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[chromium-blink-merge.git] / third_party / pexpect / pexpect.py
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1 """Pexpect is a Python module for spawning child applications and controlling
2 them automatically. Pexpect can be used for automating interactive applications
3 such as ssh, ftp, passwd, telnet, etc. It can be used to a automate setup
4 scripts for duplicating software package installations on different servers. It
5 can be used for automated software testing. Pexpect is in the spirit of Don
6 Libes' Expect, but Pexpect is pure Python. Other Expect-like modules for Python
7 require TCL and Expect or require C extensions to be compiled. Pexpect does not
8 use C, Expect, or TCL extensions. It should work on any platform that supports
9 the standard Python pty module. The Pexpect interface focuses on ease of use so
10 that simple tasks are easy.
12 There are two main interfaces to the Pexpect system; these are the function,
13 run() and the class, spawn. The spawn class is more powerful. The run()
14 function is simpler than spawn, and is good for quickly calling program. When
15 you call the run() function it executes a given program and then returns the
16 output. This is a handy replacement for os.system().
18 For example::
20 pexpect.run('ls -la')
22 The spawn class is the more powerful interface to the Pexpect system. You can
23 use this to spawn a child program then interact with it by sending input and
24 expecting responses (waiting for patterns in the child's output).
26 For example::
28 child = pexpect.spawn('scp foo user@example.com:.')
29 child.expect('Password:')
30 child.sendline(mypassword)
32 This works even for commands that ask for passwords or other input outside of
33 the normal stdio streams. For example, ssh reads input directly from the TTY
34 device which bypasses stdin.
36 Credits: Noah Spurrier, Richard Holden, Marco Molteni, Kimberley Burchett,
37 Robert Stone, Hartmut Goebel, Chad Schroeder, Erick Tryzelaar, Dave Kirby, Ids
38 vander Molen, George Todd, Noel Taylor, Nicolas D. Cesar, Alexander Gattin,
39 Jacques-Etienne Baudoux, Geoffrey Marshall, Francisco Lourenco, Glen Mabey,
40 Karthik Gurusamy, Fernando Perez, Corey Minyard, Jon Cohen, Guillaume
41 Chazarain, Andrew Ryan, Nick Craig-Wood, Andrew Stone, Jorgen Grahn, John
42 Spiegel, Jan Grant, and Shane Kerr. Let me know if I forgot anyone.
44 Pexpect is free, open source, and all that good stuff.
45 http://pexpect.sourceforge.net/
47 PEXPECT LICENSE
49 This license is approved by the OSI and FSF as GPL-compatible.
50 http://opensource.org/licenses/isc-license.txt
52 Copyright (c) 2012, Noah Spurrier <noah@noah.org>
53 PERMISSION TO USE, COPY, MODIFY, AND/OR DISTRIBUTE THIS SOFTWARE FOR ANY
54 PURPOSE WITH OR WITHOUT FEE IS HEREBY GRANTED, PROVIDED THAT THE ABOVE
55 COPYRIGHT NOTICE AND THIS PERMISSION NOTICE APPEAR IN ALL COPIES.
56 THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
57 WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
58 MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
59 ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
60 WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
61 ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
62 OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
64 """
66 try:
67 import os
68 import sys
69 import time
70 import select
71 import string
72 import re
73 import struct
74 import resource
75 import types
76 import pty
77 import tty
78 import termios
79 import fcntl
80 import errno
81 import traceback
82 import signal
83 except ImportError as e:
84 raise ImportError(str(e) + """
86 A critical module was not found. Probably this operating system does not
87 support it. Pexpect is intended for UNIX-like operating systems.""")
89 __version__ = '2.6'
90 __revision__ = '1'
91 __all__ = ['ExceptionPexpect', 'EOF', 'TIMEOUT', 'spawn', 'run', 'which',
92 'split_command_line', '__version__', '__revision__']
95 # Exception classes used by this module.
96 class ExceptionPexpect(Exception):
98 """Base class for all exceptions raised by this module.
99 """
101 def __init__(self, value):
103 self.value = value
105 def __str__(self):
107 return str(self.value)
109 def get_trace(self):
111 """This returns an abbreviated stack trace with lines that only concern
112 the caller. In other words, the stack trace inside the Pexpect module
113 is not included. """
115 tblist = traceback.extract_tb(sys.exc_info()[2])
116 #tblist = filter(self.__filter_not_pexpect, tblist)
117 tblist = [item for item in tblist if self.__filter_not_pexpect(item)]
118 tblist = traceback.format_list(tblist)
119 return ''.join(tblist)
121 def __filter_not_pexpect(self, trace_list_item):
123 """This returns True if list item 0 the string 'pexpect.py' in it. """
125 if trace_list_item[0].find('pexpect.py') == -1:
126 return True
127 else:
128 return False
131 class EOF(ExceptionPexpect):
133 """Raised when EOF is read from a child.
134 This usually means the child has exited."""
137 class TIMEOUT(ExceptionPexpect):
139 """Raised when a read time exceeds the timeout. """
141 ##class TIMEOUT_PATTERN(TIMEOUT):
142 ## """Raised when the pattern match time exceeds the timeout.
143 ## This is different than a read TIMEOUT because the child process may
144 ## give output, thus never give a TIMEOUT, but the output
145 ## may never match a pattern.
146 ## """
147 ##class MAXBUFFER(ExceptionPexpect):
148 ## """Raised when a buffer fills before matching an expected pattern."""
151 def run(command, timeout=-1, withexitstatus=False, events=None,
152 extra_args=None, logfile=None, cwd=None, env=None):
155 This function runs the given command; waits for it to finish; then
156 returns all output as a string. STDERR is included in output. If the full
157 path to the command is not given then the path is searched.
159 Note that lines are terminated by CR/LF (\\r\\n) combination even on
160 UNIX-like systems because this is the standard for pseudottys. If you set
161 'withexitstatus' to true, then run will return a tuple of (command_output,
162 exitstatus). If 'withexitstatus' is false then this returns just
163 command_output.
165 The run() function can often be used instead of creating a spawn instance.
166 For example, the following code uses spawn::
168 from pexpect import *
169 child = spawn('scp foo user@example.com:.')
170 child.expect('(?i)password')
171 child.sendline(mypassword)
173 The previous code can be replace with the following::
175 from pexpect import *
176 run('scp foo user@example.com:.', events={'(?i)password': mypassword})
178 Examples
179 ========
181 Start the apache daemon on the local machine::
183 from pexpect import *
184 run("/usr/local/apache/bin/apachectl start")
186 Check in a file using SVN::
188 from pexpect import *
189 run("svn ci -m 'automatic commit' my_file.py")
191 Run a command and capture exit status::
193 from pexpect import *
194 (command_output, exitstatus) = run('ls -l /bin', withexitstatus=1)
196 Tricky Examples
197 ===============
199 The following will run SSH and execute 'ls -l' on the remote machine. The
200 password 'secret' will be sent if the '(?i)password' pattern is ever seen::
202 run("ssh username@machine.example.com 'ls -l'",
203 events={'(?i)password':'secret\\n'})
205 This will start mencoder to rip a video from DVD. This will also display
206 progress ticks every 5 seconds as it runs. For example::
208 from pexpect import *
209 def print_ticks(d):
210 print d['event_count'],
211 run("mencoder dvd://1 -o video.avi -oac copy -ovc copy",
212 events={TIMEOUT:print_ticks}, timeout=5)
214 The 'events' argument should be a dictionary of patterns and responses.
215 Whenever one of the patterns is seen in the command out run() will send the
216 associated response string. Note that you should put newlines in your
217 string if Enter is necessary. The responses may also contain callback
218 functions. Any callback is function that takes a dictionary as an argument.
219 The dictionary contains all the locals from the run() function, so you can
220 access the child spawn object or any other variable defined in run()
221 (event_count, child, and extra_args are the most useful). A callback may
222 return True to stop the current run process otherwise run() continues until
223 the next event. A callback may also return a string which will be sent to
224 the child. 'extra_args' is not used by directly run(). It provides a way to
225 pass data to a callback function through run() through the locals
226 dictionary passed to a callback. """
228 if timeout == -1:
229 child = spawn(command, maxread=2000, logfile=logfile, cwd=cwd, env=env)
230 else:
231 child = spawn(command, timeout=timeout, maxread=2000, logfile=logfile,
232 cwd=cwd, env=env)
233 if events is not None:
234 patterns = list(events.keys())
235 responses = list(events.values())
236 else:
237 # This assumes EOF or TIMEOUT will eventually cause run to terminate.
