#!/usr/bin/python # -*- coding: utf-8 -*- # Copyright: Ansible Project # GNU General Public License v3.0+ (see COPYING or https://www.gnu.org/licenses/gpl-3.0.txt) DOCUMENTATION = r""" --- module: ec2_vol version_added: 1.0.0 short_description: Create and attach a volume, return volume ID and device map description: - Creates an EBS volume and optionally attaches it to an instance. - If both O(instance) and O(name) are given and the instance has a device at the device name, then no volume is created and no attachment is made. options: instance: description: - Instance ID if you wish to attach the volume. - Set to V(None) to detach the volume. type: str name: description: - Volume Name tag if you wish to attach an existing volume (requires instance). type: str id: description: - Volume ID if you wish to attach an existing volume (requires instance) or remove an existing volume. type: str volume_size: description: - Size of volume (in GiB) to create. type: int volume_type: description: - Type of EBS volume; V(standard) (magnetic), V(gp2) (SSD), V(gp3) (SSD), V(io1) (Provisioned IOPS), V(io2) (Provisioned IOPS), V(st1) (Throughput Optimized HDD), V(sc1) (Cold HDD). - V(standard) is the old EBS default and continues to remain the Ansible default for backwards compatibility. default: standard choices: ['standard', 'gp2', 'io1', 'st1', 'sc1', 'gp3', 'io2'] type: str iops: description: - The provisioned IOPs you want to associate with this volume (integer). type: int encrypted: description: - Enable encryption at rest for this volume. default: false type: bool kms_key_id: description: - Specify the ID of the KMS key to use. type: str device_name: description: - Device ID to override device mapping. Assumes /dev/sdf for Linux/UNIX and /dev/xvdf for Windows. type: str delete_on_termination: description: - When set to C(true), the volume will be deleted upon instance termination. type: bool default: false zone: description: - Zone in which to create the volume, if unset uses the zone the instance is in (if set). aliases: ['availability_zone', 'aws_zone', 'ec2_zone'] type: str snapshot: description: - Snapshot ID on which to base the volume. type: str state: description: - Whether to ensure the volume is present or absent. - O(state=list) was deprecated in release 1.1.0 and is no longer available with release 4.0.0. - The V(list) functionality has been moved to a dedicated module M(amazon.aws.ec2_vol_info). default: present choices: ['absent', 'present'] type: str modify_volume: description: - The volume won't be modified unless this key is V(true). type: bool default: false version_added: 1.4.0 throughput: description: - Volume throughput in MB/s. - This parameter is only valid for gp3 volumes. - Valid range is from 125 to 1000. type: int version_added: 1.4.0 multi_attach: description: - If set to V(true), Multi-Attach will be enabled when creating the volume. - When you create a new volume, Multi-Attach is disabled by default. - This parameter is supported with io1 and io2 volumes only. type: bool version_added: 2.0.0 outpost_arn: description: - The Amazon Resource Name (ARN) of the Outpost. - If set, allows to create volume in an Outpost. type: str version_added: 3.1.0 author: - "Lester Wade (@lwade)" notes: - Support for O(purge_tags) was added in release 1.5.0. extends_documentation_fragment: - amazon.aws.common.modules - amazon.aws.region.modules - amazon.aws.tags - amazon.aws.boto3 """ EXAMPLES = r""" # Simple attachment action - amazon.aws.ec2_vol: instance: XXXXXX volume_size: 5 device_name: sdd region: us-west-2 # Example using custom iops params - amazon.aws.ec2_vol: instance: XXXXXX volume_size: 5 iops: 100 device_name: sdd region: us-west-2 # Example using snapshot id - amazon.aws.ec2_vol: instance: XXXXXX snapshot: "{{ snapshot }}" # Playbook example combined with instance launch - amazon.aws.ec2: keypair: "{{ keypair }}" image: "{{ image }}" wait: true count: 3 register: ec2 - amazon.aws.ec2_vol: instance: "{{ item.id }}" volume_size: 5 loop: "{{ ec2.instances }}" register: ec2_vol # Example: Launch an instance and then add a volume if not already attached # * Volume will be created with the given name if not already created. # * Nothing will happen if the volume is already attached. - amazon.aws.ec2: keypair: "{{ keypair }}" image: "{{ image }}" zone: YYYYYY id: my_instance wait: true count: 1 register: ec2 - amazon.aws.ec2_vol: instance: "{{ item.id }}" name: my_existing_volume_Name_tag device_name: /dev/xvdf loop: "{{ ec2.instances }}" register: ec2_vol # Remove a volume - amazon.aws.ec2_vol: id: vol-XXXXXXXX state: absent # Detach a volume (since 1.9) - amazon.aws.ec2_vol: id: vol-XXXXXXXX instance: None region: us-west-2 # Create new volume using SSD storage - amazon.aws.ec2_vol: instance: XXXXXX volume_size: 50 volume_type: gp2 device_name: /dev/xvdf # Create new volume with multi-attach enabled - amazon.aws.ec2_vol: zone: XXXXXX multi_attach: true volume_size: 4 volume_type: io1 iops: 102 # Attach an existing volume to instance. The volume will be deleted upon instance termination. - amazon.aws.ec2_vol: instance: XXXXXX id: XXXXXX device_name: /dev/sdf delete_on_termination: true """ RETURN = r""" device: description: Device name of attached volume. returned: when success type: str sample: "/dev/sdf" volume_id: description: The id of volume. returned: when success type: str sample: "vol-35b333d9" volume_type: description: The volume type. returned: when success type: str sample: "standard" volume: description: A dictionary containing detailed attributes of the volume. returned: when success type: dict contains: attachment_set: description: - Information about the volume attachments. - This was changed in version 2.0.0 from a dictionary to a list of dictionaries. type: list elements: dict returned: when success sample: [{ "attach_time": "2015-10-23T00:22:29.000Z", "deleteOnTermination": "false", "device": "/dev/sdf", "instance_id": "i-8356263c", "status": "attached" }] create_time: description: The time stamp when volume creation was initiated. type: str returned: when success sample: "2015-10-21T14:36:08.870Z" encrypted: description: Indicates whether the volume is encrypted. type: bool returned: when success sample: False id: description: The ID of the volume. type: str returned: when success sample: "vol-35b333d9" iops: description: The number of I/O operations per second (IOPS) that the volume supports. type: int returned: when success sample: null size: description: The size of the volume, in GiBs. type: int returned: when success sample: 1 snapshot_id: description: The snapshot from which the volume was created, if applicable. type: str returned: when success sample: "" status: description: The volume state. type: str returned: when success sample: "in-use" tags: description: Any tags assigned to the volume. type: dict returned: when success sample: { env: "dev" } type: description: The volume type. This can be gp2, io1, st1, sc1, or standard. type: str returned: when success sample: "standard" zone: description: The Availability Zone of the volume. type: str returned: when success sample: "us-east-1b" throughput: description: The throughput that the volume supports, in MiB/s. type: int returned: when success sample: 131 """ import time from ansible.module_utils.common.dict_transformations import camel_dict_to_snake_dict from ansible_collections.amazon.aws.plugins.module_utils.arn import is_outpost_arn from ansible_collections.amazon.aws.plugins.module_utils.botocore import is_boto3_error_code from ansible_collections.amazon.aws.plugins.module_utils.ec2 import describe_ec2_tags from ansible_collections.amazon.aws.plugins.module_utils.ec2 import ensure_ec2_tags from ansible_collections.amazon.aws.plugins.module_utils.modules import AnsibleAWSModule from ansible_collections.amazon.aws.plugins.module_utils.retries import AWSRetry from ansible_collections.amazon.aws.plugins.module_utils.tagging import boto3_tag_list_to_ansible_dict from ansible_collections.amazon.aws.plugins.module_utils.tagging import boto3_tag_specifications from ansible_collections.amazon.aws.plugins.module_utils.transformation import ansible_dict_to_boto3_filter_list try: import botocore except ImportError: pass # Taken care of by AnsibleAWSModule def get_instance(module, ec2_conn, instance_id=None): instance = None if not instance_id: return instance try: reservation_response = ec2_conn.describe_instances(aws_retry=True, InstanceIds=[instance_id]) instance = camel_dict_to_snake_dict(reservation_response["Reservations"][0]["Instances"][0]) except (botocore.exceptions.ClientError, botocore.exceptions.BotoCoreError) as e: module.fail_json_aws(e, msg=f"Error while getting instance_id with id {instance}") return instance def get_volume(module, ec2_conn, vol_id=None, fail_on_not_found=True): name = module.params.get("name") param_id = module.params.get("id") zone = module.params.get("zone") if not vol_id: vol_id = param_id # If no name or id supplied, just try volume