Commit d75e5206 authored by Jim Fulton's avatar Jim Fulton

Removed the "sync" mode for ClientStorage. Previously, a

ClientStorage could be in either "sync" mode or "async" mode.  Now
there is just "async" mode.  There is now a dedicicated asyncore main
loop dedicated to ZEO clients.

This addresses a test failure on Mac OS X,
http://www.zope.org/Collectors/Zope3-dev/650, that I believe was due
to a bug in sync mode. Some asyncore-based code was being called from
multiple threads that didn't expect to be.

Converting to always-async mode revealed some bugs that weren't caught
before because the tests ran in sync mode.  These problems could
explain some problems we've seen at times with clients taking a long
time to reconnect after a disconnect.

Added a partial heart beat to try to detect lost connections that
aren't otherwise caught,
http://mail.zope.org/pipermail/zodb-dev/2005-June/008951.html, by
perioidically writing to all connections during periods of inactivity.
parent e096a84b
What's new in ZODB3 3.7a1?
==========================
Release date: DD-MMM-200Y
What's new on ZODB 3.7b2?
=========================
ClientStorage
-------------
Following is combined news from internal releases (to support ongoing
Zope development). These are the dates of the internal releases:
- (3.7b2) Removed the "sync" mode for ClientStorage.
- 3.7a1 DD-MMM-200Y
Previously, a ClientStorage could be in either "sync" mode or "async"
mode. Now there is just "async" mode. There is now a dedicicated
asyncore main loop dedicated to ZEO clients.
DemoStorage
-----------
Applications no-longer need to run an asyncore main loop to cause
client storages to run in async mode. Even if an application runs an
asyncore main loop, it is independent of the loop used by client
storages.
- (3.7a1) DemoStorage was unable to wrap base storages who did not have
an '_oid' attribute: most notably, ZEO.ClientStorage
(http://www.zope.org/Collectors/Zope/2016).
This addresses a test failure on Mac OS X,
http://www.zope.org/Collectors/Zope3-dev/650, that I believe was due
to a bug in sync mode. Some asyncore-based code was being called from
multiple threads that didn't expect to be.
Converting to always-async mode revealed some bugs that weren't caught
before because the tests ran in sync mode. These problems could
explain some problems we've seen at times with clients taking a long
time to reconnect after a disconnect.
Added a partial heart beat to try to detect lost connections that
aren't otherwise caught,
http://mail.zope.org/pipermail/zodb-dev/2005-June/008951.html, by
perioidically writing to all connections during periods of inactivity.
Connection management
---------------------
......@@ -29,6 +44,13 @@ Connection management
and/or store limited resources (such as RDB connections) in connection
caches may benefit.
DemoStorage
-----------
- (3.7a1) DemoStorage was unable to wrap base storages who did not have
an '_oid' attribute: most notably, ZEO.ClientStorage
(http://www.zope.org/Collectors/Zope/2016).
Documentation
-------------
......@@ -41,6 +63,14 @@ IPersistent
- (3.7a1) The documentation for ``_p_oid`` now specifies the concrete
type of oids (in short, an oid is either None or a non-empty string).
Testing
-------
- (3.7b2) Fixed test-runner output truncation.
A bug was fixed in the test runner that caused result summaries to be
omitted when running on Windows.
Tools
-----
......
......@@ -339,43 +339,16 @@ class ClientStorage(object):
# still be going on. This code must wait until validation
# finishes, but if the connection isn't a zrpc async
# connection it also needs to poll for input.
if self._connection.is_async():
while 1:
self._ready.wait(30)
if self._ready.isSet():
break
if timeout and time.time() > deadline:
log2("Timed out waiting for connection",
level=logging.WARNING)
break
log2("Waiting for cache verification to finish")
else:
self._wait_sync(deadline)
def _wait_sync(self, deadline=None):
