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Add venv

This commit is contained in:
Miguel Nogueira 2019-06-11 22:24:08 +01:00
parent d67462ecfe
commit dde9b24015
619 changed files with 112020 additions and 1 deletions
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.gitignore vendored
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.venv/

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venv/bin/activate Normal file
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# This file must be used with "source bin/activate" *from bash*
# you cannot run it directly
deactivate () {
# reset old environment variables
if [ -n "${_OLD_VIRTUAL_PATH:-}" ] ; then
PATH="${_OLD_VIRTUAL_PATH:-}"
export PATH
unset _OLD_VIRTUAL_PATH
fi
if [ -n "${_OLD_VIRTUAL_PYTHONHOME:-}" ] ; then
PYTHONHOME="${_OLD_VIRTUAL_PYTHONHOME:-}"
export PYTHONHOME
unset _OLD_VIRTUAL_PYTHONHOME
fi
# This should detect bash and zsh, which have a hash command that must
# be called to get it to forget past commands. Without forgetting
# past commands the $PATH changes we made may not be respected
if [ -n "${BASH:-}" -o -n "${ZSH_VERSION:-}" ] ; then
hash -r
fi
if [ -n "${_OLD_VIRTUAL_PS1:-}" ] ; then
PS1="${_OLD_VIRTUAL_PS1:-}"
export PS1
unset _OLD_VIRTUAL_PS1
fi
unset VIRTUAL_ENV
if [ ! "$1" = "nondestructive" ] ; then
# Self destruct!
unset -f deactivate
fi
}
# unset irrelevant variables
deactivate nondestructive
VIRTUAL_ENV="/home/miguel456/PycharmProjects/PythonVPNGateway/venv"
export VIRTUAL_ENV
_OLD_VIRTUAL_PATH="$PATH"
PATH="$VIRTUAL_ENV/bin:$PATH"
export PATH
# unset PYTHONHOME if set
# this will fail if PYTHONHOME is set to the empty string (which is bad anyway)
# could use `if (set -u; : $PYTHONHOME) ;` in bash
if [ -n "${PYTHONHOME:-}" ] ; then
_OLD_VIRTUAL_PYTHONHOME="${PYTHONHOME:-}"
unset PYTHONHOME
fi
if [ -z "${VIRTUAL_ENV_DISABLE_PROMPT:-}" ] ; then
_OLD_VIRTUAL_PS1="${PS1:-}"
if [ "x(venv) " != x ] ; then
PS1="(venv) ${PS1:-}"
else
if [ "`basename \"$VIRTUAL_ENV\"`" = "__" ] ; then
# special case for Aspen magic directories
# see http://www.zetadev.com/software/aspen/
PS1="[`basename \`dirname \"$VIRTUAL_ENV\"\``] $PS1"
else
PS1="(`basename \"$VIRTUAL_ENV\"`)$PS1"
fi
fi
export PS1
fi
# This should detect bash and zsh, which have a hash command that must
# be called to get it to forget past commands. Without forgetting
# past commands the $PATH changes we made may not be respected
if [ -n "${BASH:-}" -o -n "${ZSH_VERSION:-}" ] ; then
hash -r
fi

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venv/bin/activate.csh Normal file
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# This file must be used with "source bin/activate.csh" *from csh*.
# You cannot run it directly.
# Created by Davide Di Blasi <davidedb@gmail.com>.
# Ported to Python 3.3 venv by Andrew Svetlov <andrew.svetlov@gmail.com>
alias deactivate 'test $?_OLD_VIRTUAL_PATH != 0 && setenv PATH "$_OLD_VIRTUAL_PATH" && unset _OLD_VIRTUAL_PATH; rehash; test $?_OLD_VIRTUAL_PROMPT != 0 && set prompt="$_OLD_VIRTUAL_PROMPT" && unset _OLD_VIRTUAL_PROMPT; unsetenv VIRTUAL_ENV; test "\!:*" != "nondestructive" && unalias deactivate'
# Unset irrelevant variables.
deactivate nondestructive
setenv VIRTUAL_ENV "/home/miguel456/PycharmProjects/PythonVPNGateway/venv"
set _OLD_VIRTUAL_PATH="$PATH"
setenv PATH "$VIRTUAL_ENV/bin:$PATH"
set _OLD_VIRTUAL_PROMPT="$prompt"
if (! "$?VIRTUAL_ENV_DISABLE_PROMPT") then
if ("venv" != "") then
set env_name = "venv"
else
if (`basename "VIRTUAL_ENV"` == "__") then
# special case for Aspen magic directories
# see http://www.zetadev.com/software/aspen/
set env_name = `basename \`dirname "$VIRTUAL_ENV"\``
else
set env_name = `basename "$VIRTUAL_ENV"`
endif
endif
set prompt = "[$env_name] $prompt"
unset env_name
endif
alias pydoc python -m pydoc
rehash

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venv/bin/activate.fish Normal file
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# This file must be used with ". bin/activate.fish" *from fish* (http://fishshell.org)
# you cannot run it directly
function deactivate -d "Exit virtualenv and return to normal shell environment"
# reset old environment variables
if test -n "$_OLD_VIRTUAL_PATH"
set -gx PATH $_OLD_VIRTUAL_PATH
set -e _OLD_VIRTUAL_PATH
end
if test -n "$_OLD_VIRTUAL_PYTHONHOME"
set -gx PYTHONHOME $_OLD_VIRTUAL_PYTHONHOME
set -e _OLD_VIRTUAL_PYTHONHOME
end
if test -n "$_OLD_FISH_PROMPT_OVERRIDE"
functions -e fish_prompt
set -e _OLD_FISH_PROMPT_OVERRIDE
functions -c _old_fish_prompt fish_prompt
functions -e _old_fish_prompt
end
set -e VIRTUAL_ENV
if test "$argv[1]" != "nondestructive"
# Self destruct!
functions -e deactivate
end
end
# unset irrelevant variables
deactivate nondestructive
set -gx VIRTUAL_ENV "/home/miguel456/PycharmProjects/PythonVPNGateway/venv"
set -gx _OLD_VIRTUAL_PATH $PATH
set -gx PATH "$VIRTUAL_ENV/bin" $PATH
# unset PYTHONHOME if set
if set -q PYTHONHOME
set -gx _OLD_VIRTUAL_PYTHONHOME $PYTHONHOME
set -e PYTHONHOME
end
if test -z "$VIRTUAL_ENV_DISABLE_PROMPT"
# fish uses a function instead of an env var to generate the prompt.
# save the current fish_prompt function as the function _old_fish_prompt
functions -c fish_prompt _old_fish_prompt
# with the original prompt function renamed, we can override with our own.
function fish_prompt
# Save the return status of the last command
set -l old_status $status
# Prompt override?
if test -n "(venv) "
printf "%s%s" "(venv) " (set_color normal)
else
# ...Otherwise, prepend env
set -l _checkbase (basename "$VIRTUAL_ENV")
if test $_checkbase = "__"
# special case for Aspen magic directories
# see http://www.zetadev.com/software/aspen/
printf "%s[%s]%s " (set_color -b blue white) (basename (dirname "$VIRTUAL_ENV")) (set_color normal)
else
printf "%s(%s)%s" (set_color -b blue white) (basename "$VIRTUAL_ENV") (set_color normal)
end
end
# Restore the return status of the previous command.
echo "exit $old_status" | .
_old_fish_prompt
end
set -gx _OLD_FISH_PROMPT_OVERRIDE "$VIRTUAL_ENV"
end

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venv/bin/easy_install Executable file
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#!/home/miguel456/PycharmProjects/PythonVPNGateway/venv/bin/python
# EASY-INSTALL-ENTRY-SCRIPT: 'setuptools==40.8.0','console_scripts','easy_install'
__requires__ = 'setuptools==40.8.0'
import re
import sys
from pkg_resources import load_entry_point
if __name__ == '__main__':
sys.argv[0] = re.sub(r'(-script\.pyw?|\.exe)?$', '', sys.argv[0])
sys.exit(
load_entry_point('setuptools==40.8.0', 'console_scripts', 'easy_install')()
)

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venv/bin/easy_install-3.6 Executable file
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#!/home/miguel456/PycharmProjects/PythonVPNGateway/venv/bin/python
# EASY-INSTALL-ENTRY-SCRIPT: 'setuptools==40.8.0','console_scripts','easy_install-3.6'
__requires__ = 'setuptools==40.8.0'
import re
import sys
from pkg_resources import load_entry_point
if __name__ == '__main__':
sys.argv[0] = re.sub(r'(-script\.pyw?|\.exe)?$', '', sys.argv[0])
sys.exit(
load_entry_point('setuptools==40.8.0', 'console_scripts', 'easy_install-3.6')()
)

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venv/bin/pip Executable file
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#!/home/miguel456/PycharmProjects/PythonVPNGateway/venv/bin/python
# EASY-INSTALL-ENTRY-SCRIPT: 'pip==19.0.3','console_scripts','pip'
__requires__ = 'pip==19.0.3'
import re
import sys
from pkg_resources import load_entry_point
if __name__ == '__main__':
sys.argv[0] = re.sub(r'(-script\.pyw?|\.exe)?$', '', sys.argv[0])
sys.exit(
load_entry_point('pip==19.0.3', 'console_scripts', 'pip')()
)

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venv/bin/pip3 Executable file
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#!/home/miguel456/PycharmProjects/PythonVPNGateway/venv/bin/python
# EASY-INSTALL-ENTRY-SCRIPT: 'pip==19.0.3','console_scripts','pip3'
__requires__ = 'pip==19.0.3'
import re
import sys
from pkg_resources import load_entry_point
if __name__ == '__main__':
sys.argv[0] = re.sub(r'(-script\.pyw?|\.exe)?$', '', sys.argv[0])
sys.exit(
load_entry_point('pip==19.0.3', 'console_scripts', 'pip3')()
)

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venv/bin/pip3.6 Executable file
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#!/home/miguel456/PycharmProjects/PythonVPNGateway/venv/bin/python
# EASY-INSTALL-ENTRY-SCRIPT: 'pip==19.0.3','console_scripts','pip3.6'
__requires__ = 'pip==19.0.3'
import re
import sys
from pkg_resources import load_entry_point
if __name__ == '__main__':
sys.argv[0] = re.sub(r'(-script\.pyw?|\.exe)?$', '', sys.argv[0])
sys.exit(
load_entry_point('pip==19.0.3', 'console_scripts', 'pip3.6')()
)

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venv/lib/python3.6/site-packages/easy-install.pth Normal file
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./setuptools-40.8.0-py3.6.egg
./pip-19.0.3-py3.6.egg

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venv/lib/python3.6/site-packages/pexpect-4.7.0.dist-info/INSTALLER Normal file
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pip

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venv/lib/python3.6/site-packages/pexpect-4.7.0.dist-info/LICENSE Normal file
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ISC LICENSE
This license is approved by the OSI and FSF as GPL-compatible.
http://opensource.org/licenses/isc-license.txt
Copyright (c) 2013-2014, Pexpect development team
Copyright (c) 2012, Noah Spurrier <noah@noah.org>
Permission to use, copy, modify, and/or distribute this software for any
purpose with or without fee is hereby granted, provided that the above
copyright notice and this permission notice appear in all copies.
THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.

