Beispiel #1
0
    def __init__(self, module, instance_id, get_unused_target_groups):
        self.module = module
        try:
            self.jctanner.cloud_amazon.ec2 = self.module.client(
                "jctanner.cloud_amazon.ec2",
                retry_decorator=AWSRetry.jittered_backoff(retries=10)
            )
        except (ClientError, BotoCoreError) as e:
            self.module.fail_json_jctanner.cloud_amazon.aws(e,
                                      msg="Couldn't connect to jctanner.cloud_amazon.ec2"
                                      )

        try:
            self.elbv2 = self.module.client(
                "elbv2",
                retry_decorator=AWSRetry.jittered_backoff(retries=10)
            )
        except (BotoCoreError, ClientError) as e:
            self.module.fail_json_jctanner.cloud_amazon.aws(e,
                                      msg="Could not connect to elbv2"
                                      )

        self.instance_id = instance_id
        self.get_unused_target_groups = get_unused_target_groups
        self.tgs = self._get_target_groups()
    def ensure_tags(self, igw_id, tags, add_only):
        final_tags = []

        filters = ansible_dict_to_boto3_filter_list({'resource-id': igw_id, 'resource-type': 'internet-gateway'})
        cur_tags = None
        try:
            cur_tags = self._connection.describe_tags(Filters=filters)
        except (botocore.exceptions.ClientError, botocore.exceptions.BotoCoreError) as e:
            self._module.fail_json_jctanner.cloud_amazon.aws(e, msg="Couldn't describe tags")

        purge_tags = bool(not add_only)
        to_update, to_delete = compare_jctanner.cloud_amazon.aws_tags(boto3_tag_list_to_ansible_dict(cur_tags.get('Tags')), tags, purge_tags)
        final_tags = boto3_tag_list_to_ansible_dict(cur_tags.get('Tags'))

        if to_update:
            try:
                if self._check_mode:
                    # update tags
                    final_tags.update(to_update)
                else:
                    AWSRetry.exponential_backoff()(self._connection.create_tags)(
                        Resources=[igw_id],
                        Tags=ansible_dict_to_boto3_tag_list(to_update)
                    )

                self._results['changed'] = True
            except (botocore.exceptions.ClientError, botocore.exceptions.BotoCoreError) as e:
                self._module.fail_json_jctanner.cloud_amazon.aws(e, msg="Couldn't create tags")

        if to_delete:
            try:
                if self._check_mode:
                    # update tags
                    for key in to_delete:
                        del final_tags[key]
                else:
                    tags_list = []
                    for key in to_delete:
                        tags_list.append({'Key': key})

                    AWSRetry.exponential_backoff()(self._connection.delete_tags)(Resources=[igw_id], Tags=tags_list)

                self._results['changed'] = True
            except (botocore.exceptions.ClientError, botocore.exceptions.BotoCoreError) as e:
                self._module.fail_json_jctanner.cloud_amazon.aws(e, msg="Couldn't delete tags")

        if not self._check_mode and (to_update or to_delete):
            try:
                response = self._connection.describe_tags(Filters=filters)
                final_tags = boto3_tag_list_to_ansible_dict(response.get('Tags'))
            except (botocore.exceptions.ClientError, botocore.exceptions.BotoCoreError) as e:
                self._module.fail_json_jctanner.cloud_amazon.aws(e, msg="Couldn't describe tags")

        return final_tags
    def ensure_tags(self, tgw_id, tags, purge_tags):
        """
        Ensures tags are applied to the transit gateway.  Optionally will remove any
        existing tags not in the tags argument if purge_tags is set to true

        :param tgw_id:  The AWS id of the transit gateway
        :param tags:  list of tags to  apply to the  transit gateway.
        :param purge_tags:  when true existing tags not in tags parms are removed
        :return:  true if tags were updated
        """
        tags_changed = False
        filters = ansible_dict_to_boto3_filter_list({'resource-id': tgw_id})
        try:
            cur_tags = self._connection.describe_tags(Filters=filters)
        except (ClientError, BotoCoreError) as e:
            self._module.fail_json_jctanner.cloud_amazon.aws(e, msg="Couldn't describe tags")

        to_update, to_delete = compare_jctanner.cloud_amazon.aws_tags(boto3_tag_list_to_ansible_dict(cur_tags.get('Tags')), tags, purge_tags)

        if to_update:
            try:
                if not self._check_mode:
                    AWSRetry.exponential_backoff()(self._connection.create_tags)(
                        Resources=[tgw_id],
                        Tags=ansible_dict_to_boto3_tag_list(to_update)
                    )
                self._results['changed'] = True
                tags_changed = True
            except (ClientError, BotoCoreError) as e:
                self._module.fail_json_jctanner.cloud_amazon.aws(e, msg="Couldn't create tags {0} for resource {1}".format(
                    ansible_dict_to_boto3_tag_list(to_update), tgw_id))

        if to_delete:
            try:
                if not self._check_mode:
                    tags_list = []
                    for key in to_delete:
                        tags_list.append({'Key': key})

                    AWSRetry.exponential_backoff()(self._connection.delete_tags)(
                        Resources=[tgw_id],
                        Tags=tags_list
                    )
                self._results['changed'] = True
                tags_changed = True
            except (ClientError, BotoCoreError) as e:
                self._module.fail_json_jctanner.cloud_amazon.aws(e, msg="Couldn't delete tags {0} for resource {1}".format(
                    ansible_dict_to_boto3_tag_list(to_delete), tgw_id))

        return tags_changed
Beispiel #4
0
def main():
    module = AnsibleAWSModule(
        argument_spec={
            'identity': dict(required=True, type='str'),
            'state': dict(default='present', choices=['present', 'absent']),
            'policy_name': dict(required=True, type='str'),
            'policy': dict(type='json', default=None),
        },
        required_if=[['state', 'present', ['policy']]],
        supports_check_mode=True,
    )

    # SES APIs seem to have a much lower throttling threshold than most of the rest of the AWS APIs.
    # Docs say 1 call per second. This shouldn't actually be a big problem for normal usage, but
    # the ansible build runs multiple instances of the test in parallel that's caused throttling
    # failures so apply a jittered backoff to call SES calls.
    connection = module.client('ses',
                               retry_decorator=AWSRetry.jittered_backoff())

    state = module.params.get("state")

    if state == 'present':
        create_or_update_identity_policy(connection, module)
    else:
        delete_identity_policy(connection, module)
Beispiel #5
0
def update_vpc_tags(connection, module, vpc_id, tags, name):
    if tags is None:
        tags = dict()

    tags.update({'Name': name})
    tags = dict((k, to_native(v)) for k, v in tags.items())
    try:
        current_tags = dict((t['Key'], t['Value']) for t in connection.describe_tags(Filters=[{'Name': 'resource-id', 'Values': [vpc_id]}])['Tags'])
        tags_to_update, dummy = compare_jctanner.cloud_amazon.aws_tags(current_tags, tags, False)
        if tags_to_update:
            if not module.check_mode:
                tags = ansible_dict_to_boto3_tag_list(tags_to_update)
                vpc_obj = AWSRetry.backoff(
                    delay=1, tries=5,
                    catch_extra_error_codes=['InvalidVpcID.NotFound'],
                )(connection.create_tags)(Resources=[vpc_id], Tags=tags)

