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ansible-later/env_27/lib/python2.7/site-packages/ansible/modules/cloud/amazon/rds.py
Robert Kaussow 04dec26a3a add missing dependencies and fix drone pipeline
2019-04-11 13:00:36 +02:00

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#!/usr/bin/python
# Copyright: Ansible Project
# GNU General Public License v3.0+ (see COPYING or https://www.gnu.org/licenses/gpl-3.0.txt)
from __future__ import absolute_import, division, print_function
__metaclass__ = type
ANSIBLE_METADATA = {'metadata_version': '1.1',
'status': ['stableinterface'],
'supported_by': 'community'}
DOCUMENTATION = '''
---
module: rds
version_added: "1.3"
short_description: create, delete, or modify an Amazon rds instance
description:
- Creates, deletes, or modifies rds instances. When creating an instance it can be either a new instance or a read-only replica of an existing
instance. This module has a dependency on python-boto >= 2.5. The 'promote' command requires boto >= 2.18.0. Certain features such as tags rely
on boto.rds2 (boto >= 2.26.0)
options:
command:
description:
- Specifies the action to take. The 'reboot' option is available starting at version 2.0
required: true
choices: [ 'create', 'replicate', 'delete', 'facts', 'modify' , 'promote', 'snapshot', 'reboot', 'restore' ]
instance_name:
description:
- Database instance identifier. Required except when using command=facts or command=delete on just a snapshot
source_instance:
description:
- Name of the database to replicate. Used only when command=replicate.
db_engine:
description:
- The type of database. Used only when command=create.
- mariadb was added in version 2.2
choices: ['mariadb', 'MySQL', 'oracle-se1', 'oracle-se2', 'oracle-se', 'oracle-ee',
'sqlserver-ee', 'sqlserver-se', 'sqlserver-ex', 'sqlserver-web', 'postgres', 'aurora']
size:
description:
- Size in gigabytes of the initial storage for the DB instance. Used only when command=create or command=modify.
instance_type:
description:
- The instance type of the database. Must be specified when command=create. Optional when command=replicate, command=modify or command=restore.
If not specified then the replica inherits the same instance type as the source instance.
username:
description:
- Master database username. Used only when command=create.
password:
description:
- Password for the master database username. Used only when command=create or command=modify.
region:
description:
- The AWS region to use. If not specified then the value of the EC2_REGION environment variable, if any, is used.
required: true
aliases: [ 'aws_region', 'ec2_region' ]
db_name:
description:
- Name of a database to create within the instance. If not specified then no database is created. Used only when command=create.
engine_version:
description:
- Version number of the database engine to use. Used only when command=create. If not specified then the current Amazon RDS default engine version is used
parameter_group:
description:
- Name of the DB parameter group to associate with this instance. If omitted then the RDS default DBParameterGroup will be used. Used only
when command=create or command=modify.
license_model:
description:
- The license model for this DB instance. Used only when command=create or command=restore.
choices: [ 'license-included', 'bring-your-own-license', 'general-public-license', 'postgresql-license' ]
multi_zone:
description:
- Specifies if this is a Multi-availability-zone deployment. Can not be used in conjunction with zone parameter. Used only when command=create or
command=modify.
type: bool
iops:
description:
- Specifies the number of IOPS for the instance. Used only when command=create or command=modify. Must be an integer greater than 1000.
security_groups:
description:
- Comma separated list of one or more security groups. Used only when command=create or command=modify.
vpc_security_groups:
description:
- Comma separated list of one or more vpc security group ids. Also requires `subnet` to be specified. Used only when command=create or command=modify.
port:
description:
- Port number that the DB instance uses for connections. Used only when command=create or command=replicate.
- Prior to 2.0 it always defaults to null and the API would use 3306, it had to be set to other DB default values when not using MySql.
Starting at 2.0 it automatically defaults to what is expected for each C(db_engine).
default: 3306 for mysql, 1521 for Oracle, 1433 for SQL Server, 5432 for PostgreSQL.
upgrade:
description:
- Indicates that minor version upgrades should be applied automatically. Used only when command=create or command=replicate.
type: bool
default: 'no'
option_group:
description:
- The name of the option group to use. If not specified then the default option group is used. Used only when command=create.
maint_window:
description:
- >
Maintenance window in format of ddd:hh24:mi-ddd:hh24:mi. (Example: Mon:22:00-Mon:23:15) If not specified then a random maintenance window is
assigned. Used only when command=create or command=modify.
backup_window:
description:
- Backup window in format of hh24:mi-hh24:mi. If not specified then a random backup window is assigned. Used only when command=create or command=modify.
backup_retention:
description:
- >
Number of days backups are retained. Set to 0 to disable backups. Default is 1 day. Valid range: 0-35. Used only when command=create or
command=modify.
zone:
description:
- availability zone in which to launch the instance. Used only when command=create, command=replicate or command=restore.
aliases: ['aws_zone', 'ec2_zone']
subnet:
description:
- VPC subnet group. If specified then a VPC instance is created. Used only when command=create.
snapshot:
description:
- Name of snapshot to take. When command=delete, if no snapshot name is provided then no snapshot is taken. If used with command=delete with
no instance_name, the snapshot is deleted. Used with command=facts, command=delete or command=snapshot.
aws_secret_key:
description:
- AWS secret key. If not set then the value of the AWS_SECRET_KEY environment variable is used.
aliases: [ 'ec2_secret_key', 'secret_key' ]
aws_access_key:
description:
- AWS access key. If not set then the value of the AWS_ACCESS_KEY environment variable is used.
