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4c24b08cd3
I believe this is a mistake. SIGCHLD is only available on Unix systems, not Windows.
680 lines
22 KiB
ReStructuredText
680 lines
22 KiB
ReStructuredText
:mod:`signal` --- Set handlers for asynchronous events
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======================================================
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.. module:: signal
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:synopsis: Set handlers for asynchronous events.
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--------------
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This module provides mechanisms to use signal handlers in Python.
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General rules
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-------------
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The :func:`signal.signal` function allows defining custom handlers to be
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executed when a signal is received. A small number of default handlers are
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installed: :const:`SIGPIPE` is ignored (so write errors on pipes and sockets
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can be reported as ordinary Python exceptions) and :const:`SIGINT` is
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translated into a :exc:`KeyboardInterrupt` exception if the parent process
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has not changed it.
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A handler for a particular signal, once set, remains installed until it is
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explicitly reset (Python emulates the BSD style interface regardless of the
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underlying implementation), with the exception of the handler for
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:const:`SIGCHLD`, which follows the underlying implementation.
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Execution of Python signal handlers
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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A Python signal handler does not get executed inside the low-level (C) signal
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handler. Instead, the low-level signal handler sets a flag which tells the
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:term:`virtual machine` to execute the corresponding Python signal handler
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at a later point(for example at the next :term:`bytecode` instruction).
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This has consequences:
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* It makes little sense to catch synchronous errors like :const:`SIGFPE` or
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:const:`SIGSEGV` that are caused by an invalid operation in C code. Python
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will return from the signal handler to the C code, which is likely to raise
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the same signal again, causing Python to apparently hang. From Python 3.3
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onwards, you can use the :mod:`faulthandler` module to report on synchronous
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errors.
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* A long-running calculation implemented purely in C (such as regular
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expression matching on a large body of text) may run uninterrupted for an
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arbitrary amount of time, regardless of any signals received. The Python
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signal handlers will be called when the calculation finishes.
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.. _signals-and-threads:
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Signals and threads
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^^^^^^^^^^^^^^^^^^^
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Python signal handlers are always executed in the main Python thread of the main interpreter,
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even if the signal was received in another thread. This means that signals
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can't be used as a means of inter-thread communication. You can use
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the synchronization primitives from the :mod:`threading` module instead.
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Besides, only the main thread of the main interpreter is allowed to set a new signal handler.
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Module contents
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---------------
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.. versionchanged:: 3.5
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signal (SIG*), handler (:const:`SIG_DFL`, :const:`SIG_IGN`) and sigmask
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(:const:`SIG_BLOCK`, :const:`SIG_UNBLOCK`, :const:`SIG_SETMASK`)
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related constants listed below were turned into
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:class:`enums <enum.IntEnum>`.
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:func:`getsignal`, :func:`pthread_sigmask`, :func:`sigpending` and
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:func:`sigwait` functions return human-readable
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:class:`enums <enum.IntEnum>`.
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The variables defined in the :mod:`signal` module are:
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.. data:: SIG_DFL
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This is one of two standard signal handling options; it will simply perform
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the default function for the signal. For example, on most systems the
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default action for :const:`SIGQUIT` is to dump core and exit, while the
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default action for :const:`SIGCHLD` is to simply ignore it.
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.. data:: SIG_IGN
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This is another standard signal handler, which will simply ignore the given
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signal.
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.. data:: SIGABRT
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Abort signal from :manpage:`abort(3)`.
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.. data:: SIGALRM
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Timer signal from :manpage:`alarm(2)`.
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.. availability:: Unix.
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.. data:: SIGBREAK
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Interrupt from keyboard (CTRL + BREAK).
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.. availability:: Windows.
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.. data:: SIGBUS
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Bus error (bad memory access).
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.. availability:: Unix.
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.. data:: SIGCHLD
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Child process stopped or terminated.
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.. availability:: Unix.
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.. data:: SIGCLD
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Alias to :data:`SIGCHLD`.
