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# procutil.py - utility for managing processes and executable environment
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#
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# Copyright 2005 K. Thananchayan <thananck@yahoo.com>
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# Copyright 2005-2007 Matt Mackall <mpm@selenic.com>
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# Copyright 2006 Vadim Gelfer <vadim.gelfer@gmail.com>
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#
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# This software may be used and distributed according to the terms of the
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# GNU General Public License version 2 or any later version.
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from __future__ import absolute_import
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import contextlib
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import imp
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import io
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import os
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import signal
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import subprocess
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import sys
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import time
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from ..i18n import _
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from .. import (
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encoding,
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error,
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policy,
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pycompat,
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)
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osutil = policy.importmod(r'osutil')
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stderr = pycompat.stderr
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stdin = pycompat.stdin
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stdout = pycompat.stdout
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def isatty(fp):
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try:
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return fp.isatty()
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except AttributeError:
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return False
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# glibc determines buffering on first write to stdout - if we replace a TTY
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# destined stdout with a pipe destined stdout (e.g. pager), we want line
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# buffering (or unbuffered, on Windows)
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if isatty(stdout):
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if pycompat.iswindows:
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# Windows doesn't support line buffering
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stdout = os.fdopen(stdout.fileno(), r'wb', 0)
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else:
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stdout = os.fdopen(stdout.fileno(), r'wb', 1)
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if pycompat.iswindows:
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from .. import windows as platform
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stdout = platform.winstdout(stdout)
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else:
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from .. import posix as platform
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findexe = platform.findexe
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_gethgcmd = platform.gethgcmd
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getuser = platform.getuser
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getpid = os.getpid
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hidewindow = platform.hidewindow
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quotecommand = platform.quotecommand
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readpipe = platform.readpipe
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setbinary = platform.setbinary
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setsignalhandler = platform.setsignalhandler
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shellquote = platform.shellquote
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shellsplit = platform.shellsplit
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spawndetached = platform.spawndetached
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sshargs = platform.sshargs
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testpid = platform.testpid
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try:
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setprocname = osutil.setprocname
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except AttributeError:
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pass
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try:
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unblocksignal = osutil.unblocksignal
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except AttributeError:
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pass
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closefds = pycompat.isposix
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def explainexit(code):
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"""return a message describing a subprocess status
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(codes from kill are negative - not os.system/wait encoding)"""
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if code >= 0:
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return _("exited with status %d") % code
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return _("killed by signal %d") % -code
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class _pfile(object):
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"""File-like wrapper for a stream opened by subprocess.Popen()"""
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def __init__(self, proc, fp):
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self._proc = proc
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self._fp = fp
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def close(self):
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# unlike os.popen(), this returns an integer in subprocess coding
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self._fp.close()
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return self._proc.wait()
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def __iter__(self):
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return iter(self._fp)
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def __getattr__(self, attr):
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return getattr(self._fp, attr)
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def __enter__(self):
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return self
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def __exit__(self, exc_type, exc_value, exc_tb):
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self.close()
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def popen(cmd, mode='rb', bufsize=-1):
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if mode == 'rb':
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return _popenreader(cmd, bufsize)
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elif mode == 'wb':
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return _popenwriter(cmd, bufsize)
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raise error.ProgrammingError('unsupported mode: %r' % mode)
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def _popenreader(cmd, bufsize):
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p = subprocess.Popen(quotecommand(cmd), shell=True, bufsize=bufsize,
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close_fds=closefds,
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stdout=subprocess.PIPE)
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return _pfile(p, p.stdout)
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def _popenwriter(cmd, bufsize):
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p = subprocess.Popen(quotecommand(cmd), shell=True, bufsize=bufsize,
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close_fds=closefds,
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stdin=subprocess.PIPE)
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return _pfile(p, p.stdin)
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def popen2(cmd, env=None):
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# Setting bufsize to -1 lets the system decide the buffer size.
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# The default for bufsize is 0, meaning unbuffered. This leads to
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# poor performance on Mac OS X: http://bugs.python.org/issue4194
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p = subprocess.Popen(cmd, shell=True, bufsize=-1,
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close_fds=closefds,
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stdin=subprocess.PIPE, stdout=subprocess.PIPE,
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env=env)
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return p.stdin, p.stdout
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def popen3(cmd, env=None):
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stdin, stdout, stderr, p = popen4(cmd, env)
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return stdin, stdout, stderr
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def popen4(cmd, env=None, bufsize=-1):
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p = subprocess.Popen(cmd, shell=True, bufsize=bufsize,
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close_fds=closefds,
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stdin=subprocess.PIPE, stdout=subprocess.PIPE,
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stderr=subprocess.PIPE,
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env=env)
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return p.stdin, p.stdout, p.stderr, p
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def pipefilter(s, cmd):
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'''filter string S through command CMD, returning its output'''
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p = subprocess.Popen(cmd, shell=True, close_fds=closefds,
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stdin=subprocess.PIPE, stdout=subprocess.PIPE)
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pout, perr = p.communicate(s)
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return pout
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def tempfilter(s, cmd):
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'''filter string S through a pair of temporary files with CMD.