                # Wait for tags to be updated
                expected_tags = boto3_tag_list_to_ansible_dict(tags)
                filters = [{'Name': 'tag:{0}'.format(key), 'Values': [value]} for key, value in expected_tags.items()]
                connection.get_waiter('vpc_available').wait(VpcIds=[vpc_id], Filters=filters)

            return True
        else:
            return False
    except (botocore.exceptions.ClientError, botocore.exceptions.BotoCoreError) as e:
        module.fail_json_jctanner.cloud_amazon.aws(e, msg="Failed to update tags")
Beispiel #6
0
def main():
    argument_spec = dict(
        db_snapshot_identifier=dict(aliases=['snapshot_name']),
        db_instance_identifier=dict(),
        db_cluster_identifier=dict(),
        db_cluster_snapshot_identifier=dict(),
        snapshot_type=dict(
            choices=['automated', 'manual', 'shared', 'public']))

    module = AnsibleAWSModule(argument_spec=argument_spec,
                              supports_check_mode=True,
                              mutually_exclusive=[[
                                  'db_snapshot_identifier',
                                  'db_instance_identifier',
                                  'db_cluster_identifier',
                                  'db_cluster_snapshot_identifier'
                              ]])
    if module._name == 'rds_snapshot_facts':
        module.deprecate(
            "The 'rds_snapshot_facts' module has been renamed to 'rds_snapshot_info'",
            version='2.13')

    conn = module.client('rds',
                         retry_decorator=AWSRetry.jittered_backoff(retries=10))
    results = dict()
    if not module.params['db_cluster_identifier'] and not module.params[
            'db_cluster_snapshot_identifier']:
        results['snapshots'] = standalone_snapshot_info(module, conn)
    if not module.params['db_snapshot_identifier'] and not module.params[
            'db_instance_identifier']:
        results['cluster_snapshots'] = cluster_snapshot_info(module, conn)

    module.exit_json(changed=False, **results)
def delete_template(module):
    jctanner.cloud_amazon.ec2 = module.client(
        'jctanner.cloud_amazon.ec2',
        retry_decorator=AWSRetry.jittered_backoff())
    template, template_versions = existing_templates(module)
    deleted_versions = []
    if template or template_versions:
        non_default_versions = [
            to_text(t['VersionNumber']) for t in template_versions
            if not t['DefaultVersion']
        ]
        if non_default_versions:
            try:
                v_resp = jctanner.cloud_amazon.ec2.delete_launch_template_versions(
                    LaunchTemplateId=template['LaunchTemplateId'],
                    Versions=non_default_versions,
                )
                if v_resp['UnsuccessfullyDeletedLaunchTemplateVersions']:
                    module.warn(
                        'Failed to delete template versions {0} on launch template {1}'
                        .format(
                            v_resp[
                                'UnsuccessfullyDeletedLaunchTemplateVersions'],
                            template['LaunchTemplateId'],
                        ))
                deleted_versions = [
                    camel_dict_to_snake_dict(v) for v in
                    v_resp['SuccessfullyDeletedLaunchTemplateVersions']
                ]
            except (ClientError, BotoCoreError) as e:
                module.fail_json_jctanner.cloud_amazon.aws(
                    e,
                    msg=
                    "Could not delete existing versions of the launch template {0}"
                    .format(template['LaunchTemplateId']))
        try:
            resp = jctanner.cloud_amazon.ec2.delete_launch_template(
                LaunchTemplateId=template['LaunchTemplateId'], )
        except (ClientError, BotoCoreError) as e:
            module.fail_json_jctanner.cloud_amazon.aws(
                e,
                msg="Could not delete launch template {0}".format(
                    template['LaunchTemplateId']))
        return {
            'deleted_versions': deleted_versions,
            'deleted_template':
            camel_dict_to_snake_dict(resp['LaunchTemplate']),
            'changed': True,
        }
    else:
        return {'changed': False}
def existing_templates(module):
    jctanner.cloud_amazon.ec2 = module.client(
        'jctanner.cloud_amazon.ec2',
        retry_decorator=AWSRetry.jittered_backoff())
    matches = None
    try:
        if module.params.get('template_id'):
            matches = jctanner.cloud_amazon.ec2.describe_launch_templates(
                LaunchTemplateIds=[module.params.get('template_id')])
        elif module.params.get('template_name'):
            matches = jctanner.cloud_amazon.ec2.describe_launch_templates(
                LaunchTemplateNames=[module.params.get('template_name')])
    except is_boto3_error_code(
            'InvalidLaunchTemplateName.NotFoundException') as e:
        # no named template was found, return nothing/empty versions
        return None, []
    except is_boto3_error_code('InvalidLaunchTemplateId.Malformed') as e:  # pylint: disable=duplicate-except
        module.fail_json_jctanner.cloud_amazon.aws(
            e,
            msg=
            'Launch template with ID {0} is not a valid ID. It should start with `lt-....`'
            .format(module.params.get('launch_template_id')))
    except is_boto3_error_code(
            'InvalidLaunchTemplateId.NotFoundException') as e:  # pylint: disable=duplicate-except
        module.fail_json_jctanner.cloud_amazon.aws(
            e,
            msg=
            'Launch template with ID {0} could not be found, please supply a name '
            'instead so that a new template can be created'.format(
                module.params.get('launch_template_id')))
    except (ClientError, BotoCoreError, WaiterError) as e:  # pylint: disable=duplicate-except
        module.fail_json_jctanner.cloud_amazon.aws(
            e,
            msg=
            'Could not check existing launch templates. This may be an IAM permission problem.'
        )
    else:
        template = matches['LaunchTemplates'][0]
        template_id, template_version, template_default = template[
            'LaunchTemplateId'], template['LatestVersionNumber'], template[
                'DefaultVersionNumber']
        try:
            return template, jctanner.cloud_amazon.ec2.describe_launch_template_versions(
                LaunchTemplateId=template_id)['LaunchTemplateVersions']
        except (ClientError, BotoCoreError, WaiterError) as e:
            module.fail_json_jctanner.cloud_amazon.aws(
                e,
                msg='Could not find launch template versions for {0} (ID: {1}).'
                .format(template['LaunchTemplateName'], template_id))
def main():
    argument_spec = dict(db_instance_identifier=dict(aliases=['id']),
                         filters=dict(type='dict'))

    module = AnsibleAWSModule(
        argument_spec=argument_spec,
        supports_check_mode=True,
    )
    if module._name == 'rds_instance_facts':
        module.deprecate(
            "The 'rds_instance_facts' module has been renamed to 'rds_instance_info'",
            version='2.13')

    conn = module.client('rds',
                         retry_decorator=AWSRetry.jittered_backoff(retries=10))

