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# python3
# Copyright 2019 Google LLC
#
# 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.
"""Density tests."""
import re
import types
from benchmarks import suites
from benchmarks.harness import container
from benchmarks.harness import machine
from benchmarks.suites import helpers
# pylint: disable=unused-argument
def memory_usage(value, **kwargs):
"""Returns the passed value."""
return value
def density(target: machine.Machine,
workload: str,
count: int = 50,
wait: float = 0,
load_func: types.FunctionType = None,
**kwargs):
"""Calculate the average memory usage per container.
Args:
target: A machine object.
workload: The workload to run.
count: The number of containers to start.
wait: The time to wait after starting.
load_func: Callback that is called after count images have been started on
the given machine.
**kwargs: Additional container options.
Returns:
The average usage in Kb per container.
"""
count = int(count)
# Drop all caches.
helpers.drop_caches(target)
before = target.read("/proc/meminfo")
# Load the workload.
image = target.pull(workload)
with target.container(
image=image, count=count, **kwargs).detach() as containers:
# Call the optional load function callback if given.
if load_func:
load_func(target, containers)
# Wait 'wait' time before taking a measurement.
target.sleep(wait)
# Drop caches again.
helpers.drop_caches(target)
after = target.read("/proc/meminfo")
# Calculate the memory used.
available_re = re.compile(r"MemAvailable:\s*(\d+)\skB\n")
before_available = available_re.findall(before)
after_available = available_re.findall(after)
return 1024 * float(int(before_available[0]) -
int(after_available[0])) / float(count)
def load_redis(target: machine.Machine, containers: container.Container):
"""Use redis-benchmark "LPUSH" to load each container with 1G of data.
Args:
target: A machine object.
containers: A set of containers.
"""
target.pull("redisbenchmark")
for name in containers.get_names():
flags = "-d 10000 -t LPUSH"
target.container(
"redisbenchmark", links={
name: name
}).run(
host=name, flags=flags)
@suites.benchmark(metrics=[memory_usage], machines=1)
def empty(target: machine.Machine, **kwargs) -> float:
"""Run trivial containers in a density test."""
return density(target, workload="sleep", wait=1.0, **kwargs)
@suites.benchmark(metrics=[memory_usage], machines=1)
def node(target: machine.Machine, **kwargs) -> float:
"""Run node containers in a density test."""
return density(target, workload="node", wait=3.0, **kwargs)
@suites.benchmark(metrics=[memory_usage], machines=1)
def ruby(target: machine.Machine, **kwargs) -> float:
"""Run ruby containers in a density test."""
return density(target, workload="ruby", wait=3.0, **kwargs)
@suites.benchmark(metrics=[memory_usage], machines=1)
def redis(target: machine.Machine, **kwargs) -> float:
"""Run redis containers in a density test."""
if "count" not in kwargs:
kwargs["count"] = 5
return density(
target, workload="redis", wait=3.0, load_func=load_redis, **kwargs)
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