aliases: [ 'ec2_access_key', 'access_key' ]
wait:
description:
- When command=create, replicate, modify or restore then wait for the database to enter the 'available' state. When command=delete wait for
the database to be terminated.
type: bool
default: 'no'
wait_timeout:
description:
- how long before wait gives up, in seconds
default: 300
apply_immediately:
description:
- Used only when command=modify. If enabled, the modifications will be applied as soon as possible rather than waiting for the next
preferred maintenance window.
type: bool
default: 'no'
force_failover:
description:
- Used only when command=reboot. If enabled, the reboot is done using a MultiAZ failover.
type: bool
default: 'no'
version_added: "2.0"
new_instance_name:
description:
- Name to rename an instance to. Used only when command=modify.
version_added: "1.5"
character_set_name:
description:
- Associate the DB instance with a specified character set. Used with command=create.
version_added: "1.9"
publicly_accessible:
description:
- explicitly set whether the resource should be publicly accessible or not. Used with command=create, command=replicate. Requires boto >= 2.26.0
version_added: "1.9"
tags:
description:
- tags dict to apply to a resource. Used with command=create, command=replicate, command=restore. Requires boto >= 2.26.0
version_added: "1.9"
requirements:
- "python >= 2.6"
- "boto"
author:
- "Bruce Pennypacker (@bpennypacker)"
- "Will Thames (@willthames)"
extends_documentation_fragment:
- aws
- ec2
'''
# FIXME: the command stuff needs a 'state' like alias to make things consistent -- MPD
EXAMPLES = '''
# Basic mysql provisioning example
- rds:
command: create
instance_name: new-database
db_engine: MySQL
size: 10
instance_type: db.m1.small
username: mysql_admin
password: 1nsecure
tags:
Environment: testing
Application: cms
# Create a read-only replica and wait for it to become available
- rds:
command: replicate
instance_name: new-database-replica
source_instance: new_database
wait: yes
wait_timeout: 600
# Delete an instance, but create a snapshot before doing so
- rds:
command: delete
instance_name: new-database
snapshot: new_database_snapshot
# Get facts about an instance
- rds:
command: facts
instance_name: new-database
register: new_database_facts
# Rename an instance and wait for the change to take effect
- rds:
command: modify
instance_name: new-database
new_instance_name: renamed-database
wait: yes
# Reboot an instance and wait for it to become available again
- rds:
command: reboot
instance_name: database
wait: yes
# Restore a Postgres db instance from a snapshot, wait for it to become available again, and
# then modify it to add your security group. Also, display the new endpoint.
# Note that the "publicly_accessible" option is allowed here just as it is in the AWS CLI
- local_action:
module: rds
command: restore
snapshot: mypostgres-snapshot
instance_name: MyNewInstanceName
region: us-west-2
zone: us-west-2b
subnet: default-vpc-xx441xxx
publicly_accessible: yes
wait: yes
wait_timeout: 600
tags:
Name: pg1_test_name_tag
register: rds
- local_action:
module: rds
command: modify
instance_name: MyNewInstanceName
region: us-west-2
vpc_security_groups: sg-xxx945xx
- debug:
msg: "The new db endpoint is {{ rds.instance.endpoint }}"
'''
RETURN = '''
engine:
description: the name of the database engine
returned: when RDS instance exists
type: string
sample: "oracle-se"
engine_version:
description: the version of the database engine
returned: when RDS instance exists
type: string
sample: "11.2.0.4.v6"
license_model:
description: the license model information
returned: when RDS instance exists
type: string
sample: "bring-your-own-license"
character_set_name:
description: the name of the character set that this instance is associated with
returned: when RDS instance exists
type: string
sample: "AL32UTF8"
allocated_storage:
description: the allocated storage size in gigabytes (GB)
returned: when RDS instance exists
type: string
sample: "100"
publicly_accessible:
description: the accessibility options for the DB instance
returned: when RDS instance exists
type: boolean
sample: "true"
latest_restorable_time:
description: the latest time to which a database can be restored with point-in-time restore
returned: when RDS instance exists
type: string
sample: "1489707802.0"
secondary_availability_zone:
description: the name of the secondary AZ for a DB instance with multi-AZ support
returned: when RDS instance exists and is multy-AZ
type: string
sample: "eu-west-1b"
backup_window:
description: the daily time range during which automated backups are created if automated backups are enabled
returned: when RDS instance exists and automated backups are enabled
type: string
sample: "03:00-03:30"
auto_minor_version_upgrade:
description: indicates that minor engine upgrades will be applied automatically to the DB instance during the maintenance window
returned: when RDS instance exists
type: boolean
sample: "true"
read_replica_source_dbinstance_identifier:
description: the identifier of the source DB instance if this RDS instance is a read replica
returned: when read replica RDS instance exists
type: string
sample: "null"
db_name:
description: the name of the database to create when the DB instance is created
returned: when RDS instance exists
type: string
sample: "ASERTG"
parameter_groups:
description: the list of DB parameter groups applied to this RDS instance
returned: when RDS instance exists and parameter groups are defined
type: complex
contains:
parameter_apply_status:
description: the status of parameter updates
returned: when RDS instance exists
type: string
sample: "in-sync"
parameter_group_name:
description: the name of the DP parameter group
returned: when RDS instance exists
type: string
sample: "testawsrpprodb01spfile-1ujg7nrs7sgyz"
option_groups:
description: the list of option group memberships for this RDS instance
returned: when RDS instance exists
type: complex
contains:
option_group_name:
description: the option group name for this RDS instance
returned: when RDS instance exists
type: string
sample: "default:oracle-se-11-2"
status:
description: the status of the RDS instance's option group membership
returned: when RDS instance exists
type: string
sample: "in-sync"
pending_modified_values:
description: a dictionary of changes to the RDS instance that are pending
returned: when RDS instance exists
type: complex
contains:
db_instance_class:
description: the new DB instance class for this RDS instance that will be applied or is in progress
returned: when RDS instance exists
type: string
sample: "null"
db_instance_identifier:
description: the new DB instance identifier this RDS instance that will be applied or is in progress
returned: when RDS instance exists
type: string
sample: "null"
allocated_storage:
description: the new allocated storage size for this RDS instance that will be applied or is in progress
returned: when RDS instance exists
type: string
sample: "null"
backup_retention_period:
description: the pending number of days for which automated backups are retained
returned: when RDS instance exists
type: string
sample: "null"
engine_version:
description: indicates the database engine version
returned: when RDS instance exists
type: string
sample: "null"
iops:
description: the new provisioned IOPS value for this RDS instance that will be applied or is being applied
returned: when RDS instance exists
type: string
sample: "null"
master_user_password:
description: the pending or in-progress change of the master credentials for this RDS instance
returned: when RDS instance exists
type: string
sample: "null"
multi_az:
description: indicates that the single-AZ RDS instance is to change to a multi-AZ deployment
returned: when RDS instance exists
type: string
sample: "null"
port:
description: specifies the pending port for this RDS instance
returned: when RDS instance exists
type: string
sample: "null"
db_subnet_groups:
description: information on the subnet group associated with this RDS instance
returned: when RDS instance exists
type: complex
contains:
description:
description: the subnet group associated with the DB instance
returned: when RDS instance exists
type: string
sample: "Subnets for the UAT RDS SQL DB Instance"
name:
description: the name of the DB subnet group
returned: when RDS instance exists
type: string
sample: "samplesubnetgrouprds-j6paiqkxqp4z"
status:
description: the status of the DB subnet group
returned: when RDS instance exists
type: string
sample: "complete"
subnets:
description: the description of the DB subnet group
returned: when RDS instance exists
type: complex
contains:
availability_zone:
description: subnet availability zone information
returned: when RDS instance exists
type: complex
contains:
name:
description: avaialbility zone
returned: when RDS instance exists
type: string
sample: "eu-west-1b"
provisioned_iops_capable:
description: whether provisioned iops are available in AZ subnet
returned: when RDS instance exists
type: boolean
sample: "false"
identifier:
description: the identifier of the subnet
returned: when RDS instance exists
type: string
sample: "subnet-3fdba63e"
status:
description: the status of the subnet
returned: when RDS instance exists
type: string
sample: "active"
'''
import time
try:
import boto.rds
import boto.exception
except ImportError:
pass # Taken care of by ec2.HAS_BOTO
try:
import boto.rds2
import boto.rds2.exceptions
HAS_RDS2 = True
except ImportError:
HAS_RDS2 = False
from ansible.module_utils.basic import AnsibleModule
from ansible.module_utils.ec2 import AWSRetry
from ansible.module_utils.ec2 import HAS_BOTO, connect_to_aws, ec2_argument_spec, get_aws_connection_info
DEFAULT_PORTS = {
'aurora': 3306,
'mariadb': 3306,
'mysql': 3306,
'oracle': 1521,
'sqlserver': 1433,
'postgres': 5432,
}
class RDSException(Exception):
def __init__(self, exc):
if hasattr(exc, 'error_message') and exc.error_message:
self.message = exc.error_message
self.code = exc.error_code
elif hasattr(exc, 'body') and 'Error' in exc.body:
self.message = exc.body['Error']['Message']
self.code = exc.body['Error']['Code']
else:
self.message = str(exc)
self.code = 'Unknown Error'
class RDSConnection:
def __init__(self, module, region, **aws_connect_params):
try:
self.connection = connect_to_aws(boto.rds, region, **aws_connect_params)
except boto.exception.BotoServerError as e:
module.fail_json(msg=e.error_message)
def get_db_instance(self, instancename):
try:
return RDSDBInstance(self.connection.get_all_dbinstances(instancename)[0])
except boto.exception.BotoServerError:
return None
def get_db_snapshot(self, snapshotid):
try:
return RDSSnapshot(self.connection.get_all_dbsnapshots(snapshot_id=snapshotid)[0])
except boto.exception.BotoServerError:
return None
def create_db_instance(self, instance_name, size, instance_class, db_engine,
username, password, **params):
params['engine'] = db_engine
try:
result = self.connection.create_dbinstance(instance_name, size, instance_class,
username, password, **params)
return RDSDBInstance(result)
except boto.exception.BotoServerError as e:
raise RDSException(e)
def create_db_instance_read_replica(self, instance_name, source_instance, **params):
try:
result = self.connection.createdb_instance_read_replica(instance_name, source_instance, **params)
return RDSDBInstance(result)
except boto.exception.BotoServerError as e:
raise RDSException(e)
def delete_db_instance(self, instance_name, **params):
try:
result = self.connection.delete_dbinstance(instance_name, **params)
return RDSDBInstance(result)
except boto.exception.BotoServerError as e:
raise RDSException(e)
def delete_db_snapshot(self, snapshot):
try:
result = self.connection.delete_dbsnapshot(snapshot)
return RDSSnapshot(result)
except boto.exception.BotoServerError as e:
raise RDSException(e)
def modify_db_instance(self, instance_name, **params):
try:
result = self.connection.modify_dbinstance(instance_name, **params)
return RDSDBInstance(result)
except boto.exception.BotoServerError as e:
raise RDSException(e)
def reboot_db_instance(self, instance_name, **params):
try:
result = self.connection.reboot_dbinstance(instance_name)
return RDSDBInstance(result)
except boto.exception.BotoServerError as e:
raise RDSException(e)
def restore_db_instance_from_db_snapshot(self, instance_name, snapshot, instance_type, **params):
try:
result = self.connection.restore_dbinstance_from_dbsnapshot(snapshot, instance_name, instance_type, **params)
return RDSDBInstance(result)
except boto.exception.BotoServerError as e:
raise RDSException(e)
def create_db_snapshot(self, snapshot, instance_name, **params):
try:
result = self.connection.create_dbsnapshot(snapshot, instance_name)
return RDSSnapshot(result)
except boto.exception.BotoServerError as e:
raise RDSException(e)
def promote_read_replica(self, instance_name, **params):
try:
result = self.connection.promote_read_replica(instance_name, **params)
return RDSDBInstance(result)
except boto.exception.BotoServerError as e:
raise RDSException(e)
class RDS2Connection:
def __init__(self, module, region, **aws_connect_params):
try:
self.connection = connect_to_aws(boto.rds2, region, **aws_connect_params)
except boto.exception.BotoServerError as e:
module.fail_json(msg=e.error_message)
def get_db_instance(self, instancename):
try:
dbinstances = self.connection.describe_db_instances(
db_instance_identifier=instancename
)['DescribeDBInstancesResponse']['DescribeDBInstancesResult']['DBInstances']
result = RDS2DBInstance(dbinstances[0])
return result
except boto.rds2.exceptions.DBInstanceNotFound as e:
return None
except Exception as e:
raise e
def get_db_snapshot(self, snapshotid):
try:
snapshots = self.connection.describe_db_snapshots(
db_snapshot_identifier=snapshotid,
snapshot_type='manual'
)['DescribeDBSnapshotsResponse']['DescribeDBSnapshotsResult']['DBSnapshots']
result = RDS2Snapshot(snapshots[0])
return result
except boto.rds2.exceptions.DBSnapshotNotFound:
return None
def create_db_instance(self, instance_name, size, instance_class, db_engine,
username, password, **params):
try:
result = self.connection.create_db_instance(instance_name, size, instance_class, db_engine, username, password,
**params)['CreateDBInstanceResponse']['CreateDBInstanceResult']['DBInstance']
return RDS2DBInstance(result)
except boto.exception.BotoServerError as e:
raise RDSException(e)
def create_db_instance_read_replica(self, instance_name, source_instance, **params):
try:
result = self.connection.create_db_instance_read_replica(
instance_name,
source_instance,
**params
)['CreateDBInstanceReadReplicaResponse']['CreateDBInstanceReadReplicaResult']['DBInstance']
return RDS2DBInstance(result)
except boto.exception.BotoServerError as e:
raise RDSException(e)
def delete_db_instance(self, instance_name, **params):
try:
result = self.connection.delete_db_instance(instance_name, **params)['DeleteDBInstanceResponse']['DeleteDBInstanceResult']['DBInstance']
return RDS2DBInstance(result)
except boto.exception.BotoServerError as e:
raise RDSException(e)
def delete_db_snapshot(self, snapshot):
try:
result = self.connection.delete_db_snapshot(snapshot)['DeleteDBSnapshotResponse']['DeleteDBSnapshotResult']['DBSnapshot']
return RDS2Snapshot(result)
except boto.exception.BotoServerError as e:
raise RDSException(e)
def modify_db_instance(self, instance_name, **params):
try:
result = self.connection.modify_db_instance(instance_name, **params)['ModifyDBInstanceResponse']['ModifyDBInstanceResult']['DBInstance']
return RDS2DBInstance(result)
except boto.exception.BotoServerError as e:
raise RDSException(e)
def reboot_db_instance(self, instance_name, **params):
try:
result = self.connection.reboot_db_instance(instance_name, **params)['RebootDBInstanceResponse']['RebootDBInstanceResult']['DBInstance']
return RDS2DBInstance(result)
except boto.exception.BotoServerError as e:
raise RDSException(e)
def restore_db_instance_from_db_snapshot(self, instance_name, snapshot, instance_type, **params):
try:
result = self.connection.restore_db_instance_from_db_snapshot(
instance_name,
snapshot,
**params
)['RestoreDBInstanceFromDBSnapshotResponse']['RestoreDBInstanceFromDBSnapshotResult']['DBInstance']
return RDS2DBInstance(result)
except boto.exception.BotoServerError as e:
raise RDSException(e)
def create_db_snapshot(self, snapshot, instance_name, **params):
try:
result = self.connection.create_db_snapshot(snapshot, instance_name, **params)['CreateDBSnapshotResponse']['CreateDBSnapshotResult']['DBSnapshot']
return RDS2Snapshot(result)
except boto.exception.BotoServerError as e:
raise RDSException(e)
def promote_read_replica(self, instance_name, **params):
try:
result = self.connection.promote_read_replica(instance_name, **params)['PromoteReadReplicaResponse']['PromoteReadReplicaResult']['DBInstance']
return RDS2DBInstance(result)
except boto.exception.BotoServerError as e:
raise RDSException(e)
class RDSDBInstance:
def __init__(self, dbinstance):
self.instance = dbinstance
self.name = dbinstance.id
self.status = dbinstance.status
def get_data(self):
d = {
'id': self.name,
'create_time': self.instance.create_time,
'status': self.status,
'availability_zone': self.instance.availability_zone,
'backup_retention': self.instance.backup_retention_period,
'backup_window': self.instance.preferred_backup_window,
'maintenance_window': self.instance.preferred_maintenance_window,
'multi_zone': self.instance.multi_az,
'instance_type': self.instance.instance_class,
'username': self.instance.master_username,
'iops': self.instance.iops
}
# Only assign an Endpoint if one is available
if hasattr(self.instance, 'endpoint'):
d["endpoint"] = self.instance.endpoint[0]
d["port"] = self.instance.endpoint[1]
if self.instance.vpc_security_groups is not None:
d["vpc_security_groups"] = ','.join(x.vpc_group for x in self.instance.vpc_security_groups)
else:
d["vpc_security_groups"] = None
else:
d["endpoint"] = None
d["port"] = None
d["vpc_security_groups"] = None
if self.instance.DBName:
d['DBName'] = self.instance.DBName
# ReadReplicaSourceDBInstanceIdentifier may or may not exist
try:
d["replication_source"] = self.instance.ReadReplicaSourceDBInstanceIdentifier
except Exception:
d["replication_source"] = None
return d
class RDS2DBInstance:
def __init__(self, dbinstance):
self.instance = dbinstance
if 'DBInstanceIdentifier' not in dbinstance:
self.name = None
else:
self.name = self.instance.get('DBInstanceIdentifier')
self.status = self.instance.get('DBInstanceStatus')
def get_data(self):
d = {
'id': self.name,
'create_time': self.instance['InstanceCreateTime'],
'engine': self.instance['Engine'],
'engine_version': self.instance['EngineVersion'],
'license_model': self.instance['LicenseModel'],
'character_set_name': self.instance['CharacterSetName'],
'allocated_storage': self.instance['AllocatedStorage'],
'publicly_accessible': self.instance['PubliclyAccessible'],
'latest_restorable_time': self.instance['LatestRestorableTime'],
'status': self.status,
'availability_zone': self.instance['AvailabilityZone'],
'secondary_availability_zone': self.instance['SecondaryAvailabilityZone'],
'backup_retention': self.instance['BackupRetentionPeriod'],
'backup_window': self.instance['PreferredBackupWindow'],
'maintenance_window': self.instance['PreferredMaintenanceWindow'],
'auto_minor_version_upgrade': self.instance['AutoMinorVersionUpgrade'],
'read_replica_source_dbinstance_identifier': self.instance['ReadReplicaSourceDBInstanceIdentifier'],
'multi_zone': self.instance['MultiAZ'],
'instance_type': self.instance['DBInstanceClass'],
'username': self.instance['MasterUsername'],
'db_name': self.instance['DBName'],
'iops': self.instance['Iops'],
'replication_source': self.instance['ReadReplicaSourceDBInstanceIdentifier']
}
if self.instance['DBParameterGroups'] is not None:
parameter_groups = []
for x in self.instance['DBParameterGroups']:
parameter_groups.append({'parameter_group_name': x['DBParameterGroupName'], 'parameter_apply_status': x['ParameterApplyStatus']})
d['parameter_groups'] = parameter_groups
if self.instance['OptionGroupMemberships'] is not None:
option_groups = []
for x in self.instance['OptionGroupMemberships']:
option_groups.append({'status': x['Status'], 'option_group_name': x['OptionGroupName']})
d['option_groups'] = option_groups
if self.instance['PendingModifiedValues'] is not None:
pdv = self.instance['PendingModifiedValues']
d['pending_modified_values'] = {
'multi_az': pdv['MultiAZ'],
'master_user_password': pdv['MasterUserPassword'],
'port': pdv['Port'],
'iops': pdv['Iops'],
'allocated_storage': pdv['AllocatedStorage'],
'engine_version': pdv['EngineVersion'],
'backup_retention_period': pdv['BackupRetentionPeriod'],
'db_instance_class': pdv['DBInstanceClass'],
'db_instance_identifier': pdv['DBInstanceIdentifier']
}
if self.instance["DBSubnetGroup"] is not None:
dsg = self.instance["DBSubnetGroup"]
db_subnet_groups = {}
db_subnet_groups['vpc_id'] = dsg['VpcId']
db_subnet_groups['name'] = dsg['DBSubnetGroupName']
db_subnet_groups['status'] = dsg['SubnetGroupStatus'].lower()
db_subnet_groups['description'] = dsg['DBSubnetGroupDescription']
db_subnet_groups['subnets'] = []
for x in dsg["Subnets"]:
db_subnet_groups['subnets'].append({
'status': x['SubnetStatus'].lower(),
'identifier': x['SubnetIdentifier'],
'availability_zone': {
'name': x['SubnetAvailabilityZone']['Name'],
'provisioned_iops_capable': x['SubnetAvailabilityZone']['ProvisionedIopsCapable']
}
})
d['db_subnet_groups'] = db_subnet_groups
if self.instance["VpcSecurityGroups"] is not None:
d['vpc_security_groups'] = ','.join(x['VpcSecurityGroupId'] for x in self.instance['VpcSecurityGroups'])
if "Endpoint" in self.instance and self.instance["Endpoint"] is not None:
d['endpoint'] = self.instance["Endpoint"].get('Address', None)
d['port'] = self.instance["Endpoint"].get('Port', None)
else:
d['endpoint'] = None
d['port'] = None
if self.instance["DBName"]:
d['DBName'] = self.instance['DBName']
return d
class RDSSnapshot:
def __init__(self, snapshot):
self.snapshot = snapshot
self.name = snapshot.id
self.status = snapshot.status
def get_data(self):
d = {
'id': self.name,
'create_time': self.snapshot.snapshot_create_time,
'status': self.status,
'availability_zone': self.snapshot.availability_zone,
