import logging
import time
-from neutronclient.common.exceptions import PortNotFoundClient
from novaclient.exceptions import NotFound
-from snaps.openstack.create_network import PortSettings
-from snaps.openstack.utils import glance_utils
+from snaps.config.vm_inst import VmInstanceConfig, FloatingIpConfig
+from snaps.openstack.openstack_creator import OpenStackComputeObject
+from snaps.openstack.utils import glance_utils, cinder_utils, settings_utils
from snaps.openstack.utils import neutron_utils
from snaps.openstack.utils import nova_utils
+from snaps.openstack.utils.nova_utils import RebootType
from snaps.provisioning import ansible_utils
__author__ = 'spisarski'
logger = logging.getLogger('create_instance')
POLL_INTERVAL = 3
+VOL_DETACH_TIMEOUT = 120
STATUS_ACTIVE = 'ACTIVE'
STATUS_DELETED = 'DELETED'
-class OpenStackVmInstance:
+class OpenStackVmInstance(OpenStackComputeObject):
"""
- Class responsible for creating a VM instance in OpenStack
+ Class responsible for managing a VM instance in OpenStack
"""
def __init__(self, os_creds, instance_settings, image_settings,
:param keypair_settings: The keypair metadata (Optional)
:raises Exception
"""
- self.__os_creds = os_creds
+ super(self.__class__, self).__init__(os_creds)
- self.__nova = None
self.__neutron = None
self.instance_settings = instance_settings
self.image_settings = image_settings
self.keypair_settings = keypair_settings
- # TODO - get rid of FIP list and only use the dict(). Need to fix
- # populating this object when already exists
- self.__floating_ips = list()
self.__floating_ip_dict = dict()
# Instantiated in self.create()
# Note: this object does not change after the VM becomes active
self.__vm = None
- def create(self, cleanup=False, block=False):
+ def initialize(self):
"""
- Creates a VM instance
- :param cleanup: When true, only perform lookups for OpenStack objects.
+ Loads the existing VMInst, Port, FloatingIps
+ :return: VMInst domain object
+ """
+ super(self.__class__, self).initialize()
+
+ self.__neutron = neutron_utils.neutron_client(self._os_creds)
+
+ self.__ports = self.__query_ports(self.instance_settings.port_settings)
+ self.__lookup_existing_vm_by_name()
+
+ def create(self, block=False):
+ """
+ Creates a VM instance and associated objects unless they already exist
:param block: Thread will block until instance has either become
active, error, or timeout waiting.
Additionally, when True, floating IPs will not be applied
until VM is active.
- :return: The VM reference object
+ :return: VMInst domain object
"""
- self.__nova = nova_utils.nova_client(self.__os_creds)
- self.__neutron = neutron_utils.neutron_client(self.__os_creds)
+ self.initialize()
- self.__ports = self.__setup_ports(self.instance_settings.port_settings,
- cleanup)
- self.__lookup_existing_vm_by_name()
- if not self.__vm and not cleanup:
+ if len(self.__ports) == 0:
+ self.__ports = self.__create_ports(
+ self.instance_settings.port_settings)
+ if not self.__vm:
self.__create_vm(block)
+
return self.__vm
def __lookup_existing_vm_by_name(self):
VM with the same name already exists
within the project
"""
- servers = nova_utils.get_servers_by_name(self.__nova,
- self.instance_settings.name)
- for server in servers:
+ server = nova_utils.get_server(
+ self._nova, self.__neutron,
+ vm_inst_settings=self.instance_settings)
+ if server:
if server.name == self.instance_settings.name:
self.__vm = server
logger.info(
'Found existing machine with name - %s',
self.instance_settings.name)
- fips = neutron_utils.get_floating_ips(self.__nova)
- for fip in fips:
- if fip.instance_id == server.id:
- self.__floating_ips.append(fip)
- # TODO - Determine a means to associate to the FIP
- # configuration and add to FIP map
+
+ fips = neutron_utils.get_port_floating_ips(
+ self.__neutron, self.__ports)
+ for port_id, fip in fips:
+ settings = self.instance_settings.floating_ip_settings
+ for fip_setting in settings:
+ if port_id == fip_setting.port_id:
