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mylar/cherrypy/test/test_session.py

464 lines
16 KiB
Python
Executable file

import os
localDir = os.path.dirname(__file__)
import sys
import threading
import time
import cherrypy
from cherrypy._cpcompat import copykeys, HTTPConnection, HTTPSConnection
from cherrypy.lib import sessions
from cherrypy.lib.httputil import response_codes
def http_methods_allowed(methods=['GET', 'HEAD']):
method = cherrypy.request.method.upper()
if method not in methods:
cherrypy.response.headers['Allow'] = ", ".join(methods)
raise cherrypy.HTTPError(405)
cherrypy.tools.allow = cherrypy.Tool('on_start_resource', http_methods_allowed)
def setup_server():
class Root:
_cp_config = {'tools.sessions.on': True,
'tools.sessions.storage_type' : 'ram',
'tools.sessions.storage_path' : localDir,
'tools.sessions.timeout': (1.0 / 60),
'tools.sessions.clean_freq': (1.0 / 60),
}
def clear(self):
cherrypy.session.cache.clear()
clear.exposed = True
def data(self):
cherrypy.session['aha'] = 'foo'
return repr(cherrypy.session._data)
data.exposed = True
def testGen(self):
counter = cherrypy.session.get('counter', 0) + 1
cherrypy.session['counter'] = counter
yield str(counter)
testGen.exposed = True
def testStr(self):
counter = cherrypy.session.get('counter', 0) + 1
cherrypy.session['counter'] = counter
return str(counter)
testStr.exposed = True
def setsessiontype(self, newtype):
self.__class__._cp_config.update({'tools.sessions.storage_type': newtype})
if hasattr(cherrypy, "session"):
del cherrypy.session
cls = getattr(sessions, newtype.title() + 'Session')
if cls.clean_thread:
cls.clean_thread.stop()
cls.clean_thread.unsubscribe()
del cls.clean_thread
setsessiontype.exposed = True
setsessiontype._cp_config = {'tools.sessions.on': False}
def index(self):
sess = cherrypy.session
c = sess.get('counter', 0) + 1
time.sleep(0.01)
sess['counter'] = c
return str(c)
index.exposed = True
def keyin(self, key):
return str(key in cherrypy.session)
keyin.exposed = True
def delete(self):
cherrypy.session.delete()
sessions.expire()
return "done"
delete.exposed = True
def delkey(self, key):
del cherrypy.session[key]
return "OK"
delkey.exposed = True
def blah(self):
return self._cp_config['tools.sessions.storage_type']
blah.exposed = True
def iredir(self):
raise cherrypy.InternalRedirect('/blah')
iredir.exposed = True
def restricted(self):
return cherrypy.request.method
restricted.exposed = True
restricted._cp_config = {'tools.allow.on': True,
'tools.allow.methods': ['GET']}
def regen(self):
cherrypy.tools.sessions.regenerate()
return "logged in"
regen.exposed = True
def length(self):
return str(len(cherrypy.session))
length.exposed = True
def session_cookie(self):
# Must load() to start the clean thread.
cherrypy.session.load()
return cherrypy.session.id
session_cookie.exposed = True
session_cookie._cp_config = {
'tools.sessions.path': '/session_cookie',
'tools.sessions.name': 'temp',
'tools.sessions.persistent': False}
cherrypy.tree.mount(Root())
from cherrypy.test import helper
class SessionTest(helper.CPWebCase):
setup_server = staticmethod(setup_server)
def tearDown(self):
# Clean up sessions.
for fname in os.listdir(localDir):
if fname.startswith(sessions.FileSession.SESSION_PREFIX):
os.unlink(os.path.join(localDir, fname))
def test_0_Session(self):
self.getPage('/setsessiontype/ram')
self.getPage('/clear')