# Log no more than one "waiting" message per LOG_THROTTLE seconds.
LOG_THROTTLE = 300 # 5 minutes
next_log_time = time.time()
while not self._ready.isSet():
now = time.time()
if deadline and now > deadline:
log2("Timed out waiting for connection", level=logging.WARNING)
assert self._connection.is_async()
while 1:
self._ready.wait(30)
if self._ready.isSet():
break
if timeout and time.time() > deadline:
log2("Timed out waiting for connection",
level=logging.WARNING)
break
if now >= next_log_time:
log2("Waiting for cache verification to finish")
next_log_time = now + LOG_THROTTLE
if self._connection is None:
# If the connection was closed while we were
# waiting for it to become ready, start over.
if deadline is None:
timeout = None
else:
timeout = deadline - now
return self._wait(timeout)
# No mainloop ia running, so we need to call something fancy to
# handle asyncore events.
self._connection.pending(30)
log2("Waiting for cache verification to finish")
def close(self):
"""Storage API: finalize the storage, releasing external resources."""
......@@ -403,17 +376,8 @@ class ClientStorage(object):
return self._ready.isSet()
def sync(self):
"""Handle any pending invalidation messages.
This is called by the sync method in ZODB.Connection.
"""
# If there is no connection, return immediately. Technically,
# there are no pending invalidations so they are all handled.
# There doesn't seem to be much benefit to raising an exception.
cn = self._connection
if cn is not None:
cn.pending()
# The separate async thread should keep us up to date
pass
def doAuth(self, protocol, stub):
if not (self._username and self._password):
......@@ -517,11 +481,17 @@ class ClientStorage(object):
stub = self.StorageServerStubClass(conn)
self._oids = []
self._info.update(stub.get_info())
self.verify_cache(stub)
if not conn.is_async():
log2("Waiting for cache verification to finish")
self._wait_sync()
# It's important to call get_info after calling verify_cache.
# If we end up doing a full-verification, we need to wait till
# it's done. By doing a synchonous call, we are guarenteed
# that the verification will be done because operations are
# handled in order.
self._info.update(stub.get_info())
assert conn.is_async()
self._handle_extensions()
def _handle_extensions(self):
......
......@@ -13,6 +13,8 @@
##############################################################################
"""RPC stubs for interface exported by StorageServer."""
import time
##
# ZEO storage server.
# <p>
......@@ -44,9 +46,11 @@ class StorageServer:
zrpc.connection.Connection class.
"""
self.rpc = rpc
# Wait until we know what version the other side is using.
while rpc.peer_protocol_version is None:
rpc.pending()
time.sleep(0.1)
if rpc.peer_protocol_version == 'Z200':
self.lastTransaction = lambda: None
self.getInvalidations = lambda tid: None
......
......@@ -35,10 +35,9 @@ class WorkerThread(TestThread):
# run the entire test in a thread so that the blocking call for
# tpc_vote() doesn't hang the test suite.
def __init__(self, storage, trans, method="tpc_finish"):
def __init__(self, storage, trans):
self.storage = storage
self.trans = trans
self.method = method
self.ready = threading.Event()
TestThread.__init__(self)
......@@ -52,10 +51,7 @@ class WorkerThread(TestThread):
p = zodb_pickle(MinPO("c"))
self.storage.store(oid, ZERO, p, '', self.trans)
self.myvote()
if self.method == "tpc_finish":
self.storage.tpc_finish(self.trans)
else:
self.storage.tpc_abort(self.trans)
self.storage.tpc_finish(self.trans)
except ClientDisconnected:
pass
......@@ -120,7 +116,7 @@ class CommitLockTests:
t.start()
t.ready.wait()
# Close on the connections abnormally to test server response
# Close one of the connections abnormally to test server response
if i == 0:
storage.close()
else:
......@@ -237,7 +233,6 @@ class CommitLockUndoTests(CommitLockTests):
trans_id = self._get_trans_id()
oid, txn = self._start_txn()
msgid = self._begin_undo(trans_id, txn)
self._begin_threads()
self._finish_undo(msgid)
......
