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results.py
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results.py
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#!/usr/bin/env python2
from __future__ import print_function
import re
import os
import sys
import glob
import pprint
from collections import defaultdict
class Results(object):
def __init__(self):
self.LATENCIES = defaultdict(dict)
self.ERRORS = defaultdict(dict)
self.REQUESTS = defaultdict(lambda: defaultdict(int))
self.MEMORY = defaultdict(lambda: defaultdict(int))
self.CPU = defaultdict(lambda: defaultdict(int))
class Parser(object):
RESULTS = defaultdict(Results)
DIGITS_RE = re.compile(r'\d+')
LATENCY_RE = re.compile(r'([\d\.]+)(\w+)')
LATENCY_MULTIPLIERS = {
'us': 0.001,
'ms': 1.0,
's': 1000.0
}
def process(self, directory):
for fileName in sorted(os.listdir(directory)):
with open(os.path.join(directory, fileName), 'r') as f:
parts = self._fileHandler(fileName)
if parts['type'] == 'log':
self._logHandler(directory, parts['server'], parts['connections'], f)
elif parts['type'] == 'stats':
self._statsHandler(directory, parts['server'], parts['connections'], f)
else:
raise ValueError('Unknown type: %s' % parts['type'])
def _fileHandler(self, fileName):
parts = fileName.split('.')
return {
'server': parts[0],
'connections': int(parts[1]),
'type': parts[2]
}
def _logHandler(self, directory, server, connections, content):
for line in content:
parts = [ part for part in line.split(' ') if part ]
if parts[0] == 'Latency':
digits, unit = self.LATENCY_RE.match(parts[1]).groups()
self.RESULTS[directory].LATENCIES[server][connections] = float(digits) * self.LATENCY_MULTIPLIERS[unit]
elif 'Requests' in parts[0]:
self.RESULTS[directory].REQUESTS[server][connections] = float(parts[1])
elif 'Socket' == parts[0]:
self.RESULTS[directory].ERRORS[server][connections] = sum(
int(i) for i in self.DIGITS_RE.findall(line)
)
def _statsHandler(self, directory, server, connections, content):
for line in content:
parts = [ part for part in line.split(' ') if part ]
if 'CONTAINER' not in parts[0]:
cpu = float(parts[1].rstrip('%'))
memory = float(parts[2])
if cpu > self.RESULTS[directory].CPU[server][connections]:
self.RESULTS[directory].CPU[server][connections] = cpu
if memory > self.RESULTS[directory].MEMORY[server][connections]:
self.RESULTS[directory].MEMORY[server][connections] = memory
class Output(object):
def analyze(self, results):
self._servers = sorted(
results.itervalues().next().REQUESTS.iterkeys()
)
self._counts = sorted(
results.itervalues().next().REQUESTS.itervalues().next().keys()
)
self._header = self._csv(['server'] + self._counts)
self._requests(results)
self._latency(results)
self._cpu(results)
self._memory(results)
self._errors(results)
def _csv(self, row):
return ','.join(str(cell) for cell in row)
def _best(self, data, metric, server, count):
# Sort the vaules, removing the extremes
values = sorted(
getattr(data[directory], metric)[server].get(count, 0)
for directory in data
)[1:-1]
# Average the remaining values
return sum(values)/len(values)
def _requests(self, results):
print()
print('REQUESTS')
print(self._header)
for server in self._servers:
print(
self._csv(
[server] + [
self._best(results, 'REQUESTS', server, count)
for count in self._counts
]
)
)
def _latency(self, results):
print()
print('LATENCIES')
print(self._header)
for server in self._servers:
print(
self._csv(
[server] + [
self._best(results, 'LATENCIES', server, count)
for count in self._counts
]
)
)
def _cpu(self, results):
print()
print('CPU')
print(self._header)
for server in self._servers:
print(
self._csv(
[server] + [
self._best(results, 'CPU', server, count)
for count in self._counts
]
)
)
def _memory(self, results):
print()
print('MEMORY')
print(self._header)
for server in self._servers:
print(
self._csv(
[server] + [
self._best(results, 'MEMORY', server, count)
for count in self._counts
]
)
)
def _errors(self, results):
print()
print('ERRORS')
print(self._header)
for server in self._servers:
print(
self._csv(
[server] + [
self._best(results, 'ERRORS', server, count)
for count in self._counts
]
)
)
if __name__ == '__main__':
parser = Parser()
for directory in sys.argv[1:]:
parser.process(directory)
output = Output()
output.analyze(parser.RESULTS)