class ChangeLocalUserPassword(unittest.TestCase):
def setUp(self):
self.facility = Facility(name="Test Facility")
self.facility.save()
self.group = FacilityGroup(facility=self.facility, name="Test Class")
self.group.full_clean()
self.group.save()
self.user = FacilityUser(facility=self.facility,
username="******",
first_name="Firstname",
last_name="Lastname",
group=self.group)
self.user.clear_text_password = "******" # not used anywhere but by us, for testing purposes
self.user.set_password(self.user.clear_text_password)
self.user.full_clean()
self.user.save()
def test_change_password(self):
# Now, re-retrieve the user, to check.
(out, err, val) = call_command_with_output("changelocalpassword",
self.user.username,
noinput=True)
self.assertEquals(err, "", "no output on stderr")
self.assertNotEquals(out, "", "some output on stderr")
self.assertEquals(val, 0, "Exit code is zero")
match = re.match(
r"^.*Generated new password for user '([^']+)': '([^']+)'",
out.replace("\n", ""), re.MULTILINE)
self.assertFalse(match is None, "could not parse stdout")
user = FacilityUser.objects.get(facility=self.facility,
username=self.user.username)
self.assertEquals(user.username,
match.groups()[0], "Username reported correctly")
self.assertTrue(user.check_password(match.groups()[1]),
"New password works")
self.assertFalse(user.check_password(self.user.clear_text_password),
"NOT the old password")
def test_no_user(self):
fake_username = self.user.username + "xxxxx"
#with self.assertRaises(FacilityUser.DoesNotExist):
(out, err, val) = call_command_with_output("changelocalpassword",
fake_username,
noinput=True)
self.assertNotIn("Generated new password for user", out,
"Did not set password")
self.assertNotEquals(err, "", "some output on stderr")
match = re.match(r"^.*Error: user '([^']+)' does not exist$",
err.replace("\n", ""), re.M)
self.assertFalse(match is None, "could not parse stderr")
self.assertEquals(match.groups()[0], fake_username,
"Verify printed fake username")
self.assertNotEquals(val, 0, "Verify exit code is non-zero")
def generate_fake_facility_users(nusers=20,
facilities=None,
facility_groups=None,
password="******"):
"""Add the given fake facility users to each of the given fake facilities.
If no facilities are given, they are created."""
if not facility_groups:
(facility_groups,
facilities) = generate_fake_facility_groups(facilities=facilities)
facility_users = []
cur_usernum = 0
users_per_group = nusers / len(facility_groups)
for facility in facilities:
for facility_group in facility_groups:
for i in range(0, users_per_group):
user_data = {
"first_name": random.choice(firstnames),
"last_name": random.choice(lastnames),
}
user_data["username"] = username_from_name(
user_data["first_name"], user_data["last_name"])
try:
facility_user = FacilityUser.objects.get(
facility=facility, username=user_data["username"])
facility_user.group = facility_group
facility_user.save()
logging.info("Retrieved facility user '%s/%s'" %
(facility.name, user_data["username"]))
except FacilityUser.DoesNotExist as e:
notes = json.dumps(sample_user_settings())
facility_user = FacilityUser(
facility=facility,
username=user_data["username"],
first_name=user_data["first_name"],
last_name=user_data["last_name"],
notes=notes,
group=facility_group,
)
facility_user.set_password(
password) # set same password for every user
facility_user.full_clean()
facility_user.save()
logging.info("Created facility user '%s/%s'" %
(facility.name, user_data["username"]))
facility_users.append(facility_user)
cur_usernum += 1 # this is messy and could be done more intelligently;
# could also randomize to add more users, as this function
# seems to be generic, but really is not.
return (facility_users, facility_groups, facilities)
def handle(self, *args, **options):
if settings.CENTRAL_SERVER:
raise CommandError("Don't run this on the central server!! Data not linked to any zone on the central server is BAD.")