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.. data:: SIGCONT
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Continue the process if it is currently stopped
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.. availability:: Unix.
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.. data:: SIGFPE
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Floating-point exception. For example, division by zero.
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.. seealso::
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:exc:`ZeroDivisionError` is raised when the second argument of a division
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or modulo operation is zero.
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.. data:: SIGHUP
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Hangup detected on controlling terminal or death of controlling process.
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.. availability:: Unix.
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.. data:: SIGILL
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Illegal instruction.
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.. data:: SIGINT
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Interrupt from keyboard (CTRL + C).
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Default action is to raise :exc:`KeyboardInterrupt`.
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.. data:: SIGKILL
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Kill signal.
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It cannot be caught, blocked, or ignored.
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.. availability:: Unix.
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.. data:: SIGPIPE
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Broken pipe: write to pipe with no readers.
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Default action is to ignore the signal.
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.. availability:: Unix.
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.. data:: SIGSEGV
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Segmentation fault: invalid memory reference.
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.. data:: SIGTERM
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Termination signal.
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.. data:: SIGUSR1
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User-defined signal 1.
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.. availability:: Unix.
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.. data:: SIGUSR2
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User-defined signal 2.
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.. availability:: Unix.
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.. data:: SIGWINCH
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Window resize signal.
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.. availability:: Unix.
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.. data:: SIG*
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All the signal numbers are defined symbolically. For example, the hangup signal
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is defined as :const:`signal.SIGHUP`; the variable names are identical to the
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names used in C programs, as found in ``<signal.h>``. The Unix man page for
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':c:func:`signal`' lists the existing signals (on some systems this is
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:manpage:`signal(2)`, on others the list is in :manpage:`signal(7)`). Note that
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not all systems define the same set of signal names; only those names defined by
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the system are defined by this module.
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.. data:: CTRL_C_EVENT
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The signal corresponding to the :kbd:`Ctrl+C` keystroke event. This signal can
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only be used with :func:`os.kill`.
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.. availability:: Windows.
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.. versionadded:: 3.2
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.. data:: CTRL_BREAK_EVENT
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The signal corresponding to the :kbd:`Ctrl+Break` keystroke event. This signal can
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only be used with :func:`os.kill`.
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.. availability:: Windows.
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.. versionadded:: 3.2
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.. data:: NSIG
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One more than the number of the highest signal number.
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.. data:: ITIMER_REAL
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Decrements interval timer in real time, and delivers :const:`SIGALRM` upon
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expiration.
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.. data:: ITIMER_VIRTUAL
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Decrements interval timer only when the process is executing, and delivers
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SIGVTALRM upon expiration.
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.. data:: ITIMER_PROF
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Decrements interval timer both when the process executes and when the
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system is executing on behalf of the process. Coupled with ITIMER_VIRTUAL,
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this timer is usually used to profile the time spent by the application
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in user and kernel space. SIGPROF is delivered upon expiration.
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.. data:: SIG_BLOCK
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A possible value for the *how* parameter to :func:`pthread_sigmask`
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indicating that signals are to be blocked.
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.. versionadded:: 3.3
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.. data:: SIG_UNBLOCK
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A possible value for the *how* parameter to :func:`pthread_sigmask`
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indicating that signals are to be unblocked.
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.. versionadded:: 3.3
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.. data:: SIG_SETMASK
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A possible value for the *how* parameter to :func:`pthread_sigmask`
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indicating that the signal mask is to be replaced.
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.. versionadded:: 3.3
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The :mod:`signal` module defines one exception:
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.. exception:: ItimerError
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Raised to signal an error from the underlying :func:`setitimer` or
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:func:`getitimer` implementation. Expect this error if an invalid
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interval timer or a negative time is passed to :func:`setitimer`.
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This error is a subtype of :exc:`OSError`.
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.. versionadded:: 3.3
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This error used to be a subtype of :exc:`IOError`, which is now an
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alias of :exc:`OSError`.
