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manila
Code Issues Proposed changes

Merge "NetApp cDOT controller utilization metrics"

This commit is contained in:
Jenkins 2017-01-04 22:33:53 +00:00 committed by Gerrit Code Review
parent bf5f184e2d 1ce2473f3f
commit 5365a26e44
13 changed files with 2233 additions and 26 deletions
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103
manila/share/drivers/netapp/dataontap/client/client_cmode.py
View File

@ -59,9 +59,13 @@ class NetAppCmodeClient(client_base.NetAppBaseClient):
ontapi_version = self.get_ontapi_version(cached=True)
ontapi_1_20 = ontapi_version >= (1, 20)
ontapi_1_2x = (1, 20) <= ontapi_version < (1, 30)
ontapi_1_30 = ontapi_version >= (1, 30)
self.features.add_feature('SNAPMIRROR_V2', supported=ontapi_1_20)
self.features.add_feature('SYSTEM_METRICS', supported=ontapi_1_2x)
self.features.add_feature('SYSTEM_CONSTITUENT_METRICS',
supported=ontapi_1_30)
self.features.add_feature('BROADCAST_DOMAINS', supported=ontapi_1_30)
self.features.add_feature('IPSPACES', supported=ontapi_1_30)
self.features.add_feature('SUBNETS', supported=ontapi_1_30)
@ -1094,6 +1098,105 @@ class NetAppCmodeClient(client_base.NetAppBaseClient):
else:
return result.get_child_by_name('attributes-list').get_children()
def get_performance_instance_uuids(self, object_name, node_name):
"""Get UUIDs of performance instances for a cluster node."""
api_args = {
'objectname': object_name,
'query': {
'instance-info': {
'uuid': node_name + ':*',
}
}
}
result = self.send_request('perf-object-instance-list-info-iter',
api_args)
uuids = []
instances = result.get_child_by_name(
'attributes-list') or netapp_api.NaElement('None')
for instance_info in instances.get_children():
uuids.append(instance_info.get_child_content('uuid'))
return uuids
def get_performance_counter_info(self, object_name, counter_name):
"""Gets info about one or more Data ONTAP performance counters."""
api_args = {'objectname': object_name}
result = self.send_request('perf-object-counter-list-info', api_args)
counters = result.get_child_by_name(
'counters') or netapp_api.NaElement('None')
for counter in counters.get_children():
if counter.get_child_content('name') == counter_name:
labels = []
label_list = counter.get_child_by_name(
'labels') or netapp_api.NaElement('None')
for label in label_list.get_children():
labels.extend(label.get_content().split(','))
base_counter = counter.get_child_content('base-counter')
return {
'name': counter_name,
'labels': labels,
'base-counter': base_counter,
}
else:
raise exception.NotFound(_('Counter %s not found') % counter_name)
def get_performance_counters(self, object_name, instance_uuids,
counter_names):
"""Gets one or more cDOT performance counters."""
api_args = {
'objectname': object_name,
'instance-uuids': [
{'instance-uuid': instance_uuid}
for instance_uuid in instance_uuids
],
'counters': [
{'counter': counter} for counter in counter_names
],
}
result = self.send_request('perf-object-get-instances', api_args)
counter_data = []
timestamp = result.get_child_content('timestamp')
instances = result.get_child_by_name(
'instances') or netapp_api.NaElement('None')
for instance in instances.get_children():
instance_name = instance.get_child_content('name')
instance_uuid = instance.get_child_content('uuid')
node_name = instance_uuid.split(':')[0]
counters = instance.get_child_by_name(
'counters') or netapp_api.NaElement('None')
for counter in counters.get_children():
counter_name = counter.get_child_content('name')
counter_value = counter.get_child_content('value')
counter_data.append({
'instance-name': instance_name,
'instance-uuid': instance_uuid,
'node-name': node_name,
'timestamp': timestamp,
counter_name: counter_value,
})
return counter_data
@na_utils.trace
def setup_security_services(self, security_services, vserver_client,
vserver_name):

10
manila/share/drivers/netapp/dataontap/cluster_mode/drv_multi_svm.py
View File

@ -107,10 +107,18 @@ class NetAppCmodeMultiSvmShareDriver(driver.ShareDriver):
delete_rules, **kwargs)
def _update_share_stats(self, data=None):
data = self.library.get_share_stats()
data = self.library.get_share_stats(
filter_function=self.get_filter_function(),
goodness_function=self.get_goodness_function())
super(NetAppCmodeMultiSvmShareDriver, self)._update_share_stats(
data=data)
def get_default_filter_function(self):
return self.library.get_default_filter_function()
def get_default_goodness_function(self):
return self.library.get_default_goodness_function()
def get_share_server_pools(self, share_server):
return self.library.get_share_server_pools(share_server)

10
manila/share/drivers/netapp/dataontap/cluster_mode/drv_single_svm.py
View File

@ -107,10 +107,18 @@ class NetAppCmodeSingleSvmShareDriver(driver.ShareDriver):
delete_rules, **kwargs)
def _update_share_stats(self, data=None):
data = self.library.get_share_stats()
data = self.library.get_share_stats(
filter_function=self.get_filter_function(),
goodness_function=self.get_goodness_function())
super(NetAppCmodeSingleSvmShareDriver, self)._update_share_stats(
data=data)
def get_default_filter_function(self):
return self.library.get_default_filter_function()
def get_default_goodness_function(self):
return self.library.get_default_goodness_function()
def get_share_server_pools(self, share_server):
return self.library.get_share_server_pools(share_server)

47
manila/share/drivers/netapp/dataontap/cluster_mode/lib_base.py
View File

@ -37,6 +37,7 @@ from manila.i18n import _, _LE, _LI, _LW
from manila.share.drivers.netapp.dataontap.client import api as netapp_api
from manila.share.drivers.netapp.dataontap.client import client_cmode
from manila.share.drivers.netapp.dataontap.cluster_mode import data_motion
from manila.share.drivers.netapp.dataontap.cluster_mode import performance
from manila.share.drivers.netapp.dataontap.protocols import cifs_cmode
from manila.share.drivers.netapp.dataontap.protocols import nfs_cmode
from manila.share.drivers.netapp import options as na_opts
@ -56,6 +57,9 @@ class NetAppCmodeFileStorageLibrary(object):
SUPPORTED_PROTOCOLS = ('nfs', 'cifs')
DEFAULT_FILTER_FUNCTION = 'capabilities.utilization < 70'
DEFAULT_GOODNESS_FUNCTION = '100 - capabilities.utilization'
# Maps NetApp qualified extra specs keys to corresponding backend API
# client library argument keywords. When we expose more backend
# capabilities here, we will add them to this map.
@ -111,6 +115,9 @@ class NetAppCmodeFileStorageLibrary(object):
self._client = self._get_api_client()
self._have_cluster_creds = self._client.check_for_cluster_credentials()
# Performance monitoring library
self._perf_library = performance.PerformanceLibrary(self._client)
@na_utils.trace
def check_for_setup_error(self):
self._licenses = self._get_licenses()
@ -215,8 +222,16 @@ class NetAppCmodeFileStorageLibrary(object):
else:
return None
def get_default_filter_function(self):
"""Get the default filter_function string."""
return self.DEFAULT_FILTER_FUNCTION
def get_default_goodness_function(self):
"""Get the default goodness_function string."""
return self.DEFAULT_GOODNESS_FUNCTION
@na_utils.trace
def get_share_stats(self):
def get_share_stats(self, filter_function=None, goodness_function=None):
"""Retrieve stats info from Data ONTAP backend."""
data = {
@ -227,7 +242,8 @@ class NetAppCmodeFileStorageLibrary(object):
'netapp_storage_family': 'ontap_cluster',
'storage_protocol': 'NFS_CIFS',
'consistency_group_support': 'host',
'pools': self._get_pools(),
'pools': self._get_pools(filter_function=filter_function,
goodness_function=goodness_function),
}
if (self.configuration.replication_domain and
@ -250,28 +266,35 @@ class NetAppCmodeFileStorageLibrary(object):
return self._get_pools()
@na_utils.trace
def _get_pools(self):
def _get_pools(self, filter_function=None, goodness_function=None):
"""Retrieve list of pools available to this backend."""
pools = []
aggr_space = self._get_aggregate_space()
aggregates = aggr_space.keys()
for aggr_name in sorted(aggr_space.keys()):
# Get up-to-date node utilization metrics just once.
if self._have_cluster_creds:
self._perf_library.update_performance_cache({}, self._ssc_stats)
for aggr_name in sorted(aggregates):
reserved_percentage = self.configuration.reserved_share_percentage
total_capacity_gb = na_utils.round_down(float(
aggr_space[aggr_name].get('total', 0)) / units.Gi, '0.01')
aggr_space[aggr_name].get('total', 0)) / units.Gi)
free_capacity_gb = na_utils.round_down(float(
aggr_space[aggr_name].get('available', 0)) / units.Gi, '0.01')
aggr_space[aggr_name].get('available', 0)) / units.Gi)
allocated_capacity_gb = na_utils.round_down(float(
aggr_space[aggr_name].get('used', 0)) / units.Gi, '0.01')
aggr_space[aggr_name].get('used', 0)) / units.Gi)
if total_capacity_gb == 0.0:
total_capacity_gb = 'unknown'
pool = {
'pool_name': aggr_name,
'filter_function': filter_function,
'goodness_function': goodness_function,
'total_capacity_gb': total_capacity_gb,
'free_capacity_gb': free_capacity_gb,
'allocated_capacity_gb': allocated_capacity_gb,
@ -280,7 +303,6 @@ class NetAppCmodeFileStorageLibrary(object):
'dedupe': [True, False],
'compression': [True, False],
'thin_provisioning': [True, False],
'netapp_aggregate': aggr_name,
}
# Add storage service catalog data.
@ -288,6 +310,11 @@ class NetAppCmodeFileStorageLibrary(object):
if pool_ssc_stats:
pool.update(pool_ssc_stats)
# Add utilization info, or nominal value if not available.
utilization = self._perf_library.get_node_utilization_for_pool(
aggr_name)
pool['utilization'] = na_utils.round_down(utilization)
pools.append(pool)
return pools
@ -1186,7 +1213,9 @@ class NetAppCmodeFileStorageLibrary(object):
# Initialize entries for each aggregate.
for aggregate_name in aggregate_names:
if aggregate_name not in ssc_stats:
ssc_stats[aggregate_name] = {}
ssc_stats[aggregate_name] = {
'netapp_aggregate': aggregate_name,
}
if aggregate_names:
self._update_ssc_aggr_info(aggregate_names, ssc_stats)

405
manila/share/drivers/netapp/dataontap/cluster_mode/performance.py Normal file
View File