+ self.__floating_ip_dict[fip_setting.name] = fip
+ else:
+ port = neutron_utils.get_port_by_id(
+ self.__neutron, port_id)
+ if port and port.name == fip_setting.port_name:
+ self.__floating_ip_dict[fip_setting.name] = fip
def __create_vm(self, block=False):
"""
active, error, or timeout waiting. Floating IPs will be
assigned after active when block=True
"""
- glance = glance_utils.glance_client(self.__os_creds)
+ glance = glance_utils.glance_client(self._os_creds)
self.__vm = nova_utils.create_server(
- self.__nova, self.__neutron, glance, self.instance_settings,
- self.image_settings, self.keypair_settings)
+ self._nova, self.__neutron, glance, self.instance_settings,
+ self.image_settings, self.project_id, self.keypair_settings)
logger.info('Created instance with name - %s',
self.instance_settings.name)
if block:
if not self.vm_active(block=True):
- raise Exception(
+ raise VmInstanceCreationError(
'Fatal error, VM did not become ACTIVE within the alloted '
'time')
# Create server should do this but found it needed to occur here
for sec_grp_name in self.instance_settings.security_group_names:
if self.vm_active(block=True):
- nova_utils.add_security_group(self.__nova, self.__vm,
+ nova_utils.add_security_group(self._nova, self.__vm,
sec_grp_name)
else:
- raise Exception(
+ raise VmInstanceCreationError(
'Cannot applying security group with name ' +
sec_grp_name +
' to VM that did not activate with name - ' +
self.instance_settings.name)
+ if self.instance_settings.volume_names:
+ for volume_name in self.instance_settings.volume_names:
+ cinder = cinder_utils.cinder_client(self._os_creds)
+ volume = cinder_utils.get_volume(
+ cinder, volume_name=volume_name)
+
+ if volume and self.vm_active(block=True):
+ vm = nova_utils.attach_volume(
+ self._nova, self.__neutron, self.__vm, volume,
+ self.project_id, timeout=VOL_DETACH_TIMEOUT)
+
+ if vm:
+ self.__vm = vm
+ else:
+ logger.warn('Volume [%s] not attached within timeout '
+ 'of [%s]', volume.name, VOL_DETACH_TIMEOUT)
+ else:
+ logger.warn('Unable to attach volume named [%s]',
+ volume_name)
+
self.__apply_floating_ips()
def __apply_floating_ips(self):
# Apply floating IPs
for floating_ip_setting in self.instance_settings.floating_ip_settings:
- port = port_dict.get(floating_ip_setting.port_name)
+ self.add_floating_ip(floating_ip_setting)
- if not port:
- raise Exception(
- 'Cannot find port object with name - ' +
- floating_ip_setting.port_name)
+ def add_floating_ip(self, floating_ip_setting):
+ """
+ Adds a floating IP to a running instance
+ :param floating_ip_setting - the floating IP configuration
+ :return: the floating ip object
+ """
+ port_dict = dict()
+ for key, port in self.__ports:
+ port_dict[key] = port
- # Setup Floating IP only if there is a router with an external
- # gateway
- ext_gateway = self.__ext_gateway_by_router(
+ # Apply floating IP
+ port = port_dict.get(floating_ip_setting.port_name)
+
+ if not port:
+ raise VmInstanceCreationError(
+ 'Cannot find port object with name - ' +
+ floating_ip_setting.port_name)
+
+ # Setup Floating IP only if there is a router with an external
+ # gateway
+ ext_gateway = self.__ext_gateway_by_router(
+ floating_ip_setting.router_name)
+ if ext_gateway and self.vm_active(block=True):
+ floating_ip = neutron_utils.create_floating_ip(
+ self.__neutron, ext_gateway, port.id)
+ self.__floating_ip_dict[floating_ip_setting.name] = floating_ip
+
+ logger.info(
+ 'Created floating IP %s via router - %s', floating_ip.ip,
floating_ip_setting.router_name)
- if ext_gateway:
- subnet = neutron_utils.get_subnet_by_name(
- self.__neutron, floating_ip_setting.subnet_name)
- floating_ip = neutron_utils.create_floating_ip(
- self.__neutron, ext_gateway)
- self.__floating_ips.append(floating_ip)
- self.__floating_ip_dict[floating_ip_setting.name] = floating_ip
- logger.info(
- 'Created floating IP %s via router - %s', floating_ip.ip,
- floating_ip_setting.router_name)
- self.__add_floating_ip(floating_ip, port, subnet)