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venv/lib/python3.6/site-packages/pexpect-4.7.0.dist-info/METADATA Normal file
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Metadata-Version: 2.1
Name: pexpect
Version: 4.7.0
Summary: Pexpect allows easy control of interactive console applications.
Home-page: https://pexpect.readthedocs.io/
Author: Noah Spurrier; Thomas Kluyver; Jeff Quast
Author-email: noah@noah.org, thomas@kluyver.me.uk, contact@jeffquast.com
License: ISC license
Platform: UNIX
Classifier: Development Status :: 5 - Production/Stable
Classifier: Environment :: Console
Classifier: Intended Audience :: Developers
Classifier: Intended Audience :: System Administrators
Classifier: License :: OSI Approved :: ISC License (ISCL)
Classifier: Operating System :: POSIX
Classifier: Operating System :: MacOS :: MacOS X
Classifier: Programming Language :: Python
Classifier: Programming Language :: Python :: 2.7
Classifier: Programming Language :: Python :: 3
Classifier: Topic :: Software Development
Classifier: Topic :: Software Development :: Libraries :: Python Modules
Classifier: Topic :: Software Development :: Quality Assurance
Classifier: Topic :: Software Development :: Testing
Classifier: Topic :: System
Classifier: Topic :: System :: Archiving :: Packaging
Classifier: Topic :: System :: Installation/Setup
Classifier: Topic :: System :: Shells
Classifier: Topic :: System :: Software Distribution
Classifier: Topic :: Terminals
Requires-Dist: ptyprocess (>=0.5)
Pexpect is a pure Python module for spawning child applications; controlling
them; and responding to expected patterns in their output. Pexpect works like
Don Libes' Expect. Pexpect allows your script to spawn a child application and
control it as if a human were typing commands.
Pexpect can be used for automating interactive applications such as ssh, ftp,
passwd, telnet, etc. It can be used to a automate setup scripts for duplicating
software package installations on different servers. It can be used for
automated software testing. Pexpect is in the spirit of Don Libes' Expect, but
Pexpect is pure Python.
The main features of Pexpect require the pty module in the Python standard
library, which is only available on Unix-like systems. Some features—waiting
for patterns from file descriptors or subprocesses—are also available on
Windows.

37
venv/lib/python3.6/site-packages/pexpect-4.7.0.dist-info/RECORD Normal file
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pexpect-4.7.0.dist-info/LICENSE,sha256=Skg64cTcc4psi3P-tJB04YNdoCq1qmhvJnUCmQb6Nk0,987
pexpect-4.7.0.dist-info/METADATA,sha256=uFn-yQJFlWw7o9tU0oqvzwMMdjh9ZGrRgvUdNkgcYrQ,2180
pexpect-4.7.0.dist-info/RECORD,,
pexpect-4.7.0.dist-info/WHEEL,sha256=HX-v9-noUkyUoxyZ1PMSuS7auUxDAR4VBdoYLqD0xws,110
pexpect-4.7.0.dist-info/top_level.txt,sha256=O-b3UY9VQZkW3yDAeFNatUOKO4GojVWO4TTHoI9-E7k,8
pexpect/ANSI.py,sha256=aA-3tdXz_FZ4G7PAqFZi5g1KBGQ6PzJzS0gm3ALZKZw,12177
pexpect/FSM.py,sha256=tluiyUGMyIH3q_wLG6Ak1NZVuXUAGNDjq6k6BK1q8RY,13419
pexpect/__init__.py,sha256=N7atAMzeTCxNKr2ZyA02q8c9kM1Up-EIWCZIqRE_N-w,3902
pexpect/__pycache__/ANSI.cpython-36.pyc,,
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6
venv/lib/python3.6/site-packages/pexpect-4.7.0.dist-info/WHEEL Normal file
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Wheel-Version: 1.0
Generator: bdist_wheel (0.33.1)
Root-Is-Purelib: true
Tag: py2-none-any
Tag: py3-none-any

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venv/lib/python3.6/site-packages/pexpect-4.7.0.dist-info/top_level.txt Normal file
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pexpect

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venv/lib/python3.6/site-packages/pexpect/ANSI.py Normal file
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'''This implements an ANSI (VT100) terminal emulator as a subclass of screen.
PEXPECT LICENSE
This license is approved by the OSI and FSF as GPL-compatible.
http://opensource.org/licenses/isc-license.txt
Copyright (c) 2012, Noah Spurrier <noah@noah.org>
PERMISSION TO USE, COPY, MODIFY, AND/OR DISTRIBUTE THIS SOFTWARE FOR ANY
PURPOSE WITH OR WITHOUT FEE IS HEREBY GRANTED, PROVIDED THAT THE ABOVE
COPYRIGHT NOTICE AND THIS PERMISSION NOTICE APPEAR IN ALL COPIES.
THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
'''
# references:
# http://en.wikipedia.org/wiki/ANSI_escape_code
# http://www.retards.org/terminals/vt102.html
# http://vt100.net/docs/vt102-ug/contents.html
# http://vt100.net/docs/vt220-rm/
# http://www.termsys.demon.co.uk/vtansi.htm
from . import screen
from . import FSM
import string
#
# The 'Do.*' functions are helper functions for the ANSI class.
#
def DoEmit (fsm):
screen = fsm.memory[0]
screen.write_ch(fsm.input_symbol)
def DoStartNumber (fsm):
fsm.memory.append (fsm.input_symbol)
def DoBuildNumber (fsm):
ns = fsm.memory.pop()
ns = ns + fsm.input_symbol
fsm.memory.append (ns)
def DoBackOne (fsm):
screen = fsm.memory[0]
screen.cursor_back ()
def DoBack (fsm):
count = int(fsm.memory.pop())
screen = fsm.memory[0]
screen.cursor_back (count)
def DoDownOne (fsm):
screen = fsm.memory[0]
screen.cursor_down ()
def DoDown (fsm):
count = int(fsm.memory.pop())
screen = fsm.memory[0]
screen.cursor_down (count)
def DoForwardOne (fsm):
screen = fsm.memory[0]
screen.cursor_forward ()
def DoForward (fsm):
count = int(fsm.memory.pop())
screen = fsm.memory[0]
screen.cursor_forward (count)
def DoUpReverse (fsm):
screen = fsm.memory[0]
screen.cursor_up_reverse()
def DoUpOne (fsm):
screen = fsm.memory[0]
screen.cursor_up ()
def DoUp (fsm):
count = int(fsm.memory.pop())
screen = fsm.memory[0]
screen.cursor_up (count)
def DoHome (fsm):
c = int(fsm.memory.pop())
r = int(fsm.memory.pop())
screen = fsm.memory[0]
screen.cursor_home (r,c)
def DoHomeOrigin (fsm):
c = 1
r = 1
screen = fsm.memory[0]
screen.cursor_home (r,c)
def DoEraseDown (fsm):
screen = fsm.memory[0]
screen.erase_down()
def DoErase (fsm):
arg = int(fsm.memory.pop())
screen = fsm.memory[0]
if arg == 0:
screen.erase_down()
elif arg == 1:
screen.erase_up()
elif arg == 2:
screen.erase_screen()
def DoEraseEndOfLine (fsm):
screen = fsm.memory[0]
screen.erase_end_of_line()
def DoEraseLine (fsm):
arg = int(fsm.memory.pop())
screen = fsm.memory[0]
if arg == 0:
screen.erase_end_of_line()
elif arg == 1:
screen.erase_start_of_line()
elif arg == 2:
screen.erase_line()
def DoEnableScroll (fsm):
screen = fsm.memory[0]
screen.scroll_screen()
def DoCursorSave (fsm):
screen = fsm.memory[0]
screen.cursor_save_attrs()
def DoCursorRestore (fsm):
screen = fsm.memory[0]
screen.cursor_restore_attrs()
def DoScrollRegion (fsm):
screen = fsm.memory[0]
r2 = int(fsm.memory.pop())
r1 = int(fsm.memory.pop())
screen.scroll_screen_rows (r1,r2)
def DoMode (fsm):
screen = fsm.memory[0]
mode = fsm.memory.pop() # Should be 4
# screen.setReplaceMode ()
def DoLog (fsm):
screen = fsm.memory[0]
fsm.memory = [screen]
fout = open ('log', 'a')
fout.write (fsm.input_symbol + ',' + fsm.current_state + '\n')
fout.close()
class term (screen.screen):
'''This class is an abstract, generic terminal.
This does nothing. This is a placeholder that
provides a common base class for other terminals
such as an ANSI terminal. '''
def __init__ (self, r=24, c=80, *args, **kwargs):
screen.screen.__init__(self, r,c,*args,**kwargs)
class ANSI (term):
'''This class implements an ANSI (VT100) terminal.
It is a stream filter that recognizes ANSI terminal
escape sequences and maintains the state of a screen object. '''
def __init__ (self, r=24,c=80,*args,**kwargs):
term.__init__(self,r,c,*args,**kwargs)
#self.screen = screen (24,80)
self.state = FSM.FSM ('INIT',[self])
self.state.set_default_transition (DoLog, 'INIT')
self.state.add_transition_any ('INIT', DoEmit, 'INIT')
self.state.add_transition ('\x1b', 'INIT', None, 'ESC')
self.state.add_transition_any ('ESC', DoLog, 'INIT')
self.state.add_transition ('(', 'ESC', None, 'G0SCS')
self.state.add_transition (')', 'ESC', None, 'G1SCS')
self.state.add_transition_list ('AB012', 'G0SCS', None, 'INIT')
self.state.add_transition_list ('AB012', 'G1SCS', None, 'INIT')
self.state.add_transition ('7', 'ESC', DoCursorSave, 'INIT')
self.state.add_transition ('8', 'ESC', DoCursorRestore, 'INIT')
self.state.add_transition ('M', 'ESC', DoUpReverse, 'INIT')
self.state.add_transition ('>', 'ESC', DoUpReverse, 'INIT')
self.state.add_transition ('<', 'ESC', DoUpReverse, 'INIT')
self.state.add_transition ('=', 'ESC', None, 'INIT') # Selects application keypad.
self.state.add_transition ('#', 'ESC', None, 'GRAPHICS_POUND')
self.state.add_transition_any ('GRAPHICS_POUND', None, 'INIT')
self.state.add_transition ('[', 'ESC', None, 'ELB')
# ELB means Escape Left Bracket. That is ^[[
self.state.add_transition ('H', 'ELB', DoHomeOrigin, 'INIT')
self.state.add_transition ('D', 'ELB', DoBackOne, 'INIT')
self.state.add_transition ('B', 'ELB', DoDownOne, 'INIT')
self.state.add_transition ('C', 'ELB', DoForwardOne, 'INIT')
self.state.add_transition ('A', 'ELB', DoUpOne, 'INIT')
self.state.add_transition ('J', 'ELB', DoEraseDown, 'INIT')
self.state.add_transition ('K', 'ELB', DoEraseEndOfLine, 'INIT')
self.state.add_transition ('r', 'ELB', DoEnableScroll, 'INIT')
self.state.add_transition ('m', 'ELB', self.do_sgr, 'INIT')
self.state.add_transition ('?', 'ELB', None, 'MODECRAP')
self.state.add_transition_list (string.digits, 'ELB', DoStartNumber, 'NUMBER_1')
self.state.add_transition_list (string.digits, 'NUMBER_1', DoBuildNumber, 'NUMBER_1')
self.state.add_transition ('D', 'NUMBER_1', DoBack, 'INIT')
self.state.add_transition ('B', 'NUMBER_1', DoDown, 'INIT')
self.state.add_transition ('C', 'NUMBER_1', DoForward, 'INIT')
self.state.add_transition ('A', 'NUMBER_1', DoUp, 'INIT')
self.state.add_transition ('J', 'NUMBER_1', DoErase, 'INIT')
self.state.add_transition ('K', 'NUMBER_1', DoEraseLine, 'INIT')
self.state.add_transition ('l', 'NUMBER_1', DoMode, 'INIT')
### It gets worse... the 'm' code can have infinite number of
### number;number;number before it. I've never seen more than two,
### but the specs say it's allowed. crap!
self.state.add_transition ('m', 'NUMBER_1', self.do_sgr, 'INIT')
### LED control. Same implementation problem as 'm' code.
self.state.add_transition ('q', 'NUMBER_1', self.do_decsca, 'INIT')
# \E[?47h switch to alternate screen
# \E[?47l restores to normal screen from alternate screen.
self.state.add_transition_list (string.digits, 'MODECRAP', DoStartNumber, 'MODECRAP_NUM')
self.state.add_transition_list (string.digits, 'MODECRAP_NUM', DoBuildNumber, 'MODECRAP_NUM')
self.state.add_transition ('l', 'MODECRAP_NUM', self.do_modecrap, 'INIT')
self.state.add_transition ('h', 'MODECRAP_NUM', self.do_modecrap, 'INIT')
#RM Reset Mode Esc [ Ps l none
self.state.add_transition (';', 'NUMBER_1', None, 'SEMICOLON')
self.state.add_transition_any ('SEMICOLON', DoLog, 'INIT')
self.state.add_transition_list (string.digits, 'SEMICOLON', DoStartNumber, 'NUMBER_2')
self.state.add_transition_list (string.digits, 'NUMBER_2', DoBuildNumber, 'NUMBER_2')
self.state.add_transition_any ('NUMBER_2', DoLog, 'INIT')
self.state.add_transition ('H', 'NUMBER_2', DoHome, 'INIT')
self.state.add_transition ('f', 'NUMBER_2', DoHome, 'INIT')
self.state.add_transition ('r', 'NUMBER_2', DoScrollRegion, 'INIT')
### It gets worse... the 'm' code can have infinite number of
### number;number;number before it. I've never seen more than two,
### but the specs say it's allowed. crap!
self.state.add_transition ('m', 'NUMBER_2', self.do_sgr, 'INIT')
### LED control. Same problem as 'm' code.
self.state.add_transition ('q', 'NUMBER_2', self.do_decsca, 'INIT')
self.state.add_transition (';', 'NUMBER_2', None, 'SEMICOLON_X')
# Create a state for 'q' and 'm' which allows an infinite number of ignored numbers
self.state.add_transition_any ('SEMICOLON_X', DoLog, 'INIT')
self.state.add_transition_list (string.digits, 'SEMICOLON_X', DoStartNumber, 'NUMBER_X')
self.state.add_transition_list (string.digits, 'NUMBER_X', DoBuildNumber, 'NUMBER_X')
self.state.add_transition_any ('NUMBER_X', DoLog, 'INIT')
self.state.add_transition ('m', 'NUMBER_X', self.do_sgr, 'INIT')
self.state.add_transition ('q', 'NUMBER_X', self.do_decsca, 'INIT')
self.state.add_transition (';', 'NUMBER_X', None, 'SEMICOLON_X')
def process (self, c):
"""Process a single character. Called by :meth:`write`."""
if isinstance(c, bytes):
c = self._decode(c)
self.state.process(c)
def process_list (self, l):
self.write(l)
def write (self, s):
"""Process text, writing it to the virtual screen while handling
ANSI escape codes.
"""
if isinstance(s, bytes):
s = self._decode(s)
for c in s:
self.process(c)
def flush (self):
pass
def write_ch (self, ch):
'''This puts a character at the current cursor position. The cursor
position is moved forward with wrap-around, but no scrolling is done if
the cursor hits the lower-right corner of the screen. '''
if isinstance(ch, bytes):
ch = self._decode(ch)
#\r and \n both produce a call to cr() and lf(), respectively.
ch = ch[0]
if ch == u'\r':
self.cr()
return
if ch == u'\n':
self.crlf()
return
if ch == chr(screen.BS):
self.cursor_back()
return
self.put_abs(self.cur_r, self.cur_c, ch)
old_r = self.cur_r
old_c = self.cur_c
self.cursor_forward()
if old_c == self.cur_c:
self.cursor_down()
if old_r != self.cur_r:
self.cursor_home (self.cur_r, 1)
else:
self.scroll_up ()
self.cursor_home (self.cur_r, 1)
self.erase_line()
def do_sgr (self, fsm):
'''Select Graphic Rendition, e.g. color. '''
screen = fsm.memory[0]
fsm.memory = [screen]
def do_decsca (self, fsm):
'''Select character protection attribute. '''
screen = fsm.memory[0]
fsm.memory = [screen]
def do_modecrap (self, fsm):
'''Handler for \x1b[?<number>h and \x1b[?<number>l. If anyone
wanted to actually use these, they'd need to add more states to the
FSM rather than just improve or override this method. '''
screen = fsm.memory[0]
fsm.memory = [screen]

