instance_state)
- else:
- self.ec2_instance_states = ['running']
-
- # Return all RDS instances? (if RDS is enabled)
- if config.has_option('ec2', 'all_rds_instances') and self.rds_enabled:
- self.all_rds_instances = config.getboolean('ec2', 'all_rds_instances')
- else:
- self.all_rds_instances = False
-
- # Return all ElastiCache replication groups? (if ElastiCache is enabled)
- if config.has_option('ec2', 'all_elasticache_replication_groups') and self.elasticache_enabled:
- self.all_elasticache_replication_groups = config.getboolean('ec2', 'all_elasticache_replication_groups')
- else:
- self.all_elasticache_replication_groups = False
-
- # Return all ElastiCache clusters? (if ElastiCache is enabled)
- if config.has_option('ec2', 'all_elasticache_clusters') and self.elasticache_enabled:
- self.all_elasticache_clusters = config.getboolean('ec2', 'all_elasticache_clusters')
- else:
- self.all_elasticache_clusters = False
-
- # Return all ElastiCache nodes? (if ElastiCache is enabled)
- if config.has_option('ec2', 'all_elasticache_nodes') and self.elasticache_enabled:
- self.all_elasticache_nodes = config.getboolean('ec2', 'all_elasticache_nodes')
- else:
- self.all_elasticache_nodes = False
-
- # boto configuration profile (prefer CLI argument)
- self.boto_profile = self.args.boto_profile
- if config.has_option('ec2', 'boto_profile') and not self.boto_profile:
- self.boto_profile = config.get('ec2', 'boto_profile')
-
- # AWS credentials (prefer environment variables)
- if not (self.boto_profile or os.environ.get('AWS_ACCESS_KEY_ID') or
- os.environ.get('AWS_PROFILE')):
- if config.has_option('credentials', 'aws_access_key_id'):
- aws_access_key_id = config.get('credentials', 'aws_access_key_id')
- else:
- aws_access_key_id = None
- if config.has_option('credentials', 'aws_secret_access_key'):
- aws_secret_access_key = config.get('credentials', 'aws_secret_access_key')
- else:
- aws_secret_access_key = None
- if config.has_option('credentials', 'aws_security_token'):
- aws_security_token = config.get('credentials', 'aws_security_token')
- else:
- aws_security_token = None
- if aws_access_key_id:
- self.credentials = {
- 'aws_access_key_id': aws_access_key_id,
- 'aws_secret_access_key': aws_secret_access_key
- }
- if aws_security_token:
- self.credentials['security_token'] = aws_security_token
-
- # Cache related
- cache_dir = os.path.expanduser(config.get('ec2', 'cache_path'))
- if self.boto_profile:
- cache_dir = os.path.join(cache_dir, 'profile_' + self.boto_profile)
- if not os.path.exists(cache_dir):
- os.makedirs(cache_dir)
-
- cache_name = 'ansible-ec2'
- aws_profile = lambda: (self.boto_profile or
- os.environ.get('AWS_PROFILE') or
- os.environ.get('AWS_ACCESS_KEY_ID') or
- self.credentials.get('aws_access_key_id', None))
- if aws_profile():
- cache_name = '%s-%s' % (cache_name, aws_profile())
- self.cache_path_cache = cache_dir + "/%s.cache" % cache_name
- self.cache_path_index = cache_dir + "/%s.index" % cache_name
- self.cache_max_age = config.getint('ec2', 'cache_max_age')
-
- if config.has_option('ec2', 'expand_csv_tags'):
- self.expand_csv_tags = config.getboolean('ec2', 'expand_csv_tags')
- else:
- self.expand_csv_tags = False
-
- # Configure nested groups instead of flat namespace.
- if config.has_option('ec2', 'nested_groups'):
- self.nested_groups = config.getboolean('ec2', 'nested_groups')
- else:
- self.nested_groups = False
-
- # Replace dash or not in group names
- if config.has_option('ec2', 'replace_dash_in_groups'):
- self.replace_dash_in_groups = config.getboolean('ec2', 'replace_dash_in_groups')
- else:
- self.replace_dash_in_groups = True
-
- # Configure which groups should be created.
- group_by_options = [
- 'group_by_instance_id',
- 'group_by_region',
- 'group_by_availability_zone',
- 'group_by_ami_id',
- 'group_by_instance_type',
- 'group_by_key_pair',
- 'group_by_vpc_id',
- 'group_by_security_group',
- 'group_by_tag_keys',
- 'group_by_tag_none',
- 'group_by_route53_names',
- 'group_by_rds_engine',
- 'group_by_rds_parameter_group',
- 'group_by_elasticache_engine',
- 'group_by_elasticache_cluster',
- 'group_by_elasticache_parameter_group',
- 'group_by_elasticache_replication_group',
- ]
- for option in group_by_options:
- if config.has_option('ec2', option):
- setattr(self, option, config.getboolean('ec2', option))
- else:
- setattr(self, option, True)
-
- # Do we need to just include hosts that match a pattern?
- try:
- pattern_include = config.get('ec2', 'pattern_include')
- if pattern_include and len(pattern_include) > 0:
- self.pattern_include = re.compile(pattern_include)
- else:
- self.pattern_include = None
- except configparser.NoOptionError:
- self.pattern_include = None
-
- # Do we need to exclude hosts that match a pattern?
- try:
- pattern_exclude = config.get('ec2', 'pattern_exclude');
- if pattern_exclude and len(pattern_exclude) > 0:
- self.pattern_exclude = re.compile(pattern_exclude)
- else:
- self.pattern_exclude = None
- except configparser.NoOptionError:
- self.pattern_exclude = None
-
- # Instance filters (see boto and EC2 API docs). Ignore invalid filters.
