openstack/deb-python-cassandra-driver
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31143e3cf65199152d2df052e52d82deb8f16eeb
deb-python-cassandra-driver/cassandra/io/asyncorereactor.py
Michael Figuiere 31143e3cf6 Add License headers
2014-04-16 08:14:24 -07:00

311 lines
9.9 KiB
Python
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# Copyright 2013-2014 DataStax, Inc.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
from collections import defaultdict, deque
import logging
import os
import socket
import sys
from threading import Event, Lock, Thread
from errno import EALREADY, EINPROGRESS, EWOULDBLOCK, EINVAL, EISCONN, errorcode
import asyncore
try:
from cStringIO import StringIO
except ImportError:
from StringIO import StringIO # ignore flake8 warning: # NOQA
try:
import ssl
except ImportError:
ssl = None # NOQA
from cassandra import OperationTimedOut
from cassandra.connection import (Connection, ConnectionShutdown,
ConnectionException, NONBLOCKING)
from cassandra.decoder import RegisterMessage
from cassandra.marshal import int32_unpack
log = logging.getLogger(__name__)
_loop_started = False
_loop_lock = Lock()
_starting_conns = set()
_starting_conns_lock = Lock()
def _run_loop():
global _loop_started
log.debug("Starting asyncore event loop")
with _loop_lock:
while True:
try:
asyncore.loop(timeout=0.001, use_poll=True, count=None)
except Exception:
log.debug("Asyncore event loop stopped unexepectedly", exc_info=True)
break
with _starting_conns_lock:
if not _starting_conns:
break
_loop_started = False
if log:
# this can happen during interpreter shutdown
log.debug("Asyncore event loop ended")
def _start_loop():
global _loop_started
should_start = False
did_acquire = False
try:
did_acquire = _loop_lock.acquire(False)
if did_acquire and not _loop_started:
_loop_started = True
should_start = True
finally:
if did_acquire:
_loop_lock.release()
if should_start:
t = Thread(target=_run_loop, name="event_loop")
t.daemon = True
t.start()
class AsyncoreConnection(Connection, asyncore.dispatcher):
"""
An implementation of :class:`.Connection` that uses the ``asyncore``
module in the Python standard library for its event loop.
"""
_total_reqd_bytes = 0
_writable = False
_readable = False
_have_listeners = False
@classmethod
def factory(cls, *args, **kwargs):
timeout = kwargs.pop('timeout', 5.0)
conn = cls(*args, **kwargs)
conn.connected_event.wait(timeout)
if conn.last_error:
raise conn.last_error
elif not conn.connected_event.is_set():
conn.close()
raise OperationTimedOut("Timed out creating connection")
else:
return conn
def __init__(self, *args, **kwargs):
Connection.__init__(self, *args, **kwargs)
asyncore.dispatcher.__init__(self)
self.connected_event = Event()
self._iobuf = StringIO()
self._callbacks = {}
self._push_watchers = defaultdict(set)
self.deque = deque()
self.deque_lock = Lock()
with _starting_conns_lock:
_starting_conns.add(self)
self.create_socket(socket.AF_INET, socket.SOCK_STREAM)
self.connect((self.host, self.port))
if self.sockopts:
for args in self.sockopts:
self.socket.setsockopt(*args)
self._writable = True
self._readable = True
# start the global event loop if needed
_start_loop()
def create_socket(self, family, type):
# copied from asyncore, but with the line to set the socket in
# non-blocking mode removed (we will do that after connecting)
self.family_and_type = family, type
sock = socket.socket(family, type)
if self.ssl_options:
if not ssl:
raise Exception("This version of Python was not compiled with SSL support")
sock = ssl.wrap_socket(sock, **self.ssl_options)
self.set_socket(sock)
def connect(self, address):
# this is copied directly from asyncore.py, except that
# a timeout is set before connecting
self.connected = False
self.connecting = True
