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""" Gandi driver for compute """ from datetime import datetime from libcloud.common.gandi import BaseGandiDriver, GandiException,\ NetworkInterface, IPAddress, Disk from libcloud.compute.base import KeyPair from libcloud.compute.base import StorageVolume from libcloud.compute.types import NodeState, Provider from libcloud.compute.base import Node, NodeDriver from libcloud.compute.base import NodeSize, NodeImage, NodeLocation NODE_STATE_MAP = { 'running': NodeState.RUNNING, 'halted': NodeState.TERMINATED, 'paused': NodeState.TERMINATED, 'locked': NodeState.TERMINATED, 'being_created': NodeState.PENDING, 'invalid': NodeState.UNKNOWN, 'legally_locked': NodeState.PENDING, 'deleted': NodeState.TERMINATED } NODE_PRICE_HOURLY_USD = 0.02 INSTANCE_TYPES = { 'small': { 'id': 'small', 'name': 'Small instance', 'cpu': 1, 'memory': 256, 'disk': 3, 'bandwidth': 10240, }, 'medium': { 'id': 'medium', 'name': 'Medium instance', 'cpu': 1, 'memory': 1024, 'disk': 20, 'bandwidth': 10240, }, 'large': { 'id': 'large', 'name': 'Large instance', 'cpu': 2, 'memory': 2048, 'disk': 50, 'bandwidth': 10240, }, 'x-large': { 'id': 'x-large', 'name': 'Extra Large instance', 'cpu': 4, 'memory': 4096, 'disk': 100, 'bandwidth': 10240, }, } class GandiNodeDriver(BaseGandiDriver, NodeDriver): """ Gandi node driver """ api_name = 'gandi' friendly_name = 'Gandi.net' website = 'http://www.gandi.net/' country = 'FR' type = Provider.GANDI # TODO : which features to enable ? features = {} def __init__(self, *args, **kwargs): """ @inherits: :class:`NodeDriver.__init__` """ super(GandiNodeDriver, self).__init__(*args, **kwargs) def _resource_info(self, type, id): try: obj = self.connection.request('hosting.%s.info' % type, int(id)) return obj.object except Exception as e: raise GandiException(1003, e) def _node_info(self, id): return self._resource_info('vm', id) def _volume_info(self, id): return self._resource_info('disk', id) # Generic methods for driver def _to_node(self, vm): return Node( id=vm['id'], name=vm['hostname'], state=NODE_STATE_MAP.get( vm['state'], NodeState.UNKNOWN ), public_ips=vm.get('ips', []), private_ips=[], driver=self, extra={ 'ai_active': vm.get('ai_active'), 'datacenter_id': vm.get('datacenter_id'), 'description': vm.get('description') } ) def _to_nodes(self, vms): return [self._to_node(v) for v in vms] def _to_volume(self, disk): extra = {'can_snapshot': disk['can_snapshot']} return StorageVolume( id=disk['id'], name=disk['name'], size=int(disk['size']), driver=self, extra=extra) def _to_volumes(self, disks): return [self._to_volume(d) for d in disks] def list_nodes(self): """ Return a list of nodes in the current zone or all zones. :return: List of Node objects :rtype: ``list`` of :class:`Node` """ vms = self.connection.request('hosting.vm.list').object ips = self.connection.request('hosting.ip.list').object for vm in vms: vm['ips'] = [] for ip in ips: if vm['ifaces_id'][0] == ip['iface_id']: ip = ip.get('ip', None) if ip: vm['ips'].append(ip) nodes = self._to_nodes(vms) return nodes def ex_get_node(self, node_id): """ Return a Node object based on a node id. :param name: The ID of the node :type name: ``int`` :return: A Node object for the node :rtype: :class:`Node` """ vm = self.connection.request('hosting.vm.info', int(node_id)).object ips = self.connection.request('hosting.ip.list').object vm['ips'] = [] for ip in ips: if vm['ifaces_id'][0] == ip['iface_id']: ip = ip.get('ip', None) if ip: vm['ips'].append(ip) node = self._to_node(vm) return node def reboot_node(self, node): """ Reboot a node. :param node: Node to be rebooted :type node: :class:`Node` :return: True if successful, False if not :rtype: ``bool`` """ op = self.connection.request('hosting.vm.reboot', int(node.id)) self._wait_operation(op.object['id']) vm = self._node_info(int(node.id)) if vm['state'] == 'running': return True return False def destroy_node(self, node): """ Destroy a node. :param node: Node object to destroy :type node: :class:`Node` :return: True if successful :rtype: ``bool`` """ vm = self._node_info(node.id) if vm['state'] == 'running': # Send vm_stop and wait for accomplish op_stop = self.connection.request('hosting.vm.stop', int(node.id)) if not self._wait_operation(op_stop.object['id']): raise GandiException(1010, 'vm.stop failed') # Delete op = self.connection.request('hosting.vm.delete', int(node.id)) if self._wait_operation(op.object['id']): return True return False def deploy_node(self, **kwargs): """ deploy_node is not implemented for gandi driver :rtype: ``bool`` """ raise NotImplementedError( 'deploy_node not implemented for gandi driver') def