- self.ec2_instance_filters = defaultdict(list)
- if config.has_option('ec2', 'instance_filters'):
-
- filters = [f for f in config.get('ec2', 'instance_filters').split(',') if f]
-
- for instance_filter in filters:
- instance_filter = instance_filter.strip()
- if not instance_filter or '=' not in instance_filter:
- continue
- filter_key, filter_value = [x.strip() for x in instance_filter.split('=', 1)]
- if not filter_key:
- continue
- self.ec2_instance_filters[filter_key].append(filter_value)
-
- def parse_cli_args(self):
- ''' Command line argument processing '''
-
- parser = argparse.ArgumentParser(description='Produce an Ansible Inventory file based on EC2')
- parser.add_argument('--list', action='store_true', default=True,
- help='List instances (default: True)')
- parser.add_argument('--host', action='store',
- help='Get all the variables about a specific instance')
- parser.add_argument('--refresh-cache', action='store_true', default=False,
- help='Force refresh of cache by making API requests to EC2 (default: False - use cache files)')
- parser.add_argument('--profile', '--boto-profile', action='store', dest='boto_profile',
- help='Use boto profile for connections to EC2')
- self.args = parser.parse_args()
-
-
- def do_api_calls_update_cache(self):
- ''' Do API calls to each region, and save data in cache files '''
-
- if self.route53_enabled:
- self.get_route53_records()
-
- for region in self.regions:
- self.get_instances_by_region(region)
- if self.rds_enabled:
- self.get_rds_instances_by_region(region)
- if self.elasticache_enabled:
- self.get_elasticache_clusters_by_region(region)
- self.get_elasticache_replication_groups_by_region(region)
- if self.include_rds_clusters:
- self.include_rds_clusters_by_region(region)
-
- self.write_to_cache(self.inventory, self.cache_path_cache)
- self.write_to_cache(self.index, self.cache_path_index)
-
- def connect(self, region):
- ''' create connection to api server'''
- if self.eucalyptus:
- conn = boto.connect_euca(host=self.eucalyptus_host, **self.credentials)
- conn.APIVersion = '2010-08-31'
- else:
- conn = self.connect_to_aws(ec2, region)
- return conn
-
- def boto_fix_security_token_in_profile(self, connect_args):
- ''' monkey patch for boto issue boto/boto#2100 '''
- profile = 'profile ' + self.boto_profile
- if boto.config.has_option(profile, 'aws_security_token'):
- connect_args['security_token'] = boto.config.get(profile, 'aws_security_token')
- return connect_args
-
- def connect_to_aws(self, module, region):
- connect_args = self.credentials
-
- # only pass the profile name if it's set (as it is not supported by older boto versions)
- if self.boto_profile:
- connect_args['profile_name'] = self.boto_profile
- self.boto_fix_security_token_in_profile(connect_args)
-
- conn = module.connect_to_region(region, **connect_args)
- # connect_to_region will fail "silently" by returning None if the region name is wrong or not supported
- if conn is None:
- self.fail_with_error("region name: %s likely not supported, or AWS is down. connection to region failed." % region)
- return conn
-
- def get_instances_by_region(self, region):
- ''' Makes an AWS EC2 API call to the list of instances in a particular
- region '''
-
- try:
- conn = self.connect(region)
- reservations = []
- if self.ec2_instance_filters:
- for filter_key, filter_values in self.ec2_instance_filters.items():
- reservations.extend(conn.get_all_instances(filters = { filter_key : filter_values }))
- else:
- reservations = conn.get_all_instances()
-
- # Pull the tags back in a second step
- # AWS are on record as saying that the tags fetched in the first `get_all_instances` request are not
- # reliable and may be missing, and the only way to guarantee they are there is by calling `get_all_tags`
- instance_ids = []
- for reservation in reservations:
- instance_ids.extend([instance.id for instance in reservation.instances])
-
- max_filter_value = 199
- tags = []
- for i in range(0, len(instance_ids), max_filter_value):
- tags.extend(conn.get_all_tags(filters={'resource-type': 'instance', 'resource-id': instance_ids[i:i+max_filter_value]}))
-
- tags_by_instance_id = defaultdict(dict)
- for tag in tags:
- tags_by_instance_id[tag.res_id][tag.name] = tag.value
-
- for reservation in reservations:
- for instance in reservation.instances:
- instance.tags = tags_by_instance_id[instance.id]
- self.add_instance(instance, region)
-
- except boto.exception.BotoServerError as e:
- if e.error_code == 'AuthFailure':
- error = self.get_auth_error_message()
- else:
- backend = 'Eucalyptus' if self.eucalyptus else 'AWS'
- error = "Error connecting to %s backend.\n%s" % (backend, e.message)
- self.fail_with_error(error, 'getting EC2 instances')
-
- def get_rds_instances_by_region(self, region):
- ''' Makes an AWS API call to the list of RDS instances in a particular
- region '''
-
- try:
- conn = self.connect_to_aws(rds, region)
- if conn:
- marker = None
- while True:
- instances = conn.get_all_dbinstances(marker=marker)
- marker = instances.marker
- for instance in instances:
- self.add_rds_instance(instance, region)
- if not marker:
- break
- except boto.exception.BotoServerError as e:
- error = e.reason
-
- if e.error_code == 'AuthFailure':
- error = self.get_auth_error_message()
- if not e.reason == "Forbidden":
- error = "Looks like AWS RDS is down:\n%s" % e.message
- self.fail_with_error(error, 'getting RDS instances')
-
- def include_rds_clusters_by_region(self, region):
- if not HAS_BOTO3:
- self.fail_with_error("Working with RDS clusters requires boto3 - please install boto3 and try again",
- "getting RDS clusters")
-
- client = ec2_utils.boto3_inventory_conn('client', 'rds', region, **self.credentials)
-
- marker, clusters = '', []
- while marker is not None:
- resp = client.describe_db_clusters(Marker=marker)
- clusters.extend(resp["DBClusters"])
- marker = resp.get('Marker', None)
-
- account_id = boto.connect_iam().get_user().arn.split(':')[4]
- c_dict = {}
- for c in clusters:
- # remove these datetime objects as there is no serialisation to json
- # currently in place and we don't need the data yet
- if 'EarliestRestorableTime' in c:
- del c['EarliestRestorableTime']
- if 'LatestRestorableTime' in c:
- del c['LatestRestorableTime']
-
- if self.ec2_instance_filters == {}:
- matches_filter = True
- else:
- matches_filter = False
-
- try:
- # arn:aws:rds:<region>:<account number>:<resourcetype>:<name>
- tags = client.list_tags_for_resource(
- ResourceName='arn:aws:rds:' + region + ':' + account_id + ':cluster:' + c['DBClusterIdentifier'])
- c['Tags'] = tags['TagList']
-
- if self.ec2_instance_filters:
- for filter_key, filter_values in self.ec2_instance_filters.items():
- # get AWS tag key e.g. tag:env will be 'env'
- tag_name = filter_key.split(":", 1)[1]
- # Filter values is a list (if you put multiple values for the same tag name)
- matches_filter = any(d['Key'] == tag_name and d['Value'] in filter_values for d in c['Tags'])
-
- if matches_filter:
- # it matches a filter, so stop looking for further matches
- break
-
- except Exception as e:
- if e.message.find('DBInstanceNotFound') >= 0:
- # AWS RDS bug (2016-01-06) means deletion does not fully complete and leave an 'empty' cluster.