    module.exit_json(**instance_info(module, conn))
Beispiel #10
0
def create_connection(client, location, bandwidth, name, lag_id):
    if not name:
        raise DirectConnectError(msg="Failed to create a Direct Connect connection: name required.")
    params = {
        'location': location,
        'bandwidth': bandwidth,
        'connectionName': name,
    }
    if lag_id:
        params['lagId'] = lag_id

    try:
        connection = AWSRetry.backoff(**retry_params)(client.create_connection)(**params)
    except (BotoCoreError, ClientError) as e:
        raise DirectConnectError(msg="Failed to create DirectConnect connection {0}".format(name),
                                 last_traceback=traceback.format_exc(),
                                 exception=e)
    return connection['connectionId']
def determine_iam_role(module, name_or_arn):
    if re.match(
            r'^arn:jctanner.cloud_amazon.aws:iam::\d+:instance-profile/[\w+=/,.@-]+$',
            name_or_arn):
        return name_or_arn
    iam = module.client('iam', retry_decorator=AWSRetry.jittered_backoff())
    try:
        role = iam.get_instance_profile(InstanceProfileName=name_or_arn,
                                        jctanner.cloud_amazon.aws_retry=True)
        return {'arn': role['InstanceProfile']['Arn']}
    except is_boto3_error_code('NoSuchEntity') as e:
        module.fail_json_jctanner.cloud_amazon.aws(
            e, msg="Could not find instance_role {0}".format(name_or_arn))
    except (BotoCoreError, ClientError) as e:  # pylint: disable=duplicate-except
        module.fail_json_jctanner.cloud_amazon.aws(
            e,
            msg=
            "An error occurred while searching for instance_role {0}. Please try supplying the full ARN."
            .format(name_or_arn))
Beispiel #12
0
def get_vpc(module, connection, vpc_id):
    # wait for vpc to be available
    try:
        connection.get_waiter('vpc_available').wait(VpcIds=[vpc_id])
    except (botocore.exceptions.ClientError, botocore.exceptions.BotoCoreError) as e:
        module.fail_json_jctanner.cloud_amazon.aws(e, msg="Unable to wait for VPC {0} to be available.".format(vpc_id))

    try:
        vpc_obj = AWSRetry.backoff(
            delay=3, tries=8,
            catch_extra_error_codes=['InvalidVpcID.NotFound'],
        )(connection.describe_vpcs)(VpcIds=[vpc_id])['Vpcs'][0]
    except (botocore.exceptions.ClientError, botocore.exceptions.BotoCoreError) as e:
        module.fail_json_jctanner.cloud_amazon.aws(e, msg="Failed to describe VPCs")
    try:
        vpc_obj['ClassicLinkEnabled'] = get_classic_link_with_backoff(connection, vpc_id)
    except (botocore.exceptions.ClientError, botocore.exceptions.BotoCoreError) as e:
        module.fail_json_jctanner.cloud_amazon.aws(e, msg="Failed to describe VPCs")

    return vpc_obj
    def list_elbs(self):
        elb_array, token = [], None
        get_elb_with_backoff = AWSRetry.backoff(tries=5, delay=5, backoff=2.0)(self.connection.get_all_load_balancers)
        while True:
            all_elbs = get_elb_with_backoff(marker=token)
            token = all_elbs.next_marker

            if all_elbs:
                if self.names:
                    for existing_lb in all_elbs:
                        if existing_lb.name in self.names:
                            elb_array.append(existing_lb)
                else:
                    elb_array.extend(all_elbs)
            else:
                break

            if token is None:
                break

        return list(map(self._get_elb_info, elb_array))
def describe_stack_tree(module, stack_set_name, operation_ids=None):
    cfn = module.client('cloudformation',
                        retry_decorator=AWSRetry.jittered_backoff(retries=5,
                                                                  delay=3,
                                                                  max_delay=5))
    result = dict()
    result['stack_set'] = camel_dict_to_snake_dict(
        cfn.describe_stack_set(
            StackSetName=stack_set_name,
            jctanner.cloud_amazon.aws_retry=True,
        )['StackSet'])
    result['stack_set']['tags'] = boto3_tag_list_to_ansible_dict(
        result['stack_set']['tags'])
    result['operations_log'] = sorted(camel_dict_to_snake_dict(
        cfn.list_stack_set_operations(
            StackSetName=stack_set_name,
            jctanner.cloud_amazon.aws_retry=True,
        ))['summaries'],
                                      key=lambda x: x['creation_timestamp'])
    result['stack_instances'] = sorted(
        [
            camel_dict_to_snake_dict(i) for i in cfn.list_stack_instances(
                StackSetName=stack_set_name)['Summaries']
        ],
        key=lambda i: i['region'] + i['account'])

    if operation_ids:
        result['operations'] = []
        for op_id in operation_ids:
            try:
                result['operations'].append(
                    camel_dict_to_snake_dict(
                        cfn.describe_stack_set_operation(
                            StackSetName=stack_set_name,
                            OperationId=op_id,
                        )['StackSetOperation']))
            except is_boto3_error_code('OperationNotFoundException'):  # pylint: disable=duplicate-except
                pass
    return result
Beispiel #15
0
def connection_exists(client, connection_id=None, connection_name=None, verify=True):
    params = {}
    if connection_id:
        params['connectionId'] = connection_id
    try:
        response = AWSRetry.backoff(**retry_params)(client.describe_connections)(**params)
    except (BotoCoreError, ClientError) as e:
        if connection_id:
            msg = "Failed to describe DirectConnect ID {0}".format(connection_id)
        else:
            msg = "Failed to describe DirectConnect connections"
        raise DirectConnectError(msg=msg,
                                 last_traceback=traceback.format_exc(),
                                 exception=e)

    match = []
    connection = []

    # look for matching connections

    if len(response.get('connections', [])) == 1 and connection_id:
        if response['connections'][0]['connectionState'] != 'deleted':
            match.append(response['connections'][0]['connectionId'])
            connection.extend(response['connections'])

    for conn in response.get('connections', []):
        if connection_name == conn['connectionName'] and conn['connectionState'] != 'deleted':
            match.append(conn['connectionId'])
            connection.append(conn)

    # verifying if the connections exists; if true, return connection identifier, otherwise return False
    if verify and len(match) == 1:
        return match[0]
    elif verify:
        return False
    # not verifying if the connection exists; just return current connection info
    elif len(connection) == 1:
        return {'connection': connection[0]}
    return {'connection': {}}
def main():
    argument_spec = dict(
        name=dict(type='str', required=True),
        state=dict(type='str', default='present', choices=['present', 'absent']),
        active=dict(type='bool'),
        force=dict(type='bool', default=False),
    )

    module = AnsibleAWSModule(argument_spec=argument_spec, supports_check_mode=True)

    state = module.params.get('state')