- else:
- raise Exception('Unable to add floating IP to port,'
- ' cannot locate router with an external '
- 'gateway ')
+ return floating_ip
+ else:
+ raise VmInstanceCreationError(
+ 'Unable to add floating IP to port, cannot locate router '
+ 'with an external gateway ')
def __ext_gateway_by_router(self, router_name):
"""
:param router_name: The name of the router to lookup
:return: the external network name or None
"""
- router = neutron_utils.get_router_by_name(self.__neutron, router_name)
- if router and router['router'].get('external_gateway_info'):
+ router = neutron_utils.get_router(
+ self.__neutron, router_name=router_name)
+ if router and router.external_network_id:
network = neutron_utils.get_network_by_id(
- self.__neutron,
- router['router']['external_gateway_info']['network_id'])
+ self.__neutron, router.external_network_id)
if network:
- return network['network']['name']
+ return network.name
return None
def clean(self):
"""
# Cleanup floating IPs
- for floating_ip in self.__floating_ips:
- try:
- logger.info('Deleting Floating IP - ' + floating_ip.ip)
- neutron_utils.delete_floating_ip(self.__neutron, floating_ip)
- except Exception as e:
- logger.error('Error deleting Floating IP - ' + str(e))
- self.__floating_ips = list()
+ for name, floating_ip in self.__floating_ip_dict.items():
+ logger.info('Deleting Floating IP - ' + floating_ip.ip)
+ neutron_utils.delete_floating_ip(self.__neutron, floating_ip)
+
self.__floating_ip_dict = dict()
# Cleanup ports
for name, port in self.__ports:
- logger.info('Deleting Port - ' + name)
- try:
- neutron_utils.delete_port(self.__neutron, port)
- except PortNotFoundClient as e:
- logger.warning('Unexpected error deleting port - %s', e)
- pass
+ logger.info('Deleting Port with ID - %s ', port.id)
+ neutron_utils.delete_port(self.__neutron, port)
+
self.__ports = list()
- # Cleanup VM
if self.__vm:
+ # Detach Volume
+ for volume_rec in self.__vm.volume_ids:
+ cinder = cinder_utils.cinder_client(self._os_creds)
+ volume = cinder_utils.get_volume_by_id(
+ cinder, volume_rec['id'])
+ if volume:
+ vm = nova_utils.detach_volume(
+ self._nova, self.__neutron, self.__vm, volume,
+ self.project_id, timeout=VOL_DETACH_TIMEOUT)
+ if vm:
+ self.__vm = vm
+ else:
+ logger.warn(
+ 'Timeout waiting to detach volume %s', volume.name)
+ else:
+ logger.warn('Unable to detach volume with ID - [%s]',
+ volume_rec['id'])
+
+ # Cleanup VM
+ logger.info(
+ 'Deleting VM instance - ' + self.instance_settings.name)
+
try:
- logger.info(
- 'Deleting VM instance - ' + self.instance_settings.name)
- nova_utils.delete_vm_instance(self.__nova, self.__vm)
- except Exception as e:
- logger.error('Error deleting VM - %s', e)
+ nova_utils.delete_vm_instance(self._nova, self.__vm)
+ except NotFound as e:
+ logger.warn('Instance already deleted - %s', e)
# Block until instance cannot be found or returns the status of
# DELETED
logger.info('Checking deletion status')
- try:
- if self.vm_deleted(block=True):
- logger.info(
- 'VM has been properly deleted VM with name - %s',
- self.instance_settings.name)
- self.__vm = None
- else:
- logger.error(
- 'VM not deleted within the timeout period of %s '
- 'seconds', self.instance_settings.vm_delete_timeout)
- except Exception as e:
+ if self.vm_deleted(block=True):
+ logger.info(
+ 'VM has been properly deleted VM with name - %s',
+ self.instance_settings.name)
+ self.__vm = None
+ else:
logger.error(
- 'Unexpected error while checking VM instance status - %s',
- e)
+ 'VM not deleted within the timeout period of %s '
+ 'seconds', self.instance_settings.vm_delete_timeout)
- def __setup_ports(self, port_settings, cleanup):
+ def __query_ports(self, port_settings):
"""
- Returns the previously configured ports or creates them if they do not
+ Returns the previously configured ports or an empty list if none
exist
:param port_settings: A list of PortSetting objects
- :param cleanup: When true, only perform lookups for OpenStack objects.