@ -0,0 +1,405 @@
# Copyright (c) 2016 Clinton Knight
# All rights reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may
# not use this file except in compliance with the License. You may obtain
# a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
# License for the specific language governing permissions and limitations
# under the License.
"""
Performance metrics functions and cache for NetApp systems.
"""
import copy
from oslo_log import log as logging
from manila import exception
from manila.i18n import _, _LE
from manila.share.drivers.netapp.dataontap.client import api as netapp_api
LOG = logging.getLogger(__name__)
DEFAULT_UTILIZATION = 50
class PerformanceLibrary(object):
def __init__(self, zapi_client):
self.zapi_client = zapi_client
self.performance_counters = {}
self.pool_utilization = {}
self._init_counter_info()
def _init_counter_info(self):
"""Set a few counter names based on Data ONTAP version."""
self.system_object_name = None
self.avg_processor_busy_base_counter_name = None
try:
if self.zapi_client.features.SYSTEM_CONSTITUENT_METRICS:
self.system_object_name = 'system:constituent'
self.avg_processor_busy_base_counter_name = (
self._get_base_counter_name('system:constituent',
'avg_processor_busy'))
elif self.zapi_client.features.SYSTEM_METRICS:
self.system_object_name = 'system'
self.avg_processor_busy_base_counter_name = (
self._get_base_counter_name('system',
'avg_processor_busy'))
except netapp_api.NaApiError:
if self.zapi_client.features.SYSTEM_CONSTITUENT_METRICS:
self.avg_processor_busy_base_counter_name = 'cpu_elapsed_time'
else:
self.avg_processor_busy_base_counter_name = 'cpu_elapsed_time1'
LOG.exception(_LE('Could not get performance base counter '
'name. Performance-based scheduler '
'functions may not be available.'))
def update_performance_cache(self, flexvol_pools, aggregate_pools):
"""Called periodically to update per-pool node utilization metrics."""
# Nothing to do on older systems
if not (self.zapi_client.features.SYSTEM_METRICS or
self.zapi_client.features.SYSTEM_CONSTITUENT_METRICS):
return
# Get aggregates and nodes for all known pools
aggr_names = self._get_aggregates_for_pools(flexvol_pools,
aggregate_pools)
node_names, aggr_node_map = self._get_nodes_for_aggregates(aggr_names)
# Update performance counter cache for each node
node_utilization = {}
for node_name in node_names:
if node_name not in self.performance_counters:
self.performance_counters[node_name] = []
# Get new performance counters and save only the last 10
counters = self._get_node_utilization_counters(node_name)
if not counters:
continue
self.performance_counters[node_name].append(counters)
self.performance_counters[node_name] = (
self.performance_counters[node_name][-10:])
# Update utilization for each node using newest & oldest sample
counters = self.performance_counters[node_name]
if len(counters) < 2:
node_utilization[node_name] = DEFAULT_UTILIZATION
else:
node_utilization[node_name] = self._get_node_utilization(
counters[0], counters[-1], node_name)
# Update pool utilization map atomically
pool_utilization = {}
all_pools = copy.deepcopy(flexvol_pools)
all_pools.update(aggregate_pools)
for pool_name, pool_info in all_pools.items():
aggr_name = pool_info.get('netapp_aggregate', 'unknown')
node_name = aggr_node_map.get(aggr_name)
if node_name:
pool_utilization[pool_name] = node_utilization.get(
node_name, DEFAULT_UTILIZATION)
else:
pool_utilization[pool_name] = DEFAULT_UTILIZATION
self.pool_utilization = pool_utilization
def get_node_utilization_for_pool(self, pool_name):
"""Get the node utilization for the specified pool, if available."""
return self.pool_utilization.get(pool_name, DEFAULT_UTILIZATION)
def update_for_failover(self, zapi_client, flexvol_pools, aggregate_pools):
"""Change API client after a whole-backend failover event."""
self.zapi_client = zapi_client
self.update_performance_cache(flexvol_pools, aggregate_pools)
def _get_aggregates_for_pools(self, flexvol_pools, aggregate_pools):
"""Get the set of aggregates that contain the specified pools."""
aggr_names = set()
for pool_name, pool_info in aggregate_pools.items():
aggr_names.add(pool_info.get('netapp_aggregate'))
for pool_name, pool_info in flexvol_pools.items():
aggr_names.add(pool_info.get('netapp_aggregate'))
return list(aggr_names)
def _get_nodes_for_aggregates(self, aggr_names):
"""Get the cluster nodes that own the specified aggregates."""
node_names = set()
aggr_node_map = {}
for aggr_name in aggr_names:
node_name = self.zapi_client.get_node_for_aggregate(aggr_name)
if node_name:
node_names.add(node_name)
aggr_node_map[aggr_name] = node_name
return list(node_names), aggr_node_map
def _get_node_utilization(self, counters_t1, counters_t2, node_name):
"""Get node utilization from two sets of performance counters."""
try:
# Time spent in the single-threaded Kahuna domain
kahuna_percent = self._get_kahuna_utilization(counters_t1,
counters_t2)
# If Kahuna is using >60% of the CPU, the controller is fully busy
if kahuna_percent > 60:
return 100.0
# Average CPU busyness across all processors
avg_cpu_percent = 100.0 * self._get_average_cpu_utilization(
counters_t1, counters_t2)
# Total Consistency Point (CP) time
total_cp_time_msec = self._get_total_consistency_point_time(
counters_t1, counters_t2)
# Time spent in CP Phase 2 (buffer flush)
p2_flush_time_msec = self._get_consistency_point_p2_flush_time(
counters_t1, counters_t2)
# Wall-clock time between the two counter sets
poll_time_msec = self._get_total_time(counters_t1,
counters_t2,
'total_cp_msecs')
# If two polls happened in quick succession, use CPU utilization
if total_cp_time_msec == 0 or poll_time_msec == 0:
return max(min(100.0, avg_cpu_percent), 0)
# Adjusted Consistency Point time
adjusted_cp_time_msec = self._get_adjusted_consistency_point_time(
total_cp_time_msec, p2_flush_time_msec)
adjusted_cp_percent = (100.0 *
adjusted_cp_time_msec / poll_time_msec)
# Utilization is the greater of CPU busyness & CP time
node_utilization = max(avg_cpu_percent, adjusted_cp_percent)
return max(min(100.0, node_utilization), 0)
except Exception:
LOG.exception(_LE('Could not calculate node utilization for '
'node %s.'), node_name)
return DEFAULT_UTILIZATION
def _get_kahuna_utilization(self, counters_t1, counters_t2):
"""Get time spent in the single-threaded Kahuna domain."""
# Note(cknight): Because Kahuna is single-threaded, running only on
# one CPU at a time, we can safely sum the Kahuna CPU usage
# percentages across all processors in a node.
return sum(self._get_performance_counter_average_multi_instance(
counters_t1, counters_t2, 'domain_busy:kahuna',
'processor_elapsed_time')) * 100.0
def _get_average_cpu_utilization(self, counters_t1, counters_t2):
"""Get average CPU busyness across all processors."""
return self._get_performance_counter_average(
counters_t1, counters_t2, 'avg_processor_busy',
self.avg_processor_busy_base_counter_name)
def _get_total_consistency_point_time(self, counters_t1, counters_t2):
"""Get time spent in Consistency Points in msecs."""
return float(self._get_performance_counter_delta(
counters_t1, counters_t2, 'total_cp_msecs'))
def _get_consistency_point_p2_flush_time(self, counters_t1, counters_t2):
"""Get time spent in CP Phase 2 (buffer flush) in msecs."""
return float(self._get_performance_counter_delta(
counters_t1, counters_t2, 'cp_phase_times:p2_flush'))
def _get_total_time(self, counters_t1, counters_t2, counter_name):
"""Get wall clock time between two successive counters in msecs."""
timestamp_t1 = float(self._find_performance_counter_timestamp(
counters_t1, counter_name))
timestamp_t2 = float(self._find_performance_counter_timestamp(
counters_t2, counter_name))
return (timestamp_t2 - timestamp_t1) * 1000.0
def _get_adjusted_consistency_point_time(self, total_cp_time,
p2_flush_time):
"""Get adjusted CP time by limiting CP phase 2 flush time to 20%."""
return (total_cp_time - p2_flush_time) * 1.20
def _get_performance_counter_delta(self, counters_t1, counters_t2,
counter_name):
"""Calculate a delta value from two performance counters."""
counter_t1 = int(
self._find_performance_counter_value(counters_t1, counter_name))
counter_t2 = int(
self._find_performance_counter_value(counters_t2, counter_name))
return counter_t2 - counter_t1
def _get_performance_counter_average(self, counters_t1, counters_t2,
counter_name, base_counter_name,
instance_name=None):
"""Calculate an average value from two performance counters."""
counter_t1 = float(self._find_performance_counter_value(
counters_t1, counter_name, instance_name))
counter_t2 = float(self._find_performance_counter_value(
counters_t2, counter_name, instance_name))
base_counter_t1 = float(self._find_performance_counter_value(
counters_t1, base_counter_name, instance_name))
base_counter_t2 = float(self._find_performance_counter_value(
counters_t2, base_counter_name, instance_name))
return (counter_t2 - counter_t1) / (base_counter_t2 - base_counter_t1)
def _get_performance_counter_average_multi_instance(self, counters_t1,
counters_t2,
counter_name,
base_counter_name):
"""Calculate an average value from multiple counter instances."""
averages = []
instance_names = []
for counter in counters_t1:
if counter_name in counter:
instance_names.append(counter['instance-name'])
for instance_name in instance_names:
average = self._get_performance_counter_average(
counters_t1, counters_t2, counter_name, base_counter_name,
instance_name)
averages.append(average)
return averages
def _find_performance_counter_value(self, counters, counter_name,
instance_name=None):
"""Given a counter set, return the value of a named instance."""
for counter in counters:
if counter_name in counter:
if (instance_name is None
or counter['instance-name'] == instance_name):
return counter[counter_name]
else:
raise exception.NotFound(_('Counter %s not found') % counter_name)
def _find_performance_counter_timestamp(self, counters, counter_name,
instance_name=None):
"""Given a counter set, return the timestamp of a named instance."""
for counter in counters:
if counter_name in counter:
if (instance_name is None
or counter['instance-name'] == instance_name):
return counter['timestamp']
else:
raise exception.NotFound(_('Counter %s not found') % counter_name)
def _expand_performance_array(self, object_name, counter_name, counter):
"""Get array labels and expand counter data array."""
# Get array labels for counter value
counter_info = self.zapi_client.get_performance_counter_info(
object_name, counter_name)
array_labels = [counter_name + ':' + label.lower()
for label in counter_info['labels']]
array_values = counter[counter_name].split(',')
# Combine labels and values, and then mix into existing counter
array_data = dict(zip(array_labels, array_values))
counter.update(array_data)
def _get_base_counter_name(self, object_name, counter_name):
"""Get the name of the base counter for the specified counter."""
counter_info = self.zapi_client.get_performance_counter_info(
object_name, counter_name)
return counter_info['base-counter']
def _get_node_utilization_counters(self, node_name):
"""Get all performance counters for calculating node utilization."""
try:
return (self._get_node_utilization_system_counters(node_name) +
self._get_node_utilization_wafl_counters(node_name) +
self._get_node_utilization_processor_counters(node_name))
except netapp_api.NaApiError:
LOG.exception(_LE('Could not get utilization counters from node '
'%s'), node_name)
return None
def _get_node_utilization_system_counters(self, node_name):
"""Get the system counters for calculating node utilization."""
system_instance_uuids = (
self.zapi_client.get_performance_instance_uuids(
self.system_object_name, node_name))
system_counter_names = [
'avg_processor_busy',
self.avg_processor_busy_base_counter_name,
]
if 'cpu_elapsed_time1' in system_counter_names:
system_counter_names.append('cpu_elapsed_time')
system_counters = self.zapi_client.get_performance_counters(
self.system_object_name, system_instance_uuids,
system_counter_names)
return system_counters
def _get_node_utilization_wafl_counters(self, node_name):
"""Get the WAFL counters for calculating node utilization."""
wafl_instance_uuids = self.zapi_client.get_performance_instance_uuids(
'wafl', node_name)
wafl_counter_names = ['total_cp_msecs', 'cp_phase_times']
wafl_counters = self.zapi_client.get_performance_counters(
'wafl', wafl_instance_uuids, wafl_counter_names)
# Expand array data so we can use wafl:cp_phase_times[P2_FLUSH]
for counter in wafl_counters:
if 'cp_phase_times' in counter:
self._expand_performance_array(
'wafl', 'cp_phase_times', counter)
return wafl_counters
def _get_node_utilization_processor_counters(self, node_name):
"""Get the processor counters for calculating node utilization."""
processor_instance_uuids = (
self.zapi_client.get_performance_instance_uuids('processor',
node_name))
processor_counter_names = ['domain_busy', 'processor_elapsed_time']
processor_counters = self.zapi_client.get_performance_counters(
'processor', processor_instance_uuids, processor_counter_names)
# Expand array data so we can use processor:domain_busy[kahuna]
for counter in processor_counters:
if 'domain_busy' in counter:
self._expand_performance_array(
'processor', 'domain_busy', counter)
return processor_counters

2
manila/share/drivers/netapp/utils.py
View File

@ -56,7 +56,7 @@ def check_flags(required_flags, configuration):
raise exception.InvalidInput(reason=msg)
def round_down(value, precision):
def round_down(value, precision='0.00'):
"""Round a number downward using a specified level of precision.
Example: round_down(float(total_space_in_bytes) / units.Gi, '0.01')