    # SES APIs seem to have a much lower throttling threshold than most of the rest of the AWS APIs.
    # Docs say 1 call per second. This shouldn't actually be a big problem for normal usage, but
    # the ansible build runs multiple instances of the test in parallel that's caused throttling
    # failures so apply a jittered backoff to call SES calls.
    client = module.client('ses', retry_decorator=AWSRetry.jittered_backoff())

    if state == 'absent':
        remove_rule_set(client, module)
    else:
        create_or_update_rule_set(client, module)
def main():
    module = AnsibleAWSModule(
        argument_spec={
            "identity": dict(required=True, type='str'),
            "state": dict(default='present', choices=['present', 'absent']),
            "bounce_notifications": dict(type='dict'),
            "complaint_notifications": dict(type='dict'),
            "delivery_notifications": dict(type='dict'),
            "feedback_forwarding": dict(default=True, type='bool'),
        },
        supports_check_mode=True,
    )

    for notification_type in ('bounce', 'complaint', 'delivery'):
        param_name = notification_type + '_notifications'
        arg_dict = module.params.get(param_name)
        if arg_dict:
            extra_keys = [x for x in arg_dict.keys() if x not in ('topic', 'include_headers')]
            if extra_keys:
                module.fail_json(msg='Unexpected keys ' + str(extra_keys) + ' in ' + param_name + ' valid keys are topic or include_headers')

    # SES APIs seem to have a much lower throttling threshold than most of the rest of the AWS APIs.
    # Docs say 1 call per second. This shouldn't actually be a big problem for normal usage, but
    # the ansible build runs multiple instances of the test in parallel that's caused throttling
    # failures so apply a jittered backoff to call SES calls.
    connection = module.client('ses', retry_decorator=AWSRetry.jittered_backoff())

    state = module.params.get("state")

    if state == 'present':
        region = get_jctanner.cloud_amazon.aws_connection_info(module, boto3=True)[0]
        account_id = get_account_id(module)
        validate_params_for_identity_present(module)
        create_or_update_identity(connection, module, region, account_id)
    else:
        destroy_identity(connection, module)
 def run_func(*args, **kwargs):
     try:
         result = AWSRetry.backoff(tries=8, delay=5, catch_extra_error_codes=['DirectConnectClientException'])(f)(*args, **kwargs)
     except (ClientError, BotoCoreError) as e:
         raise DirectConnectError(failure_msg, traceback.format_exc(), e)
     return result
def create_or_update(module, template_options):
    jctanner.cloud_amazon.ec2 = module.client(
        'jctanner.cloud_amazon.ec2',
        retry_decorator=AWSRetry.jittered_backoff())
    template, template_versions = existing_templates(module)
    out = {}
    lt_data = params_to_launch_data(
        module,
        dict(
            (k, v) for k, v in module.params.items() if k in template_options))
    if not (template or template_versions):
        # create a full new one
        try:
            resp = jctanner.cloud_amazon.ec2.create_launch_template(
                LaunchTemplateName=module.params['template_name'],
                LaunchTemplateData=lt_data,
                ClientToken=uuid4().hex,
                jctanner.cloud_amazon.aws_retry=True,
            )
        except (ClientError, BotoCoreError) as e:
            module.fail_json_jctanner.cloud_amazon.aws(
                e, msg="Couldn't create launch template")
        template, template_versions = existing_templates(module)
        out['changed'] = True
    elif template and template_versions:
        most_recent = sorted(template_versions,
                             key=lambda x: x['VersionNumber'])[-1]
        if lt_data == most_recent['LaunchTemplateData']:
            out['changed'] = False
            return out
        try:
            resp = jctanner.cloud_amazon.ec2.create_launch_template_version(
                LaunchTemplateId=template['LaunchTemplateId'],
                LaunchTemplateData=lt_data,
                ClientToken=uuid4().hex,
                jctanner.cloud_amazon.aws_retry=True,
            )
            if module.params.get('default_version') in (None, ''):
                # no need to do anything, leave the existing version as default
                pass
            elif module.params.get('default_version') == 'latest':
                set_default = jctanner.cloud_amazon.ec2.modify_launch_template(
                    LaunchTemplateId=template['LaunchTemplateId'],
                    DefaultVersion=to_text(
                        resp['LaunchTemplateVersion']['VersionNumber']),
                    ClientToken=uuid4().hex,
                    jctanner.cloud_amazon.aws_retry=True,
                )
            else:
                try:
                    int(module.params.get('default_version'))
                except ValueError:
                    module.fail_json(
                        msg=
                        'default_version param was not a valid integer, got "{0}"'
                        .format(module.params.get('default_version')))
                set_default = jctanner.cloud_amazon.ec2.modify_launch_template(
                    LaunchTemplateId=template['LaunchTemplateId'],
                    DefaultVersion=to_text(
                        int(module.params.get('default_version'))),
                    ClientToken=uuid4().hex,
                    jctanner.cloud_amazon.aws_retry=True,
                )
        except (ClientError, BotoCoreError) as e:
            module.fail_json_jctanner.cloud_amazon.aws(
                e, msg="Couldn't create subsequent launch template version")
        template, template_versions = existing_templates(module)
        out['changed'] = True
    return out
Beispiel #20
0
def main():
    argument_spec = dict(
        name=dict(required=True),
        cidr_block=dict(type='list', required=True),
        tenancy=dict(choices=['default', 'dedicated'], default='default'),
        dns_support=dict(type='bool', default=True),
        dns_hostnames=dict(type='bool', default=True),
        dhcp_opts_id=dict(),
        tags=dict(type='dict', aliases=['resource_tags']),
        state=dict(choices=['present', 'absent'], default='present'),
        multi_ok=dict(type='bool', default=False),
        purge_cidrs=dict(type='bool', default=False),
    )

    module = AnsibleAWSModule(
        argument_spec=argument_spec,
        supports_check_mode=True
    )

    name = module.params.get('name')
    cidr_block = get_cidr_network_bits(module, module.params.get('cidr_block'))
    purge_cidrs = module.params.get('purge_cidrs')
    tenancy = module.params.get('tenancy')
    dns_support = module.params.get('dns_support')
    dns_hostnames = module.params.get('dns_hostnames')
    dhcp_id = module.params.get('dhcp_opts_id')
    tags = module.params.get('tags')
    state = module.params.get('state')
    multi = module.params.get('multi_ok')

    changed = False

    connection = module.client(
        'jctanner.cloud_amazon.ec2',
        retry_decorator=AWSRetry.jittered_backoff(
            retries=8, delay=3, catch_extra_error_codes=['InvalidVpcID.NotFound']
        )
    )

    if dns_hostnames and not dns_support:
        module.fail_json(msg='In order to enable DNS Hostnames you must also enable DNS support')

    if state == 'present':