- # Ignore errors when trying to find tags for these
- pass
-
- # ignore empty clusters caused by AWS bug
- if len(c['DBClusterMembers']) == 0:
- continue
- elif matches_filter:
- c_dict[c['DBClusterIdentifier']] = c
-
- self.inventory['db_clusters'] = c_dict
-
- def get_elasticache_clusters_by_region(self, region):
- ''' Makes an AWS API call to the list of ElastiCache clusters (with
- nodes' info) in a particular region.'''
-
- # ElastiCache boto module doesn't provide a get_all_intances method,
- # that's why we need to call describe directly (it would be called by
- # the shorthand method anyway...)
- try:
- conn = self.connect_to_aws(elasticache, region)
- if conn:
- # show_cache_node_info = True
- # because we also want nodes' information
- response = conn.describe_cache_clusters(None, None, None, True)
-
- except boto.exception.BotoServerError as e:
- error = e.reason
-
- if e.error_code == 'AuthFailure':
- error = self.get_auth_error_message()
- if not e.reason == "Forbidden":
- error = "Looks like AWS ElastiCache is down:\n%s" % e.message
- self.fail_with_error(error, 'getting ElastiCache clusters')
-
- try:
- # Boto also doesn't provide wrapper classes to CacheClusters or
- # CacheNodes. Because of that we can't make use of the get_list
- # method in the AWSQueryConnection. Let's do the work manually
- clusters = response['DescribeCacheClustersResponse']['DescribeCacheClustersResult']['CacheClusters']
-
- except KeyError as e:
- error = "ElastiCache query to AWS failed (unexpected format)."
- self.fail_with_error(error, 'getting ElastiCache clusters')
-
- for cluster in clusters:
- self.add_elasticache_cluster(cluster, region)
-
- def get_elasticache_replication_groups_by_region(self, region):
- ''' Makes an AWS API call to the list of ElastiCache replication groups
- in a particular region.'''
-
- # ElastiCache boto module doesn't provide a get_all_intances method,
- # that's why we need to call describe directly (it would be called by
- # the shorthand method anyway...)
- try:
- conn = self.connect_to_aws(elasticache, region)
- if conn:
- response = conn.describe_replication_groups()
-
- except boto.exception.BotoServerError as e:
- error = e.reason
-
- if e.error_code == 'AuthFailure':
- error = self.get_auth_error_message()
- if not e.reason == "Forbidden":
- error = "Looks like AWS ElastiCache [Replication Groups] is down:\n%s" % e.message
- self.fail_with_error(error, 'getting ElastiCache clusters')
-
- try:
- # Boto also doesn't provide wrapper classes to ReplicationGroups
- # Because of that we can't make use of the get_list method in the
- # AWSQueryConnection. Let's do the work manually
- replication_groups = response['DescribeReplicationGroupsResponse']['DescribeReplicationGroupsResult']['ReplicationGroups']
-
- except KeyError as e:
- error = "ElastiCache [Replication Groups] query to AWS failed (unexpected format)."
- self.fail_with_error(error, 'getting ElastiCache clusters')
-
- for replication_group in replication_groups:
- self.add_elasticache_replication_group(replication_group, region)
-
- def get_auth_error_message(self):
- ''' create an informative error message if there is an issue authenticating'''
- errors = ["Authentication error retrieving ec2 inventory."]
