8f78d80b5b
Add airflow and CPU/Mem/IO utilization metric, which are critical to show node usage statistics. DocImpact Change-Id: I92cf297b0fc2436c3530536e0c76fd69058369b0 Implements: blueprint power-thermal-data
169 lines
5.6 KiB
Python
169 lines
5.6 KiB
Python
# Copyright 2014 Intel Corp.
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#
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# Licensed under the Apache License, Version 2.0 (the "License"); you may
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# not use this file except in compliance with the License. You may obtain
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# a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
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# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
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# License for the specific language governing permissions and limitations
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# under the License.
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import abc
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import mock
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import six
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from ceilometer.ipmi.platform import intel_node_manager as node_manager
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from ceilometer.tests.ipmi.platform import fake_utils
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from ceilometer import utils
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from oslotest import base
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@six.add_metaclass(abc.ABCMeta)
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class _Base(base.BaseTestCase):
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@abc.abstractmethod
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def init_test_engine(self):
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"""Prepare specific ipmitool as engine for different NM version."""
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def setUp(self):
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super(_Base, self).setUp()
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self.init_test_engine()
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self.nm = node_manager.NodeManager()
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@classmethod
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def tearDownClass(cls):
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# reset inited to force an initialization of singleton for next test
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node_manager.NodeManager()._inited = False
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super(_Base, cls).tearDownClass()
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class TestNodeManagerV3(_Base):
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def init_test_engine(self):
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utils.execute = mock.Mock(side_effect=fake_utils.execute_with_nm_v3)
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def test_read_airflow(self):
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airflow = self.nm.read_airflow()
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avg_val = node_manager._hex(airflow["Average_value"])
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max_val = node_manager._hex(airflow["Maximum_value"])
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min_val = node_manager._hex(airflow["Minimum_value"])
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cur_val = node_manager._hex(airflow["Current_value"])
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# get NM 3.0
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self.assertEqual(5, self.nm.nm_version)
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# see ipmi_test_data.py for raw data
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self.assertEqual(190, cur_val)
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self.assertEqual(150, min_val)
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self.assertEqual(550, max_val)
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self.assertEqual(203, avg_val)
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def test_read_outlet_temperature(self):
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temperature = self.nm.read_outlet_temperature()
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avg_val = node_manager._hex(temperature["Average_value"])
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max_val = node_manager._hex(temperature["Maximum_value"])
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min_val = node_manager._hex(temperature["Minimum_value"])
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cur_val = node_manager._hex(temperature["Current_value"])
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# get NM 3.0
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self.assertEqual(5, self.nm.nm_version)
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# see ipmi_test_data.py for raw data
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self.assertEqual(25, cur_val)
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self.assertEqual(24, min_val)
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self.assertEqual(27, max_val)
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self.assertEqual(25, avg_val)
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def test_read_cups_utilization(self):
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cups_util = self.nm.read_cups_utilization()
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cpu_util = node_manager._hex(cups_util["CPU_Utilization"])
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mem_util = node_manager._hex(cups_util["Mem_Utilization"])
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io_util = node_manager._hex(cups_util["IO_Utilization"])
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# see ipmi_test_data.py for raw data
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self.assertEqual(51, cpu_util)
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self.assertEqual(5, mem_util)
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self.assertEqual(0, io_util)
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def test_read_cups_index(self):
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cups_index = self.nm.read_cups_index()
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index = node_manager._hex(cups_index["CUPS_Index"])
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self.assertEqual(46, index)
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class TestNodeManager(_Base):
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def init_test_engine(self):
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utils.execute = mock.Mock(side_effect=fake_utils.execute_with_nm_v2)
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def test_read_power_all(self):
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power = self.nm.read_power_all()
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avg_val = node_manager._hex(power["Average_value"])
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max_val = node_manager._hex(power["Maximum_value"])
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min_val = node_manager._hex(power["Minimum_value"])
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cur_val = node_manager._hex(power["Current_value"])
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# get NM 2.0
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self.assertEqual(3, self.nm.nm_version)
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# see ipmi_test_data.py for raw data
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self.assertEqual(87, cur_val)
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self.assertEqual(3, min_val)
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self.assertEqual(567, max_val)
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self.assertEqual(92, avg_val)
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def test_read_inlet_temperature(self):
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temperature = self.nm.read_inlet_temperature()
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avg_val = node_manager._hex(temperature["Average_value"])
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max_val = node_manager._hex(temperature["Maximum_value"])
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min_val = node_manager._hex(temperature["Minimum_value"])
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cur_val = node_manager._hex(temperature["Current_value"])
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# see ipmi_test_data.py for raw data
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self.assertEqual(23, cur_val)
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self.assertEqual(22, min_val)
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self.assertEqual(24, max_val)
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self.assertEqual(23, avg_val)
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def test_read_airflow(self):
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airflow = self.nm.read_airflow()
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self.assertEqual({}, airflow)
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def test_read_outlet_temperature(self):
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temperature = self.nm.read_outlet_temperature()
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self.assertEqual({}, temperature)
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def test_read_cups_utilization(self):
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cups_util = self.nm.read_cups_utilization()
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self.assertEqual({}, cups_util)
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def test_read_cups_index(self):
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cups_index = self.nm.read_cups_index()
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self.assertEqual({}, cups_index)
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class TestNonNodeManager(_Base):
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def init_test_engine(self):
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utils.execute = mock.Mock(side_effect=fake_utils.execute_without_nm)
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def test_read_power_all(self):
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# no NM support
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self.assertEqual(0, self.nm.nm_version)
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power = self.nm.read_power_all()
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# Non-Node Manager platform return empty data
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self.assertEqual({}, power)
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def test_read_inlet_temperature(self):
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temperature = self.nm.read_inlet_temperature()
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# Non-Node Manager platform return empty data
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self.assertEqual({}, temperature)
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