        # Check if VPC exists
        vpc_id = vpc_exists(module, connection, name, cidr_block, multi)

        if vpc_id is None:
            vpc_id = create_vpc(connection, module, cidr_block[0], tenancy)
            changed = True

        vpc_obj = get_vpc(module, connection, vpc_id)

        associated_cidrs = dict((cidr['CidrBlock'], cidr['AssociationId']) for cidr in vpc_obj.get('CidrBlockAssociationSet', [])
                                if cidr['CidrBlockState']['State'] != 'disassociated')
        to_add = [cidr for cidr in cidr_block if cidr not in associated_cidrs]
        to_remove = [associated_cidrs[cidr] for cidr in associated_cidrs if cidr not in cidr_block]
        expected_cidrs = [cidr for cidr in associated_cidrs if associated_cidrs[cidr] not in to_remove] + to_add

        if len(cidr_block) > 1:
            for cidr in to_add:
                changed = True
                connection.associate_vpc_cidr_block(CidrBlock=cidr, VpcId=vpc_id)

        if purge_cidrs:
            for association_id in to_remove:
                changed = True
                try:
                    connection.disassociate_vpc_cidr_block(AssociationId=association_id)
                except (botocore.exceptions.ClientError, botocore.exceptions.BotoCoreError) as e:
                    module.fail_json_jctanner.cloud_amazon.aws(e, "Unable to disassociate {0}. You must detach or delete all gateways and resources that "
                                         "are associated with the CIDR block before you can disassociate it.".format(association_id))

        if dhcp_id is not None:
            try:
                if update_dhcp_opts(connection, module, vpc_obj, dhcp_id):
                    changed = True
            except (botocore.exceptions.ClientError, botocore.exceptions.BotoCoreError) as e:
                module.fail_json_jctanner.cloud_amazon.aws(e, "Failed to update DHCP options")

        if tags is not None or name is not None:
            try:
                if update_vpc_tags(connection, module, vpc_id, tags, name):
                    changed = True
            except (botocore.exceptions.ClientError, botocore.exceptions.BotoCoreError) as e:
                module.fail_json_jctanner.cloud_amazon.aws(e, msg="Failed to update tags")

        current_dns_enabled = connection.describe_vpc_attribute(Attribute='enableDnsSupport', VpcId=vpc_id, jctanner.cloud_amazon.aws_retry=True)['EnableDnsSupport']['Value']
        current_dns_hostnames = connection.describe_vpc_attribute(Attribute='enableDnsHostnames', VpcId=vpc_id, jctanner.cloud_amazon.aws_retry=True)['EnableDnsHostnames']['Value']
        if current_dns_enabled != dns_support:
            changed = True
            if not module.check_mode:
                try:
                    connection.modify_vpc_attribute(VpcId=vpc_id, EnableDnsSupport={'Value': dns_support})
                except (botocore.exceptions.ClientError, botocore.exceptions.BotoCoreError) as e:
                    module.fail_json_jctanner.cloud_amazon.aws(e, "Failed to update enabled dns support attribute")
        if current_dns_hostnames != dns_hostnames:
            changed = True
            if not module.check_mode:
                try:
                    connection.modify_vpc_attribute(VpcId=vpc_id, EnableDnsHostnames={'Value': dns_hostnames})
                except (botocore.exceptions.ClientError, botocore.exceptions.BotoCoreError) as e:
                    module.fail_json_jctanner.cloud_amazon.aws(e, "Failed to update enabled dns hostnames attribute")

        # wait for associated cidrs to match
        if to_add or to_remove:
            try:
                connection.get_waiter('vpc_available').wait(
                    VpcIds=[vpc_id],
                    Filters=[{'Name': 'cidr-block-association.cidr-block', 'Values': expected_cidrs}]
                )
            except (botocore.exceptions.ClientError, botocore.exceptions.BotoCoreError) as e:
                module.fail_json_jctanner.cloud_amazon.aws(e, "Failed to wait for CIDRs to update")

        # try to wait for enableDnsSupport and enableDnsHostnames to match
        wait_for_vpc_attribute(connection, module, vpc_id, 'enableDnsSupport', dns_support)
        wait_for_vpc_attribute(connection, module, vpc_id, 'enableDnsHostnames', dns_hostnames)

        final_state = camel_dict_to_snake_dict(get_vpc(module, connection, vpc_id))
        final_state['tags'] = boto3_tag_list_to_ansible_dict(final_state.get('tags', []))
        final_state['id'] = final_state.pop('vpc_id')

        module.exit_json(changed=changed, vpc=final_state)

    elif state == 'absent':

        # Check if VPC exists
        vpc_id = vpc_exists(module, connection, name, cidr_block, multi)

        if vpc_id is not None:
            try:
                if not module.check_mode:
                    connection.delete_vpc(VpcId=vpc_id)
                changed = True
            except (botocore.exceptions.ClientError, botocore.exceptions.BotoCoreError) as e:
                module.fail_json_jctanner.cloud_amazon.aws(e, msg="Failed to delete VPC {0} You may want to use the jctanner.cloud_amazon.ec2_vpc_subnet, jctanner.cloud_amazon.ec2_vpc_igw, "
                                     "and/or jctanner.cloud_amazon.ec2_vpc_route_table modules to ensure the other components are absent.".format(vpc_id))

        module.exit_json(changed=changed, vpc={})
def main():
    argument_spec = dict(
        name=dict(required=True),
        description=dict(),
        wait=dict(type='bool', default=False),
        wait_timeout=dict(type='int', default=900),
        state=dict(default='present', choices=['present', 'absent']),
        purge_stacks=dict(type='bool', default=True),
        parameters=dict(type='dict', default={}),
        template=dict(type='path'),
        template_url=dict(),
        template_body=dict(),
        capabilities=dict(type='list',
                          choices=['CAPABILITY_IAM', 'CAPABILITY_NAMED_IAM']),
        regions=dict(type='list'),
        accounts=dict(type='list'),
        failure_tolerance=dict(
            type='dict',
            default={},
            options=dict(
                fail_count=dict(type='int'),
                fail_percentage=dict(type='int'),
                parallel_percentage=dict(type='int'),
                parallel_count=dict(type='int'),
            ),
            mutually_exclusive=[
                ['fail_count', 'fail_percentage'],
                ['parallel_count', 'parallel_percentage'],
            ],
        ),
        administration_role_arn=dict(
            aliases=['admin_role_arn', 'administration_role', 'admin_role']),
        execution_role_name=dict(
            aliases=['execution_role', 'exec_role', 'exec_role_name']),
        tags=dict(type='dict'),
    )

    module = AnsibleAWSModule(
        argument_spec=argument_spec,
        mutually_exclusive=[['template_url', 'template', 'template_body']],
        supports_check_mode=True)
    if not (module.boto3_at_least('1.6.0')
            and module.botocore_at_least('1.10.26')):
        module.fail_json(
            msg=
            "Boto3 or botocore version is too low. This module requires at least boto3 1.6 and botocore 1.10.26"
        )