128
manila/tests/share/drivers/netapp/dataontap/client/fakes.py
View File

@ -32,7 +32,8 @@ REMOTE_CLUSTER_NAME = 'fake_cluster_2'
CLUSTER_ADDRESS_1 = 'fake_cluster_address'
CLUSTER_ADDRESS_2 = 'fake_cluster_address_2'
VERSION = 'NetApp Release 8.2.1 Cluster-Mode: Fri Mar 21 14:25:07 PDT 2014'
NODE_NAME = 'fake_node'
NODE_NAME = 'fake_node1'
NODE_NAMES = ('fake_node1', 'fake_node2')
VSERVER_NAME = 'fake_vserver'
VSERVER_NAME_2 = 'fake_vserver_2'
ADMIN_VSERVER_NAME = 'fake_admin_vserver'
@ -2114,6 +2115,131 @@ SNAPMIRROR_INITIALIZE_RESULT = etree.XML("""
</results>
""")
PERF_OBJECT_COUNTER_TOTAL_CP_MSECS_LABELS = [
'SETUP', 'PRE_P0', 'P0_SNAP_DEL', 'P1_CLEAN', 'P1_QUOTA', 'IPU_DISK_ADD',
'P2V_INOFILE', 'P2V_INO_PUB', 'P2V_INO_PRI', 'P2V_FSINFO', 'P2V_DLOG1',
'P2V_DLOG2', 'P2V_REFCOUNT', 'P2V_TOPAA', 'P2V_DF_SCORES_SUB', 'P2V_BM',
'P2V_SNAP', 'P2V_DF_SCORES', 'P2V_VOLINFO', 'P2V_CONT', 'P2A_INOFILE',
'P2A_INO', 'P2A_DLOG1', 'P2A_HYA', 'P2A_DLOG2', 'P2A_FSINFO',
'P2A_IPU_BITMAP_GROW', 'P2A_REFCOUNT', 'P2A_TOPAA', 'P2A_HYABC', 'P2A_BM',
'P2A_SNAP', 'P2A_VOLINFO', 'P2_FLUSH', 'P2_FINISH', 'P3_WAIT',
'P3V_VOLINFO', 'P3A_VOLINFO', 'P3_FINISH', 'P4_FINISH', 'P5_FINISH',
]
PERF_OBJECT_COUNTER_LIST_INFO_WAFL_RESPONSE = etree.XML("""
<results status="passed">
<counters>
<counter-info>
<desc>No. of times 8.3 names are accessed per second.</desc>
<name>access_8_3_names</name>
<privilege-level>diag</privilege-level>
<properties>rate</properties>
<unit>per_sec</unit>
</counter-info>
<counter-info>
<desc>Array of counts of different types of CPs</desc>
<labels>
<label-info>wafl_timer generated CP</label-info>
<label-info>snapshot generated CP</label-info>
<label-info>wafl_avail_bufs generated CP</label-info>
<label-info>dirty_blk_cnt generated CP</label-info>
<label-info>full NV-log generated CP,back-to-back CP</label-info>
<label-info>flush generated CP,sync generated CP</label-info>
<label-info>deferred back-to-back CP</label-info>
<label-info>low mbufs generated CP</label-info>
<label-info>low datavecs generated CP</label-info>
<label-info>nvlog replay takeover time limit CP</label-info>
</labels>
<name>cp_count</name>
<privilege-level>diag</privilege-level>
<properties>delta</properties>
<type>array</type>
<unit>none</unit>
</counter-info>
<counter-info>
<base-counter>total_cp_msecs</base-counter>
<desc>Array of percentage time spent in different phases of CP</desc>
<labels>
<label-info>%(labels)s</label-info>
</labels>
<name>cp_phase_times</name>
<privilege-level>diag</privilege-level>
<properties>percent</properties>
<type>array</type>
<unit>percent</unit>
</counter-info>
</counters>
</results>
""" % {'labels': ','.join(PERF_OBJECT_COUNTER_TOTAL_CP_MSECS_LABELS)})
PERF_OBJECT_GET_INSTANCES_SYSTEM_RESPONSE_CMODE = etree.XML("""
<results status="passed">
<instances>
<instance-data>
<counters>
<counter-data>
<name>avg_processor_busy</name>
<value>5674745133134</value>
</counter-data>
</counters>
<name>system</name>
<uuid>%(node1)s:kernel:system</uuid>
</instance-data>
<instance-data>
<counters>
<counter-data>
<name>avg_processor_busy</name>
<value>4077649009234</value>
</counter-data>
</counters>
<name>system</name>
<uuid>%(node2)s:kernel:system</uuid>
</instance-data>
</instances>
<timestamp>1453412013</timestamp>
</results>
""" % {'node1': NODE_NAMES[0], 'node2': NODE_NAMES[1]})
PERF_OBJECT_GET_INSTANCES_SYSTEM_RESPONSE_7MODE = etree.XML("""
<results status="passed">
<timestamp>1454146292</timestamp>
<instances>
<instance-data>
<name>system</name>
<counters>
<counter-data>
<name>avg_processor_busy</name>
<value>13215732322</value>
</counter-data>
</counters>
</instance-data>
</instances>
</results>""")
PERF_OBJECT_INSTANCE_LIST_INFO_ITER_RESPONSE = etree.XML("""
<results status="passed">
<attributes-list>
<instance-info>
<name>system</name>
<uuid>%(node)s:kernel:system</uuid>
</instance-info>
</attributes-list>
<num-records>1</num-records>
</results>
""" % {'node': NODE_NAME})
PERF_OBJECT_INSTANCE_LIST_INFO_RESPONSE = etree.XML("""
<results status="passed">
<instances>
<instance-info>
<name>processor0</name>
</instance-info>
<instance-info>
<name>processor1</name>
</instance-info>
</instances>
</results>""")
FAKE_VOL_XML = """<volume-info xmlns='http://www.netapp.com/filer/admin'>
<name>open123</name>
<state>online</state>

109
manila/tests/share/drivers/netapp/dataontap/client/test_client_cmode.py
View File

@ -1912,6 +1912,115 @@ class NetAppClientCmodeTestCase(test.TestCase):
mock.call('aggr-get-iter', {})])
self.assertListEqual([], result)
def test_get_performance_instance_uuids(self):
api_response = netapp_api.NaElement(
fake.PERF_OBJECT_INSTANCE_LIST_INFO_ITER_RESPONSE)
self.mock_object(self.client,
'send_request',
mock.Mock(return_value=api_response))
result = self.client.get_performance_instance_uuids(
'system', fake.NODE_NAME)
expected = [fake.NODE_NAME + ':kernel:system']
self.assertEqual(expected, result)
perf_object_instance_list_info_iter_args = {
'objectname': 'system',
'query': {
'instance-info': {
'uuid': fake.NODE_NAME + ':*',
}
}
}
self.client.send_request.assert_called_once_with(
'perf-object-instance-list-info-iter',
perf_object_instance_list_info_iter_args)
def test_get_performance_counter_info(self):
api_response = netapp_api.NaElement(
fake.PERF_OBJECT_COUNTER_LIST_INFO_WAFL_RESPONSE)
self.mock_object(self.client,
'send_request',
mock.Mock(return_value=api_response))
result = self.client.get_performance_counter_info('wafl',
'cp_phase_times')
expected = {
'name': 'cp_phase_times',
'base-counter': 'total_cp_msecs',
'labels': fake.PERF_OBJECT_COUNTER_TOTAL_CP_MSECS_LABELS,
}
self.assertEqual(expected, result)
perf_object_counter_list_info_args = {'objectname': 'wafl'}
self.client.send_request.assert_called_once_with(
'perf-object-counter-list-info',
perf_object_counter_list_info_args)
def test_get_performance_counter_info_not_found(self):
api_response = netapp_api.NaElement(
fake.PERF_OBJECT_COUNTER_LIST_INFO_WAFL_RESPONSE)
self.mock_object(self.client,
'send_request',
mock.Mock(return_value=api_response))
self.assertRaises(exception.NotFound,
self.client.get_performance_counter_info,
'wafl',
'invalid')
def test_get_performance_counters(self):
api_response = netapp_api.NaElement(
fake.PERF_OBJECT_GET_INSTANCES_SYSTEM_RESPONSE_CMODE)
self.mock_object(self.client,
'send_request',
mock.Mock(return_value=api_response))
instance_uuids = [
fake.NODE_NAMES[0] + ':kernel:system',
fake.NODE_NAMES[1] + ':kernel:system',
]
counter_names = ['avg_processor_busy']
result = self.client.get_performance_counters('system',
instance_uuids,
counter_names)
expected = [
{
'avg_processor_busy': '5674745133134',
'instance-name': 'system',
'instance-uuid': instance_uuids[0],
'node-name': fake.NODE_NAMES[0],
'timestamp': '1453412013',
}, {
'avg_processor_busy': '4077649009234',
'instance-name': 'system',
'instance-uuid': instance_uuids[1],
'node-name': fake.NODE_NAMES[1],
'timestamp': '1453412013'
},
]
self.assertEqual(expected, result)
perf_object_get_instances_args = {
'objectname': 'system',
'instance-uuids': [
{'instance-uuid': instance_uuid}
for instance_uuid in instance_uuids
],
'counters': [
{'counter': counter} for counter in counter_names
],
}
self.client.send_request.assert_called_once_with(
'perf-object-get-instances', perf_object_get_instances_args)
def test_setup_security_services_ldap(self):
self.mock_object(self.client, 'send_request')

64
manila/tests/share/drivers/netapp/dataontap/cluster_mode/test_lib_base.py
View File

