def get_delete_amphora_flow(self):
"""Creates a flow to delete an amphora.
This should be configurable in the config file
:returns: The flow for deleting the amphora
:raises AmphoraNotFound: The referenced Amphora was not found
"""
delete_amphora_flow = linear_flow.Flow(constants.DELETE_AMPHORA_FLOW)
delete_amphora_flow.add(
lifecycle_tasks.AmphoraToErrorOnRevertTask(
requires=constants.AMPHORA))
delete_amphora_flow.add(
database_tasks.MarkAmphoraPendingDeleteInDB(
requires=constants.AMPHORA))
delete_amphora_flow.add(
database_tasks.MarkAmphoraHealthBusy(requires=constants.AMPHORA))
delete_amphora_flow.add(
compute_tasks.ComputeDelete(requires=constants.AMPHORA))
delete_amphora_flow.add(
database_tasks.DisableAmphoraHealthMonitoring(
requires=constants.AMPHORA))
delete_amphora_flow.add(
database_tasks.MarkAmphoraDeletedInDB(requires=constants.AMPHORA))
return delete_amphora_flow
def get_delete_amphora_flow(
self,
amphora,
retry_attempts=CONF.controller_worker.amphora_delete_retries,
retry_interval=(CONF.controller_worker.amphora_delete_retry_interval)):
"""Creates a subflow to delete an amphora and it's port.
This flow is idempotent and safe to retry.
:param amphora: An amphora object.
:param retry_attempts: The number of times the flow is retried.
:param retry_interval: The time to wait, in seconds, between retries.
:returns: The subflow for deleting the amphora.
:raises AmphoraNotFound: The referenced Amphora was not found.
"""
delete_amphora_flow = linear_flow.Flow(
name=constants.DELETE_AMPHORA_FLOW + '-' + amphora.id,
retry=retry_tasks.SleepingRetryTimesController(
name='retry-' + constants.DELETE_AMPHORA_FLOW + '-' +
amphora.id,
attempts=retry_attempts,
interval=retry_interval))
delete_amphora_flow.add(
lifecycle_tasks.AmphoraToErrorOnRevertTask(
name=constants.AMPHORA_TO_ERROR_ON_REVERT + '-' + amphora.id,
inject={constants.AMPHORA: amphora}))
delete_amphora_flow.add(
database_tasks.MarkAmphoraPendingDeleteInDB(
name=constants.MARK_AMPHORA_PENDING_DELETE + '-' + amphora.id,
inject={constants.AMPHORA: amphora}))
delete_amphora_flow.add(
database_tasks.MarkAmphoraHealthBusy(
name=constants.MARK_AMPHORA_HEALTH_BUSY + '-' + amphora.id,
inject={constants.AMPHORA: amphora}))
delete_amphora_flow.add(
compute_tasks.ComputeDelete(name=constants.DELETE_AMPHORA + '-' +
amphora.id,
inject={
constants.AMPHORA: amphora,
constants.PASSIVE_FAILURE: True
}))
delete_amphora_flow.add(
database_tasks.DisableAmphoraHealthMonitoring(
name=constants.DISABLE_AMP_HEALTH_MONITORING + '-' +
amphora.id,
inject={constants.AMPHORA: amphora}))
delete_amphora_flow.add(
database_tasks.MarkAmphoraDeletedInDB(
name=constants.MARK_AMPHORA_DELETED + '-' + amphora.id,
inject={constants.AMPHORA: amphora}))
if amphora.vrrp_port_id:
delete_amphora_flow.add(
network_tasks.DeletePort(
name=(constants.DELETE_PORT + '-' + str(amphora.id) + '-' +
str(amphora.vrrp_port_id)),
inject={
constants.PORT_ID: amphora.vrrp_port_id,
constants.PASSIVE_FAILURE: True
}))
