gridscale Compute Driver Documentation

gridscale is a German cloud provider with focus on awesome user experience.

../../_images/gridscale.png

Instantiating a driver

The gridscale driver requires your User_Uuid and your API-Token. You will have to generate a API-Token first, to be able to do that, you want to make an account and create a token under the API-Key option in the panel.

from libcloud.compute.providers import get_driver
from libcloud.compute.type import Provider

driver = get_driver(Provider.GRIDSCALE)

driver = driver('USER-UUID', 'API-TOKEN')

Creating a Server

from libcloud.compute.providers import get_driver
from libcloud.compute.base import NodeSize
from libcloud.compute.type import Provider

cls = get_driver(Provider.GRIDSCALE)
driver = cls('USER-UUID', 'API-TOKEN')

# We don't feature packages containing a fix size so you will have to
# built your own size object. Make sure to use a multiple of 1024MB when
# asigning RAM
size_name = 'my-node-size'
ram = 1024  # amout of ram In MB
disk = 10  # disk size in GB
cores = 1  # numer of cores node should have
size = NodeSize(id=0, bandwidth=0, price=0, name=size_name, ram=ram, disk=disk,
                driver=driver, extra={'cores': cores})

ssh_key = driver.list_key_pairs()[0]
ssh_key_uuid = ssh_key.fingerprint

node_name = 'MyServer'

images = driver.list_images()
image = [i for i in images if i.name == 'Ubuntu 18.04 LTS'][0]

locations = driver.list_locations()
location = [l for l in locations if l.name == 'de/fra'][0]

node = driver.create_node(name=node_name, size=size, image=image,
                          location=location, ex_ssh_key_ids=ssh_key)

Create a server, SSH into it and run deployment script on it

import os

from libcloud.compute.providers import get_driver
from libcloud.compute.base import NodeSize
from libcloud.compute.type import Provider
from libcloud.compute.deployment import ScriptDeployment

cls = get_driver(Provider.GRIDSCALE)
driver = cls('USER-UUID', 'API-TOKEN')

# We don't feature packages containing a fix size so you will have to
# built your own size object. Make sure to use a multiple of 1024MB when
# asigning RAM
size_name = 'my-node-size'
ram = 1024  # amout of ram In MB
disk = 10  # disk size in GB
cores = 1  # numer of cores node should have
size = NodeSize(id=0, bandwidth=0, price=0, name=size_name, ram=ram, disk=disk,
                driver=driver, extra={'cores': cores})

ssh_key = driver.list_key_pairs()[0]
ssh_key_uuid = ssh_key.fingerprint

node_name = 'MyServer'

images = driver.list_images()
image = [i for i in images if i.name == 'Ubuntu 18.04 LTS'][0]

locations = driver.list_locations()
location = [l for l in locations if l.name == 'de/fra'][0]

# Check if a key pair object with the provided name already exists
# If it already exists, using an existing key, otherwise import a new one
key_pair_name = 'libcloud-key-pair'
key_pairs = driver.list_key_pairs()
key_pairs = [kp for kp in key_pairs if kp.name == key_pair_name]

public_key_file_path = os.path.expanduser('~/.ssh/id_rsa_gridscale.pub')
private_key_file_path = os.path.expanduser('~/.ssh/id_rsa_gridscale')

if key_pairs:
    print('Re-using existing SSH Key')
    key_pair = key_pairs[0]
else:
    print('Importing / creating new SSH Key')
    key_pair = driver.import_key_pair_from_file(name=key_pair_name,
        key_file_path=public_key_file_path) # NOQA


step = ScriptDeployment("echo whoami ; date ; ls -la")

node = driver.deploy_node(name=node_name, size=size, image=image,
                          location=location,
                          ex_ssh_key_ids=[key_pair.fingerprint],
                          deploy=step,
                          ssh_key=private_key_file_path)
print(node)

API Docs

API

class libcloud.compute.drivers.gridscale.GridscaleNodeDriver(user_id, key, **kwargs)[source]

create and entry in libcloud/compute/providers for gridscale

attach_volume(node, volume)[source]
Attaches volume to node.
Parameters:
  • node (Node) – Node to attach volume to.
  • volume (StorageVolume) – Volume to attach.
Rytpe:

bool

connectionCls

alias of libcloud.common.gridscale.GridscaleConnection

copy_image(source_region, node_image, name, description=None)

Copies an image from a source region to the current region.

Parameters:
  • source_region (str) – Region to copy the node from.
  • node_image (NodeImage:) – NodeImage to copy.
  • name (str) – name for new image.
  • description – description for new image.
Return type:

NodeImage:

Returns:

NodeImage instance on success.

create_image(node, name)[source]

Creates an image from a node object.

Parameters:
  • node (Node) – Node to run the task on.
  • name (str) – Name for new image.
Returns:

NodeImage.

Return type:

NodeImage

create_key_pair(name)

Create a new key pair object.

Parameters:name (str) – Key pair name.
Return type:KeyPair object
create_node(name, size, image, location, ex_ssh_key_ids=None, **kwargs)[source]

Create a simple node with a name, cores, memory at the designated location.