@ -36,6 +36,7 @@ from manila.share.drivers.netapp.dataontap.client import api as netapp_api
from manila.share.drivers.netapp.dataontap.client import client_cmode
from manila.share.drivers.netapp.dataontap.cluster_mode import data_motion
from manila.share.drivers.netapp.dataontap.cluster_mode import lib_base
from manila.share.drivers.netapp.dataontap.cluster_mode import performance
from manila.share.drivers.netapp.dataontap.protocols import cifs_cmode
from manila.share.drivers.netapp.dataontap.protocols import nfs_cmode
from manila.share.drivers.netapp import utils as na_utils
@ -82,6 +83,7 @@ class NetAppFileStorageLibraryTestCase(test.TestCase):
self.library = lib_base.NetAppCmodeFileStorageLibrary(fake.DRIVER_NAME,
**kwargs)
self.library._client = mock.Mock()
self.library._perf_library = mock.Mock()
self.client = self.library._client
self.context = mock.Mock()
self.fake_replica = copy.deepcopy(fake.SHARE)
@ -105,12 +107,16 @@ class NetAppFileStorageLibraryTestCase(test.TestCase):
def test_do_setup(self):
mock_get_api_client = self.mock_object(self.library, '_get_api_client')
self.mock_object(
performance, 'PerformanceLibrary',
mock.Mock(return_value='fake_perf_library'))
self.library.do_setup(self.context)
mock_get_api_client.assert_called_once_with()
self.library._client.check_for_cluster_credentials.\
assert_called_once_with()
self.assertEqual('fake_perf_library', self.library._perf_library)
def test_check_for_setup_error(self):
@ -331,13 +337,26 @@ class NetAppFileStorageLibraryTestCase(test.TestCase):
self.assertFalse(self.library._client.get_node_for_aggregate.called)
self.assertIsNone(result)
def test_get_default_filter_function(self):
result = self.library.get_default_filter_function()
self.assertEqual(self.library.DEFAULT_FILTER_FUNCTION, result)
def test_get_default_goodness_function(self):
result = self.library.get_default_goodness_function()
self.assertEqual(self.library.DEFAULT_GOODNESS_FUNCTION, result)
def test_get_share_stats(self):
self.mock_object(self.library,
'_get_pools',
mock.Mock(return_value=fake.POOLS))
mock_get_pools = self.mock_object(
self.library, '_get_pools',
mock.Mock(return_value=fake.POOLS))
result = self.library.get_share_stats()
result = self.library.get_share_stats(filter_function='filter',
goodness_function='goodness')
expected = {
'share_backend_name': fake.BACKEND_NAME,
@ -350,15 +369,18 @@ class NetAppFileStorageLibraryTestCase(test.TestCase):
'pools': fake.POOLS,
}
self.assertDictEqual(expected, result)
mock_get_pools.assert_called_once_with(filter_function='filter',
goodness_function='goodness')
def test_get_share_stats_with_replication(self):
self.library.configuration.replication_domain = "fake_domain"
self.mock_object(self.library,
'_get_pools',
mock.Mock(return_value=fake.POOLS))
mock_get_pools = self.mock_object(
self.library, '_get_pools',
mock.Mock(return_value=fake.POOLS))
result = self.library.get_share_stats()
result = self.library.get_share_stats(filter_function='filter',
goodness_function='goodness')
expected = {
'share_backend_name': fake.BACKEND_NAME,
@ -373,6 +395,8 @@ class NetAppFileStorageLibraryTestCase(test.TestCase):
'pools': fake.POOLS,
}
self.assertDictEqual(expected, result)
mock_get_pools.assert_called_once_with(filter_function='filter',
goodness_function='goodness')
def test_get_share_server_pools(self):
@ -391,8 +415,11 @@ class NetAppFileStorageLibraryTestCase(test.TestCase):
mock.Mock(return_value=fake.AGGREGATE_CAPACITIES))
self.library._have_cluster_creds = True
self.library._ssc_stats = fake.SSC_INFO
self.library._perf_library.get_node_utilization_for_pool = (
mock.Mock(side_effect=[30.0, 42.0]))
result = self.library._get_pools()
result = self.library._get_pools(filter_function='filter',
goodness_function='goodness')
self.assertListEqual(fake.POOLS, result)
@ -402,6 +429,9 @@ class NetAppFileStorageLibraryTestCase(test.TestCase):
self.library, '_get_aggregate_space',
mock.Mock(return_value=fake.AGGREGATE_CAPACITIES_VSERVER_CREDS))
self.library._have_cluster_creds = False
self.library._ssc_stats = fake.SSC_INFO_VSERVER_CREDS
self.library._perf_library.get_node_utilization_for_pool = (
mock.Mock(side_effect=[50.0, 50.0]))
result = self.library._get_pools()
@ -2171,8 +2201,12 @@ class NetAppFileStorageLibraryTestCase(test.TestCase):
self.library._update_ssc_info()
expected = {
fake.AGGREGATES[0]: {},
fake.AGGREGATES[1]: {}
fake.AGGREGATES[0]: {
'netapp_aggregate': fake.AGGREGATES[0],
},
fake.AGGREGATES[1]: {
'netapp_aggregate': fake.AGGREGATES[1],
}
}
self.assertDictEqual(expected, self.library._ssc_stats)
@ -2201,8 +2235,12 @@ class NetAppFileStorageLibraryTestCase(test.TestCase):
self.client, 'get_aggregate_disk_types',
mock.Mock(side_effect=fake.SSC_DISK_TYPES))
ssc_stats = {
fake.AGGREGATES[0]: {},
fake.AGGREGATES[1]: {},
fake.AGGREGATES[0]: {
'netapp_aggregate': fake.AGGREGATES[0],
},
fake.AGGREGATES[1]: {
'netapp_aggregate': fake.AGGREGATES[1],
},
}
self.library._update_ssc_aggr_info(fake.AGGREGATES, ssc_stats)

808
manila/tests/share/drivers/netapp/dataontap/cluster_mode/test_performance.py Normal file
View File

