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import sys
import argparse
import logging
import copy
import threading
from importlib.machinery import SourceFileLoader
import itertools
import requests
import time
import json
import random
import plotly
from plotly.graph_objs import Scatter, Layout
import plotly.figure_factory as ff
from uuid import uuid4
from utils.pdp import check_pdp
logger = None
HOST = None
PORT = None
HOST_AUTHZ = None
PORT_AUTHZ = None
lock = threading.Lock()
def init():
global logger, HOST, PORT, HOST_AUTHZ, PORT_AUTHZ
parser = argparse.ArgumentParser()
parser.add_argument('filename', help='scenario filename', nargs=1)
parser.add_argument("--verbose", "-v", action='store_true', help="verbose mode")
parser.add_argument("--debug", action='store_true', help="debug mode")
parser.add_argument("--dry-run", "-n", action='store_true', help="Dry run", dest="dry_run")
parser.add_argument("--host",
help="Set the name of the host to test (default: 172.18.0.11).",
default="172.18.0.11")
parser.add_argument("--host-authz",
help="Set the name of the host to test authorization (default: 172.18.0.11).",
default="172.18.0.11",
dest="host_authz")
parser.add_argument("--port", "-p",
help="Set the port of the host to test (default: 38001).",
default="38001")
parser.add_argument("--port-authz",
help="Set the port of the host to test authorization (default: 38001).",
default="38001",
dest="port_authz")
parser.add_argument("--test-only", "-t", action='store_true', dest='testonly', help="Do not generate graphs")
parser.add_argument("--stress-test", "-s", action='store_true', dest='stress_test',
help="Execute stressing tests (warning delta measures will be false, implies -t)")
parser.add_argument("--write", "-w", help="Write test data to a JSON file", default="/tmp/data.json")
parser.add_argument("--pdp", help="Test on pdp PDP")
parser.add_argument("--input", "-i", help="Get data from a JSON input file")
parser.add_argument("--legend", "-l", help="Set the legend (default: 'rbac,rbac+session')",
default='rbac,rbac+session')
# parser.add_argument("--distgraph", "-d",
# help="Show a distribution graph instead of a linear graph",
# action='store_true')
parser.add_argument("--request-per-second", help="Number of requests per seconds",
type=int, dest="request_second", default=1)
parser.add_argument("--limit", help="Limit request to LIMIT", type=int)
parser.add_argument("--write-image", help="Write the graph to file IMAGE", dest="write_image")
parser.add_argument("--write-html", help="Write the graph to HTML file HTML", dest="write_html", default="data.html")
args = parser.parse_args()
FORMAT = '%(asctime)-15s %(levelname)s %(message)s'
if args.debug:
logging.basicConfig(
format=FORMAT,
level=logging.DEBUG)
elif args.verbose:
logging.basicConfig(
format=FORMAT,
level=logging.INFO)
else:
logging.basicConfig(
format=FORMAT,
level=logging.WARNING)
logger = logging.getLogger(__name__)
requests_log = logging.getLogger("requests.packages.urllib3")
requests_log.setLevel(logging.WARNING)
requests_log.propagate = True
if args.stress_test:
args.testonly = True
if args.filename:
logger.info("Loading: {}".format(args.filename[0]))
HOST = args.host
PORT = args.port
HOST_AUTHZ = args.host_authz
PORT_AUTHZ = args.port_authz
return args
def get_scenario(args):
m = SourceFileLoader("scenario", args.filename[0])
return m.load_module()
def get_keystone_id(pdp_name):
keystone_project_id = None
logger.error("get_keystone_id url={}".format("http://{}:{}".format(HOST, PORT)))
for pdp_key, pdp_value in check_pdp(moon_url="http://{}:{}".format(HOST, PORT))["pdps"].items():
logger.debug(pdp_value)
if pdp_name:
if pdp_name != pdp_value["name"]:
continue
if pdp_value['security_pipeline'] and pdp_value["keystone_project_id"]:
logger.debug("Found pdp with keystone_project_id={}".format(pdp_value["keystone_project_id"]))
keystone_project_id = pdp_value["keystone_project_id"]
if not keystone_project_id:
logger.error("Cannot find PDP with keystone project ID")
sys.exit(1)
return keystone_project_id
def _send(url, stress_test=False):
current_request = dict()
current_request['url'] = url
try:
if stress_test:
current_request['start'] = time.time()
# with lock:
res = requests.get(url)
current_request['end'] = time.time()
current_request['delta'] = current_request["end"] - current_request["start"]
else:
with lock:
current_request['start'] = time.time()
res = requests.get(url)
current_request['end'] = time.time()
current_request['delta'] = current_request["end"] - current_request["start"]
except requests.exceptions.ConnectionError:
logger.warning("Unable to connect to server")
return {}
if res and not stress_test:
logger.debug(res.status_code)
logger.debug(res.text)
if res.status_code == 200:
# logger.warning("error code 200 for {}".format(self.url))
logger.info("\033[1m{}\033[m {}".format(url, res.status_code))
try:
j = res.json()
except Exception as e:
logger.debug(e)
logger.error(res.text)
else:
if j.get("authz"):
logger.warning("{} \033[32m{}\033[m".format(url, j.get("authz")))
logger.debug("{}".format(j.get("error", "")))
current_request['result'] = "Grant"
else:
logger.warning("{} \033[31m{}\033[m".format(url, j.get("authz")))
logger.debug("{}".format(j.get("error", "")))
current_request['result'] = "Deny"
return current_request
class AsyncGet(threading.Thread):
def __init__(self, url, semaphore=None, *args, **kwargs):
threading.Thread.__init__(self)
self.url = url
self.kwargs = kwargs
self.sema = semaphore
self.result = dict()
self.uuid = uuid4().hex
self.index = kwargs.get("index", 0)
def run(self):
self.result = _send(self.url, self.kwargs.get("stress_test", False))
self.result['index'] = self.index
def send_requests(scenario, keystone_project_id, request_second=1, limit=500,
dry_run=None, stress_test=False):
# sema = threading.BoundedSemaphore(value=request_second)
backgrounds = []
time_data = list()
start_timing = time.time()
request_cpt = 0
indexes = []
# rules = itertools.product(scenario.subjects.keys(), scenario.objects.keys(), scenario.actions.keys())
SUBJECTS = tuple(scenario.subjects.keys())
OBJECTS = tuple(scenario.objects.keys())
ACTIONS = tuple(scenario.actions.keys())
# for rule in rules:
while request_cpt <= limit:
rule = (random.choice(SUBJECTS), random.choice(OBJECTS), random.choice(ACTIONS))
url = "http://{}:{}/authz/{}/{}".format(HOST_AUTHZ, PORT_AUTHZ, keystone_project_id, "/".join(rule))
indexes.append(url)
if dry_run:
logger.info(url)
continue
request_cpt += 1
if stress_test:
time_data.append(copy.deepcopy(_send(url, stress_test=stress_test)))
else:
background = AsyncGet(url, stress_test=stress_test, index=request_cpt)
backgrounds.append(background)
background.start()
# if limit and limit < request_cpt:
# break
if request_cpt % request_second == 0:
if time.time()-start_timing < 1:
while True:
if time.time()-start_timing > 1:
break
start_timing = time.time()
if not stress_test:
for background in backgrounds:
background.join()
if background.result:
time_data.append(copy.deepcopy(background.result))
return time_data
def save_data(filename, time_data):
json.dump(time_data, open(filename, "w"))
def get_delta(time_data):
time_delta = list()
time_delta_sum1 = 0
for item in time_data:
time_delta.append(item['delta'])
time_delta_sum1 += item['delta']
time_delta_average1 = time_delta_sum1 / len(time_data)
return time_delta, time_delta_average1
def write_graph(time_data, legend=None, input=None, image_file=None, html_file=None):
logger.info("Writing graph")