# TODO(johnsom) What about cleaning up any member ports?
# maybe we should get the list of attached ports prior to delete
# and call delete on them here. Fix this as part of
# https://storyboard.openstack.org/#!/story/2007077
return delete_amphora_flow
def get_failover_flow(self,
role=constants.ROLE_STANDALONE,
load_balancer=None):
"""Creates a flow to failover a stale amphora
:returns: The flow for amphora failover
"""
failover_amphora_flow = linear_flow.Flow(
constants.FAILOVER_AMPHORA_FLOW)
failover_amphora_flow.add(
lifecycle_tasks.AmphoraToErrorOnRevertTask(
rebind={constants.AMPHORA: constants.FAILED_AMPHORA},
requires=constants.AMPHORA))
failover_amphora_flow.add(
network_tasks.FailoverPreparationForAmphora(
rebind={constants.AMPHORA: constants.FAILED_AMPHORA},
requires=constants.AMPHORA))
# Note: It seems intuitive to boot an amphora prior to deleting
# the old amphora, however this is a complicated issue.
# If the target host (due to anit-affinity) is resource
# constrained, this will fail where a post-delete will
# succeed. Since this is async with the API it would result
# in the LB ending in ERROR though the amps are still alive.
# Consider in the future making this a complicated
# try-on-failure-retry flow, or move upgrade failovers to be
# synchronous with the API. For now spares pool and act/stdby
# will mitigate most of this delay.
# Delete the old amphora
failover_amphora_flow.add(
database_tasks.MarkAmphoraPendingDeleteInDB(
rebind={constants.AMPHORA: constants.FAILED_AMPHORA},
requires=constants.AMPHORA))
failover_amphora_flow.add(
database_tasks.MarkAmphoraHealthBusy(
rebind={constants.AMPHORA: constants.FAILED_AMPHORA},
requires=constants.AMPHORA))
failover_amphora_flow.add(
compute_tasks.ComputeDelete(
rebind={constants.AMPHORA: constants.FAILED_AMPHORA},
requires=constants.AMPHORA))
failover_amphora_flow.add(
network_tasks.WaitForPortDetach(
rebind={constants.AMPHORA: constants.FAILED_AMPHORA},
requires=constants.AMPHORA))
failover_amphora_flow.add(
database_tasks.MarkAmphoraDeletedInDB(
rebind={constants.AMPHORA: constants.FAILED_AMPHORA},
requires=constants.AMPHORA))
# If this is an unallocated amp (spares pool), we're done
if not load_balancer:
failover_amphora_flow.add(
database_tasks.DisableAmphoraHealthMonitoring(
rebind={constants.AMPHORA: constants.FAILED_AMPHORA},
requires=constants.AMPHORA))
return failover_amphora_flow
# Save failed amphora details for later
failover_amphora_flow.add(
database_tasks.GetAmphoraDetails(
rebind={constants.AMPHORA: constants.FAILED_AMPHORA},
requires=constants.AMPHORA,
provides=constants.AMP_DATA))
# Get a new amphora
# Note: Role doesn't matter here. We will update it later.
get_amp_subflow = self.get_amphora_for_lb_subflow(
prefix=constants.FAILOVER_AMPHORA_FLOW)
failover_amphora_flow.add(get_amp_subflow)
# Update the new amphora with the failed amphora details
failover_amphora_flow.add(
database_tasks.UpdateAmpFailoverDetails(
requires=(constants.AMPHORA, constants.AMP_DATA)))
# Update the data stored in the flow from the database
failover_amphora_flow.add(
database_tasks.ReloadLoadBalancer(
requires=constants.LOADBALANCER_ID,
provides=constants.LOADBALANCER))
failover_amphora_flow.add(
database_tasks.ReloadAmphora(requires=constants.AMPHORA_ID,
provides=constants.AMPHORA))
# Prepare to reconnect the network interface(s)
failover_amphora_flow.add(
network_tasks.GetAmphoraeNetworkConfigs(
requires=constants.LOADBALANCER,
provides=constants.AMPHORAE_NETWORK_CONFIG))
failover_amphora_flow.add(
database_tasks.GetListenersFromLoadbalancer(
requires=constants.LOADBALANCER, provides=constants.LISTENERS))
failover_amphora_flow.add(
database_tasks.GetAmphoraeFromLoadbalancer(
requires=constants.LOADBALANCER, provides=constants.AMPHORAE))