@ -0,0 +1,808 @@
# Copyright (c) 2016 Clinton Knight
# All rights reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may
# not use this file except in compliance with the License. You may obtain
# a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
# License for the specific language governing permissions and limitations
# under the License.
import ddt
import mock
from manila import exception
from manila.share.drivers.netapp.dataontap.client import api as netapp_api
from manila.share.drivers.netapp.dataontap.cluster_mode import performance
from manila import test
from manila.tests.share.drivers.netapp.dataontap import fakes as fake
@ddt.ddt
class PerformanceLibraryTestCase(test.TestCase):
def setUp(self):
super(PerformanceLibraryTestCase, self).setUp()
with mock.patch.object(performance.PerformanceLibrary,
'_init_counter_info'):
self.zapi_client = mock.Mock()
self.perf_library = performance.PerformanceLibrary(
self.zapi_client)
self.perf_library.system_object_name = 'system'
self.perf_library.avg_processor_busy_base_counter_name = (
'cpu_elapsed_time1')
self._set_up_fake_pools()
def _set_up_fake_pools(self):
self.fake_volumes = {
'pool1': {
'netapp_aggregate': 'aggr1',
},
'pool2': {
'netapp_aggregate': 'aggr2',
},
'pool3': {
'netapp_aggregate': 'aggr2',
},
}
self.fake_aggregates = {
'pool4': {
'netapp_aggregate': 'aggr3',
}
}
self.fake_aggr_names = ['aggr1', 'aggr2', 'aggr3']
self.fake_nodes = ['node1', 'node2']
self.fake_aggr_node_map = {
'aggr1': 'node1',
'aggr2': 'node2',
'aggr3': 'node2',
}
def _get_fake_counters(self):
return {
'node1': list(range(11, 21)),
'node2': list(range(21, 31)),
}
def test_init(self):
mock_zapi_client = mock.Mock()
mock_init_counter_info = self.mock_object(
performance.PerformanceLibrary, '_init_counter_info')
library = performance.PerformanceLibrary(mock_zapi_client)
self.assertEqual(mock_zapi_client, library.zapi_client)
mock_init_counter_info.assert_called_once_with()
def test_init_counter_info_not_supported(self):
self.zapi_client.features.SYSTEM_METRICS = False
self.zapi_client.features.SYSTEM_CONSTITUENT_METRICS = False
mock_get_base_counter_name = self.mock_object(
self.perf_library, '_get_base_counter_name')
self.perf_library._init_counter_info()
self.assertIsNone(self.perf_library.system_object_name)
self.assertIsNone(
self.perf_library.avg_processor_busy_base_counter_name)
self.assertFalse(mock_get_base_counter_name.called)
@ddt.data({
'system_constituent': False,
'base_counter': 'cpu_elapsed_time1',
}, {
'system_constituent': True,
'base_counter': 'cpu_elapsed_time',
})
@ddt.unpack
def test_init_counter_info_api_error(self, system_constituent,
base_counter):
self.zapi_client.features.SYSTEM_METRICS = True
self.zapi_client.features.SYSTEM_CONSTITUENT_METRICS = (
system_constituent)
self.mock_object(self.perf_library,
'_get_base_counter_name',
mock.Mock(side_effect=netapp_api.NaApiError))
self.perf_library._init_counter_info()
self.assertEqual(
base_counter,
self.perf_library.avg_processor_busy_base_counter_name)
def test_init_counter_info_system(self):
self.zapi_client.features.SYSTEM_METRICS = True
self.zapi_client.features.SYSTEM_CONSTITUENT_METRICS = False
mock_get_base_counter_name = self.mock_object(
self.perf_library, '_get_base_counter_name',
mock.Mock(return_value='cpu_elapsed_time1'))
self.perf_library._init_counter_info()
self.assertEqual('system', self.perf_library.system_object_name)
self.assertEqual(
'cpu_elapsed_time1',
self.perf_library.avg_processor_busy_base_counter_name)
mock_get_base_counter_name.assert_called_once_with(
'system', 'avg_processor_busy')
def test_init_counter_info_system_constituent(self):
self.zapi_client.features.SYSTEM_METRICS = False
self.zapi_client.features.SYSTEM_CONSTITUENT_METRICS = True
mock_get_base_counter_name = self.mock_object(
self.perf_library, '_get_base_counter_name',
mock.Mock(return_value='cpu_elapsed_time'))
self.perf_library._init_counter_info()
self.assertEqual('system:constituent',
self.perf_library.system_object_name)
self.assertEqual(
'cpu_elapsed_time',
self.perf_library.avg_processor_busy_base_counter_name)
mock_get_base_counter_name.assert_called_once_with(
'system:constituent', 'avg_processor_busy')
def test_update_performance_cache(self):
self.perf_library.performance_counters = self._get_fake_counters()
mock_get_aggregates_for_pools = self.mock_object(
self.perf_library, '_get_aggregates_for_pools',
mock.Mock(return_value=self.fake_aggr_names))
mock_get_nodes_for_aggregates = self.mock_object(
self.perf_library, '_get_nodes_for_aggregates',
mock.Mock(return_value=(self.fake_nodes,
self.fake_aggr_node_map)))
mock_get_node_utilization_counters = self.mock_object(
self.perf_library, '_get_node_utilization_counters',
mock.Mock(side_effect=[21, 31]))
mock_get_node_utilization = self.mock_object(
self.perf_library, '_get_node_utilization',
mock.Mock(side_effect=[25, 75]))
self.perf_library.update_performance_cache(self.fake_volumes,
self.fake_aggregates)
expected_performance_counters = {
'node1': list(range(12, 22)),
'node2': list(range(22, 32)),
}
self.assertEqual(expected_performance_counters,
self.perf_library.performance_counters)
expected_pool_utilization = {
'pool1': 25,
'pool2': 75,
'pool3': 75,
'pool4': 75,
}
self.assertEqual(expected_pool_utilization,
self.perf_library.pool_utilization)
mock_get_aggregates_for_pools.assert_called_once_with(
self.fake_volumes, self.fake_aggregates)
mock_get_nodes_for_aggregates.assert_called_once_with(
self.fake_aggr_names)
mock_get_node_utilization_counters.assert_has_calls([
mock.call('node1'), mock.call('node2')])
mock_get_node_utilization.assert_has_calls([
mock.call(12, 21, 'node1'), mock.call(22, 31, 'node2')])
def test_update_performance_cache_first_pass(self):
mock_get_aggregates_for_pools = self.mock_object(
self.perf_library, '_get_aggregates_for_pools',
mock.Mock(return_value=self.fake_aggr_names))
mock_get_nodes_for_aggregates = self.mock_object(
self.perf_library, '_get_nodes_for_aggregates',
mock.Mock(return_value=(self.fake_nodes,
self.fake_aggr_node_map)))
mock_get_node_utilization_counters = self.mock_object(
self.perf_library, '_get_node_utilization_counters',
mock.Mock(side_effect=[11, 21]))
mock_get_node_utilization = self.mock_object(
self.perf_library, '_get_node_utilization',
mock.Mock(side_effect=[25, 75]))
self.perf_library.update_performance_cache(self.fake_volumes,
self.fake_aggregates)
expected_performance_counters = {'node1': [11], 'node2': [21]}
self.assertEqual(expected_performance_counters,
self.perf_library.performance_counters)
expected_pool_utilization = {
'pool1': performance.DEFAULT_UTILIZATION,
'pool2': performance.DEFAULT_UTILIZATION,
'pool3': performance.DEFAULT_UTILIZATION,
'pool4': performance.DEFAULT_UTILIZATION,
}
self.assertEqual(expected_pool_utilization,
self.perf_library.pool_utilization)
mock_get_aggregates_for_pools.assert_called_once_with(
self.fake_volumes, self.fake_aggregates)
mock_get_nodes_for_aggregates.assert_called_once_with(
self.fake_aggr_names)
mock_get_node_utilization_counters.assert_has_calls([
mock.call('node1'), mock.call('node2')])
self.assertFalse(mock_get_node_utilization.called)
def test_update_performance_cache_unknown_nodes(self):
self.perf_library.performance_counters = self._get_fake_counters()
mock_get_aggregates_for_pools = self.mock_object(
self.perf_library, '_get_aggregates_for_pools',
mock.Mock(return_value=self.fake_aggr_names))
mock_get_nodes_for_aggregates = self.mock_object(
self.perf_library, '_get_nodes_for_aggregates',
mock.Mock(return_value=([], {})))
mock_get_node_utilization_counters = self.mock_object(
self.perf_library, '_get_node_utilization_counters',
mock.Mock(side_effect=[11, 21]))
mock_get_node_utilization = self.mock_object(
self.perf_library, '_get_node_utilization',
mock.Mock(side_effect=[25, 75]))
self.perf_library.update_performance_cache(self.fake_volumes,
self.fake_aggregates)
self.assertEqual(self._get_fake_counters(),
self.perf_library.performance_counters)
expected_pool_utilization = {
'pool1': performance.DEFAULT_UTILIZATION,
'pool2': performance.DEFAULT_UTILIZATION,
'pool3': performance.DEFAULT_UTILIZATION,
'pool4': performance.DEFAULT_UTILIZATION,
}
self.assertEqual(expected_pool_utilization,
self.perf_library.pool_utilization)
mock_get_aggregates_for_pools.assert_called_once_with(
self.fake_volumes, self.fake_aggregates)
mock_get_nodes_for_aggregates.assert_called_once_with(
self.fake_aggr_names)
self.assertFalse(mock_get_node_utilization_counters.called)
self.assertFalse(mock_get_node_utilization.called)
def test_update_performance_cache_counters_unavailable(self):
self.perf_library.performance_counters = self._get_fake_counters()
mock_get_aggregates_for_pools = self.mock_object(
self.perf_library, '_get_aggregates_for_pools',
mock.Mock(return_value=self.fake_aggr_names))
mock_get_nodes_for_aggregates = self.mock_object(
self.perf_library, '_get_nodes_for_aggregates',
mock.Mock(return_value=(self.fake_nodes,
self.fake_aggr_node_map)))
mock_get_node_utilization_counters = self.mock_object(
self.perf_library, '_get_node_utilization_counters',
mock.Mock(side_effect=[None, None]))
mock_get_node_utilization = self.mock_object(
self.perf_library, '_get_node_utilization',
mock.Mock(side_effect=[25, 75]))
self.perf_library.update_performance_cache(self.fake_volumes,
self.fake_aggregates)
self.assertEqual(self._get_fake_counters(),
self.perf_library.performance_counters)
expected_pool_utilization = {
'pool1': performance.DEFAULT_UTILIZATION,
'pool2': performance.DEFAULT_UTILIZATION,
'pool3': performance.DEFAULT_UTILIZATION,
'pool4': performance.DEFAULT_UTILIZATION,
}
self.assertEqual(expected_pool_utilization,
self.perf_library.pool_utilization)
mock_get_aggregates_for_pools.assert_called_once_with(
self.fake_volumes, self.fake_aggregates)
mock_get_nodes_for_aggregates.assert_called_once_with(
self.fake_aggr_names)
mock_get_node_utilization_counters.assert_has_calls([
mock.call('node1'), mock.call('node2')])
self.assertFalse(mock_get_node_utilization.called)
def test_update_performance_cache_not_supported(self):
self.zapi_client.features.SYSTEM_METRICS = False
self.zapi_client.features.SYSTEM_CONSTITUENT_METRICS = False
mock_get_aggregates_for_pools = self.mock_object(
self.perf_library, '_get_aggregates_for_pools')
self.perf_library.update_performance_cache(self.fake_volumes,
self.fake_aggregates)
expected_performance_counters = {}
self.assertEqual(expected_performance_counters,
self.perf_library.performance_counters)
expected_pool_utilization = {}
self.assertEqual(expected_pool_utilization,
self.perf_library.pool_utilization)
self.assertFalse(mock_get_aggregates_for_pools.called)
@ddt.data({'pool': 'pool1', 'expected': 10.0},
{'pool': 'pool3', 'expected': performance.DEFAULT_UTILIZATION})
@ddt.unpack
def test_get_node_utilization_for_pool(self, pool, expected):
self.perf_library.pool_utilization = {'pool1': 10.0, 'pool2': 15.0}
result = self.perf_library.get_node_utilization_for_pool(pool)
self.assertAlmostEqual(expected, result)
def test__update_for_failover(self):
self.mock_object(self.perf_library, 'update_performance_cache')
mock_client = mock.Mock(name='FAKE_ZAPI_CLIENT')
self.perf_library.update_for_failover(mock_client,
self.fake_volumes,
self.fake_aggregates)
self.assertEqual(mock_client, self.perf_library.zapi_client)
self.perf_library.update_performance_cache.assert_called_once_with(
self.fake_volumes, self.fake_aggregates)
def test_get_aggregates_for_pools(self):
result = self.perf_library._get_aggregates_for_pools(
self.fake_volumes, self.fake_aggregates)
expected_aggregate_names = ['aggr1', 'aggr2', 'aggr3']
self.assertItemsEqual(expected_aggregate_names, result)
def test_get_nodes_for_aggregates(self):
aggregate_names = ['aggr1', 'aggr2', 'aggr3']
aggregate_nodes = ['node1', 'node2', 'node2']
mock_get_node_for_aggregate = self.mock_object(
self.zapi_client, 'get_node_for_aggregate',
mock.Mock(side_effect=aggregate_nodes))
result = self.perf_library._get_nodes_for_aggregates(aggregate_names)
self.assertEqual(2, len(result))
result_node_names, result_aggr_node_map = result
expected_node_names = ['node1', 'node2']
expected_aggr_node_map = dict(zip(aggregate_names, aggregate_nodes))
self.assertItemsEqual(expected_node_names, result_node_names)
self.assertEqual(expected_aggr_node_map, result_aggr_node_map)
mock_get_node_for_aggregate.assert_has_calls([
mock.call('aggr1'), mock.call('aggr2'), mock.call('aggr3')])
def test_get_node_utilization_kahuna_overutilized(self):
mock_get_kahuna_utilization = self.mock_object(
self.perf_library, '_get_kahuna_utilization',
mock.Mock(return_value=61.0))
mock_get_average_cpu_utilization = self.mock_object(
self.perf_library, '_get_average_cpu_utilization',
mock.Mock(return_value=25.0))
result = self.perf_library._get_node_utilization('fake1',
'fake2',
'fake_node')
self.assertAlmostEqual(100.0, result)
mock_get_kahuna_utilization.assert_called_once_with('fake1', 'fake2')
self.assertFalse(mock_get_average_cpu_utilization.called)
@ddt.data({'cpu': -0.01, 'cp_time': 10000, 'poll_time': 0},