......@@ -55,6 +55,12 @@ class TestClientStorage(ClientStorage):
StorageServerStubClass = TestServerStub
connection_count_for_tests = 0
def notifyConnected(self, conn):
ClientStorage.notifyConnected(self, conn)
self.connection_count_for_tests += 1
def verify_cache(self, stub):
self.end_verify = threading.Event()
self.verify_result = ClientStorage.verify_cache(self, stub)
......@@ -959,40 +965,39 @@ class TimeoutTests(CommonSetupTearDown):
storage.close()
def checkTimeoutAfterVote(self):
raises = self.assertRaises
unless = self.failUnless
self._storage = storage = self.openClientStorage()
# Assert that the zeo cache is empty
unless(not list(storage._cache.contents()))
self.assert_(not list(storage._cache.contents()))
# Create the object
oid = storage.new_oid()
obj = MinPO(7)
# Now do a store, sleeping before the finish so as to cause a timeout
t = Transaction()
old_connection_count = storage.connection_count_for_tests
storage.tpc_begin(t)
revid1 = storage.store(oid, ZERO, zodb_pickle(obj), '', t)
storage.tpc_vote(t)
# Now sleep long enough for the storage to time out
time.sleep(3)
storage.sync()
unless(not storage.is_connected())
self.assert_(
(not storage.is_connected())
or
(storage.connection_count_for_tests > old_connection_count)
)
storage._wait()
unless(storage.is_connected())
self.assert_(storage.is_connected())
# We expect finish to fail
raises(ClientDisconnected, storage.tpc_finish, t)
self.assertRaises(ClientDisconnected, storage.tpc_finish, t)
# The cache should still be empty
unless(not list(storage._cache.contents()))
self.assert_(not list(storage._cache.contents()))
# Load should fail since the object should not be in either the cache
# or the server.
raises(KeyError, storage.load, oid, '')
self.assertRaises(KeyError, storage.load, oid, '')
def checkTimeoutProvokingConflicts(self):
eq = self.assertEqual
raises = self.assertRaises
require = self.assert_
self._storage = storage = self.openClientStorage()
# Assert that the zeo cache is empty.
require(not list(storage._cache.contents()))
self.assert_(not list(storage._cache.contents()))
# Create the object
oid = storage.new_oid()
obj = MinPO(7)
......@@ -1007,6 +1012,7 @@ class TimeoutTests(CommonSetupTearDown):
# Now do a store, sleeping before the finish so as to cause a timeout.
obj.value = 8
t = Transaction()
old_connection_count = storage.connection_count_for_tests
storage.tpc_begin(t)
revid2a = storage.store(oid, revid1, zodb_pickle(obj), '', t)
revid2b = storage.tpc_vote(t)
......@@ -1020,17 +1026,21 @@ class TimeoutTests(CommonSetupTearDown):
# of 3).
deadline = time.time() + 60 # wait up to a minute
while time.time() < deadline:
if storage.is_connected():
if (storage.is_connected() and
(storage.connection_count_for_tests == old_connection_count)
):
time.sleep(self.timeout / 1.8)
storage.sync()
else:
break
storage.sync()
require(not storage.is_connected())
self.assert_(
(not storage.is_connected())
or
(storage.connection_count_for_tests > old_connection_count)
)
storage._wait()
require(storage.is_connected())
self.assert_(storage.is_connected())
# We expect finish to fail.
raises(ClientDisconnected, storage.tpc_finish, t)
self.assertRaises(ClientDisconnected, storage.tpc_finish, t)