238 patterns = None
239 responses = None
240 child_result_list = []
241 event_count = 0
242 while True:
243 try:
244 index = child.expect(patterns)
245 if type(child.after) in types.StringTypes:
246 child_result_list.append(child.before + child.after)
247 else:
248 # child.after may have been a TIMEOUT or EOF,
249 # which we don't want appended to the list.
250 child_result_list.append(child.before)
251 if type(responses[index]) in types.StringTypes:
252 child.send(responses[index])
253 elif isinstance(responses[index], types.FunctionType):
254 callback_result = responses[index](locals())
255 sys.stdout.flush()
256 if type(callback_result) in types.StringTypes:
257 child.send(callback_result)
258 elif callback_result:
259 break
260 else:
261 raise TypeError('The callback must be a string or function.')
262 event_count = event_count + 1
263 except TIMEOUT as e:
264 child_result_list.append(child.before)
265 break
266 except EOF as e:
267 child_result_list.append(child.before)
268 break
269 child_result = ''.join(child_result_list)
270 if withexitstatus:
271 child.close()
272 return (child_result, child.exitstatus)
273 else:
274 return child_result
277 class spawn(object):
279 """This is the main class interface for Pexpect. Use this class to start
280 and control child applications. """
282 def __init__(self, command, args=[], timeout=30, maxread=2000,
283 searchwindowsize=None, logfile=None, cwd=None, env=None):
285 """This is the constructor. The command parameter may be a string that
286 includes a command and any arguments to the command. For example::
288 child = pexpect.spawn('/usr/bin/ftp')
289 child = pexpect.spawn('/usr/bin/ssh user@example.com')
290 child = pexpect.spawn('ls -latr /tmp')
292 You may also construct it with a list of arguments like so::
294 child = pexpect.spawn('/usr/bin/ftp', [])
295 child = pexpect.spawn('/usr/bin/ssh', ['user@example.com'])
296 child = pexpect.spawn('ls', ['-latr', '/tmp'])
298 After this the child application will be created and will be ready to
299 talk to. For normal use, see expect() and send() and sendline().
301 Remember that Pexpect does NOT interpret shell meta characters such as
302 redirect, pipe, or wild cards (>, |, or *). This is a common mistake.
303 If you want to run a command and pipe it through another command then
304 you must also start a shell. For example::
306 child = pexpect.spawn('/bin/bash -c "ls -l | grep LOG > logs.txt"')
307 child.expect(pexpect.EOF)
309 The second form of spawn (where you pass a list of arguments) is useful
310 in situations where you wish to spawn a command and pass it its own
311 argument list. This can make syntax more clear. For example, the
312 following is equivalent to the previous example::
314 shell_cmd = 'ls -l | grep LOG > logs.txt'
315 child = pexpect.spawn('/bin/bash', ['-c', shell_cmd])
316 child.expect(pexpect.EOF)
318 The maxread attribute sets the read buffer size. This is maximum number
319 of bytes that Pexpect will try to read from a TTY at one time. Setting
320 the maxread size to 1 will turn off buffering. Setting the maxread
321 value higher may help performance in cases where large amounts of
322 output are read back from the child. This feature is useful in
323 conjunction with searchwindowsize.
325 The searchwindowsize attribute sets the how far back in the incomming
326 seach buffer Pexpect will search for pattern matches. Every time
327 Pexpect reads some data from the child it will append the data to the
328 incomming buffer. The default is to search from the beginning of the
329 imcomming buffer each time new data is read from the child. But this is
330 very inefficient if you are running a command that generates a large
331 amount of data where you want to match The searchwindowsize does not
332 effect the size of the incomming data buffer. You will still have
333 access to the full buffer after expect() returns.
335 The logfile member turns on or off logging. All input and output will
336 be copied to the given file object. Set logfile to None to stop
337 logging. This is the default. Set logfile to sys.stdout to echo
338 everything to standard output. The logfile is flushed after each write.
340 Example log input and output to a file::
342 child = pexpect.spawn('some_command')
343 fout = file('mylog.txt','w')
344 child.logfile = fout
346 Example log to stdout::
348 child = pexpect.spawn('some_command')
349 child.logfile = sys.stdout
351 The logfile_read and logfile_send members can be used to separately log
352 the input from the child and output sent to the child. Sometimes you
353 don't want to see everything you write to the child. You only want to
354 log what the child sends back. For example::
356 child = pexpect.spawn('some_command')
357 child.logfile_read = sys.stdout
359 To separately log output sent to the child use logfile_send::
361 self.logfile_send = fout
363 The delaybeforesend helps overcome a weird behavior that many users
364 were experiencing. The typical problem was that a user would expect() a
365 "Password:" prompt and then immediately call sendline() to send the
366 password. The user would then see that their password was echoed back
367 to them. Passwords don't normally echo. The problem is caused by the
368 fact that most applications print out the "Password" prompt and then
369 turn off stdin echo, but if you send your password before the
370 application turned off echo, then you get your password echoed.
371 Normally this wouldn't be a problem when interacting with a human at a
372 real keyboard. If you introduce a slight delay just before writing then
373 this seems to clear up the problem. This was such a common problem for
374 many users that I decided that the default pexpect behavior should be
375 to sleep just before writing to the child application. 1/20th of a
376 second (50 ms) seems to be enough to clear up the problem. You can set
377 delaybeforesend to 0 to return to the old behavior. Most Linux machines
378 don't like this to be below 0.03. I don't know why.
380 Note that spawn is clever about finding commands on your path.
381 It uses the same logic that "which" uses to find executables.
383 If you wish to get the exit status of the child you must call the
384 close() method. The exit or signal status of the child will be stored
385 in self.exitstatus or self.signalstatus. If the child exited normally
386 then exitstatus will store the exit return code and signalstatus will
387 be None. If the child was terminated abnormally with a signal then
388 signalstatus will store the signal value and exitstatus will be None.
389 If you need more detail you can also read the self.status member which
390 stores the status returned by os.waitpid. You can interpret this using
391 os.WIFEXITED/os.WEXITSTATUS or os.WIFSIGNALED/os.TERMSIG. """
393 self.STDIN_FILENO = pty.STDIN_FILENO
394 self.STDOUT_FILENO = pty.STDOUT_FILENO
395 self.STDERR_FILENO = pty.STDERR_FILENO
396 self.stdin = sys.stdin
397 self.stdout = sys.stdout
398 self.stderr = sys.stderr
400 self.searcher = None
401 self.ignorecase = False
402 self.before = None
403 self.after = None
404 self.match = None
405 self.match_index = None
406 self.terminated = True
407 self.exitstatus = None
408 self.signalstatus = None
409 # status returned by os.waitpid
410 self.status = None
411 self.flag_eof = False
412 self.pid = None
413 # the chile filedescriptor is initially closed
414 self.child_fd = -1
415 self.timeout = timeout
416 self.delimiter = EOF
417 self.logfile = logfile
418 # input from child (read_nonblocking)
419 self.logfile_read = None
420 # output to send (send, sendline)
421 self.logfile_send = None
422 # max bytes to read at one time into buffer
423 self.maxread = maxread
424 # This is the read buffer. See maxread.
425 self.buffer = ''
426 # Data before searchwindowsize point is preserved, but not searched.
427 self.searchwindowsize = searchwindowsize
428 # Delay used before sending data to child. Time in seconds.
429 # Most Linux machines don't like this to be below 0.03 (30 ms).
430 self.delaybeforesend = 0.05
431 # Used by close() to give kernel time to update process status.
432 # Time in seconds.
433 self.delayafterclose = 0.1
434 # Used by terminate() to give kernel time to update process status.
435 # Time in seconds.
436 self.delayafterterminate = 0.1
437 self.softspace = False
438 self.name = '<' + repr(self) + '>'
439 self.encoding = None
440 self.closed = True
441 self.cwd = cwd
442 self.env = env
443 # This flags if we are running on irix
444 self.__irix_hack = (sys.platform.lower().find('irix') >= 0)
445 # Solaris uses internal __fork_pty(). All others use pty.fork().
446 if ((sys.platform.lower().find('solaris') >= 0)
447 or (sys.platform.lower().find('sunos5') >= 0)):
448 self.use_native_pty_fork = False
449 else:
450 self.use_native_pty_fork = True
452 # Support subclasses that do not use command or args.
453 if command is None:
454 self.command = None
455 self.args = None
456 self.name = '<pexpect factory incomplete>'
457 else:
458 self._spawn(command, args)
460 def __del__(self):
462 """This makes sure that no system resources are left open. Python only
463 garbage collects Python objects. OS file descriptors are not Python
464 objects, so they must be handled explicitly. If the child file
465 descriptor was opened outside of this class (passed to the constructor)
466 then this does not close it. """
468 if not self.closed:
469 # It is possible for __del__ methods to execute during the
470 # teardown of the Python VM itself. Thus self.close() may
471 # trigger an exception because os.close may be None.
