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##############################################################################
# Copyright (c) 2017 Huawei Technologies Co.,Ltd and others.
#
# All rights reserved. This program and the accompanying materials
# are made available under the terms of the Apache License, Version 2.0
# which accompanies this distribution, and is available at
# http://www.apache.org/licenses/LICENSE-2.0
##############################################################################
from __future__ import print_function
from __future__ import absolute_import
import time
import logging
import yardstick.ssh as ssh
from yardstick.benchmark.scenarios import base
LOG = logging.getLogger(__name__)
PRECISION = 3
class Nstat(base.Scenario):
"""Use nstat to monitor network metrics and measure IP datagram error rate
and etc.
"""
__scenario_type__ = "Nstat"
def __init__(self, scenario_cfg, context_cfg):
"""Scenario construction"""
self.scenario_cfg = scenario_cfg
self.context_cfg = context_cfg
self.setup_done = False
def setup(self):
"""scenario setup"""
host = self.context_cfg["host"]
self.client = ssh.SSH.from_node(host, defaults={"user": "ubuntu"})
self.client.wait(timeout=600)
self.setup_done = True
def match(self, key, field, line, results):
"""match data in the output"""
if key in line:
results[key] = int(line.split()[field])
def calculate_error_rate(self, x, y):
"""calculate error rate"""
try:
return round(float(x) / float(y), PRECISION)
except ZeroDivisionError:
# If incoming Errors is non-zero, but incoming data is zero
# consider it as 100% error rate
if x:
return 1
else:
return 0
def process_output(self, out):
"""process output"""
results = {}
for line in out.splitlines():
self.match('IpInReceives', 1, line, results)
self.match('IpInHdrErrors', 1, line, results)
self.match('IpInAddrErrors', 1, line, results)
self.match('IcmpInMsgs', 1, line, results)
self.match('IcmpInErrors', 1, line, results)
self.match('TcpInSegs', 1, line, results)
self.match('TcpInErrs', 1, line, results)
self.match('UdpInDatagrams', 1, line, results)
self.match('UdpInErrors', 1, line, results)
results['IpErrors'] = \
results['IpInHdrErrors'] + results['IpInAddrErrors']
results['IP_datagram_error_rate'] = \
self.calculate_error_rate(results['IpErrors'],
results['IpInReceives'])
results['Icmp_message_error_rate'] = \
self.calculate_error_rate(results['IcmpInErrors'],
results['IcmpInMsgs'])
results['Tcp_segment_error_rate'] = \
self.calculate_error_rate(results['TcpInErrs'],
results['TcpInSegs'])
results['Udp_datagram_error_rate'] = \
self.calculate_error_rate(results['UdpInErrors'],
results['UdpInDatagrams'])
return results
def run(self, result):
"""execute the benchmark"""
if not self.setup_done:
self.setup()
options = self.scenario_cfg['options']
duration = options.get('duration', 60)
time.sleep(duration)
cmd = "nstat -z"
LOG.debug("Executing command: %s", cmd)
status, stdout, stderr = self.client.execute(cmd)
if status:
raise RuntimeError(stderr)
results = self.process_output(stdout)
result.update(results)
if "sla" in self.scenario_cfg:
sla_error = ""
for i, rate in result.items():
if i not in self.scenario_cfg['sla']:
continue
sla_rate = float(self.scenario_cfg['sla'][i])
rate = float(rate)
if rate > sla_rate:
sla_error += "%s rate %f > sla:%s_rate(%f); " % \
(i, rate, i, sla_rate)
assert sla_error == "", sla_error
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