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The :mod:`signal` module defines the following functions:
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.. function:: alarm(time)
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If *time* is non-zero, this function requests that a :const:`SIGALRM` signal be
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sent to the process in *time* seconds. Any previously scheduled alarm is
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canceled (only one alarm can be scheduled at any time). The returned value is
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then the number of seconds before any previously set alarm was to have been
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delivered. If *time* is zero, no alarm is scheduled, and any scheduled alarm is
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canceled. If the return value is zero, no alarm is currently scheduled.
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.. availability:: Unix. See the man page :manpage:`alarm(2)` for further
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information.
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.. function:: getsignal(signalnum)
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Return the current signal handler for the signal *signalnum*. The returned value
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may be a callable Python object, or one of the special values
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:const:`signal.SIG_IGN`, :const:`signal.SIG_DFL` or :const:`None`. Here,
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:const:`signal.SIG_IGN` means that the signal was previously ignored,
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:const:`signal.SIG_DFL` means that the default way of handling the signal was
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previously in use, and ``None`` means that the previous signal handler was not
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installed from Python.
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.. function:: strsignal(signalnum)
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Return the system description of the signal *signalnum*, such as
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"Interrupt", "Segmentation fault", etc. Returns :const:`None` if the signal
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is not recognized.
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.. versionadded:: 3.8
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.. function:: valid_signals()
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Return the set of valid signal numbers on this platform. This can be
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less than ``range(1, NSIG)`` if some signals are reserved by the system
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for internal use.
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.. versionadded:: 3.8
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.. function:: pause()
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Cause the process to sleep until a signal is received; the appropriate handler
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will then be called. Returns nothing.
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.. availability:: Unix. See the man page :manpage:`signal(2)` for further
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information.
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See also :func:`sigwait`, :func:`sigwaitinfo`, :func:`sigtimedwait` and
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:func:`sigpending`.
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.. function:: raise_signal(signum)
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Sends a signal to the calling process. Returns nothing.
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.. versionadded:: 3.8
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.. function:: pidfd_send_signal(pidfd, sig, siginfo=None, flags=0)
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Send signal *sig* to the process referred to by file descriptor *pidfd*.
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Python does not currently support the *siginfo* parameter; it must be
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``None``. The *flags* argument is provided for future extensions; no flag
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values are currently defined.
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See the :manpage:`pidfd_send_signal(2)` man page for more information.
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.. availability:: Linux 5.1+
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.. versionadded:: 3.9
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.. function:: pthread_kill(thread_id, signalnum)
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Send the signal *signalnum* to the thread *thread_id*, another thread in the
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same process as the caller. The target thread can be executing any code
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(Python or not). However, if the target thread is executing the Python
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interpreter, the Python signal handlers will be :ref:`executed by the main
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thread of the main interpreter <signals-and-threads>`. Therefore, the only point of sending a
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signal to a particular Python thread would be to force a running system call
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to fail with :exc:`InterruptedError`.
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Use :func:`threading.get_ident()` or the :attr:`~threading.Thread.ident`
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attribute of :class:`threading.Thread` objects to get a suitable value
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for *thread_id*.
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If *signalnum* is 0, then no signal is sent, but error checking is still
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performed; this can be used to check if the target thread is still running.
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.. audit-event:: signal.pthread_kill thread_id,signalnum signal.pthread_kill
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.. availability:: Unix. See the man page :manpage:`pthread_kill(3)` for further
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information.
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See also :func:`os.kill`.
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.. versionadded:: 3.3
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.. function:: pthread_sigmask(how, mask)
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Fetch and/or change the signal mask of the calling thread. The signal mask
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is the set of signals whose delivery is currently blocked for the caller.
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Return the old signal mask as a set of signals.
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The behavior of the call is dependent on the value of *how*, as follows.
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* :data:`SIG_BLOCK`: The set of blocked signals is the union of the current
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set and the *mask* argument.
