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""" Provides base classes for working with drivers """ from __future__ import with_statement from typing import Dict from typing import List from typing import Tuple from typing import Type from typing import Optional from typing import Any from typing import Union from typing import Callable from typing import TYPE_CHECKING import time import hashlib import os import re import socket import random import binascii import datetime import traceback import atexit from libcloud.utils.py3 import b import libcloud.compute.ssh from libcloud.pricing import get_size_price from libcloud.compute.types import NodeState, StorageVolumeState,\ DeploymentError if TYPE_CHECKING: from libcloud.compute.deployment import Deployment from libcloud.compute.types import Provider from libcloud.compute.types import NodeImageMemberState from libcloud.compute.ssh import SSHClient from libcloud.compute.ssh import BaseSSHClient from libcloud.common.base import Connection from libcloud.common.base import ConnectionKey from libcloud.common.base import BaseDriver from libcloud.common.types import LibcloudError from libcloud.compute.ssh import have_paramiko from libcloud.compute.ssh import SSHCommandTimeoutError from libcloud.utils.networking import is_private_subnet from libcloud.utils.networking import is_valid_ip_address if have_paramiko: from paramiko.ssh_exception import SSHException from paramiko.ssh_exception import AuthenticationException SSH_TIMEOUT_EXCEPTION_CLASSES = (AuthenticationException, SSHException, IOError, socket.gaierror, socket.error) else: SSH_TIMEOUT_EXCEPTION_CLASSES = (IOError, socket.gaierror, # type: ignore socket.error) # type: ignore T_Auth = Union['NodeAuthSSHKey', 'NodeAuthPassword'] T_Ssh_key = Union[List[str], str] # How long to wait for the node to come online after creating it NODE_ONLINE_WAIT_TIMEOUT = 10 * 60 # How long to try connecting to a remote SSH server when running a deployment # script. SSH_CONNECT_TIMEOUT = 5 * 60 # Error message which should be considered fatal for deploy_node() method and # on which we should abort retrying and immediately propagate the error SSH_FATAL_ERROR_MSGS = [ # Propagate (key) file doesn't exist errors # NOTE: Paramiko only supports PEM private key format # See https://github.com/paramiko/paramiko/issues/1313 # for details 'no such file or directory', 'invalid key', 'not a valid ', 'invalid or unsupported key type', 'private file is encrypted', 'private key file is encrypted', 'private key file checkints do not match', 'invalid password provided' ] __all__ = [ 'Node', 'NodeState', 'NodeSize', 'NodeImage', 'NodeImageMember', 'NodeLocation', 'NodeAuthSSHKey', 'NodeAuthPassword', 'NodeDriver', 'StorageVolume', 'StorageVolumeState', 'VolumeSnapshot', # Deprecated, moved to libcloud.utils.networking 'is_private_subnet', 'is_valid_ip_address' ] class UuidMixin(object): """ Mixin class for get_uuid function. """ def __init__(self): self._uuid = None # type: str def get_uuid(self): """ Unique hash for a node, node image, or node size The hash is a function of an SHA1 hash of the node, node image, or node size's ID and its driver which means that it should be unique between all objects of its type. In some subclasses (e.g. GoGridNode) there is no ID available so the public IP address is used. This means that, unlike a properly done system UUID, the same UUID may mean a different system install at a different time >>> from libcloud.compute.drivers.dummy import DummyNodeDriver >>> driver = DummyNodeDriver(0) >>> node = driver.create_node() >>> node.get_uuid() 'd3748461511d8b9b0e0bfa0d4d3383a619a2bb9f' Note, for example, that this example will always produce the same UUID! :rtype: ``str`` """ if not self._uuid: self._uuid = hashlib.sha1(b('%s:%s' % (self.id, self.driver.type))).hexdigest() return self._uuid @property def uuid(self): # type: () -> str return self.get_uuid() class Node(UuidMixin): """ Provide a common interface for handling nodes of all types. The Node object provides the interface in libcloud through which we can manipulate nodes in different cloud providers in the same way. Node objects don't actually do much directly themselves, instead the node driver handles the connection to the node. You don't normally create a node object yourself; instead you use a driver and then have that create the node for you. >>> from libcloud.compute.drivers.dummy import DummyNodeDriver >>> driver = DummyNodeDriver(0) >>> node = driver.create_node() >>> node.public_ips[0] '127.0.0.3' >>> node.name 'dummy-3' You can also get nodes from the driver's list_node function. >>> node = driver.list_nodes()[0] >>> node.name 'dummy-1' The node keeps a reference to its own driver which means that we can work on nodes from different providers without having to know which is which. >>> driver = DummyNodeDriver(72) >>> node2 = driver.create_node() >>> node.driver.creds 0 >>> node2.driver.creds 72 Although Node objects can be subclassed, this isn't normally done. Instead, any driver specific information is stored in the "extra" attribute of the node. >>> node.extra {'foo': 'bar'} """ def __init__(self, id, # type: str name, # type: str state, # type: NodeState public_ips, # type: List[str] private_ips, # type: List[str] driver, size=None, # type: NodeSize image=None, # type: NodeImage extra=None, # type: dict created_at=None # type: datetime.datetime ): """ :param id: Node ID. :type id: ``str`` :param name: Node name. :type name: ``str`` :param state: Node state. :type state: :class:`libcloud.compute.types.NodeState` :param public_ips: Public IP addresses associated with this node. :type public_ips: ``list`` :param private_ips: Private IP addresses associated with this node. :type private_ips: ``list`` :param driver: Driver this node belongs to. :type driver: :class:`.NodeDriver` :param size: Size of this node. (optional) :type size: :class:`.NodeSize` :param image: Image of this node. (optional) :type image: :class:`.NodeImage` :param created_at: The datetime this node was created (optional) :type created_at: :class: `datetime.datetime` :param extra: Optional provider specific attributes associated with this node. :type extra: ``dict`` """ self.id = str(id) if id else None self.name = name self.state = state self.public_ips = public_ips if public_ips else [] self.private_ips = private_ips if private_ips else [] self.driver = driver self.size = size self.created_at = created_at self.image = image self.extra = extra or {} UuidMixin.