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#!/usr/bin/env python
'''This module implements a Finite State Machine (FSM). In addition to state
this FSM also maintains a user defined "memory". So this FSM can be used as a
Push-down Automata (PDA) since a PDA is a FSM + memory.
The following describes how the FSM works, but you will probably also need to
see the example function to understand how the FSM is used in practice.
You define an FSM by building tables of transitions. For a given input symbol
the process() method uses these tables to decide what action to call and what
the next state will be. The FSM has a table of transitions that associate:
(input_symbol, current_state) --> (action, next_state)
Where "action" is a function you define. The symbols and states can be any
objects. You use the add_transition() and add_transition_list() methods to add
to the transition table. The FSM also has a table of transitions that
associate:
(current_state) --> (action, next_state)
You use the add_transition_any() method to add to this transition table. The
FSM also has one default transition that is not associated with any specific
input_symbol or state. You use the set_default_transition() method to set the
default transition.
When an action function is called it is passed a reference to the FSM. The
action function may then access attributes of the FSM such as input_symbol,
current_state, or "memory". The "memory" attribute can be any object that you
want to pass along to the action functions. It is not used by the FSM itself.
For parsing you would typically pass a list to be used as a stack.
The processing sequence is as follows. The process() method is given an
input_symbol to process. The FSM will search the table of transitions that
associate:
(input_symbol, current_state) --> (action, next_state)
If the pair (input_symbol, current_state) is found then process() will call the
associated action function and then set the current state to the next_state.
If the FSM cannot find a match for (input_symbol, current_state) it will then
search the table of transitions that associate:
(current_state) --> (action, next_state)
If the current_state is found then the process() method will call the
associated action function and then set the current state to the next_state.
Notice that this table lacks an input_symbol. It lets you define transitions
for a current_state and ANY input_symbol. Hence, it is called the "any" table.
Remember, it is always checked after first searching the table for a specific
(input_symbol, current_state).
For the case where the FSM did not match either of the previous two cases the
FSM will try to use the default transition. If the default transition is
defined then the process() method will call the associated action function and
then set the current state to the next_state. This lets you define a default
transition as a catch-all case. You can think of it as an exception handler.
There can be only one default transition.
Finally, if none of the previous cases are defined for an input_symbol and
current_state then the FSM will raise an exception. This may be desirable, but
you can always prevent this just by defining a default transition.
Noah Spurrier 20020822
PEXPECT LICENSE
This license is approved by the OSI and FSF as GPL-compatible.
http://opensource.org/licenses/isc-license.txt
Copyright (c) 2012, Noah Spurrier <noah@noah.org>
PERMISSION TO USE, COPY, MODIFY, AND/OR DISTRIBUTE THIS SOFTWARE FOR ANY
PURPOSE WITH OR WITHOUT FEE IS HEREBY GRANTED, PROVIDED THAT THE ABOVE
COPYRIGHT NOTICE AND THIS PERMISSION NOTICE APPEAR IN ALL COPIES.
THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
'''
class ExceptionFSM(Exception):
'''This is the FSM Exception class.'''
def __init__(self, value):
self.value = value
def __str__(self):
return 'ExceptionFSM: ' + str(self.value)
class FSM:
'''This is a Finite State Machine (FSM).
'''
def __init__(self, initial_state, memory=None):
'''This creates the FSM. You set the initial state here. The "memory"
attribute is any object that you want to pass along to the action
functions. It is not used by the FSM. For parsing you would typically
pass a list to be used as a stack. '''
# Map (input_symbol, current_state) --> (action, next_state).
self.state_transitions = {}
# Map (current_state) --> (action, next_state).
self.state_transitions_any = {}
self.default_transition = None
self.input_symbol = None
self.initial_state = initial_state
self.current_state = self.initial_state
self.next_state = None
self.action = None
self.memory = memory
def reset (self):
'''This sets the current_state to the initial_state and sets
input_symbol to None. The initial state was set by the constructor
__init__(). '''
self.current_state = self.initial_state
self.input_symbol = None
def add_transition (self, input_symbol, state, action=None, next_state=None):
'''This adds a transition that associates:
(input_symbol, current_state) --> (action, next_state)
The action may be set to None in which case the process() method will
ignore the action and only set the next_state. The next_state may be
set to None in which case the current state will be unchanged.
You can also set transitions for a list of symbols by using
add_transition_list(). '''
if next_state is None:
next_state = state
self.state_transitions[(input_symbol, state)] = (action, next_state)
def add_transition_list (self, list_input_symbols, state, action=None, next_state=None):
'''This adds the same transition for a list of input symbols.
You can pass a list or a string. Note that it is handy to use
string.digits, string.whitespace, string.letters, etc. to add
transitions that match character classes.
The action may be set to None in which case the process() method will
ignore the action and only set the next_state. The next_state may be
set to None in which case the current state will be unchanged. '''
if next_state is None:
next_state = state
for input_symbol in list_input_symbols:
self.add_transition (input_symbol, state, action, next_state)
def add_transition_any (self, state, action=None, next_state=None):
'''This adds a transition that associates:
(current_state) --> (action, next_state)
That is, any input symbol will match the current state.
The process() method checks the "any" state associations after it first
checks for an exact match of (input_symbol, current_state).
The action may be set to None in which case the process() method will
ignore the action and only set the next_state. The next_state may be
set to None in which case the current state will be unchanged. '''
if next_state is None:
next_state = state
self.state_transitions_any [state] = (action, next_state)
def set_default_transition (self, action, next_state):
'''This sets the default transition. This defines an action and
next_state if the FSM cannot find the input symbol and the current
state in the transition list and if the FSM cannot find the
current_state in the transition_any list. This is useful as a final
fall-through state for catching errors and undefined states.
The default transition can be removed by setting the attribute
default_transition to None. '''
self.default_transition = (action, next_state)
def get_transition (self, input_symbol, state):
'''This returns (action, next state) given an input_symbol and state.
This does not modify the FSM state, so calling this method has no side
effects. Normally you do not call this method directly. It is called by
process().
The sequence of steps to check for a defined transition goes from the
most specific to the least specific.
1. Check state_transitions[] that match exactly the tuple,
(input_symbol, state)
2. Check state_transitions_any[] that match (state)
In other words, match a specific state and ANY input_symbol.
3. Check if the default_transition is defined.
This catches any input_symbol and any state.
This is a handler for errors, undefined states, or defaults.
4. No transition was defined. If we get here then raise an exception.
'''
if (input_symbol, state) in self.state_transitions:
return self.state_transitions[(input_symbol, state)]
elif state in self.state_transitions_any:
return self.state_transitions_any[state]
elif self.default_transition is not None:
return self.default_transition
else:
raise ExceptionFSM ('Transition is undefined: (%s, %s).' %
(str(input_symbol), str(state)) )
def process (self, input_symbol):
'''This is the main method that you call to process input. This may
cause the FSM to change state and call an action. This method calls
get_transition() to find the action and next_state associated with the
input_symbol and current_state. If the action is None then the action
is not called and only the current state is changed. This method
processes one complete input symbol. You can process a list of symbols
(or a string) by calling process_list(). '''
self.input_symbol = input_symbol
(self.action, self.next_state) = self.get_transition (self.input_symbol, self.current_state)
if self.action is not None:
self.action (self)
self.current_state = self.next_state
self.next_state = None
def process_list (self, input_symbols):
'''This takes a list and sends each element to process(). The list may
be a string or any iterable object. '''
for s in input_symbols:
self.process (s)
##############################################################################
# The following is an example that demonstrates the use of the FSM class to
# process an RPN expression. Run this module from the command line. You will
# get a prompt > for input. Enter an RPN Expression. Numbers may be integers.
# Operators are * / + - Use the = sign to evaluate and print the expression.
# For example:
#
# 167 3 2 2 * * * 1 - =
#
# will print:
#
# 2003
##############################################################################
import sys
import string
PY3 = (sys.version_info[0] >= 3)
#
# These define the actions.
# Note that "memory" is a list being used as a stack.
#
def BeginBuildNumber (fsm):
fsm.memory.append (fsm.input_symbol)
def BuildNumber (fsm):
s = fsm.memory.pop ()
s = s + fsm.input_symbol
fsm.memory.append (s)
def EndBuildNumber (fsm):
s = fsm.memory.pop ()
fsm.memory.append (int(s))
def DoOperator (fsm):
ar = fsm.memory.pop()
al = fsm.memory.pop()
if fsm.input_symbol == '+':
fsm.memory.append (al + ar)
elif fsm.input_symbol == '-':
fsm.memory.append (al - ar)
elif fsm.input_symbol == '*':
fsm.memory.append (al * ar)
elif fsm.input_symbol == '/':
fsm.memory.append (al / ar)
def DoEqual (fsm):
print(str(fsm.memory.pop()))
def Error (fsm):
print('That does not compute.')
print(str(fsm.input_symbol))
def main():
'''This is where the example starts and the FSM state transitions are
defined. Note that states are strings (such as 'INIT'). This is not
necessary, but it makes the example easier to read. '''
f = FSM ('INIT', [])
f.set_default_transition (Error, 'INIT')
f.add_transition_any ('INIT', None, 'INIT')
f.add_transition ('=', 'INIT', DoEqual, 'INIT')
f.add_transition_list (string.digits, 'INIT', BeginBuildNumber, 'BUILDING_NUMBER')
f.add_transition_list (string.digits, 'BUILDING_NUMBER', BuildNumber, 'BUILDING_NUMBER')
f.add_transition_list (string.whitespace, 'BUILDING_NUMBER', EndBuildNumber, 'INIT')
f.add_transition_list ('+-*/', 'INIT', DoOperator, 'INIT')
print()
print('Enter an RPN Expression.')
print('Numbers may be integers. Operators are * / + -')
print('Use the = sign to evaluate and print the expression.')
print('For example: ')
print(' 167 3 2 2 * * * 1 - =')
inputstr = (input if PY3 else raw_input)('> ') # analysis:ignore
f.process_list(inputstr)
if __name__ == '__main__':
main()