- if None in [os.environ.get('AWS_ACCESS_KEY_ID'), os.environ.get('AWS_SECRET_ACCESS_KEY')]:
- errors.append(' - No AWS_ACCESS_KEY_ID or AWS_SECRET_ACCESS_KEY environment vars found')
- else:
- errors.append(' - AWS_ACCESS_KEY_ID and AWS_SECRET_ACCESS_KEY environment vars found but may not be correct')
-
- boto_paths = ['/etc/boto.cfg', '~/.boto', '~/.aws/credentials']
- boto_config_found = list(p for p in boto_paths if os.path.isfile(os.path.expanduser(p)))
- if len(boto_config_found) > 0:
- errors.append(" - Boto configs found at '%s', but the credentials contained may not be correct" % ', '.join(boto_config_found))
- else:
- errors.append(" - No Boto config found at any expected location '%s'" % ', '.join(boto_paths))
-
- return '\n'.join(errors)
-
- def fail_with_error(self, err_msg, err_operation=None):
- '''log an error to std err for ansible-playbook to consume and exit'''
- if err_operation:
- err_msg = 'ERROR: "{err_msg}", while: {err_operation}'.format(
- err_msg=err_msg, err_operation=err_operation)
- sys.stderr.write(err_msg)
- sys.exit(1)
-
- def get_instance(self, region, instance_id):
- conn = self.connect(region)
-
- reservations = conn.get_all_instances([instance_id])
- for reservation in reservations:
- for instance in reservation.instances:
- return instance
-
- def add_instance(self, instance, region):
- ''' Adds an instance to the inventory and index, as long as it is
- addressable '''
-
- # Only return instances with desired instance states
- if instance.state not in self.ec2_instance_states:
- return
-
- # Select the best destination address
- if self.destination_format and self.destination_format_tags:
- dest = self.destination_format.format(*[ getattr(instance, 'tags').get(tag, '') for tag in self.destination_format_tags ])
- elif instance.subnet_id:
- dest = getattr(instance, self.vpc_destination_variable, None)
- if dest is None:
- dest = getattr(instance, 'tags').get(self.vpc_destination_variable, None)
- else:
- dest = getattr(instance, self.destination_variable, None)
- if dest is None:
- dest = getattr(instance, 'tags').get(self.destination_variable, None)
-
- if not dest:
- # Skip instances we cannot address (e.g. private VPC subnet)
- return
-
- # Set the inventory name
- hostname = None
- if self.hostname_variable:
- if self.hostname_variable.startswith('tag_'):
- hostname = instance.tags.get(self.hostname_variable[4:], None)
- else:
- hostname = getattr(instance, self.hostname_variable)
-
- # If we can't get a nice hostname, use the destination address
- if not hostname:
- hostname = dest
- else:
- hostname = self.to_safe(hostname).lower()
-
- # if we only want to include hosts that match a pattern, skip those that don't
- if self.pattern_include and not self.pattern_include.match(hostname):
- return
-
- # if we need to exclude hosts that match a pattern, skip those
- if self.pattern_exclude and self.pattern_exclude.match(hostname):
- return
-
- # Add to index
- self.index[hostname] = [region, instance.id]
-
- # Inventory: Group by instance ID (always a group of 1)
- if self.group_by_instance_id:
- self.inventory[instance.id] = [hostname]
- if self.nested_groups:
- self.push_group(self.inventory, 'instances', instance.id)
-
- # Inventory: Group by region
- if self.group_by_region:
- self.push(self.inventory, region, hostname)
- if self.nested_groups:
- self.push_group(self.inventory, 'regions', region)
-
- # Inventory: Group by availability zone
- if self.group_by_availability_zone:
- self.push(self.inventory, instance.placement, hostname)
- if self.nested_groups:
- if self.group_by_region:
- self.push_group(self.inventory, region, instance.placement)
- self.push_group(self.inventory, 'zones', instance.placement)
-
- # Inventory: Group by Amazon Machine Image (AMI) ID
- if self.group_by_ami_id:
- ami_id = self.to_safe(instance.image_id)
- self.push(self.inventory, ami_id, hostname)
- if self.nested_groups:
- self.push_group(self.inventory, 'images', ami_id)
-
- # Inventory: Group by instance type
- if self.group_by_instance_type:
- type_name = self.to_safe('type_' + instance.instance_type)
- self.push(self.inventory, type_name, hostname)
- if self.nested_groups:
- self.push_group(self.inventory, 'types', type_name)
-
- # Inventory: Group by key pair
- if self.group_by_key_pair and instance.key_name:
- key_name = self.to_safe('key_' + instance.key_name)
- self.push(self.inventory, key_name, hostname)
- if self.nested_groups:
- self.push_group(self.inventory, 'keys', key_name)
-
- # Inventory: Group by VPC
- if self.group_by_vpc_id and instance.vpc_id:
- vpc_id_name = self.to_safe('vpc_id_' + instance.vpc_id)
- self.push(self.inventory, vpc_id_name, hostname)
- if self.nested_groups:
- self.push_group(self.inventory, 'vpcs', vpc_id_name)
-
- # Inventory: Group by security group
- if self.group_by_security_group:
- try:
- for group in instance.groups:
- key = self.to_safe("security_group_" + group.name)
- self.push(self.inventory, key, hostname)
- if self.nested_groups:
- self.push_group(self.inventory, 'security_groups', key)
- except AttributeError:
- self.fail_with_error('\n'.join(['Package boto seems a bit older.',
- 'Please upgrade boto >= 2.3.0.']))