472 # -- Fernando Perez
473 try:
474 self.close()
475 except:
476 pass
478 def __str__(self):
480 """This returns a human-readable string that represents the state of
481 the object. """
483 s = []
484 s.append(repr(self))
485 s.append('version: ' + __version__ + ' (' + __revision__ + ')')
486 s.append('command: ' + str(self.command))
487 s.append('args: ' + str(self.args))
488 s.append('searcher: ' + str(self.searcher))
489 s.append('buffer (last 100 chars): ' + str(self.buffer)[-100:])
490 s.append('before (last 100 chars): ' + str(self.before)[-100:])
491 s.append('after: ' + str(self.after))
492 s.append('match: ' + str(self.match))
493 s.append('match_index: ' + str(self.match_index))
494 s.append('exitstatus: ' + str(self.exitstatus))
495 s.append('flag_eof: ' + str(self.flag_eof))
496 s.append('pid: ' + str(self.pid))
497 s.append('child_fd: ' + str(self.child_fd))
498 s.append('closed: ' + str(self.closed))
499 s.append('timeout: ' + str(self.timeout))
500 s.append('delimiter: ' + str(self.delimiter))
501 s.append('logfile: ' + str(self.logfile))
502 s.append('logfile_read: ' + str(self.logfile_read))
503 s.append('logfile_send: ' + str(self.logfile_send))
504 s.append('maxread: ' + str(self.maxread))
505 s.append('ignorecase: ' + str(self.ignorecase))
506 s.append('searchwindowsize: ' + str(self.searchwindowsize))
507 s.append('delaybeforesend: ' + str(self.delaybeforesend))
508 s.append('delayafterclose: ' + str(self.delayafterclose))
509 s.append('delayafterterminate: ' + str(self.delayafterterminate))
510 return '\n'.join(s)
512 def _spawn(self, command, args=[]):
514 """This starts the given command in a child process. This does all the
515 fork/exec type of stuff for a pty. This is called by __init__. If args
516 is empty then command will be parsed (split on spaces) and args will be
517 set to parsed arguments. """
519 # The pid and child_fd of this object get set by this method.
520 # Note that it is difficult for this method to fail.
521 # You cannot detect if the child process cannot start.
522 # So the only way you can tell if the child process started
523 # or not is to try to read from the file descriptor. If you get
524 # EOF immediately then it means that the child is already dead.
525 # That may not necessarily be bad because you may have spawned a child
526 # that performs some task; creates no stdout output; and then dies.
528 # If command is an int type then it may represent a file descriptor.
529 if isinstance(command, type(0)):
530 raise ExceptionPexpect('Command is an int type. ' +
531 'If this is a file descriptor then maybe you want to ' +
532 'use fdpexpect.fdspawn which takes an existing ' +
533 'file descriptor instead of a command string.')
535 if not isinstance(args, type([])):
536 raise TypeError('The argument, args, must be a list.')
538 if args == []:
539 self.args = split_command_line(command)
540 self.command = self.args[0]
541 else:
542 # Make a shallow copy of the args list.
543 self.args = args[:]
544 self.args.insert(0, command)
545 self.command = command
547 command_with_path = which(self.command)
548 if command_with_path is None:
549 raise ExceptionPexpect('The command was not found or was not ' +
550 'executable: %s.' % self.command)
551 self.command = command_with_path
552 self.args[0] = self.command
554 self.name = '<' + ' '.join(self.args) + '>'
556 assert self.pid is None, 'The pid member must be None.'
557 assert self.command is not None, 'The command member must not be None.'
559 if self.use_native_pty_fork:
560 try:
561 self.pid, self.child_fd = pty.fork()
562 except OSError as e:
563 raise ExceptionPexpect('pty.fork() failed: ' + str(e))
564 else:
565 # Use internal __fork_pty
566 self.pid, self.child_fd = self.__fork_pty()
568 if self.pid == 0:
569 # Child
570 try:
571 # used by setwinsize()
572 self.child_fd = sys.stdout.fileno()
573 self.setwinsize(24, 80)
574 except:
575 # Some platforms do not like setwinsize (Cygwin).
576 # This will cause problem when running applications that
577 # are very picky about window size.
578 # This is a serious limitation, but not a show stopper.
579 pass
580 # Do not allow child to inherit open file descriptors from parent.
581 max_fd = resource.getrlimit(resource.RLIMIT_NOFILE)[0]
582 for i in range(3, max_fd):
583 try:
584 os.close(i)
585 except OSError:
586 pass
588 # I don't know why this works, but ignoring SIGHUP fixes a
589 # problem when trying to start a Java daemon with sudo
590 # (specifically, Tomcat).
591 signal.signal(signal.SIGHUP, signal.SIG_IGN)
593 if self.cwd is not None:
594 os.chdir(self.cwd)
595 if self.env is None:
596 os.execv(self.command, self.args)
597 else:
598 os.execvpe(self.command, self.args, self.env)
600 # Parent
601 self.terminated = False
602 self.closed = False
604 def __fork_pty(self):
606 """This implements a substitute for the forkpty system call. This
607 should be more portable than the pty.fork() function. Specifically,
608 this should work on Solaris.
610 Modified 10.06.05 by Geoff Marshall: Implemented __fork_pty() method to
611 resolve the issue with Python's pty.fork() not supporting Solaris,
612 particularly ssh. Based on patch to posixmodule.c authored by Noah
613 Spurrier::
615 http://mail.python.org/pipermail/python-dev/2003-May/035281.html
619 parent_fd, child_fd = os.openpty()
620 if parent_fd < 0 or child_fd < 0:
621 raise ExceptionPexpect("Could not open with os.openpty().")
623 pid = os.fork()
624 if pid < 0:
625 raise ExceptionPexpect("Failed os.fork().")
626 elif pid == 0:
627 # Child.
628 os.close(parent_fd)
629 self.__pty_make_controlling_tty(child_fd)
631 os.dup2(child_fd, 0)
632 os.dup2(child_fd, 1)
633 os.dup2(child_fd, 2)
635 if child_fd > 2:
636 os.close(child_fd)
637 else:
638 # Parent.
639 os.close(child_fd)
641 return pid, parent_fd
643 def __pty_make_controlling_tty(self, tty_fd):
645 """This makes the pseudo-terminal the controlling tty. This should be
646 more portable than the pty.fork() function. Specifically, this should
647 work on Solaris. """
649 child_name = os.ttyname(tty_fd)
651 # Disconnect from controlling tty. Harmless if not already connected.
652 try:
653 fd = os.open("/dev/tty", os.O_RDWR | os.O_NOCTTY)
654 if fd >= 0:
655 os.close(fd)
656 except:
657 # Already disconnected. This happens if running inside cron.
658 pass
660 os.setsid()
662 # Verify we are disconnected from controlling tty
663 # by attempting to open it again.
664 try:
665 fd = os.open("/dev/tty", os.O_RDWR | os.O_NOCTTY)
666 if fd >= 0:
667 os.close(fd)
668 raise ExceptionPexpect('Failed to disconnect from ' +
669 'controlling tty. It is still possible to open /dev/tty.')
670 except:
671 # Good! We are disconnected from a controlling tty.
672 pass
674 # Verify we can open child pty.
675 fd = os.open(child_name, os.O_RDWR)
676 if fd < 0:
677 raise ExceptionPexpect("Could not open child pty, " + child_name)
678 else:
679 os.close(fd)
681 # Verify we now have a controlling tty.
682 fd = os.open("/dev/tty", os.O_WRONLY)
683 if fd < 0:
684 raise ExceptionPexpect("Could not open controlling tty, /dev/tty")
685 else:
686 os.close(fd)
688 def fileno(self):
690 """This returns the file descriptor of the pty for the child.
693 return self.child_fd
695 def close(self, force=True):
697 """This closes the connection with the child application. Note that
698 calling close() more than once is valid. This emulates standard Python
699 behavior with files. Set force to True if you want to make sure that
700 the child is terminated (SIGKILL is sent if the child ignores SIGHUP
701 and SIGINT). """
703 if not self.closed:
704 self.flush()
705 os.close(self.child_fd)
706 # Give kernel time to update process status.
707 time.sleep(self.delayafterclose)
708 if self.isalive():
709 if not self.terminate(force):
710 raise ExceptionPexpect('Could not terminate the child.')
