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loadtesting.py
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loadtesting.py
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#! /usr/bin/env python2
'''CodeRunner load tester.
Tests the load handling capability of a server by submitting
quiz attempts by a set of n users to a set of m quizzes in a
pseudo-random manner, recording response time and correctness
of response. It requires that a suitable set of quizzes be
set up on the server.
Mostly code written by Carl Cerecke, modified by Richard Lobb.
Further modified to change from ccode to coderunner, Jan 2013.
Assumed the existence of 4 1-question quizzes, called LoadTesting1 ..
LoadTesting4, together with logins for 10 students, student0 ..
student9.
This program is very specific to the University of Canterbury
but is included here on the off-chance it's useful to anyone else
(with lots of twiddling of parameters).
Richard Lobb, 17 April 2013.
'''
import mechanize as mech
from base64 import b16decode as decode
import time
from multiprocessing import Pool, Process, Queue
import itertools
import sys
import shelve
import random
import traceback
LANGUAGE = 'PYTHON3'
shelf = shelve.open('coderunner_loadtesting_results')
# Correct answers to the four one-question quizzes for each language.
quiz_answers = {
# ==== C ====
'C': ['''
float addMul(float a, float b, float c) {
return (a + b) * c;
}
''',
'''
float approx_const(float x) {
long long xScaled = x * 1000 + 0.5;
return xScaled / 1000.0;
}
''',
'''
float c_to_f(float c) {
return 32.0 + c * 9.0 / 5.0;
}
''',
'''
#include <stdio.h>
int main() {
int n;
int i;
scanf("%d", &n);
for (i = 1; i <= n; i++) {
printf("%d", i);
}
puts("");
return 0;
}
'''],
# ==== PYTHON3 ====
'PYTHON3': [
'''def addMul(a, b, c): return (a + b) * c
''',
'''
def approx_const(x):
xScaled = x * 1000 + 0.5
return int(xScaled) / 1000.0
''',
'''
def c_to_f(c):
return 32.0 + c * 9.0 / 5.0
''',
'''
n = int(input())
for i in range(1, n+1):
print(str(i) + ' ', end='')
print()
''',
'''
([[{},{},{1,4,8}],[2,{},{}],[{},3,{}],[3,3,{}],[4,{4,5},{}],[6,{},{}],[{},7,{}],[7,7,{}],[8,{8,9},{}],[10,{},{}],[{},{},{}]],[3,7,10])
'''],
# ====== MATLAB ======
'MATLAB': [
'''function result = addMul(a, b, c)
result = (a + b) * c;
end
''',
'''function ac = approx_const(f)
ac = double(int32(f * 1000))/1000;
end
''',
'''function result = c_to_f(c)
result = 32.0 + c * 9.0 / 5.0;
end
''',
'''function crazy(n)
s = '';
for i = 1 : n
s = [s sprintf('%d ', i)];
end
disp(s);
end
'''
],
# ====== CLOJURE ======
"CLOJURE": """
(defn arg-max [f ls]
(reduce (fn [x y] (if (> (f x) (f y)) x y)) (first ls) ls))
;
(defn compose [& fns]
(fn [x] (reduce (fn [x f] (f x)) x fns)))
;
(defn conjoin [& ps]
(fn [x] (reduce (fn [v p] (and v (p x))) true ps)))
;
(defn transpose [ls] (apply map list ls))
""".split(';')
}
FIRST_STUDENT = 5
LAST_STUDENT = 9
course = 'LoadTesting'
quizzes = [LANGUAGE + '_LoadTesting' + str(x) for x in range(1,5)]
students = ['student' + str(i) for i in range(FIRST_STUDENT, LAST_STUDENT + 1)]
all_args = list(itertools.product(quizzes,students))
MIN_N, MAX_N = 30, 40 # Range of subrange-lengths of all_args (see run_all_n)
def quiz_runner(arg_tup): #quiz_name, student, [Queue]
'''Run the given quiz for the given student'''
if len(arg_tup) == 2:
quiz_name, student = arg_tup
queue = None
elif len(arg_tup) == 3:
quiz_name, student, queue = arg_tup
err = 'Wrong answer'
quiz_num = int(quiz_name[-1]) - 1
quiz_answer = quiz_answers[LANGUAGE][quiz_num]
try:
login = 'https://quiz.cosc.canterbury.ac.nz/login/index.php'
