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"""Kazoo handler helpers"""
import errno
import functools
import select
import ssl
import socket
import time
HAS_FNCTL = True
try:
import fcntl
except ImportError: # pragma: nocover
HAS_FNCTL = False
# sentinel objects
_NONE = object()
class AsyncResult(object):
"""A one-time event that stores a value or an exception"""
def __init__(self, handler, condition_factory, timeout_factory):
self._handler = handler
self._exception = _NONE
self._condition = condition_factory()
self._callbacks = []
self._timeout_factory = timeout_factory
self.value = None
def ready(self):
"""Return true if and only if it holds a value or an
exception"""
return self._exception is not _NONE
def successful(self):
"""Return true if and only if it is ready and holds a value"""
return self._exception is None
@property
def exception(self):
if self._exception is not _NONE:
return self._exception
def set(self, value=None):
"""Store the value. Wake up the waiters."""
with self._condition:
self.value = value
self._exception = None
for callback in self._callbacks:
self._handler.completion_queue.put(
functools.partial(callback, self)
)
self._condition.notify_all()
def set_exception(self, exception):
"""Store the exception. Wake up the waiters."""
with self._condition:
self._exception = exception
for callback in self._callbacks:
self._handler.completion_queue.put(
functools.partial(callback, self)
)
self._condition.notify_all()
def get(self, block=True, timeout=None):
"""Return the stored value or raise the exception.
If there is no value raises TimeoutError.
"""
with self._condition:
if self._exception is not _NONE:
if self._exception is None:
return self.value
raise self._exception
elif block:
self._condition.wait(timeout)
if self._exception is not _NONE:
if self._exception is None:
return self.value
raise self._exception
# if we get to this point we timeout
raise self._timeout_factory()
def get_nowait(self):
"""Return the value or raise the exception without blocking.
If nothing is available, raises TimeoutError
"""
return self.get(block=False)
def wait(self, timeout=None):
"""Block until the instance is ready."""
with self._condition:
if not self.ready():
self._condition.wait(timeout)
return self._exception is not _NONE
def rawlink(self, callback):
"""Register a callback to call when a value or an exception is
set"""
with self._condition:
# Are we already set? Dispatch it now
if self.ready():
self._handler.completion_queue.put(
functools.partial(callback, self)
)
return
if callback not in self._callbacks:
self._callbacks.append(callback)
def unlink(self, callback):
"""Remove the callback set by :meth:`rawlink`"""
with self._condition:
if self.ready():
# Already triggered, ignore
return
if callback in self._callbacks:
self._callbacks.remove(callback)
def _set_fd_cloexec(fd):
flags = fcntl.fcntl(fd, fcntl.F_GETFD)
fcntl.fcntl(fd, fcntl.F_SETFD, flags | fcntl.FD_CLOEXEC)
def _set_default_tcpsock_options(module, sock):
sock.setsockopt(module.IPPROTO_TCP, module.TCP_NODELAY, 1)
if HAS_FNCTL:
_set_fd_cloexec(sock)
return sock
def create_socket_pair(module, port=0):
"""Create socket pair.
If socket.socketpair isn't available, we emulate it.
"""
# See if socketpair() is available.
have_socketpair = hasattr(module, 'socketpair')
if have_socketpair:
client_sock, srv_sock = module.socketpair()
return client_sock, srv_sock
# Create a non-blocking temporary server socket
temp_srv_sock = module.socket()
temp_srv_sock.setblocking(False)
temp_srv_sock.bind(('', port))
port = temp_srv_sock.getsockname()[1]
temp_srv_sock.listen(1)
# Create non-blocking client socket
client_sock = module.socket()
client_sock.setblocking(False)
try:
client_sock.connect(('localhost', port))
except module.error as err:
# EWOULDBLOCK is not an error, as the socket is non-blocking
if err.errno != errno.EWOULDBLOCK:
raise
# Use select to wait for connect() to succeed.
timeout = 1
readable = select.select([temp_srv_sock], [], [], timeout)[0]
if temp_srv_sock not in readable:
raise Exception('Client socket not connected in %s'
' second(s)' % (timeout))
srv_sock, _ = temp_srv_sock.accept()
return client_sock, srv_sock
def create_tcp_socket(module):
"""Create a TCP socket with the CLOEXEC flag set.
"""
type_ = module.SOCK_STREAM
if hasattr(module, 'SOCK_CLOEXEC'): # pragma: nocover
# if available, set cloexec flag during socket creation
type_ |= module.SOCK_CLOEXEC
sock = module.socket(module.AF_INET, type_)
_set_default_tcpsock_options(module, sock)
return sock
def create_tcp_connection(module, address, timeout=None,
use_ssl=False, ca=None, certfile=None,
keyfile=None, keyfile_password=None,
verify_certs=True):
end = None
if timeout is None:
# thanks to create_connection() developers for
# this ugliness...
timeout = module.getdefaulttimeout()
if timeout is not None:
end = time.time() + timeout
sock = None
while end is None or time.time() < end:
timeout_at = end if end is None else end - time.time()
if use_ssl:
# Disallow use of SSLv2 and V3 (meaning we require TLSv1.0+)
context = ssl.SSLContext(ssl.PROTOCOL_SSLv23)
context.options |= ssl.OP_NO_SSLv2
context.options |= ssl.OP_NO_SSLv3
# Load default CA certs
context.load_default_certs(ssl.Purpose.SERVER_AUTH)
context.verify_mode = (
ssl.CERT_OPTIONAL if verify_certs else ssl.CERT_NONE
)
if ca:
context.load_verify_locations(ca)
if certfile and keyfile:
context.verify_mode = (
ssl.CERT_REQUIRED if verify_certs else ssl.CERT_NONE
)
context.load_cert_chain(certfile=certfile,
keyfile=keyfile,
password=keyfile_password)
try:
# Query the address to get back it's address family
addrs = socket.getaddrinfo(address[0], address[1], 0,
socket.SOCK_STREAM)
conn = context.wrap_socket(module.socket(addrs[0][0]))
conn.settimeout(timeout_at)
conn.connect(address)
sock = conn
break
except ssl.SSLError:
raise
else:
try:
# if we got a timeout, lets ensure that we decrement the time
# otherwise there is no timeout set and we'll call it as such
sock = module.create_connection(address, timeout_at)
break
except Exception as ex:
errnum = ex.errno if isinstance(ex, OSError) else ex[0]
if errnum == errno.EINTR:
continue
raise
if sock is None:
raise module.error
_set_default_tcpsock_options(module, sock)
return sock
def capture_exceptions(async_result):
"""Return a new decorated function that propagates the exceptions of the
wrapped function to an async_result.
:param async_result: An async result implementing :class:`IAsyncResult`
"""
def capture(function):
@functools.wraps(function)
def captured_function(*args, **kwargs):
try:
return function(*args, **kwargs)
except Exception as exc:
async_result.set_exception(exc)
return captured_function
return capture
def wrap(async_result):
"""Return a new decorated function that propagates the return value or
exception of wrapped function to an async_result. NOTE: Only propagates a
non-None return value.
:param async_result: An async result implementing :class:`IAsyncResult`
"""
def capture(function):
@capture_exceptions(async_result)
def captured_function(*args, **kwargs):
value = function(*args, **kwargs)
if value is not None:
async_result.set(value)
return value
return captured_function
return capture
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