711 self.child_fd = -1
712 self.closed = True
713 #self.pid = None
715 def flush(self):
717 """This does nothing. It is here to support the interface for a
718 File-like object. """
720 pass
722 def isatty(self):
724 """This returns True if the file descriptor is open and connected to a
725 tty(-like) device, else False. """
727 return os.isatty(self.child_fd)
729 def waitnoecho(self, timeout=-1):
731 """This waits until the terminal ECHO flag is set False. This returns
732 True if the echo mode is off. This returns False if the ECHO flag was
733 not set False before the timeout. This can be used to detect when the
734 child is waiting for a password. Usually a child application will turn
735 off echo mode when it is waiting for the user to enter a password. For
736 example, instead of expecting the "password:" prompt you can wait for
737 the child to set ECHO off::
739 p = pexpect.spawn('ssh user@example.com')
740 p.waitnoecho()
741 p.sendline(mypassword)
743 If timeout==-1 then this method will use the value in self.timeout.
744 If timeout==None then this method to block until ECHO flag is False.
747 if timeout == -1:
748 timeout = self.timeout
749 if timeout is not None:
750 end_time = time.time() + timeout
751 while True:
752 if not self.getecho():
753 return True
754 if timeout < 0 and timeout is not None:
755 return False
756 if timeout is not None:
757 timeout = end_time - time.time()
758 time.sleep(0.1)
760 def getecho(self):
762 """This returns the terminal echo mode. This returns True if echo is
763 on or False if echo is off. Child applications that are expecting you
764 to enter a password often set ECHO False. See waitnoecho(). """
766 attr = termios.tcgetattr(self.child_fd)
767 if attr[3] & termios.ECHO:
768 return True
769 return False
771 def setecho(self, state):
773 """This sets the terminal echo mode on or off. Note that anything the
774 child sent before the echo will be lost, so you should be sure that
775 your input buffer is empty before you call setecho(). For example, the
776 following will work as expected::
778 p = pexpect.spawn('cat') # Echo is on by default.
779 p.sendline('1234') # We expect see this twice from the child...
780 p.expect(['1234']) # ... once from the tty echo...
781 p.expect(['1234']) # ... and again from cat itself.
782 p.setecho(False) # Turn off tty echo
783 p.sendline('abcd') # We will set this only once (echoed by cat).
784 p.sendline('wxyz') # We will set this only once (echoed by cat)
785 p.expect(['abcd'])
786 p.expect(['wxyz'])
788 The following WILL NOT WORK because the lines sent before the setecho
789 will be lost::
791 p = pexpect.spawn('cat')
792 p.sendline('1234')
793 p.setecho(False) # Turn off tty echo
794 p.sendline('abcd') # We will set this only once (echoed by cat).
795 p.sendline('wxyz') # We will set this only once (echoed by cat)
796 p.expect(['1234'])
797 p.expect(['1234'])
798 p.expect(['abcd'])
799 p.expect(['wxyz'])
802 self.child_fd
803 attr = termios.tcgetattr(self.child_fd)
804 if state:
805 attr[3] = attr[3] | termios.ECHO
806 else:
807 attr[3] = attr[3] & ~termios.ECHO
808 # I tried TCSADRAIN and TCSAFLUSH, but
809 # these were inconsistent and blocked on some platforms.
810 # TCSADRAIN would probably be ideal if it worked.
811 termios.tcsetattr(self.child_fd, termios.TCSANOW, attr)
813 def read_nonblocking(self, size=1, timeout=-1):
815 """This reads at most size characters from the child application. It
816 includes a timeout. If the read does not complete within the timeout
817 period then a TIMEOUT exception is raised. If the end of file is read
818 then an EOF exception will be raised. If a log file was set using
819 setlog() then all data will also be written to the log file.
821 If timeout is None then the read may block indefinitely.
822 If timeout is -1 then the self.timeout value is used. If timeout is 0
823 then the child is polled and if there is no data immediately ready
824 then this will raise a TIMEOUT exception.
826 The timeout refers only to the amount of time to read at least one
827 character. This is not effected by the 'size' parameter, so if you call
828 read_nonblocking(size=100, timeout=30) and only one character is
829 available right away then one character will be returned immediately.
830 It will not wait for 30 seconds for another 99 characters to come in.
832 This is a wrapper around os.read(). It uses select.select() to
833 implement the timeout. """
835 if self.closed:
836 raise ValueError('I/O operation on closed file.')
838 if timeout == -1:
839 timeout = self.timeout
841 # Note that some systems such as Solaris do not give an EOF when
842 # the child dies. In fact, you can still try to read
843 # from the child_fd -- it will block forever or until TIMEOUT.
844 # For this case, I test isalive() before doing any reading.
845 # If isalive() is false, then I pretend that this is the same as EOF.
846 if not self.isalive():
847 # timeout of 0 means "poll"
848 r, w, e = self.__select([self.child_fd], [], [], 0)
849 if not r:
850 self.flag_eof = True
851 raise EOF('End Of File (EOF). Braindead platform.')
852 elif self.__irix_hack:
853 # Irix takes a long time before it realizes a child was terminated.
854 # FIXME So does this mean Irix systems are forced to always have
855 # FIXME a 2 second delay when calling read_nonblocking? That sucks.
856 r, w, e = self.__select([self.child_fd], [], [], 2)
857 if not r and not self.isalive():
858 self.flag_eof = True
859 raise EOF('End Of File (EOF). Slow platform.')
861 r, w, e = self.__select([self.child_fd], [], [], timeout)
863 if not r:
864 if not self.isalive():
865 # Some platforms, such as Irix, will claim that their
866 # processes are alive; timeout on the select; and
867 # then finally admit that they are not alive.
868 self.flag_eof = True
869 raise EOF('End of File (EOF). Very slow platform.')
870 else:
871 raise TIMEOUT('Timeout exceeded.')
873 if self.child_fd in r:
874 try:
875 s = os.read(self.child_fd, size)
876 except OSError as e:
877 # Linux does this
878 self.flag_eof = True
879 raise EOF('End Of File (EOF). Exception style platform.')
880 if s == '':
881 # BSD style
882 self.flag_eof = True
883 raise EOF('End Of File (EOF). Empty string style platform.')
884 if self.logfile is not None:
885 self.logfile.write(s)
886 self.logfile.flush()
887 if self.logfile_read is not None:
888 self.logfile_read.write(s)
889 self.logfile_read.flush()
890 return s
892 raise ExceptionPexpect('Reached an unexpected state.')
894 def read(self, size=-1):
896 """This reads at most "size" bytes from the file (less if the read hits
897 EOF before obtaining size bytes). If the size argument is negative or
898 omitted, read all data until EOF is reached. The bytes are returned as
899 a string object. An empty string is returned when EOF is encountered
900 immediately. """
902 if size == 0:
903 return ''
904 if size < 0:
905 # delimiter default is EOF
906 self.expect(self.delimiter)
907 return self.before
909 # I could have done this more directly by not using expect(), but
910 # I deliberately decided to couple read() to expect() so that
911 # I would catch any bugs early and ensure consistant behavior.
912 # It's a little less efficient, but there is less for me to
913 # worry about if I have to later modify read() or expect().
914 # Note, it's OK if size==-1 in the regex. That just means it
915 # will never match anything in which case we stop only on EOF.
916 cre = re.compile('.{%d}' % size, re.DOTALL)
917 # delimiter default is EOF
918 index = self.expect([cre, self.delimiter])
919 if index == 0:
920 ### FIXME self.before should be ''. Should I assert this?
921 return self.after
922 return self.before
924 def readline(self, size=-1):
926 """This reads and returns one entire line. The newline at the end of
927 line is returned as part of the string, unless the file ends without a
928 newline. An empty string is returned if EOF is encountered immediately.
929 This looks for a newline as a CR/LF pair (\\r\\n) even on UNIX because
930 this is what the pseudotty device returns. So contrary to what you may
931 expect you will receive newlines as \\r\\n.
933 If the size argument is 0 then an empty string is returned. In all
934 other cases the size argument is ignored, which is not standard
935 behavior for a file-like object. """
937 if size == 0:
938 return ''
939 # delimiter default is EOF
940 index = self.expect(['\r\n', self.delimiter])
941 if index == 0:
942 return self.before + '\r\n'
943 else:
944 return self.before
946 def __iter__(self):
948 """This is to support iterators over a file-like object.
951 return self
953 def __next__(self):
955 """This is to support iterators over a file-like object.