print 'opening quiz page'
br = mech.Browser()
br.set_handle_robots(False)
br.open(login)
print 'Logging in as ' + student
#print br.response().get_data()
log_form = list(br.forms())[0]
br.form = log_form
br['username'] = student
br['password'] = 'S-tudent0'
br.submit()
print "Logged in. Following link to " + course
br.follow_link(text_regex=course)
print "Follow link to " + quiz_name
br.follow_link(text_regex=quiz_name)
print "follow link to 'Attempt quiz now' (or 'Re-attempt quiz')"
#br.follow_link(text_regex='Preview')
#br.follow_link(text_regex='Re-attempt quiz')
br.select_form(nr=0)
br.submit()
forms = list(br.forms())
main_form = forms[0]
textarea = main_form.controls[4]
qa = quiz_answer;
print 'Entering code into textarea:'
textarea._value = qa
br.form = main_form
print 'submit %s code' % LANGUAGE
start = time.time()
br.submit()
res = br.response()
data = res.get_data()
dt = time.time() - start
if 'coderunner-test-results' in data:
if 'coderunner-test-results good' in data:
print 'Success! Test results returned in %.3f secs' % dt
err = ''
else:
print '***Failed***! Test results returned in %.3f secs' % dt
#f = open('junk.html', 'w')
#f.write(data)
#f.close()
#sys.exit(0)
else:
print 'Something went wrong'
print data
print 'Finishing attempt'
br.follow_link(text_regex='Finish attempt')
print 'Getting review'
br.select_form(nr=0)
br.submit()
print 'All done'
br.close()
except Exception, e:
print '*** EXCEPTION', e
traceback.print_exc()
print br.response()
err = str(e)
dt = -1
if queue:
queue.put((dt, err), block=False)
return (dt, err)
def run_n(n):
'''Run, in parallel, the first n (student, quiz) pairings from
the global all_args list'''
arg_list = all_args[:n]
pool = Pool(processes=len(arg_list))
times = pool.map(quiz_runner, arg_list)
floats = [x for (x, y) in times if y == '']
errors = [y for (x, y) in times if y != '']
avg = sum(floats)/len(floats) if len(floats) > 0 else -1
return (n, min(floats), max(floats), sum(floats)/len(floats), len(errors))
def run_all_n():
'''For a range of subranges of the global all_args variable from
MIN_N to MAX_N, do a simulation run'''
results = []
for n in range(MIN_N, MAX_N + 1):
print n
result = run_n(n)
shelf[str(n)] = result
print result
results.append(result)
shelf.close()
def sim(avg_gap, sim_length):
'''Do a full simulation run of multiple different (student,quiz)
pairings for a duration of sim_length, with an average inter-submission
time of avg_gap'''
name = 'sim_gap_%d_length_%d' % (avg_gap, sim_length)
arg_gen = itertools.cycle(all_args)
lamb = 1.0/avg_gap
result_q = Queue(10000)
processes = []
start = time.time()
finish = start+sim_length
while time.time() < finish:
quiz_name, student = arg_gen.next()
p = Process(target = quiz_runner, args = ((quiz_name, student, result_q),))
print 'START %s %s' % (quiz_name, student)
p.start()
processes.append(p)
time.sleep(random.expovariate(lamb))
for p in processes:
p.join()
results = []
errs = []
while not result_q.empty():
(dt, err) = result_q.get(False)
if err:
errs.append(err)
else:
results.append(dt)
shelf[name] = (results, errs)
shelf.close()
print len(errs), ' exceptions'
print "Success times:", results
return (results, errs)
if __name__ == '__main__':
SIMULATION_GAP_SECS = 2
SIMULATION_DURATION_SECS = 60
before = time.time()
(results, errs) = sim(SIMULATION_GAP_SECS, SIMULATION_DURATION_SECS)
after = time.time()
print "min:",min(results)
print "max:",max(results)
print "avg:",sum(results)/len(results)
print 'total time: %d' % (after-before)
print 'total successful submissions: %d' % len(results)
print 'total failed submissions: %d' % len(errs)