-
- # Inventory: Group by tag keys
- if self.group_by_tag_keys:
- for k, v in instance.tags.items():
- if self.expand_csv_tags and v and ',' in v:
- values = map(lambda x: x.strip(), v.split(','))
- else:
- values = [v]
-
- for v in values:
- if v:
- key = self.to_safe("tag_" + k + "=" + v)
- else:
- key = self.to_safe("tag_" + k)
- self.push(self.inventory, key, hostname)
- if self.nested_groups:
- self.push_group(self.inventory, 'tags', self.to_safe("tag_" + k))
- if v:
- self.push_group(self.inventory, self.to_safe("tag_" + k), key)
-
- # Inventory: Group by Route53 domain names if enabled
- if self.route53_enabled and self.group_by_route53_names:
- route53_names = self.get_instance_route53_names(instance)
- for name in route53_names:
- self.push(self.inventory, name, hostname)
- if self.nested_groups:
- self.push_group(self.inventory, 'route53', name)
-
- # Global Tag: instances without tags
- if self.group_by_tag_none and len(instance.tags) == 0:
- self.push(self.inventory, 'tag_none', hostname)
- if self.nested_groups:
- self.push_group(self.inventory, 'tags', 'tag_none')
-
- # Global Tag: tag all EC2 instances
- self.push(self.inventory, 'ec2', hostname)
-
- self.inventory["_meta"]["hostvars"][hostname] = self.get_host_info_dict_from_instance(instance)
- self.inventory["_meta"]["hostvars"][hostname]['ansible_ssh_host'] = dest
-
-
- def add_rds_instance(self, instance, region):
- ''' Adds an RDS instance to the inventory and index, as long as it is
- addressable '''
-
- # Only want available instances unless all_rds_instances is True
- if not self.all_rds_instances and instance.status != 'available':
- return
-
- # Select the best destination address
- dest = instance.endpoint[0]
-
- if not dest:
- # Skip instances we cannot address (e.g. private VPC subnet)
- return
-
- # Set the inventory name
- hostname = None
- if self.hostname_variable:
- if self.hostname_variable.startswith('tag_'):
- hostname = instance.tags.get(self.hostname_variable[4:], None)
- else:
- hostname = getattr(instance, self.hostname_variable)
-
- # If we can't get a nice hostname, use the destination address
- if not hostname:
- hostname = dest
-
- hostname = self.to_safe(hostname).lower()
-
- # Add to index
- self.index[hostname] = [region, instance.id]
-
- # Inventory: Group by instance ID (always a group of 1)
- if self.group_by_instance_id:
- self.inventory[instance.id] = [hostname]
- if self.nested_groups:
- self.push_group(self.inventory, 'instances', instance.id)
-
- # Inventory: Group by region
- if self.group_by_region:
- self.push(self.inventory, region, hostname)
- if self.nested_groups:
- self.push_group(self.inventory, 'regions', region)
-
- # Inventory: Group by availability zone
- if self.group_by_availability_zone:
- self.push(self.inventory, instance.availability_zone, hostname)
- if self.nested_groups:
- if self.group_by_region:
- self.push_group(self.inventory, region, instance.availability_zone)
- self.push_group(self.inventory, 'zones', instance.availability_zone)
-
- # Inventory: Group by instance type
- if self.group_by_instance_type:
- type_name = self.to_safe('type_' + instance.instance_class)
- self.push(self.inventory, type_name, hostname)
- if self.nested_groups:
- self.push_group(self.inventory, 'types', type_name)
-
- # Inventory: Group by VPC
- if self.group_by_vpc_id and instance.subnet_group and instance.subnet_group.vpc_id:
- vpc_id_name = self.to_safe('vpc_id_' + instance.subnet_group.vpc_id)
- self.push(self.inventory, vpc_id_name, hostname)
- if self.nested_groups:
- self.push_group(self.inventory, 'vpcs', vpc_id_name)
-
- # Inventory: Group by security group
- if self.group_by_security_group:
- try:
- if instance.security_group:
- key = self.to_safe("security_group_" + instance.security_group.name)
- self.push(self.inventory, key, hostname)
- if self.nested_groups:
- self.push_group(self.inventory, 'security_groups', key)
-
- except AttributeError:
- self.fail_with_error('\n'.join(['Package boto seems a bit older.',
- 'Please upgrade boto >= 2.3.0.']))
-
-
- # Inventory: Group by engine
- if self.group_by_rds_engine:
- self.push(self.inventory, self.to_safe("rds_" + instance.engine), hostname)
- if self.nested_groups:
- self.push_group(self.inventory, 'rds_engines', self.to_safe("rds_" + instance.engine))
-
- # Inventory: Group by parameter group
- if self.group_by_rds_parameter_group:
- self.push(self.inventory, self.to_safe("rds_parameter_group_" + instance.parameter_group.name), hostname)
- if self.nested_groups:
- self.push_group(self.inventory, 'rds_parameter_groups', self.to_safe("rds_parameter_group_" + instance.parameter_group.name))
-
- # Global Tag: all RDS instances
- self.push(self.inventory, 'rds', hostname)
-
- self.inventory["_meta"]["hostvars"][hostname] = self.get_host_info_dict_from_instance(instance)
- self.inventory["_meta"]["hostvars"][hostname]['ansible_ssh_host'] = dest
-
- def add_elasticache_cluster(self, cluster, region):
- ''' Adds an ElastiCache cluster to the inventory and index, as long as
- it's nodes are addressable '''
-
- # Only want available clusters unless all_elasticache_clusters is True
- if not self.all_elasticache_clusters and cluster['CacheClusterStatus'] != 'available':
- return
-
- # Select the best destination address
- if 'ConfigurationEndpoint' in cluster and cluster['ConfigurationEndpoint']:
- # Memcached cluster
- dest = cluster['ConfigurationEndpoint']['Address']
- is_redis = False
- else:
- # Redis sigle node cluster
- # Because all Redis clusters are single nodes, we'll merge the
- # info from the cluster with info about the node
- dest = cluster['CacheNodes'][0]['Endpoint']['Address']
- is_redis = True
-
- if not dest:
- # Skip clusters we cannot address (e.g. private VPC subnet)
- return
-
- # Add to index
- self.index[dest] = [region, cluster['CacheClusterId']]
-
- # Inventory: Group by instance ID (always a group of 1)
- if self.group_by_instance_id:
- self.inventory[cluster['CacheClusterId']] = [dest]
- if self.nested_groups:
- self.push_group(self.inventory, 'instances', cluster['CacheClusterId'])
-
- # Inventory: Group by region
- if self.group_by_region and not is_redis:
- self.push(self.inventory, region, dest)
- if self.nested_groups:
- self.push_group(self.inventory, 'regions', region)
-
- # Inventory: Group by availability zone
- if self.group_by_availability_zone and not is_redis:
- self.push(self.inventory, cluster['PreferredAvailabilityZone'], dest)
- if self.nested_groups:
- if self.group_by_region:
- self.push_group(self.inventory, region, cluster['PreferredAvailabilityZone'])
- self.push_group(self.inventory, 'zones', cluster['PreferredAvailabilityZone'])
-
- # Inventory: Group by node type
- if self.group_by_instance_type and not is_redis:
- type_name = self.to_safe('type_' + cluster['CacheNodeType'])
- self.push(self.inventory, type_name, dest)
- if self.nested_groups:
- self.push_group(self.inventory, 'types', type_name)
-
- # Inventory: Group by VPC (information not available in the current
- # AWS API version for ElastiCache)
-
- # Inventory: Group by security group
- if self.group_by_security_group and not is_redis:
-
- # Check for the existence of the 'SecurityGroups' key and also if
- # this key has some value. When the cluster is not placed in a SG
- # the query can return None here and cause an error.