facility = Facility(name="Wilson Elementary")
facility.save()
group1 = FacilityGroup(facility=facility, name="Class 4E")
group1.full_clean()
group1.save()
group2 = FacilityGroup(facility=facility, name="Class 5B")
group2.full_clean()
group2.save()
facilityusers = []
for i in range(0,10):
newuser1 = FacilityUser(facility=facility, username=usernames[i], first_name=firstnames[i], last_name=lastnames[i], group=group1)
if settings.DEBUG:
newuser1.set_password(hashed_password = hashed_blah)#"blah")
else:
newuser1.set_password("blah")
newuser1.full_clean()
newuser1.save()
facilityusers.append(newuser1)
newuser2 = FacilityUser(facility=facility, username=usernames[i+10], first_name=firstnames[i+10], last_name=lastnames[i+10], group=group2)
if settings.DEBUG:
newuser2.set_password(hashed_password = hashed_blah)#"blah")
else:
newuser2.set_password("blah")
newuser2.full_clean()
newuser2.save()
facilityusers.append(newuser2)
for topic in topics:
exercises = get_topic_exercises(topic_id=topic)
exercises_a = [random.random() for i in range(len(exercises))]
exercises_b = [float(i) / len(exercises) for i in range(len(exercises))]
for i, user in enumerate(facilityusers):
for j, exercise in enumerate(exercises):
sig = sigmoid(proficiency[i], exercises_a[j], exercises_b[j])
if random.random() < 0.05 * (1-sig) and j > 2:
break
if random.random() < 0.15:
continue
attempts = random.random() * 40 + 10
streak_progress = max(10, min(100, 10 * random.random() + 10 * attempts * sig))
print int(attempts), int(streak_progress), user.first_name, exercise["name"]
log = ExerciseLog(user=user, exercise_id=exercise["name"], attempts=attempts, streak_progress=streak_progress)
log.full_clean()
log.save()
def generate_fake_facility_users(nusers=20, facilities=None, facility_groups=None, password="******"):
"""Add the given fake facility users to each of the given fake facilities.
If no facilities are given, they are created."""
if not facility_groups:
(facility_groups, facilities) = generate_fake_facility_groups(facilities=facilities)
facility_users = []
cur_usernum = 0
users_per_group = nusers / len(facility_groups)
for facility in facilities:
for facility_group in facility_groups:
for i in range(0, users_per_group):
user_data = {
"first_name": random.choice(firstnames),
"last_name": random.choice(lastnames),
}
user_data["username"] = username_from_name(user_data["first_name"], user_data["last_name"])
try:
facility_user = FacilityUser.objects.get(facility=facility, username=user_data["username"])
facility_user.group = facility_group
facility_user.save()
logging.info("Retrieved facility user '%s/%s'" % (facility.name, user_data["username"]))
except FacilityUser.DoesNotExist as e:
notes = json.dumps(sample_user_settings())
facility_user = FacilityUser(
facility=facility,
username=user_data["username"],
first_name=user_data["first_name"],
last_name=user_data["last_name"],
notes=notes,
group=facility_group,
)
facility_user.set_password(password) # set same password for every user
facility_user.full_clean()
facility_user.save()
logging.info("Created facility user '%s/%s'" % (facility.name, user_data["username"]))
facility_users.append(facility_user)
cur_usernum += 1 # this is messy and could be done more intelligently;
# could also randomize to add more users, as this function
# seems to be generic, but really is not.
return (facility_users, facility_groups, facilities)
def handle(self, *args, **options):
facility = Facility(name="Wilson Elementary")
facility.save()
group1 = FacilityGroup(facility=facility, name="Class 4E")
group1.full_clean()
group1.save()
group2 = FacilityGroup(facility=facility, name="Class 5B")
group2.full_clean()
group2.save()
facilityusers = []
for i in range(0,10):
newuser1 = FacilityUser(facility=facility, username=usernames[i], first_name=firstnames[i], last_name=lastnames[i], group=group1)
if settings.DEBUG:
newuser1.set_password(hashed_password = hashed_blah)#"blah")
else:
newuser1.set_password("blah")
newuser1.full_clean()
newuser1.save()
facilityusers.append(newuser1)
newuser2 = FacilityUser(facility=facility, username=usernames[i+10], first_name=firstnames[i+10], last_name=lastnames[i+10], group=group2)
if settings.DEBUG:
newuser2.set_password(hashed_password = hashed_blah)#"blah")
else:
newuser2.set_password("blah")
newuser2.full_clean()
newuser2.save()
facilityusers.append(newuser2)
for topic in topics:
exercises = get_topic_exercises(topic_id=topic)
exercises_a = [random.random() for i in range(len(exercises))]
exercises_b = [float(i) / len(exercises) for i in range(len(exercises))]
for i, user in enumerate(facilityusers):
for j, exercise in enumerate(exercises):
sig = sigmoid(proficiency[i], exercises_a[j], exercises_b[j])
if random.random() < 0.05 * (1-sig) and j > 2:
break
if random.random() < 0.15:
continue
attempts = random.random() * 40 + 10
streak_progress = max(10, min(100, 10 * random.random() + 10 * attempts * sig))
print int(attempts), int(streak_progress), user.first_name, exercise["name"]
log = ExerciseLog(user=user, exercise_id=exercise["name"], attempts=attempts, streak_progress=streak_progress)
log.full_clean()
log.save()
class ChangeLocalUserPassword(unittest.TestCase):
def setUp(self):
self.facility = Facility(name="Test Facility")
self.facility.save()
self.group = FacilityGroup(facility=self.facility, name="Test Class")
self.group.full_clean()
self.group.save()
self.user = FacilityUser(facility=self.facility, username="******", first_name="Firstname", last_name="Lastname", group=self.group)
self.user.clear_text_password = "******" # not used anywhere but by us, for testing purposes
self.user.set_password(self.user.clear_text_password)
self.user.full_clean()
self.user.save()
def test_change_password(self):