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* :data:`SIG_UNBLOCK`: The signals in *mask* are removed from the current
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set of blocked signals. It is permissible to attempt to unblock a
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signal which is not blocked.
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* :data:`SIG_SETMASK`: The set of blocked signals is set to the *mask*
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argument.
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*mask* is a set of signal numbers (e.g. {:const:`signal.SIGINT`,
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:const:`signal.SIGTERM`}). Use :func:`~signal.valid_signals` for a full
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mask including all signals.
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For example, ``signal.pthread_sigmask(signal.SIG_BLOCK, [])`` reads the
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signal mask of the calling thread.
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:data:`SIGKILL` and :data:`SIGSTOP` cannot be blocked.
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.. availability:: Unix. See the man page :manpage:`sigprocmask(2)` and
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:manpage:`pthread_sigmask(3)` for further information.
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See also :func:`pause`, :func:`sigpending` and :func:`sigwait`.
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.. versionadded:: 3.3
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.. function:: setitimer(which, seconds, interval=0.0)
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Sets given interval timer (one of :const:`signal.ITIMER_REAL`,
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:const:`signal.ITIMER_VIRTUAL` or :const:`signal.ITIMER_PROF`) specified
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by *which* to fire after *seconds* (float is accepted, different from
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:func:`alarm`) and after that every *interval* seconds (if *interval*
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is non-zero). The interval timer specified by *which* can be cleared by
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setting *seconds* to zero.
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When an interval timer fires, a signal is sent to the process.
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The signal sent is dependent on the timer being used;
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:const:`signal.ITIMER_REAL` will deliver :const:`SIGALRM`,
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:const:`signal.ITIMER_VIRTUAL` sends :const:`SIGVTALRM`,
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and :const:`signal.ITIMER_PROF` will deliver :const:`SIGPROF`.
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The old values are returned as a tuple: (delay, interval).
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Attempting to pass an invalid interval timer will cause an
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:exc:`ItimerError`.
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.. availability:: Unix.
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.. function:: getitimer(which)
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Returns current value of a given interval timer specified by *which*.
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.. availability:: Unix.
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.. function:: set_wakeup_fd(fd, *, warn_on_full_buffer=True)
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Set the wakeup file descriptor to *fd*. When a signal is received, the
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signal number is written as a single byte into the fd. This can be used by
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a library to wakeup a poll or select call, allowing the signal to be fully
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processed.
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The old wakeup fd is returned (or -1 if file descriptor wakeup was not
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enabled). If *fd* is -1, file descriptor wakeup is disabled.
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If not -1, *fd* must be non-blocking. It is up to the library to remove
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any bytes from *fd* before calling poll or select again.
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When threads are enabled, this function can only be called
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from :ref:`the main thread of the main interpreter <signals-and-threads>`;
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attempting to call it from other threads will cause a :exc:`ValueError`
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exception to be raised.
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There are two common ways to use this function. In both approaches,
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you use the fd to wake up when a signal arrives, but then they
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differ in how they determine *which* signal or signals have
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arrived.
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In the first approach, we read the data out of the fd's buffer, and
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the byte values give you the signal numbers. This is simple, but in
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rare cases it can run into a problem: generally the fd will have a
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limited amount of buffer space, and if too many signals arrive too
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quickly, then the buffer may become full, and some signals may be
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lost. If you use this approach, then you should set
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``warn_on_full_buffer=True``, which will at least cause a warning
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to be printed to stderr when signals are lost.
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In the second approach, we use the wakeup fd *only* for wakeups,
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and ignore the actual byte values. In this case, all we care about
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is whether the fd's buffer is empty or non-empty; a full buffer
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doesn't indicate a problem at all. If you use this approach, then
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you should set ``warn_on_full_buffer=False``, so that your users
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are not confused by spurious warning messages.
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.. versionchanged:: 3.5
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On Windows, the function now also supports socket handles.
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.. versionchanged:: 3.7
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Added ``warn_on_full_buffer`` parameter.
