#!/usr/bin/python # -*- coding: utf-8 -*- # # Copyright (c) 2016 Red Hat, Inc. # GNU General Public License v3.0+ (see COPYING or https://www.gnu.org/licenses/gpl-3.0.txt) ANSIBLE_METADATA = {'metadata_version': '1.1', 'status': ['preview'], 'supported_by': 'community'} DOCUMENTATION = ''' --- module: ovirt_disk short_description: "Module to manage Virtual Machine and floating disks in oVirt/RHV" version_added: "2.2" author: "Ondra Machacek (@machacekondra)" description: - "Module to manage Virtual Machine and floating disks in oVirt/RHV." options: id: description: - "ID of the disk to manage. Either C(id) or C(name) is required." name: description: - "Name of the disk to manage. Either C(id) or C(name)/C(alias) is required." aliases: ['alias'] description: description: - "Description of the disk image to manage." version_added: "2.5" vm_name: description: - "Name of the Virtual Machine to manage. Either C(vm_id) or C(vm_name) is required if C(state) is I(attached) or I(detached)." vm_id: description: - "ID of the Virtual Machine to manage. Either C(vm_id) or C(vm_name) is required if C(state) is I(attached) or I(detached)." state: description: - "Should the Virtual Machine disk be present/absent/attached/detached." choices: ['present', 'absent', 'attached', 'detached'] default: 'present' download_image_path: description: - "Path on a file system where disk should be downloaded." - "Note that you must have an valid oVirt/RHV engine CA in your system trust store or you must provide it in C(ca_file) parameter." - "Note that the disk is not downloaded when the file already exists, but you can forcibly download the disk when using C(force) I (true)." version_added: "2.3" upload_image_path: description: - "Path to disk image, which should be uploaded." - "Note that currently we support only compatibility version 0.10 of the qcow disk." - "Note that you must have an valid oVirt/RHV engine CA in your system trust store or you must provide it in C(ca_file) parameter." - "Note that there is no reliable way to achieve idempotency, so if you want to upload the disk even if the disk with C(id) or C(name) exists, then please use C(force) I(true). If you will use C(force) I(false), which is default, then the disk image won't be uploaded." version_added: "2.3" size: description: - "Size of the disk. Size should be specified using IEC standard units. For example 10GiB, 1024MiB, etc." - "Size can be only increased, not decreased." interface: description: - "Driver of the storage interface." - "It's required parameter when creating the new disk." choices: ['virtio', 'ide', 'virtio_scsi'] default: 'virtio' format: description: - Specify format of the disk. - Note that this option isn't idempotent as it's not currently possible to change format of the disk via API. choices: ['raw', 'cow'] sparse: required: False version_added: "2.5" description: - "I(True) if the disk should be sparse (also known as I(thin provision)). If the parameter is omitted, cow disks will be created as sparse and raw disks as I(preallocated)" - Note that this option isn't idempotent as it's not currently possible to change sparseness of the disk via API. storage_domain: description: - "Storage domain name where disk should be created. By default storage is chosen by oVirt/RHV engine." storage_domains: description: - "Storage domain names where disk should be copied." - "C(**IMPORTANT**)" - "There is no reliable way to achieve idempotency, so every time you specify this parameter the disks are copied, so please handle your playbook accordingly to not copy the disks all the time. This is valid only for VM and floating disks, template disks works as expected." version_added: "2.3" force: description: - "Please take a look at C(image_path) documentation to see the correct usage of this parameter." version_added: "2.3" profile: description: - "Disk profile name to be attached to disk. By default profile is chosen by oVirt/RHV engine." quota_id: description: - "Disk quota ID to be used for disk. By default quota is chosen by oVirt/RHV engine." version_added: "2.5" bootable: description: - "I(True) if the disk should be bootable. By default when disk is created it isn't bootable." shareable: description: - "I(True) if the disk should be shareable. By default when disk is created it isn't