{'cpu': 1.01, 'cp_time': 0, 'poll_time': 1000},
{'cpu': 0.50, 'cp_time': 0, 'poll_time': 0})
@ddt.unpack
def test_get_node_utilization_zero_time(self, cpu, cp_time, poll_time):
mock_get_kahuna_utilization = self.mock_object(
self.perf_library, '_get_kahuna_utilization',
mock.Mock(return_value=59.0))
mock_get_average_cpu_utilization = self.mock_object(
self.perf_library, '_get_average_cpu_utilization',
mock.Mock(return_value=cpu))
mock_get_total_consistency_point_time = self.mock_object(
self.perf_library, '_get_total_consistency_point_time',
mock.Mock(return_value=cp_time))
mock_get_consistency_point_p2_flush_time = self.mock_object(
self.perf_library, '_get_consistency_point_p2_flush_time',
mock.Mock(return_value=cp_time))
mock_get_total_time = self.mock_object(
self.perf_library, '_get_total_time',
mock.Mock(return_value=poll_time))
mock_get_adjusted_consistency_point_time = self.mock_object(
self.perf_library, '_get_adjusted_consistency_point_time')
result = self.perf_library._get_node_utilization('fake1',
'fake2',
'fake_node')
expected = max(min(100.0, 100.0 * cpu), 0)
self.assertEqual(expected, result)
mock_get_kahuna_utilization.assert_called_once_with('fake1', 'fake2')
mock_get_average_cpu_utilization.assert_called_once_with('fake1',
'fake2')
mock_get_total_consistency_point_time.assert_called_once_with('fake1',
'fake2')
mock_get_consistency_point_p2_flush_time.assert_called_once_with(
'fake1', 'fake2')
mock_get_total_time.assert_called_once_with('fake1',
'fake2',
'total_cp_msecs')
self.assertFalse(mock_get_adjusted_consistency_point_time.called)
@ddt.data({'cpu': 0.75, 'adjusted_cp_time': 8000, 'expected': 80},
{'cpu': 0.80, 'adjusted_cp_time': 7500, 'expected': 80},
{'cpu': 0.50, 'adjusted_cp_time': 11000, 'expected': 100})
@ddt.unpack
def test_get_node_utilization(self, cpu, adjusted_cp_time, expected):
mock_get_kahuna_utilization = self.mock_object(
self.perf_library, '_get_kahuna_utilization',
mock.Mock(return_value=59.0))
mock_get_average_cpu_utilization = self.mock_object(
self.perf_library, '_get_average_cpu_utilization',
mock.Mock(return_value=cpu))
mock_get_total_consistency_point_time = self.mock_object(
self.perf_library, '_get_total_consistency_point_time',
mock.Mock(return_value=90.0))
mock_get_consistency_point_p2_flush_time = self.mock_object(
self.perf_library, '_get_consistency_point_p2_flush_time',
mock.Mock(return_value=50.0))
mock_get_total_time = self.mock_object(
self.perf_library, '_get_total_time',
mock.Mock(return_value=10000))
mock_get_adjusted_consistency_point_time = self.mock_object(
self.perf_library, '_get_adjusted_consistency_point_time',
mock.Mock(return_value=adjusted_cp_time))
result = self.perf_library._get_node_utilization('fake1',
'fake2',
'fake_node')
self.assertEqual(expected, result)
mock_get_kahuna_utilization.assert_called_once_with('fake1', 'fake2')
mock_get_average_cpu_utilization.assert_called_once_with('fake1',
'fake2')
mock_get_total_consistency_point_time.assert_called_once_with('fake1',
'fake2')
mock_get_consistency_point_p2_flush_time.assert_called_once_with(
'fake1', 'fake2')
mock_get_total_time.assert_called_once_with('fake1',
'fake2',
'total_cp_msecs')
mock_get_adjusted_consistency_point_time.assert_called_once_with(
90.0, 50.0)
def test_get_node_utilization_calculation_error(self):
self.mock_object(self.perf_library,
'_get_kahuna_utilization',
mock.Mock(return_value=59.0))
self.mock_object(self.perf_library,
'_get_average_cpu_utilization',
mock.Mock(return_value=25.0))
self.mock_object(self.perf_library,
'_get_total_consistency_point_time',
mock.Mock(return_value=90.0))
self.mock_object(self.perf_library,
'_get_consistency_point_p2_flush_time',
mock.Mock(return_value=50.0))
self.mock_object(self.perf_library,
'_get_total_time',
mock.Mock(return_value=10000))
self.mock_object(self.perf_library,
'_get_adjusted_consistency_point_time',
mock.Mock(side_effect=ZeroDivisionError))
result = self.perf_library._get_node_utilization('fake1',
'fake2',
'fake_node')
self.assertEqual(performance.DEFAULT_UTILIZATION, result)
(self.perf_library._get_adjusted_consistency_point_time.
assert_called_once_with(mock.ANY, mock.ANY))
def test_get_kahuna_utilization(self):
mock_get_performance_counter = self.mock_object(
self.perf_library,
'_get_performance_counter_average_multi_instance',
mock.Mock(return_value=[0.2, 0.3]))
result = self.perf_library._get_kahuna_utilization('fake_t1',
'fake_t2')
self.assertAlmostEqual(50.0, result)
mock_get_performance_counter.assert_called_once_with(
'fake_t1', 'fake_t2', 'domain_busy:kahuna',
'processor_elapsed_time')
def test_get_average_cpu_utilization(self):
mock_get_performance_counter_average = self.mock_object(
self.perf_library, '_get_performance_counter_average',
mock.Mock(return_value=0.45))
result = self.perf_library._get_average_cpu_utilization('fake_t1',
'fake_t2')
self.assertAlmostEqual(0.45, result)
mock_get_performance_counter_average.assert_called_once_with(
'fake_t1', 'fake_t2', 'avg_processor_busy', 'cpu_elapsed_time1')
def test_get_total_consistency_point_time(self):
mock_get_performance_counter_delta = self.mock_object(
self.perf_library, '_get_performance_counter_delta',
mock.Mock(return_value=500))
result = self.perf_library._get_total_consistency_point_time(
'fake_t1', 'fake_t2')
self.assertEqual(500, result)
mock_get_performance_counter_delta.assert_called_once_with(
'fake_t1', 'fake_t2', 'total_cp_msecs')
def test_get_consistency_point_p2_flush_time(self):
mock_get_performance_counter_delta = self.mock_object(
self.perf_library, '_get_performance_counter_delta',
mock.Mock(return_value=500))
result = self.perf_library._get_consistency_point_p2_flush_time(
'fake_t1', 'fake_t2')
self.assertEqual(500, result)
mock_get_performance_counter_delta.assert_called_once_with(
'fake_t1', 'fake_t2', 'cp_phase_times:p2_flush')
def test_get_total_time(self):
mock_find_performance_counter_timestamp = self.mock_object(
self.perf_library, '_find_performance_counter_timestamp',
mock.Mock(side_effect=[100, 105]))
result = self.perf_library._get_total_time('fake_t1',
'fake_t2',
'fake_counter')
self.assertEqual(5000, result)
mock_find_performance_counter_timestamp.assert_has_calls([
mock.call('fake_t1', 'fake_counter'),
mock.call('fake_t2', 'fake_counter')])
def test_get_adjusted_consistency_point_time(self):
result = self.perf_library._get_adjusted_consistency_point_time(
500, 200)
self.assertAlmostEqual(360.0, result)
def test_get_performance_counter_delta(self):
result = self.perf_library._get_performance_counter_delta(
fake.COUNTERS_T1, fake.COUNTERS_T2, 'total_cp_msecs')
self.assertEqual(1482, result)
def test_get_performance_counter_average(self):
result = self.perf_library._get_performance_counter_average(
fake.COUNTERS_T1, fake.COUNTERS_T2, 'domain_busy:kahuna',
'processor_elapsed_time', 'processor0')
self.assertAlmostEqual(0.00281954360981, result)
def test_get_performance_counter_average_multi_instance(self):
result = (
self.perf_library._get_performance_counter_average_multi_instance(
fake.COUNTERS_T1, fake.COUNTERS_T2, 'domain_busy:kahuna',
'processor_elapsed_time'))
expected = [0.002819543609809441, 0.0033421611147606135]
self.assertAlmostEqual(expected, result)
def test_find_performance_counter_value(self):
result = self.perf_library._find_performance_counter_value(
fake.COUNTERS_T1, 'domain_busy:kahuna',
instance_name='processor0')
self.assertEqual('2712467226', result)
def test_find_performance_counter_value_not_found(self):
self.assertRaises(
exception.NotFound,
self.perf_library._find_performance_counter_value,
fake.COUNTERS_T1, 'invalid', instance_name='processor0')
def test_find_performance_counter_timestamp(self):
result = self.perf_library._find_performance_counter_timestamp(
fake.COUNTERS_T1, 'domain_busy')
self.assertEqual('1453573777', result)
def test_find_performance_counter_timestamp_not_found(self):
self.assertRaises(
exception.NotFound,
self.perf_library._find_performance_counter_timestamp,
fake.COUNTERS_T1, 'invalid', instance_name='processor0')
def test_expand_performance_array(self):
counter_info = {
'labels': ['idle', 'kahuna', 'storage', 'exempt'],
'name': 'domain_busy',
}
self.zapi_client.get_performance_counter_info = mock.Mock(
return_value=counter_info)
counter = {
'node-name': 'cluster1-01',
'instance-uuid': 'cluster1-01:kernel:processor0',
'domain_busy': '969142314286,2567571412,2131582146,5383861579',
'instance-name': 'processor0',
'timestamp': '1453512244',
}
self.perf_library._expand_performance_array('wafl',
'domain_busy',
counter)
modified_counter = {
'node-name': 'cluster1-01',
'instance-uuid': 'cluster1-01:kernel:processor0',
'domain_busy': '969142314286,2567571412,2131582146,5383861579',
'instance-name': 'processor0',
'timestamp': '1453512244',
'domain_busy:idle': '969142314286',
'domain_busy:kahuna': '2567571412',
'domain_busy:storage': '2131582146',
'domain_busy:exempt': '5383861579',
}
self.assertEqual(modified_counter, counter)
def test_get_base_counter_name(self):
counter_info = {
'base-counter': 'cpu_elapsed_time',
'labels': [],
'name': 'avg_processor_busy',
}
self.zapi_client.get_performance_counter_info = mock.Mock(
return_value=counter_info)
result = self.perf_library._get_base_counter_name(
'system:constituent', 'avg_processor_busy')
self.assertEqual('cpu_elapsed_time', result)
def test_get_node_utilization_counters(self):
mock_get_node_utilization_system_counters = self.mock_object(
self.perf_library, '_get_node_utilization_system_counters',
mock.Mock(return_value=['A', 'B', 'C']))
mock_get_node_utilization_wafl_counters = self.mock_object(
self.perf_library, '_get_node_utilization_wafl_counters',
mock.Mock(return_value=['D', 'E', 'F']))
mock_get_node_utilization_processor_counters = self.mock_object(
self.perf_library, '_get_node_utilization_processor_counters',
mock.Mock(return_value=['G', 'H', 'I']))
result = self.perf_library._get_node_utilization_counters(fake.NODE)
expected = ['A', 'B', 'C', 'D', 'E', 'F', 'G', 'H', 'I']
self.assertEqual(expected, result)
mock_get_node_utilization_system_counters.assert_called_once_with(
fake.NODE)
mock_get_node_utilization_wafl_counters.assert_called_once_with(
fake.NODE)
mock_get_node_utilization_processor_counters.assert_called_once_with(
fake.NODE)
def test_get_node_utilization_counters_api_error(self):
self.mock_object(self.perf_library,
'_get_node_utilization_system_counters',
mock.Mock(side_effect=netapp_api.NaApiError))
result = self.perf_library._get_node_utilization_counters(fake.NODE)
self.assertIsNone(result)
def test_get_node_utilization_system_counters(self):
mock_get_performance_instance_uuids = self.mock_object(
self.zapi_client, 'get_performance_instance_uuids',
mock.Mock(return_value=fake.SYSTEM_INSTANCE_UUIDS))
mock_get_performance_counters = self.mock_object(
self.zapi_client, 'get_performance_counters',
mock.Mock(return_value=fake.SYSTEM_COUNTERS))
result = self.perf_library._get_node_utilization_system_counters(
fake.NODE)
self.assertEqual(fake.SYSTEM_COUNTERS, result)
mock_get_performance_instance_uuids.assert_called_once_with(
'system', fake.NODE)
mock_get_performance_counters.assert_called_once_with(
'system', fake.SYSTEM_INSTANCE_UUIDS,
['avg_processor_busy', 'cpu_elapsed_time1', 'cpu_elapsed_time'])
def test_get_node_utilization_wafl_counters(self):
mock_get_performance_instance_uuids = self.mock_object(
self.zapi_client, 'get_performance_instance_uuids',
mock.Mock(return_value=fake.WAFL_INSTANCE_UUIDS))
mock_get_performance_counters = self.mock_object(
self.zapi_client, 'get_performance_counters',
mock.Mock(return_value=fake.WAFL_COUNTERS))
mock_get_performance_counter_info = self.mock_object(
self.zapi_client, 'get_performance_counter_info',
mock.Mock(return_value=fake.WAFL_CP_PHASE_TIMES_COUNTER_INFO))
result = self.perf_library._get_node_utilization_wafl_counters(
fake.NODE)
self.assertEqual(fake.EXPANDED_WAFL_COUNTERS, result)
mock_get_performance_instance_uuids.assert_called_once_with(
'wafl', fake.NODE)
mock_get_performance_counters.assert_called_once_with(
'wafl', fake.WAFL_INSTANCE_UUIDS,
['total_cp_msecs', 'cp_phase_times'])
mock_get_performance_counter_info.assert_called_once_with(
'wafl', 'cp_phase_times')
def test_get_node_utilization_processor_counters(self):
mock_get_performance_instance_uuids = self.mock_object(
self.zapi_client, 'get_performance_instance_uuids',
mock.Mock(return_value=fake.PROCESSOR_INSTANCE_UUIDS))
mock_get_performance_counters = self.mock_object(
self.zapi_client, 'get_performance_counters',
mock.Mock(return_value=fake.PROCESSOR_COUNTERS))
self.mock_object(
self.zapi_client, 'get_performance_counter_info',
mock.Mock(return_value=fake.PROCESSOR_DOMAIN_BUSY_COUNTER_INFO))
result = self.perf_library._get_node_utilization_processor_counters(
fake.NODE)
self.assertEqual(fake.EXPANDED_PROCESSOR_COUNTERS, result)
mock_get_performance_instance_uuids.assert_called_once_with(
'processor', fake.NODE)
mock_get_performance_counters.assert_called_once_with(
'processor', fake.PROCESSOR_INSTANCE_UUIDS,
['domain_busy', 'processor_elapsed_time'])

