""" TestCases for testing the locking sub-system. """ import time import unittest from test_all import db, test_support, verbose, have_threads, \ get_new_environment_path, get_new_database_path if have_threads : from threading import Thread import sys if sys.version_info[0] < 3 : from threading import currentThread else : from threading import current_thread as currentThread #---------------------------------------------------------------------- class LockingTestCase(unittest.TestCase): def setUp(self): self.homeDir = get_new_environment_path() self.env = db.DBEnv() self.env.open(self.homeDir, db.DB_THREAD | db.DB_INIT_MPOOL | db.DB_INIT_LOCK | db.DB_CREATE) def tearDown(self): self.env.close() test_support.rmtree(self.homeDir) def test01_simple(self): if verbose: print '\n', '-=' * 30 print "Running %s.test01_simple..." % self.__class__.__name__ anID = self.env.lock_id() if verbose: print "locker ID: %s" % anID lock = self.env.lock_get(anID, "some locked thing", db.DB_LOCK_WRITE) if verbose: print "Aquired lock: %s" % lock self.env.lock_put(lock) if verbose: print "Released lock: %s" % lock self.env.lock_id_free(anID) def test02_threaded(self): if verbose: print '\n', '-=' * 30 print "Running %s.test02_threaded..." % self.__class__.__name__ threads = [] threads.append(Thread(target = self.theThread, args=(db.DB_LOCK_WRITE,))) threads.append(Thread(target = self.theThread, args=(db.DB_LOCK_READ,))) threads.append(Thread(target = self.theThread, args=(db.DB_LOCK_READ,))) threads.append(Thread(target = self.theThread, args=(db.DB_LOCK_WRITE,))) threads.append(Thread(target = self.theThread, args=(db.DB_LOCK_READ,))) threads.append(Thread(target = self.theThread, args=(db.DB_LOCK_READ,))) threads.append(Thread(target = self.theThread, args=(db.DB_LOCK_WRITE,))) threads.append(Thread(target = self.theThread, args=(db.DB_LOCK_WRITE,))) threads.append(Thread(target = self.theThread, args=(db.DB_LOCK_WRITE,))) for t in threads: import sys if sys.version_info[0] < 3 : t.setDaemon(True) else : t.daemon = True t.start() for t in threads: t.join() def test03_lock_timeout(self): self.env.set_timeout(0, db.DB_SET_LOCK_TIMEOUT) self.assertEqual(self.env.get_timeout(db.DB_SET_LOCK_TIMEOUT), 0) self.env.set_timeout(0, db.DB_SET_TXN_TIMEOUT) self.assertEqual(self.env.get_timeout(db.DB_SET_TXN_TIMEOUT), 0) self.env.set_timeout(123456, db.DB_SET_LOCK_TIMEOUT) self.assertEqual(self.env.get_timeout(db.DB_SET_LOCK_TIMEOUT), 123456) self.env.set_timeout(7890123, db.DB_SET_TXN_TIMEOUT) self.assertEqual(self.env.get_timeout(db.DB_SET_TXN_TIMEOUT), 7890123) def test04_lock_timeout2(self): self.env.set_timeout(0, db.DB_SET_LOCK_TIMEOUT) self.env.set_timeout(0, db.DB_SET_TXN_TIMEOUT) self.env.set_timeout(123456, db.DB_SET_LOCK_TIMEOUT) self.env.set_timeout(7890123, db.DB_SET_TXN_TIMEOUT) def deadlock_detection() : while not deadlock_detection.end : deadlock_detection.count = \ self.env.lock_detect(db.DB_LOCK_EXPIRE) if deadlock_detection.count : while not deadlock_detection.end : pass break time.sleep(0.01) deadlock_detection.end=False deadlock_detection.count=0 t=Thread(target=deadlock_detection) import sys if sys.version_info[0] < 3 : t.setDaemon(True) else : t.daemon = True t.start() self.env.set_timeout(100000, db.DB_SET_LOCK_TIMEOUT) anID = self.env.lock_id() anID2 = self.env.lock_id() self.assertNotEqual(anID, anID2) lock = self.env.lock_get(anID, "shared lock", db.DB_LOCK_WRITE) start_time=time.time() self.assertRaises(db.DBLockNotGrantedError, self.env.lock_get,anID2, "shared lock", db.DB_LOCK_READ) end_time=time.time() deadlock_detection.end=True # Floating point rounding self.assertTrue((end_time-start_time) >= 0.0999) self.env.lock_put(lock) t.join() self.env.lock_id_free(anID) self.env.lock_id_free(anID2) if db.version() >= (4,6): self.assertTrue(deadlock_detection.count>0) def theThread(self, lockType): import sys if sys.version_info[0] < 3 : name = currentThread().getName() else : name = currentThread().name if lockType == db.DB_LOCK_WRITE: lt = "write" else: lt = "read" anID = self.env.lock_id() if verbose: print "%s: locker ID: %s" % (name, anID) for i in xrange(1000) : lock = self.env.lock_get(anID, "some locked thing", lockType) if verbose: print "%s: Aquired %s lock: %s" % (name, lt, lock) self.env.lock_put(lock) if verbose: print "%s: Released %s lock: %s" % (name, lt, lock) self.env.lock_id_free(anID) #---------------------------------------------------------------------- def test_suite(): suite = unittest.TestSuite() if have_threads: suite.addTest(unittest.makeSuite(LockingTestCase)) else: suite.addTest(unittest.makeSuite(LockingTestCase, 'test01')) return suite if __name__ == '__main__': unittest.main(defaultTest='test_suite')