'instance_id': self.snapshot.instance_id,
'instance_created': self.snapshot.instance_create_time,
}
# needs boto >= 2.21.0
if hasattr(self.snapshot, 'snapshot_type'):
d["snapshot_type"] = self.snapshot.snapshot_type
if hasattr(self.snapshot, 'iops'):
d["iops"] = self.snapshot.iops
return d
class RDS2Snapshot:
def __init__(self, snapshot):
if 'DeleteDBSnapshotResponse' in snapshot:
self.snapshot = snapshot['DeleteDBSnapshotResponse']['DeleteDBSnapshotResult']['DBSnapshot']
else:
self.snapshot = snapshot
self.name = self.snapshot.get('DBSnapshotIdentifier')
self.status = self.snapshot.get('Status')
def get_data(self):
d = {
'id': self.name,
'create_time': self.snapshot['SnapshotCreateTime'],
'status': self.status,
'availability_zone': self.snapshot['AvailabilityZone'],
'instance_id': self.snapshot['DBInstanceIdentifier'],
'instance_created': self.snapshot['InstanceCreateTime'],
'snapshot_type': self.snapshot['SnapshotType'],
'iops': self.snapshot['Iops'],
}
return d
def await_resource(conn, resource, status, module):
start_time = time.time()
wait_timeout = module.params.get('wait_timeout') + start_time
check_interval = 5
while wait_timeout > time.time() and resource.status != status:
time.sleep(check_interval)
if wait_timeout <= time.time():
module.fail_json(msg="Timeout waiting for RDS resource %s" % resource.name)
if module.params.get('command') == 'snapshot':
# Temporary until all the rds2 commands have their responses parsed
if resource.name is None:
module.fail_json(msg="There was a problem waiting for RDS snapshot %s" % resource.snapshot)
# Back off if we're getting throttled, since we're just waiting anyway
resource = AWSRetry.backoff(tries=5, delay=20, backoff=1.5)(conn.get_db_snapshot)(resource.name)
else:
# Temporary until all the rds2 commands have their responses parsed
if resource.name is None:
module.fail_json(msg="There was a problem waiting for RDS instance %s" % resource.instance)
# Back off if we're getting throttled, since we're just waiting anyway
resource = AWSRetry.backoff(tries=5, delay=20, backoff=1.5)(conn.get_db_instance)(resource.name)
if resource is None:
break
# Some RDS resources take much longer than others to be ready. Check
# less aggressively for slow ones to avoid throttling.
if time.time() > start_time + 90:
check_interval = 20
return resource
def create_db_instance(module, conn):
required_vars = ['instance_name', 'db_engine', 'size', 'instance_type', 'username', 'password']
valid_vars = ['backup_retention', 'backup_window',
'character_set_name', 'db_name', 'engine_version',
'instance_type', 'iops', 'license_model', 'maint_window',
'multi_zone', 'option_group', 'parameter_group', 'port',
'subnet', 'upgrade', 'zone']
if module.params.get('subnet'):
valid_vars.append('vpc_security_groups')
else:
valid_vars.append('security_groups')
if HAS_RDS2:
valid_vars.extend(['publicly_accessible', 'tags'])
params = validate_parameters(required_vars, valid_vars, module)
instance_name = module.params.get('instance_name')
result = conn.get_db_instance(instance_name)
if result:
changed = False
else:
try:
result = conn.create_db_instance(instance_name, module.params.get('size'),
module.params.get('instance_type'), module.params.get('db_engine'),
module.params.get('username'), module.params.get('password'), **params)
changed = True
except RDSException as e:
module.fail_json(msg="Failed to create instance: %s" % e.message)
if module.params.get('wait'):
resource = await_resource(conn, result, 'available', module)
else:
resource = conn.get_db_instance(instance_name)
module.exit_json(changed=changed, instance=resource.get_data())
def replicate_db_instance(module, conn):
required_vars = ['instance_name', 'source_instance']
valid_vars = ['instance_type', 'port', 'upgrade', 'zone']
if HAS_RDS2:
valid_vars.extend(['iops', 'option_group', 'publicly_accessible', 'tags'])
params = validate_parameters(required_vars, valid_vars, module)
instance_name = module.params.get('instance_name')
source_instance = module.params.get('source_instance')
result = conn.get_db_instance(instance_name)
if result:
changed = False
else:
try:
result = conn.create_db_instance_read_replica(instance_name, source_instance, **params)
changed = True
except RDSException as e:
module.fail_json(msg="Failed to create replica instance: %s " % e.message)
if module.params.get('wait'):
resource = await_resource(conn, result, 'available', module)
else:
resource = conn.get_db_instance(instance_name)
module.exit_json(changed=changed, instance=resource.get_data())
def delete_db_instance_or_snapshot(module, conn):
required_vars = []
valid_vars = ['instance_name', 'snapshot', 'skip_final_snapshot']
params = validate_parameters(required_vars, valid_vars, module)
instance_name = module.params.get('instance_name')
snapshot = module.params.get('snapshot')
if not instance_name:
result = conn.get_db_snapshot(snapshot)
else:
result = conn.get_db_instance(instance_name)
if not result:
module.exit_json(changed=False)
if result.status == 'deleting':
module.exit_json(changed=False)
try:
if instance_name:
if snapshot:
params["skip_final_snapshot"] = False
if HAS_RDS2:
params["final_db_snapshot_identifier"] = snapshot
else:
params["final_snapshot_id"] = snapshot
else:
params["skip_final_snapshot"] = True
result = conn.delete_db_instance(instance_name, **params)
else:
result = conn.delete_db_snapshot(snapshot)
except RDSException as e:
module.fail_json(msg="Failed to delete instance: %s" % e.message)
# If we're not waiting for a delete to complete then we're all done
# so just return
if not module.params.get('wait'):
