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# -*- test-case-name: twisted.test.test_process -*- # Copyright (c) Twisted Matrix Laboratories. # See LICENSE for details. """ Windows Process Management, used with reactor.spawnProcess """ import os import sys from zope.interface import implementer import pywintypes # Win32 imports import win32api import win32con import win32event import win32file import win32pipe import win32process import win32security from twisted.internet import _pollingfile, error from twisted.internet._baseprocess import BaseProcess from twisted.internet.interfaces import IConsumer, IProcessTransport, IProducer from twisted.python.win32 import quoteArguments # Security attributes for pipes PIPE_ATTRS_INHERITABLE = win32security.SECURITY_ATTRIBUTES() PIPE_ATTRS_INHERITABLE.bInheritHandle = 1 def debug(msg): print(msg) sys.stdout.flush() class _Reaper(_pollingfile._PollableResource): def __init__(self, proc): self.proc = proc def checkWork(self): if ( win32event.WaitForSingleObject(self.proc.hProcess, 0) != win32event.WAIT_OBJECT_0 ): return 0 exitCode = win32process.GetExitCodeProcess(self.proc.hProcess) self.deactivate() self.proc.processEnded(exitCode) return 0 def _findShebang(filename): """ Look for a #! line, and return the value following the #! if one exists, or None if this file is not a script. I don't know if there are any conventions for quoting in Windows shebang lines, so this doesn't support any; therefore, you may not pass any arguments to scripts invoked as filters. That's probably wrong, so if somebody knows more about the cultural expectations on Windows, please feel free to fix. This shebang line support was added in support of the CGI tests; appropriately enough, I determined that shebang lines are culturally accepted in the Windows world through this page:: http://www.cgi101.com/learn/connect/winxp.html @param filename: str representing a filename @return: a str representing another filename. """ with open(filename) as f: if f.read(2) == "#!": exe = f.readline(1024).strip("\n") return exe def _invalidWin32App(pywinerr): """ Determine if a pywintypes.error is telling us that the given process is 'not a valid win32 application', i.e. not a PE format executable. @param pywinerr: a pywintypes.error instance raised by CreateProcess @return: a boolean """ # Let's do this better in the future, but I have no idea what this error # is; MSDN doesn't mention it, and there is no symbolic constant in # win32process module that represents 193. return pywinerr.args[0] == 193 @implementer(IProcessTransport, IConsumer, IProducer) class Process(_pollingfile._PollingTimer, BaseProcess): """ A process that integrates with the Twisted event loop. If your subprocess is a python program, you need to: - Run python.exe with the '-u' command line option - this turns on unbuffered I/O. Buffering stdout/err/in can cause problems, see e.g. http://support.microsoft.com/default.aspx?scid=kb;EN-US;q1903 - If you don't want Windows messing with data passed over stdin/out/err, set the pipes to be in binary mode:: import os, sys, mscvrt msvcrt.setmode(sys.stdin.fileno(), os.O_BINARY) msvcrt.setmode(sys.stdout.fileno(), os.O_BINARY) msvcrt.setmode(sys.stderr.fileno(), os.O_BINARY) """ closedNotifies = 0 def __init__(self, reactor, protocol, command, args, environment, path): """ Create a new child process. """ _pollingfile._PollingTimer.__init__(self, reactor) BaseProcess.__init__(self, protocol) # security attributes for pipes sAttrs = win32security.SECURITY_ATTRIBUTES() sAttrs.bInheritHandle = 1 # create the pipes which will connect to the secondary process self.hStdoutR, hStdoutW = win32pipe.CreatePipe(sAttrs, 0) self.hStderrR, hStderrW = win32pipe.CreatePipe(sAttrs, 0) hStdinR, self.hStdinW = win32pipe.CreatePipe(sAttrs, 0) win32pipe.SetNamedPipeHandleState( self.hStdinW, win32pipe.PIPE_NOWAIT, None, None ) # set the info structure for the new process. StartupInfo = win32process.STARTUPINFO() StartupInfo.hStdOutput = hStdoutW StartupInfo.hStdError = hStderrW StartupInfo.hStdInput = hStdinR StartupInfo.dwFlags = win32process.STARTF_USESTDHANDLES # Create new handles whose inheritance property is false currentPid = win32api.GetCurrentProcess() tmp = win32api.DuplicateHandle( currentPid, self.hStdoutR, currentPid, 0, 0, win32con.DUPLICATE_SAME_ACCESS ) win32file.CloseHandle(self.hStdoutR) self.hStdoutR = tmp tmp = win32api.DuplicateHandle( currentPid, self.hStderrR, currentPid, 0, 0, win32con.DUPLICATE_SAME_ACCESS ) win32file.CloseHandle(self.hStderrR) self.hStderrR = tmp tmp = win32api.DuplicateHandle( currentPid, self.hStdinW, currentPid, 0, 0, win32con.DUPLICATE_SAME_ACCESS ) win32file.CloseHandle(self.hStdinW) self.hStdinW = tmp # Add the specified environment to the current environment - this is # necessary because certain operations are only supported on Windows # if certain environment variables are present. env = os.environ.copy() env.update(environment or {}) env = {os.fsdecode(key): os.fsdecode(value) for