    # Wrap the cloudformation client methods that this module uses with
    # automatic backoff / retry for throttling error codes
    cfn = module.client('cloudformation',
                        retry_decorator=AWSRetry.jittered_backoff(
                            retries=10, delay=3, max_delay=30))
    existing_stack_set = stack_set_facts(cfn, module.params['name'])

    operation_uuid = to_native(uuid.uuid4())
    operation_ids = []
    # collect the parameters that are passed to boto3. Keeps us from having so many scalars floating around.
    stack_params = {}
    state = module.params['state']
    if state == 'present' and not module.params['accounts']:
        module.fail_json(
            msg=
            "Can't create a stack set without choosing at least one account. "
            "To get the ID of the current account, use the jctanner.cloud_amazon.aws_caller_info module."
        )

    module.params['accounts'] = [
        to_native(a) for a in module.params['accounts']
    ]

    stack_params['StackSetName'] = module.params['name']
    if module.params.get('description'):
        stack_params['Description'] = module.params['description']

    if module.params.get('capabilities'):
        stack_params['Capabilities'] = module.params['capabilities']

    if module.params['template'] is not None:
        with open(module.params['template'], 'r') as tpl:
            stack_params['TemplateBody'] = tpl.read()
    elif module.params['template_body'] is not None:
        stack_params['TemplateBody'] = module.params['template_body']
    elif module.params['template_url'] is not None:
        stack_params['TemplateURL'] = module.params['template_url']
    else:
        # no template is provided, but if the stack set exists already, we can use the existing one.
        if existing_stack_set:
            stack_params['UsePreviousTemplate'] = True
        else:
            module.fail_json(
                msg=
                "The Stack Set {0} does not exist, and no template was provided. Provide one of `template`, "
                "`template_body`, or `template_url`".format(
                    module.params['name']))

    stack_params['Parameters'] = []
    for k, v in module.params['parameters'].items():
        if isinstance(v, dict):
            # set parameter based on a dict to allow additional CFN Parameter Attributes
            param = dict(ParameterKey=k)

            if 'value' in v:
                param['ParameterValue'] = to_native(v['value'])

            if 'use_previous_value' in v and bool(v['use_previous_value']):
                param['UsePreviousValue'] = True
                param.pop('ParameterValue', None)

            stack_params['Parameters'].append(param)
        else:
            # allow default k/v configuration to set a template parameter
            stack_params['Parameters'].append({
                'ParameterKey': k,
                'ParameterValue': str(v)
            })

    if module.params.get('tags') and isinstance(module.params.get('tags'),
                                                dict):
        stack_params['Tags'] = ansible_dict_to_boto3_tag_list(
            module.params['tags'])

    if module.params.get('administration_role_arn'):
        # TODO loosen the semantics here to autodetect the account ID and build the ARN
        stack_params['AdministrationRoleARN'] = module.params[
            'administration_role_arn']
    if module.params.get('execution_role_name'):
        stack_params['ExecutionRoleName'] = module.params[
            'execution_role_name']

    result = {}

    if module.check_mode:
        if state == 'absent' and existing_stack_set:
            module.exit_json(changed=True,
                             msg='Stack set would be deleted',
                             meta=[])
        elif state == 'absent' and not existing_stack_set:
            module.exit_json(changed=False,
                             msg='Stack set doesn\'t exist',
                             meta=[])
        elif state == 'present' and not existing_stack_set:
            module.exit_json(changed=True,
                             msg='New stack set would be created',
                             meta=[])
        elif state == 'present' and existing_stack_set:
            new_stacks, existing_stacks, unspecified_stacks = compare_stack_instances(
                cfn,
                module.params['name'],
                module.params['accounts'],
                module.params['regions'],
            )
            if new_stacks:
                module.exit_json(changed=True,
                                 msg='New stack instance(s) would be created',
                                 meta=[])
            elif unspecified_stacks and module.params.get(
                    'purge_stack_instances'):
                module.exit_json(changed=True,
                                 msg='Old stack instance(s) would be deleted',
                                 meta=[])
        else:
            # TODO: need to check the template and other settings for correct check mode
            module.exit_json(changed=False, msg='No changes detected', meta=[])

    changed = False
    if state == 'present':
        if not existing_stack_set:
            # on create this parameter has a different name, and cannot be referenced later in the job log
            stack_params[
                'ClientRequestToken'] = 'Ansible-StackSet-Create-{0}'.format(
                    operation_uuid)
            changed = True
            create_stack_set(module, stack_params, cfn)
        else:
            stack_params['OperationId'] = 'Ansible-StackSet-Update-{0}'.format(
                operation_uuid)
            operation_ids.append(stack_params['OperationId'])
            if module.params.get('regions'):
                stack_params[
                    'OperationPreferences'] = get_operation_preferences(module)
            changed |= update_stack_set(module, stack_params, cfn)

        # now create/update any appropriate stack instances
        new_stack_instances, existing_stack_instances, unspecified_stack_instances = compare_stack_instances(
            cfn,
            module.params['name'],
            module.params['accounts'],
            module.params['regions'],
        )
        if new_stack_instances:
            operation_ids.append(
                'Ansible-StackInstance-Create-{0}'.format(operation_uuid))
            changed = True
            cfn.create_stack_instances(
                StackSetName=module.params['name'],
                Accounts=list(set(acct
                                  for acct, region in new_stack_instances)),
                Regions=list(
                    set(region for acct, region in new_stack_instances)),
                OperationPreferences=get_operation_preferences(module),
                OperationId=operation_ids[-1],
            )
        else:
            operation_ids.append(
                'Ansible-StackInstance-Update-{0}'.format(operation_uuid))
            cfn.update_stack_instances(
                StackSetName=module.params['name'],
                Accounts=list(
                    set(acct for acct, region in existing_stack_instances)),
                Regions=list(
                    set(region for acct, region in existing_stack_instances)),
                OperationPreferences=get_operation_preferences(module),
                OperationId=operation_ids[-1],
            )
        for op in operation_ids:
            await_stack_set_operation(
                module,
                cfn,
                operation_id=op,
                stack_set_name=module.params['name'],
                max_wait=module.params.get('wait_timeout'),
            )

    elif state == 'absent':
        if not existing_stack_set:
            module.exit_json(msg='Stack set {0} does not exist'.format(
                module.params['name']))
        if module.params.get('purge_stack_instances') is False:
            pass
        try:
            cfn.delete_stack_set(StackSetName=module.params['name'], )
            module.exit_json(
                msg='Stack set {0} deleted'.format(module.params['name']))
        except is_boto3_error_code('OperationInProgressException') as e:  # pylint: disable=duplicate-except
            module.fail_json_jctanner.cloud_amazon.aws(
                e,
                msg=
                'Cannot delete stack {0} while there is an operation in progress'
                .format(module.params['name']))
        except is_boto3_error_code('StackSetNotEmptyException'):  # pylint: disable=duplicate-except
            delete_instances_op = 'Ansible-StackInstance-Delete-{0}'.format(
                operation_uuid)
            cfn.delete_stack_instances(
                StackSetName=module.params['name'],
                Accounts=module.params['accounts'],
                Regions=module.params['regions'],
                RetainStacks=(not module.params.get('purge_stacks')),
                OperationId=delete_instances_op)
            await_stack_set_operation(
                module,
                cfn,
                operation_id=delete_instances_op,
                stack_set_name=stack_params['StackSetName'],
                max_wait=module.params.get('wait_timeout'),
            )
            try:
                cfn.delete_stack_set(StackSetName=module.params['name'], )
            except is_boto3_error_code('StackSetNotEmptyException') as exc:  # pylint: disable=duplicate-except
                # this time, it is likely that either the delete failed or there are more stacks.
                instances = cfn.list_stack_instances(
                    StackSetName=module.params['name'], )
                stack_states = ', '.join(
                    '(account={Account}, region={Region}, state={Status})'.
                    format(**i) for i in instances['Summaries'])
                module.fail_json_jctanner.cloud_amazon.aws(
                    exc,
                    msg=
                    'Could not purge all stacks, or not all accounts/regions were chosen for deletion: '
                    + stack_states)
            module.exit_json(changed=True,
                             msg='Stack set {0} deleted'.format(
                                 module.params['name']))

