"faulthandler" --- Dump the Python traceback
********************************************

Adicionado na versão 3.3.

======================================================================

This module contains functions to dump Python tracebacks explicitly,
on a fault, after a timeout, or on a user signal. Call
"faulthandler.enable()" to install fault handlers for the "SIGSEGV",
"SIGFPE", "SIGABRT", "SIGBUS", and "SIGILL" signals. You can also
enable them at startup by setting the "PYTHONFAULTHANDLER" environment
variable or by using the "-X" "faulthandler" command line option.

The fault handler is compatible with system fault handlers like Apport
or the Windows fault handler. The module uses an alternative stack for
signal handlers if the "sigaltstack()" function is available. This
allows it to dump the traceback even on a stack overflow.

The fault handler is called on catastrophic cases and therefore can
only use signal-safe functions (e.g. it cannot allocate memory on the
heap). Because of this limitation traceback dumping is minimal
compared to normal Python tracebacks:

* Only ASCII is supported. The "backslashreplace" error handler is
  used on encoding.

* Each string is limited to 500 characters.

* Only the filename, the function name and the line number are
  displayed. (no source code)

* It is limited to 100 frames and 100 threads.

* The order is reversed: the most recent call is shown first.

By default, the Python traceback is written to "sys.stderr". To see
tracebacks, applications must be run in the terminal. A log file can
alternatively be passed to "faulthandler.enable()".

The module is implemented in C, so tracebacks can be dumped on a crash
or when Python is deadlocked.

The Python Development Mode calls "faulthandler.enable()" at Python
startup.

Ver também:

  Module "pdb"
     Interactive source code debugger for Python programs.

  Módulo "traceback"
     Interface padrão para extrair, formatar e imprimir rastreamentos
     de pilha de programas Python.


Dumping the traceback
=====================

faulthandler.dump_traceback(file=sys.stderr, all_threads=True)

   Dump the tracebacks of all threads into *file*. If *all_threads* is
   "False", dump only the current thread.

   Ver também:

     "traceback.print_tb()", which can be used to print a traceback
     object.

   Alterado na versão 3.5: Added support for passing file descriptor
   to this function.


Dumping the C stack
===================

Adicionado na versão 3.14.

faulthandler.dump_c_stack(file=sys.stderr)

   Dump the C stack trace of the current thread into *file*.

   If the Python build does not support it or the operating system
   does not provide a stack trace, then this prints an error in place
   of a dumped C stack.


C Stack Compatibility
---------------------

If the system does not support the C-level *backtrace(3)* or
*dladdr1(3)*, then C stack dumps will not work. An error will be
printed instead of the stack.

Additionally, some compilers do not support *CPython's* implementation
of C stack dumps. As a result, a different error may be printed
instead of the stack, even if the operating system supports dumping
stacks.

Nota:

  Dumping C stacks can be arbitrarily slow, depending on the DWARF
  level of the binaries in the call stack.


Fault handler state
===================

faulthandler.enable(file=sys.stderr, all_threads=True, c_stack=True)

   Enable the fault handler: install handlers for the "SIGSEGV",
   "SIGFPE", "SIGABRT", "SIGBUS" and "SIGILL" signals to dump the
   Python traceback. If *all_threads* is "True", produce tracebacks
   for every running thread. Otherwise, dump only the current thread.

   The *file* must be kept open until the fault handler is disabled:
   see issue with file descriptors.

   If *c_stack* is "True", then the C stack trace is printed after the
   Python traceback, unless the system does not support it. See
   "dump_c_stack()" for more information on compatibility.

   Alterado na versão 3.5: Added support for passing file descriptor
   to this function.

   Alterado na versão 3.6: On Windows, a handler for Windows exception
   is also installed.

   Alterado na versão 3.10: The dump now mentions if a garbage
   collector collection is running if *all_threads* is true.

   Alterado na versão 3.14: Only the current thread is dumped if the
   *GIL* is disabled to prevent the risk of data races.

   Alterado na versão 3.14: The dump now displays the C stack trace if
   *c_stack* is true.

faulthandler.disable()

   Disable the fault handler: uninstall the signal handlers installed
   by "enable()".

faulthandler.is_enabled()

   Check if the fault handler is enabled.


Dumping the tracebacks after a timeout
======================================

faulthandler.dump_traceback_later(timeout, repeat=False, file=sys.stderr, exit=False)

   Dump the tracebacks of all threads, after a timeout of *timeout*
   seconds, or every *timeout* seconds if *repeat* is "True".  If
   *exit* is "True", call "_exit()" with status=1 after dumping the
   tracebacks.  (Note "_exit()" exits the process immediately, which
   means it doesn't do any cleanup like flushing file buffers.) If the
   function is called twice, the new call replaces previous parameters
   and resets the timeout. The timer has a sub-second resolution.

   The *file* must be kept open until the traceback is dumped or
   "cancel_dump_traceback_later()" is called: see issue with file
   descriptors.

   This function is implemented using a watchdog thread.

   Alterado na versão 3.5: Added support for passing file descriptor
   to this function.

   Alterado na versão 3.7: This function is now always available.

faulthandler.cancel_dump_traceback_later()

   Cancel the last call to "dump_traceback_later()".