- if 'SecurityGroups' in cluster and cluster['SecurityGroups'] is not None:
- for security_group in cluster['SecurityGroups']:
- key = self.to_safe("security_group_" + security_group['SecurityGroupId'])
- self.push(self.inventory, key, dest)
- if self.nested_groups:
- self.push_group(self.inventory, 'security_groups', key)
-
- # Inventory: Group by engine
- if self.group_by_elasticache_engine and not is_redis:
- self.push(self.inventory, self.to_safe("elasticache_" + cluster['Engine']), dest)
- if self.nested_groups:
- self.push_group(self.inventory, 'elasticache_engines', self.to_safe(cluster['Engine']))
-
- # Inventory: Group by parameter group
- if self.group_by_elasticache_parameter_group:
- self.push(self.inventory, self.to_safe("elasticache_parameter_group_" + cluster['CacheParameterGroup']['CacheParameterGroupName']), dest)
- if self.nested_groups:
- self.push_group(self.inventory, 'elasticache_parameter_groups', self.to_safe(cluster['CacheParameterGroup']['CacheParameterGroupName']))
-
- # Inventory: Group by replication group
- if self.group_by_elasticache_replication_group and 'ReplicationGroupId' in cluster and cluster['ReplicationGroupId']:
- self.push(self.inventory, self.to_safe("elasticache_replication_group_" + cluster['ReplicationGroupId']), dest)
- if self.nested_groups:
- self.push_group(self.inventory, 'elasticache_replication_groups', self.to_safe(cluster['ReplicationGroupId']))
-
- # Global Tag: all ElastiCache clusters
- self.push(self.inventory, 'elasticache_clusters', cluster['CacheClusterId'])
-
- host_info = self.get_host_info_dict_from_describe_dict(cluster)
-
- self.inventory["_meta"]["hostvars"][dest] = host_info
-
- # Add the nodes
- for node in cluster['CacheNodes']:
- self.add_elasticache_node(node, cluster, region)
-
- def add_elasticache_node(self, node, cluster, region):
- ''' Adds an ElastiCache node to the inventory and index, as long as
- it is addressable '''
-
- # Only want available nodes unless all_elasticache_nodes is True
- if not self.all_elasticache_nodes and node['CacheNodeStatus'] != 'available':
- return
-
- # Select the best destination address
- dest = node['Endpoint']['Address']
-
- if not dest:
- # Skip nodes we cannot address (e.g. private VPC subnet)
- return
-
- node_id = self.to_safe(cluster['CacheClusterId'] + '_' + node['CacheNodeId'])
-
- # Add to index
- self.index[dest] = [region, node_id]
-
- # Inventory: Group by node ID (always a group of 1)
- if self.group_by_instance_id:
- self.inventory[node_id] = [dest]
- if self.nested_groups:
- self.push_group(self.inventory, 'instances', node_id)
-
- # Inventory: Group by region
- if self.group_by_region:
- self.push(self.inventory, region, dest)
- if self.nested_groups:
- self.push_group(self.inventory, 'regions', region)
-
- # Inventory: Group by availability zone
- if self.group_by_availability_zone:
- self.push(self.inventory, cluster['PreferredAvailabilityZone'], dest)
- if self.nested_groups:
- if self.group_by_region:
- self.push_group(self.inventory, region, cluster['PreferredAvailabilityZone'])
- self.push_group(self.inventory, 'zones', cluster['PreferredAvailabilityZone'])
-
- # Inventory: Group by node type
- if self.group_by_instance_type:
- type_name = self.to_safe('type_' + cluster['CacheNodeType'])
- self.push(self.inventory, type_name, dest)
- if self.nested_groups:
- self.push_group(self.inventory, 'types', type_name)
-
- # Inventory: Group by VPC (information not available in the current
- # AWS API version for ElastiCache)
-
- # Inventory: Group by security group
- if self.group_by_security_group:
-
- # Check for the existence of the 'SecurityGroups' key and also if
- # this key has some value. When the cluster is not placed in a SG
- # the query can return None here and cause an error.