shareable." logical_unit: description: - "Dictionary which describes LUN to be directly attached to VM:" - "C(address) - Address of the storage server. Used by iSCSI." - "C(port) - Port of the storage server. Used by iSCSI." - "C(target) - iSCSI target." - "C(lun_id) - LUN id." - "C(username) - CHAP Username to be used to access storage server. Used by iSCSI." - "C(password) - CHAP Password of the user to be used to access storage server. Used by iSCSI." - "C(storage_type) - Storage type either I(fcp) or I(iscsi)." sparsify: description: - "I(True) if the disk should be sparsified." - "Sparsification frees space in the disk image that is not used by its filesystem. As a result, the image will occupy less space on the storage." - "Note that this parameter isn't idempotent, as it's not possible to check if the disk should be or should not be sparsified." version_added: "2.4" openstack_volume_type: description: - "Name of the openstack volume type. This is valid when working with cinder." version_added: "2.4" image_provider: description: - "When C(state) is I(exported) disk is exported to given Glance image provider." - "C(**IMPORTANT**)" - "There is no reliable way to achieve idempotency, so every time you specify this parameter the disk is exported, so please handle your playbook accordingly to not export the disk all the time. This option is valid only for template disks." version_added: "2.4" extends_documentation_fragment: ovirt ''' EXAMPLES = ''' # Examples don't contain auth parameter for simplicity, # look at ovirt_auth module to see how to reuse authentication: # Create and attach new disk to VM - ovirt_disk: name: myvm_disk vm_name: rhel7 size: 10GiB format: cow interface: virtio storage_domain: data # Attach logical unit to VM rhel7 - ovirt_disk: vm_name: rhel7 logical_unit: target: iqn.2016-08-09.brq.str-01:omachace id: 1IET_000d0001 address: 10.34.63.204 interface: virtio # Detach disk from VM - ovirt_disk: state: detached name: myvm_disk vm_name: rhel7 size: 10GiB format: cow interface: virtio # Change Disk Name - ovirt_disk: id: 00000000-0000-0000-0000-000000000000 storage_domain: data name: "new disk name" vm_name: rhel7 # Upload local image to disk and attach it to vm: # Since Ansible 2.3 - ovirt_disk: name: mydisk vm_name: myvm interface: virtio size: 10GiB format: cow image_path: /path/to/mydisk.qcow2 storage_domain: data # Download disk to local file system: # Since Ansible 2.3 - ovirt_disk: id: 7de90f31-222c-436c-a1ca-7e655bd5b60c download_image_path: /home/user/mydisk.qcow2 # Export disk as image to Glance domain # Since Ansible 2.4 - ovirt_disks: id: 7de90f31-222c-436c-a1ca-7e655bd5b60c image_provider: myglance state: exported # Defining a specific quota while creating a disk image: # Since Ansible 2.5 - ovirt_quotas_facts: data_center: Default name: myquota - ovirt_disk: name: mydisk size: 10GiB storage_domain: data description: somedescriptionhere quota_id: "{{ ovirt_quotas[0]['id'] }}" ''' RETURN = ''' id: description: "ID of the managed disk" returned: "On success if disk is found." type: str sample: 7de90f31-222c-436c-a1ca-7e655bd5b60c disk: description: "Dictionary of all the disk attributes. Disk attributes can be found on your oVirt/RHV instance at following url: http://ovirt.github.io/ovirt-engine-api-model/master/#types/disk." returned: "On success if disk is found and C(vm_id) or C(vm_name) wasn't passed." type: dict disk_attachment: description: "Dictionary of all the disk attachment attributes. Disk attachment attributes can be found on your oVirt/RHV instance at following url: http://ovirt.github.io/ovirt-engine-api-model/master/#types/disk_attachment." returned: "On success if disk is found and C(vm_id) or C(vm_name) was passed and VM was found." type: dict ''' import os import time import traceback import ssl from ansible.module_utils.six.moves.http_client import HTTPSConnection, IncompleteRead from ansible.module_utils.six.moves.urllib.parse import urlparse try: import ovirtsdk4.types as otypes except ImportError: pass from ansible.module_utils.basic import AnsibleModule from ansible.module_utils.ovirt import ( BaseModule, check_sdk, check_params, create_connection, convert_to_bytes, equal, follow_link, get_id_by_name, ovirt_full_argument_spec, search_by_name, wait, ) def _search_by_lun(disks_service, lun_id): """ Find disk by LUN ID. """ res = [ disk for disk in disks_service.list(search='disk_type=lun') if ( disk.lun_storage.id == lun_id ) ] return res[0] if res else None def transfer(connection, module, direction, transfer_func): transfers_service = connection.system_service().image_transfers_service() transfer = transfers_service.add( otypes.ImageTransfer( image=otypes.Image( id=module.params['id'], ), direction=direction, ) ) transfer_service = transfers_service.image_transfer_service(transfer.id) try: # After adding a new transfer for the disk, the transfer's status will be INITIALIZING. # Wait until the init phase is over. The actual transfer can start when its status is "Transferring". while transfer.phase == otypes.ImageTransferPhase.INITIALIZING: time.sleep(module.params['poll_interval']) transfer = transfer_service.get() proxy_url = urlparse(transfer.proxy_url) context = ssl.create_default_context() auth = module.params['auth'] if auth.get('insecure'): context.check_hostname = False context.verify_mode = ssl.CERT_NONE elif auth.get('ca_file'): context.load_verify_locations(cafile=auth.get('ca_file')) proxy_connection = HTTPSConnection( proxy_url.hostname, proxy_url.port, context=context, ) transfer_func( transfer_service, proxy_connection, proxy_url, transfer.signed_ticket ) return True finally: transfer_service.finalize() while transfer.phase in [ otypes.ImageTransferPhase.TRANSFERRING, otypes.ImageTransferPhase.FINALIZING_SUCCESS, ]: time.sleep(module.params['poll_interval']) transfer = transfer_service.get() if transfer.phase in [ otypes.ImageTransferPhase.UNKNOWN, otypes.ImageTransferPhase.FINISHED_FAILURE, otypes.ImageTransferPhase.FINALIZING_FAILURE, otypes.ImageTransferPhase.CANCELLED, ]: raise Exception( "Error occurred while uploading image. The transfer is in %s" % transfer.phase ) if module.params.get('logical_unit'): disks_service = connection.system_service().disks_service() wait( service=disks_service.service(module.params['id']), condition=lambda d: d.status == otypes.DiskStatus.OK, wait=module.params['wait'], timeout=module.params['timeout'], ) def download_disk_image(connection, module): def _transfer(transfer_service, proxy_connection, proxy_url, transfer_ticket): disks_service = connection.system_service().disks_service() disk = disks_service.disk_service(module.params['id']).get() size = disk.actual_size transfer_headers = { 'Authorization': transfer_ticket, } with open(module.params['download_image_path'], "wb") as mydisk: pos = 0 MiB_per_request = 8 chunk_size = 1024 * 1024 * MiB_per_request while pos < size: transfer_service.extend() transfer_headers['Range'] = 'bytes=%d-%d' % (pos, min(size, pos + chunk_size) - 1) proxy_connection.request( 'GET', proxy_url.path, headers=transfer_headers, ) r = proxy_connection.getresponse() if r.status >= 300: raise Exception("Error: %s" % r.read()) try: mydisk.write(r.read()) except IncompleteRead as e: mydisk.write(e.partial) break pos += chunk_size return transfer( connection, module, otypes.ImageTransferDirection.DOWNLOAD, transfer_func=_transfer, ) def upload_disk_image(connection, module): def _transfer(transfer_service, proxy_connection, proxy_url, transfer_ticket): path = module.params['upload_image_path'] transfer_headers = { 'Authorization': transfer_ticket, } with open(path, "rb") as disk: pos = 0 MiB_per_request = 8 size = os.path.getsize(path) chunk_size = 1024 * 1024 * MiB_per_request while pos < size: transfer_service.extend() transfer_headers['Content-Range'] = "bytes %d-%d/%d" % (pos, min(pos + chunk_size, size) - 1, size) proxy_connection.request( 'PUT', proxy_url.path, disk.read(chunk_size), headers=transfer_headers, ) r = proxy_connection.getresponse() if r.status >= 400: raise Exception("Failed to upload disk image.") pos += chunk_size return transfer( connection, module, otypes.ImageTransferDirection.UPLOAD, transfer_func=_transfer, ) class DisksModule(BaseModule): def build_entity(self): logical_unit = self._module.params.get('logical_unit') disk = otypes.Disk( id=self._module.params.get('id'), name=self._module.params.get('name'), description=self._module.params.get('description'), format=otypes.DiskFormat( self._module.params.get('format') ) if self._module.params.get('format') else None, sparse=self._module.params.get( 'sparse' ) if