"""Win32 compatibility utilities.""" # ----------------------------------------------------------------------------- # Copyright (C) PyZMQ Developers # Distributed under the terms of the Modified BSD License. # ----------------------------------------------------------------------------- import os from typing import Any, Callable, Optional class allow_interrupt: """Utility for fixing CTRL-C events on Windows. On Windows, the Python interpreter intercepts CTRL-C events in order to translate them into ``KeyboardInterrupt`` exceptions. It (presumably) does this by setting a flag in its "console control handler" and checking it later at a convenient location in the interpreter. However, when the Python interpreter is blocked waiting for the ZMQ poll operation to complete, it must wait for ZMQ's ``select()`` operation to complete before translating the CTRL-C event into the ``KeyboardInterrupt`` exception. The only way to fix this seems to be to add our own "console control handler" and perform some application-defined operation that will unblock the ZMQ polling operation in order to force ZMQ to pass control back to the Python interpreter. This context manager performs all that Windows-y stuff, providing you with a hook that is called when a CTRL-C event is intercepted. This hook allows you to unblock your ZMQ poll operation immediately, which will then result in the expected ``KeyboardInterrupt`` exception. Without this context manager, your ZMQ-based application will not respond normally to CTRL-C events on Windows. If a CTRL-C event occurs while blocked on ZMQ socket polling, the translation to a ``KeyboardInterrupt`` exception will be delayed until the I/O completes and control returns to the Python interpreter (this may never happen if you use an infinite timeout). A no-op implementation is provided on non-Win32 systems to avoid the application from having to conditionally use it. Example usage: .. sourcecode:: python def stop_my_application(): # ... with allow_interrupt(stop_my_application): # main polling loop. In a typical ZMQ application, you would use the "self pipe trick" to send message to a ``PAIR`` socket in order to interrupt your blocking socket polling operation. In a Tornado event loop, you can use the ``IOLoop.stop`` method to unblock your I/O loop. """ def __init__(self, action: Optional[Callable[[], Any]] = None) -> None: """Translate ``action`` into a CTRL-C handler. ``action`` is a callable that takes no arguments and returns no value (returned value is ignored). It must *NEVER* raise an exception. If unspecified, a no-op will be used. """ if os.name != "nt": return self._init_action(action) def _init_action(self, action): from ctypes import WINFUNCTYPE, windll from ctypes.wintypes import BOOL, DWORD kernel32 = windll.LoadLibrary('kernel32') # PHANDLER_ROUTINE = WINFUNCTYPE(BOOL, DWORD) SetConsoleCtrlHandler = ( self._SetConsoleCtrlHandler ) = kernel32.SetConsoleCtrlHandler SetConsoleCtrlHandler.argtypes = (PHANDLER_ROUTINE, BOOL) SetConsoleCtrlHandler.restype = BOOL if action is None: action = lambda: None self.action = action @PHANDLER_ROUTINE def handle(event): if event == 0: # CTRL_C_EVENT action() # Typical C implementations would return 1 to indicate that # the event was processed and other control handlers in the # stack should not be executed. However, that would # prevent the Python interpreter's handler from translating # CTRL-C to a `KeyboardInterrupt` exception, so we pretend # that we didn't handle it. return 0 self.handle = handle def __enter__(self): """Install the custom CTRL-C handler.""" if os.name != "nt": return result = self._SetConsoleCtrlHandler(self.handle, 1) if result == 0: # Have standard library automatically call `GetLastError()` and # `FormatMessage()` into a nice exception object :-) raise OSError() def __exit__(self, *args): """Remove the custom CTRL-C handler.""" if os.name != "nt": return result = self._SetConsoleCtrlHandler(self.handle, 0) if result == 0: # Have standard library automatically call `GetLastError()` and # `FormatMessage()` into a nice exception object :-) raise OSError()