# Test that a normal request gets the same id in the cookies.
# Note: this wouldn't work if /data didn't load the session.
self.getPage('/data')
self.assertBody("{'aha': 'foo'}")
c = self.cookies[0]
self.getPage('/data', self.cookies)
self.assertEqual(self.cookies[0], c)
self.getPage('/testStr')
self.assertBody('1')
cookie_parts = dict([p.strip().split('=')
for p in self.cookies[0][1].split(";")])
# Assert there is an 'expires' param
self.assertEqual(set(cookie_parts.keys()),
set(['session_id', 'expires', 'Path']))
self.getPage('/testGen', self.cookies)
self.assertBody('2')
self.getPage('/testStr', self.cookies)
self.assertBody('3')
self.getPage('/data', self.cookies)
self.assertBody("{'aha': 'foo', 'counter': 3}")
self.getPage('/length', self.cookies)
self.assertBody('2')
self.getPage('/delkey?key=counter', self.cookies)
self.assertStatus(200)
self.getPage('/setsessiontype/file')
self.getPage('/testStr')
self.assertBody('1')
self.getPage('/testGen', self.cookies)
self.assertBody('2')
self.getPage('/testStr', self.cookies)
self.assertBody('3')
self.getPage('/delkey?key=counter', self.cookies)
self.assertStatus(200)
# Wait for the session.timeout (1 second)
time.sleep(2)
self.getPage('/')
self.assertBody('1')
self.getPage('/length', self.cookies)
self.assertBody('1')
# Test session __contains__
self.getPage('/keyin?key=counter', self.cookies)
self.assertBody("True")
cookieset1 = self.cookies
# Make a new session and test __len__ again
self.getPage('/')
self.getPage('/length', self.cookies)
self.assertBody('2')
# Test session delete
self.getPage('/delete', self.cookies)
self.assertBody("done")
self.getPage('/delete', cookieset1)
self.assertBody("done")
f = lambda: [x for x in os.listdir(localDir) if x.startswith('session-')]
self.assertEqual(f(), [])
# Wait for the cleanup thread to delete remaining session files
self.getPage('/')
f = lambda: [x for x in os.listdir(localDir) if x.startswith('session-')]
self.assertNotEqual(f(), [])
time.sleep(2)
self.assertEqual(f(), [])
def test_1_Ram_Concurrency(self):
self.getPage('/setsessiontype/ram')
self._test_Concurrency()
def test_2_File_Concurrency(self):
self.getPage('/setsessiontype/file')
self._test_Concurrency()
def _test_Concurrency(self):
client_thread_count = 5
request_count = 30
# Get initial cookie
self.getPage("/")
self.assertBody("1")
cookies = self.cookies
data_dict = {}
errors = []
def request(index):
if self.scheme == 'https':
c = HTTPSConnection('%s:%s' % (self.interface(), self.PORT))
else:
c = HTTPConnection('%s:%s' % (self.interface(), self.PORT))
for i in range(request_count):
c.putrequest('GET', '/')
for k, v in cookies:
c.putheader(k, v)
c.endheaders()
response = c.getresponse()
body = response.read()
if response.status != 200 or not body.isdigit():
errors.append((response.status, body))
else:
data_dict[index] = max(data_dict[index], int(body))
# Uncomment the following line to prove threads overlap.
## sys.stdout.write("%d " % index)
# Start <request_count> requests from each of
# <client_thread_count> concurrent clients
ts = []
for c in range(client_thread_count):
data_dict[c] = 0
t = threading.Thread(target=request, args=(c,))
ts.append(t)
t.start()
for t in ts:
t.join()
hitcount = max(data_dict.values())
expected = 1 + (client_thread_count * request_count)
for e in errors:
print(e)
self.assertEqual(hitcount, expected)
def test_3_Redirect(self):
# Start a new session
self.getPage('/testStr')
self.getPage('/iredir', self.cookies)
self.assertBody("file")
def test_4_File_deletion(self):
# Start a new session
self.getPage('/testStr')
# Delete the session file manually and retry.
id = self.cookies[0][1].split(";", 1)[0].split("=", 1)[1]
path = os.path.join(localDir, "session-" + id)
os.unlink(path)
self.getPage('/testStr', self.cookies)
def test_5_Error_paths(self):
self.getPage('/unknown/page')
self.assertErrorPage(404, "The path '/unknown/page' was not found.")
# Note: this path is *not* the same as above. The above
# takes a normal route through the session code; this one
# skips the session code's before_handler and only calls
# before_finalize (save) and on_end (close). So the session
# code has to survive calling save/close without init.
self.getPage('/restricted', self.cookies, method='POST')
self.assertErrorPage(405, response_codes[405])
def test_6_regenerate(self):
self.getPage('/testStr')
# grab the cookie ID
id1 = self.cookies[0][1].split(";", 1)[0].split("=", 1)[1]
self.getPage('/regen')
self.assertBody('logged in')
id2 = self.cookies[0][1].split(";", 1)[0].split("=", 1)[1]
self.assertNotEqual(id1, id2)
self.getPage('/testStr')
# grab the cookie ID
id1 = self.cookies[0][1].split(";", 1)[0].split("=", 1)[1]
self.getPage('/testStr',
headers=[('Cookie',
'session_id=maliciousid; '
'expires=Sat, 27 Oct 2017 04:18:28 GMT; Path=/;')])
id2 = self.cookies[0][1].split(";", 1)[0].split("=", 1)[1]
self.assertNotEqual(id1, id2)
self.assertNotEqual(id2, 'maliciousid')
def test_7_session_cookies(self):
self.getPage('/setsessiontype/ram')
self.getPage('/clear')
self.getPage('/session_cookie')
# grab the cookie ID
cookie_parts = dict([p.strip().split('=') for p in self.cookies[0][1].split(";")])
# Assert there is no 'expires' param
self.assertEqual(set(cookie_parts.keys()), set(['temp', 'Path']))
id1 = cookie_parts['temp']
self.assertEqual(copykeys(sessions.RamSession.cache), [id1])
