Mercurial > hg-stable
view mercurial/utils/procutil.py @ 45540:4f11a67a12fb
hg-core: add `Revlog.get_node_rev`
Find the revision of a node given its full hash.
Differential Revision: https://phab.mercurial-scm.org/D9012
author | Antoine Cezar <antoine.cezar@octobus.net> |
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date | Fri, 18 Sep 2020 16:52:08 +0200 |
parents | a37f290a7124 |
children | fdd54a876213 37c65704869d |
line wrap: on
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# procutil.py - utility for managing processes and executable environment # # Copyright 2005 K. Thananchayan <thananck@yahoo.com> # Copyright 2005-2007 Matt Mackall <mpm@selenic.com> # Copyright 2006 Vadim Gelfer <vadim.gelfer@gmail.com> # # This software may be used and distributed according to the terms of the # GNU General Public License version 2 or any later version. from __future__ import absolute_import import contextlib import errno import io import os import signal import subprocess import sys import threading import time from ..i18n import _ from ..pycompat import ( getattr, open, ) from .. import ( encoding, error, policy, pycompat, ) # Import like this to keep import-checker happy from ..utils import resourceutil osutil = policy.importmod('osutil') if pycompat.iswindows: from .. import windows as platform else: from .. import posix as platform def isatty(fp): try: return fp.isatty() except AttributeError: return False class LineBufferedWrapper(object): def __init__(self, orig): self.orig = orig def __getattr__(self, attr): return getattr(self.orig, attr) def write(self, s): orig = self.orig res = orig.write(s) if s.endswith(b'\n'): orig.flush() return res io.BufferedIOBase.register(LineBufferedWrapper) def make_line_buffered(stream): if pycompat.ispy3 and not isinstance(stream, io.BufferedIOBase): # On Python 3, buffered streams can be expected to subclass # BufferedIOBase. This is definitively the case for the streams # initialized by the interpreter. For unbuffered streams, we don't need # to emulate line buffering. return stream if isinstance(stream, LineBufferedWrapper): return stream return LineBufferedWrapper(stream) class WriteAllWrapper(object): def __init__(self, orig): self.orig = orig def __getattr__(self, attr): return getattr(self.orig, attr) def write(self, s): write1 = self.orig.write m = memoryview(s) total_to_write = len(s) total_written = 0 while total_written < total_to_write: total_written += write1(m[total_written:]) return total_written io.IOBase.register(WriteAllWrapper) def _make_write_all(stream): assert pycompat.ispy3 if isinstance(stream, WriteAllWrapper): return stream if isinstance(stream, io.BufferedIOBase): # The io.BufferedIOBase.write() contract guarantees that all data is # written. return stream # In general, the write() method of streams is free to write only part of # the data. return WriteAllWrapper(stream) if pycompat.ispy3: # Python 3 implements its own I/O streams. # TODO: .buffer might not exist if std streams were replaced; we'll need # a silly wrapper to make a bytes stream backed by a unicode one. stdin = sys.stdin.buffer stdout = _make_write_all(sys.stdout.buffer) stderr = _make_write_all(sys.stderr.buffer) if pycompat.iswindows: # Work around Windows bugs. stdout = platform.winstdout(stdout) stderr = platform.winstdout(stderr) if isatty(stdout): # The standard library doesn't offer line-buffered binary streams. stdout = make_line_buffered(stdout) else: # Python 2 uses the I/O streams provided by the C library. stdin = sys.stdin stdout = sys.stdout stderr = sys.stderr if pycompat.iswindows: # Work around Windows bugs. stdout = platform.winstdout(stdout) stderr = platform.winstdout(stderr) if isatty(stdout): if pycompat.iswindows: # The Windows C runtime library doesn't support line buffering. stdout = make_line_buffered(stdout) else: # glibc determines buffering on first write to stdout - if we # replace a TTY destined stdout with a pipe destined stdout (e.g. # pager), we want line buffering. stdout = os.fdopen(stdout.fileno(), 'wb', 1) findexe = platform.findexe _gethgcmd = platform.gethgcmd getuser = platform.getuser getpid = os.getpid hidewindow = platform.hidewindow readpipe = platform.readpipe setbinary = platform.setbinary setsignalhandler = platform.setsignalhandler shellquote = platform.shellquote shellsplit = platform.shellsplit spawndetached = platform.spawndetached sshargs = platform.sshargs testpid = platform.testpid try: setprocname = osutil.setprocname except AttributeError: pass try: unblocksignal = osutil.unblocksignal except AttributeError: pass closefds = pycompat.isposix def explainexit(code): """return a message describing a subprocess status (codes from kill are negative - not os.system/wait encoding)""" if code >= 0: return _(b"exited with status %d") % code return _(b"killed by signal %d") % -code class _pfile(object): """File-like wrapper for a stream opened by subprocess.Popen()""" def __init__(self, proc, fp): self._proc = proc self._fp = fp def close(self): # unlike os.popen(), this returns an integer in subprocess coding self._fp.close() return self._proc.wait() def __iter__(self): return iter(self._fp) def __getattr__(self, attr): return getattr(self._fp, attr) def __enter__(self): return self def __exit__(self, exc_type, exc_value, exc_tb): self.close() def popen(cmd, mode=b'rb', bufsize=-1): if mode == b'rb': return _popenreader(cmd, bufsize) elif mode == b'wb': return _popenwriter(cmd, bufsize) raise error.ProgrammingError(b'unsupported mode: %r' % mode) def _popenreader(cmd, bufsize): p = subprocess.Popen( tonativestr(cmd), shell=True, bufsize=bufsize, close_fds=closefds, stdout=subprocess.PIPE, ) return _pfile(p, p.stdout) def _popenwriter(cmd, bufsize): p = subprocess.Popen( tonativestr(cmd), shell=True, bufsize=bufsize, close_fds=closefds, stdin=subprocess.PIPE, ) return _pfile(p, p.stdin) def popen2(cmd, env=None): # Setting bufsize to -1 lets the system decide the buffer size. # The default for bufsize is 0, meaning unbuffered. This leads to # poor performance on Mac OS X: http://bugs.python.org/issue4194 p = subprocess.Popen( tonativestr(cmd), shell=True, bufsize=-1, close_fds=closefds, stdin=subprocess.PIPE, stdout=subprocess.PIPE, env=tonativeenv(env), ) return p.stdin, p.stdout def popen3(cmd, env=None): stdin, stdout, stderr, p = popen4(cmd, env) return stdin, stdout, stderr def popen4(cmd, env=None, bufsize=-1): p = subprocess.Popen( tonativestr(cmd), shell=True, bufsize=bufsize, close_fds=closefds, stdin=subprocess.PIPE, stdout=subprocess.PIPE, stderr=subprocess.PIPE, env=tonativeenv(env), ) return p.stdin, p.stdout, p.stderr, p def pipefilter(s, cmd): '''filter string S through command CMD, returning its output''' p = subprocess.Popen( tonativestr(cmd), shell=True, close_fds=closefds, stdin=subprocess.PIPE, stdout=subprocess.PIPE, ) pout, perr = p.communicate(s) return pout def tempfilter(s, cmd): '''filter string S through a pair of temporary files with CMD. CMD is used as a template to create the real command to be run, with the strings INFILE and OUTFILE replaced by the real names of the temporary files generated.''' inname, outname = None, None try: infd, inname = pycompat.mkstemp(prefix=b'hg-filter-in-') fp = os.fdopen(infd, 'wb') fp.write(s) fp.close() outfd, outname = pycompat.mkstemp(prefix=b'hg-filter-out-') os.close(outfd) cmd = cmd.replace(b'INFILE', inname) cmd = cmd.replace(b'OUTFILE', outname) code = system(cmd) if pycompat.sysplatform == b'OpenVMS' and code & 1: code = 0 if code: raise error.Abort( _(b"command '%s' failed: %s") % (cmd, explainexit(code)) ) with open(outname, b'rb') as fp: return fp.read() finally: try: if inname: os.unlink(inname) except OSError: pass try: if outname: os.unlink(outname) except OSError: pass _filtertable = { b'tempfile:': tempfilter, b'pipe:': pipefilter, } def filter(s, cmd): """filter a string through a command that transforms its input to its output""" for name, fn in pycompat.iteritems(_filtertable): if cmd.startswith(name): return fn(s, cmd[len(name) :].lstrip()) return pipefilter(s, cmd) _hgexecutable = None def hgexecutable(): """return location of the 'hg' executable. Defaults to $HG or 'hg' in the search path. """ if _hgexecutable is None: hg = encoding.environ.get(b'HG') mainmod = sys.modules['__main__'] if hg: _sethgexecutable(hg) elif resourceutil.mainfrozen(): if getattr(sys, 'frozen', None) == 'macosx_app': # Env variable set by py2app _sethgexecutable(encoding.environ[b'EXECUTABLEPATH']) else: _sethgexecutable(pycompat.sysexecutable) elif ( not pycompat.iswindows and os.path.basename(getattr(mainmod, '__file__', '')) == 'hg' ): _sethgexecutable(pycompat.fsencode(mainmod.__file__)) else: _sethgexecutable( findexe(b'hg') or os.path.basename(pycompat.sysargv[0]) ) return _hgexecutable def _sethgexecutable(path): """set location of the 'hg' executable""" global _hgexecutable _hgexecutable = path def _testfileno(f, stdf): fileno = getattr(f, 'fileno', None) try: return fileno and fileno() == stdf.fileno() except io.UnsupportedOperation: return False # fileno() raised UnsupportedOperation def isstdin(f): return _testfileno(f, sys.