:return: a list of OpenStack port tuples where the first member is the
port name and the second is the port object
"""
ports = list()
for port_setting in port_settings:
- # First check to see if network already has this port
- # TODO/FIXME - this could potentially cause problems if another
- # port with the same name exists
- # VM has the same network/port name pair
- found = False
-
- # TODO/FIXME - should we not be iterating on ports for the specific
- # network in question as unique port names
- # seem to only be important by network
- existing_ports = self.__neutron.list_ports()['ports']
- for existing_port in existing_ports:
- if existing_port['name'] == port_setting.name:
- ports.append((port_setting.name, {'port': existing_port}))
- found = True
- break
-
- if not found and not cleanup:
- ports.append((port_setting.name,
- neutron_utils.create_port(self.__neutron,
- self.__os_creds,
- port_setting)))
+ port = neutron_utils.get_port(
+ self.__neutron, port_settings=port_setting,
+ project_id=self.project_id)
+ if port:
+ ports.append((port_setting.name, port))
return ports
- def __add_floating_ip(self, floating_ip, port, subnet, timeout=30,
- poll_interval=POLL_INTERVAL):
+ def __create_ports(self, port_settings):
"""
- Returns True when active else False
- TODO - Make timeout and poll_interval configurable...
+ Returns the previously configured ports or creates them if they do not
+ exist
+ :param port_settings: A list of PortSetting objects
+ :return: a list of OpenStack port tuples where the first member is the
+ port name and the second is the port object
"""
- ip = None
+ ports = list()
- if subnet:
- # Take IP of subnet if there is one configured on which to place
- # the floating IP
- for fixed_ip in port['port']['fixed_ips']:
- if fixed_ip['subnet_id'] == subnet['subnet']['id']:
- ip = fixed_ip['ip_address']
- break
- else:
- # Simply take the first
- ip = port['port']['fixed_ips'][0]['ip_address']
-
- if ip:
- count = timeout / poll_interval
- while count > 0:
- logger.debug('Attempting to add floating IP to instance')
- try:
- nova_utils.add_floating_ip_to_server(
- self.__nova, self.__vm, floating_ip, ip)
- logger.info(
- 'Added floating IP %s to port IP %s on instance %s',
- floating_ip.ip, ip, self.instance_settings.name)
- return
- except Exception as e:
- logger.debug(
- 'Retry adding floating IP to instance. Last attempt '
- 'failed with - %s', e)
- time.sleep(poll_interval)
- count -= 1
- pass
- else:
- raise Exception(
- 'Unable find IP address on which to place the floating IP')
+ for port_setting in port_settings:
+ port = neutron_utils.get_port(
+ self.__neutron, port_settings=port_setting)
+ if not port:
+ port = neutron_utils.create_port(
+ self.__neutron, self._os_creds, port_setting)
+ if port:
+ ports.append((port_setting.name, port))
- logger.error('Timeout attempting to add the floating IP to instance.')
- raise Exception('Timeout while attempting add floating IP to instance')
+ return ports
def get_os_creds(self):
"""
Returns the OpenStack credentials used to create these objects
:return: the credentials
"""
- return self.__os_creds
+ return self._os_creds
def get_vm_inst(self):
"""
Returns the latest version of this server object from OpenStack
:return: Server object
"""
- return self.__vm
+ return nova_utils.get_server_object_by_id(
+ self._nova, self.__neutron, self.__vm.id, self.project_id)
- def get_os_vm_server_obj(self):
+ def get_console_output(self):
"""
- Returns the OpenStack server object
- :return: the server object
+ Returns the vm console object for parsing logs
+ :return: the console output object
"""
- return nova_utils.get_latest_server_os_object(self.__nova, self.__vm)
+ return nova_utils.get_server_console_output(self._nova, self.__vm)
def get_port_ip(self, port_name, subnet_name=None):
"""
"""
port = self.get_port_by_name(port_name)
if port:
- port_dict = port['port']
if subnet_name:
- subnet = neutron_utils.get_subnet_by_name(self.__neutron,
- subnet_name)
+ subnet = neutron_utils.get_subnet(
+ self.__neutron, subnet_name=subnet_name)
if not subnet:
logger.warning('Cannot retrieve port IP as subnet could '
'not be located with name - %s',
subnet_name)
return None
- for fixed_ip in port_dict['fixed_ips']:
- if fixed_ip['subnet_id'] == subnet['subnet']['id']:
+ for fixed_ip in port.ips:
+ if fixed_ip['subnet_id'] == subnet.id:
return fixed_ip['ip_address']
else:
- fixed_ips = port_dict['fixed_ips']
- if fixed_ips and len(fixed_ips) > 0:
- return fixed_ips[0]['ip_address']
+ if port.ips and len(port.ips) > 0:
+ return port.ips[0]['ip_address']
return None
def get_port_mac(self, port_name):
"""
port = self.get_port_by_name(port_name)
if port:
- port_dict = port['port']
- return port_dict['mac_address']
+ return port.mac_address
return None
def get_port_by_name(self, port_name):
logger.warning('Cannot find port with name - ' + port_name)
return None
- def config_nics(self):
+ def get_vm_info(self):
"""
- Responsible for configuring NICs on RPM systems where the instance has
- more than one configured port
- :return: None
+ Returns a dictionary of a VMs info as returned by OpenStack
+ :return: a dict()
"""
- if len(self.__ports) > 1 and len(self.__floating_ips) > 0:
- if self.vm_active(block=True) and self.vm_ssh_active(block=True):
- for key, port in self.__ports:
- port_index = self.__ports.index((key, port))
- if port_index > 0:
- nic_name = 'eth' + repr(port_index)
- self.__config_nic(
- nic_name, port,
- self.__get_first_provisioning_floating_ip().ip)
- logger.info('Configured NIC - %s on VM - %s',
- nic_name, self.instance_settings.name)
+ return nova_utils.get_server_info(self._nova, self.__vm)
def __get_first_provisioning_floating_ip(self):
"""
fip = self.__floating_ip_dict.get(floating_ip_setting.name)
if fip:
return fip
- elif len(self.__floating_ips) > 0:
- return self.__floating_ips[0]
-
- def __config_nic(self, nic_name, port, ip):
- """
- Although ports/NICs can contain multiple IPs, this code currently only
- supports the first.
-
- :param nic_name: Name of the interface
- :param port: The port information containing the expected IP values.
- :param ip: The IP on which to apply the playbook.
- :return: the return value from ansible
- """
- port_ip = port['port']['fixed_ips'][0]['ip_address']
- variables = {
- 'floating_ip': ip,
- 'nic_name': nic_name,
- 'nic_ip': port_ip
- }
+ elif len(self.__floating_ip_dict) > 0:
+ for key, fip in self.__floating_ip_dict.items():
+ return fip
- if self.image_settings.nic_config_pb_loc and self.keypair_settings:
- return self.apply_ansible_playbook(
- self.image_settings.nic_config_pb_loc, variables)
- else:
- logger.warning(
- 'VM %s cannot self configure NICs eth1++. No playbook or '
- 'keypairs found.', self.instance_settings.name)
+ # When cannot be found above
+ if len(self.__floating_ip_dict) > 0:
+ for key, fip in self.__floating_ip_dict.items():
+ return fip
def apply_ansible_playbook(self, pb_file_loc, variables=None,
fip_name=None):
"""
return ansible_utils.apply_playbook(
pb_file_loc, [self.get_floating_ip(fip_name=fip_name).ip],
- self.get_image_user(), self.keypair_settings.private_filepath,
- variables, self.__os_creds.proxy_settings)
+ self.get_image_user(),
+ ssh_priv_key_file_path=self.keypair_settings.private_filepath,
+ variables=variables, proxy_setting=self._os_creds.proxy_settings)
def get_image_user(self):
"""
def vm_active(self, block=False, poll_interval=POLL_INTERVAL):
"""
- Returns true when the VM status returns the value of
- expected_status_code
+ Returns true when the VM status returns the value of the constant
+ STATUS_ACTIVE
:param block: When true, thread will block until active or timeout
value in seconds has been exceeded (False)
:param poll_interval: The polling interval in seconds
:return: T/F
"""
- return self.__vm_status_check(STATUS_ACTIVE, block,
- self.instance_settings.vm_boot_timeout,
- poll_interval)
+ if self.__vm_status_check(
+ STATUS_ACTIVE, block, self.instance_settings.vm_boot_timeout,
+ poll_interval):
+ self.__vm = nova_utils.get_server_object_by_id(
+ self._nova, self.__neutron, self.__vm.id, self.project_id)
+ return True
+ return False
def __vm_status_check(self, expected_status_code, block, timeout,
poll_interval):
:return: T/F
"""
if not self.__vm:
- return False
+ if expected_status_code == STATUS_DELETED:
+ return True
+ else:
+ return False
- instance = nova_utils.get_latest_server_os_object(
- self.__nova, self.__vm)
- if not instance:
+ status = nova_utils.get_server_status(self._nova, self.__vm)
+ if not status:
logger.warning('Cannot find instance with id - ' + self.__vm.id)
return False
- if instance.status == 'ERROR':
- raise Exception('Instance had an error during deployment')
+ if status == 'ERROR':
+ raise VmInstanceCreationError(
+ 'Instance had an error during deployment')
logger.debug(
'Instance status [%s] is - %s', self.instance_settings.name,
- instance.status)
- return instance.status == expected_status_code
+ status)
+ return status == expected_status_code
- def vm_ssh_active(self, block=False, poll_interval=POLL_INTERVAL):
+ def vm_ssh_active(self, user_override=None, password=None, block=False,
+ timeout=None, poll_interval=POLL_INTERVAL):
"""
Returns true when the VM can be accessed via SSH
+ :param user_override: overrides the user with which to create the
+ connection
+ :param password: overrides the use of a password instead of a private