creation based on module parameters if vol_id is None and name is None: return None find_params = dict() vols = [] if vol_id: find_params["VolumeIds"] = [vol_id] elif name: find_params["Filters"] = ansible_dict_to_boto3_filter_list({"tag:Name": name}) elif zone: find_params["Filters"] = ansible_dict_to_boto3_filter_list({"availability-zone": zone}) try: paginator = ec2_conn.get_paginator("describe_volumes") vols_response = paginator.paginate(**find_params) vols = list(vols_response)[0].get("Volumes") except (botocore.exceptions.ClientError, botocore.exceptions.BotoCoreError) as e: if is_boto3_error_code("InvalidVolume.NotFound"): module.exit_json(msg=f"Volume {vol_id} does not exist", changed=False) module.fail_json_aws(e, msg=f"Error while getting EBS volumes with the parameters {find_params}") if not vols: if fail_on_not_found and vol_id: msg = f"Could not find volume with id: {vol_id}" if name: msg += f" and name: {name}" module.fail_json(msg=msg) else: return None if len(vols) > 1: module.fail_json( msg=f"Found more than one volume in zone (if specified) with name: {name}", found=[v["VolumeId"] for v in vols], ) vol = camel_dict_to_snake_dict(vols[0]) return vol def delete_volume(module, ec2_conn, volume_id=None): changed = False if volume_id: try: ec2_conn.delete_volume(aws_retry=True, VolumeId=volume_id) changed = True except is_boto3_error_code("InvalidVolume.NotFound"): module.exit_json(changed=False) except ( botocore.exceptions.ClientError, botocore.exceptions.BotoCoreError, ) as e: # pylint: disable=duplicate-except module.fail_json_aws(e, msg="Error while deleting volume") return changed def update_volume(module, ec2_conn, volume): changed = False req_obj = {"VolumeId": volume["volume_id"]} if module.params.get("modify_volume"): target_type = module.params.get("volume_type") original_type = None type_changed = False if target_type: original_type = volume["volume_type"] if target_type != original_type: type_changed = True req_obj["VolumeType"] = target_type iops_changed = False target_iops = module.params.get("iops") original_iops = volume.get("iops") if target_iops: if target_iops != original_iops: iops_changed = True req_obj["Iops"] = target_iops else: req_obj["Iops"] = original_iops else: # If no IOPS value is specified and there was a volume_type update to gp3, # the existing value is retained, unless a volume type is modified that supports different values, # otherwise, the default iops value is applied. if type_changed and target_type == "gp3": if (original_iops and (int(original_iops) < 3000 or int(original_iops) > 16000)) or not original_iops: req_obj["Iops"] = 3000 iops_changed = True target_size = module.params.get("volume_size") size_changed = False if target_size: original_size = volume["size"] if target_size != original_size: size_changed = True req_obj["Size"] = target_size target_type = module.params.get("volume_type") original_type = None type_changed = False if target_type: original_type = volume["volume_type"] if target_type != original_type: type_changed = True req_obj["VolumeType"] = target_type target_throughput = module.params.get("throughput") throughput_changed = False if target_throughput: original_throughput = volume.get("throughput") if target_throughput != original_throughput: throughput_changed = True req_obj["Throughput"] = target_throughput target_multi_attach = module.params.get("multi_attach") multi_attach_changed = False if target_multi_attach is not None: original_multi_attach = volume["multi_attach_enabled"] if target_multi_attach != original_multi_attach: multi_attach_changed = True req_obj["MultiAttachEnabled"] = target_multi_attach changed = iops_changed or size_changed or type_changed or throughput_changed or multi_attach_changed if changed: if module.check_mode: module.exit_json(changed=True, msg="Would have updated volume if not in check mode.") response = ec2_conn.modify_volume(**req_obj) volume["size"] = response.get("VolumeModification").get("TargetSize") volume["volume_type"] = response.get("VolumeModification").get("TargetVolumeType") volume["iops"] = response.get("VolumeModification").get("TargetIops") volume["multi_attach_enabled"] = response.get("VolumeModification").get("TargetMultiAttachEnabled") volume["throughput"] = response.get("VolumeModification").get("TargetThroughput") return volume, changed def create_volume(module, ec2_conn, zone): changed = False iops = module.params.get("iops") encrypted = module.params.get("encrypted") kms_key_id = module.params.get("kms_key_id") volume_size = module.params.get("volume_size") volume_type = module.params.get("volume_type") snapshot = module.params.get("snapshot") throughput = module.params.get("throughput") multi_attach = module.params.get("multi_attach") outpost_arn = module.params.get("outpost_arn") tags = module.params.get("tags") or {} name = module.params.get("name") volume = get_volume(module, ec2_conn) if module.check_mode: module.exit_json(changed=True, msg="Would have created a volume if not in check mode.") if volume is None: try: changed = True additional_params = dict() if volume_size: additional_params["Size"] = int(volume_size) if kms_key_id: additional_params["KmsKeyId"] = kms_key_id if snapshot: additional_params["SnapshotId"] = snapshot if iops: additional_params["Iops"] = int(iops) # Use the default value if any iops has been specified when volume_type=gp3 if volume_type == "gp3" and not iops: additional_params["Iops"] = 3000 if throughput: additional_params["Throughput"] = int(throughput) if multi_attach: additional_params["MultiAttachEnabled"] = True if outpost_arn: if is_outpost_arn(outpost_arn): additional_params["OutpostArn"] = outpost_arn else: module.fail_json("OutpostArn does not match the pattern specified in API specifications.") if name: tags["Name"] = name if tags: additional_params["TagSpecifications"] = boto3_tag_specifications(tags, types=["volume"]) create_vol_response = ec2_conn.create_volume( aws_retry=True, AvailabilityZone=zone, Encrypted=encrypted, VolumeType=volume_type, **additional_params ) waiter = ec2_conn.get_waiter("volume_available") waiter.wait( VolumeIds=[create_vol_response["VolumeId"]], ) volume = get_volume(module, ec2_conn, vol_id=create_vol_response["VolumeId"]) except (botocore.exceptions.ClientError, botocore.exceptions.BotoCoreError) as e: module.fail_json_aws(e, msg="Error while creating EBS volume") return volume, changed def attach_volume(module, ec2_conn, volume_dict, instance_dict, device_name): changed = False # If device_name isn't set, make a choice based on best practices here: # https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/block-device-mapping-concepts.html # In future this needs to be more dynamic but combining block device mapping best practices # (bounds for devices, as above) with instance.block_device_mapping data would be tricky. For me ;) attachment_data = get_attachment_data(volume_dict, wanted_state="attached") if attachment_data: if module.check_mode: if attachment_data[0].get("status") in ["attached", "attaching"]: instance_id = attachment_data[0].get("instance_id", "None") module.exit_json( changed=False, msg=f"IN CHECK MODE - volume already attached to instance: {instance_id}." ) if not volume_dict["multi_attach_enabled"]: # volumes without MultiAttach Enabled can be attached to 1 instance only if attachment_data[0].get("instance_id", None) != instance_dict["instance_id"]: instance_id = attachment_data[0].get("instance_id", "None") module.fail_json( msg=f"Volume {volume_dict['volume_id']} is already attached to another instance: {instance_id}." ) else: return volume_dict, changed try: if module.check_mode: module.exit_json(changed=True, msg="Would have attached volume if not in check mode.") attach_response = ec2_conn.attach_volume( aws_retry=True, Device=device_name, InstanceId=instance_dict["instance_id"], VolumeId=volume_dict["volume_id"], ) waiter = ec2_conn.get_waiter("volume_in_use") waiter.wait(VolumeIds=[attach_response["VolumeId"]]) changed = True except (botocore.exceptions.ClientError, botocore.exceptions.BotoCoreError) as e: module.fail_json_aws(e, msg="Error while attaching EBS volume") modify_dot_attribute(module, ec2_conn, instance_dict, device_name) volume = get_volume(module, ec2_conn, vol_id=volume_dict["volume_id"]) return volume, changed def modify_dot_attribute(module, ec2_conn, instance_dict, device_name): """Modify delete_on_termination attribute""" delete_on_termination = module.params.get("delete_on_termination") changed = False # volume_in_use can return *shortly* before it appears on the instance # description mapped_block_device = None _attempt = 0 while mapped_block_device is None: _attempt += 1 instance_dict = get_instance(module, ec2_conn=ec2_conn, instance_id=instance_dict["instance_id"]) mapped_block_device = get_mapped_block_device(instance_dict=instance_dict, device_name=device_name) if mapped_block_device is None: if _attempt > 2: module.fail_json(msg="Unable to find device on instance", device=device_name, instance=instance_dict) time.sleep(1) if