958 result = self.readline()
959 if result == "":
960 raise StopIteration
961 return result
963 def readlines(self, sizehint=-1):
965 """This reads until EOF using readline() and returns a list containing
966 the lines thus read. The optional 'sizehint' argument is ignored. """
968 lines = []
969 while True:
970 line = self.readline()
971 if not line:
972 break
973 lines.append(line)
974 return lines
976 def write(self, s):
978 """This is similar to send() except that there is no return value.
981 self.send(s)
983 def writelines(self, sequence):
985 """This calls write() for each element in the sequence. The sequence
986 can be any iterable object producing strings, typically a list of
987 strings. This does not add line separators There is no return value.
990 for s in sequence:
991 self.write(s)
993 def send(self, s):
995 """This sends a string to the child process. This returns the number of
996 bytes written. If a log file was set then the data is also written to
997 the log. """
999 time.sleep(self.delaybeforesend)
1000 if self.logfile is not None:
1001 self.logfile.write(s)
1002 self.logfile.flush()
1003 if self.logfile_send is not None:
1004 self.logfile_send.write(s)
1005 self.logfile_send.flush()
1006 c = os.write(self.child_fd, s.encode("utf-8"))
1007 return c
1009 def sendline(self, s=''):
1011 """This is like send(), but it adds a linefeed (os.linesep). This
1012 returns the number of bytes written. """
1014 n = self.send(s)
1015 n = n + self.send(os.linesep)
1016 return n
1018 def sendcontrol(self, char):
1020 """This sends a control character to the child such as Ctrl-C or
1021 Ctrl-D. For example, to send a Ctrl-G (ASCII 7)::
1023 child.sendcontrol('g')
1025 See also, sendintr() and sendeof().
1028 char = char.lower()
1029 a = ord(char)
1030 if a >= 97 and a <= 122:
1031 a = a - ord('a') + 1
1032 return self.send(chr(a))
1033 d = {'@': 0, '`': 0,
1034 '[': 27, '{': 27,
1035 '\\': 28, '|': 28,
1036 ']': 29, '}': 29,
1037 '^': 30, '~': 30,
1038 '_': 31,
1039 '?': 127}
1040 if char not in d:
1041 return 0
1042 return self.send(chr(d[char]))
1044 def sendeof(self):
1046 """This sends an EOF to the child. This sends a character which causes
1047 the pending parent output buffer to be sent to the waiting child
1048 program without waiting for end-of-line. If it is the first character
1049 of the line, the read() in the user program returns 0, which signifies
1050 end-of-file. This means to work as expected a sendeof() has to be
1051 called at the beginning of a line. This method does not send a newline.
1052 It is the responsibility of the caller to ensure the eof is sent at the
1053 beginning of a line. """
1055 ### Hmmm... how do I send an EOF?
1056 ###C if ((m = write(pty, *buf, p - *buf)) < 0)
1057 ###C return (errno == EWOULDBLOCK) ? n : -1;
1058 #fd = sys.stdin.fileno()
1059 #old = termios.tcgetattr(fd) # remember current state
1060 #attr = termios.tcgetattr(fd)
1061 #attr[3] = attr[3] | termios.ICANON # ICANON must be set to see EOF
1062 #try: # use try/finally to ensure state gets restored
1063 # termios.tcsetattr(fd, termios.TCSADRAIN, attr)
1064 # if hasattr(termios, 'CEOF'):
1065 # os.write(self.child_fd, '%c' % termios.CEOF)
1066 # else:
1067 # # Silly platform does not define CEOF so assume CTRL-D
1068 # os.write(self.child_fd, '%c' % 4)
1069 #finally: # restore state
1070 # termios.tcsetattr(fd, termios.TCSADRAIN, old)
1071 if hasattr(termios, 'VEOF'):
1072 char = termios.tcgetattr(self.child_fd)[6][termios.VEOF]
1073 else:
1074 # platform does not define VEOF so assume CTRL-D
1075 char = chr(4)
1076 self.send(char)
1078 def sendintr(self):
1080 """This sends a SIGINT to the child. It does not require
1081 the SIGINT to be the first character on a line. """
1083 if hasattr(termios, 'VINTR'):
1084 char = termios.tcgetattr(self.child_fd)[6][termios.VINTR]
1085 else:
1086 # platform does not define VINTR so assume CTRL-C
1087 char = chr(3)
1088 self.send(char)
1090 def eof(self):
1092 """This returns True if the EOF exception was ever raised.
1095 return self.flag_eof
1097 def terminate(self, force=False):
1099 """This forces a child process to terminate. It starts nicely with
1100 SIGHUP and SIGINT. If "force" is True then moves onto SIGKILL. This
1101 returns True if the child was terminated. This returns False if the
1102 child could not be terminated. """
1104 if not self.isalive():
1105 return True
1106 try:
1107 self.kill(signal.SIGHUP)
1108 time.sleep(self.delayafterterminate)
1109 if not self.isalive():
1110 return True
1111 self.kill(signal.SIGCONT)
1112 time.sleep(self.delayafterterminate)
1113 if not self.isalive():
1114 return True
1115 self.kill(signal.SIGINT)
1116 time.sleep(self.delayafterterminate)
1117 if not self.isalive():
1118 return True
1119 if force:
1120 self.kill(signal.SIGKILL)
1121 time.sleep(self.delayafterterminate)
1122 if not self.isalive():
1123 return True
1124 else:
1125 return False
1126 return False
1127 except OSError as e:
1128 # I think there are kernel timing issues that sometimes cause
1129 # this to happen. I think isalive() reports True, but the
1130 # process is dead to the kernel.
1131 # Make one last attempt to see if the kernel is up to date.
1132 time.sleep(self.delayafterterminate)
1133 if not self.isalive():
1134 return True
1135 else:
1136 return False
1138 def wait(self):
1140 """This waits until the child exits. This is a blocking call. This will
1141 not read any data from the child, so this will block forever if the
1142 child has unread output and has terminated. In other words, the child
1143 may have printed output then called exit(), but, the child is
1144 technically still alive until its output is read by the parent. """
1146 if self.isalive():
1147 pid, status = os.waitpid(self.pid, 0)
1148 else:
1149 raise ExceptionPexpect('Cannot wait for dead child process.')
1150 self.exitstatus = os.WEXITSTATUS(status)
1151 if os.WIFEXITED(status):
1152 self.status = status
1153 self.exitstatus = os.WEXITSTATUS(status)
1154 self.signalstatus = None
1155 self.terminated = True
1156 elif os.WIFSIGNALED(status):
1157 self.status = status
1158 self.exitstatus = None
1159 self.signalstatus = os.WTERMSIG(status)
1160 self.terminated = True
1161 elif os.WIFSTOPPED(status):
1162 # You can't call wait() on a child process in the stopped state.
1163 raise ExceptionPexpect('Called wait() on a stopped child ' +
1164 'process. This is not supported. Is some other ' +
1165 'process attempting job control with our child pid?')
1166 return self.exitstatus
1168 def isalive(self):
1170 """This tests if the child process is running or not. This is
1171 non-blocking. If the child was terminated then this will read the
1172 exitstatus or signalstatus of the child. This returns True if the child
1173 process appears to be running or False if not. It can take literally
1174 SECONDS for Solaris to return the right status. """
1176 if self.terminated:
1177 return False
1179 if self.flag_eof:
1180 # This is for Linux, which requires the blocking form
1181 # of waitpid to # get status of a defunct process.
1182 # This is super-lame. The flag_eof would have been set
1183 # in read_nonblocking(), so this should be safe.
1184 waitpid_options = 0
1185 else:
1186 waitpid_options = os.WNOHANG
1188 try:
1189 pid, status = os.waitpid(self.pid, waitpid_options)
1190 except OSError as e:
1191 # No child processes
1192 if e[0] == errno.ECHILD:
1193 raise ExceptionPexpect('isalive() encountered condition ' +
1194 'where "terminated" is 0, but there was no child ' +
1195 'process. Did someone else call waitpid() ' +
1196 'on our process?')
1197 else:
1198 raise e
1200 # I have to do this twice for Solaris.
1201 # I can't even believe that I figured this out...
1202 # If waitpid() returns 0 it means that no child process
1203 # wishes to report, and the value of status is undefined.
1204 if pid == 0:
1205 try:
1206 ### os.WNOHANG) # Solaris!
1207 pid, status = os.waitpid(self.pid, waitpid_options)
1208 except OSError as e:
1209 # This should never happen...
1210 if e[0] == errno.ECHILD:
1211 raise ExceptionPexpect('isalive() encountered condition ' +
1212 'that should never happen. There was no child ' +
1213 'process. Did someone else call waitpid() ' +
1214 'on our process?')