+ key with which to create the connection
:param block: When true, thread will block until active or timeout
value in seconds has been exceeded (False)
+ :param timeout: the number of seconds to retry obtaining the connection
+ and overrides the ssh_connect_timeout member of the
+ self.instance_settings object
:param poll_interval: The polling interval
:return: T/F
"""
# sleep and wait for VM status change
logger.info('Checking if VM is active')
- timeout = self.instance_settings.ssh_connect_timeout
+ if not timeout:
+ timeout = self.instance_settings.ssh_connect_timeout
if self.vm_active(block=True):
if block:
start = time.time() - timeout
while timeout > time.time() - start:
- status = self.__ssh_active()
+ status = self.__ssh_active(
+ user_override=user_override, password=password)
if status:
logger.info('SSH is active for VM instance')
return True
logger.error('Timeout attempting to connect with VM via SSH')
return False
- def __ssh_active(self):
+ def __ssh_active(self, user_override=None, password=None):
"""
Returns True when can create a SSH session else False
:return: T/F
"""
- if len(self.__floating_ips) > 0:
- ssh = self.ssh_client()
+ if len(self.__floating_ip_dict) > 0:
+ ssh = self.ssh_client(
+ user_override=user_override, password=password)
if ssh:
+ ssh.close()
return True
return False
+ def cloud_init_complete(self, block=False, poll_interval=POLL_INTERVAL):
+ """
+ Returns true when the VM's cloud-init routine has completed.
+ Note: this is currently done via SSH, therefore, if this instance does
+ not have a Floating IP or a running SSH server, this routine
+ will always return False or raise an Exception
+ :param block: When true, thread will block until active or timeout
+ value in seconds has been exceeded (False)
+ :param poll_interval: The polling interval
+ :return: T/F
+ """
+ # sleep and wait for VM status change
+ logger.info('Checking if cloud-init has completed')
+
+ timeout = self.instance_settings.cloud_init_timeout
+
+ if self.vm_active(block=True) and self.vm_ssh_active(block=True):
+ if block:
+ start = time.time()
+ else:
+ start = time.time() - timeout
+
+ while timeout > time.time() - start:
+ status = self.__cloud_init_complete()
+ if status:
+ logger.info('cloud-init complete for VM instance')
+ return True
+
+ logger.debug('Retry cloud-init query in ' + str(
+ poll_interval) + ' seconds')
+ time.sleep(poll_interval)
+ logger.debug('cloud-init complete timeout in ' + str(
+ timeout - (time.time() - start)))
+
+ logger.error('Timeout waiting for cloud-init to complete')
+ return False
+
+ def __cloud_init_complete(self):
+ """
+ Returns True when can create a SSH session else False
+ :return: T/F
+ """
+ if len(self.__floating_ip_dict) > 0:
+ ssh = self.ssh_client()
+ if ssh:
+ stdin1, stdout1, sterr1 = ssh.exec_command(
+ 'ls -l /var/lib/cloud/instance/boot-finished')
+ return stdout1.channel.recv_exit_status() == 0
+ return False
+
def get_floating_ip(self, fip_name=None):
"""
Returns the floating IP object byt name if found, else the first known,
:param fip_name: the name of the floating IP to return
:return: the SSH client or None
"""
- fip = None
if fip_name and self.__floating_ip_dict.get(fip_name):
return self.__floating_ip_dict.get(fip_name)
- if not fip and len(self.__floating_ips) > 0:
- return self.__floating_ips[0]
- return None
+ else:
+ return self.__get_first_provisioning_floating_ip()
- def ssh_client(self, fip_name=None):
+ def ssh_client(self, fip_name=None, user_override=None, password=None):
"""
Returns an SSH client using the name or the first known floating IP if
exists, else None
:param fip_name: the name of the floating IP to return
+ :param user_override: the username to use instead of the default
+ :param password: the password to use instead of the private key
:return: the SSH client or None
"""
fip = self.get_floating_ip(fip_name)
+
+ ansible_user = self.get_image_user()
+ if user_override:
+ ansible_user = user_override
+
+ if password:
+ private_key = None
+ else:
+ private_key = self.keypair_settings.private_filepath
+
if fip:
return ansible_utils.ssh_client(
- self.__floating_ips[0].ip, self.get_image_user(),
- self.keypair_settings.private_filepath,
- proxy_settings=self.__os_creds.proxy_settings)
+ self.__get_first_provisioning_floating_ip().ip,
+ ansible_user,
+ private_key_filepath=private_key,
+ password=password,
+ proxy_settings=self._os_creds.proxy_settings)
else:
- logger.warning(
+ FloatingIPAllocationError(
'Cannot return an SSH client. No Floating IP configured')
def add_security_group(self, security_group):
"""
Adds a security group to this VM. Call will block until VM is active.