delete_on_termination != mapped_block_device["ebs"].get("delete_on_termination"): try: ec2_conn.modify_instance_attribute( aws_retry=True, InstanceId=instance_dict["instance_id"], BlockDeviceMappings=[ {"DeviceName": device_name, "Ebs": {"DeleteOnTermination": delete_on_termination}} ], ) changed = True except (botocore.exceptions.ClientError, botocore.exceptions.BotoCoreError) as e: module.fail_json_aws( e, msg=f"Error while modifying Block Device Mapping of instance {instance_dict['instance_id']}" ) return changed def get_attachment_data(volume_dict, wanted_state=None): attachment_data = [] if not volume_dict: return attachment_data resource = volume_dict.get("attachments", []) if wanted_state: # filter 'state', return attachment matching wanted state resource = [data for data in resource if data["state"] == wanted_state] for data in resource: attachment_data.append( { "attach_time": data.get("attach_time", None), "device": data.get("device", None), "instance_id": data.get("instance_id", None), "status": data.get("state", None), "delete_on_termination": data.get("delete_on_termination", None), } ) return attachment_data def detach_volume(module, ec2_conn, volume_dict): changed = False attachment_data = get_attachment_data(volume_dict, wanted_state="attached") # The ID of the instance must be specified if you are detaching a Multi-Attach enabled volume. for attachment in attachment_data: if module.check_mode: module.exit_json(changed=True, msg="Would have detached volume if not in check mode.") ec2_conn.detach_volume(aws_retry=True, InstanceId=attachment["instance_id"], VolumeId=volume_dict["volume_id"]) waiter = ec2_conn.get_waiter("volume_available") waiter.wait( VolumeIds=[volume_dict["volume_id"]], ) changed = True volume_dict = get_volume(module, ec2_conn, vol_id=volume_dict["volume_id"]) return volume_dict, changed def get_volume_info(module, volume, tags=None): if not tags: tags = boto3_tag_list_to_ansible_dict(volume.get("tags")) attachment_data = get_attachment_data(volume) volume_info = { "create_time": volume.get("create_time"), "encrypted": volume.get("encrypted"), "id": volume.get("volume_id"), "iops": volume.get("iops"), "size": volume.get("size"), "snapshot_id": volume.get("snapshot_id"), "status": volume.get("state"), "type": volume.get("volume_type"), "zone": volume.get("availability_zone"), "attachment_set": attachment_data, "multi_attach_enabled": volume.get("multi_attach_enabled"), "tags": tags, } volume_info["throughput"] = volume.get("throughput") return volume_info def get_mapped_block_device(instance_dict=None, device_name=None): mapped_block_device = None if not instance_dict: return mapped_block_device if not device_name: return mapped_block_device for device in instance_dict.get("block_device_mappings", []): if device["device_name"] == device_name: mapped_block_device = device break return mapped_block_device def ensure_tags(module, connection, res_id, res_type, tags, purge_tags): if module.check_mode: return {}, True changed = ensure_ec2_tags(connection, module, res_id, res_type, tags, purge_tags, ["InvalidVolume.NotFound"]) final_tags = describe_ec2_tags(connection, module, res_id, res_type) return final_tags, changed def main(): argument_spec = dict( instance=dict(), id=dict(), name=dict(), volume_size=dict(type="int"), volume_type=dict(default="standard", choices=["standard", "gp2", "io1", "st1", "sc1", "gp3", "io2"]), iops=dict(type="int"), encrypted=dict(default=False, type="bool"), kms_key_id=dict(), device_name=dict(), delete_on_termination=dict(default=False, type="bool"), zone=dict(aliases=["availability_zone", "aws_zone", "ec2_zone"]), snapshot=dict(), state=dict(default="present", choices=["absent", "present"]), tags=dict(type="dict", aliases=["resource_tags"]), modify_volume=dict(default=False, type="bool"), throughput=dict(type="int"), outpost_arn=dict(type="str"), purge_tags=dict(type="bool", default=True), multi_attach=dict(type="bool"), ) module = AnsibleAWSModule( argument_spec=argument_spec, required_if=[ ["volume_type", "io1", ["iops"]], ["volume_type", "io2", ["iops"]], ], supports_check_mode=True, ) param_id = module.params.get("id") name = module.params.get("name") instance = module.params.get("instance") volume_size = module.params.get("volume_size") device_name = module.params.get("device_name") zone = module.params.get("zone") snapshot = module.params.get("snapshot") state = module.params.get("state") tags = module.params.get("tags") iops = module.params.get("iops") volume_type = module.params.get("volume_type") throughput = module.params.get("throughput") multi_attach = module.params.get("multi_attach") # Ensure we have the zone or can get the zone if instance is None and zone is None and state == "present": module.fail_json(msg="You must specify either instance or zone") # Set volume detach flag if instance == "None" or instance == "": instance = None detach_vol_flag = True else: detach_vol_flag = False if iops: if volume_type in ("gp2", "st1", "sc1", "standard"): module.fail_json(msg="IOPS is not supported for gp2, st1, sc1, or standard volumes.") if volume_type == "gp3" and (int(iops) < 3000 or int(iops) > 16000): module.fail_json(msg="For a gp3 volume type, IOPS values must be between 3000 and 16000.") if volume_type in ("io1", "io2") and (int(iops) < 100 or int(iops) > 64000): module.fail_json(msg="For io1 and io2 volume types, IOPS values must be between 100 and 64000.") if throughput: if volume_type != "gp3": module.fail_json(msg="Throughput is only supported for gp3 volume.") if throughput < 125 or throughput > 1000: module.fail_json(msg="Throughput values must be between 125 and 1000.") if multi_attach is True and volume_type not in ("io1", "io2"): module.fail_json(msg="multi_attach is only supported for io1 and io2 volumes.") # Set changed flag changed = False ec2_conn = module.client("ec2", AWSRetry.jittered_backoff()) # Here we need to get the zone info for the instance. This covers situation where # instance is specified but zone isn't. # Useful for playbooks chaining instance launch with volume create + attach and where the # zone doesn't matter to the user. inst = None # Delaying the checks until after the instance check allows us to get volume ids for existing volumes # without needing to pass an unused volume_size if not volume_size and not (param_id or name or snapshot): module.fail_json(msg="You must specify volume_size or identify an existing volume by id, name, or snapshot") # Try getting volume volume = get_volume(module, ec2_conn, fail_on_not_found=False) if state == "present": if instance: inst = get_instance(module, ec2_conn, instance_id=instance) zone = inst["placement"]["availability_zone"] # Use platform attribute to guess whether the instance is Windows or Linux if device_name is None: if inst.get("platform", "") == "Windows": device_name = "/dev/xvdf" else: device_name = "/dev/sdf" # Check if there is a volume already mounted there. mapped_device = get_mapped_block_device(instance_dict=inst, device_name=device_name) if mapped_device: other_volume_mapped = False if volume: if volume["volume_id"] != mapped_device["ebs"]["volume_id"]: other_volume_mapped = True else: # No volume found so this is another volume other_volume_mapped = True if other_volume_mapped: module.exit_json( msg=f"Volume mapping for {device_name} already exists on instance {instance}", volume_id=mapped_device["ebs"]["volume_id"], found_volume=volume, device=device_name, changed=False, ) final_tags = None tags_changed = False if volume: volume, changed = update_volume(module, ec2_conn, volume) if name: if not tags: tags = boto3_tag_list_to_ansible_dict(volume.get("tags")) tags["Name"] = name final_tags, tags_changed = ensure_tags( module, ec2_conn, volume["volume_id"], "volume", tags, module.params.get("purge_tags") ) else: volume, changed = create_volume(module, ec2_conn, zone=zone) if detach_vol_flag: volume, attach_changed = detach_volume(module, ec2_conn, volume_dict=volume) elif inst is not None: volume, attach_changed = attach_volume( module, ec2_conn, volume_dict=volume, instance_dict=inst, device_name=device_name ) else: attach_changed = False # Add device, volume_id and volume_type parameters separately to maintain backward compatibility volume_info = get_volume_info(module, volume, tags=final_tags) if tags_changed or attach_changed: changed = True module.exit_json( changed=changed, volume=volume_info, device=device_name, volume_id=volume_info["id"], volume_type=volume_info["type"], ) elif state == "absent": if not name and not param_id: module.fail_json("A volume name or id is required for deletion") if volume and volume.get("state") not in ("deleting", "deleted"): if module.check_mode: module.exit_json(changed=True, msg="Would have deleted volume if not in check mode.") detach_volume(module, ec2_conn, volume_dict=volume) changed = delete_volume(module, ec2_conn, volume_id=volume["volume_id"]) module.exit_json(changed=changed) if __name__ == "__main__": main()