module.exit_json(changed=True)
try:
await_resource(conn, result, 'deleted', module)
module.exit_json(changed=True)
except RDSException as e:
if e.code == 'DBInstanceNotFound':
module.exit_json(changed=True)
else:
module.fail_json(msg=e.message)
except Exception as e:
module.fail_json(msg=str(e))
def facts_db_instance_or_snapshot(module, conn):
instance_name = module.params.get('instance_name')
snapshot = module.params.get('snapshot')
if instance_name and snapshot:
module.fail_json(msg="Facts must be called with either instance_name or snapshot, not both")
if instance_name:
resource = conn.get_db_instance(instance_name)
if not resource:
module.fail_json(msg="DB instance %s does not exist" % instance_name)
if snapshot:
resource = conn.get_db_snapshot(snapshot)
if not resource:
module.fail_json(msg="DB snapshot %s does not exist" % snapshot)
module.exit_json(changed=False, instance=resource.get_data())
def modify_db_instance(module, conn):
required_vars = ['instance_name']
valid_vars = ['apply_immediately', 'backup_retention', 'backup_window',
'db_name', 'engine_version', 'instance_type', 'iops', 'license_model',
'maint_window', 'multi_zone', 'new_instance_name',
'option_group', 'parameter_group', 'password', 'size', 'upgrade']
params = validate_parameters(required_vars, valid_vars, module)
instance_name = module.params.get('instance_name')
new_instance_name = module.params.get('new_instance_name')
try:
result = conn.modify_db_instance(instance_name, **params)
except RDSException as e:
module.fail_json(msg=e.message)
if params.get('apply_immediately'):
if new_instance_name:
# Wait until the new instance name is valid
new_instance = None
while not new_instance:
new_instance = conn.get_db_instance(new_instance_name)
time.sleep(5)
# Found instance but it briefly flicks to available
# before rebooting so let's wait until we see it rebooting
# before we check whether to 'wait'
result = await_resource(conn, new_instance, 'rebooting', module)
if module.params.get('wait'):
resource = await_resource(conn, result, 'available', module)
else:
resource = conn.get_db_instance(instance_name)
# guess that this changed the DB, need a way to check
module.exit_json(changed=True, instance=resource.get_data())
def promote_db_instance(module, conn):
required_vars = ['instance_name']
valid_vars = ['backup_retention', 'backup_window']
params = validate_parameters(required_vars, valid_vars, module)
instance_name = module.params.get('instance_name')
result = conn.get_db_instance(instance_name)
if not result:
module.fail_json(msg="DB Instance %s does not exist" % instance_name)
if result.get_data().get('replication_source'):
try:
result = conn.promote_read_replica(instance_name, **params)
changed = True
except RDSException as e:
module.fail_json(msg=e.message)
else:
changed = False
if module.params.get('wait'):
resource = await_resource(conn, result, 'available', module)
else:
resource = conn.get_db_instance(instance_name)
module.exit_json(changed=changed, instance=resource.get_data())
def snapshot_db_instance(module, conn):
required_vars = ['instance_name', 'snapshot']
valid_vars = ['tags']
params = validate_parameters(required_vars, valid_vars, module)
instance_name = module.params.get('instance_name')
snapshot = module.params.get('snapshot')
changed = False
result = conn.get_db_snapshot(snapshot)
if not result:
try:
result = conn.create_db_snapshot(snapshot, instance_name, **params)
changed = True
except RDSException as e:
module.fail_json(msg=e.message)
if module.params.get('wait'):
resource = await_resource(conn, result, 'available', module)
else:
resource = conn.get_db_snapshot(snapshot)
module.exit_json(changed=changed, snapshot=resource.get_data())
def reboot_db_instance(module, conn):
required_vars = ['instance_name']
valid_vars = []
if HAS_RDS2:
valid_vars.append('force_failover')
params = validate_parameters(required_vars, valid_vars, module)
instance_name = module.params.get('instance_name')
result = conn.get_db_instance(instance_name)
changed = False
try:
result = conn.reboot_db_instance(instance_name, **params)
changed = True
except RDSException as e:
module.fail_json(msg=e.message)
if module.params.get('wait'):
resource = await_resource(conn, result, 'available', module)
else:
resource = conn.get_db_instance(instance_name)
module.exit_json(changed=changed, instance=resource.get_data())
def restore_db_instance(module, conn):
required_vars = ['instance_name', 'snapshot']
valid_vars = ['db_name', 'iops', 'license_model', 'multi_zone',
'option_group', 'port', 'publicly_accessible',
'subnet', 'tags', 'upgrade', 'zone']
if HAS_RDS2:
valid_vars.append('instance_type')
else:
required_vars.append('instance_type')
params = validate_parameters(required_vars, valid_vars, module)
instance_name = module.params.get('instance_name')
instance_type = module.params.get('instance_type')
snapshot = module.params.get('snapshot')
changed = False
result = conn.get_db_instance(instance_name)
if not result:
try:
result = conn.restore_db_instance_from_db_snapshot(instance_name, snapshot, instance_type, **params)
changed = True
except RDSException as e:
module.fail_json(msg=e.message)
if module.params.get('wait'):
resource = await_resource(conn, result, 'available', module)
else:
resource = conn.get_db_instance(instance_name)
module.exit_json(changed=changed, instance=resource.get_data())
def validate_parameters(required_vars, valid_vars, module):
command = module.params.get('command')
for v in required_vars:
if not module.params.get(v):