Parameters:
  • name (str) – Name of the server.
  • size (NodeSize) – Nodesize object.
  • image (GridscaleTemplate) – OS image to attach to the storage.
  • location (NodeLocation) – The data center to create a node in.
  • ex_ssh_key_ids (list of str) – List of SSH key IDs to add to the server.
Returns:

The newly created Node.

Return type:

Node

create_volume(size, name, location=None, snapshot=None)[source]

Create a new volume.

Parameters:
  • size (int) – Integer in GB.
  • name (str) – Name of the volume.
  • location (NodeLocation) – The server location.
  • snapshot (VolumeSnapshot) – Snapshot from which to create the new volume. (optional)
Returns:

Newly created StorageVolume.

Return type:

StorageVolume

create_volume_snapshot(volume, name)[source]

Creates a snapshot of the current state of your volume, you can rollback to.

Parameters:
  • volume (StorageVolume) – Volume you want to create a snapshot of.
  • name (str) – Name of the snapshot.
Returns:

VolumeSnapshot.

Return type:

VolumeSnapshot

delete_image(node_image)[source]

Destroy an image.

Parameters:node_image (NodeImage) – Node image object.
Returns:True if the destroy was successful, otherwise False
Return type:bool
delete_key_pair(key_pair)

Delete an existing key pair.

Parameters:key_pair (KeyPair) – Key pair object.
Return type:bool
deploy_node(deploy, ssh_username='root', ssh_alternate_usernames=None, ssh_port=22, ssh_timeout=10, ssh_key=None, ssh_key_password=None, auth=None, timeout=300, max_tries=3, ssh_interface='public_ips', at_exit_func=None, wait_period=5, **create_node_kwargs)

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 NodeAuthPassword or 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 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.

Parameters:
  • deploy (Deployment) – Deployment to run once machine is online and available to SSH.
  • ssh_username (str) – Optional name of the account which is used when connecting to SSH server (default is root)
  • ssh_alternate_usernames (list) – Optional list of ssh usernames to try to connect with if using the default one fails
  • ssh_port (int) – Optional SSH server port (default is 22)
  • ssh_timeout (float) – Optional SSH connection timeout in seconds (default is 10)
  • auth (NodeAuthSSHKey or NodeAuthPassword) – Initial authentication information for the node (optional)
  • ssh_key (str or list of str) – A path (or paths) to an SSH private key with which to attempt to authenticate. (optional)
  • ssh_key_password (str) – Optional password used for encrypted keys.
  • timeout (int) – How many seconds to wait before timing out. (default is 600)
  • max_tries (int) – How many times to retry if a deployment fails before giving up (default is 3)
  • ssh_interface (str) – The interface to wait for. Default is ‘public_ips’, other option is ‘private_ips’.
  • at_exit_func (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.

  • wait_period (int) – How many seconds to wait between each iteration while waiting for node to transition into running state and have IP assigned. (default is 5)
destroy_node(node, ex_destroy_associated_resources=False)[source]

Destroy node.

Parameters:
  • node (Node) – Node object.
  • ex_destroy_associated_resources – True to destroy associated

resources such as storage volumes and IPs. :type ex_destroy_associated_resources: bool

Returns:True if the destroy was successful, otherwise False.
Return type:bool
destroy_volume(volume)[source]

Delete volume.

Parameters:volume (StorageVolume) – Volume to be destroyed.
Returns:True if the destroy was successful, otherwise False.
Return type:bool
destroy_volume_snapshot(snapshot)[source]

Destroy a snapshot.

Parameters:snapshot (:class:'.VolumeSnapshot`) – The snapshot to delete.
Returns:True if the destroy was successful, otherwise False.
Return type:bool
detach_volume(volume)[source]

Detaches a volume from a node.

Parameters:volume (StorageVolume) – Volume to be detached
Return type:bool
ex_create_ip(family, location, name)[source]

Create either an ip_v4 ip or a ip_v6.

Parameters:
  • family (int) – Defines if the ip is v4 or v6 with int 4 or int 6.
  • location (NodeLocation) – Defines which datacenter the created ip responds with.
  • name (str) – Name of your Ip.
Returns:

Ip

Return type:

GridscaleIp

ex_create_networks(name, location)[source]

Create a network at the data center location.

Parameters:
  • name (str) – Name of the network.
  • location (NodeLocation) – Location.
Returns:

Network.

Return type:

GridscaleNetwork

ex_destroy_ip(ip)[source]

Delete an ip.

Parameters:ip (GridscaleIp) – IP object.
Returns:True if delete_image was successful, False otherwise.
Return type:bool
ex_destroy_network(network)[source]

Delete network.

Parameters:network (GridscaleNetwork) – Network object.
Returns:True if destroyed successfully, otherwise False
Return type:bool

links a existing ip with a node

Parameters:
  • node (object) – node object
  • ip (object) – ip object
Returns:

Request ID

Return type:

str

link and isoimage to a node

Parameters:
  • node (object) – Node you want to link the iso image to
  • isoimage (object) – isomiage you want to link
Returns:

None -> success

Return type:

None

Link a network to a node.