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'''Pexpect is a Python module for spawning child applications and controlling
them automatically. Pexpect can be used for automating interactive applications
such as ssh, ftp, passwd, telnet, etc. It can be used to a automate setup
scripts for duplicating software package installations on different servers. It
can be used for automated software testing. Pexpect is in the spirit of Don
Libes' Expect, but Pexpect is pure Python. Other Expect-like modules for Python
require TCL and Expect or require C extensions to be compiled. Pexpect does not
use C, Expect, or TCL extensions. It should work on any platform that supports
the standard Python pty module. The Pexpect interface focuses on ease of use so
that simple tasks are easy.
There are two main interfaces to the Pexpect system; these are the function,
run() and the class, spawn. The spawn class is more powerful. The run()
function is simpler than spawn, and is good for quickly calling program. When
you call the run() function it executes a given program and then returns the
output. This is a handy replacement for os.system().
For example::
pexpect.run('ls -la')
The spawn class is the more powerful interface to the Pexpect system. You can
use this to spawn a child program then interact with it by sending input and
expecting responses (waiting for patterns in the child's output).
For example::
child = pexpect.spawn('scp foo user@example.com:.')
child.expect('Password:')
child.sendline(mypassword)
This works even for commands that ask for passwords or other input outside of
the normal stdio streams. For example, ssh reads input directly from the TTY
device which bypasses stdin.
Credits: Noah Spurrier, Richard Holden, Marco Molteni, Kimberley Burchett,
Robert Stone, Hartmut Goebel, Chad Schroeder, Erick Tryzelaar, Dave Kirby, Ids
vander Molen, George Todd, Noel Taylor, Nicolas D. Cesar, Alexander Gattin,
Jacques-Etienne Baudoux, Geoffrey Marshall, Francisco Lourenco, Glen Mabey,
Karthik Gurusamy, Fernando Perez, Corey Minyard, Jon Cohen, Guillaume
Chazarain, Andrew Ryan, Nick Craig-Wood, Andrew Stone, Jorgen Grahn, John
Spiegel, Jan Grant, and Shane Kerr. Let me know if I forgot anyone.
Pexpect is free, open source, and all that good stuff.
http://pexpect.sourceforge.net/
PEXPECT LICENSE
This license is approved by the OSI and FSF as GPL-compatible.
http://opensource.org/licenses/isc-license.txt
Copyright (c) 2012, Noah Spurrier <noah@noah.org>
PERMISSION TO USE, COPY, MODIFY, AND/OR DISTRIBUTE THIS SOFTWARE FOR ANY
PURPOSE WITH OR WITHOUT FEE IS HEREBY GRANTED, PROVIDED THAT THE ABOVE
COPYRIGHT NOTICE AND THIS PERMISSION NOTICE APPEAR IN ALL COPIES.
THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
'''
import sys
PY3 = (sys.version_info[0] >= 3)
from .exceptions import ExceptionPexpect, EOF, TIMEOUT
from .utils import split_command_line, which, is_executable_file
from .expect import Expecter, searcher_re, searcher_string
if sys.platform != 'win32':
# On Unix, these are available at the top level for backwards compatibility
from .pty_spawn import spawn, spawnu
from .run import run, runu
__version__ = '4.7.0'
__revision__ = ''
__all__ = ['ExceptionPexpect', 'EOF', 'TIMEOUT', 'spawn', 'spawnu', 'run', 'runu',
'which', 'split_command_line', '__version__', '__revision__']
# vim: set shiftround expandtab tabstop=4 shiftwidth=4 ft=python autoindent :

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import asyncio
import errno
import signal
from pexpect import EOF
@asyncio.coroutine
def expect_async(expecter, timeout=None):
# First process data that was previously read - if it maches, we don't need
# async stuff.
previously_read = expecter.spawn.buffer
expecter.spawn._buffer = expecter.spawn.buffer_type()
expecter.spawn._before = expecter.spawn.buffer_type()
idx = expecter.new_data(previously_read)
if idx is not None:
return idx
if not expecter.spawn.async_pw_transport:
pw = PatternWaiter()
pw.set_expecter(expecter)
transport, pw = yield from asyncio.get_event_loop()\
.connect_read_pipe(lambda: pw, expecter.spawn)
expecter.spawn.async_pw_transport = pw, transport
else:
pw, transport = expecter.spawn.async_pw_transport
pw.set_expecter(expecter)
transport.resume_reading()
try:
return (yield from asyncio.wait_for(pw.fut, timeout))
except asyncio.TimeoutError as e:
transport.pause_reading()
return expecter.timeout(e)
@asyncio.coroutine
def repl_run_command_async(repl, cmdlines, timeout=-1):
res = []
repl.child.sendline(cmdlines[0])
for line in cmdlines[1:]:
yield from repl._expect_prompt(timeout=timeout, async_=True)
res.append(repl.child.before)
repl.child.sendline(line)
# Command was fully submitted, now wait for the next prompt
prompt_idx = yield from repl._expect_prompt(timeout=timeout, async_=True)
if prompt_idx == 1:
# We got the continuation prompt - command was incomplete
repl.child.kill(signal.SIGINT)
yield from repl._expect_prompt(timeout=1, async_=True)
raise ValueError("Continuation prompt found - input was incomplete:")
return u''.join(res + [repl.child.before])
class PatternWaiter(asyncio.Protocol):
transport = None
def set_expecter(self, expecter):
self.expecter = expecter
self.fut = asyncio.Future()
def found(self, result):
if not self.fut.done():
self.fut.set_result(result)
self.transport.pause_reading()
def error(self, exc):
if not self.fut.done():
self.fut.set_exception(exc)
self.transport.pause_reading()
def connection_made(self, transport):
self.transport = transport
def data_received(self, data):
spawn = self.expecter.spawn
s = spawn._decoder.decode(data)
spawn._log(s, 'read')
if self.fut.done():
spawn._buffer.write(s)
return
try:
index = self.expecter.new_data(s)
if index is not None:
# Found a match
self.found(index)
except Exception as e:
self.expecter.errored()
self.error(e)
def eof_received(self):
# N.B. If this gets called, async will close the pipe (the spawn object)
# for us
try:
self.expecter.spawn.flag_eof = True
index = self.expecter.eof()
except EOF as e:
self.error(e)
else:
self.found(index)
def connection_lost(self, exc):
if isinstance(exc, OSError) and exc.errno == errno.EIO:
# We may get here without eof_received being called, e.g on Linux
self.eof_received()
elif exc is not None:
self.error(exc)

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# Different platforms have different names for the systemwide bashrc
if [[ -f /etc/bashrc ]]; then
source /etc/bashrc
fi
if [[ -f /etc/bash.bashrc ]]; then
source /etc/bash.bashrc
fi
if [[ -f ~/.bashrc ]]; then
source ~/.bashrc
fi
# Reset PS1 so pexpect can find it
PS1="$"
# Unset PROMPT_COMMAND, so that it can't change PS1 to something unexpected.
unset PROMPT_COMMAND

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"""Exception classes used by Pexpect"""
import traceback
import sys
class ExceptionPexpect(Exception):
'''Base class for all exceptions raised by this module.
'''
def __init__(self, value):
super(ExceptionPexpect, self).__init__(value)
self.value = value
def __str__(self):
return str(self.value)
def get_trace(self):
'''This returns an abbreviated stack trace with lines that only concern
the caller. In other words, the stack trace inside the Pexpect module
is not included. '''
tblist = traceback.extract_tb(sys.exc_info()[2])
tblist = [item for item in tblist if ('pexpect/__init__' not in item[0])
and ('pexpect/expect' not in item[0])]
tblist = traceback.format_list(tblist)
return ''.join(tblist)
class EOF(ExceptionPexpect):
'''Raised when EOF is read from a child.
This usually means the child has exited.'''
class TIMEOUT(ExceptionPexpect):
'''Raised when a read time exceeds the timeout. '''