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.. function:: siginterrupt(signalnum, flag)
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Change system call restart behaviour: if *flag* is :const:`False`, system
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calls will be restarted when interrupted by signal *signalnum*, otherwise
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system calls will be interrupted. Returns nothing.
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.. availability:: Unix. See the man page :manpage:`siginterrupt(3)`
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for further information.
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Note that installing a signal handler with :func:`signal` will reset the
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restart behaviour to interruptible by implicitly calling
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:c:func:`siginterrupt` with a true *flag* value for the given signal.
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.. function:: signal(signalnum, handler)
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Set the handler for signal *signalnum* to the function *handler*. *handler* can
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be a callable Python object taking two arguments (see below), or one of the
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special values :const:`signal.SIG_IGN` or :const:`signal.SIG_DFL`. The previous
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signal handler will be returned (see the description of :func:`getsignal`
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above). (See the Unix man page :manpage:`signal(2)` for further information.)
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When threads are enabled, this function can only be called
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from :ref:`the main thread of the main interpreter <signals-and-threads>`;
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attempting to call it from other threads will cause a :exc:`ValueError`
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exception to be raised.
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The *handler* is called with two arguments: the signal number and the current
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stack frame (``None`` or a frame object; for a description of frame objects,
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see the :ref:`description in the type hierarchy <frame-objects>` or see the
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attribute descriptions in the :mod:`inspect` module).
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On Windows, :func:`signal` can only be called with :const:`SIGABRT`,
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:const:`SIGFPE`, :const:`SIGILL`, :const:`SIGINT`, :const:`SIGSEGV`,
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:const:`SIGTERM`, or :const:`SIGBREAK`.
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A :exc:`ValueError` will be raised in any other case.
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Note that not all systems define the same set of signal names; an
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:exc:`AttributeError` will be raised if a signal name is not defined as
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``SIG*`` module level constant.
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.. function:: sigpending()
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|
Examine the set of signals that are pending for delivery to the calling
|
|
thread (i.e., the signals which have been raised while blocked). Return the
|
|
set of the pending signals.
|
|
|
|
.. availability:: Unix. See the man page :manpage:`sigpending(2)` for further
|
|
information.
|
|
|
|
See also :func:`pause`, :func:`pthread_sigmask` and :func:`sigwait`.
|
|
|
|
.. versionadded:: 3.3
|
|
|
|
|
|
.. function:: sigwait(sigset)
|
|
|
|
Suspend execution of the calling thread until the delivery of one of the
|
|
signals specified in the signal set *sigset*. The function accepts the signal
|
|
(removes it from the pending list of signals), and returns the signal number.
|
|
|
|
.. availability:: Unix. See the man page :manpage:`sigwait(3)` for further
|
|
information.
|
|
|
|
See also :func:`pause`, :func:`pthread_sigmask`, :func:`sigpending`,
|
|
:func:`sigwaitinfo` and :func:`sigtimedwait`.
|
|
|
|
.. versionadded:: 3.3
|
|
|
|
|
|
.. function:: sigwaitinfo(sigset)
|
|
|
|
Suspend execution of the calling thread until the delivery of one of the
|
|
signals specified in the signal set *sigset*. The function accepts the
|
|
signal and removes it from the pending list of signals. If one of the
|
|
signals in *sigset* is already pending for the calling thread, the function
|
|
will return immediately with information about that signal. The signal
|
|
handler is not called for the delivered signal. The function raises an
|
|
:exc:`InterruptedError` if it is interrupted by a signal that is not in
|
|
*sigset*.
|
|
|
|
The return value is an object representing the data contained in the
|
|
:c:type:`siginfo_t` structure, namely: :attr:`si_signo`, :attr:`si_code`,
|
|
:attr:`si_errno`, :attr:`si_pid`, :attr:`si_uid`, :attr:`si_status`,
|
|
:attr:`si_band`.