# Now we think we've committed the second transaction, but we really
# haven't. A third one should produce a POSKeyError on the server,
# which manifests as a ConflictError on the client.
......@@ -1038,7 +1048,7 @@ class TimeoutTests(CommonSetupTearDown):
t = Transaction()
storage.tpc_begin(t)
storage.store(oid, revid2, zodb_pickle(obj), '', t)
raises(ConflictError, storage.tpc_vote, t)
self.assertRaises(ConflictError, storage.tpc_vote, t)
# Even aborting won't help.
storage.tpc_abort(t)
storage.tpc_finish(t)
......@@ -1048,7 +1058,7 @@ class TimeoutTests(CommonSetupTearDown):
storage.tpc_begin(t)
storage.store(oid, revid2, zodb_pickle(obj), '', t)
# Even aborting won't help.
raises(ConflictError, storage.tpc_vote, t)
self.assertRaises(ConflictError, storage.tpc_vote, t)
# Abort this one and try a transaction that should succeed.
storage.tpc_abort(t)
storage.tpc_finish(t)
......@@ -1062,8 +1072,8 @@ class TimeoutTests(CommonSetupTearDown):
storage.tpc_finish(t)
# Now load the object and verify that it has a value of 11.
data, revid = storage.load(oid, '')
eq(zodb_unpickle(data), MinPO(11))
eq(revid, revid2)
self.assertEqual(zodb_unpickle(data), MinPO(11))
self.assertEqual(revid, revid2)
class MSTThread(threading.Thread):
......
......@@ -95,10 +95,11 @@ class AuthTest(CommonSetupTearDown):
def testUnauthenticatedMessage(self):
# Test that an unauthenticated message is rejected by the server
# if it was sent after the connection was authenticated.
# Sleep for 0.2 seconds to give the server some time to start up
# seems to be needed before and after creating the storage
self._storage = self.openClientStorage(wait=0, username="foo",
password="bar", realm=self.realm)
# Sleep for 0.2 seconds to give the server some time to start up
# seems to be needed before and after creating the storage
self.wait()
self._storage.versions()
# Manually clear the state of the hmac connection
......
......@@ -14,13 +14,15 @@
"""Test suite for ZEO based on ZODB.tests."""
# System imports
import asyncore
import logging
import os
import random
import signal
import socket
import asyncore
import tempfile
import time
import unittest
import logging
# ZODB test support
import ZODB
......@@ -36,8 +38,13 @@ from ZODB.tests import StorageTestBase, BasicStorage, VersionStorage, \
from ZODB.tests.testDemoStorage import DemoStorageWrappedBase
from ZEO.ClientStorage import ClientStorage
import ZEO.zrpc.connection
from ZEO.tests import forker, Cache, CommitLockTests, ThreadTests
import ZEO.tests.ConnectionTests
logger = logging.getLogger('ZEO.tests.testZEO')
class DummyDB:
......@@ -70,14 +77,19 @@ class MiscZEOTests:
self.assertEqual(zodb_unpickle(data), MinPO('first'))
self.assertEqual(serial, revid1)
revid2 = self._dostore(oid, data=MinPO('second'), revid=revid1)
for n in range(3):
# Let the server and client talk for a moment.
# Is there a better way to do this?
asyncore.poll(0.1)
data, serial = storage2.load(oid, '')
self.assertEqual(zodb_unpickle(data), MinPO('second'),
'Invalidation message was not sent!')
self.assertEqual(serial, revid2)
# Now, storage 2 should eventually get the new data. It
# will take some time, although hopefully not much.
# We'll poll till we get it and whine if we time out:
for n in range(30):
time.sleep(.1)
data, serial = storage2.load(oid, '')
if (serial == revid2 and
zodb_unpickle(data) == MinPO('second')
):
break
else:
raise AssertionError('Invalidation message was not sent!')