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CMD is used as a template to create the real command to be run,
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with the strings INFILE and OUTFILE replaced by the real names of
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the temporary files generated.'''
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inname, outname = None, None
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try:
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infd, inname = pycompat.mkstemp(prefix='hg-filter-in-')
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fp = os.fdopen(infd, r'wb')
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fp.write(s)
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fp.close()
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outfd, outname = pycompat.mkstemp(prefix='hg-filter-out-')
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os.close(outfd)
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cmd = cmd.replace('INFILE', inname)
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cmd = cmd.replace('OUTFILE', outname)
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code = system(cmd)
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if pycompat.sysplatform == 'OpenVMS' and code & 1:
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code = 0
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if code:
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raise error.Abort(_("command '%s' failed: %s") %
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(cmd, explainexit(code)))
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with open(outname, 'rb') as fp:
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return fp.read()
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finally:
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try:
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if inname:
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os.unlink(inname)
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except OSError:
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pass
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try:
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if outname:
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os.unlink(outname)
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except OSError:
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pass
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_filtertable = {
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'tempfile:': tempfilter,
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'pipe:': pipefilter,
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}
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def filter(s, cmd):
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"filter a string through a command that transforms its input to its output"
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for name, fn in _filtertable.iteritems():
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if cmd.startswith(name):
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return fn(s, cmd[len(name):].lstrip())
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return pipefilter(s, cmd)
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def mainfrozen():
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"""return True if we are a frozen executable.
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The code supports py2exe (most common, Windows only) and tools/freeze
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(portable, not much used).
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"""
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return (pycompat.safehasattr(sys, "frozen") or # new py2exe
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pycompat.safehasattr(sys, "importers") or # old py2exe
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imp.is_frozen(u"__main__")) # tools/freeze
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_hgexecutable = None
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def hgexecutable():
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"""return location of the 'hg' executable.
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Defaults to $HG or 'hg' in the search path.
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"""
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if _hgexecutable is None:
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hg = encoding.environ.get('HG')
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mainmod = sys.modules[r'__main__']
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if hg:
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_sethgexecutable(hg)
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elif mainfrozen():
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if getattr(sys, 'frozen', None) == 'macosx_app':
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# Env variable set by py2app
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_sethgexecutable(encoding.environ['EXECUTABLEPATH'])
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else:
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_sethgexecutable(pycompat.sysexecutable)
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elif (os.path.basename(
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pycompat.fsencode(getattr(mainmod, '__file__', ''))) == 'hg'):
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_sethgexecutable(pycompat.fsencode(mainmod.__file__))
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else:
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exe = findexe('hg') or os.path.basename(sys.argv[0])
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_sethgexecutable(exe)
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return _hgexecutable
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def _sethgexecutable(path):
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"""set location of the 'hg' executable"""
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global _hgexecutable
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_hgexecutable = path
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def _testfileno(f, stdf):
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fileno = getattr(f, 'fileno', None)
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try:
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return fileno and fileno() == stdf.fileno()
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except io.UnsupportedOperation:
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return False # fileno() raised UnsupportedOperation
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def isstdin(f):
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return _testfileno(f, sys.__stdin__)
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def isstdout(f):
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return _testfileno(f, sys.__stdout__)
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def protectstdio(uin, uout):
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"""Duplicate streams and redirect original if (uin, uout) are stdio
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If uin is stdin, it's redirected to /dev/null. If uout is stdout, it's
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redirected to stderr so the output is still readable.
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Returns (fin, fout) which point to the original (uin, uout) fds, but
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may be copy of (uin, uout). The returned streams can be considered
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"owned" in that print(), exec(), etc. never reach to them.
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"""
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uout.flush()
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fin, fout = uin, uout
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if uin is stdin:
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newfd = os.dup(uin.fileno())
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nullfd = os.open(os.devnull, os.O_RDONLY)
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os.dup2(nullfd, uin.fileno())
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os.close(nullfd)
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fin = os.fdopen(newfd, r'rb')
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if uout is stdout:
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newfd = os.dup(uout.fileno())
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os.dup2(stderr.fileno(), uout.fileno())
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fout = os.fdopen(newfd, r'wb')
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return fin, fout
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def restorestdio(uin, uout, fin, fout):
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"""Restore (uin, uout) streams from possibly duplicated (fin, fout)"""
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uout.flush()
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for f, uif in [(fin, uin), (fout, uout)]:
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if f is not uif:
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os.dup2(f.fileno(), uif.fileno())
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f.close()
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@contextlib.contextmanager
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def protectedstdio(uin, uout):
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"""Run code block with protected standard streams"""
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fin, fout = protectstdio(uin, uout)
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try:
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yield fin, fout
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finally:
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restorestdio(uin, uout, fin, fout)
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def shellenviron(environ=None):
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"""return environ with optional override, useful for shelling out"""
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def py2shell(val):
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'convert python object into string that is useful to shell'
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if val is None or val is False:
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return '0'
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if val is True:
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return '1'
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return pycompat.bytestr(val)
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env = dict(encoding.environ)
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if environ:
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env.update((k, py2shell(v)) for k, v in environ.iteritems())
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env['HG'] = hgexecutable()
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return env
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if pycompat.iswindows:
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def shelltonative(cmd, env):
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return platform.shelltocmdexe(cmd, shellenviron(env))
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else:
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def shelltonative(cmd, env):
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return cmd
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def system(cmd, environ=None, cwd=None, out=None):
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'''enhanced shell command execution.