__stdin__) def isstdout(f): return _testfileno(f, sys.__stdout__) def protectstdio(uin, uout): """Duplicate streams and redirect original if (uin, uout) are stdio If uin is stdin, it's redirected to /dev/null. If uout is stdout, it's redirected to stderr so the output is still readable. Returns (fin, fout) which point to the original (uin, uout) fds, but may be copy of (uin, uout). The returned streams can be considered "owned" in that print(), exec(), etc. never reach to them. """ uout.flush() fin, fout = uin, uout if _testfileno(uin, stdin): newfd = os.dup(uin.fileno()) nullfd = os.open(os.devnull, os.O_RDONLY) os.dup2(nullfd, uin.fileno()) os.close(nullfd) fin = os.fdopen(newfd, 'rb') if _testfileno(uout, stdout): newfd = os.dup(uout.fileno()) os.dup2(stderr.fileno(), uout.fileno()) fout = os.fdopen(newfd, 'wb') return fin, fout def restorestdio(uin, uout, fin, fout): """Restore (uin, uout) streams from possibly duplicated (fin, fout)""" uout.flush() for f, uif in [(fin, uin), (fout, uout)]: if f is not uif: os.dup2(f.fileno(), uif.fileno()) f.close() def shellenviron(environ=None): """return environ with optional override, useful for shelling out""" def py2shell(val): """convert python object into string that is useful to shell""" if val is None or val is False: return b'0' if val is True: return b'1' return pycompat.bytestr(val) env = dict(encoding.environ) if environ: env.update((k, py2shell(v)) for k, v in pycompat.iteritems(environ)) env[b'HG'] = hgexecutable() return env if pycompat.iswindows: def shelltonative(cmd, env): return platform.shelltocmdexe( # pytype: disable=module-attr cmd, shellenviron(env) ) tonativestr = encoding.strfromlocal else: def shelltonative(cmd, env): return cmd tonativestr = pycompat.identity def tonativeenv(env): '''convert the environment from bytes to strings suitable for Popen(), etc. ''' return pycompat.rapply(tonativestr, env) def system(cmd, environ=None, cwd=None, out=None): '''enhanced shell command execution. run with environment maybe modified, maybe in different dir. if out is specified, it is assumed to be a file-like object that has a write() method. stdout and stderr will be redirected to out.''' try: stdout.flush() except Exception: pass env = shellenviron(environ) if out is None or isstdout(out): rc = subprocess.call( tonativestr(cmd), shell=True, close_fds=closefds, env=tonativeenv(env), cwd=pycompat.rapply(tonativestr, cwd), ) else: proc = subprocess.Popen( tonativestr(cmd), shell=True, close_fds=closefds, env=tonativeenv(env), cwd=pycompat.rapply(tonativestr, cwd), stdout=subprocess.PIPE, stderr=subprocess.STDOUT, ) for line in iter(proc.stdout.readline, b''): out.write(line) proc.wait() rc = proc.returncode if pycompat.sysplatform == b'OpenVMS' and rc & 1: rc = 0 return rc _is_gui = None def _gui(): '''Are we running in a GUI?''' if pycompat.isdarwin: if b'SSH_CONNECTION' in encoding.environ: # handle SSH access to a box where the user is logged in return False elif getattr(osutil, 'isgui', None): # check if a CoreGraphics session is available return osutil.isgui() else: # pure build; use a safe default return True else: return pycompat.iswindows or encoding.environ.get(b"DISPLAY") def gui(): global _is_gui if _is_gui is None: _is_gui = _gui() return _is_gui def hgcmd(): """Return the command used to execute current hg This is different from hgexecutable() because on Windows we want to avoid things opening new shell windows like batch files, so we get either the python call or current executable. """ if resourceutil.mainfrozen(): if getattr(sys, 'frozen', None) == 'macosx_app': # Env variable set by py2app return [encoding.environ[b'EXECUTABLEPATH']] else: return [pycompat.sysexecutable] return _gethgcmd() def rundetached(args, condfn): """Execute the argument list in a detached process. condfn is a callable which is called repeatedly and should return True once the child process is known to have started successfully. At this point, the child process PID is returned. If the child process fails to start or finishes before condfn() evaluates to True, return -1. """ # Windows case is easier because the child process is either # successfully starting and validating the condition or exiting # on failure. We just poll on its PID. On Unix, if the child # process fails to start, it will be left in a zombie state until # the parent wait on it, which we cannot do since we expect a long # running process on success. Instead we listen for SIGCHLD telling # us our child process