finally:
storage2.close()
......@@ -198,6 +210,67 @@ class MappingStorageTests(GenericTests):
def getConfig(self):
return """<mappingstorage 1/>"""
class HeartbeatTests(ZEO.tests.ConnectionTests.CommonSetupTearDown):
"""Make sure a heartbeat is being sent and that it does no harm
This is really hard to test properly because we can't see the data
flow between the client and server and we can't really tell what's
going on in the server very well. :(
"""
def setUp(self):
# Crank down the select frequency
self.__old_client_timeout = ZEO.zrpc.connection.client_timeout
ZEO.zrpc.connection.client_timeout = 0.1
ZEO.zrpc.connection.client_trigger.pull_trigger()
ZEO.tests.ConnectionTests.CommonSetupTearDown.setUp(self)
def tearDown(self):
ZEO.zrpc.connection.client_timeout = self.__old_client_timeout
ZEO.zrpc.connection.client_trigger.pull_trigger()
ZEO.tests.ConnectionTests.CommonSetupTearDown.tearDown(self)
def getConfig(self, path, create, read_only):
return """<mappingstorage 1/>"""
def checkHeartbeatWithServerClose(self):
# This is a minimal test that mainly tests that the heartbeat
# function does no harm.
client_timeout_count = ZEO.zrpc.connection.client_timeout_count
self._storage = self.openClientStorage()
time.sleep(1) # allow some time for the select loop to fire a few times
self.assert_(ZEO.zrpc.connection.client_timeout_count
> client_timeout_count)
self._dostore()
if hasattr(os, 'kill'):
# Kill server violently, in hopes of provoking problem
os.kill(self._pids[0], signal.SIGKILL)
self._servers[0] = None
else:
self.shutdownServer()
for i in range(91):
# wait for disconnection
if not self._storage.is_connected():
break
time.sleep(0.1)
else:
raise AssertionError("Didn't detect server shutdown in 5 seconds")
def checkHeartbeatWithClientClose(self):
# This is a minimal test that mainly tests that the heartbeat
# function does no harm.
client_timeout_count = ZEO.zrpc.connection.client_timeout_count
self._storage = self.openClientStorage()
self._storage.close()
time.sleep(1) # allow some time for the select loop to fire a few times
self.assert_(ZEO.zrpc.connection.client_timeout_count
> client_timeout_count)
class DemoStorageWrappedAroundClientStorage(DemoStorageWrappedBase):
def getConfig(self):
......@@ -233,6 +306,7 @@ test_classes = [OneTimeTests,
FileStorageTests,
MappingStorageTests,
DemoStorageWrappedAroundClientStorage,
HeartbeatTests,
]
def test_suite():
......
......@@ -11,6 +11,7 @@
# FOR A PARTICULAR PURPOSE
#
##############################################################################
import asyncore
import errno
import select
import socket
......@@ -20,13 +21,11 @@ import time
import types
import logging
import ThreadedAsync
from ZODB.POSException import ReadOnlyError
from ZODB.loglevels import BLATHER
from ZEO.zrpc.log import log
from ZEO.zrpc.trigger import trigger
import ZEO.zrpc.trigger
from ZEO.zrpc.connection import ManagedClientConnection
class ConnectionManager(object):
......@@ -43,9 +42,6 @@ class ConnectionManager(object):
# If thread is not None, then there is a helper thread
# attempting to connect.
self.thread = None # Protected by self.cond
self.trigger = None
self.thr_async = 0
ThreadedAsync.register_loop_callback(self.set_async)
def __repr__(self):
return "<%s for %s>" % (self.__class__.__name__, self.addrlist)
......@@ -85,7 +81,6 @@ class ConnectionManager(object):
def close(self):
"""Prevent ConnectionManager from opening new connections"""
self.closed = 1
ThreadedAsync.remove_loop_callback(self.set_async)
self.cond.acquire()
try:
t = self.thread
......@@ -103,29 +98,6 @@ class ConnectionManager(object):
if conn is not None:
# This will call close_conn() below which clears self.connection
conn.close()
if self.trigger is not None:
self.trigger.close()
self.trigger = None
ThreadedAsync.remove_loop_callback(self.set_async)
def set_async(self, map):