- :param security_group: the OpenStack security group object
+ :param security_group: the SNAPS SecurityGroup domain object
:return True if successful else False
"""
self.vm_active(block=True)
return False
try:
- nova_utils.add_security_group(self.__nova, self.get_vm_inst(),
- security_group['security_group'][
- 'name'])
+ nova_utils.add_security_group(self._nova, self.get_vm_inst(),
+ security_group.name)
return True
except NotFound as e:
logger.warning('Security group not added - ' + str(e))
return False
try:
- nova_utils.remove_security_group(self.__nova, self.get_vm_inst(),
+ nova_utils.remove_security_group(self._nova, self.get_vm_inst(),
security_group)
return True
except NotFound as e:
logger.warning('Security group not removed - ' + str(e))
return False
+ def reboot(self, reboot_type=RebootType.soft):
+ """
+ Issues a reboot call
+ :param reboot_type: instance of
+ snaps.openstack.utils.nova_utils.RebootType
+ enumeration
+ :return:
+ """
+ nova_utils.reboot_server(
+ self._nova, self.__vm, reboot_type=reboot_type)
+
-class VmInstanceSettings:
+def generate_creator(os_creds, vm_inst, image_config, project_id,
+ keypair_config=None):
"""
- Class responsible for holding configuration setting for a VM Instance
+ Initializes an OpenStackVmInstance object
+ :param os_creds: the OpenStack credentials
+ :param vm_inst: the SNAPS-OO VmInst domain object
+ :param image_config: the associated ImageConfig object
+ :param project_id: the associated project ID
+ :param keypair_config: the associated KeypairConfig object (optional)
+ :return: an initialized OpenStackVmInstance object
"""
+ nova = nova_utils.nova_client(os_creds)
+ neutron = neutron_utils.neutron_client(os_creds)
+ derived_inst_config = settings_utils.create_vm_inst_config(
+ nova, neutron, vm_inst, project_id)
- def __init__(self, **kwargs):
- """
- Constructor
- :param name: the name of the VM
- :param flavor: the VM's flavor
- :param port_settings: the port configuration settings (required)
- :param security_group_names: a set of names of the security groups to
- add to the VM
- :param floating_ip_settings: the floating IP configuration settings
- :param sudo_user: the sudo user of the VM that will override the
- instance_settings.image_user when trying to
- connect to the VM
- :param vm_boot_timeout: the amount of time a thread will sleep waiting
- for an instance to boot
- :param vm_delete_timeout: the amount of time a thread will sleep
- waiting for an instance to be deleted
- :param ssh_connect_timeout: the amount of time a thread will sleep
- waiting obtaining an SSH connection to a VM
- :param availability_zone: the name of the compute server on which to
- deploy the VM (optional)
- :param userdata: the cloud-init script to run after the VM has been
- started
- """
- self.name = kwargs.get('name')
- self.flavor = kwargs.get('flavor')
- self.sudo_user = kwargs.get('sudo_user')
- self.userdata = kwargs.get('userdata')
-
- self.port_settings = list()
- port_settings = kwargs.get('ports')
- if not port_settings:
- port_settings = kwargs.get('port_settings')
- if port_settings:
- for port_setting in port_settings:
- if isinstance(port_setting, dict):
- self.port_settings.append(PortSettings(**port_setting))
- elif isinstance(port_setting, PortSettings):
- self.port_settings.append(port_setting)
-
- if kwargs.get('security_group_names'):
- if isinstance(kwargs['security_group_names'], list):
- self.security_group_names = kwargs['security_group_names']
- elif isinstance(kwargs['security_group_names'], set):
- self.security_group_names = kwargs['security_group_names']
- elif isinstance(kwargs['security_group_names'], str):
- self.security_group_names = [kwargs['security_group_names']]
- else:
- raise Exception(