# Plug the VIP ports into the new amphora
# The reason for moving these steps here is the udp listeners want to
# do some kernel configuration before Listener update for forbidding
# failure during rebuild amphora.
failover_amphora_flow.add(
network_tasks.PlugVIPPort(
requires=(constants.AMPHORA,
constants.AMPHORAE_NETWORK_CONFIG)))
failover_amphora_flow.add(
amphora_driver_tasks.AmphoraPostVIPPlug(
requires=(constants.AMPHORA, constants.LOADBALANCER,
constants.AMPHORAE_NETWORK_CONFIG)))
# Listeners update needs to be run on all amphora to update
# their peer configurations. So parallelize this with an
# unordered subflow.
update_amps_subflow = unordered_flow.Flow(
constants.UPDATE_AMPS_SUBFLOW)
timeout_dict = {
constants.CONN_MAX_RETRIES:
CONF.haproxy_amphora.active_connection_max_retries,
constants.CONN_RETRY_INTERVAL:
CONF.haproxy_amphora.active_connection_rety_interval
}
# Setup parallel flows for each amp. We don't know the new amp
# details at flow creation time, so setup a subflow for each
# amp on the LB, they let the task index into a list of amps
# to find the amphora it should work on.
amp_index = 0
for amp in load_balancer.amphorae:
if amp.status == constants.DELETED:
continue
update_amps_subflow.add(
amphora_driver_tasks.AmpListenersUpdate(
name=constants.AMP_LISTENER_UPDATE + '-' + str(amp_index),
requires=(constants.LOADBALANCER, constants.AMPHORAE),
inject={
constants.AMPHORA_INDEX: amp_index,
constants.TIMEOUT_DICT: timeout_dict
}))
amp_index += 1
failover_amphora_flow.add(update_amps_subflow)
# Plug the member networks into the new amphora
failover_amphora_flow.add(
network_tasks.CalculateAmphoraDelta(
requires=(constants.LOADBALANCER, constants.AMPHORA),
provides=constants.DELTA))
failover_amphora_flow.add(
network_tasks.HandleNetworkDelta(requires=(constants.AMPHORA,
constants.DELTA),
provides=constants.ADDED_PORTS))
failover_amphora_flow.add(
amphora_driver_tasks.AmphoraePostNetworkPlug(
requires=(constants.LOADBALANCER, constants.ADDED_PORTS)))
failover_amphora_flow.add(
database_tasks.ReloadLoadBalancer(
name='octavia-failover-LB-reload-2',
requires=constants.LOADBALANCER_ID,
provides=constants.LOADBALANCER))
# Handle the amphora role and VRRP if necessary
if role == constants.ROLE_MASTER:
failover_amphora_flow.add(
database_tasks.MarkAmphoraMasterInDB(
name=constants.MARK_AMP_MASTER_INDB,
requires=constants.AMPHORA))
vrrp_subflow = self.get_vrrp_subflow(role)
failover_amphora_flow.add(vrrp_subflow)
elif role == constants.ROLE_BACKUP:
failover_amphora_flow.add(
database_tasks.MarkAmphoraBackupInDB(
name=constants.MARK_AMP_BACKUP_INDB,
requires=constants.AMPHORA))
vrrp_subflow = self.get_vrrp_subflow(role)
failover_amphora_flow.add(vrrp_subflow)
elif role == constants.ROLE_STANDALONE:
failover_amphora_flow.add(
database_tasks.MarkAmphoraStandAloneInDB(
name=constants.MARK_AMP_STANDALONE_INDB,
requires=constants.AMPHORA))
failover_amphora_flow.add(
amphora_driver_tasks.ListenersStart(
requires=(constants.LOADBALANCER, constants.AMPHORA)))
failover_amphora_flow.add(
database_tasks.DisableAmphoraHealthMonitoring(
rebind={constants.AMPHORA: constants.FAILED_AMPHORA},
requires=constants.AMPHORA))
return failover_amphora_flow