__init__(self) def reboot(self): # type: () -> bool """ Reboot this node :return: ``bool`` This calls the node's driver and reboots the node >>> from libcloud.compute.drivers.dummy import DummyNodeDriver >>> driver = DummyNodeDriver(0) >>> node = driver.create_node() >>> node.state == NodeState.RUNNING True >>> node.state == NodeState.REBOOTING False >>> node.reboot() True >>> node.state == NodeState.REBOOTING True """ return self.driver.reboot_node(self) def start(self): # type: () -> bool """ Start this node. :return: ``bool`` """ return self.driver.start_node(self) def stop_node(self): # type: () -> bool """ Stop (shutdown) this node. :return: ``bool`` """ return self.driver.stop_node(self) def destroy(self): # type: () -> bool """ Destroy this node :return: ``bool`` This calls the node's driver and destroys the node >>> from libcloud.compute.drivers.dummy import DummyNodeDriver >>> driver = DummyNodeDriver(0) >>> from libcloud.compute.types import NodeState >>> node = driver.create_node() >>> node.state == NodeState.RUNNING True >>> node.destroy() True >>> node.state == NodeState.RUNNING False """ return self.driver.destroy_node(self) def __repr__(self): state = NodeState.tostring(self.state) return (('<Node: uuid=%s, name=%s, state=%s, public_ips=%s, ' 'private_ips=%s, provider=%s ...>') % (self.uuid, self.name, state, self.public_ips, self.private_ips, self.driver.name)) class NodeSize(UuidMixin): """ A Base NodeSize class to derive from. NodeSizes are objects which are typically returned a driver's list_sizes function. They contain a number of different parameters which define how big an image is. The exact parameters available depends on the provider. N.B. Where a parameter is "unlimited" (for example bandwidth in Amazon) this will be given as 0. >>> from libcloud.compute.drivers.dummy import DummyNodeDriver >>> driver = DummyNodeDriver(0) >>> size = driver.list_sizes()[0] >>> size.ram 128 >>> size.bandwidth 500 >>> size.price 4 """ def __init__(self, id, # type: str name, # type: str ram, # type: int disk, # type: int bandwidth, # type: Optional[int] price, # type: float driver, # type: NodeDriver extra=None # type: Optional[dict] ): """ :param id: Size ID. :type id: ``str`` :param name: Size name. :type name: ``str`` :param ram: Amount of memory (in MB) provided by this size. :type ram: ``int`` :param disk: Amount of disk storage (in GB) provided by this image. :type disk: ``int`` :param bandwidth: Amount of bandiwdth included with this size. :type bandwidth: ``int`` :param price: Price (in US dollars) of running this node for an hour. :type price: ``float`` :param driver: Driver this size belongs to. :type driver: :class:`.NodeDriver` :param extra: Optional provider specific attributes associated with this size. :type extra: ``dict`` """ self.id = str(id) self.name = name self.ram = ram self.disk = disk self.bandwidth = bandwidth self.price = price self.driver = driver self.extra = extra or {} UuidMixin.__init__(self) def __repr__(self): return (('<NodeSize: id=%s, name=%s, ram=%s disk=%s bandwidth=%s ' 'price=%s driver=%s ...>') % (self.id, self.name, self.ram, self.disk, self.bandwidth, self.price, self.driver.name)) class NodeImage(UuidMixin): """ An operating system image. NodeImage objects are typically returned by the driver for the cloud provider in response to the list_images function >>> from libcloud.compute.drivers.dummy import DummyNodeDriver >>> driver = DummyNodeDriver(0) >>> image = driver.list_images()[0] >>> image.name 'Ubuntu 9.10' Apart from name and id, there is no further standard information; other parameters are stored in a driver specific "extra" variable When creating a node, a node image should be given as an argument to the create_node function to decide which OS image to use. >>> node = driver.create_node(image=image) """ def __init__(self, id, # type: str name, # type: str driver, # type: NodeDriver extra=None # type: Optional[dict] ): """ :param id: Image ID. :type id: ``str`` :param name: Image name. :type name: ``str`` :param driver: Driver this image belongs to. :type driver: :class:`.NodeDriver` :param extra: Optional provided specific attributes associated with this image. :type extra: ``dict`` """ self.id = str(id) self.name = name self.driver = driver self.extra = extra or {} UuidMixin.__init__(self) def __repr__(self): return (('<NodeImage: id=%s, name=%s, driver=%s ...>') % (self.id, self.name, self.driver.name)) class NodeImageMember(UuidMixin): """ A member of an image. At some cloud providers there is a mechanism to share images. Once an image is shared with another account that user will be a 'member' of the image. For example, see the image members schema in the OpenStack Image Service API v2 documentation. https://developer.openstack.org/ api-ref/image/v2/index.html#image-members-schema NodeImageMember objects are typically returned by the driver for the cloud provider in response to the list_image_members method """ def __init__(self, id, # type: str image_id, # type: str state, # type: NodeImageMemberState driver, # type: NodeDriver created=None, # type: datetime.datetime extra=None # type: Optional[dict] ): """ :param id: Image member ID. :type id: ``str`` :param id: The associated image ID. :type id: ``str`` :param state: State of the NodeImageMember. If not provided, will default to UNKNOWN. :type state: :class:`.NodeImageMemberState` :param driver: Driver this image belongs to. :type driver: :class:`.NodeDriver` :param created: A datetime object that represents when the image member was created :type created: ``datetime.datetime`` :param extra: Optional provided specific attributes associated with this image. :type extra: ``dict`` """ self.id = str(id) self.image_id = str(image_id) self.state = state self.driver = driver self.created = created self.extra = extra or {} UuidMixin.