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run with environment maybe modified, maybe in different dir.
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if out is specified, it is assumed to be a file-like object that has a
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write() method. stdout and stderr will be redirected to out.'''
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try:
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stdout.flush()
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except Exception:
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pass
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cmd = quotecommand(cmd)
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env = shellenviron(environ)
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if out is None or isstdout(out):
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rc = subprocess.call(cmd, shell=True, close_fds=closefds,
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env=env, cwd=cwd)
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else:
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proc = subprocess.Popen(cmd, shell=True, close_fds=closefds,
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env=env, cwd=cwd, stdout=subprocess.PIPE,
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stderr=subprocess.STDOUT)
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for line in iter(proc.stdout.readline, ''):
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out.write(line)
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proc.wait()
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rc = proc.returncode
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if pycompat.sysplatform == 'OpenVMS' and rc & 1:
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rc = 0
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return rc
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def gui():
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'''Are we running in a GUI?'''
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if pycompat.isdarwin:
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if 'SSH_CONNECTION' in encoding.environ:
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# handle SSH access to a box where the user is logged in
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return False
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elif getattr(osutil, 'isgui', None):
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# check if a CoreGraphics session is available
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return osutil.isgui()
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else:
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# pure build; use a safe default
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return True
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else:
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return pycompat.iswindows or encoding.environ.get("DISPLAY")
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def hgcmd():
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"""Return the command used to execute current hg
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This is different from hgexecutable() because on Windows we want
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to avoid things opening new shell windows like batch files, so we
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get either the python call or current executable.
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"""
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if mainfrozen():
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if getattr(sys, 'frozen', None) == 'macosx_app':
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# Env variable set by py2app
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return [encoding.environ['EXECUTABLEPATH']]
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else:
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return [pycompat.sysexecutable]
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return _gethgcmd()
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def rundetached(args, condfn):
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"""Execute the argument list in a detached process.
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condfn is a callable which is called repeatedly and should return
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True once the child process is known to have started successfully.
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At this point, the child process PID is returned. If the child
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process fails to start or finishes before condfn() evaluates to
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True, return -1.
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"""
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# Windows case is easier because the child process is either
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# successfully starting and validating the condition or exiting
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# on failure. We just poll on its PID. On Unix, if the child
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# process fails to start, it will be left in a zombie state until
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# the parent wait on it, which we cannot do since we expect a long
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# running process on success. Instead we listen for SIGCHLD telling
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# us our child process terminated.
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terminated = set()
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def handler(signum, frame):
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terminated.add(os.wait())
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prevhandler = None
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SIGCHLD = getattr(signal, 'SIGCHLD', None)
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if SIGCHLD is not None:
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prevhandler = signal.signal(SIGCHLD, handler)
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try:
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pid = spawndetached(args)
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while not condfn():
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if ((pid in terminated or not testpid(pid))
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and not condfn()):
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return -1
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time.sleep(0.1)
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return pid
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finally:
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if prevhandler is not None:
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signal.signal(signal.SIGCHLD, prevhandler)
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@contextlib.contextmanager
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def uninterruptable(warn):
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"""Inhibit SIGINT handling on a region of code.
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Note that if this is called in a non-main thread, it turns into a no-op.
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Args:
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warn: A callable which takes no arguments, and returns True if the
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previous signal handling should be restored.
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"""
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oldsiginthandler = [signal.getsignal(signal.SIGINT)]
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shouldbail = []
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def disabledsiginthandler(*args):
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if warn():
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signal.signal(signal.SIGINT, oldsiginthandler[0])
|
|
|
del oldsiginthandler[0]
|
|
|
shouldbail.append(True)
|
|
|
|
|
|
try:
|
|
|
try:
|
|
|
signal.signal(signal.SIGINT, disabledsiginthandler)
|
|
|
except ValueError:
|
|
|
# wrong thread, oh well, we tried
|
|
|
del oldsiginthandler[0]
|
|
|
yield
|
|
|
finally:
|
|
|
if oldsiginthandler:
|
|
|
signal.signal(signal.SIGINT, oldsiginthandler[0])
|
|
|
if shouldbail:
|
|
|
raise KeyboardInterrupt
|
|
|
|