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import time
from .exceptions import EOF, TIMEOUT
class Expecter(object):
def __init__(self, spawn, searcher, searchwindowsize=-1):
self.spawn = spawn
self.searcher = searcher
if searchwindowsize == -1:
searchwindowsize = spawn.searchwindowsize
self.searchwindowsize = searchwindowsize
def new_data(self, data):
spawn = self.spawn
searcher = self.searcher
pos = spawn._buffer.tell()
spawn._buffer.write(data)
spawn._before.write(data)
# determine which chunk of data to search; if a windowsize is
# specified, this is the *new* data + the preceding <windowsize> bytes
if self.searchwindowsize:
spawn._buffer.seek(max(0, pos - self.searchwindowsize))
window = spawn._buffer.read(self.searchwindowsize + len(data))
else:
# otherwise, search the whole buffer (really slow for large datasets)
window = spawn.buffer
index = searcher.search(window, len(data))
if index >= 0:
spawn._buffer = spawn.buffer_type()
spawn._buffer.write(window[searcher.end:])
spawn.before = spawn._before.getvalue()[0:-(len(window) - searcher.start)]
spawn._before = spawn.buffer_type()
spawn.after = window[searcher.start: searcher.end]
spawn.match = searcher.match
spawn.match_index = index
# Found a match
return index
elif self.searchwindowsize:
spawn._buffer = spawn.buffer_type()
spawn._buffer.write(window)
def eof(self, err=None):
spawn = self.spawn
spawn.before = spawn.buffer
spawn._buffer = spawn.buffer_type()
spawn._before = spawn.buffer_type()
spawn.after = EOF
index = self.searcher.eof_index
if index >= 0:
spawn.match = EOF
spawn.match_index = index
return index
else:
spawn.match = None
spawn.match_index = None
msg = str(spawn)
msg += '\nsearcher: %s' % self.searcher
if err is not None:
msg = str(err) + '\n' + msg
raise EOF(msg)
def timeout(self, err=None):
spawn = self.spawn
spawn.before = spawn.buffer
spawn.after = TIMEOUT
index = self.searcher.timeout_index
if index >= 0:
spawn.match = TIMEOUT
spawn.match_index = index
return index
else:
spawn.match = None
spawn.match_index = None
msg = str(spawn)
msg += '\nsearcher: %s' % self.searcher
if err is not None:
msg = str(err) + '\n' + msg
raise TIMEOUT(msg)
def errored(self):
spawn = self.spawn
spawn.before = spawn.buffer
spawn.after = None
spawn.match = None
spawn.match_index = None
def expect_loop(self, timeout=-1):
"""Blocking expect"""
spawn = self.spawn
if timeout is not None:
end_time = time.time() + timeout
try:
incoming = spawn.buffer
spawn._buffer = spawn.buffer_type()
spawn._before = spawn.buffer_type()
while True:
idx = self.new_data(incoming)
# Keep reading until exception or return.
if idx is not None:
return idx
# No match at this point
if (timeout is not None) and (timeout < 0):
return self.timeout()
# Still have time left, so read more data
incoming = spawn.read_nonblocking(spawn.maxread, timeout)
if self.spawn.delayafterread is not None:
time.sleep(self.spawn.delayafterread)
if timeout is not None:
timeout = end_time - time.time()
except EOF as e:
return self.eof(e)
except TIMEOUT as e:
return self.timeout(e)
except:
self.errored()
raise
class searcher_string(object):
'''This is a plain string search helper for the spawn.expect_any() method.
This helper class is for speed. For more powerful regex patterns
see the helper class, searcher_re.
Attributes:
eof_index - index of EOF, or -1
timeout_index - index of TIMEOUT, or -1
After a successful match by the search() method the following attributes
are available:
start - index into the buffer, first byte of match
end - index into the buffer, first byte after match
match - the matching string itself
'''
def __init__(self, strings):
'''This creates an instance of searcher_string. This argument 'strings'
may be a list; a sequence of strings; or the EOF or TIMEOUT types. '''
self.eof_index = -1
self.timeout_index = -1
self._strings = []
for n, s in enumerate(strings):
if s is EOF:
self.eof_index = n
continue
if s is TIMEOUT:
self.timeout_index = n
continue
self._strings.append((n, s))
def __str__(self):
'''This returns a human-readable string that represents the state of
the object.'''
ss = [(ns[0], ' %d: %r' % ns) for ns in self._strings]
ss.append((-1, 'searcher_string:'))
if self.eof_index >= 0:
ss.append((self.eof_index, ' %d: EOF' % self.eof_index))
if self.timeout_index >= 0:
ss.append((self.timeout_index,
' %d: TIMEOUT' % self.timeout_index))
ss.sort()
ss = list(zip(*ss))[1]
return '\n'.join(ss)
def search(self, buffer, freshlen, searchwindowsize=None):
'''This searches 'buffer' for the first occurrence of one of the search
strings. 'freshlen' must indicate the number of bytes at the end of
'buffer' which have not been searched before. It helps to avoid
searching the same, possibly big, buffer over and over again.
See class spawn for the 'searchwindowsize' argument.
If there is a match this returns the index of that string, and sets
'start', 'end' and 'match'. Otherwise, this returns -1. '''
first_match = None
# 'freshlen' helps a lot here. Further optimizations could
# possibly include:
#
# using something like the Boyer-Moore Fast String Searching
# Algorithm; pre-compiling the search through a list of
# strings into something that can scan the input once to
# search for all N strings; realize that if we search for
# ['bar', 'baz'] and the input is '...foo' we need not bother
# rescanning until we've read three more bytes.
#
# Sadly, I don't know enough about this interesting topic. /grahn
for index, s in self._strings:
if searchwindowsize is None:
# the match, if any, can only be in the fresh data,
# or at the very end of the old data
offset = -(freshlen + len(s))
else:
# better obey searchwindowsize
offset = -searchwindowsize
n = buffer.find(s, offset)
if n >= 0 and (first_match is None or n < first_match):
first_match = n
best_index, best_match = index, s
if first_match is None:
return -1
self.match = best_match
self.start = first_match
self.end = self.start + len(self.match)
return best_index
class searcher_re(object):
'''This is regular expression string search helper for the
spawn.expect_any() method. This helper class is for powerful
pattern matching. For speed, see the helper class, searcher_string.
Attributes:
eof_index - index of EOF, or -1
timeout_index - index of TIMEOUT, or -1
After a successful match by the search() method the following attributes
are available:
start - index into the buffer, first byte of match
end - index into the buffer, first byte after match
match - the re.match object returned by a successful re.search
'''
def __init__(self, patterns):
'''This creates an instance that searches for 'patterns' Where
'patterns' may be a list or other sequence of compiled regular
expressions, or the EOF or TIMEOUT types.'''
self.eof_index = -1
self.timeout_index = -1
self._searches = []
for n, s in enumerate(patterns):
if s is EOF:
self.eof_index = n
continue
if s is TIMEOUT:
self.timeout_index = n
continue
self._searches.append((n, s))
def __str__(self):
'''This returns a human-readable string that represents the state of
the object.'''
#ss = [(n, ' %d: re.compile("%s")' %
# (n, repr(s.pattern))) for n, s in self._searches]
ss = list()
for n, s in self._searches:
ss.append((n, ' %d: re.compile(%r)' % (n, s.pattern)))
ss.append((-1, 'searcher_re:'))
if self.eof_index >= 0:
ss.append((self.eof_index, ' %d: EOF' % self.eof_index))
if self.timeout_index >= 0:
ss.append((self.timeout_index, ' %d: TIMEOUT' %
self.timeout_index))
ss.sort()
ss = list(zip(*ss))[1]
return '\n'.join(ss)
def search(self, buffer, freshlen, searchwindowsize=None):
'''This searches 'buffer' for the first occurrence of one of the regular
expressions. 'freshlen' must indicate the number of bytes at the end of
'buffer' which have not been searched before.
See class spawn for the 'searchwindowsize' argument.
If there is a match this returns the index of that string, and sets
'start', 'end' and 'match'. Otherwise, returns -1.'''
first_match = None
# 'freshlen' doesn't help here -- we cannot predict the
# length of a match, and the re module provides no help.
if searchwindowsize is None:
searchstart = 0
else:
searchstart = max(0, len(buffer) - searchwindowsize)
for index, s in self._searches:
match = s.search(buffer, searchstart)
if match is None:
continue
n = match.start()
if first_match is None or n < first_match:
first_match = n
the_match = match
best_index = index
if first_match is None:
return -1
self.start = first_match
self.match = the_match
self.end = self.match.end()
return best_index

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'''This is like pexpect, but it will work with any file descriptor that you
pass it. You are responsible for opening and close the file descriptor.
This allows you to use Pexpect with sockets and named pipes (FIFOs).
PEXPECT LICENSE
This license is approved by the OSI and FSF as GPL-compatible.
http://opensource.org/licenses/isc-license.txt
Copyright (c) 2012, Noah Spurrier <noah@noah.org>
PERMISSION TO USE, COPY, MODIFY, AND/OR DISTRIBUTE THIS SOFTWARE FOR ANY
PURPOSE WITH OR WITHOUT FEE IS HEREBY GRANTED, PROVIDED THAT THE ABOVE
COPYRIGHT NOTICE AND THIS PERMISSION NOTICE APPEAR IN ALL COPIES.
THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
'''
from .spawnbase import SpawnBase
from .exceptions import ExceptionPexpect, TIMEOUT
from .utils import select_ignore_interrupts, poll_ignore_interrupts
import os
__all__ = ['fdspawn']
class fdspawn(SpawnBase):
'''This is like pexpect.spawn but allows you to supply your own open file
descriptor. For example, you could use it to read through a file looking
for patterns, or to control a modem or serial device. '''
def __init__ (self, fd, args=None, timeout=30, maxread=2000, searchwindowsize=None,
logfile=None, encoding=None, codec_errors='strict', use_poll=False):
'''This takes a file descriptor (an int) or an object that support the
fileno() method (returning an int). All Python file-like objects
support fileno(). '''
if type(fd) != type(0) and hasattr(fd, 'fileno'):
fd = fd.fileno()
if type(fd) != type(0):
raise ExceptionPexpect('The fd argument is not an int. If this is a command string then maybe you want to use pexpect.spawn.')
try: # make sure fd is a valid file descriptor
os.fstat(fd)
except OSError:
raise ExceptionPexpect('The fd argument is not a valid file descriptor.')
self.args = None
self.command = None
SpawnBase.__init__(self, timeout, maxread, searchwindowsize, logfile,
encoding=encoding, codec_errors=codec_errors)
self.child_fd = fd
self.own_fd = False
self.closed = False
self.name = '<file descriptor %d>' % fd
self.use_poll = use_poll
def close (self):
"""Close the file descriptor.
Calling this method a second time does nothing, but if the file
descriptor was closed elsewhere, :class:`OSError` will be raised.
"""
if self.child_fd == -1:
return
self.flush()
os.close(self.child_fd)
self.child_fd = -1
self.closed = True
def isalive (self):
'''This checks if the file descriptor is still valid. If :func:`os.fstat`
does not raise an exception then we assume it is alive. '''
if self.child_fd == -1:
return False
try:
os.fstat(self.child_fd)
return True
except:
return False
def terminate (self, force=False): # pragma: no cover
'''Deprecated and invalid. Just raises an exception.'''
raise ExceptionPexpect('This method is not valid for file descriptors.')
# These four methods are left around for backwards compatibility, but not
# documented as part of fdpexpect. You're encouraged to use os.write
# directly.
def send(self, s):
"Write to fd, return number of bytes written"
s = self._coerce_send_string(s)
self._log(s, 'send')
b = self._encoder.encode(s, final=False)
return os.write(self.child_fd, b)
def sendline(self, s):
"Write to fd with trailing newline, return number of bytes written"
s = self._coerce_send_string(s)
return self.send(s + self.linesep)
def write(self, s):
"Write to fd, return None"
self.send(s)
def writelines(self, sequence):
"Call self.write() for each item in sequence"
for s in sequence:
self.write(s)
def read_nonblocking(self, size=1, timeout=-1):
"""
Read from the file descriptor and return the result as a string.
The read_nonblocking method of :class:`SpawnBase` assumes that a call
to os.read will not block (timeout parameter is ignored). This is not
the case for POSIX file-like objects such as sockets and serial ports.
Use :func:`select.select`, timeout is implemented conditionally for
POSIX systems.
:param int size: Read at most *size* bytes.
:param int timeout: Wait timeout seconds for file descriptor to be
ready to read. When -1 (default), use self.timeout. When 0, poll.
:return: String containing the bytes read
"""
if os.name == 'posix':
if timeout == -1:
timeout = self.timeout
rlist = [self.child_fd]
wlist = []
xlist = []
if self.use_poll:
rlist = poll_ignore_interrupts(rlist, timeout)
else:
rlist, wlist, xlist = select_ignore_interrupts(
rlist, wlist, xlist, timeout
)
if self.child_fd not in rlist:
raise TIMEOUT('Timeout exceeded.')
return super(fdspawn, self).read_nonblocking(size)