- if 'SecurityGroups' in cluster and cluster['SecurityGroups'] is not None:
- for security_group in cluster['SecurityGroups']:
- key = self.to_safe("security_group_" + security_group['SecurityGroupId'])
- self.push(self.inventory, key, dest)
- if self.nested_groups:
- self.push_group(self.inventory, 'security_groups', key)
-
- # Inventory: Group by engine
- if self.group_by_elasticache_engine:
- self.push(self.inventory, self.to_safe("elasticache_" + cluster['Engine']), dest)
- if self.nested_groups:
- self.push_group(self.inventory, 'elasticache_engines', self.to_safe("elasticache_" + cluster['Engine']))
-
- # Inventory: Group by parameter group (done at cluster level)
-
- # Inventory: Group by replication group (done at cluster level)
-
- # Inventory: Group by ElastiCache Cluster
- if self.group_by_elasticache_cluster:
- self.push(self.inventory, self.to_safe("elasticache_cluster_" + cluster['CacheClusterId']), dest)
-
- # Global Tag: all ElastiCache nodes
- self.push(self.inventory, 'elasticache_nodes', dest)
-
- host_info = self.get_host_info_dict_from_describe_dict(node)
-
- if dest in self.inventory["_meta"]["hostvars"]:
- self.inventory["_meta"]["hostvars"][dest].update(host_info)
- else:
- self.inventory["_meta"]["hostvars"][dest] = host_info
-
- def add_elasticache_replication_group(self, replication_group, region):
- ''' Adds an ElastiCache replication group to the inventory and index '''
-
- # Only want available clusters unless all_elasticache_replication_groups is True
- if not self.all_elasticache_replication_groups and replication_group['Status'] != 'available':
- return
-
- # Select the best destination address (PrimaryEndpoint)
- dest = replication_group['NodeGroups'][0]['PrimaryEndpoint']['Address']
-
- if not dest:
- # Skip clusters we cannot address (e.g. private VPC subnet)
- return
-
- # Add to index
- self.index[dest] = [region, replication_group['ReplicationGroupId']]
-
- # Inventory: Group by ID (always a group of 1)
- if self.group_by_instance_id:
- self.inventory[replication_group['ReplicationGroupId']] = [dest]
- if self.nested_groups:
- self.push_group(self.inventory, 'instances', replication_group['ReplicationGroupId'])
-
- # Inventory: Group by region
- if self.group_by_region:
- self.push(self.inventory, region, dest)
- if self.nested_groups:
- self.push_group(self.inventory, 'regions', region)
-
- # Inventory: Group by availability zone (doesn't apply to replication groups)
-
- # Inventory: Group by node type (doesn't apply to replication groups)
-
- # Inventory: Group by VPC (information not available in the current
- # AWS API version for replication groups
-
- # Inventory: Group by security group (doesn't apply to replication groups)
- # Check this value in cluster level
-
- # Inventory: Group by engine (replication groups are always Redis)
- if self.group_by_elasticache_engine:
- self.push(self.inventory, 'elasticache_redis', dest)
- if self.nested_groups:
- self.push_group(self.inventory, 'elasticache_engines', 'redis')
-
- # Global Tag: all ElastiCache clusters
- self.push(self.inventory, 'elasticache_replication_groups', replication_group['ReplicationGroupId'])
-
- host_info = self.get_host_info_dict_from_describe_dict(replication_group)
-
- self.inventory["_meta"]["hostvars"][dest] = host_info
-
- def get_route53_records(self):
- ''' Get and store the map of resource records to domain names that
- point to them. '''
-
- r53_conn = route53.Route53Connection()
- all_zones = r53_conn.get_zones()
-
- route53_zones = [ zone for zone in all_zones if zone.name[:-1]
- not in self.route53_excluded_zones ]
-
- self.route53_records = {}
-
- for zone in route53_zones:
- rrsets = r53_conn.get_all_rrsets(zone.id)
-
- for record_set in rrsets:
- record_name = record_set.name
-
- if record_name.endswith('.'):
- record_name = record_name[:-1]
-
- for resource in record_set.resource_records:
- self.route53_records.setdefault(resource, set())
- self.route53_records[resource].add(record_name)
-
-
- def get_instance_route53_names(self, instance):
- ''' Check if an instance is referenced in the records we have from
- Route53. If it is, return the list of domain names pointing to said
- instance. If nothing points to it, return an empty list. '''
-
- instance_attributes = [ 'public_dns_name', 'private_dns_name',
- 'ip_address', 'private_ip_address' ]
-
- name_list = set()
-
- for attrib in instance_attributes:
- try:
- value = getattr(instance, attrib)
- except AttributeError:
- continue
-
- if value in self.route53_records:
- name_list.update(self.route53_records[value])
-
- return list(name_list)
-
- def get_host_info_dict_from_instance(self, instance):
- instance_vars = {}
- for key in vars(instance):
- value = getattr(instance, key)
- key = self.to_safe('ec2_' + key)
-
- # Handle complex types
- # state/previous_state changed to properties in boto in https://github.com/boto/boto/commit/a23c379837f698212252720d2af8dec0325c9518
- if key == 'ec2__state':
- instance_vars['ec2_state'] = instance.state or ''
- instance_vars['ec2_state_code'] = instance.state_code
- elif key == 'ec2__previous_state':
- instance_vars['ec2_previous_state'] = instance.previous_state or ''
- instance_vars['ec2_previous_state_code'] = instance.previous_state_code
- elif type(value) in [int, bool]:
- instance_vars[key] = value
- elif isinstance(value, six.string_types):
- instance_vars[key] = value.strip()
- elif type(value) == type(None):
- instance_vars[key] = ''
- elif key == 'ec2_region':
- instance_vars[key] = value.name
- elif key == 'ec2__placement':
- instance_vars['ec2_placement'] = value.zone
- elif key == 'ec2_tags':
- for k, v in value.items():
- if self.expand_csv_tags and ',' in v:
- v = list(map(lambda x: x.strip(), v.split(',')))
- key = self.to_safe('ec2_tag_' + k)
- instance_vars[key] = v
- elif key == 'ec2_groups':
- group_ids = []
- group_names = []
- for group in value:
- group_ids.append(group.id)
- group_names.append(group.name)
- instance_vars["ec2_security_group_ids"] = ','.join([str(i) for i in group_ids])
- instance_vars["ec2_security_group_names"] = ','.join([str(i) for i in group_names])
- elif key == 'ec2_block_device_mapping':
- instance_vars["ec2_block_devices"] = {}
- for k, v in value.items():
- instance_vars["ec2_block_devices"][ os.path.basename(k) ] = v.volume_id
- else:
- pass
- # TODO Product codes if someone finds them useful
- #print key
- #print type(value)
- #print value
-
- return instance_vars
-
- def get_host_info_dict_from_describe_dict(self, describe_dict):
- ''' Parses the dictionary returned by the API call into a flat list
- of parameters. This method should be used only when 'describe' is
- used directly because Boto doesn't provide specific classes. '''
-
- # I really don't agree with prefixing everything with 'ec2'
- # because EC2, RDS and ElastiCache are different services.
- # I'm just following the pattern used until now to not break any
- # compatibility.