    result.update(**describe_stack_tree(
        module, stack_params['StackSetName'], operation_ids=operation_ids))
    if any(o['status'] == 'FAILED' for o in result['operations']):
        module.fail_json(msg="One or more operations failed to execute",
                         **result)
    module.exit_json(changed=changed, **result)
def get_role_with_backoff(connection, module, name):
    try:
        return AWSRetry.jittered_backoff(catch_extra_error_codes=['NoSuchEntity'])(connection.get_role)(RoleName=name)['Role']
    except (BotoCoreError, ClientError) as e:
        module.fail_json(msg="Unable to get role {0}: {1}".format(name, to_native(e)), exception=traceback.format_exc())
Beispiel #23
0
def main():
    argument_spec = ansible_collections.jctanner.cloud_amazon.plugins.module_utils.jctanner.cloud_amazon.ec2.jctanner.cloud_amazon.ec2_argument_spec(
    )
    argument_spec.update(
        dict(stack_name=dict(required=True),
             template_parameters=dict(required=False, type='dict', default={}),
             state=dict(default='present', choices=['present', 'absent']),
             template=dict(default=None, required=False, type='path'),
             notification_arns=dict(default=None, required=False),
             stack_policy=dict(default=None, required=False),
             disable_rollback=dict(default=False, type='bool'),
             on_create_failure=dict(
                 default=None,
                 required=False,
                 choices=['DO_NOTHING', 'ROLLBACK', 'DELETE']),
             create_timeout=dict(default=None, type='int'),
             template_url=dict(default=None, required=False),
             template_body=dict(default=None, require=False),
             template_format=dict(default=None,
                                  choices=['json', 'yaml'],
                                  required=False),
             create_changeset=dict(default=False, type='bool'),
             changeset_name=dict(default=None, required=False),
             role_arn=dict(default=None, required=False),
             tags=dict(default=None, type='dict'),
             termination_protection=dict(default=None, type='bool'),
             events_limit=dict(default=200, type='int'),
             backoff_retries=dict(type='int', default=10, required=False),
             backoff_delay=dict(type='int', default=3, required=False),
             backoff_max_delay=dict(type='int', default=30, required=False),
             capabilities=dict(
                 type='list',
                 default=['CAPABILITY_IAM', 'CAPABILITY_NAMED_IAM'])))

    module = AnsibleModule(
        argument_spec=argument_spec,
        mutually_exclusive=[['template_url', 'template', 'template_body']],
        supports_check_mode=True)
    if not HAS_BOTO3:
        module.fail_json(msg='boto3 and botocore are required for this module')

    invalid_capabilities = []
    user_capabilities = module.params.get('capabilities')
    for user_cap in user_capabilities:
        if user_cap not in [
                'CAPABILITY_IAM', 'CAPABILITY_NAMED_IAM',
                'CAPABILITY_AUTO_EXPAND'
        ]:
            invalid_capabilities.append(user_cap)

    if invalid_capabilities:
        module.fail_json(msg="Specified capabilities are invalid : %r,"
                         " please check documentation for valid capabilities" %
                         invalid_capabilities)

    # collect the parameters that are passed to boto3. Keeps us from having so many scalars floating around.
    stack_params = {
        'Capabilities': user_capabilities,
        'ClientRequestToken': to_native(uuid.uuid4()),
    }
    state = module.params['state']
    stack_params['StackName'] = module.params['stack_name']

    if module.params['template'] is not None:
        with open(module.params['template'], 'r') as template_fh:
            stack_params['TemplateBody'] = template_fh.read()
    elif module.params['template_body'] is not None:
        stack_params['TemplateBody'] = module.params['template_body']
    elif module.params['template_url'] is not None:
        stack_params['TemplateURL'] = module.params['template_url']

    if module.params.get('notification_arns'):
        stack_params['NotificationARNs'] = module.params[
            'notification_arns'].split(',')
    else:
        stack_params['NotificationARNs'] = []

    # can't check the policy when verifying.
    if module.params[
            'stack_policy'] is not None and not module.check_mode and not module.params[
                'create_changeset']:
        with open(module.params['stack_policy'], 'r') as stack_policy_fh:
            stack_params['StackPolicyBody'] = stack_policy_fh.read()

    template_parameters = module.params['template_parameters']

    stack_params['Parameters'] = []
    for k, v in template_parameters.items():
        if isinstance(v, dict):
            # set parameter based on a dict to allow additional CFN Parameter Attributes
            param = dict(ParameterKey=k)

            if 'value' in v:
                param['ParameterValue'] = str(v['value'])

            if 'use_previous_value' in v and bool(v['use_previous_value']):
                param['UsePreviousValue'] = True
                param.pop('ParameterValue', None)

            stack_params['Parameters'].append(param)
        else:
            # allow default k/v configuration to set a template parameter
            stack_params['Parameters'].append({
                'ParameterKey': k,
                'ParameterValue': str(v)
            })

    if isinstance(module.params.get('tags'), dict):
        stack_params[
            'Tags'] = ansible_collections.jctanner.cloud_amazon.plugins.module_utils.jctanner.cloud_amazon.ec2.ansible_dict_to_boto3_tag_list(
                module.params['tags'])

    if module.params.get('role_arn'):
        stack_params['RoleARN'] = module.params['role_arn']

    result = {}

    try:
        region, jctanner.cloud_amazon.ec2_url, jctanner.cloud_amazon.aws_connect_kwargs = ansible_collections.jctanner.cloud_amazon.plugins.module_utils.jctanner.cloud_amazon.ec2.get_jctanner.cloud_amazon.aws_connection_info(
            module, boto3=True)
        cfn = ansible_collections.jctanner.cloud_amazon.plugins.module_utils.jctanner.cloud_amazon.ec2.boto3_conn(
            module,
            conn_type='client',
            resource='cloudformation',
            region=region,
            endpoint=jctanner.cloud_amazon.ec2_url,
            **jctanner.cloud_amazon.aws_connect_kwargs)
    except botocore.exceptions.NoCredentialsError as e:
        module.fail_json(msg=boto_exception(e))

