def test_timeout_cancel(self):
server = api.tcp_listener(('0.0.0.0', 0))
bound_port = server.getsockname()[1]
def client_connected(server):
(conn, addr) = server
conn.close()
def go():
client = util.tcp_socket()
desc = greenio.GreenSocket(client)
desc.connect(('127.0.0.1', bound_port))
try:
api.trampoline(desc, read=True, write=True, timeout=0.1)
except api.TimeoutError:
assert False, "Timed out"
server.close()
client.close()
api.call_after(0, go)
api.tcp_server(server, client_connected)
check_hub()
def test_pauseresume_producing(self):
self.conn.pauseProducing()
call_after(DELAY * 5, self.conn.resumeProducing)
self.conn.write('hi\r\n')
result = with_timeout(DELAY * 10,
self.conn.read,
timeout_value='timed out')
self.assertEqual('you said hi. BYE', result)
def test(self):
try:
sock = socket.socket()
api.call_after(0, sock.close)
sock.connect(('python.org', 81))
except Exception:
api.sleep(0)
else:
assert False, 'expected an error here'
def test_server(self):
connected = []
server = api.tcp_listener(('0.0.0.0', 0))
bound_port = server.getsockname()[1]
def accept_twice((conn, addr)):
connected.append(True)
conn.close()
if len(connected) == 2:
server.close()
api.call_after(0, api.connect_tcp, ('127.0.0.1', bound_port))
api.call_after(0, api.connect_tcp, ('127.0.0.1', bound_port))
try:
api.tcp_server(server, accept_twice)
except:
api.sleep(0.1)
raise
assert len(connected) == 2
check_hub()
def _schedule_expiration(self):
""" Sets up a timer that will call _expire_old_connections when the
oldest connection currently in the free pool is ready to expire. This
is the earliest possible time that a connection could expire, thus, the
timer will be running as infrequently as possible without missing a
possible expiration.
If this function is called when a timer is already scheduled, it does
nothing.
If max_age or max_idle is 0, _schedule_expiration likewise does nothing.
"""
if self.max_age == 0 or self.max_idle == 0:
# expiration is unnecessary because all connections will be expired
# on put
return
if (self._expiration_timer is not None
and not getattr(self._expiration_timer, 'called', False)
and not getattr(self._expiration_timer, 'cancelled', False)):
# the next timer is already scheduled
return
try:
now = time.time()
self._expire_old_connections(now)
# the last item in the list, because of the stack ordering,
# is going to be the most-idle
idle_delay = (self.free_items[-1][0] - now) + self.max_idle
oldest = min([t[1] for t in self.free_items])
age_delay = (oldest - now) + self.max_age
next_delay = min(idle_delay, age_delay)
except IndexError as ValueError:
# no free items, unschedule ourselves
self._expiration_timer = None
return
if next_delay > 0:
# set up a continuous self-calling loop
self._expiration_timer = api.call_after(next_delay,
self._schedule_expiration)
def sig_child(signal, frame):
from eventlib import api
api.call_after(0, wait_on_children)
def func():
call_after(0.1, self.lst.pop)
class BaseConnectionPool(Pool):
def __init__(self, db_module,
min_size = 0, max_size = 4,
max_idle = 10, max_age = 30,
connect_timeout = 5,
*args, **kwargs):
"""
Constructs a pool with at least *min_size* connections and at most
*max_size* connections. Uses *db_module* to construct new connections.
The *max_idle* parameter determines how long pooled connections can
remain idle, in seconds. After *max_idle* seconds have elapsed
without the connection being used, the pool closes the connection.
*max_age* is how long any particular connection is allowed to live.
Connections that have been open for longer than *max_age* seconds are
closed, regardless of idle time. If *max_age* is 0, all connections are
closed on return to the pool, reducing it to a concurrency limiter.
*connect_timeout* is the duration in seconds that the pool will wait
before timing out on connect() to the database. If triggered, the
timeout will raise a ConnectTimeout from get().
The remainder of the arguments are used as parameters to the
*db_module*'s connection constructor.
"""
assert(db_module)
self._db_module = db_module
self._args = args
self._kwargs = kwargs
self.max_idle = max_idle
self.max_age = max_age
self.connect_timeout = connect_timeout
self._expiration_timer = None
super(BaseConnectionPool, self).__init__(min_size=min_size,
max_size=max_size,
order_as_stack=True)
def _schedule_expiration(self):
""" Sets up a timer that will call _expire_old_connections when the
oldest connection currently in the free pool is ready to expire. This
is the earliest possible time that a connection could expire, thus, the
timer will be running as infrequently as possible without missing a
possible expiration.
If this function is called when a timer is already scheduled, it does
nothing.
If max_age or max_idle is 0, _schedule_expiration likewise does nothing.
"""
if self.max_age is 0 or self.max_idle is 0:
# expiration is unnecessary because all connections will be expired
# on put
return
if ( self._expiration_timer is not None
and not getattr(self._expiration_timer, 'called', False)
and not getattr(self._expiration_timer, 'cancelled', False) ):
# the next timer is already scheduled
return
try:
now = time.time()
self._expire_old_connections(now)
# the last item in the list, because of the stack ordering,
# is going to be the most-idle
idle_delay = (self.free_items[-1][0] - now) + self.max_idle
oldest = min([t[1] for t in self.free_items])
age_delay = (oldest - now) + self.max_age
next_delay = min(idle_delay, age_delay)
except IndexError, ValueError:
# no free items, unschedule ourselves
self._expiration_timer = None
return
if next_delay > 0:
# set up a continuous self-calling loop
self._expiration_timer = api.call_after(next_delay,
self._schedule_expiration)
def sig_child(signal, frame):
from eventlib import api
api.call_after(0, wait_on_children)