# Now, re-retrieve the user, to check.
(out,err,val) = call_command_with_output("changelocalpassword", self.user.username, noinput=True)
self.assertEquals(err, "", "no output on stderr")
self.assertNotEquals(out, "", "some output on stderr")
self.assertEquals(val, 0, "Exit code is zero")
match = re.match(r"^.*Generated new password for user '([^']+)': '([^']+)'", out.replace("\n",""), re.MULTILINE)
self.assertFalse(match is None, "could not parse stdout")
user = FacilityUser.objects.get(facility=self.facility, username=self.user.username)
self.assertEquals(user.username, match.groups()[0], "Username reported correctly")
self.assertTrue(user.check_password(match.groups()[1]), "New password works")
self.assertFalse(user.check_password(self.user.clear_text_password), "NOT the old password")
def test_no_user(self):
fake_username = self.user.username + "xxxxx"
#with self.assertRaises(FacilityUser.DoesNotExist):
(out,err,val) = call_command_with_output("changelocalpassword", fake_username, noinput=True)
self.assertNotIn("Generated new password for user", out, "Did not set password")
self.assertNotEquals(err, "", "some output on stderr")
match = re.match(r"^.*Error: user '([^']+)' does not exist$", err.replace("\n",""), re.M)
self.assertFalse(match is None, "could not parse stderr")
self.assertEquals(match.groups()[0], fake_username, "Verify printed fake username")
self.assertNotEquals(val, 0, "Verify exit code is non-zero")
def handle(self, *args, **options):
facility = Facility(name="Wilson Elementary")
facility.save()
group1 = FacilityGroup(facility=facility, name="Class 4E")
group1.full_clean()
group1.save()
group2 = FacilityGroup(facility=facility, name="Class 5B")
group2.full_clean()
group2.save()
facilityusers = []
for i in range(0,10):
newuser1 = FacilityUser(facility=facility, username=usernames[i], first_name=firstnames[i], last_name=lastnames[i], group=group1)
newuser1.set_password("blah")
newuser1.full_clean()
newuser1.save()
facilityusers.append(newuser1)
newuser2 = FacilityUser(facility=facility, username=usernames[i+10], first_name=firstnames[i+10], last_name=lastnames[i+10], group=group2)
newuser2.set_password("blah")
newuser2.full_clean()
newuser2.save()
facilityusers.append(newuser2)
for topic in topics:
exercises = json.load(open("./static/data/topicdata/" + topic + ".json","r"))
exercises = sorted(exercises, key = lambda k: (k["h_position"], k["v_position"]))
exercises_a = [random.random() for i in range(len(exercises))]
exercises_b = [float(i) / len(exercises) for i in range(len(exercises))]
for i, user in enumerate(facilityusers):
for j, exercise in enumerate(exercises):
sig = sigmoid(proficiency[i], exercises_a[j], exercises_b[j])
if random.random() < 0.05 * (1-sig) and j > 2:
break
if random.random() < 0.15:
continue
attempts = random.random() * 40 + 10
streak_progress = max(10, min(100, 10 * random.random() + 10 * attempts * sig))
print int(attempts), int(streak_progress), user.first_name, exercise["name"]
log = ExerciseLog(user=user, exercise_id=exercise["name"], attempts=attempts, streak_progress=streak_progress)
log.full_clean()
log.save()
