Vehicle-Anti-Theft-Face-Rec.../venv/Lib/site-packages/zmq/sugar/context.py

283 lines
8.9 KiB
Python
Raw Permalink Normal View History

2020-11-12 16:05:57 +00:00
# coding: utf-8
"""Python bindings for 0MQ."""
# Copyright (C) PyZMQ Developers
# Distributed under the terms of the Modified BSD License.
import atexit
import os
from threading import Lock
from weakref import WeakSet
from zmq.backend import Context as ContextBase
from . import constants
from .attrsettr import AttributeSetter
from .constants import ENOTSUP, LINGER, ctx_opt_names
from .socket import Socket
from zmq.error import ZMQError
# notice when exiting, to avoid triggering term on exit
_exiting = False
def _notice_atexit():
global _exiting
_exiting = True
atexit.register(_notice_atexit)
class Context(ContextBase, AttributeSetter):
"""Create a zmq Context
A zmq Context creates sockets via its ``ctx.socket`` method.
"""
sockopts = None
_instance = None
_instance_lock = Lock()
_instance_pid = None
_shadow = False
_sockets = None
def __init__(self, io_threads=1, **kwargs):
super(Context, self).__init__(io_threads=io_threads, **kwargs)
if kwargs.get('shadow', False):
self._shadow = True
else:
self._shadow = False
self.sockopts = {}
self._sockets = WeakSet()
def __del__(self):
"""deleting a Context should terminate it, without trying non-threadsafe destroy"""
# Calling locals() here conceals issue #1167 on Windows CPython 3.5.4.
locals()
if not self._shadow and not _exiting:
self.term()
def __enter__(self):
return self
def __exit__(self, *args, **kwargs):
self.term()
def __copy__(self, memo=None):
"""Copying a Context creates a shadow copy"""
return self.__class__.shadow(self.underlying)
__deepcopy__ = __copy__
@classmethod
def shadow(cls, address):
"""Shadow an existing libzmq context
address is the integer address of the libzmq context
or an FFI pointer to it.
.. versionadded:: 14.1
"""
from zmq.utils.interop import cast_int_addr
address = cast_int_addr(address)
return cls(shadow=address)
@classmethod
def shadow_pyczmq(cls, ctx):
"""Shadow an existing pyczmq context
ctx is the FFI `zctx_t *` pointer
.. versionadded:: 14.1
"""
from pyczmq import zctx
from zmq.utils.interop import cast_int_addr
underlying = zctx.underlying(ctx)
address = cast_int_addr(underlying)
return cls(shadow=address)
# static method copied from tornado IOLoop.instance
@classmethod
def instance(cls, io_threads=1):
"""Returns a global Context instance.
Most single-threaded applications have a single, global Context.
Use this method instead of passing around Context instances
throughout your code.
A common pattern for classes that depend on Contexts is to use
a default argument to enable programs with multiple Contexts
but not require the argument for simpler applications::
class MyClass(object):
def __init__(self, context=None):
self.context = context or Context.instance()
.. versionchanged:: 18.1
When called in a subprocess after forking,
a new global instance is created instead of inheriting
a Context that won't work from the parent process.
"""
if (
cls._instance is None
or cls._instance_pid != os.getpid()
or cls._instance.closed
):
with cls._instance_lock:
if (
cls._instance is None
or cls._instance_pid != os.getpid()
or cls._instance.closed
):
cls._instance = cls(io_threads=io_threads)
cls._instance_pid = os.getpid()
return cls._instance
def term(self):
"""Close or terminate the context.
Context termination is performed in the following steps:
- Any blocking operations currently in progress on sockets open within context shall
raise :class:`zmq.ContextTerminated`.
With the exception of socket.close(), any further operations on sockets open within this context
shall raise :class:`zmq.ContextTerminated`.
- After interrupting all blocking calls, term shall block until the following conditions are satisfied:
- All sockets open within context have been closed.
- For each socket within context, all messages sent on the socket have either been
physically transferred to a network peer,
or the socket's linger period set with the zmq.LINGER socket option has expired.
For further details regarding socket linger behaviour refer to libzmq documentation for ZMQ_LINGER.
This can be called to close the context by hand. If this is not called,
the context will automatically be closed when it is garbage collected.
"""
return super(Context, self).term()
#-------------------------------------------------------------------------
# Hooks for ctxopt completion
#-------------------------------------------------------------------------
def __dir__(self):
keys = dir(self.__class__)
for collection in (
ctx_opt_names,
):
keys.extend(collection)
return keys
#-------------------------------------------------------------------------
# Creating Sockets
#-------------------------------------------------------------------------
def _add_socket(self, socket):
self._sockets.add(socket)
def _rm_socket(self, socket):
if self._sockets:
self._sockets.discard(socket)
def destroy(self, linger=None):
"""Close all sockets associated with this context and then terminate
the context.
.. warning::
destroy involves calling ``zmq_close()``, which is **NOT** threadsafe.
If there are active sockets in other threads, this must not be called.
Parameters
----------
linger : int, optional
If specified, set LINGER on sockets prior to closing them.
"""
if self.closed:
return
sockets = self._sockets
self._sockets = WeakSet()
for s in sockets:
if s and not s.closed:
if linger is not None:
s.setsockopt(LINGER, linger)
s.close()
self.term()
@property
def _socket_class(self):
return Socket
def socket(self, socket_type, **kwargs):
"""Create a Socket associated with this Context.
Parameters
----------
socket_type : int
The socket type, which can be any of the 0MQ socket types:
REQ, REP, PUB, SUB, PAIR, DEALER, ROUTER, PULL, PUSH, etc.
kwargs:
will be passed to the __init__ method of the socket class.
"""
if self.closed:
raise ZMQError(ENOTSUP)
s = self._socket_class(self, socket_type, **kwargs)
for opt, value in self.sockopts.items():
try:
s.setsockopt(opt, value)
except ZMQError:
# ignore ZMQErrors, which are likely for socket options
# that do not apply to a particular socket type, e.g.
# SUBSCRIBE for non-SUB sockets.
pass
self._add_socket(s)
return s
def setsockopt(self, opt, value):
"""set default socket options for new sockets created by this Context
.. versionadded:: 13.0
"""
self.sockopts[opt] = value
def getsockopt(self, opt):
"""get default socket options for new sockets created by this Context
.. versionadded:: 13.0
"""
return self.sockopts[opt]
def _set_attr_opt(self, name, opt, value):
"""set default sockopts as attributes"""
if name in constants.ctx_opt_names:
return self.set(opt, value)
else:
self.sockopts[opt] = value
def _get_attr_opt(self, name, opt):
"""get default sockopts as attributes"""
if name in constants.ctx_opt_names:
return self.get(opt)
else:
if opt not in self.sockopts:
raise AttributeError(name)
else:
return self.sockopts[opt]
def __delattr__(self, key):
"""delete default sockopts as attributes"""
key = key.upper()
try:
opt = getattr(constants, key)
except AttributeError:
raise AttributeError("no such socket option: %s" % key)
else:
if opt not in self.sockopts:
raise AttributeError(key)
else:
del self.sockopts[opt]
__all__ = ['Context']