-
- host_info = {}
- for key in describe_dict:
- value = describe_dict[key]
- key = self.to_safe('ec2_' + self.uncammelize(key))
-
- # Handle complex types
-
- # Target: Memcached Cache Clusters
- if key == 'ec2_configuration_endpoint' and value:
- host_info['ec2_configuration_endpoint_address'] = value['Address']
- host_info['ec2_configuration_endpoint_port'] = value['Port']
-
- # Target: Cache Nodes and Redis Cache Clusters (single node)
- if key == 'ec2_endpoint' and value:
- host_info['ec2_endpoint_address'] = value['Address']
- host_info['ec2_endpoint_port'] = value['Port']
-
- # Target: Redis Replication Groups
- if key == 'ec2_node_groups' and value:
- host_info['ec2_endpoint_address'] = value[0]['PrimaryEndpoint']['Address']
- host_info['ec2_endpoint_port'] = value[0]['PrimaryEndpoint']['Port']
- replica_count = 0
- for node in value[0]['NodeGroupMembers']:
- if node['CurrentRole'] == 'primary':
- host_info['ec2_primary_cluster_address'] = node['ReadEndpoint']['Address']
- host_info['ec2_primary_cluster_port'] = node['ReadEndpoint']['Port']
- host_info['ec2_primary_cluster_id'] = node['CacheClusterId']
- elif node['CurrentRole'] == 'replica':
- host_info['ec2_replica_cluster_address_'+ str(replica_count)] = node['ReadEndpoint']['Address']
- host_info['ec2_replica_cluster_port_'+ str(replica_count)] = node['ReadEndpoint']['Port']
- host_info['ec2_replica_cluster_id_'+ str(replica_count)] = node['CacheClusterId']
- replica_count += 1
-
- # Target: Redis Replication Groups
- if key == 'ec2_member_clusters' and value:
- host_info['ec2_member_clusters'] = ','.join([str(i) for i in value])
-
- # Target: All Cache Clusters
- elif key == 'ec2_cache_parameter_group':
- host_info["ec2_cache_node_ids_to_reboot"] = ','.join([str(i) for i in value['CacheNodeIdsToReboot']])
- host_info['ec2_cache_parameter_group_name'] = value['CacheParameterGroupName']
- host_info['ec2_cache_parameter_apply_status'] = value['ParameterApplyStatus']
-
- # Target: Almost everything
- elif key == 'ec2_security_groups':
-
- # Skip if SecurityGroups is None
- # (it is possible to have the key defined but no value in it).
- if value is not None:
- sg_ids = []
- for sg in value:
- sg_ids.append(sg['SecurityGroupId'])
- host_info["ec2_security_group_ids"] = ','.join([str(i) for i in sg_ids])
-
- # Target: Everything
- # Preserve booleans and integers
- elif type(value) in [int, bool]:
- host_info[key] = value
-
- # Target: Everything
- # Sanitize string values
- elif isinstance(value, six.string_types):
- host_info[key] = value.strip()
-
- # Target: Everything
- # Replace None by an empty string
- elif type(value) == type(None):
- host_info[key] = ''
-
- else:
- # Remove non-processed complex types
- pass
-
- return host_info
-
- def get_host_info(self):
- ''' Get variables about a specific host '''
-
- if len(self.index) == 0:
- # Need to load index from cache
- self.load_index_from_cache()
-
- if not self.args.host in self.index:
- # try updating the cache
- self.do_api_calls_update_cache()
- if not self.args.host in self.index:
- # host might not exist anymore
- return self.json_format_dict({}, True)
-
- (region, instance_id) = self.index[self.args.host]
-
- instance = self.get_instance(region, instance_id)
- return self.json_format_dict(self.get_host_info_dict_from_instance(instance), True)
-
- def push(self, my_dict, key, element):
- ''' Push an element onto an array that may not have been defined in
- the dict '''
- group_info = my_dict.setdefault(key, [])
- if isinstance(group_info, dict):
- host_list = group_info.setdefault('hosts', [])
- host_list.append(element)
- else:
- group_info.append(element)
-
- def push_group(self, my_dict, key, element):
- ''' Push a group as a child of another group. '''
- parent_group = my_dict.setdefault(key, {})
- if not isinstance(parent_group, dict):
- parent_group = my_dict[key] = {'hosts': parent_group}
- child_groups = parent_group.setdefault('children', [])
- if element not in child_groups:
- child_groups.append(element)
-
- def get_inventory_from_cache(self):
- ''' Reads the inventory from the cache file and returns it as a JSON
- object '''
-
- cache = open(self.cache_path_cache, 'r')
- json_inventory = cache.read()
- return json_inventory
-
-
- def load_index_from_cache(self):
- ''' Reads the index from the cache file sets self.index '''
-
- cache = open(self.cache_path_index, 'r')
- json_index = cache.read()
- self.index = json.loads(json_index)
-
-
- def write_to_cache(self, data, filename):
- ''' Writes data in JSON format to a file '''
-
- json_data = self.json_format_dict(data, True)
- cache = open(filename, 'w')
- cache.write(json_data)
- cache.close()
-
- def uncammelize(self, key):
- temp = re.sub('(.)([A-Z][a-z]+)', r'\1_\2', key)
- return re.sub('([a-z0-9])([A-Z])', r'\1_\2', temp).lower()
-
- def to_safe(self, word):
- ''' Converts 'bad' characters in a string to underscores so they can be used as Ansible groups '''
- regex = "[^A-Za-z0-9\_"
- if not self.replace_dash_in_groups:
- regex += "\-"
- return re.sub(regex + "]", "_", word)
-
- def json_format_dict(self, data, pretty=False):
- ''' Converts a dict to a JSON object and dumps it as a formatted
- string '''
-
- if pretty:
- return json.dumps(data, sort_keys=True, indent=2)
- else:
- return json.dumps(data)
-
-
-# Run the script
-Ec2Inventory()
diff --git a/inventory/aws/hosts/hosts b/inventory/aws/hosts/hosts
deleted file mode 100644
index 3996e577e..000000000
--- a/inventory/aws/hosts/hosts
+++ /dev/null
@@ -1 +0,0 @@
-localhost ansible_connection=local ansible_become=no ansible_python_interpreter='/usr/bin/env python2'