def test_queue_pool(self):
listener = _TestListener()
pool = ConnectionPool(pool_size=5, max_overflow=5, recycle=10000,
prefill=True, pool_timeout=0.1, timeout=1,
keyspace='PycassaTestKeyspace', credentials=_credentials,
listeners=[listener], use_threadlocal=False)
conns = []
for i in range(10):
conns.append(pool.get())
assert_equal(listener.connect_count, 10)
assert_equal(listener.checkout_count, 10)
# Pool is maxed out now
assert_raises(NoConnectionAvailable, pool.get)
assert_equal(listener.connect_count, 10)
assert_equal(listener.max_count, 1)
for i in range(0, 5):
pool.return_conn(conns[i])
assert_equal(listener.close_count, 0)
assert_equal(listener.checkin_count, 5)
for i in range(5, 10):
pool.return_conn(conns[i])
assert_equal(listener.close_count, 5)
assert_equal(listener.checkin_count, 10)
conns = []
# These connections should come from the pool
for i in range(5):
conns.append(pool.get())
assert_equal(listener.connect_count, 10)
assert_equal(listener.checkout_count, 15)
# But these will need to be made
for i in range(5):
conns.append(pool.get())
assert_equal(listener.connect_count, 15)
assert_equal(listener.checkout_count, 20)
assert_equal(listener.close_count, 5)
for i in range(10):
conns[i].return_to_pool()
assert_equal(listener.checkin_count, 20)
assert_equal(listener.close_count, 10)
assert_raises(InvalidRequestError, conns[0].return_to_pool)
assert_equal(listener.checkin_count, 20)
assert_equal(listener.close_count, 10)
print "in test:", id(conns[-1])
assert_raises(InvalidRequestError, conns[-1].return_to_pool)
assert_equal(listener.checkin_count, 20)
assert_equal(listener.close_count, 10)
pool.dispose()
assert_equal(listener.dispose_count, 1)
def checkout_return():
conn = pool.get()
time.sleep(1)
pool.return_conn(conn)
def test_queue_pool_threadlocal(self):
listener = _TestListener()
pool = ConnectionPool(pool_size=5, max_overflow=5, recycle=10000,
prefill=True, pool_timeout=0.5, timeout=1,
keyspace='PycassaTestKeyspace', credentials=_credentials,
listeners=[listener], use_threadlocal=True)
conns = []
assert_equal(listener.connect_count, 5)
# These connections should all be the same
for i in range(10):
conns.append(pool.get())
assert_equal(listener.connect_count, 5)
assert_equal(listener.checkout_count, 1)
for i in range(0, 5):
pool.return_conn(conns[i])
assert_equal(listener.checkin_count, 1)
for i in range(5, 10):
pool.return_conn(conns[i])
assert_equal(listener.checkin_count, 1)
conns = []
assert_equal(listener.connect_count, 5)
# A single connection should come from the pool
for i in range(5):
conns.append(pool.get())
assert_equal(listener.connect_count, 5)
assert_equal(listener.checkout_count, 2)
for conn in conns:
pool.return_conn(conn)
conns = []
threads = []
listener.reset()
def checkout_return():
conn = pool.get()
time.sleep(1)
pool.return_conn(conn)
for i in range(5):
threads.append(threading.Thread(target=checkout_return))
threads[-1].start()
for thread in threads:
thread.join()
assert_equal(listener.connect_count, 0) # Still 5 connections in pool
assert_equal(listener.checkout_count, 5)
assert_equal(listener.checkin_count, 5)
# These should come from the pool
threads = []
for i in range(5):
threads.append(threading.Thread(target=checkout_return))
threads[-1].start()
for thread in threads:
thread.join()
assert_equal(listener.connect_count, 0)
assert_equal(listener.checkout_count, 10)
assert_equal(listener.checkin_count, 10)
pool.dispose()