create_node(self, name, size, image, location=None, login=None, password=None, inet_family=4, keypairs=None): """ Create a new Gandi node :keyword name: String with a name for this new node (required) :type name: ``str`` :keyword image: OS Image to boot on node. (required) :type image: :class:`NodeImage` :keyword location: Which data center to create a node in. If empty, undefined behavior will be selected. (optional) :type location: :class:`NodeLocation` :keyword size: The size of resources allocated to this node. (required) :type size: :class:`NodeSize` :keyword login: user name to create for login on machine (required) :type login: ``str`` :keyword password: password for user that'll be created (required) :type password: ``str`` :keyword inet_family: version of ip to use, default 4 (optional) :type inet_family: ``int`` :keyword keypairs: IDs of keypairs or Keypairs object :type keypairs: list of ``int`` or :class:`.KeyPair` :rtype: :class:`Node` """ keypairs = keypairs or [] if not login and not keypairs: raise GandiException(1020, "Login and password or ssh keypair " "must be defined for node creation") if location and isinstance(location, NodeLocation): dc_id = int(location.id) else: raise GandiException( 1021, 'location must be a subclass of NodeLocation') if not size and not isinstance(size, NodeSize): raise GandiException( 1022, 'size must be a subclass of NodeSize') keypair_ids = [ k if isinstance(k, int) else k.extra['id'] for k in keypairs ] # If size name is in INSTANCE_TYPE we use new rating model instance = INSTANCE_TYPES.get(size.id) cores = instance['cpu'] if instance else int(size.id) src_disk_id = int(image.id) disk_spec = { 'datacenter_id': dc_id, 'name': 'disk_%s' % name } vm_spec = { 'datacenter_id': dc_id, 'hostname': name, 'memory': int(size.ram), 'cores': cores, 'bandwidth': int(size.bandwidth), 'ip_version': inet_family, } if login and password: vm_spec.update({ 'login': login, 'password': password, # TODO : use NodeAuthPassword }) if keypair_ids: vm_spec['keys'] = keypair_ids # Call create_from helper api. Return 3 operations : disk_create, # iface_create,vm_create (op_disk, op_iface, op_vm) = self.connection.request( 'hosting.vm.create_from', vm_spec, disk_spec, src_disk_id ).object # We wait for vm_create to finish if self._wait_operation(op_vm['id']): # after successful operation, get ip information # thru first interface node = self._node_info(op_vm['vm_id']) ifaces = node.get('ifaces') if len(ifaces) > 0: ips = ifaces[0].get('ips') if len(ips) > 0: node['ip'] = ips[0]['ip'] return self._to_node(node) return None def _to_image(self, img): return NodeImage( id=img['disk_id'], name=img['label'], driver=self.connection.driver ) def list_images(self, location=None): """ Return a list of image objects. :keyword location: Which data center to filter a images in. :type location: :class:`NodeLocation` :return: List of GCENodeImage objects :rtype: ``list`` of :class:`GCENodeImage` """ try: if location: filtering = {'datacenter_id': int(location.id)} else: filtering = {} images = self.connection.request('hosting.image.list', filtering) return [self._to_image(i) for i in images.object] except Exception as e: raise GandiException(1011, e) def _to_size(self, id, size): return NodeSize( id=id, name='%s cores' % id, ram=size['memory'], disk=size['disk'], bandwidth=size['bandwidth'], price=(self._get_size_price(size_id='1') * id), driver=self.connection.driver, ) def _instance_type_to_size(self, instance): return NodeSize( id=instance['id'], name=instance['name'], ram=instance['memory'], disk=instance['disk'], bandwidth=instance['bandwidth'], price=self._get_size_price(size_id=instance['id']), driver=self.connection.driver, ) def list_instance_type(self, location=None): return [self._instance_type_to_size(instance) for name, instance in INSTANCE_TYPES.items()] def list_sizes(self, location=None): """ Return a list of sizes (machineTypes) in a zone. :keyword location: Which data center to filter a sizes in. :type location: :class:`NodeLocation` or ``None`` :return: List of NodeSize objects :rtype: ``list`` of :class:`NodeSize` """ account = self.connection.request('hosting.account.info').object if account.get('rating_enabled'): # This account use new rating model return self.list_instance_type(location) # Look for available shares, and return a list of share_definition available_res = account['resources']['available'] if available_res['shares'] == 0: return None else: share_def = account['share_definition'] available_cores = available_res['cores'] # 0.75 core given when creating a server max_core = int(available_cores + 0.75) shares = [] if available_res['servers'] < 1: # No server quota, no way return shares