__init__(self) def __repr__(self): return (('<NodeImageMember: id=%s, image_id=%s, ' 'state=%s, driver=%s ...>') % (self.id, self.image_id, self.state, self.driver.name)) class NodeLocation(object): """ A physical location where nodes can be. >>> from libcloud.compute.drivers.dummy import DummyNodeDriver >>> driver = DummyNodeDriver(0) >>> location = driver.list_locations()[0] >>> location.country 'US' """ def __init__(self, id, # type: str name, # type: str country, # type: str driver, # type: NodeDriver extra=None # type: Optional[dict] ): """ :param id: Location ID. :type id: ``str`` :param name: Location name. :type name: ``str`` :param country: Location country. :type country: ``str`` :param driver: Driver this location belongs to. :type driver: :class:`.NodeDriver` :param extra: Optional provided specific attributes associated with this location. :type extra: ``dict`` """ self.id = str(id) self.name = name self.country = country self.driver = driver self.extra = extra or {} def __repr__(self): return (('<NodeLocation: id=%s, name=%s, country=%s, driver=%s>') % (self.id, self.name, self.country, self.driver.name)) class NodeAuthSSHKey(object): """ An SSH key to be installed for authentication to a node. This is the actual contents of the users ssh public key which will normally be installed as root's public key on the node. >>> pubkey = '...' # read from file >>> from libcloud.compute.base import NodeAuthSSHKey >>> k = NodeAuthSSHKey(pubkey) >>> k <NodeAuthSSHKey> """ def __init__(self, pubkey): # type: (str) -> None """ :param pubkey: Public key material. :type pubkey: ``str`` """ self.pubkey = pubkey def __repr__(self): return '<NodeAuthSSHKey>' class NodeAuthPassword(object): """ A password to be used for authentication to a node. """ def __init__(self, password, generated=False): # type: (str, bool) -> None """ :param password: Password. :type password: ``str`` :type generated: ``True`` if this password was automatically generated, ``False`` otherwise. """ self.password = password self.generated = generated def __repr__(self): return '<NodeAuthPassword>' class StorageVolume(UuidMixin): """ A base StorageVolume class to derive from. """ def __init__(self, id, # type: str name, # type: str size, # type: int driver, # type: NodeDriver state=None, # type: Optional[StorageVolumeState] extra=None # type: Optional[Dict] ): # type: (...) -> None """ :param id: Storage volume ID. :type id: ``str`` :param name: Storage volume name. :type name: ``str`` :param size: Size of this volume (in GB). :type size: ``int`` :param driver: Driver this image belongs to. :type driver: :class:`.NodeDriver` :param state: Optional state of the StorageVolume. If not provided, will default to UNKNOWN. :type state: :class:`.StorageVolumeState` :param extra: Optional provider specific attributes. :type extra: ``dict`` """ self.id = id self.name = name self.size = size self.driver = driver self.extra = extra self.state = state UuidMixin.__init__(self) def list_snapshots(self): # type: () -> List[VolumeSnapshot] """ :rtype: ``list`` of ``VolumeSnapshot`` """ return self.driver.list_volume_snapshots(volume=self) def attach(self, node, device=None): # type: (Node, Optional[str]) -> bool """ Attach this volume to a node. :param node: Node to attach volume to :type node: :class:`.Node` :param device: Where the device is exposed, e.g. '/dev/sdb (optional) :type device: ``str`` :return: ``True`` if attach was successful, ``False`` otherwise. :rtype: ``bool`` """ return self.driver.attach_volume(node=node, volume=self, device=device) def detach(self): # type: () -> bool """ Detach this volume from its node :return: ``True`` if detach was successful, ``False`` otherwise. :rtype: ``bool`` """ return self.driver.detach_volume(volume=self) def snapshot(self, name): # type: (str) -> VolumeSnapshot """ Creates a snapshot of this volume. :return: Created snapshot. :rtype: ``VolumeSnapshot`` """ return self.driver.create_volume_snapshot(volume=self, name=name) def destroy(self): # type: () -> bool """ Destroy this storage volume. :return: ``True`` if destroy was successful, ``False`` otherwise. :rtype: ``bool`` """ return self.driver.destroy_volume(volume=self) def __repr__(self): return '<StorageVolume id=%s size=%s driver=%s>' % ( self.id, self.size, self.driver.name) class VolumeSnapshot(object): """ A base VolumeSnapshot class to derive from. """ def __init__(self, id, # type: str driver, # type: NodeDriver size=None, # type: int extra=None, # type: Optional[Dict] created=None, # type: Optional[datetime.datetime] state=None, # type: StorageVolumeState name=None # type: Optional[str] ): # type: (...) -> None """ VolumeSnapshot constructor. :param id: Snapshot ID. :type id: ``str`` :param driver: The driver that represents a connection to the provider :type driver: `NodeDriver` :param size: A snapshot size in GB. :type size: ``int`` :param extra: Provider depends parameters for snapshot. :type extra: ``dict`` :param created: A datetime object that represents when the snapshot was created :type created: ``datetime.datetime`` :param state: A string representing the state the snapshot is in. See `libcloud.compute.types.StorageVolumeState`. :type state: ``StorageVolumeState`` :param name: A string representing the name of the snapshot :type name: ``str`` """ self.id = id self.driver = driver self.size = size self.extra = extra or {} self.created = created self.state = state self.name = name def destroy(self): # type: () -> bool """ Destroys this snapshot. :rtype: ``bool`` """ return self.driver.destroy_volume_snapshot(snapshot=self) def __repr__(self): return ('<VolumeSnapshot "%s" id=%s size=%s driver=%s state=%s>' % (self.name, self.id, self.size, self.driver.name, self.state)) class KeyPair(object): """ Represents a SSH key pair. """ def __init__(self, name, # type: str public_key, # type: str fingerprint, # type: str driver, # type: NodeDriver private_key=None, # type: Optional[str] extra=None # type: Optional[Dict] ): # type: (...) -> None """ Constructor. :keyword name: Name of the key pair object. :type name: ``str`` :keyword fingerprint: Key fingerprint. :type fingerprint: ``str`` :keyword public_key: Public key in OpenSSH format. :type public_key: ``str`` :keyword private_key: Private key in PEM format. :type private_key: ``str`` :keyword extra: Provider specific attributes associated with this key pair. (optional) :type extra: ``dict`` """ self.name = name self.fingerprint = fingerprint self.public_key = public_key self.private_key = private_key self.driver = driver self.extra = extra or {} def __repr__(self): return ('<KeyPair name=%s fingerprint=%s driver=%s>' % (self.name, self.fingerprint, self.driver.name)) class NodeDriver(BaseDriver): """ A base NodeDriver class to derive from This class is always subclassed by a specific driver. For examples of base behavior of most functions (except deploy node) see the dummy driver. """ connectionCls = ConnectionKey # type: Type[Connection] name = None # type: str api_name = None # type: str website = None # type: str type = None # type: Union[Provider,str] port = None # type: int features = {'create_node': []} # type: Dict[str, List[str]] """ List of available features for a driver. - :meth:`libcloud.compute.base.NodeDriver.create_node` - ssh_key: Supports :class:`.NodeAuthSSHKey` as an authentication method for nodes. - password: Supports :class:`.NodeAuthPassword` as an authentication method for nodes. - generates_password: Returns a password attribute on the Node object returned from creation. """ NODE_STATE_MAP = {} # type: Dict[str, NodeState] def list_nodes(self, *args, **kwargs): # type: (Any, Any) -> List[Node] """ List all nodes. :return: list of node objects :rtype: ``list`` of :class:`.Node` """ raise NotImplementedError( 'list_nodes not implemented for this driver') def list_sizes(self, location=None): # type: (Optional[NodeLocation]) -> List[NodeSize] """ List sizes on a provider :param location: The location at which to list sizes :type location: :class:`.NodeLocation` :return: list of node size objects :rtype: ``list`` of :class:`.NodeSize` """ raise NotImplementedError( 'list_sizes not implemented for this driver') def list_locations(self): # type: () -> List[NodeLocation] """ List data centers for a provider :return: list of node location objects :rtype: ``list`` of :class:`.NodeLocation` """ raise NotImplementedError( 'list_locations not implemented for this driver') def create_node(self, name, # type: str size, # type: NodeSize image, # type: NodeImage location=None, # type: Optional[NodeLocation] auth=None # type: T_Auth ): # type: (...) -> Node """ Create a new node instance. This instance will be started automatically. Not all hosting API's are created equal and to allow libcloud to support as many as possible there are some standard supported variations of ``create_node``. These are declared using a ``features`` API. You can inspect ``driver.features['create_node']`` to see what variation of the API you are dealing with: ``ssh_key`` You can inject a public key into a new node allows key based SSH authentication. ``password`` You can inject a password into a new node for SSH authentication. If no password is provided libcloud will generated a password. The password will be available as ``return_value.extra['password']``. ``generates_password`` The hosting provider will generate a password. It will be returned to you via ``return_value.extra['password']``. Some drivers allow you to set how you will authenticate with the instance that is created. You can inject this initial authentication information via the ``auth`` parameter. If a driver supports the ``ssh_key`` feature flag for ``created_node`` you can upload a public key into the new instance:: >>> from libcloud.compute.drivers.dummy import DummyNodeDriver >>> driver = DummyNodeDriver(0) >>> auth = NodeAuthSSHKey('pubkey data here') >>> node = driver.create_node("test_node", auth=auth) If a driver supports the ``password`` feature flag for ``create_node`` you can set a password:: >>> driver = DummyNodeDriver(0) >>> auth = NodeAuthPassword('mysecretpassword') >>> node = driver.create_node("test_node", auth=auth) If a driver supports the ``password`` feature and you don't provide the ``auth`` argument libcloud will assign a password:: >>> driver = DummyNodeDriver(0) >>> node = driver.create_node("test_node") >>> password = node.extra['password'] A password will also be returned in this way for drivers that declare the ``generates_password`` feature, though in that case the password is actually provided to the driver API by the hosting provider rather than generated by libcloud. You can only pass a :class:`.NodeAuthPassword` or :class:`.NodeAuthSSHKey` to ``create_node`` via the auth parameter if has the corresponding feature flag. :param name: String with a name for this new node (required) :type name: ``str`` :param size: The size of resources allocated to this node. (required) :type size: :class:`.NodeSize` :param image: OS Image to boot on node. (required) :type image: :class:`.NodeImage` :param location: Which data center to create a node in. If empty, undefined behavior will be selected. (optional) :type location: :class:`.NodeLocation` :param auth: Initial authentication information for the node (optional) :type auth: :class:`.NodeAuthSSHKey` or :class:`NodeAuthPassword` :return: The newly created node. :rtype: :class:`.Node` """ raise NotImplementedError( 'create_node not implemented for this driver') def deploy_node(self, deploy, # type: Deployment ssh_username='root', # type: str ssh_alternate_usernames=None, # type: Optional[List[str]] ssh_port=22, # type: int ssh_timeout=10, # type: int ssh_key=None, # type: Optional[T_Ssh_key] ssh_key_password=None, # type: Optional[str] auth=None, # type: T_Auth timeout=SSH_CONNECT_TIMEOUT, # type: int max_tries=3, # type: int ssh_interface='public_ips', # type: str at_exit_func=None, # type: Callable wait_period=5, # type: int **create_node_kwargs): # type: (...) -> Node """ Create a new node, and start deployment. In order to be able to SSH into a