1215 else:
1216 raise e
1218 # If pid is still 0 after two calls to waitpid() then the process
1219 # really is alive. This seems to work on all platforms, except for
1220 # Irix which seems to require a blocking call on waitpid or select,
1221 # so I let read_nonblocking take care of this situation
1222 # (unfortunately, this requires waiting through the timeout).
1223 if pid == 0:
1224 return True
1226 if pid == 0:
1227 return True
1229 if os.WIFEXITED(status):
1230 self.status = status
1231 self.exitstatus = os.WEXITSTATUS(status)
1232 self.signalstatus = None
1233 self.terminated = True
1234 elif os.WIFSIGNALED(status):
1235 self.status = status
1236 self.exitstatus = None
1237 self.signalstatus = os.WTERMSIG(status)
1238 self.terminated = True
1239 elif os.WIFSTOPPED(status):
1240 raise ExceptionPexpect('isalive() encountered condition ' +
1241 'where child process is stopped. This is not ' +
1242 'supported. Is some other process attempting ' +
1243 'job control with our child pid?')
1244 return False
1246 def kill(self, sig):
1248 """This sends the given signal to the child application. In keeping
1249 with UNIX tradition it has a misleading name. It does not necessarily
1250 kill the child unless you send the right signal. """
1252 # Same as os.kill, but the pid is given for you.
1253 if self.isalive():
1254 os.kill(self.pid, sig)
1256 def compile_pattern_list(self, patterns):
1258 """This compiles a pattern-string or a list of pattern-strings.
1259 Patterns must be a StringType, EOF, TIMEOUT, SRE_Pattern, or a list of
1260 those. Patterns may also be None which results in an empty list (you
1261 might do this if waiting for an EOF or TIMEOUT condition without
1262 expecting any pattern).
1264 This is used by expect() when calling expect_list(). Thus expect() is
1265 nothing more than::
1267 cpl = self.compile_pattern_list(pl)
1268 return self.expect_list(cpl, timeout)
1270 If you are using expect() within a loop it may be more
1271 efficient to compile the patterns first and then call expect_list().
1272 This avoid calls in a loop to compile_pattern_list()::
1274 cpl = self.compile_pattern_list(my_pattern)
1275 while some_condition:
1277 i = self.expect_list(clp, timeout)
1281 if patterns is None:
1282 return []
1283 if not isinstance(patterns, list):
1284 patterns = [patterns]
1286 # Allow dot to match \n
1287 compile_flags = re.DOTALL
1288 if self.ignorecase:
1289 compile_flags = compile_flags | re.IGNORECASE
1290 compiled_pattern_list = []
1291 for p in patterns:
1292 if type(p) in types.StringTypes:
1293 compiled_pattern_list.append(re.compile(p, compile_flags))
1294 elif p is EOF:
1295 compiled_pattern_list.append(EOF)
1296 elif p is TIMEOUT:
1297 compiled_pattern_list.append(TIMEOUT)
1298 elif isinstance(p, type(re.compile(''))):
1299 compiled_pattern_list.append(p)
1300 else:
1301 raise TypeError('Argument must be one of StringTypes, ' +
1302 'EOF, TIMEOUT, SRE_Pattern, or a list of those ' +
1303 'type. %s' % str(type(p)))
1305 return compiled_pattern_list
1307 def expect(self, pattern, timeout=-1, searchwindowsize=-1):
1309 """This seeks through the stream until a pattern is matched. The
1310 pattern is overloaded and may take several types. The pattern can be a
1311 StringType, EOF, a compiled re, or a list of any of those types.
1312 Strings will be compiled to re types. This returns the index into the
1313 pattern list. If the pattern was not a list this returns index 0 on a
1314 successful match. This may raise exceptions for EOF or TIMEOUT. To
1315 avoid the EOF or TIMEOUT exceptions add EOF or TIMEOUT to the pattern
1316 list. That will cause expect to match an EOF or TIMEOUT condition
1317 instead of raising an exception.
1319 If you pass a list of patterns and more than one matches, the first
1320 match in the stream is chosen. If more than one pattern matches at that
1321 point, the leftmost in the pattern list is chosen. For example::
1323 # the input is 'foobar'
1324 index = p.expect(['bar', 'foo', 'foobar'])
1325 # returns 1('foo') even though 'foobar' is a "better" match
1327 Please note, however, that buffering can affect this behavior, since
1328 input arrives in unpredictable chunks. For example::
1330 # the input is 'foobar'
1331 index = p.expect(['foobar', 'foo'])
1332 # returns 0('foobar') if all input is available at once,
1333 # but returs 1('foo') if parts of the final 'bar' arrive late
1335 After a match is found the instance attributes 'before', 'after' and
1336 'match' will be set. You can see all the data read before the match in
1337 'before'. You can see the data that was matched in 'after'. The
1338 re.MatchObject used in the re match will be in 'match'. If an error
1339 occurred then 'before' will be set to all the data read so far and
1340 'after' and 'match' will be None.
1342 If timeout is -1 then timeout will be set to the self.timeout value.
1344 A list entry may be EOF or TIMEOUT instead of a string. This will
1345 catch these exceptions and return the index of the list entry instead
1346 of raising the exception. The attribute 'after' will be set to the
1347 exception type. The attribute 'match' will be None. This allows you to
1348 write code like this::
1350 index = p.expect(['good', 'bad', pexpect.EOF, pexpect.TIMEOUT])
1351 if index == 0:
1352 do_something()
1353 elif index == 1:
1354 do_something_else()
1355 elif index == 2:
1356 do_some_other_thing()
1357 elif index == 3:
1358 do_something_completely_different()
1360 instead of code like this::
1362 try:
1363 index = p.expect(['good', 'bad'])
1364 if index == 0:
1365 do_something()
1366 elif index == 1:
1367 do_something_else()
1368 except EOF:
1369 do_some_other_thing()
1370 except TIMEOUT:
1371 do_something_completely_different()
1373 These two forms are equivalent. It all depends on what you want. You
1374 can also just expect the EOF if you are waiting for all output of a
1375 child to finish. For example::
1377 p = pexpect.spawn('/bin/ls')
1378 p.expect(pexpect.EOF)
1379 print p.before
1381 If you are trying to optimize for speed then see expect_list().
1384 compiled_pattern_list = self.compile_pattern_list(pattern)
1385 return self.expect_list(compiled_pattern_list,
1386 timeout, searchwindowsize)
1388 def expect_list(self, pattern_list, timeout=-1, searchwindowsize=-1):
1390 """This takes a list of compiled regular expressions and returns the
1391 index into the pattern_list that matched the child output. The list may
1392 also contain EOF or TIMEOUT(which are not compiled regular
1393 expressions). This method is similar to the expect() method except that
1394 expect_list() does not recompile the pattern list on every call. This
1395 may help if you are trying to optimize for speed, otherwise just use
1396 the expect() method. This is called by expect(). If timeout==-1 then
1397 the self.timeout value is used. If searchwindowsize==-1 then the
1398 self.searchwindowsize value is used. """
1400 return self.expect_loop(searcher_re(pattern_list),
1401 timeout, searchwindowsize)
1403 def expect_exact(self, pattern_list, timeout=-1, searchwindowsize=-1):
1405 """This is similar to expect(), but uses plain string matching instead
1406 of compiled regular expressions in 'pattern_list'. The 'pattern_list'
1407 may be a string; a list or other sequence of strings; or TIMEOUT and
1408 EOF.
1410 This call might be faster than expect() for two reasons: string
1411 searching is faster than RE matching and it is possible to limit the
1412 search to just the end of the input buffer.
1414 This method is also useful when you don't want to have to worry about
1415 escaping regular expression characters that you want to match."""
1417 if (type(pattern_list) in types.StringTypes or
1418 pattern_list in (TIMEOUT, EOF)):
1419 pattern_list = [pattern_list]
1420 return self.expect_loop(searcher_string(pattern_list),
1421 timeout, searchwindowsize)
1423 def expect_loop(self, searcher, timeout=-1, searchwindowsize=-1):
1425 """This is the common loop used inside expect. The 'searcher' should be
1426 an instance of searcher_re or searcher_string, which describes how and
1427 what to search for in the input.
1429 See expect() for other arguments, return value and exceptions. """
1431 self.searcher = searcher
1433 if timeout == -1:
1434 timeout = self.timeout
1435 if timeout is not None:
1436 end_time = time.time() + timeout
1437 if searchwindowsize == -1:
1438 searchwindowsize = self.searchwindowsize
1440 try:
1441 incoming = self.buffer
1442 freshlen = len(incoming)
1443 while True:
1444 # Keep reading until exception or return.