module.fail_json(msg="Parameter %s required for %s command" % (v, command))
# map to convert rds module options to boto rds and rds2 options
optional_params = {
'port': 'port',
'db_name': 'db_name',
'zone': 'availability_zone',
'maint_window': 'preferred_maintenance_window',
'backup_window': 'preferred_backup_window',
'backup_retention': 'backup_retention_period',
'multi_zone': 'multi_az',
'engine_version': 'engine_version',
'upgrade': 'auto_minor_version_upgrade',
'subnet': 'db_subnet_group_name',
'license_model': 'license_model',
'option_group': 'option_group_name',
'size': 'allocated_storage',
'iops': 'iops',
'new_instance_name': 'new_instance_id',
'apply_immediately': 'apply_immediately',
}
# map to convert rds module options to boto rds options
optional_params_rds = {
'db_engine': 'engine',
'password': 'master_password',
'parameter_group': 'param_group',
'instance_type': 'instance_class',
}
# map to convert rds module options to boto rds2 options
optional_params_rds2 = {
'tags': 'tags',
'publicly_accessible': 'publicly_accessible',
'parameter_group': 'db_parameter_group_name',
'character_set_name': 'character_set_name',
'instance_type': 'db_instance_class',
'password': 'master_user_password',
'new_instance_name': 'new_db_instance_identifier',
'force_failover': 'force_failover',
}
if HAS_RDS2:
optional_params.update(optional_params_rds2)
sec_group = 'db_security_groups'
else:
optional_params.update(optional_params_rds)
sec_group = 'security_groups'
# Check for options only supported with rds2
for k in set(optional_params_rds2.keys()) - set(optional_params_rds.keys()):
if module.params.get(k):
module.fail_json(msg="Parameter %s requires boto.rds (boto >= 2.26.0)" % k)
params = {}
for (k, v) in optional_params.items():
if module.params.get(k) is not None and k not in required_vars:
if k in valid_vars:
params[v] = module.params[k]
else:
if module.params.get(k) is False:
pass
else:
module.fail_json(msg="Parameter %s is not valid for %s command" % (k, command))
if module.params.get('security_groups'):
params[sec_group] = module.params.get('security_groups').split(',')
vpc_groups = module.params.get('vpc_security_groups')
if vpc_groups:
if HAS_RDS2:
params['vpc_security_group_ids'] = vpc_groups
else:
groups_list = []
for x in vpc_groups:
groups_list.append(boto.rds.VPCSecurityGroupMembership(vpc_group=x))
params['vpc_security_groups'] = groups_list
# Convert tags dict to list of tuples that rds2 expects
if 'tags' in params:
params['tags'] = module.params['tags'].items()
return params
def main():
argument_spec = ec2_argument_spec()
argument_spec.update(dict(
command=dict(choices=['create', 'replicate', 'delete', 'facts', 'modify', 'promote', 'snapshot', 'reboot', 'restore'], required=True),
instance_name=dict(required=False),
source_instance=dict(required=False),
db_engine=dict(choices=['mariadb', 'MySQL', 'oracle-se1', 'oracle-se2', 'oracle-se', 'oracle-ee', 'sqlserver-ee', 'sqlserver-se', 'sqlserver-ex',
'sqlserver-web', 'postgres', 'aurora'], required=False),
size=dict(required=False),
instance_type=dict(aliases=['type'], required=False),
username=dict(required=False),
password=dict(no_log=True, required=False),
db_name=dict(required=False),
engine_version=dict(required=False),
parameter_group=dict(required=False),
license_model=dict(choices=['license-included', 'bring-your-own-license', 'general-public-license', 'postgresql-license'], required=False),
multi_zone=dict(type='bool', required=False),
iops=dict(required=False),
security_groups=dict(required=False),
vpc_security_groups=dict(type='list', required=False),
port=dict(required=False, type='int'),
upgrade=dict(type='bool', default=False),
option_group=dict(required=False),
maint_window=dict(required=False),
backup_window=dict(required=False),
backup_retention=dict(required=False),
zone=dict(aliases=['aws_zone', 'ec2_zone'], required=False),
subnet=dict(required=False),
wait=dict(type='bool', default=False),
wait_timeout=dict(type='int', default=300),
snapshot=dict(required=False),
apply_immediately=dict(type='bool', default=False),
new_instance_name=dict(required=False),
tags=dict(type='dict', required=False),
publicly_accessible=dict(required=False),
character_set_name=dict(required=False),
force_failover=dict(type='bool', required=False, default=False)
)
)
module = AnsibleModule(
argument_spec=argument_spec,
)
if not HAS_BOTO:
module.fail_json(msg='boto required for this module')
invocations = {
'create': create_db_instance,
'replicate': replicate_db_instance,
'delete': delete_db_instance_or_snapshot,
'facts': facts_db_instance_or_snapshot,
'modify': modify_db_instance,
'promote': promote_db_instance,
'snapshot': snapshot_db_instance,
'reboot': reboot_db_instance,
'restore': restore_db_instance,
}
region, ec2_url, aws_connect_params = get_aws_connection_info(module)
if not region:
module.fail_json(msg="Region not specified. Unable to determine region from EC2_REGION.")
# set port to per db defaults if not specified
if module.params['port'] is None and module.params['db_engine'] is not None and module.params['command'] == 'create':
if '-' in module.params['db_engine']:
engine = module.params['db_engine'].split('-')[0]
else:
engine = module.params['db_engine']
module.params['port'] = DEFAULT_PORTS[engine.lower()]
# connect to the rds endpoint
if HAS_RDS2:
conn = RDS2Connection(module, region, **aws_connect_params)
else:
conn = RDSConnection(module, region, **aws_connect_params)
invocations[module.params.get('command')](module, conn)
if __name__ == '__main__':
main()
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