created node access credentials are required. A user can pass either a :class:`.NodeAuthPassword` or :class:`.NodeAuthSSHKey` to the ``auth`` argument. If the ``create_node`` implementation supports that kind if credential (as declared in ``self.features['create_node']``) then it is passed on to ``create_node``. Otherwise it is not passed on to ``create_node`` and it is only used for authentication. If the ``auth`` parameter is not supplied but the driver declares it supports ``generates_password`` then the password returned by ``create_node`` will be used to SSH into the server. Finally, if the ``ssh_key_file`` is supplied that key will be used to SSH into the server. This function may raise a :class:`DeploymentException`, if a create_node call was successful, but there is a later error (like SSH failing or timing out). This exception includes a Node object which you may want to destroy if incomplete deployments are not desirable. >>> from libcloud.compute.drivers.dummy import DummyNodeDriver >>> from libcloud.compute.deployment import ScriptDeployment >>> from libcloud.compute.deployment import MultiStepDeployment >>> from libcloud.compute.base import NodeAuthSSHKey >>> driver = DummyNodeDriver(0) >>> key = NodeAuthSSHKey('...') # read from file >>> script = ScriptDeployment("yum -y install emacs strace tcpdump") >>> msd = MultiStepDeployment([key, script]) >>> def d(): ... try: ... driver.deploy_node(deploy=msd) ... except NotImplementedError: ... print ("not implemented for dummy driver") >>> d() not implemented for dummy driver Deploy node is typically not overridden in subclasses. The existing implementation should be able to handle most such. :param deploy: Deployment to run once machine is online and available to SSH. :type deploy: :class:`Deployment` :param ssh_username: Optional name of the account which is used when connecting to SSH server (default is root) :type ssh_username: ``str`` :param ssh_alternate_usernames: Optional list of ssh usernames to try to connect with if using the default one fails :type ssh_alternate_usernames: ``list`` :param ssh_port: Optional SSH server port (default is 22) :type ssh_port: ``int`` :param ssh_timeout: Optional SSH connection timeout in seconds (default is 10) :type ssh_timeout: ``float`` :param auth: Initial authentication information for the node (optional) :type auth: :class:`.NodeAuthSSHKey` or :class:`NodeAuthPassword` :param ssh_key: A path (or paths) to an SSH private key with which to attempt to authenticate. (optional) :type ssh_key: ``str`` or ``list`` of ``str`` :param ssh_key_password: Optional password used for encrypted keys. :type ssh_key_password: ``str`` :param timeout: How many seconds to wait before timing out. (default is 600) :type timeout: ``int`` :param max_tries: How many times to retry if a deployment fails before giving up (default is 3) :type max_tries: ``int`` :param ssh_interface: The interface to wait for. Default is 'public_ips', other option is 'private_ips'. :type ssh_interface: ``str`` :param at_exit_func: Optional atexit handler function which will be registered and called with created node if user cancels the deploy process (e.g. CTRL+C), after the node has been created, but before the deploy process has finished. This method gets passed in two keyword arguments: - driver -> node driver in question - node -> created Node object Keep in mind that this function will only be called in such scenario. In case the method finishes (this includes throwing an exception), at exit handler function won't be called. :type at_exit_func: ``func`` :param wait_period: How many seconds to wait between each iteration while waiting for node to transition into running state and have IP assigned. (default is 5) :type wait_period: ``int`` """ if not libcloud.compute.ssh.have_paramiko: raise RuntimeError('paramiko is not installed. You can install ' + 'it using pip: pip install paramiko') if auth: if not isinstance(auth, (NodeAuthSSHKey, NodeAuthPassword)): raise NotImplementedError( 'If providing auth, only NodeAuthSSHKey or' 'NodeAuthPassword is supported') elif ssh_key: # If an ssh_key is provided we can try deploy_node pass elif 'create_node' in self.features: f = self.features['create_node'] if 'generates_password' not in f and "password" not in f: raise NotImplementedError( 'deploy_node not implemented for this driver') else: raise NotImplementedError( 'deploy_node not implemented for this driver') # NOTE 1: This is a workaround for legacy code. Sadly a lot of legacy # code uses **kwargs in "create_node()" method and simply ignores # "deploy_node()" arguments which are passed to it. # That's obviously far from idea that's why we first try to pass only # non-deploy node arguments to the "create_node()" methods and if it # that doesn't work, fall back to the old approach and simply pass in # all the arguments # NOTE 2: Some drivers which use password based SSH authentication # rely on password being stored on the "auth" argument and that's why # we also propagate that argument to "create_node()" method. try: # NOTE: We only pass auth to the method if auth argument is # provided if auth: node = self.create_node(auth=auth, **create_node_kwargs) else: node = self.create_node(**create_node_kwargs) except TypeError as e: msg_1_re = (r'create_node\(\) missing \d+ required ' 'positional arguments.*') msg_2_re = r'create_node\(\) takes at least \d+ arguments.