1445 index = searcher.search(incoming, freshlen, searchwindowsize)
1446 if index >= 0:
1447 self.buffer = incoming[searcher.end:]
1448 self.before = incoming[: searcher.start]
1449 self.after = incoming[searcher.start: searcher.end]
1450 self.match = searcher.match
1451 self.match_index = index
1452 return self.match_index
1453 # No match at this point
1454 if timeout < 0 and timeout is not None:
1455 raise TIMEOUT('Timeout exceeded in expect_any().')
1456 # Still have time left, so read more data
1457 c = self.read_nonblocking(self.maxread, timeout)
1458 freshlen = len(c)
1459 time.sleep(0.0001)
1460 incoming = incoming + c
1461 if timeout is not None:
1462 timeout = end_time - time.time()
1463 except EOF as e:
1464 self.buffer = ''
1465 self.before = incoming
1466 self.after = EOF
1467 index = searcher.eof_index
1468 if index >= 0:
1469 self.match = EOF
1470 self.match_index = index
1471 return self.match_index
1472 else:
1473 self.match = None
1474 self.match_index = None
1475 raise EOF(str(e) + '\n' + str(self))
1476 except TIMEOUT as e:
1477 self.buffer = incoming
1478 self.before = incoming
1479 self.after = TIMEOUT
1480 index = searcher.timeout_index
1481 if index >= 0:
1482 self.match = TIMEOUT
1483 self.match_index = index
1484 return self.match_index
1485 else:
1486 self.match = None
1487 self.match_index = None
1488 raise TIMEOUT(str(e) + '\n' + str(self))
1489 except:
1490 self.before = incoming
1491 self.after = None
1492 self.match = None
1493 self.match_index = None
1494 raise
1496 def getwinsize(self):
1498 """This returns the terminal window size of the child tty. The return
1499 value is a tuple of (rows, cols). """
1501 TIOCGWINSZ = getattr(termios, 'TIOCGWINSZ', 1074295912)
1502 s = struct.pack('HHHH', 0, 0, 0, 0)
1503 x = fcntl.ioctl(self.fileno(), TIOCGWINSZ, s)
1504 return struct.unpack('HHHH', x)[0:2]
1506 def setwinsize(self, rows, cols):
1508 """This sets the terminal window size of the child tty. This will cause
1509 a SIGWINCH signal to be sent to the child. This does not change the
1510 physical window size. It changes the size reported to TTY-aware
1511 applications like vi or curses -- applications that respond to the
1512 SIGWINCH signal. """
1514 # Check for buggy platforms. Some Python versions on some platforms
1515 # (notably OSF1 Alpha and RedHat 7.1) truncate the value for
1516 # termios.TIOCSWINSZ. It is not clear why this happens.
1517 # These platforms don't seem to handle the signed int very well;
1518 # yet other platforms like OpenBSD have a large negative value for
1519 # TIOCSWINSZ and they don't have a truncate problem.
1520 # Newer versions of Linux have totally different values for TIOCSWINSZ.
1521 # Note that this fix is a hack.
1522 TIOCSWINSZ = getattr(termios, 'TIOCSWINSZ', -2146929561)
1523 if TIOCSWINSZ == 2148037735:
1524 # Same bits, but with sign.
1525 TIOCSWINSZ = -2146929561
1526 # Note, assume ws_xpixel and ws_ypixel are zero.
1527 s = struct.pack('HHHH', rows, cols, 0, 0)
1528 fcntl.ioctl(self.fileno(), TIOCSWINSZ, s)
1530 def interact(self, escape_character=chr(29),
1531 input_filter=None, output_filter=None):
1533 """This gives control of the child process to the interactive user (the
1534 human at the keyboard). Keystrokes are sent to the child process, and
1535 the stdout and stderr output of the child process is printed. This
1536 simply echos the child stdout and child stderr to the real stdout and
1537 it echos the real stdin to the child stdin. When the user types the
1538 escape_character this method will stop. The default for
1539 escape_character is ^]. This should not be confused with ASCII 27 --
1540 the ESC character. ASCII 29 was chosen for historical merit because
1541 this is the character used by 'telnet' as the escape character. The
1542 escape_character will not be sent to the child process.
1544 You may pass in optional input and output filter functions. These
1545 functions should take a string and return a string. The output_filter
1546 will be passed all the output from the child process. The input_filter
1547 will be passed all the keyboard input from the user. The input_filter
1548 is run BEFORE the check for the escape_character.
1550 Note that if you change the window size of the parent the SIGWINCH
1551 signal will not be passed through to the child. If you want the child
1552 window size to change when the parent's window size changes then do
1553 something like the following example::
1555 import pexpect, struct, fcntl, termios, signal, sys
1556 def sigwinch_passthrough (sig, data):
1557 s = struct.pack("HHHH", 0, 0, 0, 0)
1558 a = struct.unpack('hhhh', fcntl.ioctl(sys.stdout.fileno(),
1559 termios.TIOCGWINSZ , s))
1560 global p
1561 p.setwinsize(a[0],a[1])
1562 # Note this 'p' global and used in sigwinch_passthrough.
1563 p = pexpect.spawn('/bin/bash')
1564 signal.signal(signal.SIGWINCH, sigwinch_passthrough)
1565 p.interact()
1568 # Flush the buffer.
1569 self.stdout.write(self.buffer)
1570 self.stdout.flush()
1571 self.buffer = ''
1572 mode = tty.tcgetattr(self.STDIN_FILENO)
1573 tty.setraw(self.STDIN_FILENO)
1574 try:
1575 self.__interact_copy(escape_character, input_filter, output_filter)
1576 finally:
1577 tty.tcsetattr(self.STDIN_FILENO, tty.TCSAFLUSH, mode)
1579 def __interact_writen(self, fd, data):
1581 """This is used by the interact() method.
1584 while data != '' and self.isalive():
1585 n = os.write(fd, data)
1586 data = data[n:]
1588 def __interact_read(self, fd):
1590 """This is used by the interact() method.
1593 return os.read(fd, 1000)
1595 def __interact_copy(self, escape_character=None,
1596 input_filter=None, output_filter=None):
1598 """This is used by the interact() method.
1601 while self.isalive():
1602 r, w, e = self.__select([self.child_fd, self.STDIN_FILENO], [], [])
1603 if self.child_fd in r:
1604 data = self.__interact_read(self.child_fd)
1605 if output_filter:
1606 data = output_filter(data)
1607 if self.logfile is not None:
1608 self.logfile.write(data)
1609 self.logfile.flush()
1610 os.write(self.STDOUT_FILENO, data)
1611 if self.STDIN_FILENO in r:
1612 data = self.__interact_read(self.STDIN_FILENO)
1613 if input_filter:
1614 data = input_filter(data)
1615 i = data.rfind(escape_character)
1616 if i != -1:
1617 data = data[:i]
1618 self.__interact_writen(self.child_fd, data)
1619 break
1620 self.__interact_writen(self.child_fd, data)
1622 def __select(self, iwtd, owtd, ewtd, timeout=None):
1624 """This is a wrapper around select.select() that ignores signals. If
1625 select.select raises a select.error exception and errno is an EINTR
1626 error then it is ignored. Mainly this is used to ignore sigwinch
1627 (terminal resize). """
1629 # if select() is interrupted by a signal (errno==EINTR) then
1630 # we loop back and enter the select() again.
1631 if timeout is not None:
1632 end_time = time.time() + timeout
1633 while True:
1634 try:
1635 return select.select(iwtd, owtd, ewtd, timeout)
1636 except select.error as e:
1637 if e[0] == errno.EINTR:
1638 # if we loop back we have to subtract the
1639 # amount of time we already waited.
1640 if timeout is not None:
1641 timeout = end_time - time.time()
1642 if timeout < 0:
1643 return([], [], [])
1644 else:
1645 # something else caused the select.error, so
1646 # this actually is an exception.
1647 raise
1649 ##############################################################################
1650 # The following methods are no longer supported or allowed.
1652 def setmaxread(self, maxread):
1654 """This method is no longer supported or allowed. I don't like getters
1655 and setters without a good reason. """
1657 raise ExceptionPexpect('This method is no longer supported ' +
1658 'or allowed. Just assign a value to the ' +
1659 'maxread member variable.')
1661 def setlog(self, fileobject):
1663 """This method is no longer supported or allowed.
1666 raise ExceptionPexpect('This method is no longer supported ' +
1667 'or allowed. Just assign a value to the logfile ' +
1668 'member variable.')
1670 ##############################################################################
1671 # End of spawn class
1672 ##############################################################################
1675 class searcher_string(object):
1677 """This is a plain string search helper for the spawn.expect_any() method.