# Send another request in the same "browser session".
self.getPage('/session_cookie', self.cookies)
cookie_parts = dict([p.strip().split('=') for p in self.cookies[0][1].split(";")])
# Assert there is no 'expires' param
self.assertEqual(set(cookie_parts.keys()), set(['temp', 'Path']))
self.assertBody(id1)
self.assertEqual(copykeys(sessions.RamSession.cache), [id1])
# Simulate a browser close by just not sending the cookies
self.getPage('/session_cookie')
# grab the cookie ID
cookie_parts = dict([p.strip().split('=') for p in self.cookies[0][1].split(";")])
# Assert there is no 'expires' param
self.assertEqual(set(cookie_parts.keys()), set(['temp', 'Path']))
# Assert a new id has been generated...
id2 = cookie_parts['temp']
self.assertNotEqual(id1, id2)
self.assertEqual(set(sessions.RamSession.cache.keys()), set([id1, id2]))
# Wait for the session.timeout on both sessions
time.sleep(2.5)
cache = copykeys(sessions.RamSession.cache)
if cache:
if cache == [id2]:
self.fail("The second session did not time out.")
else:
self.fail("Unknown session id in cache: %r", cache)
import socket
try:
import memcache
host, port = '127.0.0.1', 11211
for res in socket.getaddrinfo(host, port, socket.AF_UNSPEC,
socket.SOCK_STREAM):
af, socktype, proto, canonname, sa = res
s = None
try:
s = socket.socket(af, socktype, proto)
# See http://groups.google.com/group/cherrypy-users/
# browse_frm/thread/bbfe5eb39c904fe0
s.settimeout(1.0)
s.connect((host, port))
s.close()
except socket.error:
if s:
s.close()
raise
break
except (ImportError, socket.error):
class MemcachedSessionTest(helper.CPWebCase):
setup_server = staticmethod(setup_server)
def test(self):
return self.skip("memcached not reachable ")
else:
class MemcachedSessionTest(helper.CPWebCase):
setup_server = staticmethod(setup_server)
def test_0_Session(self):
self.getPage('/setsessiontype/memcached')
self.getPage('/testStr')
self.assertBody('1')
self.getPage('/testGen', self.cookies)
self.assertBody('2')
self.getPage('/testStr', self.cookies)
self.assertBody('3')
self.getPage('/length', self.cookies)
self.assertErrorPage(500)
self.assertInBody("NotImplementedError")
self.getPage('/delkey?key=counter', self.cookies)
self.assertStatus(200)
# Wait for the session.timeout (1 second)
time.sleep(1.25)
self.getPage('/')
self.assertBody('1')
# Test session __contains__
self.getPage('/keyin?key=counter', self.cookies)
self.assertBody("True")
# Test session delete
self.getPage('/delete', self.cookies)
self.assertBody("done")
def test_1_Concurrency(self):
client_thread_count = 5
request_count = 30
# Get initial cookie
self.getPage("/")
self.assertBody("1")
cookies = self.cookies
data_dict = {}
def request(index):
for i in range(request_count):
self.getPage("/", cookies)
# Uncomment the following line to prove threads overlap.
## sys.stdout.write("%d " % index)
if not self.body.isdigit():
self.fail(self.body)
data_dict[index] = v = int(self.body)
# Start <request_count> concurrent requests from
# each of <client_thread_count> clients
ts = []
for c in range(client_thread_count):
data_dict[c] = 0
t = threading.Thread(target=request, args=(c,))
ts.append(t)
t.start()
for t in ts:
t.join()
hitcount = max(data_dict.values())
expected = 1 + (client_thread_count * request_count)
self.assertEqual(hitcount, expected)
def test_3_Redirect(self):
# Start a new session
self.getPage('/testStr')
self.getPage('/iredir', self.cookies)
self.assertBody("memcached")
def test_5_Error_paths(self):
self.getPage('/unknown/page')
self.assertErrorPage(404, "The path '/unknown/page' was not found.")
# Note: this path is *not* the same as above. The above
# takes a normal route through the session code; this one
# skips the session code's before_handler and only calls
# before_finalize (save) and on_end (close). So the session
# code has to survive calling save/close without init.
self.getPage('/restricted', self.cookies, method='POST')
self.assertErrorPage(405, response_codes[405])