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# Copyright 2016 Intel Corporation.
#
# 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.
""" Vsperf specific scenario definition """
from __future__ import absolute_import
import logging
import os
import subprocess
import csv
import yardstick.ssh as ssh
from yardstick.benchmark.scenarios import base
LOG = logging.getLogger(__name__)
class Vsperf(base.Scenario):
"""Execute vsperf with defined parameters
Parameters:
traffic_type - to specify the type of traffic executed by traffic generator
the valid values are "rfc2544", "continuous", "back2back"
type: string
default: "rfc2544"
frame_size - a frame size for which test should be executed;
Multiple frame sizes can be tested by modification of sequence runner
section inside TC YAML definition.
type: string
default: "64"
bidirectional - speficies if traffic will be uni (False) or bi-directional
(True)
type: string
default: False
iload - specifies frame rate
type: string
default: 100
multistream - the number of simulated streams
type: string
default: 0 (disabled)
stream_type - specifies network layer used for multistream simulation
the valid values are "L4", "L3" and "L2"
type: string
default: "L4"
test_params - specifies a string with a list of vsperf configuration
parameters, which will be passed to the '--test-params' CLI argument;
Parameters should be stated in the form of 'param=value' and separated
by a semicolon. Please check VSPERF documentation for details about
available configuration parameters and their data types.
In case that both 'test_params' and 'conf_file' are specified,
then values from 'test_params' will override values defined
in the configuration file.
type: string
default: NA
conf_file - path to the vsperf configuration file, which will be uploaded
to the VM;
In case that both 'test_params' and 'conf_file' are specified,
then values from 'test_params' will override values defined
in configuration file.
type: string
default: NA
setup_script - path to the setup script, which will be executed during
setup and teardown phases
type: string
default: NA
trafficgen_port1 - specifies device name of 1st interface connected to
the trafficgen
type: string
default: NA
trafficgen_port2 - specifies device name of 2nd interface connected to
the trafficgen
type: string
default: NA
external_bridge - specifies name of external bridge configured in OVS
type: string
default: "br-ex"
"""
__scenario_type__ = "Vsperf"
def __init__(self, scenario_cfg, context_cfg):
self.scenario_cfg = scenario_cfg
self.context_cfg = context_cfg
self.setup_done = False
self.client = None
self.tg_port1 = self.scenario_cfg['options'].get('trafficgen_port1',
None)
self.tg_port2 = self.scenario_cfg['options'].get('trafficgen_port2',
None)
self.br_ex = self.scenario_cfg['options'].get('external_bridge',
'br-ex')
self.vsperf_conf = self.scenario_cfg['options'].get('conf_file', None)
if self.vsperf_conf:
self.vsperf_conf = os.path.expanduser(self.vsperf_conf)
self.setup_script = self.scenario_cfg['options'].get('setup_script',
None)
if self.setup_script:
self.setup_script = os.path.expanduser(self.setup_script)
self.test_params = self.scenario_cfg['options'].get('test-params',
None)
def setup(self):
"""scenario setup"""
vsperf = self.context_cfg['host']
# add trafficgen interfaces to the external bridge
if self.tg_port1:
subprocess.call('sudo bash -c "ovs-vsctl add-port %s %s"' %
(self.br_ex, self.tg_port1), shell=True)
if self.tg_port2:
subprocess.call('sudo bash -c "ovs-vsctl add-port %s %s"' %
(self.br_ex, self.tg_port2), shell=True)
# copy vsperf conf to VM
self.client = ssh.SSH.from_node(vsperf, defaults={
"user": "ubuntu", "password": "ubuntu"
})
# traffic generation could last long
self.client.wait(timeout=1800)
# copy script to host
self.client._put_file_shell(self.vsperf_conf, '~/vsperf.conf')
# execute external setup script
if self.setup_script:
cmd = "%s setup" % (self.setup_script)
LOG.info("Execute setup script \"%s\"", cmd)
subprocess.call(cmd, shell=True)
self.setup_done = True
def run(self, result):
""" execute the vsperf benchmark and return test results
within result dictionary
"""
def add_test_params(options, option, default_value):
"""return parameter and its value as a string to be passed
to the VSPERF inside --test-params argument
Parameters:
options - dictionary with scenario options
option - a name of option to be added to the string
default_value - value to be used in case that option
is not defined inside scenario options
"""
if option in options:
return "%s=%s" % (option, options[option])
elif default_value is not None:
return "%s=%s" % (option, default_value)
else:
return None
if not self.setup_done:
self.setup()
# remove results from previous tests
self.client.execute("rm -rf /tmp/results*")
# get vsperf options
options = self.scenario_cfg['options']
test_params = []
test_params.append(add_test_params(options, "traffic_type", "rfc2544"))
test_params.append(add_test_params(options, "bidirectional", "False"))
test_params.append(add_test_params(options, "iload", 100))
test_params.append(add_test_params(options, "multistream", None))
test_params.append(add_test_params(options, "stream_type", None))
if 'frame_size' in options:
test_params.append("%s=(%s,)" % ('TRAFFICGEN_PKT_SIZES',
options['frame_size']))
if 'test_params' in options:
test_params.append(options['test_params'])
# filter empty parameters and escape quotes and double quotes
test_params = [tp.replace('"', '\\"').replace("'", "\\'")
for tp in test_params if tp]
# execute vsperf
cmd = "source ~/vsperfenv/bin/activate ; cd vswitchperf ; "
cmd += "./vsperf --mode trafficgen "
if self.vsperf_conf:
cmd += "--conf-file ~/vsperf.conf "
cmd += "--test-params=\"%s\"" % (';'.join(test_params))
LOG.debug("Executing command: %s", cmd)
self.client.run(cmd)
# get test results
cmd = "cat /tmp/results*/result.csv"
LOG.debug("Executing command: %s", cmd)
_, stdout, _ = self.client.execute(cmd, raise_on_error=True)
# convert result.csv to JSON format
reader = csv.DictReader(stdout.split('\r\n'), strict=True)
try:
result.update(next(reader))
except StopIteration:
pass
# sla check; go through all defined SLAs and check if values measured
# by VSPERF are higher then those defined by SLAs
if 'sla' in self.scenario_cfg and \
'metrics' in self.scenario_cfg['sla']:
for metric in self.scenario_cfg['sla']['metrics'].split(','):
self.verify_SLA(metric in result,
'%s was not collected by VSPERF' % metric)
self.verify_SLA(metric in self.scenario_cfg['sla'],
'%s is not defined in SLA' % metric)
vs_res = float(result[metric])
sla_res = float(self.scenario_cfg['sla'][metric])
self.verify_SLA(vs_res >= sla_res,
'VSPERF_%s(%f) < SLA_%s(%f)'
% (metric, vs_res, metric, sla_res))
def teardown(self):
"""cleanup after the test execution"""
# remove trafficgen interfaces from the external bridge
if self.tg_port1:
subprocess.call('sudo bash -c "ovs-vsctl del-port %s %s"' %
(self.br_ex, self.tg_port1), shell=True)
if self.tg_port2:
subprocess.call('sudo bash -c "ovs-vsctl del-port %s %s"' %
(self.br_ex, self.tg_port2), shell=True)
# execute external setup script
if self.setup_script:
cmd = "%s teardown" % (self.setup_script)
LOG.info("Execute setup script \"%s\"", cmd)
subprocess.call(cmd, shell=True)
self.setup_done = False
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