555
manila/tests/share/drivers/netapp/dataontap/fakes.py
View File

@ -525,11 +525,22 @@ SSC_INFO = {
'netapp_raid_type': 'raid4',
'netapp_disk_type': 'FCAL',
'netapp_hybrid_aggregate': 'false',
'netapp_aggregate': AGGREGATES[0],
},
AGGREGATES[1]: {
'netapp_raid_type': 'raid_dp',
'netapp_disk_type': ['SATA', 'SSD'],
'netapp_hybrid_aggregate': 'true',
'netapp_aggregate': AGGREGATES[1],
}
}
SSC_INFO_VSERVER_CREDS = {
AGGREGATES[0]: {
'netapp_aggregate': AGGREGATES[0],
},
AGGREGATES[1]: {
'netapp_aggregate': AGGREGATES[1],
}
}
@ -547,6 +558,9 @@ POOLS = [
'netapp_raid_type': 'raid4',
'netapp_disk_type': 'FCAL',
'netapp_hybrid_aggregate': 'false',
'utilization': 30.0,
'filter_function': 'filter',
'goodness_function': 'goodness',
},
{'pool_name': AGGREGATES[1],
'netapp_aggregate': AGGREGATES[1],
@ -561,6 +575,9 @@ POOLS = [
'netapp_raid_type': 'raid_dp',
'netapp_disk_type': ['SATA', 'SSD'],
'netapp_hybrid_aggregate': 'true',
'utilization': 42.0,
'filter_function': 'filter',
'goodness_function': 'goodness',
},
]
@ -575,6 +592,9 @@ POOLS_VSERVER_CREDS = [
'dedupe': [True, False],
'compression': [True, False],
'thin_provisioning': [True, False],
'utilization': 50.0,
'filter_function': None,
'goodness_function': None,
},
{'pool_name': AGGREGATES[1],
'netapp_aggregate': AGGREGATES[1],
@ -586,6 +606,9 @@ POOLS_VSERVER_CREDS = [
'dedupe': [True, False],
'compression': [True, False],
'thin_provisioning': [True, False],
'utilization': 50.0,
'filter_function': None,
'goodness_function': None,
},
]
@ -604,6 +627,538 @@ SSC_AGGREGATES = [
SSC_DISK_TYPES = ['FCAL', ['SATA', 'SSD']]
NODE = 'cluster1-01'
COUNTERS_T1 = [
{
'node-name': 'cluster1-01',
'instance-uuid': 'cluster1-01:kernel:system',
'avg_processor_busy': '29078861388',
'instance-name': 'system',
'timestamp': '1453573776',
}, {
'node-name': 'cluster1-01',
'instance-uuid': 'cluster1-01:kernel:system',
'cpu_elapsed_time': '1063283283681',
'instance-name': 'system',
'timestamp': '1453573776',
}, {
'node-name': 'cluster1-01',
'instance-uuid': 'cluster1-01:kernel:system',
'cpu_elapsed_time1': '1063283283681',
'instance-name': 'system',
'timestamp': '1453573776',
}, {
'cp_phase_times:p2a_snap': '714',
'cp_phase_times:p4_finish': '14897',
'cp_phase_times:setup': '581',
'cp_phase_times:p2a_dlog1': '6019',
'cp_phase_times:p2a_dlog2': '2328',
'cp_phase_times:p2v_cont': '2479',
'cp_phase_times:p2v_volinfo': '1138',
'cp_phase_times:p2v_bm': '3484',
'cp_phase_times:p2v_fsinfo': '2031',
'cp_phase_times:p2a_inofile': '356',
'cp_phase_times': '581,5007,1840,9832,498,0,839,799,1336,2031,0,377,'
'427,1058,354,3484,5135,1460,1138,2479,356,1373'
',6019,9,2328,2257,229,493,1275,0,6059,714,530215,'
'21603833,0,0,3286,11075940,22001,14897,36',
'cp_phase_times:p2v_dlog2': '377',
'instance-name': 'wafl',
'cp_phase_times:p3_wait': '0',
'cp_phase_times:p2a_bm': '6059',
'cp_phase_times:p1_quota': '498',
'cp_phase_times:p2v_inofile': '839',
'cp_phase_times:p2a_refcount': '493',
'cp_phase_times:p2a_fsinfo': '2257',
'cp_phase_times:p2a_hyabc': '0',
'cp_phase_times:p2a_volinfo': '530215',
'cp_phase_times:pre_p0': '5007',
'cp_phase_times:p2a_hya': '9',
'cp_phase_times:p0_snap_del': '1840',
'cp_phase_times:p2a_ino': '1373',
'cp_phase_times:p2v_df_scores_sub': '354',
'cp_phase_times:p2v_ino_pub': '799',
'cp_phase_times:p2a_ipu_bitmap_grow': '229',
'cp_phase_times:p2v_refcount': '427',
'timestamp': '1453573776',
'cp_phase_times:p2v_dlog1': '0',
'cp_phase_times:p2_finish': '0',
'cp_phase_times:p1_clean': '9832',
'node-name': 'cluster1-01',
'instance-uuid': 'cluster1-01:kernel:wafl',
'cp_phase_times:p3a_volinfo': '11075940',
'cp_phase_times:p2a_topaa': '1275',
'cp_phase_times:p2_flush': '21603833',
'cp_phase_times:p2v_df_scores': '1460',
'cp_phase_times:ipu_disk_add': '0',
'cp_phase_times:p2v_snap': '5135',
'cp_phase_times:p5_finish': '36',
'cp_phase_times:p2v_ino_pri': '1336',
'cp_phase_times:p3v_volinfo': '3286',
'cp_phase_times:p2v_topaa': '1058',
'cp_phase_times:p3_finish': '22001',
}, {
'node-name': 'cluster1-01',
'instance-uuid': 'cluster1-01:kernel:wafl',
'total_cp_msecs': '33309624',
'instance-name': 'wafl',
'timestamp': '1453573776',
}, {
'domain_busy:kahuna': '2712467226',
'timestamp': '1453573777',
'domain_busy:cifs': '434036',
'domain_busy:raid_exempt': '28',
'node-name': 'cluster1-01',
'instance-uuid': 'cluster1-01:kernel:processor0',
'domain_busy:target': '6460782',
'domain_busy:nwk_exempt': '20',
'domain_busy:raid': '722094140',
'domain_busy:storage': '2253156562',
'instance-name': 'processor0',
'domain_busy:cluster': '34',
'domain_busy:wafl_xcleaner': '51275254',
'domain_busy:wafl_exempt': '1243553699',
'domain_busy:protocol': '54',
'domain_busy': '1028851855595,2712467226,2253156562,5688808118,'
'722094140,28,6460782,59,434036,1243553699,51275254,'
'61237441,34,54,11,20,5254181873,13656398235,452215',
'domain_busy:nwk_legacy': '5254181873',
'domain_busy:dnscache': '59',
'domain_busy:exempt': '5688808118',
'domain_busy:hostos': '13656398235',
'domain_busy:sm_exempt': '61237441',
'domain_busy:nwk_exclusive': '11',
'domain_busy:idle': '1028851855595',
'domain_busy:ssan_exempt': '452215',
}, {
'node-name': 'cluster1-01',
'instance-uuid': 'cluster1-01:kernel:processor0',
'processor_elapsed_time': '1063283843318',
'instance-name': 'processor0',
'timestamp': '1453573777',
}, {
'domain_busy:kahuna': '1978024846',
'timestamp': '1453573777',
'domain_busy:cifs': '318584',
'domain_busy:raid_exempt': '0',
'node-name': 'cluster1-01',
'instance-uuid': 'cluster1-01:kernel:processor1',
'domain_busy:target': '3330956',
'domain_busy:nwk_exempt': '0',
'domain_busy:raid': '722235930',
'domain_busy:storage': '1498890708',
'instance-name': 'processor1',
'domain_busy:cluster': '0',
'domain_busy:wafl_xcleaner': '50122685',
'domain_busy:wafl_exempt': '1265921369',
'domain_busy:protocol': '0',
'domain_busy': '1039557880852,1978024846,1498890708,3734060289,'
'722235930,0,3330956,0,318584,1265921369,50122685,'
'36417362,0,0,0,0,2815252976,10274810484,393451',
'domain_busy:nwk_legacy': '2815252976',
'domain_busy:dnscache': '0',
'domain_busy:exempt': '3734060289',
'domain_busy:hostos': '10274810484',
'domain_busy:sm_exempt': '36417362',
'domain_busy:nwk_exclusive': '0',
'domain_busy:idle': '1039557880852',
'domain_busy:ssan_exempt': '393451',
}, {
'node-name': 'cluster1-01',
'instance-uuid': 'cluster1-01:kernel:processor1',
'processor_elapsed_time': '1063283843321',
'instance-name': 'processor1',
'timestamp': '1453573777',
}
]
COUNTERS_T2 = [
{
'node-name': 'cluster1-01',
'instance-uuid': 'cluster1-01:kernel:system',
'avg_processor_busy': '29081228905',
'instance-name': 'system',
'timestamp': '1453573834',
}, {
'node-name': 'cluster1-01',
'instance-uuid': 'cluster1-01:kernel:system',
'cpu_elapsed_time': '1063340792148',
'instance-name': 'system',
'timestamp': '1453573834',
}, {
'node-name': 'cluster1-01',
'instance-uuid': 'cluster1-01:kernel:system',
'cpu_elapsed_time1': '1063340792148',
'instance-name': 'system',
'timestamp': '1453573834',
}, {
'cp_phase_times:p2a_snap': '714',
'cp_phase_times:p4_finish': '14897',
'cp_phase_times:setup': '581',
'cp_phase_times:p2a_dlog1': '6019',
'cp_phase_times:p2a_dlog2': '2328',
'cp_phase_times:p2v_cont': '2479',
'cp_phase_times:p2v_volinfo': '1138',
'cp_phase_times:p2v_bm': '3484',
'cp_phase_times:p2v_fsinfo': '2031',
'cp_phase_times:p2a_inofile': '356',
'cp_phase_times': '581,5007,1840,9832,498,0,839,799,1336,2031,0,377,'
'427,1058,354,3484,5135,1460,1138,2479,356,1373,'
'6019,9,2328,2257,229,493,1275,0,6059,714,530215,'
'21604863,0,0,3286,11076392,22001,14897,36',
'cp_phase_times:p2v_dlog2': '377',
'instance-name': 'wafl',
'cp_phase_times:p3_wait': '0',
'cp_phase_times:p2a_bm': '6059',
'cp_phase_times:p1_quota': '498',
'cp_phase_times:p2v_inofile': '839',
'cp_phase_times:p2a_refcount': '493',
'cp_phase_times:p2a_fsinfo': '2257',
'cp_phase_times:p2a_hyabc': '0',
'cp_phase_times:p2a_volinfo': '530215',
'cp_phase_times:pre_p0': '5007',
'cp_phase_times:p2a_hya': '9',
'cp_phase_times:p0_snap_del': '1840',
'cp_phase_times:p2a_ino': '1373',
'cp_phase_times:p2v_df_scores_sub': '354',
'cp_phase_times:p2v_ino_pub': '799',
'cp_phase_times:p2a_ipu_bitmap_grow': '229',
'cp_phase_times:p2v_refcount': '427',
'timestamp': '1453573834',
'cp_phase_times:p2v_dlog1': '0',
'cp_phase_times:p2_finish': '0',
'cp_phase_times:p1_clean': '9832',
'node-name': 'cluster1-01',
'instance-uuid': 'cluster1-01:kernel:wafl',
'cp_phase_times:p3a_volinfo': '11076392',
'cp_phase_times:p2a_topaa': '1275',
'cp_phase_times:p2_flush': '21604863',
'cp_phase_times:p2v_df_scores': '1460',
'cp_phase_times:ipu_disk_add': '0',
'cp_phase_times:p2v_snap': '5135',
'cp_phase_times:p5_finish': '36',
'cp_phase_times:p2v_ino_pri': '1336',
'cp_phase_times:p3v_volinfo': '3286',
'cp_phase_times:p2v_topaa': '1058',
'cp_phase_times:p3_finish': '22001',
}, {
'node-name': 'cluster1-01',
'instance-uuid': 'cluster1-01:kernel:wafl',
'total_cp_msecs': '33311106',
'instance-name': 'wafl',
'timestamp': '1453573834',
}, {
'domain_busy:kahuna': '2712629374',
'timestamp': '1453573834',
'domain_busy:cifs': '434036',
'domain_busy:raid_exempt': '28',
'node-name': 'cluster1-01',
'instance-uuid': 'cluster1-01:kernel:processor0',
'domain_busy:target': '6461082',
'domain_busy:nwk_exempt': '20',
'domain_busy:raid': '722136824',
'domain_busy:storage': '2253260824',
'instance-name': 'processor0',
'domain_busy:cluster': '34',
'domain_busy:wafl_xcleaner': '51277506',
'domain_busy:wafl_exempt': '1243637154',
'domain_busy:protocol': '54',
'domain_busy': '1028906640232,2712629374,2253260824,5689093500,'
'722136824,28,6461082,59,434036,1243637154,51277506,'
'61240335,34,54,11,20,5254491236,13657992139,452215',
'domain_busy:nwk_legacy': '5254491236',
'domain_busy:dnscache': '59',
'domain_busy:exempt': '5689093500',
'domain_busy:hostos': '13657992139',
'domain_busy:sm_exempt': '61240335',
'domain_busy:nwk_exclusive': '11',
'domain_busy:idle': '1028906640232',
'domain_busy:ssan_exempt': '452215',
}, {
'node-name': 'cluster1-01',
'instance-uuid': 'cluster1-01:kernel:processor0',
'processor_elapsed_time': '1063341351916',
'instance-name': 'processor0',
'timestamp': '1453573834',
}, {
'domain_busy:kahuna': '1978217049',
'timestamp': '1453573834',
'domain_busy:cifs': '318584',
'domain_busy:raid_exempt': '0',
'node-name': 'cluster1-01',
'instance-uuid': 'cluster1-01:kernel:processor1',
'domain_busy:target': '3331147',
'domain_busy:nwk_exempt': '0',
'domain_busy:raid': '722276805',
'domain_busy:storage': '1498984059',
'instance-name': 'processor1',
'domain_busy:cluster': '0',
'domain_busy:wafl_xcleaner': '50126176',
'domain_busy:wafl_exempt': '1266039846',
'domain_busy:protocol': '0',
'domain_busy': '1039613222253,1978217049,1498984059,3734279672,'
'722276805,0,3331147,0,318584,1266039846,50126176,'
'36419297,0,0,0,0,2815435865,10276068104,393451',
'domain_busy:nwk_legacy': '2815435865',
'domain_busy:dnscache': '0',
'domain_busy:exempt': '3734279672',
'domain_busy:hostos': '10276068104',
'domain_busy:sm_exempt': '36419297',
'domain_busy:nwk_exclusive': '0',
'domain_busy:idle': '1039613222253',
'domain_busy:ssan_exempt': '393451',
}, {
'node-name': 'cluster1-01',
'instance-uuid': 'cluster1-01:kernel:processor1',
'processor_elapsed_time': '1063341351919',
'instance-name': 'processor1',
'timestamp': '1453573834',
},
]
SYSTEM_INSTANCE_UUIDS = ['cluster1-01:kernel:system']
SYSTEM_INSTANCE_NAMES = ['system']
SYSTEM_COUNTERS = [
{
'node-name': 'cluster1-01',
'instance-uuid': 'cluster1-01:kernel:system',
'avg_processor_busy': '27877641199',
'instance-name': 'system',
'timestamp': '1453524928',
}, {
'node-name': 'cluster1-01',
'instance-uuid': 'cluster1-01:kernel:system',
'cpu_elapsed_time': '1014438541279',
'instance-name': 'system',
'timestamp': '1453524928',
}, {
'node-name': 'cluster1-01',
'instance-uuid': 'cluster1-01:kernel:system',
'cpu_elapsed_time1': '1014438541279',
'instance-name': 'system',
'timestamp': '1453524928',
},
]
WAFL_INSTANCE_UUIDS = ['cluster1-01:kernel:wafl']
WAFL_INSTANCE_NAMES = ['wafl']
WAFL_COUNTERS = [
{
'cp_phase_times': '563,4844,1731,9676,469,0,821,763,1282,1937,0,359,'
'418,1048,344,3344,4867,1397,1101,2380,356,1318,'
'5954,9,2236,2190,228,476,1221,0,5838,696,515588,'
'20542954,0,0,3122,10567367,20696,13982,36',
'node-name': 'cluster1-01',
'instance-uuid': 'cluster1-01:kernel:wafl',
'instance-name': 'wafl',
'timestamp': '1453523339',
}, {
'node-name': 'cluster1-01',
'instance-uuid': 'cluster1-01:kernel:wafl',
'total_cp_msecs': '31721222',
'instance-name': 'wafl',
'timestamp': '1453523339',
},
]
WAFL_CP_PHASE_TIMES_COUNTER_INFO = {
'labels': [
'SETUP', 'PRE_P0', 'P0_SNAP_DEL', 'P1_CLEAN', 'P1_QUOTA',
'IPU_DISK_ADD', 'P2V_INOFILE', 'P2V_INO_PUB', 'P2V_INO_PRI',
'P2V_FSINFO', 'P2V_DLOG1', 'P2V_DLOG2', 'P2V_REFCOUNT',
'P2V_TOPAA', 'P2V_DF_SCORES_SUB', 'P2V_BM', 'P2V_SNAP',
'P2V_DF_SCORES', 'P2V_VOLINFO', 'P2V_CONT', 'P2A_INOFILE',
'P2A_INO', 'P2A_DLOG1', 'P2A_HYA', 'P2A_DLOG2', 'P2A_FSINFO',
'P2A_IPU_BITMAP_GROW', 'P2A_REFCOUNT', 'P2A_TOPAA',
'P2A_HYABC', 'P2A_BM', 'P2A_SNAP', 'P2A_VOLINFO', 'P2_FLUSH',
'P2_FINISH', 'P3_WAIT', 'P3V_VOLINFO', 'P3A_VOLINFO',
'P3_FINISH', 'P4_FINISH', 'P5_FINISH',
],
'name': 'cp_phase_times',
}
EXPANDED_WAFL_COUNTERS = [
{
'cp_phase_times:p2a_snap': '696',
'cp_phase_times:p4_finish': '13982',
'cp_phase_times:setup': '563',
'cp_phase_times:p2a_dlog1': '5954',
'cp_phase_times:p2a_dlog2': '2236',
'cp_phase_times:p2v_cont': '2380',
'cp_phase_times:p2v_volinfo': '1101',
'cp_phase_times:p2v_bm': '3344',
'cp_phase_times:p2v_fsinfo': '1937',
'cp_phase_times:p2a_inofile': '356',
'cp_phase_times': '563,4844,1731,9676,469,0,821,763,1282,1937,0,359,'
'418,1048,344,3344,4867,1397,1101,2380,356,1318,'
'5954,9,2236,2190,228,476,1221,0,5838,696,515588,'
'20542954,0,0,3122,10567367,20696,13982,36',
'cp_phase_times:p2v_dlog2': '359',
'instance-name': 'wafl',
'cp_phase_times:p3_wait': '0',
'cp_phase_times:p2a_bm': '5838',
'cp_phase_times:p1_quota': '469',
'cp_phase_times:p2v_inofile': '821',
'cp_phase_times:p2a_refcount': '476',
'cp_phase_times:p2a_fsinfo': '2190',
'cp_phase_times:p2a_hyabc': '0',
'cp_phase_times:p2a_volinfo': '515588',
'cp_phase_times:pre_p0': '4844',
'cp_phase_times:p2a_hya': '9',
'cp_phase_times:p0_snap_del': '1731',
'cp_phase_times:p2a_ino': '1318',
'cp_phase_times:p2v_df_scores_sub': '344',
'cp_phase_times:p2v_ino_pub': '763',
'cp_phase_times:p2a_ipu_bitmap_grow': '228',
'cp_phase_times:p2v_refcount': '418',
'timestamp': '1453523339',
'cp_phase_times:p2v_dlog1': '0',
'cp_phase_times:p2_finish': '0',
'cp_phase_times:p1_clean': '9676',
'node-name': 'cluster1-01',
'instance-uuid': 'cluster1-01:kernel:wafl',
'cp_phase_times:p3a_volinfo': '10567367',
'cp_phase_times:p2a_topaa': '1221',
'cp_phase_times:p2_flush': '20542954',
'cp_phase_times:p2v_df_scores': '1397',
'cp_phase_times:ipu_disk_add': '0',
'cp_phase_times:p2v_snap': '4867',
'cp_phase_times:p5_finish': '36',
'cp_phase_times:p2v_ino_pri': '1282',
'cp_phase_times:p3v_volinfo': '3122',
'cp_phase_times:p2v_topaa': '1048',
'cp_phase_times:p3_finish': '20696',
}, {
'node-name': 'cluster1-01',
'instance-uuid': 'cluster1-01:kernel:wafl',
'total_cp_msecs': '31721222',
'instance-name': 'wafl',
'timestamp': '1453523339',
},
]
PROCESSOR_INSTANCE_UUIDS = [
'cluster1-01:kernel:processor0',
'cluster1-01:kernel:processor1',
]
PROCESSOR_INSTANCE_NAMES = ['processor0', 'processor1']
PROCESSOR_COUNTERS = [
{
'node-name': 'cluster1-01',
'instance-uuid': 'cluster1-01:kernel:processor0',
'domain_busy': '980648687811,2597164534,2155400686,5443901498,'
'690280568,28,6180773,59,413895,1190100947,48989575,'
'58549809,34,54,11,20,5024141791,13136260754,452215',
'instance-name': 'processor0',
'timestamp': '1453524150',
}, {
'node-name': 'cluster1-01',
'instance-uuid': 'cluster1-01:kernel:processor0',
'processor_elapsed_time': '1013660714257',
'instance-name': 'processor0',
'timestamp': '1453524150',
}, {
'node-name': 'cluster1-01',
'instance-uuid': 'cluster1-01:kernel:processor1',
'domain_busy': '990957980543,1891766637,1433411516,3572427934,'
'691372324,0,3188648,0,305947,1211235777,47954620,'
'34832715,0,0,0,0,2692084482,9834648927,393451',
'instance-name': 'processor1',
'timestamp': '1453524150',
}, {
'node-name': 'cluster1-01',
'instance-uuid': 'cluster1-01:kernel:processor1',
'processor_elapsed_time': '1013660714261',
'instance-name': 'processor1',
'timestamp': '1453524150',
},
]
PROCESSOR_DOMAIN_BUSY_COUNTER_INFO = {
'labels': [
'idle', 'kahuna', 'storage', 'exempt', 'raid', 'raid_exempt',
'target', 'dnscache', 'cifs', 'wafl_exempt', 'wafl_xcleaner',
'sm_exempt', 'cluster', 'protocol', 'nwk_exclusive', 'nwk_exempt',
'nwk_legacy', 'hostOS', 'ssan_exempt',
],
'name': 'domain_busy',
}
EXPANDED_PROCESSOR_COUNTERS = [
{
'domain_busy:kahuna': '2597164534',
'timestamp': '1453524150',
'domain_busy:cifs': '413895',
'domain_busy:raid_exempt': '28',
'node-name': 'cluster1-01',
'instance-uuid': 'cluster1-01:kernel:processor0',
'domain_busy:target': '6180773',
'domain_busy:nwk_exempt': '20',
'domain_busy:raid': '690280568',
'domain_busy:storage': '2155400686',
'instance-name': 'processor0',
'domain_busy:cluster': '34',
'domain_busy:wafl_xcleaner': '48989575',
'domain_busy:wafl_exempt': '1190100947',
'domain_busy:protocol': '54',
'domain_busy': '980648687811,2597164534,2155400686,5443901498,'
'690280568,28,6180773,59,413895,1190100947,48989575,'
'58549809,34,54,11,20,5024141791,13136260754,452215',
'domain_busy:nwk_legacy': '5024141791',
'domain_busy:dnscache': '59',
'domain_busy:exempt': '5443901498',
'domain_busy:hostos': '13136260754',
'domain_busy:sm_exempt': '58549809',
'domain_busy:nwk_exclusive': '11',
'domain_busy:idle': '980648687811',
'domain_busy:ssan_exempt': '452215',
}, {
'node-name': 'cluster1-01',
'instance-uuid': 'cluster1-01:kernel:processor0',
'processor_elapsed_time': '1013660714257',
'instance-name': 'processor0',
'timestamp': '1453524150',
}, {
'domain_busy:kahuna': '1891766637',
'timestamp': '1453524150',
'domain_busy:cifs': '305947',
'domain_busy:raid_exempt': '0',
'node-name': 'cluster1-01',
'instance-uuid': 'cluster1-01:kernel:processor1',
'domain_busy:target': '3188648',
'domain_busy:nwk_exempt': '0',
'domain_busy:raid': '691372324',
'domain_busy:storage': '1433411516',
'instance-name': 'processor1',
'domain_busy:cluster': '0',
'domain_busy:wafl_xcleaner': '47954620',
'domain_busy:wafl_exempt': '1211235777',
'domain_busy:protocol': '0',
'domain_busy': '990957980543,1891766637,1433411516,3572427934,'
'691372324,0,3188648,0,305947,1211235777,47954620,'
'34832715,0,0,0,0,2692084482,9834648927,393451',
'domain_busy:nwk_legacy': '2692084482',
'domain_busy:dnscache': '0',
'domain_busy:exempt': '3572427934',
'domain_busy:hostos': '9834648927',
'domain_busy:sm_exempt': '34832715',
'domain_busy:nwk_exclusive': '0',
'domain_busy:idle': '990957980543',
'domain_busy:ssan_exempt': '393451',
}, {
'node-name': 'cluster1-01',
'instance-uuid': 'cluster1-01:kernel:processor1',
'processor_elapsed_time': '1013660714261',
'instance-name': 'processor1',
'timestamp': '1453524150',
},
]
def get_config_cmode():
config = na_fakes.create_configuration_cmode()