terminated. terminated = set() def handler(signum, frame): terminated.add(os.wait()) prevhandler = None SIGCHLD = getattr(signal, 'SIGCHLD', None) if SIGCHLD is not None: prevhandler = signal.signal(SIGCHLD, handler) try: pid = spawndetached(args) while not condfn(): if (pid in terminated or not testpid(pid)) and not condfn(): return -1 time.sleep(0.1) return pid finally: if prevhandler is not None: signal.signal(signal.SIGCHLD, prevhandler) @contextlib.contextmanager def uninterruptible(warn): """Inhibit SIGINT handling on a region of code. Note that if this is called in a non-main thread, it turns into a no-op. Args: warn: A callable which takes no arguments, and returns True if the previous signal handling should be restored. """ oldsiginthandler = [signal.getsignal(signal.SIGINT)] shouldbail = [] def disabledsiginthandler(*args): if warn(): 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 if pycompat.iswindows: # no fork on Windows, but we can create a detached process # https://msdn.microsoft.com/en-us/library/windows/desktop/ms684863.aspx # No stdlib constant exists for this value DETACHED_PROCESS = 0x00000008 # Following creation flags might create a console GUI window. # Using subprocess.CREATE_NEW_CONSOLE might helps. # See https://phab.mercurial-scm.org/D1701 for discussion _creationflags = ( DETACHED_PROCESS | subprocess.CREATE_NEW_PROCESS_GROUP # pytype: disable=module-attr ) def runbgcommand( script, env, shell=False, stdout=None, stderr=None, ensurestart=True, record_wait=None, ): '''Spawn a command without waiting for it to finish.''' # we can't use close_fds *and* redirect stdin. I'm not sure that we # need to because the detached process has no console connection. p = subprocess.Popen( tonativestr(script), shell=shell, env=tonativeenv(env), close_fds=True, creationflags=_creationflags, stdout=stdout, stderr=stderr, ) if record_wait is not None: record_wait(p.wait) else: def runbgcommand( cmd, env, shell=False, stdout=None, stderr=None, ensurestart=True, record_wait=None, ): '''Spawn a command without waiting for it to finish. When `record_wait` is not None, the spawned process will not be fully detached and the `record_wait` argument will be called with a the `Subprocess.wait` function for the spawned process. This is mostly useful for developers that need to make sure the spawned process finished before a certain point. (eg: writing test)''' if pycompat.isdarwin: # avoid crash in CoreFoundation in case another thread # calls gui() while we're calling fork(). gui() # double-fork to completely detach from the parent process # based on http://code.activestate.com/recipes/278731 if record_wait is None: pid = os.fork() if pid: if not ensurestart: # Even though we're not waiting on the child process, # we still must call waitpid() on it at some point so # it's not a zombie/defunct. This is especially relevant for # chg since the parent process won't die anytime soon. # We use a thread to make the overhead tiny. def _do_wait(): os.waitpid(pid, 0) t = threading.Thread(target=_do_wait) t.daemon = True t.start() return # Parent process (_pid, status) = os.waitpid(pid, 0) if os.WIFEXITED(status): returncode = os.WEXITSTATUS(status) else: returncode = -(os.WTERMSIG(status)) if returncode != 0: # The child process's return code is 0 on success, an errno # value on failure, or 255 if we don't have a valid errno # value. # # (It would be slightly nicer to return the full exception info # over a pipe as the subprocess module does. For now it # doesn't seem worth adding that complexity here, though.) if returncode == 255: returncode = errno.EINVAL raise OSError( returncode, b'error running %r: %s' % (cmd, os.strerror(returncode)), ) return returncode = 255 try: if record_wait is None: # Start a new session os.setsid() stdin = open(os.devnull, b'r') if stdout is None: stdout = open(os.devnull, b'w') if stderr is None: stderr = open(os.devnull, b'w') # connect stdin to devnull to make sure the subprocess can't # muck up that stream for mercurial. p = subprocess.Popen( cmd, shell=shell, env=env, close_fds=True, stdin=stdin, stdout=stdout, stderr=stderr, ) if record_wait is not None: record_wait(p.wait) returncode = 0 except EnvironmentError as ex: returncode = ex.errno & 0xFF if returncode == 0: # This shouldn't happen, but just in case make sure the # return code is never 0 here. returncode = 255 except Exception: returncode = 255 finally: # mission accomplished, this child needs to exit and not # continue the hg process here. if record_wait is None: os._exit(returncode)