1678 This helper class is for speed. For more powerful regex patterns
1679 see the helper class, searcher_re.
1681 Attributes:
1683 eof_index - index of EOF, or -1
1684 timeout_index - index of TIMEOUT, or -1
1686 After a successful match by the search() method the following attributes
1687 are available:
1689 start - index into the buffer, first byte of match
1690 end - index into the buffer, first byte after match
1691 match - the matching string itself
1695 def __init__(self, strings):
1697 """This creates an instance of searcher_string. This argument 'strings'
1698 may be a list; a sequence of strings; or the EOF or TIMEOUT types. """
1700 self.eof_index = -1
1701 self.timeout_index = -1
1702 self._strings = []
1703 for n, s in zip(list(range(len(strings))), strings):
1704 if s is EOF:
1705 self.eof_index = n
1706 continue
1707 if s is TIMEOUT:
1708 self.timeout_index = n
1709 continue
1710 self._strings.append((n, s))
1712 def __str__(self):
1714 """This returns a human-readable string that represents the state of
1715 the object."""
1717 ss = [(ns[0], ' %d: "%s"' % ns) for ns in self._strings]
1718 ss.append((-1, 'searcher_string:'))
1719 if self.eof_index >= 0:
1720 ss.append((self.eof_index, ' %d: EOF' % self.eof_index))
1721 if self.timeout_index >= 0:
1722 ss.append((self.timeout_index,
1723 ' %d: TIMEOUT' % self.timeout_index))
1724 ss.sort()
1725 ss = zip(*ss)[1]
1726 return '\n'.join(ss)
1728 def search(self, buffer, freshlen, searchwindowsize=None):
1730 """This searches 'buffer' for the first occurence of one of the search
1731 strings. 'freshlen' must indicate the number of bytes at the end of
1732 'buffer' which have not been searched before. It helps to avoid
1733 searching the same, possibly big, buffer over and over again.
1735 See class spawn for the 'searchwindowsize' argument.
1737 If there is a match this returns the index of that string, and sets
1738 'start', 'end' and 'match'. Otherwise, this returns -1. """
1740 absurd_match = len(buffer)
1741 first_match = absurd_match
1743 # 'freshlen' helps a lot here. Further optimizations could
1744 # possibly include:
1746 # using something like the Boyer-Moore Fast String Searching
1747 # Algorithm; pre-compiling the search through a list of
1748 # strings into something that can scan the input once to
1749 # search for all N strings; realize that if we search for
1750 # ['bar', 'baz'] and the input is '...foo' we need not bother
1751 # rescanning until we've read three more bytes.
1753 # Sadly, I don't know enough about this interesting topic. /grahn
1755 for index, s in self._strings:
1756 if searchwindowsize is None:
1757 # the match, if any, can only be in the fresh data,
1758 # or at the very end of the old data
1759 offset = -(freshlen + len(s))
1760 else:
1761 # better obey searchwindowsize
1762 offset = -searchwindowsize
1763 n = buffer.find(s, offset)
1764 if n >= 0 and n < first_match:
1765 first_match = n
1766 best_index, best_match = index, s
1767 if first_match == absurd_match:
1768 return -1
1769 self.match = best_match
1770 self.start = first_match
1771 self.end = self.start + len(self.match)
1772 return best_index
1775 class searcher_re(object):
1777 """This is regular expression string search helper for the
1778 spawn.expect_any() method. This helper class is for powerful
1779 pattern matching. For speed, see the helper class, searcher_string.
1781 Attributes:
1783 eof_index - index of EOF, or -1
1784 timeout_index - index of TIMEOUT, or -1
1786 After a successful match by the search() method the following attributes
1787 are available:
1789 start - index into the buffer, first byte of match
1790 end - index into the buffer, first byte after match
1791 match - the re.match object returned by a succesful re.search
1795 def __init__(self, patterns):
1797 """This creates an instance that searches for 'patterns' Where
1798 'patterns' may be a list or other sequence of compiled regular
1799 expressions, or the EOF or TIMEOUT types."""
1801 self.eof_index = -1
1802 self.timeout_index = -1
1803 self._searches = []
1804 for n, s in zip(list(range(len(patterns))), patterns):
1805 if s is EOF:
1806 self.eof_index = n
1807 continue
1808 if s is TIMEOUT:
1809 self.timeout_index = n
1810 continue
1811 self._searches.append((n, s))
1813 def __str__(self):
1815 """This returns a human-readable string that represents the state of
1816 the object."""
1818 ss = [(n, ' %d: re.compile("%s")' %
1819 (n, str(s.pattern))) for n, s in self._searches]
1820 ss.append((-1, 'searcher_re:'))
1821 if self.eof_index >= 0:
1822 ss.append((self.eof_index, ' %d: EOF' % self.eof_index))
1823 if self.timeout_index >= 0:
1824 ss.append((self.timeout_index, ' %d: TIMEOUT' %
1825 self.timeout_index))
1826 ss.sort()
1827 ss = zip(*ss)[1]
1828 return '\n'.join(ss)
1830 def search(self, buffer, freshlen, searchwindowsize=None):
1832 """This searches 'buffer' for the first occurence of one of the regular
1833 expressions. 'freshlen' must indicate the number of bytes at the end of
1834 'buffer' which have not been searched before.
1836 See class spawn for the 'searchwindowsize' argument.
1838 If there is a match this returns the index of that string, and sets
1839 'start', 'end' and 'match'. Otherwise, returns -1."""
1841 absurd_match = len(buffer)
1842 first_match = absurd_match
1843 # 'freshlen' doesn't help here -- we cannot predict the
1844 # length of a match, and the re module provides no help.
1845 if searchwindowsize is None:
1846 searchstart = 0
1847 else:
1848 searchstart = max(0, len(buffer) - searchwindowsize)
1849 for index, s in self._searches:
1850 match = s.search(buffer, searchstart)
1851 if match is None:
1852 continue
1853 n = match.start()
1854 if n < first_match:
1855 first_match = n
1856 the_match = match
1857 best_index = index
1858 if first_match == absurd_match:
1859 return -1
1860 self.start = first_match
1861 self.match = the_match
1862 self.end = self.match.end()
1863 return best_index
1866 def which(filename):
1868 """This takes a given filename; tries to find it in the environment path;
1869 then checks if it is executable. This returns the full path to the filename
1870 if found and executable. Otherwise this returns None."""
1872 # Special case where filename contains an explicit path.
1873 if os.path.dirname(filename) != '':
1874 if os.access(filename, os.X_OK):
1875 return filename
1876 if 'PATH' not in os.environ or os.environ['PATH'] == '':
1877 p = os.defpath
1878 else:
1879 p = os.environ['PATH']
1880 pathlist = string.split(p, os.pathsep)
1881 for path in pathlist:
1882 ff = os.path.join(path, filename)
1883 if os.access(ff, os.X_OK):
1884 return ff
1885 return None
1888 def split_command_line(command_line):
1890 """This splits a command line into a list of arguments. It splits arguments
1891 on spaces, but handles embedded quotes, doublequotes, and escaped
1892 characters. It's impossible to do this with a regular expression, so I
1893 wrote a little state machine to parse the command line. """
1895 arg_list = []
1896 arg = ''
1898 # Constants to name the states we can be in.
1899 state_basic = 0
1900 state_esc = 1
1901 state_singlequote = 2
1902 state_doublequote = 3
1903 # The state when consuming whitespace between commands.
1904 state_whitespace = 4
1905 state = state_basic
1907 for c in command_line:
1908 if state == state_basic or state == state_whitespace:
1909 if c == '\\':
1910 # Escape the next character
1911 state = state_esc
1912 elif c == r"'":
1913 # Handle single quote
1914 state = state_singlequote
1915 elif c == r'"':
1916 # Handle double quote
1917 state = state_doublequote
1918 elif c.isspace():
1919 # Add arg to arg_list if we aren't in the middle of whitespace.
1920 if state == state_whitespace:
1921 # Do nothing.
1922 None
1923 else:
1924 arg_list.append(arg)
1925 arg = ''
1926 state = state_whitespace
1927 else:
1928 arg = arg + c
1929 state = state_basic
1930 elif state == state_esc:
1931 arg = arg + c
1932 state = state_basic
1933 elif state == state_singlequote:
1934 if c == r"'":
1935 state = state_basic
1936 else:
1937 arg = arg + c
1938 elif state == state_doublequote:
1939 if c == r'"':
1940 state = state_basic
1941 else:
1942 arg = arg + c
1944 if arg != '':
1945 arg_list.append(arg)
1946 return arg_list
1948 # vi:set sr et ts=4 sw=4 ft=python :