11
manila/tests/share/drivers/netapp/test_utils.py
View File

@ -44,6 +44,17 @@ class NetAppDriverUtilsTestCase(test.TestCase):
na_utils.setup_tracing(None)
def test_round_down(self):
self.assertAlmostEqual(na_utils.round_down(5.567), 5.56)
self.assertAlmostEqual(na_utils.round_down(5.567, '0.00'), 5.56)
self.assertAlmostEqual(na_utils.round_down(5.567, '0.0'), 5.5)
self.assertAlmostEqual(na_utils.round_down(5.567, '0'), 5)
self.assertAlmostEqual(na_utils.round_down(0, '0.00'), 0)
self.assertAlmostEqual(na_utils.round_down(-5.567), -5.56)
self.assertAlmostEqual(na_utils.round_down(-5.567, '0.00'), -5.56)
self.assertAlmostEqual(na_utils.round_down(-5.567, '0.0'), -5.5)
self.assertAlmostEqual(na_utils.round_down(-5.567, '0'), -5)
def test_setup_tracing(self):
na_utils.setup_tracing(None)
self.assertFalse(na_utils.TRACE_API)

7
releasenotes/notes/netapp_cdot_performance_utilization-aff1b498a159470e.yaml Normal file
View File

@ -0,0 +1,7 @@
---
features:
- The NetApp cDOT drivers now include the cluster node utilization
metrics for each pool reported to the manila scheduler. These
values are designed to be included in the filter & goodness functions
used by the scheduler, so the cDOT drivers now also report those
functions to the scheduler for each pool.