- 'Invalid data type for security_group_names attribute')
- else:
- self.security_group_names = set()
-
- self.floating_ip_settings = list()
- floating_ip_settings = kwargs.get('floating_ips')
- if not floating_ip_settings:
- floating_ip_settings = kwargs.get('floating_ip_settings')
- if floating_ip_settings:
- for floating_ip_config in floating_ip_settings:
- if isinstance(floating_ip_config, FloatingIpSettings):
- self.floating_ip_settings.append(floating_ip_config)
- else:
- self.floating_ip_settings.append(FloatingIpSettings(
- **floating_ip_config['floating_ip']))
-
- if kwargs.get('vm_boot_timeout'):
- self.vm_boot_timeout = kwargs['vm_boot_timeout']
- else:
- self.vm_boot_timeout = 900
-
- if kwargs.get('vm_delete_timeout'):
- self.vm_delete_timeout = kwargs['vm_delete_timeout']
- else:
- self.vm_delete_timeout = 300
+ derived_inst_creator = OpenStackVmInstance(
+ os_creds, derived_inst_config, image_config, keypair_config)
+ derived_inst_creator.initialize()
+ return derived_inst_creator
- if kwargs.get('ssh_connect_timeout'):
- self.ssh_connect_timeout = kwargs['ssh_connect_timeout']
- else:
- self.ssh_connect_timeout = 180
- if kwargs.get('availability_zone'):
- self.availability_zone = kwargs['availability_zone']
- else:
- self.availability_zone = None
+class VmInstanceSettings(VmInstanceConfig):
+ """
+ Deprecated, use snaps.config.vm_inst.VmInstanceConfig instead
+ """
+ def __init__(self, **kwargs):
+ from warnings import warn
+ warn('Use snaps.config.vm_inst.VmInstanceConfig instead',
+ DeprecationWarning)
+ super(self.__class__, self).__init__(**kwargs)
- if not self.name or not self.flavor:
- raise Exception(
- 'Instance configuration requires the attributes: name, flavor')
- if len(self.port_settings) == 0:
- raise Exception(
- 'Instance configuration requires port settings (aka. NICS)')
+class FloatingIpSettings(FloatingIpConfig):
+ """
+ Deprecated, use snaps.config.vm_inst.FloatingIpConfig instead
+ """
+ def __init__(self, **kwargs):
+ from warnings import warn
+ warn('Use snaps.config.vm_inst.FloatingIpConfig instead',
+ DeprecationWarning)
+ super(self.__class__, self).__init__(**kwargs)
-class FloatingIpSettings:
+class VmInstanceCreationError(Exception):
"""
- Class responsible for holding configuration settings for a floating IP
+ Exception to be thrown when an VM instance cannot be created
"""
- def __init__(self, **kwargs):
- """
- Constructor
- :param name: the name of the floating IP
- :param port_name: the name of the router to the external network
- :param router_name: the name of the router to the external network
- :param subnet_name: the name of the subnet on which to attach the
- floating IP
- :param provisioning: when true, this floating IP can be used for
- provisioning
-
- TODO - provisioning flag is a hack as I have only observed a single
- Floating IPs that actually works on an instance. Multiple floating IPs
- placed on different subnets from the same port are especially
- troublesome as you cannot predict which one will actually connect.
- For now, it is recommended not to setup multiple floating IPs on an
- instance unless absolutely necessary.
- """
- self.name = kwargs.get('name')
- self.port_name = kwargs.get('port_name')
- self.router_name = kwargs.get('router_name')
- self.subnet_name = kwargs.get('subnet_name')
- if kwargs.get('provisioning') is not None:
- self.provisioning = kwargs['provisioning']
- else:
- self.provisioning = True
- if not self.name or not self.port_name or not self.router_name:
- raise Exception(
- 'The attributes name, port_name and router_name are required '
- 'for FloatingIPSettings')
+class FloatingIPAllocationError(Exception):
+ """
+ Exception to be thrown when an VM instance cannot allocate a floating IP
+ """