Parameters:
  • node (Node) – Node object to link networks to.
  • network (GridscaleNetwork) – Network you want to link.
Returns:

True if linked sucessfully, otherwise False

Return type:

bool

ex_list_ips()[source]

Lists all IPs available.

Returns:List of IP objects.
Return type:list of GridscaleIp
ex_list_ips_for_node(node)[source]

Return a list of associated IPs for the provided node.

Rype:list of GridscaleIp
ex_list_networks()[source]

List all networks.

Returns:List of objects.
Return type:list of GridscaleNetwork
ex_list_volumes_for_node(node)[source]

Return a list of associated volumes for the provided node.

Return type:list of StorageVolume
ex_rename_network(network, name)[source]

Modify networks name.

Parameters:
Returns:

True or False

Return type:

bool

ex_rename_node(node, name)[source]

Modify node name.

Parameters:
  • name (str) – New node name.
  • node (Node) – Node
Returns:

True or False

Return type:

bool

ex_rename_volume(volume, name)[source]

Modify storage volume name

Parameters:
  • volume (:class:.`StorageVolume`) – Storage.
  • name (str) – New storage name.
Returns:

True or False

Return type:

bool

ex_storage_rollback(volume, snapshot, rollback)[source]

initiate a rollback on your storage

Parameters:
  • volume (string) – storage uuid
  • snapshot (string) – snapshot uuid
  • rollback (bool) – variable
Returns:

RequestID

Return type:

str

unlink ips from server

Parameters:
  • node (object) – node you want to unlink the ip from
  • ip (object) – the ip you want to unlink
Returns:

None -> success

Return type:

None

unlink isoimages from server

Parameters:
  • node (object) – node you want to unlink the image from
  • isoimage (object) – isoimage you want to unlink
Returns:

None -> success

Return type:

None

Unlink network from node.

Parameters:
  • node (Node) – Node you want to unlink from network.
  • network (:class:`.GridscaleNetwork) – Network you want to unlink.
Returns:

True if unlink was successful, otherwise False

Return type:

bool

get_image(image_id)[source]

Get an image based on an image_id.

Parameters:image_id (str) – Image identifier.
Returns:A NodeImage object.
Return type:NodeImage
get_key_pair(name)

Retrieve a single key pair.

Parameters:name (str) – Name of the key pair to retrieve.
Return type:KeyPair
import_key_pair_from_file(name, key_file_path)

Import a new public key from string.

Parameters:
  • name (str) – Key pair name.
  • key_file_path (str) – Path to the public key file.
Return type:

KeyPair object

import_key_pair_from_string(name, key_material)[source]

Import a new public key from string.

Parameters:
  • name (str) – Key pair name.
  • key_material (str) – Public key material.
Return type:

KeyPair object

list_images()[source]

List images.

Returns:List of node image objects
Return type:list of NodeImage
list_key_pairs()[source]

List all the available key pair objects.

Return type:``list``of KeyPair objects
list_locations()[source]

List all available data centers.

Returns:List of node location objects
Return type:list of NodeLocation
list_nodes()[source]

List all nodes.

Returns:List of node objects
Return type:list of Node
list_sizes(location=None)

List sizes on a provider

Parameters:location (NodeLocation) – The location at which to list sizes
Returns:list of node size objects
Return type:list of NodeSize
list_volume_snapshots(volume)[source]

Lists all snapshots for storage volume.

Parameters:volume (StorageVolume) – storage the snapshot is attached to
Returns:Snapshots
Return type:list of VolumeSnapshot
list_volumes()[source]

List all volumes.

Returns:List of StorageVolume object
Return type:list of StorageVolume
reboot_node(node, ex_sleep_interval=3)[source]

Reboot a node.

Parameters:
  • node (Node) – Node object.
  • ex_sleep_interval (int) – time to let the shutdown process finish
Returns:

True if the reboot was successful, otherwise False.

Return type:

bool

start_node(node)[source]

Start a node.

Parameters:node (Node) – The node to be started
Returns:True if the start was successful, otherwise False
Return type:bool
stop_node(node)

Stop a node

Parameters:node (Node) – The node to be stopped.
Returns:True if the stop was successful, otherwise False
Return type:bool
wait_until_running(nodes, wait_period=5, timeout=600, ssh_interface='public_ips', force_ipv4=True, ex_list_nodes_kwargs=None)

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.

Parameters:
  • nodes (list of Node) – List of nodes to wait for.
  • wait_period (int) – How many seconds to wait between each loop iteration. (default is 3)
  • timeout (int) – How many seconds to wait before giving up. (default is 600)
  • ssh_interface (str) – Which attribute on the node to use to obtain an IP address. Valid options: public_ips, private_ips. Default is public_ips.
  • force_ipv4 (bool) – Ignore IPv6 addresses (default is True).
  • ex_list_nodes_kwargs (dict) – Optional driver-specific keyword arguments which are passed to the list_nodes method.
Returns:

[(Node, ip_addresses)] list of tuple of Node instance and list of ip_address on success.

Return type:

list of tuple