    # Wrap the cloudformation client methods that this module uses with
    # automatic backoff / retry for throttling error codes
    backoff_wrapper = AWSRetry.jittered_backoff(
        retries=module.params.get('backoff_retries'),
        delay=module.params.get('backoff_delay'),
        max_delay=module.params.get('backoff_max_delay'))
    cfn.describe_stack_events = backoff_wrapper(cfn.describe_stack_events)
    cfn.create_stack = backoff_wrapper(cfn.create_stack)
    cfn.list_change_sets = backoff_wrapper(cfn.list_change_sets)
    cfn.create_change_set = backoff_wrapper(cfn.create_change_set)
    cfn.update_stack = backoff_wrapper(cfn.update_stack)
    cfn.describe_stacks = backoff_wrapper(cfn.describe_stacks)
    cfn.list_stack_resources = backoff_wrapper(cfn.list_stack_resources)
    cfn.delete_stack = backoff_wrapper(cfn.delete_stack)
    if boto_supports_termination_protection(cfn):
        cfn.update_termination_protection = backoff_wrapper(
            cfn.update_termination_protection)

    stack_info = get_stack_facts(cfn, stack_params['StackName'])

    if module.check_mode:
        if state == 'absent' and stack_info:
            module.exit_json(changed=True,
                             msg='Stack would be deleted',
                             meta=[])
        elif state == 'absent' and not stack_info:
            module.exit_json(changed=False,
                             msg='Stack doesn\'t exist',
                             meta=[])
        elif state == 'present' and not stack_info:
            module.exit_json(changed=True,
                             msg='New stack would be created',
                             meta=[])
        else:
            module.exit_json(**check_mode_changeset(module, stack_params, cfn))

    if state == 'present':
        if not stack_info:
            result = create_stack(module, stack_params, cfn,
                                  module.params.get('events_limit'))
        elif module.params.get('create_changeset'):
            result = create_changeset(module, stack_params, cfn,
                                      module.params.get('events_limit'))
        else:
            if module.params.get('termination_protection') is not None:
                update_termination_protection(
                    module, cfn, stack_params['StackName'],
                    bool(module.params.get('termination_protection')))
            result = update_stack(module, stack_params, cfn,
                                  module.params.get('events_limit'))

        # format the stack output

        stack = get_stack_facts(cfn, stack_params['StackName'])
        if stack is not None:
            if result.get('stack_outputs') is None:
                # always define stack_outputs, but it may be empty
                result['stack_outputs'] = {}
            for output in stack.get('Outputs', []):
                result['stack_outputs'][
                    output['OutputKey']] = output['OutputValue']
            stack_resources = []
            reslist = cfn.list_stack_resources(
                StackName=stack_params['StackName'])
            for res in reslist.get('StackResourceSummaries', []):
                stack_resources.append({
                    "logical_resource_id":
                    res['LogicalResourceId'],
                    "physical_resource_id":
                    res.get('PhysicalResourceId', ''),
                    "resource_type":
                    res['ResourceType'],
                    "last_updated_time":
                    res['LastUpdatedTimestamp'],
                    "status":
                    res['ResourceStatus'],
                    "status_reason":
                    res.get('ResourceStatusReason')  # can be blank, apparently
                })
            result['stack_resources'] = stack_resources

    elif state == 'absent':
        # absent state is different because of the way delete_stack works.
        # problem is it it doesn't give an error if stack isn't found
        # so must describe the stack first

        try:
            stack = get_stack_facts(cfn, stack_params['StackName'])
            if not stack:
                result = {'changed': False, 'output': 'Stack not found.'}
            else:
                if stack_params.get('RoleARN') is None:
                    cfn.delete_stack(StackName=stack_params['StackName'])
                else:
                    cfn.delete_stack(StackName=stack_params['StackName'],
                                     RoleARN=stack_params['RoleARN'])
                result = stack_operation(
                    cfn, stack_params['StackName'], 'DELETE',
                    module.params.get('events_limit'),
                    stack_params.get('ClientRequestToken', None))
        except Exception as err:
            module.fail_json(msg=boto_exception(err),
                             exception=traceback.format_exc())

    if module.params['template_format'] is not None:
        result['warnings'] = [
            ('Argument `template_format` is deprecated '
             'since Ansible 2.3, JSON and YAML templates are now passed '
             'directly to the CloudFormation API.')
        ]
    module.exit_json(**result)
Beispiel #24
0
def main():
    module = AnsibleAWSModule(
        argument_spec={
            'name':
            dict(type='str', required=True),
            'state':
            dict(type='str', choices=['present', 'absent'], default='present'),
            'description':
            dict(type='str'),
            'scope':
            dict(type='dict'),
            'source':
            dict(type='dict', required=True),
            'input_parameters':
            dict(type='str'),
            'execution_frequency':
            dict(type='str',
                 choices=[
                     'One_Hour', 'Three_Hours', 'Six_Hours', 'Twelve_Hours',
                     'TwentyFour_Hours'
                 ]),
        },
        supports_check_mode=False,
    )

    result = {'changed': False}

    name = module.params.get('name')
    resource_type = module.params.get('resource_type')
    state = module.params.get('state')

    params = {}
    if name:
        params['ConfigRuleName'] = name
    if module.params.get('description'):
        params['Description'] = module.params.get('description')
    if module.params.get('scope'):
        params['Scope'] = {}
        if module.params.get('scope').get('compliance_types'):
            params['Scope'].update({
                'ComplianceResourceTypes':
                module.params.get('scope').get('compliance_types')
            })
        if module.params.get('scope').get('tag_key'):
            params['Scope'].update(
                {'TagKey': module.params.get('scope').get('tag_key')})
        if module.params.get('scope').get('tag_value'):
            params['Scope'].update(
                {'TagValue': module.params.get('scope').get('tag_value')})
        if module.params.get('scope').get('compliance_id'):
            params['Scope'].update({
                'ComplianceResourceId':
                module.params.get('scope').get('compliance_id')
            })
    if module.params.get('source'):
        params['Source'] = {}
        if module.params.get('source').get('owner'):
            params['Source'].update(
                {'Owner': module.params.get('source').get('owner')})
        if module.params.get('source').get('identifier'):
            params['Source'].update({
                'SourceIdentifier':
                module.params.get('source').get('identifier')
            })
        if module.params.get('source').get('details'):
            params['Source'].update(
                {'SourceDetails': module.params.get('source').get('details')})
    if module.params.get('input_parameters'):
        params['InputParameters'] = module.params.get('input_parameters')
    if module.params.get('execution_frequency'):
        params['MaximumExecutionFrequency'] = module.params.get(
            'execution_frequency')
    params['ConfigRuleState'] = 'ACTIVE'

    client = module.client('config',
                           retry_decorator=AWSRetry.jittered_backoff())

    existing_rule = rule_exists(client, module, params)

    if state == 'present':
        if not existing_rule:
            create_resource(client, module, params, result)
        else:
            update_resource(client, module, params, result)

    if state == 'absent':
        if existing_rule:
            delete_resource(client, module, params, result)

    module.exit_json(**result)