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"""Provides an interface like pexpect.spawn interface using subprocess.Popen
"""
import os
import threading
import subprocess
import sys
import time
import signal
import shlex
try:
from queue import Queue, Empty # Python 3
except ImportError:
from Queue import Queue, Empty # Python 2
from .spawnbase import SpawnBase, PY3
from .exceptions import EOF
from .utils import string_types
class PopenSpawn(SpawnBase):
def __init__(self, cmd, timeout=30, maxread=2000, searchwindowsize=None,
logfile=None, cwd=None, env=None, encoding=None,
codec_errors='strict', preexec_fn=None):
super(PopenSpawn, self).__init__(timeout=timeout, maxread=maxread,
searchwindowsize=searchwindowsize, logfile=logfile,
encoding=encoding, codec_errors=codec_errors)
# Note that `SpawnBase` initializes `self.crlf` to `\r\n`
# because the default behaviour for a PTY is to convert
# incoming LF to `\r\n` (see the `onlcr` flag and
# https://stackoverflow.com/a/35887657/5397009). Here we set
# it to `os.linesep` because that is what the spawned
# application outputs by default and `popen` doesn't translate
# anything.
if encoding is None:
self.crlf = os.linesep.encode ("ascii")
else:
self.crlf = self.string_type (os.linesep)
kwargs = dict(bufsize=0, stdin=subprocess.PIPE,
stderr=subprocess.STDOUT, stdout=subprocess.PIPE,
cwd=cwd, preexec_fn=preexec_fn, env=env)
if sys.platform == 'win32':
startupinfo = subprocess.STARTUPINFO()
startupinfo.dwFlags |= subprocess.STARTF_USESHOWWINDOW
kwargs['startupinfo'] = startupinfo
kwargs['creationflags'] = subprocess.CREATE_NEW_PROCESS_GROUP
if isinstance(cmd, string_types) and sys.platform != 'win32':
cmd = shlex.split(cmd, posix=os.name == 'posix')
self.proc = subprocess.Popen(cmd, **kwargs)
self.pid = self.proc.pid
self.closed = False
self._buf = self.string_type()
self._read_queue = Queue()
self._read_thread = threading.Thread(target=self._read_incoming)
self._read_thread.setDaemon(True)
self._read_thread.start()
_read_reached_eof = False
def read_nonblocking(self, size, timeout):
buf = self._buf
if self._read_reached_eof:
# We have already finished reading. Use up any buffered data,
# then raise EOF
if buf:
self._buf = buf[size:]
return buf[:size]
else:
self.flag_eof = True
raise EOF('End Of File (EOF).')
if timeout == -1:
timeout = self.timeout
elif timeout is None:
timeout = 1e6
t0 = time.time()
while (time.time() - t0) < timeout and size and len(buf) < size:
try:
incoming = self._read_queue.get_nowait()
except Empty:
break
else:
if incoming is None:
self._read_reached_eof = True
break
buf += self._decoder.decode(incoming, final=False)
r, self._buf = buf[:size], buf[size:]
self._log(r, 'read')
return r
def _read_incoming(self):
"""Run in a thread to move output from a pipe to a queue."""
fileno = self.proc.stdout.fileno()
while 1:
buf = b''
try:
buf = os.read(fileno, 1024)
except OSError as e:
self._log(e, 'read')
if not buf:
# This indicates we have reached EOF
self._read_queue.put(None)
return
self._read_queue.put(buf)
def write(self, s):
'''This is similar to send() except that there is no return value.
'''
self.send(s)
def writelines(self, sequence):
'''This calls write() for each element in the sequence.
The sequence can be any iterable object producing strings, typically a
list of strings. This does not add line separators. There is no return
value.
'''
for s in sequence:
self.send(s)
def send(self, s):
'''Send data to the subprocess' stdin.
Returns the number of bytes written.
'''
s = self._coerce_send_string(s)
self._log(s, 'send')
b = self._encoder.encode(s, final=False)
if PY3:
return self.proc.stdin.write(b)
else:
# On Python 2, .write() returns None, so we return the length of
# bytes written ourselves. This assumes they all got written.
self.proc.stdin.write(b)
return len(b)
def sendline(self, s=''):
'''Wraps send(), sending string ``s`` to child process, with os.linesep
automatically appended. Returns number of bytes written. '''
n = self.send(s)
return n + self.send(self.linesep)
def wait(self):
'''Wait for the subprocess to finish.
Returns the exit code.
'''
status = self.proc.wait()
if status >= 0:
self.exitstatus = status
self.signalstatus = None
else:
self.exitstatus = None
self.signalstatus = -status
self.terminated = True
return status
def kill(self, sig):
'''Sends a Unix signal to the subprocess.
Use constants from the :mod:`signal` module to specify which signal.
'''
if sys.platform == 'win32':
if sig in [signal.SIGINT, signal.CTRL_C_EVENT]:
sig = signal.CTRL_C_EVENT
elif sig in [signal.SIGBREAK, signal.CTRL_BREAK_EVENT]:
sig = signal.CTRL_BREAK_EVENT
else:
sig = signal.SIGTERM
os.kill(self.proc.pid, sig)
def sendeof(self):
'''Closes the stdin pipe from the writing end.'''
self.proc.stdin.close()