self._module.params.get( 'sparse' ) is not None else self._module.params.get('format') != 'raw', openstack_volume_type=otypes.OpenStackVolumeType( name=self.param('openstack_volume_type') ) if self.param('openstack_volume_type') else None, provisioned_size=convert_to_bytes( self._module.params.get('size') ), storage_domains=[ otypes.StorageDomain( name=self._module.params.get('storage_domain'), ), ], quota=otypes.Quota(id=self._module.params.get('quota_id')) if self.param('quota_id') else None, shareable=self._module.params.get('shareable'), lun_storage=otypes.HostStorage( type=otypes.StorageType( logical_unit.get('storage_type', 'iscsi') ), logical_units=[ otypes.LogicalUnit( address=logical_unit.get('address'), port=logical_unit.get('port', 3260), target=logical_unit.get('target'), id=logical_unit.get('id'), username=logical_unit.get('username'), password=logical_unit.get('password'), ) ], ) if logical_unit else None, ) if hasattr(disk, 'initial_size'): disk.initial_size = convert_to_bytes( self._module.params.get('size') ) return disk def update_storage_domains(self, disk_id): changed = False disk_service = self._service.service(disk_id) disk = disk_service.get() sds_service = self._connection.system_service().storage_domains_service() # We don't support move© for non file based storages: if disk.storage_type != otypes.DiskStorageType.IMAGE: return changed # Initiate move: if self._module.params['storage_domain']: new_disk_storage_id = get_id_by_name(sds_service, self._module.params['storage_domain']) changed = self.action( action='move', entity=disk, action_condition=lambda d: new_disk_storage_id != d.storage_domains[0].id, wait_condition=lambda d: d.status == otypes.DiskStatus.OK, storage_domain=otypes.StorageDomain( id=new_disk_storage_id, ), post_action=lambda _: time.sleep(self._module.params['poll_interval']), )['changed'] if self._module.params['storage_domains']: for sd in self._module.params['storage_domains']: new_disk_storage = search_by_name(sds_service, sd) changed = changed or self.action( action='copy', entity=disk, action_condition=( lambda disk: new_disk_storage.id not in [sd.id for sd in disk.storage_domains] ), wait_condition=lambda disk: disk.status == otypes.DiskStatus.OK, storage_domain=otypes.StorageDomain( id=new_disk_storage.id, ), )['changed'] return changed def _update_check(self, entity): return ( equal(self._module.params.get('name'), entity.name) and equal(self._module.params.get('description'), entity.description) and equal(self.param('quota_id'), getattr(entity.quota, 'id', None)) and equal(convert_to_bytes(self._module.params.get('size')), entity.provisioned_size) and equal(self._module.params.get('shareable'), entity.shareable) ) class DiskAttachmentsModule(DisksModule): def build_entity(self): return otypes.DiskAttachment( disk=super(DiskAttachmentsModule, self).build_entity(), interface=otypes.DiskInterface( self._module.params.get('interface') ) if self._module.params.get('interface') else None, bootable=self._module.params.get('bootable'), active=True, ) def update_check(self, entity): return ( super(DiskAttachmentsModule, self)._update_check(follow_link(self._connection, entity.disk)) and equal(self._module.params.get('interface'), str(entity.interface)) and equal(self._module.params.get('bootable'), entity.bootable) ) def searchable_attributes(module): """ Return all searchable disk attributes passed to module. """ attributes = { 'name': module.params.get('name'), 'Storage.name': module.params.get('storage_domain'), 'vm_names': module.params.get('vm_name'), } return dict((k, v) for k, v in attributes.items() if v is not None) def main(): argument_spec = ovirt_full_argument_spec( state=dict( choices=['present', 'absent', 'attached', 'detached', 'exported'], default='present' ), id=dict(default=None), name=dict(default=None, aliases=['alias']), description=dict(default=None), vm_name=dict(default=None), vm_id=dict(default=None), size=dict(default=None), interface=dict(default=None,), storage_domain=dict(default=None), storage_domains=dict(default=None, type='list'), profile=dict(default=None), quota_id=dict(default=None), format=dict(default='cow', choices=['raw', 