|
|
|
|
.. availability:: Unix. See the man page :manpage:`sigwaitinfo(2)` for further
|
|
information.
|
|
|
|
See also :func:`pause`, :func:`sigwait` and :func:`sigtimedwait`.
|
|
|
|
.. versionadded:: 3.3
|
|
|
|
.. versionchanged:: 3.5
|
|
The function is now retried if interrupted by a signal not in *sigset*
|
|
and the signal handler does not raise an exception (see :pep:`475` for
|
|
the rationale).
|
|
|
|
|
|
.. function:: sigtimedwait(sigset, timeout)
|
|
|
|
Like :func:`sigwaitinfo`, but takes an additional *timeout* argument
|
|
specifying a timeout. If *timeout* is specified as :const:`0`, a poll is
|
|
performed. Returns :const:`None` if a timeout occurs.
|
|
|
|
.. availability:: Unix. See the man page :manpage:`sigtimedwait(2)` for further
|
|
information.
|
|
|
|
See also :func:`pause`, :func:`sigwait` and :func:`sigwaitinfo`.
|
|
|
|
.. versionadded:: 3.3
|
|
|
|
.. versionchanged:: 3.5
|
|
The function is now retried with the recomputed *timeout* if interrupted
|
|
by a signal not in *sigset* and the signal handler does not raise an
|
|
exception (see :pep:`475` for the rationale).
|
|
|
|
|
|
.. _signal-example:
|
|
|
|
Example
|
|
-------
|
|
|
|
Here is a minimal example program. It uses the :func:`alarm` function to limit
|
|
the time spent waiting to open a file; this is useful if the file is for a
|
|
serial device that may not be turned on, which would normally cause the
|
|
:func:`os.open` to hang indefinitely. The solution is to set a 5-second alarm
|
|
before opening the file; if the operation takes too long, the alarm signal will
|
|
be sent, and the handler raises an exception. ::
|
|
|
|
import signal, os
|
|
|
|
def handler(signum, frame):
|
|
print('Signal handler called with signal', signum)
|
|
raise OSError("Couldn't open device!")
|
|
|
|
# Set the signal handler and a 5-second alarm
|
|
signal.signal(signal.SIGALRM, handler)
|
|
signal.alarm(5)
|
|
|
|
# This open() may hang indefinitely
|
|
fd = os.open('/dev/ttyS0', os.O_RDWR)
|
|
|
|
signal.alarm(0) # Disable the alarm
|
|
|
|
Note on SIGPIPE
|
|
---------------
|
|
|
|
Piping output of your program to tools like :manpage:`head(1)` will
|
|
cause a :const:`SIGPIPE` signal to be sent to your process when the receiver
|
|
of its standard output closes early. This results in an exception
|
|
like :code:`BrokenPipeError: [Errno 32] Broken pipe`. To handle this
|
|
case, wrap your entry point to catch this exception as follows::
|
|
|
|
import os
|
|
import sys
|
|
|
|
def main():
|
|
try:
|
|
# simulate large output (your code replaces this loop)
|
|
for x in range(10000):
|
|
print("y")
|
|
# flush output here to force SIGPIPE to be triggered
|
|
# while inside this try block.
|
|
sys.stdout.flush()
|
|
except BrokenPipeError:
|
|
# Python flushes standard streams on exit; redirect remaining output
|
|
# to devnull to avoid another BrokenPipeError at shutdown
|
|
devnull = os.open(os.devnull, os.O_WRONLY)
|
|
os.dup2(devnull, sys.stdout.fileno())
|
|
sys.exit(1) # Python exits with error code 1 on EPIPE
|
|
|
|
if __name__ == '__main__':
|
|
main()
|
|
|
|
Do not set :const:`SIGPIPE`'s disposition to :const:`SIG_DFL`
|
|
in order to avoid :exc:`BrokenPipeError`. Doing that would cause
|
|
your program to exit unexpectedly also whenever any socket connection
|
|
is interrupted while your program is still writing to it.
|