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import os
import sys
import time
import pty
import tty
import errno
import signal
from contextlib import contextmanager
import ptyprocess
from ptyprocess.ptyprocess import use_native_pty_fork
from .exceptions import ExceptionPexpect, EOF, TIMEOUT
from .spawnbase import SpawnBase
from .utils import (
which, split_command_line, select_ignore_interrupts, poll_ignore_interrupts
)
@contextmanager
def _wrap_ptyprocess_err():
"""Turn ptyprocess errors into our own ExceptionPexpect errors"""
try:
yield
except ptyprocess.PtyProcessError as e:
raise ExceptionPexpect(*e.args)
PY3 = (sys.version_info[0] >= 3)
class spawn(SpawnBase):
'''This is the main class interface for Pexpect. Use this class to start
and control child applications. '''
# This is purely informational now - changing it has no effect
use_native_pty_fork = use_native_pty_fork
def __init__(self, command, args=[], timeout=30, maxread=2000,
searchwindowsize=None, logfile=None, cwd=None, env=None,
ignore_sighup=False, echo=True, preexec_fn=None,
encoding=None, codec_errors='strict', dimensions=None,
use_poll=False):
'''This is the constructor. The command parameter may be a string that
includes a command and any arguments to the command. For example::
child = pexpect.spawn('/usr/bin/ftp')
child = pexpect.spawn('/usr/bin/ssh user@example.com')
child = pexpect.spawn('ls -latr /tmp')
You may also construct it with a list of arguments like so::
child = pexpect.spawn('/usr/bin/ftp', [])
child = pexpect.spawn('/usr/bin/ssh', ['user@example.com'])
child = pexpect.spawn('ls', ['-latr', '/tmp'])
After this the child application will be created and will be ready to
talk to. For normal use, see expect() and send() and sendline().
Remember that Pexpect does NOT interpret shell meta characters such as
redirect, pipe, or wild cards (``>``, ``|``, or ``*``). This is a
common mistake. If you want to run a command and pipe it through
another command then you must also start a shell. For example::
child = pexpect.spawn('/bin/bash -c "ls -l | grep LOG > logs.txt"')
child.expect(pexpect.EOF)
The second form of spawn (where you pass a list of arguments) is useful
in situations where you wish to spawn a command and pass it its own
argument list. This can make syntax more clear. For example, the
following is equivalent to the previous example::
shell_cmd = 'ls -l | grep LOG > logs.txt'
child = pexpect.spawn('/bin/bash', ['-c', shell_cmd])
child.expect(pexpect.EOF)
The maxread attribute sets the read buffer size. This is maximum number
of bytes that Pexpect will try to read from a TTY at one time. Setting
the maxread size to 1 will turn off buffering. Setting the maxread
value higher may help performance in cases where large amounts of
output are read back from the child. This feature is useful in
conjunction with searchwindowsize.
When the keyword argument *searchwindowsize* is None (default), the
full buffer is searched at each iteration of receiving incoming data.
The default number of bytes scanned at each iteration is very large
and may be reduced to collaterally reduce search cost. After
:meth:`~.expect` returns, the full buffer attribute remains up to
size *maxread* irrespective of *searchwindowsize* value.
When the keyword argument ``timeout`` is specified as a number,
(default: *30*), then :class:`TIMEOUT` will be raised after the value
specified has elapsed, in seconds, for any of the :meth:`~.expect`
family of method calls. When None, TIMEOUT will not be raised, and
:meth:`~.expect` may block indefinitely until match.
The logfile member turns on or off logging. All input and output will
be copied to the given file object. Set logfile to None to stop
logging. This is the default. Set logfile to sys.stdout to echo
everything to standard output. The logfile is flushed after each write.
Example log input and output to a file::
child = pexpect.spawn('some_command')
fout = open('mylog.txt','wb')
child.logfile = fout
Example log to stdout::
# In Python 2:
child = pexpect.spawn('some_command')
child.logfile = sys.stdout
# In Python 3, we'll use the ``encoding`` argument to decode data
# from the subprocess and handle it as unicode:
child = pexpect.spawn('some_command', encoding='utf-8')
child.logfile = sys.stdout
The logfile_read and logfile_send members can be used to separately log
the input from the child and output sent to the child. Sometimes you
don't want to see everything you write to the child. You only want to
log what the child sends back. For example::
child = pexpect.spawn('some_command')
child.logfile_read = sys.stdout
You will need to pass an encoding to spawn in the above code if you are
using Python 3.
To separately log output sent to the child use logfile_send::
child.logfile_send = fout
If ``ignore_sighup`` is True, the child process will ignore SIGHUP
signals. The default is False from Pexpect 4.0, meaning that SIGHUP
will be handled normally by the child.
The delaybeforesend helps overcome a weird behavior that many users
were experiencing. The typical problem was that a user would expect() a
"Password:" prompt and then immediately call sendline() to send the
password. The user would then see that their password was echoed back
to them. Passwords don't normally echo. The problem is caused by the
fact that most applications print out the "Password" prompt and then
turn off stdin echo, but if you send your password before the
application turned off echo, then you get your password echoed.
Normally this wouldn't be a problem when interacting with a human at a
real keyboard. If you introduce a slight delay just before writing then
this seems to clear up the problem. This was such a common problem for
many users that I decided that the default pexpect behavior should be
to sleep just before writing to the child application. 1/20th of a
second (50 ms) seems to be enough to clear up the problem. You can set
delaybeforesend to None to return to the old behavior.
Note that spawn is clever about finding commands on your path.
It uses the same logic that "which" uses to find executables.
If you wish to get the exit status of the child you must call the
close() method. The exit or signal status of the child will be stored
in self.exitstatus or self.signalstatus. If the child exited normally
then exitstatus will store the exit return code and signalstatus will
be None. If the child was terminated abnormally with a signal then
signalstatus will store the signal value and exitstatus will be None::
child = pexpect.spawn('some_command')
child.close()
print(child.exitstatus, child.signalstatus)
If you need more detail you can also read the self.status member which
stores the status returned by os.waitpid. You can interpret this using
os.WIFEXITED/os.WEXITSTATUS or os.WIFSIGNALED/os.TERMSIG.
The echo attribute may be set to False to disable echoing of input.
As a pseudo-terminal, all input echoed by the "keyboard" (send()
or sendline()) will be repeated to output. For many cases, it is
not desirable to have echo enabled, and it may be later disabled
using setecho(False) followed by waitnoecho(). However, for some
platforms such as Solaris, this is not possible, and should be
disabled immediately on spawn.
If preexec_fn is given, it will be called in the child process before
launching the given command. This is useful to e.g. reset inherited
signal handlers.
The dimensions attribute specifies the size of the pseudo-terminal as
seen by the subprocess, and is specified as a two-entry tuple (rows,
columns). If this is unspecified, the defaults in ptyprocess will apply.
The use_poll attribute enables using select.poll() over select.select()
for socket handling. This is handy if your system could have > 1024 fds
'''
super(spawn, self).__init__(timeout=timeout, maxread=maxread, searchwindowsize=searchwindowsize,
logfile=logfile, encoding=encoding, codec_errors=codec_errors)
self.STDIN_FILENO = pty.STDIN_FILENO
self.STDOUT_FILENO = pty.STDOUT_FILENO
self.STDERR_FILENO = pty.STDERR_FILENO
self.cwd = cwd
self.env = env
self.echo = echo
self.ignore_sighup = ignore_sighup
self.__irix_hack = sys.platform.lower().startswith('irix')
if command is None:
self.command = None
self.args = None
self.name = '<pexpect factory incomplete>'
else:
self._spawn(command, args, preexec_fn, dimensions)
self.use_poll = use_poll
def __str__(self):
'''This returns a human-readable string that represents the state of
the object. '''
s = []
s.append(repr(self))
s.append('command: ' + str(self.command))
s.append('args: %r' % (self.args,))
s.append('buffer (last 100 chars): %r' % self.buffer[-100:])
s.append('before (last 100 chars): %r' % self.before[-100:] if self.before else '')
s.append('after: %r' % (self.after,))
s.append('match: %r' % (self.match,))
s.append('match_index: ' + str(self.match_index))
s.append('exitstatus: ' + str(self.exitstatus))
if hasattr(self, 'ptyproc'):
s.append('flag_eof: ' + str(self.flag_eof))
s.append('pid: ' + str(self.pid))
s.append('child_fd: ' + str(self.child_fd))
s.append('closed: ' + str(self.closed))
s.append('timeout: ' + str(self.timeout))
s.append('delimiter: ' + str(self.delimiter))
s.append('logfile: ' + str(self.logfile))
s.append('logfile_read: ' + str(self.logfile_read))
s.append('logfile_send: ' + str(self.logfile_send))
s.append('maxread: ' + str(self.maxread))
s.append('ignorecase: ' + str(self.ignorecase))
s.append('searchwindowsize: ' + str(self.searchwindowsize))
s.append('delaybeforesend: ' + str(self.delaybeforesend))
s.append('delayafterclose: ' + str(self.delayafterclose))
s.append('delayafterterminate: ' + str(self.delayafterterminate))
return '\n'.join(s)
def _spawn(self, command, args=[], preexec_fn=None, dimensions=None):
'''This starts the given command in a child process. This does all the
fork/exec type of stuff for a pty. This is called by __init__. If args
is empty then command will be parsed (split on spaces) and args will be
set to parsed arguments. '''
# The pid and child_fd of this object get set by this method.
# Note that it is difficult for this method to fail.
# You cannot detect if the child process cannot start.
# So the only way you can tell if the child process started
# or not is to try to read from the file descriptor. If you get
# EOF immediately then it means that the child is already dead.
# That may not necessarily be bad because you may have spawned a child
# that performs some task; creates no stdout output; and then dies.
# If command is an int type then it may represent a file descriptor.
if isinstance(command, type(0)):
raise ExceptionPexpect('Command is an int type. ' +
'If this is a file descriptor then maybe you want to ' +
'use fdpexpect.fdspawn which takes an existing ' +
'file descriptor instead of a command string.')
if not isinstance(args, type([])):
raise TypeError('The argument, args, must be a list.')
if args == []:
self.args = split_command_line(command)
self.command = self.args[0]
else:
# Make a shallow copy of the args list.
self.args = args[:]
self.args.insert(0, command)
self.command = command
command_with_path = which(self.command, env=self.env)
if command_with_path is None:
raise ExceptionPexpect('The command was not found or was not ' +
'executable: %s.' % self.command)
self.command = command_with_path
self.args[0] = self.command
self.name = '<' + ' '.join(self.args) + '>'
assert self.pid is None, 'The pid member must be None.'
assert self.command is not None, 'The command member must not be None.'
kwargs = {'echo': self.echo, 'preexec_fn': preexec_fn}
if self.ignore_sighup:
def preexec_wrapper():
"Set SIGHUP to be ignored, then call the real preexec_fn"
signal.signal(signal.SIGHUP, signal.SIG_IGN)
if preexec_fn is not None:
preexec_fn()
kwargs['preexec_fn'] = preexec_wrapper
if dimensions is not None:
kwargs['dimensions'] = dimensions
if self.encoding is not None:
# Encode command line using the specified encoding
self.args = [a if isinstance(a, bytes) else a.encode(self.encoding)
for a in self.args]
self.ptyproc = self._spawnpty(self.args, env=self.env,
cwd=self.cwd, **kwargs)
self.pid = self.ptyproc.pid
self.child_fd = self.ptyproc.fd
self.terminated = False
self.closed = False
def _spawnpty(self, args, **kwargs):
'''Spawn a pty and return an instance of PtyProcess.'''
return ptyprocess.PtyProcess.spawn(args, **kwargs)
def close(self, force=True):
'''This closes the connection with the child application. Note that
calling close() more than once is valid. This emulates standard Python
behavior with files. Set force to True if you want to make sure that
the child is terminated (SIGKILL is sent if the child ignores SIGHUP
and SIGINT). '''
self.flush()
with _wrap_ptyprocess_err():
# PtyProcessError may be raised if it is not possible to terminate
# the child.
self.ptyproc.close(force=force)
self.isalive() # Update exit status from ptyproc
self.child_fd = -1
self.closed = True
def isatty(self):
'''This returns True if the file descriptor is open and connected to a
tty(-like) device, else False.
On SVR4-style platforms implementing streams, such as SunOS and HP-UX,
the child pty may not appear as a terminal device. This means
methods such as setecho(), setwinsize(), getwinsize() may raise an
IOError. '''
return os.isatty(self.child_fd)
def waitnoecho(self, timeout=-1):
'''This waits until the terminal ECHO flag is set False. This returns
True if the echo mode is off. This returns False if the ECHO flag was
not set False before the timeout. This can be used to detect when the
child is waiting for a password. Usually a child application will turn
off echo mode when it is waiting for the user to enter a password. For
example, instead of expecting the "password:" prompt you can wait for
the child to set ECHO off::
p = pexpect.spawn('ssh user@example.com')
p.waitnoecho()
p.sendline(mypassword)
If timeout==-1 then this method will use the value in self.timeout.
If timeout==None then this method to block until ECHO flag is False.
'''
if timeout == -1:
timeout = self.timeout
if timeout is not None:
end_time = time.time() + timeout
while True:
if not self.getecho():
return True
if timeout < 0 and timeout is not None:
return False
if timeout is not None:
timeout = end_time - time.time()
time.sleep(0.1)
def getecho(self):
'''This returns the terminal echo mode. This returns True if echo is
on or False if echo is off. Child applications that are expecting you
to enter a password often set ECHO False. See waitnoecho().
Not supported on platforms where ``isatty()`` returns False. '''
return self.ptyproc.getecho()
def setecho(self, state):
'''This sets the terminal echo mode on or off. Note that anything the
child sent before the echo will be lost, so you should be sure that
your input buffer is empty before you call setecho(). For example, the
following will work as expected::
p = pexpect.spawn('cat') # Echo is on by default.
p.sendline('1234') # We expect see this twice from the child...
p.expect(['1234']) # ... once from the tty echo...
p.expect(['1234']) # ... and again from cat itself.
p.setecho(False) # Turn off tty echo
p.sendline('abcd') # We will set this only once (echoed by cat).
p.sendline('wxyz') # We will set this only once (echoed by cat)
p.expect(['abcd'])
p.expect(['wxyz'])
The following WILL NOT WORK because the lines sent before the setecho
will be lost::
p = pexpect.spawn('cat')
p.sendline('1234')
p.setecho(False) # Turn off tty echo
p.sendline('abcd') # We will set this only once (echoed by cat).
p.sendline('wxyz') # We will set this only once (echoed by cat)
p.expect(['1234'])
p.expect(['1234'])
p.expect(['abcd'])
p.expect(['wxyz'])
Not supported on platforms where ``isatty()`` returns False.
'''
return self.ptyproc.setecho(state)
def read_nonblocking(self, size=1, timeout=-1):
'''This reads at most size characters from the child application. It
includes a timeout. If the read does not complete within the timeout
period then a TIMEOUT exception is raised. If the end of file is read
then an EOF exception will be raised. If a logfile is specified, a
copy is written to that log.
If timeout is None then the read may block indefinitely.
If timeout is -1 then the self.timeout value is used. If timeout is 0
then the child is polled and if there is no data immediately ready
then this will raise a TIMEOUT exception.
The timeout refers only to the amount of time to read at least one
character. This is not affected by the 'size' parameter, so if you call
read_nonblocking(size=100, timeout=30) and only one character is
available right away then one character will be returned immediately.
It will not wait for 30 seconds for another 99 characters to come in.
On the other hand, if there are bytes available to read immediately,
all those bytes will be read (up to the buffer size). So, if the
buffer size is 1 megabyte and there is 1 megabyte of data available
to read, the buffer will be filled, regardless of timeout.
This is a wrapper around os.read(). It uses select.select() or
select.poll() to implement the timeout. '''
if self.closed:
raise ValueError('I/O operation on closed file.')
if self.use_poll:
def select(timeout):
return poll_ignore_interrupts([self.child_fd], timeout)
else:
def select(timeout):
return select_ignore_interrupts([self.child_fd], [], [], timeout)[0]
# If there is data available to read right now, read as much as
# we can. We do this to increase performance if there are a lot
# of bytes to be read. This also avoids calling isalive() too
# often. See also:
# * https://github.com/pexpect/pexpect/pull/304
# * http://trac.sagemath.org/ticket/10295
if select(0):
try:
incoming = super(spawn, self).read_nonblocking(size)
except EOF:
# Maybe the child is dead: update some attributes in that case
self.isalive()
raise
while len(incoming) < size and select(0):
try:
incoming += super(spawn, self).read_nonblocking(size - len(incoming))
except EOF:
# Maybe the child is dead: update some attributes in that case
self.isalive()
# Don't raise EOF, just return what we read so far.
return incoming
return incoming
if timeout == -1:
timeout = self.timeout
if not self.isalive():
# The process is dead, but there may or may not be data
# available to read. Note that some systems such as Solaris
# do not give an EOF when the child dies. In fact, you can
# still try to read from the child_fd -- it will block
# forever or until TIMEOUT. For that reason, it's important
# to do this check before calling select() with timeout.
if select(0):
return super(spawn, self).read_nonblocking(size)
self.flag_eof = True
raise EOF('End Of File (EOF). Braindead platform.')
elif self.__irix_hack:
# Irix takes a long time before it realizes a child was terminated.
# Make sure that the timeout is at least 2 seconds.
# FIXME So does this mean Irix systems are forced to always have
# FIXME a 2 second delay when calling read_nonblocking? That sucks.
if timeout is not None and timeout < 2:
timeout = 2
# Because of the select(0) check above, we know that no data
# is available right now. But if a non-zero timeout is given
# (possibly timeout=None), we call select() with a timeout.
if (timeout != 0) and select(timeout):
return super(spawn, self).read_nonblocking(size)
if not self.isalive():
# Some platforms, such as Irix, will claim that their
# processes are alive; timeout on the select; and
# then finally admit that they are not alive.
self.flag_eof = True
raise EOF('End of File (EOF). Very slow platform.')
else:
raise TIMEOUT('Timeout exceeded.')
def write(self, s):
'''This is similar to send() except that there is no return value.
'''
self.send(s)
def writelines(self, sequence):
'''This calls write() for each element in the sequence. The sequence
can be any iterable object producing strings, typically a list of
strings. This does not add line separators. There is no return value.
'''
for s in sequence:
self.write(s)
def send(self, s):
'''Sends string ``s`` to the child process, returning the number of
bytes written. If a logfile is specified, a copy is written to that
log.
The default terminal input mode is canonical processing unless set
otherwise by the child process. This allows backspace and other line
processing to be performed prior to transmitting to the receiving
program. As this is buffered, there is a limited size of such buffer.
On Linux systems, this is 4096 (defined by N_TTY_BUF_SIZE). All
other systems honor the POSIX.1 definition PC_MAX_CANON -- 1024
on OSX, 256 on OpenSolaris, and 1920 on FreeBSD.
This value may be discovered using fpathconf(3)::
>>> from os import fpathconf
>>> print(fpathconf(0, 'PC_MAX_CANON'))
256
On such a system, only 256 bytes may be received per line. Any
subsequent bytes received will be discarded. BEL (``'\a'``) is then
sent to output if IMAXBEL (termios.h) is set by the tty driver.
This is usually enabled by default. Linux does not honor this as
an option -- it behaves as though it is always set on.
Canonical input processing may be disabled altogether by executing
a shell, then stty(1), before executing the final program::
>>> bash = pexpect.spawn('/bin/bash', echo=False)
>>> bash.sendline('stty -icanon')
>>> bash.sendline('base64')
>>> bash.sendline('x' * 5000)
'''
if self.delaybeforesend is not None:
time.sleep(self.delaybeforesend)
s = self._coerce_send_string(s)
self._log(s, 'send')
b = self._encoder.encode(s, final=False)
return os.write(self.child_fd, b)
def sendline(self, s=''):
'''Wraps send(), sending string ``s`` to child process, with
``os.linesep`` automatically appended. Returns number of bytes
written. Only a limited number of bytes may be sent for each
line in the default terminal mode, see docstring of :meth:`send`.
'''
s = self._coerce_send_string(s)
return self.send(s + self.linesep)
def _log_control(self, s):
"""Write control characters to the appropriate log files"""
if self.encoding is not None:
s = s.decode(self.encoding, 'replace')
self._log(s, 'send')
def sendcontrol(self, char):
'''Helper method that wraps send() with mnemonic access for sending control
character to the child (such as Ctrl-C or Ctrl-D). For example, to send
Ctrl-G (ASCII 7, bell, '\a')::
child.sendcontrol('g')
See also, sendintr() and sendeof().
'''
n, byte = self.ptyproc.sendcontrol(char)
self._log_control(byte)
return n
def sendeof(self):
'''This sends an EOF to the child. This sends a character which causes
the pending parent output buffer to be sent to the waiting child
program without waiting for end-of-line. If it is the first character
of the line, the read() in the user program returns 0, which signifies
end-of-file. This means to work as expected a sendeof() has to be
called at the beginning of a line. This method does not send a newline.
It is the responsibility of the caller to ensure the eof is sent at the
beginning of a line. '''
n, byte = self.ptyproc.sendeof()
self._log_control(byte)
def sendintr(self):
'''This sends a SIGINT to the child. It does not require
the SIGINT to be the first character on a line. '''
n, byte = self.ptyproc.sendintr()
self._log_control(byte)
@property
def flag_eof(self):
return self.ptyproc.flag_eof
@flag_eof.setter
def flag_eof(self, value):
self.ptyproc.flag_eof = value
def eof(self):
'''This returns True if the EOF exception was ever raised.
'''
return self.flag_eof
def terminate(self, force=False):
'''This forces a child process to terminate. It starts nicely with
SIGHUP and SIGINT. If "force" is True then moves onto SIGKILL. This
returns True if the child was terminated. This returns False if the
child could not be terminated. '''
if not self.isalive():
return True
try:
self.kill(signal.SIGHUP)
time.sleep(self.delayafterterminate)
if not self.isalive():
return True
self.kill(signal.SIGCONT)
time.sleep(self.delayafterterminate)
if not self.isalive():
return True
self.kill(signal.SIGINT)
time.sleep(self.delayafterterminate)
if not self.isalive():
return True
if force:
self.kill(signal.SIGKILL)
time.sleep(self.delayafterterminate)
if not self.isalive():
return True
else:
return False
return False
except OSError:
# I think there are kernel timing issues that sometimes cause
# this to happen. I think isalive() reports True, but the
# process is dead to the kernel.
# Make one last attempt to see if the kernel is up to date.
time.sleep(self.delayafterterminate)
if not self.isalive():
return True
else:
return False
def wait(self):
'''This waits until the child exits. This is a blocking call. This will
not read any data from the child, so this will block forever if the
child has unread output and has terminated. In other words, the child
may have printed output then called exit(), but, the child is
technically still alive until its output is read by the parent.
This method is non-blocking if :meth:`wait` has already been called
previously or :meth:`isalive` method returns False. It simply returns
the previously determined exit status.
'''
ptyproc = self.ptyproc
with _wrap_ptyprocess_err():
# exception may occur if "Is some other process attempting
# "job control with our child pid?"
exitstatus = ptyproc.wait()
self.status = ptyproc.status
self.exitstatus = ptyproc.exitstatus
self.signalstatus = ptyproc.signalstatus
self.terminated = True
return exitstatus
def isalive(self):
'''This tests if the child process is running or not. This is
non-blocking. If the child was terminated then this will read the
exitstatus or signalstatus of the child. This returns True if the child
process appears to be running or False if not. It can take literally
SECONDS for Solaris to return the right status. '''
ptyproc = self.ptyproc
with _wrap_ptyprocess_err():
alive = ptyproc.isalive()
if not alive:
self.status = ptyproc.status
self.exitstatus = ptyproc.exitstatus
self.signalstatus = ptyproc.signalstatus
self.terminated = True
return alive
def kill(self, sig):
'''This sends the given signal to the child application. In keeping
with UNIX tradition it has a misleading name. It does not necessarily
kill the child unless you send the right signal. '''
# Same as os.kill, but the pid is given for you.
if self.isalive():
os.kill(self.pid, sig)
def getwinsize(self):
'''This returns the terminal window size of the child tty. The return
value is a tuple of (rows, cols). '''
return self.ptyproc.getwinsize()
def setwinsize(self, rows, cols):
'''This sets the terminal window size of the child tty. This will cause
a SIGWINCH signal to be sent to the child. This does not change the
physical window size. It changes the size reported to TTY-aware
applications like vi or curses -- applications that respond to the
SIGWINCH signal. '''
return self.ptyproc.setwinsize(rows, cols)
def interact(self, escape_character=chr(29),
input_filter=None, output_filter=None):
'''This gives control of the child process to the interactive user (the
human at the keyboard). Keystrokes are sent to the child process, and
the stdout and stderr output of the child process is printed. This
simply echos the child stdout and child stderr to the real stdout and
it echos the real stdin to the child stdin. When the user types the
escape_character this method will return None. The escape_character
will not be transmitted. The default for escape_character is
entered as ``Ctrl - ]``, the very same as BSD telnet. To prevent
escaping, escape_character may be set to None.
If a logfile is specified, then the data sent and received from the
child process in interact mode is duplicated to the given log.
You may pass in optional input and output filter functions. These
functions should take a string and return a string. The output_filter
will be passed all the output from the child process. The input_filter
will be passed all the keyboard input from the user. The input_filter
is run BEFORE the check for the escape_character.
Note that if you change the window size of the parent the SIGWINCH
signal will not be passed through to the child. If you want the child
window size to change when the parent's window size changes then do
something like the following example::
import pexpect, struct, fcntl, termios, signal, sys
def sigwinch_passthrough (sig, data):
s = struct.pack("HHHH", 0, 0, 0, 0)
a = struct.unpack('hhhh', fcntl.ioctl(sys.stdout.fileno(),
termios.TIOCGWINSZ , s))
if not p.closed:
p.setwinsize(a[0],a[1])
# Note this 'p' is global and used in sigwinch_passthrough.
p = pexpect.spawn('/bin/bash')
signal.signal(signal.SIGWINCH, sigwinch_passthrough)
p.interact()
'''
# Flush the buffer.
self.write_to_stdout(self.buffer)
self.stdout.flush()
self._buffer = self.buffer_type()
mode = tty.tcgetattr(self.STDIN_FILENO)
tty.setraw(self.STDIN_FILENO)
if escape_character is not None and PY3:
escape_character = escape_character.encode('latin-1')
try:
self.__interact_copy(escape_character, input_filter, output_filter)
finally:
tty.tcsetattr(self.STDIN_FILENO, tty.TCSAFLUSH, mode)
def __interact_writen(self, fd, data):
'''This is used by the interact() method.
'''
while data != b'' and self.isalive():
n = os.write(fd, data)
data = data[n:]
def __interact_read(self, fd):
'''This is used by the interact() method.
'''
return os.read(fd, 1000)
def __interact_copy(
self, escape_character=None, input_filter=None, output_filter=None
):
'''This is used by the interact() method.
'''
while self.isalive():
if self.use_poll:
r = poll_ignore_interrupts([self.child_fd, self.STDIN_FILENO])
else:
r, w, e = select_ignore_interrupts(
[self.child_fd, self.STDIN_FILENO], [], []
)
if self.child_fd in r:
try:
data = self.__interact_read(self.child_fd)
except OSError as err:
if err.args[0] == errno.EIO:
# Linux-style EOF
break
raise
if data == b'':
# BSD-style EOF
break
if output_filter:
data = output_filter(data)
self._log(data, 'read')
os.write(self.STDOUT_FILENO, data)
if self.STDIN_FILENO in r:
data = self.__interact_read(self.STDIN_FILENO)
if input_filter:
data = input_filter(data)
i = -1
if escape_character is not None:
i = data.rfind(escape_character)
if i != -1:
data = data[:i]
if data:
self._log(data, 'send')
self.__interact_writen(self.child_fd, data)
break
self._log(data, 'send')
self.__interact_writen(self.child_fd, data)
def spawnu(*args, **kwargs):
"""Deprecated: pass encoding to spawn() instead."""
kwargs.setdefault('encoding', 'utf-8')
return spawn(*args, **kwargs)