for i in range(1, max_core + 1): share = {id: i} share_is_available = True for k in ['memory', 'disk', 'bandwidth']: if share_def[k] * i > available_res[k]: # We run out for at least one resource inside share_is_available = False else: share[k] = share_def[k] * i if share_is_available: nb_core = i shares.append(self._to_size(nb_core, share)) return shares def _to_loc(self, loc): return NodeLocation( id=loc['id'], name=loc['dc_code'], country=loc['country'], driver=self ) def list_locations(self): """ Return a list of locations (datacenters). :return: List of NodeLocation objects :rtype: ``list`` of :class:`NodeLocation` """ res = self.connection.request('hosting.datacenter.list') return [self._to_loc(loc) for loc in res.object] def list_volumes(self): """ Return a list of volumes. :return: A list of volume objects. :rtype: ``list`` of :class:`StorageVolume` """ res = self.connection.request('hosting.disk.list', {}) return self._to_volumes(res.object) def ex_get_volume(self, volume_id): """ Return a Volume object based on a volume ID. :param volume_id: The ID of the volume :type volume_id: ``int`` :return: A StorageVolume object for the volume :rtype: :class:`StorageVolume` """ res = self.connection.request('hosting.disk.info', volume_id) return self._to_volume(res.object) def create_volume(self, size, name, location=None, snapshot=None): """ Create a volume (disk). :param size: Size of volume to create (in GB). :type size: ``int`` :param name: Name of volume to create :type name: ``str`` :keyword location: Location (zone) to create the volume in :type location: :class:`NodeLocation` or ``None`` :keyword snapshot: Snapshot to create image from :type snapshot: :class:`Snapshot` :return: Storage Volume object :rtype: :class:`StorageVolume` """ disk_param = { 'name': name, 'size': int(size), 'datacenter_id': int(location.id) } if snapshot: op = self.connection.request('hosting.disk.create_from', disk_param, int(snapshot.id)) else: op = self.connection.request('hosting.disk.create', disk_param) if self._wait_operation(op.object['id']): disk = self._volume_info(op.object['disk_id']) return self._to_volume(disk) return None def attach_volume(self, node, volume, device=None): """ Attach a volume to a node. :param node: The node to attach the volume to :type node: :class:`Node` :param volume: The volume to attach. :type volume: :class:`StorageVolume` :keyword device: Not used in this cloud. :type device: ``None`` :return: True if successful :rtype: ``bool`` """ op = self.connection.request('hosting.vm.disk_attach', int(node.id), int(volume.id)) if self._wait_operation(op.object['id']): return True return False def detach_volume(self, node, volume): """ Detaches a volume from a node. :param node: Node which should be used :type node: :class:`Node` :param volume: Volume to be detached :type volume: :class:`StorageVolume` :rtype: ``bool`` """ op = self.connection.request('hosting.vm.disk_detach', int(node.id), int(volume.id)) if self._wait_operation(op.object['id']): return True return False def destroy_volume(self, volume): """ Destroy a volume. :param volume: Volume object to destroy :type volume: :class:`StorageVolume` :return: True if successful :rtype: ``bool`` """ op = self.connection.request('hosting.disk.delete', int(volume.id)) if self._wait_operation(op.object['id']): return True return False def _to_iface(self, iface): ips = [] for ip in iface.get('ips', []): new_ip = IPAddress( ip['id'], NODE_STATE_MAP.get( ip['state'], NodeState.UNKNOWN ), ip['ip'], self.connection.driver, version=ip.get('version'), extra={'reverse': ip['reverse']} ) ips.append(new_ip) return NetworkInterface( iface['id'], NODE_STATE_MAP.get( iface['state'], NodeState.UNKNOWN ), mac_address=None, driver=self.connection.driver, ips=ips, node_id=iface.get('vm_id'), extra={'bandwidth': iface['bandwidth']}, ) def _to_ifaces(self, ifaces): return [self._to_iface(i) for i in ifaces] def ex_list_interfaces(self): """ Specific method to list network interfaces :rtype: ``list`` of :class:`GandiNetworkInterface` """ ifaces = self.connection.request('hosting.iface.list').object ips = self.connection.request('hosting.ip.list').object for iface in ifaces: iface['ips'] = list( filter(lambda i: i['iface_id'] == iface['id'], ips)) return self._to_ifaces(ifaces) def _to_disk(self, element): disk = Disk( id=element['id'], state=NODE_STATE_MAP.get( element['state'], NodeState.UNKNOWN ), name=element['name'], driver=self.connection.driver, size=element['size'], extra={'can_snapshot': element['can_snapshot']} ) return disk def _to_disks(self, elements): return [self._to_disk(el) for el in elements] def ex_list_disks(self): """ Specific method to list