# This is the callback registered with ThreadedAsync. The
# callback might be called multiple times, so it shouldn't
# create a trigger every time and should never do anything
# after it's closed.
# It may be that the only case where it is called multiple
# times is in the test suite, where ThreadedAsync's loop can
# be started in a child process after a fork. Regardless,
# it's good to be defensive.
# We need each connection started with async==0 to have a
# callback.
log("CM.set_async(%s)" % repr(map), level=logging.DEBUG)
if not self.closed and self.trigger is None:
log("CM.set_async(): first call")
self.trigger = trigger()
self.thr_async = 1 # needs to be set on the Connection
def attempt_connect(self):
"""Attempt a connection to the server without blocking too long.
......
......@@ -19,6 +19,8 @@ import threading
import types
import logging
import traceback, time
import ThreadedAsync
from ZEO.zrpc import smac
from ZEO.zrpc.error import ZRPCError, DisconnectedError
......@@ -30,6 +32,89 @@ from ZODB.loglevels import BLATHER, TRACE
REPLY = ".reply" # message name used for replies
ASYNC = 1
##############################################################################
# Dedicated Client select loop:
client_map = {}
client_trigger = trigger(client_map)
client_timeout = 30.0
client_timeout_count = 0 # for testing
def client_loop():
map = client_map
logger = logging.getLogger('ZEO.zrpc.client_loop')
logger.addHandler(logging.StreamHandler())
read = asyncore.read
write = asyncore.write
_exception = asyncore._exception
while map:
try:
r = e = list(client_map)
w = [fd for (fd, obj) in map.iteritems() if obj.writable()]
try:
r, w, e = select.select(r, w, e, client_timeout)
except select.error, err:
if err[0] != errno.EINTR:
if err[0] == errno.EBADF:
# If a connection is closed while we are
# calling select on it, we can get a bad
# file-descriptor error. We'll check for this
# case by looking for entries in r and w that
# are not in the socket map.
if [fd for fd in r if fd not in client_map]:
continue
if [fd for fd in w if fd not in client_map]:
continue
raise
else:
continue
if not (r or w or e):
for obj in client_map.itervalues():
if isinstance(obj, Connection):
# Send a heartbeat message as a reply to a
# non-existent message id.
try:
obj.send_reply(-1, None)
except DisconnectedError:
pass
global client_timeout_count
client_timeout_count += 1
continue
for fd in r:
obj = map.get(fd)
if obj is None:
continue
read(obj)
for fd in w:
obj = map.get(fd)
if obj is None:
continue
write(obj)
for fd in e:
obj = map.get(fd)
if obj is None:
continue
_exception(obj)
except:
logger.exception('poll failure')
raise
client_thread = threading.Thread(target=client_loop)
client_thread.setDaemon(True)
client_thread.start()
#
##############################################################################
class Delay:
"""Used to delay response to client for synchronous calls.
......@@ -235,7 +320,7 @@ class Connection(smac.SizedMessageAsyncConnection, object):
# Client constructor passes 'C' for tag, server constructor 'S'. This
# is used in log messages, and to determine whether we can speak with
# our peer.
def __init__(self, sock, addr, obj, tag):
def __init__(self, sock, addr, obj, tag, map=None):
self.obj = None
self.marshal = Marshaller()
self.closed = False
......@@ -315,8 +400,10 @@ class Connection(smac.SizedMessageAsyncConnection, object):
# isn't necessary before Python 2.4, but doesn't hurt then (it just
# gives us an unused attribute in 2.3); updating the global socket
# map is necessary regardless of Python version.
self._map = asyncore.socket_map
asyncore.socket_map.update(ourmap)
if map is None:
map = asyncore.socket_map
self._map = map
map.update(ourmap)
def __repr__(self):
return "<%s %s>" % (self.__class__.__name__, self.addr)
......@@ -331,12 +418,13 @@ class Connection(smac.SizedMessageAsyncConnection, object):
return
self._singleton.clear()
self.closed = True
self.close_trigger()
self.__super_close()
self.close_trigger()
def close_trigger(self):
# Overridden by ManagedClientConnection.
if self.trigger is not None:
self.trigger.pull_trigger()
self.trigger.close()
def register_object(self, obj):
......@@ -538,16 +626,16 @@ class Connection(smac.SizedMessageAsyncConnection, object):