legends = legend.split(",")
result_data = []
time_delta, time_delta_average1 = get_delta(time_data)
time_delta_average2 = None
# if input:
# for _input in input.split(","):
# current_legend = legends.pop(0)
# time_data2 = json.load(open(_input))
# time_delta2, time_delta_average2 = get_delta(time_data2)
# for item in time_data:
# if key in time_data2:
# time_delta2.append(time_data2[key]['delta'])
# else:
# time_delta2.append(None)
# data2 = Scatter(
# x=list(range(len(time_data))),
# y=time_delta2,
# name=current_legend,
# line=dict(
# color='rgb(255, 192, 118)',
# shape='spline')
# )
# result_data.append(data2)
# data2_a = Scatter(
# x=list(range(len(time_data))),
# y=[time_delta_average2 for x in range(len(time_data))],
# name=current_legend + " average",
# line=dict(
# color='rgb(255, 152, 33)',
# shape='spline')
# )
# result_data.append(data2_a)
current_legend = legends.pop(0)
data1 = Scatter(
x=list(range(len(time_data))),
y=time_delta,
name=current_legend,
line=dict(
color='rgb(123, 118, 255)')
)
result_data.append(data1)
data1_a = Scatter(
x=list(range(len(time_data))),
y=[time_delta_average1 for x in range(len(time_data))],
name=current_legend + " average",
line=dict(
color='rgb(28, 20, 255)')
)
result_data.append(data1_a)
if image_file:
plotly.offline.plot(
{
"data": result_data,
"layout": Layout(
title="Request times delta",
xaxis=dict(title='Requests'),
yaxis=dict(title='Request duration'),
)
},
filename=html_file,
image="svg",
image_filename=image_file,
image_height=1000,
image_width=1200
)
else:
plotly.offline.plot(
{
"data": result_data,
"layout": Layout(
title="Request times delta",
xaxis=dict(title='Requests'),
yaxis=dict(title='Request duration'),
)
},
filename=html_file,
)
if time_delta_average2:
logger.info("Average: {} and {}".format(time_delta_average1, time_delta_average2))
return 1-time_delta_average2/time_delta_average1
return 0
# def write_distgraph(time_data, legend=None, input=None, image_file=None, html_file=None):
#
# logger.info("Writing graph")
# legends = legend.split(",")
# result_data = []
#
# time_delta_average2 = None
#
# if input:
# for _input in input.split(","):
# logger.info("Analysing input {}".format(_input))
# time_data2 = json.load(open(_input))
# time_delta2, time_delta_average2 = get_delta(time_data2)
# result_data.append(time_delta2)
#
# time_delta, time_delta_average1 = get_delta(time_data)
# result_data.append(time_delta)
#
# # Create distplot with custom bin_size
# if len(legends) < len(result_data):
# for _cpt in range(len(result_data)-len(legends)):
# legends.append("NC")
# fig = ff.create_distplot(result_data, legends, bin_size=.2)
#
# # Plot!
# plotly.offline.plot(
# fig,
# image="svg",
# image_filename=image_file,
# image_height=1000,
# image_width=1200,
# filename=html_file
# )
# if time_delta_average2:
# logger.info("Average: {} and {}".format(time_delta_average1, time_delta_average2))
# return 1-time_delta_average2/time_delta_average1
# return 0
def main():
args = init()
scenario = get_scenario(args)
keystone_project_id = get_keystone_id(args.pdp)
time_data = send_requests(
scenario,
keystone_project_id,
request_second=args.request_second,
limit=args.limit,
dry_run=args.dry_run,
stress_test=args.stress_test
)
if not args.dry_run:
save_data(args.write, time_data)
if not args.testonly:
# if args.distgraph:
# overhead = write_distgraph(time_data, legend=args.legend, input=args.input, image_file=args.write_image,
# html_file=args.write_html)
# else:
overhead = write_graph(time_data, legend=args.legend, input=args.input, image_file=args.write_image,
html_file=args.write_html)
logger.info("Overhead: {:.2%}".format(overhead))
if __name__ == "__main__":
main()
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