*' if re.match(msg_1_re, str(e)) or re.match(msg_2_re, str(e)): # pylint: disable=unexpected-keyword-arg node = self.create_node( # type: ignore deploy=deploy, ssh_username=ssh_username, ssh_alternate_usernames=ssh_alternate_usernames, ssh_port=ssh_port, ssh_timeout=ssh_timeout, ssh_key=ssh_key, auth=auth, timeout=timeout, max_tries=max_tries, ssh_interface=ssh_interface, **create_node_kwargs) # pylint: enable=unexpected-keyword-arg else: raise e if at_exit_func: atexit.register(at_exit_func, driver=self, node=node) password = None if auth: if isinstance(auth, NodeAuthPassword): password = auth.password elif 'password' in node.extra: password = node.extra['password'] wait_timeout = timeout or NODE_ONLINE_WAIT_TIMEOUT # Wait until node is up and running and has IP assigned try: node, ip_addresses = self.wait_until_running( nodes=[node], wait_period=wait_period, timeout=wait_timeout, ssh_interface=ssh_interface)[0] except Exception as e: if at_exit_func: atexit.unregister(at_exit_func) raise DeploymentError(node=node, original_exception=e, driver=self) ssh_alternate_usernames = ssh_alternate_usernames or [] deploy_timeout = timeout or SSH_CONNECT_TIMEOUT deploy_error = None for username in ([ssh_username] + ssh_alternate_usernames): try: self._connect_and_run_deployment_script( task=deploy, node=node, ssh_hostname=ip_addresses[0], ssh_port=ssh_port, ssh_username=username, ssh_password=password, ssh_key_file=ssh_key, ssh_key_password=ssh_key_password, ssh_timeout=ssh_timeout, timeout=deploy_timeout, max_tries=max_tries) except Exception as e: # Try alternate username # Todo: Need to fix paramiko so we can catch a more specific # exception deploy_error = e else: # Script successfully executed, don't try alternate username deploy_error = None break if deploy_error is not None: if at_exit_func: atexit.unregister(at_exit_func) raise DeploymentError(node=node, original_exception=deploy_error, driver=self) if at_exit_func: atexit.unregister(at_exit_func) return node def reboot_node(self, node): # type: (Node) -> bool """ Reboot a node. :param node: The node to be rebooted :type node: :class:`.Node` :return: True if the reboot was successful, otherwise False :rtype: ``bool`` """ raise NotImplementedError( 'reboot_node not implemented for this driver') def start_node(self, node): # type: (Node) -> bool """ Start a node. :param node: The node to be started :type node: :class:`.Node` :return: True if the start was successful, otherwise False :rtype: ``bool`` """ raise NotImplementedError( 'start_node not implemented for this driver') def stop_node(self, node): # type: (Node) -> bool """ Stop a node :param node: The node to be stopped. :type node: :class:`.Node` :return: True if the stop was successful, otherwise False :rtype: ``bool`` """ raise NotImplementedError( 'stop_node not implemented for this driver') def destroy_node(self, node): # type: (Node) -> bool """ Destroy a node. Depending upon the provider, this may destroy all data associated with the node, including backups. :param node: The node to be destroyed :type node: :class:`.Node` :return: True if the destroy was successful, False otherwise. :rtype: ``bool`` """ raise NotImplementedError( 'destroy_node not implemented for this driver') ## # Volume and snapshot management methods ## def list_volumes(self): # type: () -> List[StorageVolume] """ List storage volumes. :rtype: ``list`` of :class:`.StorageVolume` """ raise NotImplementedError( 'list_volumes not implemented for this driver') def list_volume_snapshots(self, volume): # type: (StorageVolume) -> List[VolumeSnapshot] """ List snapshots for a storage volume. :rtype: ``list`` of :class:`VolumeSnapshot` """ raise NotImplementedError( 'list_volume_snapshots not implemented for this driver') def create_volume(self, size, # type: int name, # type: str location=None, # Optional[NodeLocation] snapshot=None # Optional[VolumeSnapshot] ): # type: (...) -> StorageVolume """ Create a new volume. :param size: Size of volume in gigabytes (required) :type size: ``int`` :param name: Name of the volume to be created :type name: ``str`` :param location: Which data center to create a volume in. If empty, undefined behavior will be selected. (optional) :type location: :class:`.NodeLocation` :param snapshot: Snapshot from which to create the new volume. (optional) :type snapshot: :class:`.VolumeSnapshot` :return: The newly created volume. :rtype: :class:`StorageVolume` """ raise NotImplementedError( 'create_volume not implemented for this driver') def create_volume_snapshot(self, volume, name=None): # type: (StorageVolume, Optional[str]) -> VolumeSnapshot """ Creates a snapshot of the storage volume. :param volume: The StorageVolume to create a VolumeSnapshot from :type volume: :class:`.StorageVolume` :param name: Name of created snapshot (optional) :type name: `str` :rtype: :class:`VolumeSnapshot` """ raise NotImplementedError( 'create_volume_snapshot not implemented for this driver') def attach_volume(self, node, volume, device=None): # type: (Node, StorageVolume, Optional[str]) -> bool """ Attaches volume to node. :param node: Node to attach volume to. :type node: :class:`.Node` :param volume: Volume to attach. :type volume: :class:`.StorageVolume` :param device: Where the device is exposed, e.g. '/dev/sdb' :type device: ``str`` :rytpe: ``bool`` """ raise NotImplementedError('attach not implemented for this driver') def detach_volume(self, volume): # type: (StorageVolume) -> bool """ Detaches a volume from a node. :param volume: Volume to be detached :type volume: :class:`.StorageVolume` :rtype: ``bool`` """ raise NotImplementedError('detach not implemented for this driver') def destroy_volume(self, volume): # type: (StorageVolume) -> bool """ Destroys a storage volume. :param volume: Volume to be destroyed :type volume: :class:`StorageVolume` :rtype: ``bool`` """ raise NotImplementedError( 'destroy_volume not implemented for this driver') def destroy_volume_snapshot(self, snapshot): # type: (VolumeSnapshot) -> bool """ Destroys a snapshot. :param snapshot: The snapshot to delete :type snapshot: :class:`VolumeSnapshot` :rtype: :class:`bool` """ raise NotImplementedError( 'destroy_volume_snapshot not implemented for this driver') ## # Image management methods ## def list_images(self, location=None): # type: (Optional[NodeLocation]) -> List[NodeImage] """ List images on a provider. :param location: The location at which to list images. :type location: :class:`.NodeLocation` :return: list of node image objects. :rtype: ``list`` of :class:`.NodeImage` """ raise NotImplementedError( 'list_images not implemented for this driver') def create_image(self, node, name, description=None): # type: (Node, str, Optional[str]) -> List[NodeImage] """ Creates an image from a node object. :param node: Node to run the task on. :type