all disk :rtype: ``list`` of :class:`GandiDisk` """ res = self.connection.request('hosting.disk.list', {}) return self._to_disks(res.object) def ex_node_attach_disk(self, node, disk): """ Specific method to attach a disk to a node :param node: Node which should be used :type node: :class:`Node` :param disk: Disk which should be used :type disk: :class:`GandiDisk` :rtype: ``bool`` """ op = self.connection.request('hosting.vm.disk_attach', int(node.id), int(disk.id)) if self._wait_operation(op.object['id']): return True return False def ex_node_detach_disk(self, node, disk): """ Specific method to detach a disk from a node :param node: Node which should be used :type node: :class:`Node` :param disk: Disk which should be used :type disk: :class:`GandiDisk` :rtype: ``bool`` """ op = self.connection.request('hosting.vm.disk_detach', int(node.id), int(disk.id)) if self._wait_operation(op.object['id']): return True return False def ex_node_attach_interface(self, node, iface): """ Specific method to attach an interface to a node :param node: Node which should be used :type node: :class:`Node` :param iface: Network interface which should be used :type iface: :class:`GandiNetworkInterface` :rtype: ``bool`` """ op = self.connection.request('hosting.vm.iface_attach', int(node.id), int(iface.id)) if self._wait_operation(op.object['id']): return True return False def ex_node_detach_interface(self, node, iface): """ Specific method to detach an interface from a node :param node: Node which should be used :type node: :class:`Node` :param iface: Network interface which should be used :type iface: :class:`GandiNetworkInterface` :rtype: ``bool`` """ op = self.connection.request('hosting.vm.iface_detach', int(node.id), int(iface.id)) if self._wait_operation(op.object['id']): return True return False def ex_snapshot_disk(self, disk, name=None): """ Specific method to make a snapshot of a disk :param disk: Disk which should be used :type disk: :class:`GandiDisk` :param name: Name which should be used :type name: ``str`` :rtype: ``bool`` """ if not disk.extra.get('can_snapshot'): raise GandiException(1021, 'Disk %s can\'t snapshot' % disk.id) if not name: suffix = datetime.today().strftime('%Y%m%d') name = 'snap_%s' % (suffix) op = self.connection.request( 'hosting.disk.create_from', {'name': name, 'type': 'snapshot', }, int(disk.id), ) if self._wait_operation(op.object['id']): return True return False def ex_update_disk(self, disk, new_size=None, new_name=None): """Specific method to update size or name of a disk WARNING: if a server is attached it'll be rebooted :param disk: Disk which should be used :type disk: :class:`GandiDisk` :param new_size: New size :type new_size: ``int`` :param new_name: New name :type new_name: ``str`` :rtype: ``bool`` """ params = {} if new_size: params.update({'size': new_size}) if new_name: params.update({'name': new_name}) op = self.connection.request('hosting.disk.update', int(disk.id), params) if self._wait_operation(op.object['id']): return True return False def _to_key_pair(self, data): key_pair = KeyPair(name=data['name'], fingerprint=data['fingerprint'], public_key=data.get('value', None), private_key=data.get('privatekey', None), driver=self, extra={'id': data['id']}) return key_pair def _to_key_pairs(self, data): return [self._to_key_pair(k) for k in data] def list_key_pairs(self): """ List registered key pairs. :return: A list of key par objects. :rtype: ``list`` of :class:`libcloud.compute.base.KeyPair` """ kps = self.connection.request('hosting.ssh.list').object return self._to_key_pairs(kps) def get_key_pair(self, name): """ Retrieve a single key pair. :param name: Name of the key pair to retrieve. :type name: ``str`` :rtype: :class:`.KeyPair` """ filter_params = {'name': name} kps = self.connection.request('hosting.ssh.list', filter_params).object return self._to_key_pair(kps[0]) def import_key_pair_from_string(self, name, key_material): """ Create a new key pair object. :param name: Key pair name. :type name: ``str`` :param key_material: Public key material. :type key_material: ``str`` :return: Imported key pair object. :rtype: :class:`.KeyPair` """ params = {'name': name, 'value': key_material} kp = self.connection.request('hosting.ssh.create', params).object return self._to_key_pair(kp) def delete_key_pair(self, key_pair): """ Delete an existing key pair. :param key_pair: Key pair object or ID. :type key_pair: :class.KeyPair` or ``int`` :return: True of False based on success of Keypair deletion :rtype: ``bool`` """ key_id = key_pair if isinstance(key_pair, int) \ else key_pair.extra['id'] success = self.connection.request('hosting.ssh.delete', key_id).object return success