return r_args
# For testing purposes, it is useful to begin a synchronous call
# but not block waiting for its response. Since these methods are
# used for testing they can assume they are not in async mode and
# call asyncore.poll() directly to get the message out without
# also waiting for the reply.
# but not block waiting for its response.
def _deferred_call(self, method, *args):
if self.closed:
raise DisconnectedError()
msgid = self.send_call(method, args, 0)
asyncore.poll(0.01, self._singleton)
if self.is_async():
self.trigger.pull_trigger()
else:
asyncore.poll(0.01, self._singleton)
return msgid
def _deferred_wait(self, msgid):
......@@ -663,7 +751,7 @@ class Connection(smac.SizedMessageAsyncConnection, object):
else:
asyncore.poll(0.0, self._singleton)
def pending(self, timeout=0):
def _pending(self, timeout=0):
"""Invoke mainloop until any pending messages are handled."""
if __debug__:
self.log("pending(), async=%d" % self.is_async(), level=TRACE)
......@@ -758,8 +846,10 @@ class ManagedClientConnection(Connection):
self.queue_output = True
self.queued_messages = []
self.__super_init(sock, addr, obj, tag='C')
self.check_mgr_async()
self.__super_init(sock, addr, obj, tag='C', map=client_map)
self.thr_async = True
self.trigger = client_trigger
client_trigger.pull_trigger()
# Our message_ouput() queues messages until recv_handshake() gets the
# protocol handshake from the server.
......@@ -806,9 +896,12 @@ class ManagedClientConnection(Connection):
# Defer the ThreadedAsync work to the manager.
def close_trigger(self):
# the manager should actually close the trigger
# TODO: what is that comment trying to say? What 'manager'?
del self.trigger
# We are using a shared trigger for all client connections.
# We never want to close it.
# We do want to pull it to make sure the select loop detects that
# we're closed.
self.trigger.pull_trigger()
def set_async(self, map):
pass
......@@ -817,20 +910,8 @@ class ManagedClientConnection(Connection):
# Don't do the register_loop_callback that the superclass does
pass
def check_mgr_async(self):
if not self.thr_async and self.mgr.thr_async:
assert self.mgr.trigger is not None, \
"manager (%s) has no trigger" % self.mgr
self.thr_async = True
self.trigger = self.mgr.trigger
return 1
return 0
def is_async(self):
# TODO: could the check_mgr_async() be avoided on each test?
if self.thr_async:
return 1
return self.check_mgr_async()
return True
def close(self):
self.mgr.close_conn(self)
......
......@@ -135,10 +135,10 @@ if os.name == 'posix':
class trigger(_triggerbase, asyncore.file_dispatcher):
kind = "pipe"
def __init__(self):
def __init__(self, map=None):
_triggerbase.__init__(self)
r, self.trigger = self._fds = os.pipe()
asyncore.file_dispatcher.__init__(self, r)
asyncore.file_dispatcher.__init__(self, r, map)
def _close(self):
for fd in self._fds:
......@@ -155,7 +155,7 @@ else:
class trigger(_triggerbase, asyncore.dispatcher):
kind = "loopback"
def __init__(self):
def __init__(self, map=None):
_triggerbase.__init__(self)
# Get a pair of connected sockets. The trigger is the 'w'
......@@ -208,7 +208,7 @@ else:
r, addr = a.accept() # r becomes asyncore's (self.)socket
a.close()
self.trigger = w
asyncore.dispatcher.__init__(self, r)
asyncore.dispatcher.__init__(self, r, map)
def _close(self):
# self.socket is r, and self.trigger is w, from __init__
......
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