node: :class:`.Node` :param name: name for new image. :type name: ``str`` :param description: description for new image. :type name: ``description`` :rtype: :class:`.NodeImage`: :return: NodeImage instance on success. """ raise NotImplementedError( 'create_image not implemented for this driver') def delete_image(self, node_image): # type: (NodeImage) -> bool """ Deletes a node image from a provider. :param node_image: Node image object. :type node_image: :class:`.NodeImage` :return: ``True`` if delete_image was successful, ``False`` otherwise. :rtype: ``bool`` """ raise NotImplementedError( 'delete_image not implemented for this driver') def get_image(self, image_id): # type: (str) -> NodeImage """ Returns a single node image from a provider. :param image_id: Node to run the task on. :type image_id: ``str`` :rtype :class:`.NodeImage`: :return: NodeImage instance on success. """ raise NotImplementedError( 'get_image not implemented for this driver') def copy_image(self, source_region, node_image, name, description=None): # type: (str, NodeImage, str, Optional[str]) -> NodeImage """ Copies an image from a source region to the current region. :param source_region: Region to copy the node from. :type source_region: ``str`` :param node_image: NodeImage to copy. :type node_image: :class:`.NodeImage`: :param name: name for new image. :type name: ``str`` :param description: description for new image. :type name: ``str`` :rtype: :class:`.NodeImage`: :return: NodeImage instance on success. """ raise NotImplementedError( 'copy_image not implemented for this driver') ## # SSH key pair management methods ## def list_key_pairs(self): # type: () -> List[KeyPair] """ List all the available key pair objects. :rtype: ``list`` of :class:`.KeyPair` objects """ raise NotImplementedError( 'list_key_pairs not implemented for this driver') def get_key_pair(self, name): # type: (str) -> KeyPair """ Retrieve a single key pair. :param name: Name of the key pair to retrieve. :type name: ``str`` :rtype: :class:`.KeyPair` """ raise NotImplementedError( 'get_key_pair not implemented for this driver') def create_key_pair(self, name): # type: (str) -> KeyPair """ Create a new key pair object. :param name: Key pair name. :type name: ``str`` :rtype: :class:`.KeyPair` object """ raise NotImplementedError( 'create_key_pair not implemented for this driver') def import_key_pair_from_string(self, name, key_material): # type: (str, str) -> KeyPair """ Import a new public key from string. :param name: Key pair name. :type name: ``str`` :param key_material: Public key material. :type key_material: ``str`` :rtype: :class:`.KeyPair` object """ raise NotImplementedError( 'import_key_pair_from_string not implemented for this driver') def import_key_pair_from_file(self, name, key_file_path): # type: (str, str) -> KeyPair """ Import a new public key from string. :param name: Key pair name. :type name: ``str`` :param key_file_path: Path to the public key file. :type key_file_path: ``str`` :rtype: :class:`.KeyPair` object """ key_file_path = os.path.expanduser(key_file_path) with open(key_file_path, 'r') as fp: key_material = fp.read().strip() return self.import_key_pair_from_string(name=name, key_material=key_material) def delete_key_pair(self, key_pair): # type: (KeyPair) -> bool """ Delete an existing key pair. :param key_pair: Key pair object. :type key_pair: :class:`.KeyPair` :rtype: ``bool`` """ raise NotImplementedError( 'delete_key_pair not implemented for this driver') def wait_until_running(self, nodes, # type: List[Node] wait_period=5, # type: float timeout=600, # type: int ssh_interface='public_ips', # type: str force_ipv4=True, # type: bool ex_list_nodes_kwargs=None # type: Optional[Dict] ): # type: (...) -> List[Tuple[Node, List[str]]] """ Block until the provided nodes are considered running. Node is considered running when it's state is "running" and when it has at least one IP address assigned. :param nodes: List of nodes to wait for. :type nodes: ``list`` of :class:`.Node` :param wait_period: How many seconds to wait between each loop iteration. (default is 3) :type wait_period: ``int`` :param timeout: How many seconds to wait before giving up. (default is 600) :type timeout: ``int`` :param ssh_interface: Which attribute on the node to use to obtain an IP address. Valid options: public_ips, private_ips. Default is public_ips. :type ssh_interface: ``str`` :param force_ipv4: Ignore IPv6 addresses (default is True). :type force_ipv4: ``bool`` :param ex_list_nodes_kwargs: Optional driver-specific keyword arguments which are passed to the ``list_nodes`` method. :type ex_list_nodes_kwargs: ``dict`` :return: ``[(Node, ip_addresses)]`` list of tuple of Node instance and list of ip_address on success. :rtype: ``list`` of ``tuple`` """ ex_list_nodes_kwargs = ex_list_nodes_kwargs or {} def is_supported(address): # type: (str) -> bool """ Return True for supported address. """ if force_ipv4 and not is_valid_ip_address(address=address, family=socket.AF_INET): return False return True def filter_addresses(addresses): # type: (List[str]) -> List[str] """ Return list of supported addresses. """ return [address for address in addresses if is_supported(address)] if ssh_interface not in ['public_ips', 'private_ips']: raise ValueError('ssh_interface argument must either be ' + 'public_ips or private_ips') start = time.time() end = start + timeout uuids = set([node.uuid for node in nodes]) while time.time() < end: all_nodes = self.list_nodes(**ex_list_nodes_kwargs) matching_nodes = list([node for node in all_nodes if node.uuid in uuids]) if len(matching_nodes) > len(uuids): found_uuids = [node.uuid for node in matching_nodes] msg = ('Unable to match specified uuids ' + '(%s) with existing nodes. Found ' % (uuids) + 'multiple nodes with same uuid: (%s)' % (found_uuids)) raise LibcloudError(value=msg, driver=self) running_nodes = [node for node in matching_nodes if node.state == NodeState.RUNNING] addresses = [] for node in running_nodes: node_addresses = filter_addresses(getattr(node, ssh_interface)) if len(node_addresses) >= 1: addresses.append(node_addresses) if