'cow']), sparse=dict(default=None, type='bool'), bootable=dict(default=None, type='bool'), shareable=dict(default=None, type='bool'), logical_unit=dict(default=None, type='dict'), download_image_path=dict(default=None), upload_image_path=dict(default=None, aliases=['image_path']), force=dict(default=False, type='bool'), sparsify=dict(default=None, type='bool'), openstack_volume_type=dict(default=None), image_provider=dict(default=None), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, ) if module._name == 'ovirt_disks': module.deprecate("The 'ovirt_disks' module is being renamed 'ovirt_disk'", version=2.8) check_sdk(module) check_params(module) try: disk = None state = module.params['state'] auth = module.params.get('auth') connection = create_connection(auth) disks_service = connection.system_service().disks_service() disks_module = DisksModule( connection=connection, module=module, service=disks_service, ) lun = module.params.get('logical_unit') if lun: disk = _search_by_lun(disks_service, lun.get('id')) ret = None # First take care of creating the VM, if needed: if state in ('present', 'detached', 'attached'): ret = disks_module.create( entity=disk, search_params=searchable_attributes(module), result_state=otypes.DiskStatus.OK if lun is None else None, fail_condition=lambda d: d.status == otypes.DiskStatus.ILLEGAL if lun is None else False, ) is_new_disk = ret['changed'] ret['changed'] = ret['changed'] or disks_module.update_storage_domains(ret['id']) # We need to pass ID to the module, so in case we want detach/attach disk # we have this ID specified to attach/detach method: module.params['id'] = ret['id'] if disk is None else disk.id # Upload disk image in case it's new disk or force parameter is passed: if module.params['upload_image_path'] and (is_new_disk or module.params['force']): uploaded = upload_disk_image(connection, module) ret['changed'] = ret['changed'] or uploaded # Download disk image in case it's file don't exist or force parameter is passed: if ( module.params['download_image_path'] and (not os.path.isfile(module.params['download_image_path']) or module.params['force']) ): downloaded = download_disk_image(connection, module) ret['changed'] = ret['changed'] or downloaded # Disk sparsify, only if disk is of image type: disk = disks_service.disk_service(module.params['id']).get() if disk.storage_type == otypes.DiskStorageType.IMAGE: ret = disks_module.action( action='sparsify', action_condition=lambda d: module.params['sparsify'], wait_condition=lambda d: d.status == otypes.DiskStatus.OK, ) # Export disk as image to glance domain elif state == 'exported': disk = disks_module.search_entity() if disk is None: module.fail_json( msg="Can not export given disk '%s', it doesn't exist" % module.params.get('name') or module.params.get('id') ) if disk.storage_type == otypes.DiskStorageType.IMAGE: ret = disks_module.action( action='export', action_condition=lambda d: module.params['image_provider'], wait_condition=lambda d: d.status == otypes.DiskStatus.OK, storage_domain=otypes.StorageDomain(name=module.params['image_provider']), ) elif state == 'absent': ret = disks_module.remove() # If VM was passed attach/detach disks to/from the VM: if module.params.get('vm_id') is not None or module.params.get('vm_name') is not None and state != 'absent': vms_service = connection.system_service().vms_service() # If `vm_id` isn't specified, find VM by name: vm_id = module.params['vm_id'] if vm_id is None: vm_id = getattr(search_by_name(vms_service, module.params['vm_name']), 'id', None) if vm_id is None: module.fail_json( msg="VM don't exists, please create it first." ) disk_attachments_service = vms_service.vm_service(vm_id).disk_attachments_service() disk_attachments_module = DiskAttachmentsModule( connection=connection, module=module, service=disk_attachments_service, changed=ret['changed'] if ret else False, ) if state == 'present' or state == 'attached': ret = disk_attachments_module.create() if lun is None: wait( service=disk_attachments_service.service(ret['id']), condition=lambda d: follow_link(connection, d.disk).status == otypes.DiskStatus.OK, wait=module.params['wait'], timeout=module.params['timeout'], ) elif state == 'detached': ret = disk_attachments_module.remove() module.exit_json(**ret) except Exception as e: module.fail_json(msg=str(e), exception=traceback.format_exc()) finally: connection.close(logout=auth.get('token') is None) if __name__ == "__main__": main()