Dumping the traceback on a user signal
======================================

faulthandler.register(signum, file=sys.stderr, all_threads=True, chain=False)

   Register a user signal: install a handler for the *signum* signal
   to dump the traceback of all threads, or of the current thread if
   *all_threads* is "False", into *file*. Call the previous handler if
   chain is "True".

   The *file* must be kept open until the signal is unregistered by
   "unregister()": see issue with file descriptors.

   Não disponível no Windows.

   Alterado na versão 3.5: Added support for passing file descriptor
   to this function.

faulthandler.unregister(signum)

   Unregister a user signal: uninstall the handler of the *signum*
   signal installed by "register()". Return "True" if the signal was
   registered, "False" otherwise.

   Não disponível no Windows.


Issue with file descriptors
===========================

"enable()", "dump_traceback_later()" and "register()" keep the file
descriptor of their *file* argument. If the file is closed and its
file descriptor is reused by a new file, or if "os.dup2()" is used to
replace the file descriptor, the traceback will be written into a
different file. Call these functions again each time that the file is
replaced.


Exemplo
=======

Example of a segmentation fault on Linux with and without enabling the
fault handler:

   $ python -c "import ctypes; ctypes.string_at(0)"
   Segmentation fault

   $ python -q -X faulthandler
   >>> import ctypes
   >>> ctypes.string_at(0)
   Fatal Python error: Segmentation fault

   Current thread 0x00007fb899f39700 (most recent call first):
     File "/opt/python/Lib/ctypes/__init__.py", line 486 in string_at
     File "<stdin>", line 1 in <module>

   Current thread's C stack trace (most recent call first):
     Binary file "/opt/python/python", at _Py_DumpStack+0x42 [0x5b27f7d7147e]
     Binary file "/opt/python/python", at +0x32dcbd [0x5b27f7d85cbd]
     Binary file "/opt/python/python", at +0x32df8a [0x5b27f7d85f8a]
     Binary file "/usr/lib/libc.so.6", at +0x3def0 [0x77b73226bef0]
     Binary file "/usr/lib/libc.so.6", at +0x17ef9c [0x77b7323acf9c]
     Binary file "/opt/python/build/lib.linux-x86_64-3.14/_ctypes.cpython-314d-x86_64-linux-gnu.so", at +0xcdf6 [0x77b7315dddf6]
     Binary file "/usr/lib/libffi.so.8", at +0x7976 [0x77b73158f976]
     Binary file "/usr/lib/libffi.so.8", at +0x413c [0x77b73158c13c]
     Binary file "/usr/lib/libffi.so.8", at ffi_call+0x12e [0x77b73158ef0e]
     Binary file "/opt/python/build/lib.linux-x86_64-3.14/_ctypes.cpython-314d-x86_64-linux-gnu.so", at +0x15a33 [0x77b7315e6a33]
     Binary file "/opt/python/build/lib.linux-x86_64-3.14/_ctypes.cpython-314d-x86_64-linux-gnu.so", at +0x164fa [0x77b7315e74fa]
     Binary file "/opt/python/build/lib.linux-x86_64-3.14/_ctypes.cpython-314d-x86_64-linux-gnu.so", at +0xc624 [0x77b7315dd624]
     Binary file "/opt/python/python", at _PyObject_MakeTpCall+0xce [0x5b27f7b73883]
     Binary file "/opt/python/python", at +0x11bab6 [0x5b27f7b73ab6]
     Binary file "/opt/python/python", at PyObject_Vectorcall+0x23 [0x5b27f7b73b04]
     Binary file "/opt/python/python", at _PyEval_EvalFrameDefault+0x490c [0x5b27f7cbb302]
     Binary file "/opt/python/python", at +0x2818e6 [0x5b27f7cd98e6]
     Binary file "/opt/python/python", at +0x281aab [0x5b27f7cd9aab]
     Binary file "/opt/python/python", at PyEval_EvalCode+0xc5 [0x5b27f7cd9ba3]
     Binary file "/opt/python/python", at +0x255957 [0x5b27f7cad957]
     Binary file "/opt/python/python", at +0x255ab4 [0x5b27f7cadab4]
     Binary file "/opt/python/python", at _PyEval_EvalFrameDefault+0x6c3e [0x5b27f7cbd634]
     Binary file "/opt/python/python", at +0x2818e6 [0x5b27f7cd98e6]
     Binary file "/opt/python/python", at +0x281aab [0x5b27f7cd9aab]
     Binary file "/opt/python/python", at +0x11b6e1 [0x5b27f7b736e1]
     Binary file "/opt/python/python", at +0x11d348 [0x5b27f7b75348]
     Binary file "/opt/python/python", at +0x11d626 [0x5b27f7b75626]
     Binary file "/opt/python/python", at PyObject_Call+0x20 [0x5b27f7b7565e]
     Binary file "/opt/python/python", at +0x32a67a [0x5b27f7d8267a]
     Binary file "/opt/python/python", at +0x32a7f8 [0x5b27f7d827f8]
     Binary file "/opt/python/python", at +0x32ac1b [0x5b27f7d82c1b]
     Binary file "/opt/python/python", at Py_RunMain+0x31 [0x5b27f7d82ebe]
     <truncated rest of calls>
   Segmentation fault