key, value in env.items()} # Make sure all the arguments are Unicode. args = [os.fsdecode(x) for x in args] cmdline = quoteArguments(args) # The command, too, needs to be Unicode, if it is a value. command = os.fsdecode(command) if command else command path = os.fsdecode(path) if path else path # TODO: error detection here. See #2787 and #4184. def doCreate(): flags = win32con.CREATE_NO_WINDOW self.hProcess, self.hThread, self.pid, dwTid = win32process.CreateProcess( command, cmdline, None, None, 1, flags, env, path, StartupInfo ) try: doCreate() except pywintypes.error as pwte: if not _invalidWin32App(pwte): # This behavior isn't _really_ documented, but let's make it # consistent with the behavior that is documented. raise OSError(pwte) else: # look for a shebang line. Insert the original 'command' # (actually a script) into the new arguments list. sheb = _findShebang(command) if sheb is None: raise OSError( "%r is neither a Windows executable, " "nor a script with a shebang line" % command ) else: args = list(args) args.insert(0, command) cmdline = quoteArguments(args) origcmd = command command = sheb try: # Let's try again. doCreate() except pywintypes.error as pwte2: # d'oh, failed again! if _invalidWin32App(pwte2): raise OSError( "%r has an invalid shebang line: " "%r is not a valid executable" % (origcmd, sheb) ) raise OSError(pwte2) # close handles which only the child will use win32file.CloseHandle(hStderrW) win32file.CloseHandle(hStdoutW) win32file.CloseHandle(hStdinR) # set up everything self.stdout = _pollingfile._PollableReadPipe( self.hStdoutR, lambda data: self.proto.childDataReceived(1, data), self.outConnectionLost, ) self.stderr = _pollingfile._PollableReadPipe( self.hStderrR, lambda data: self.proto.childDataReceived(2, data), self.errConnectionLost, ) self.stdin = _pollingfile._PollableWritePipe( self.hStdinW, self.inConnectionLost ) for pipewatcher in self.stdout, self.stderr, self.stdin: self._addPollableResource(pipewatcher) # notify protocol self.proto.makeConnection(self) self._addPollableResource(_Reaper(self)) def signalProcess(self, signalID): if self.pid is None: raise error.ProcessExitedAlready() if signalID in ("INT", "TERM", "KILL"): win32process.TerminateProcess(self.hProcess, 1) def _getReason(self, status): if status == 0: return error.ProcessDone(status) return error.ProcessTerminated(status) def write(self, data): """ Write data to the process' stdin. @type data: C{bytes} """ self.stdin.write(data) def writeSequence(self, seq): """ Write data to the process' stdin. @type seq: C{list} of C{bytes} """ self.stdin.writeSequence(seq) def writeToChild(self, fd, data): """ Similar to L{ITransport.write} but also allows the file descriptor in the child process which will receive the bytes to be specified. This implementation is limited to writing to the child's standard input. @param fd: The file descriptor to which to write. Only stdin (C{0}) is supported. @type fd: C{int} @param data: The bytes to write. @type data: C{bytes} @return: L{None} @raise KeyError: If C{fd} is anything other than the stdin file descriptor (C{0}). """ if fd == 0: self.stdin.write(data) else: raise KeyError(fd) def closeChildFD(self, fd): if fd == 0: self.closeStdin() elif fd == 1: self.closeStdout() elif fd == 2: self.closeStderr() else: raise NotImplementedError( "Only standard-IO file descriptors available on win32" ) def closeStdin(self): """Close the process' stdin.""" self.stdin.close() def closeStderr(self): self.stderr.close() def closeStdout(self): self.stdout.close() def loseConnection(self): """ Close the process' stdout, in and err. """ self.closeStdin() self.closeStdout() self.closeStderr() def outConnectionLost(self): self.proto.childConnectionLost(1) self.connectionLostNotify() def errConnectionLost(self): self.proto.childConnectionLost(2) self.connectionLostNotify() def inConnectionLost(self): self.proto.childConnectionLost(0) self.connectionLostNotify() def connectionLostNotify(self): """ Will be called 3 times, by stdout/err threads and process handle. """ self.closedNotifies += 1 self.maybeCallProcessEnded() def maybeCallProcessEnded(self): if self.closedNotifies == 3 and self.lostProcess: win32file.CloseHandle(self.hProcess) win32file.CloseHandle(self.hThread) self.hProcess = None self.hThread = None BaseProcess.maybeCallProcessEnded(self) # IConsumer def registerProducer(self, producer, streaming): self.stdin.registerProducer(producer, streaming) def unregisterProducer(self): self.stdin.unregisterProducer() # IProducer def pauseProducing(self): self._pause() def resumeProducing(self): self._unpause() def stopProducing(self): self.loseConnection() def getHost(self): # ITransport.getHost raise NotImplementedError("Unimplemented: Process.getHost") def getPeer(self): # ITransport.getPeer raise NotImplementedError("Unimplemented: Process.getPeer") def __repr__(self) -> str: """ Return a string representation of the process. """ return f"<{self.__class__.__name__} pid={self.pid}>"