self.socket.settimeout(1.0)
err = self.socket.connect_ex(address)
if err in (EINPROGRESS, EALREADY, EWOULDBLOCK) \
or err == EINVAL and os.name in ('nt', 'ce'):
raise ConnectionException("Timed out connecting to %s" % (address[0]))
if err in (0, EISCONN):
self.addr = address
self.socket.setblocking(0)
self.handle_connect_event()
else:
raise socket.error(err, errorcode[err])
def close(self):
with self.lock:
if self.is_closed:
return
self.is_closed = True
log.debug("Closing connection (%s) to %s", id(self), self.host)
self._writable = False
self._readable = False
asyncore.dispatcher.close(self)
log.debug("Closed socket to %s", self.host)
with _starting_conns_lock:
_starting_conns.discard(self)
if not self.is_defunct:
self.error_all_callbacks(
ConnectionShutdown("Connection to %s was closed" % self.host))
# don't leave in-progress operations hanging
self.connected_event.set()
def handle_connect(self):
with _starting_conns_lock:
_starting_conns.discard(self)
self._send_options_message()
def handle_error(self):
self.defunct(sys.exc_info()[1])
def handle_close(self):
log.debug("connection (%s) to %s closed by server", id(self), self.host)
self.close()
def handle_write(self):
while True:
try:
with self.deque_lock:
next_msg = self.deque.popleft()
except IndexError:
self._writable = False
return
try:
sent = self.send(next_msg)
self._readable = True
except socket.error as err:
if (err.args[0] in NONBLOCKING):
with self.deque_lock:
self.deque.appendleft(next_msg)
else:
self.defunct(err)
return
else:
if sent < len(next_msg):
with self.deque_lock:
self.deque.appendleft(next_msg[sent:])
if sent == 0:
return
def handle_read(self):
try:
while True:
buf = self.recv(self.in_buffer_size)
self._iobuf.write(buf)
if len(buf) < self.in_buffer_size:
break
except socket.error as err:
if ssl and isinstance(err, ssl.SSLError):
if err.args[0] not in (ssl.SSL_ERROR_WANT_READ, ssl.SSL_ERROR_WANT_WRITE):
self.defunct(err)
return
elif err.args[0] not in NONBLOCKING:
self.defunct(err)
return
if self._iobuf.tell():
while True:
pos = self._iobuf.tell()
if pos < 8 or (self._total_reqd_bytes > 0 and pos < self._total_reqd_bytes):
# we don't have a complete header yet or we
# already saw a header, but we don't have a
# complete message yet
break
else:
# have enough for header, read body len from header
self._iobuf.seek(4)
body_len = int32_unpack(self._iobuf.read(4))
# seek to end to get length of current buffer
self._iobuf.seek(0, os.SEEK_END)
pos = self._iobuf.tell()
if pos >= body_len + 8:
# read message header and body
self._iobuf.seek(0)
msg = self._iobuf.read(8 + body_len)
# leave leftover in current buffer
leftover = self._iobuf.read()
self._iobuf = StringIO()
self._iobuf.write(leftover)
self._total_reqd_bytes = 0
self.process_msg(msg, body_len)
else:
self._total_reqd_bytes = body_len + 8
break
if not self._callbacks:
self._readable = False
def push(self, data):
sabs = self.out_buffer_size
if len(data) > sabs:
chunks = []
for i in xrange(0, len(data), sabs):
chunks.append(data[i:i + sabs])
else:
chunks = [data]
with self.deque_lock:
self.deque.extend(chunks)
self._writable = True
def writable(self):
return self._writable
def readable(self):
return self._readable or (self._have_listeners and not (self.is_defunct or self.is_closed))
def register_watcher(self, event_type, callback):
self._push_watchers[event_type].add(callback)
self._have_listeners = True
self.wait_for_response(RegisterMessage(event_list=[event_type]))
def register_watchers(self, type_callback_dict):
for event_type, callback in type_callback_dict.items():
self._push_watchers[event_type].add(callback)
self._have_listeners = True
self.wait_for_response(RegisterMessage(event_list=type_callback_dict.keys()))
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