len(running_nodes) == len(uuids) == len(addresses): return list(zip(running_nodes, addresses)) else: time.sleep(wait_period) continue raise LibcloudError(value='Timed out after %s seconds' % (timeout), driver=self) def _get_and_check_auth(self, auth): # type: (T_Auth) -> T_Auth """ Helper function for providers supporting :class:`.NodeAuthPassword` or :class:`.NodeAuthSSHKey` Validates that only a supported object type is passed to the auth parameter and raises an exception if it is not. If no :class:`.NodeAuthPassword` object is provided but one is expected then a password is automatically generated. """ if isinstance(auth, NodeAuthPassword): if 'password' in self.features['create_node']: return auth raise LibcloudError( 'Password provided as authentication information, but password' 'not supported', driver=self) if isinstance(auth, NodeAuthSSHKey): if 'ssh_key' in self.features['create_node']: return auth raise LibcloudError( 'SSH Key provided as authentication information, but SSH Key' 'not supported', driver=self) if 'password' in self.features['create_node']: value = os.urandom(16) value = binascii.hexlify(value).decode('ascii') # Some providers require password to also include uppercase # characters so convert some characters to uppercase password = '' for char in value: if not char.isdigit() and char.islower(): if random.randint(0, 1) == 1: char = char.upper() password += char return NodeAuthPassword(password, generated=True) if auth: raise LibcloudError( '"auth" argument provided, but it was not a NodeAuthPassword' 'or NodeAuthSSHKey object', driver=self) def _wait_until_running(self, node, wait_period=3, timeout=600, ssh_interface='public_ips', force_ipv4=True): # type: (Node, float, int, str, bool) -> List[Tuple[Node, List[str]]] # This is here for backward compatibility and will be removed in the # next major release return self.wait_until_running(nodes=[node], wait_period=wait_period, timeout=timeout, ssh_interface=ssh_interface, force_ipv4=force_ipv4) def _ssh_client_connect(self, ssh_client, wait_period=1.5, timeout=300): # type: (BaseSSHClient, float, int) -> BaseSSHClient """ Try to connect to the remote SSH server. If a connection times out or is refused it is retried up to timeout number of seconds. :param ssh_client: A configured SSHClient instance :type ssh_client: ``SSHClient`` :param wait_period: How many seconds to wait between each loop iteration. (default is 1.5) :type wait_period: ``int`` :param timeout: How many seconds to wait before giving up. (default is 300) :type timeout: ``int`` :return: ``SSHClient`` on success """ start = time.time() end = start + timeout while time.time() < end: try: ssh_client.connect() except SSH_TIMEOUT_EXCEPTION_CLASSES as e: # Errors which represent fatal invalid key files which should # be propagated to the user without us retrying message = str(e).lower() for fatal_msg in SSH_FATAL_ERROR_MSGS: if fatal_msg in message: raise e # Retry if a connection is refused, timeout occurred, # or the connection fails due to failed authentication. try: ssh_client.close() except Exception: # Exception on close() should not be fatal since client # socket might already be closed pass time.sleep(wait_period) continue else: return ssh_client raise LibcloudError(value='Could not connect to the remote SSH ' + 'server. Giving up.', driver=self) def _connect_and_run_deployment_script( self, task, # type: Deployment node, # type: Node ssh_hostname, # type: str ssh_port, # type: int ssh_username, # type: str ssh_password, # type: Optional[str] ssh_key_file, # type: Optional[T_Ssh_key] ssh_key_password, # type: Optional[str] ssh_timeout, # type: int timeout, # type: int max_tries # type: int ): """ Establish an SSH connection to the node and run the provided deployment task. :rtype: :class:`.Node`: :return: Node instance on success. """ ssh_client = SSHClient(hostname=ssh_hostname, port=ssh_port, username=ssh_username, password=ssh_key_password or ssh_password, key_files=ssh_key_file, timeout=ssh_timeout) ssh_client = self._ssh_client_connect(ssh_client=ssh_client, timeout=timeout) # Execute the deployment task node = self._run_deployment_script(task=task, node=node, ssh_client=ssh_client, max_tries=max_tries) return node def _run_deployment_script(self, task, node, ssh_client, max_tries=3): # type: (Deployment, Node, BaseSSHClient, int) -> Node """ Run the deployment script on the provided node. At this point it is assumed that SSH connection has already been established. :param task: Deployment task to run. :type task: :class:`Deployment` :param node: Node to run the task on. :type node: ``Node`` :param ssh_client: A configured and connected SSHClient instance. :type ssh_client: :class:`SSHClient` :param max_tries: How many times to retry if a deployment fails before giving up. (default is 3) :type max_tries: ``int`` :rtype: :class:`.Node` :return: ``Node`` Node instance on success. """ tries = 0 while tries < max_tries: try: node = task.run(node, ssh_client) except SSHCommandTimeoutError as e: # Command timeout exception is fatal so we don't retry it. raise e except Exception as e: tries += 1 if "ssh session not active" in str(e).lower(): # Sometimes connection gets closed or disconnected half # way through for wahtever reason. # If this happens, we try to re-connect before # re-attempting to run the step. try: ssh_client.close() except Exception: # Non fatal since connection is most likely already # closed at this point pass timeout = (int(ssh_client.timeout) if ssh_client.timeout else 10) ssh_client = self._ssh_client_connect( ssh_client=ssh_client, timeout=timeout) if tries >= max_tries: tb = traceback.format_exc() raise LibcloudError(value='Failed after %d tries: %s.\n%s' % (max_tries, str(e), tb), driver=self) else: # Deployment succeeded ssh_client.close() return node return node def _get_size_price(self, size_id): # type: (str) -> Optional[float] """ Return pricing information for the provided size id. """ return get_size_price(driver_type='compute', driver_name=self.api_name, size_id=size_id) if __name__ == '__main__': import doctest doctest.testmod()