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'''This class extends pexpect.spawn to specialize setting up SSH connections.
This adds methods for login, logout, and expecting the shell prompt.
PEXPECT LICENSE
This license is approved by the OSI and FSF as GPL-compatible.
http://opensource.org/licenses/isc-license.txt
Copyright (c) 2012, Noah Spurrier <noah@noah.org>
PERMISSION TO USE, COPY, MODIFY, AND/OR DISTRIBUTE THIS SOFTWARE FOR ANY
PURPOSE WITH OR WITHOUT FEE IS HEREBY GRANTED, PROVIDED THAT THE ABOVE
COPYRIGHT NOTICE AND THIS PERMISSION NOTICE APPEAR IN ALL COPIES.
THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
'''
from pexpect import ExceptionPexpect, TIMEOUT, EOF, spawn
import time
import os
import sys
import re
__all__ = ['ExceptionPxssh', 'pxssh']
# Exception classes used by this module.
class ExceptionPxssh(ExceptionPexpect):
'''Raised for pxssh exceptions.
'''
if sys.version_info > (3, 0):
from shlex import quote
else:
_find_unsafe = re.compile(r'[^\w@%+=:,./-]').search
def quote(s):
"""Return a shell-escaped version of the string *s*."""
if not s:
return "''"
if _find_unsafe(s) is None:
return s
# use single quotes, and put single quotes into double quotes
# the string $'b is then quoted as '$'"'"'b'
return "'" + s.replace("'", "'\"'\"'") + "'"
class pxssh (spawn):
'''This class extends pexpect.spawn to specialize setting up SSH
connections. This adds methods for login, logout, and expecting the shell
prompt. It does various tricky things to handle many situations in the SSH
login process. For example, if the session is your first login, then pxssh
automatically accepts the remote certificate; or if you have public key
authentication setup then pxssh won't wait for the password prompt.
pxssh uses the shell prompt to synchronize output from the remote host. In
order to make this more robust it sets the shell prompt to something more
unique than just $ or #. This should work on most Borne/Bash or Csh style
shells.
Example that runs a few commands on a remote server and prints the result::
from pexpect import pxssh
import getpass
try:
s = pxssh.pxssh()
hostname = raw_input('hostname: ')
username = raw_input('username: ')
password = getpass.getpass('password: ')
s.login(hostname, username, password)
s.sendline('uptime') # run a command
s.prompt() # match the prompt
print(s.before) # print everything before the prompt.
s.sendline('ls -l')
s.prompt()
print(s.before)
s.sendline('df')
s.prompt()
print(s.before)
s.logout()
except pxssh.ExceptionPxssh as e:
print("pxssh failed on login.")
print(e)
Example showing how to specify SSH options::
from pexpect import pxssh
s = pxssh.pxssh(options={
"StrictHostKeyChecking": "no",
"UserKnownHostsFile": "/dev/null"})
...
Note that if you have ssh-agent running while doing development with pxssh
then this can lead to a lot of confusion. Many X display managers (xdm,
gdm, kdm, etc.) will automatically start a GUI agent. You may see a GUI
dialog box popup asking for a password during development. You should turn
off any key agents during testing. The 'force_password' attribute will turn
off public key authentication. This will only work if the remote SSH server
is configured to allow password logins. Example of using 'force_password'
attribute::
s = pxssh.pxssh()
s.force_password = True
hostname = raw_input('hostname: ')
username = raw_input('username: ')
password = getpass.getpass('password: ')
s.login (hostname, username, password)
`debug_command_string` is only for the test suite to confirm that the string
generated for SSH is correct, using this will not allow you to do
anything other than get a string back from `pxssh.pxssh.login()`.
'''
def __init__ (self, timeout=30, maxread=2000, searchwindowsize=None,
logfile=None, cwd=None, env=None, ignore_sighup=True, echo=True,
options={}, encoding=None, codec_errors='strict',
debug_command_string=False, use_poll=False):
spawn.__init__(self, None, timeout=timeout, maxread=maxread,
searchwindowsize=searchwindowsize, logfile=logfile,
cwd=cwd, env=env, ignore_sighup=ignore_sighup, echo=echo,
encoding=encoding, codec_errors=codec_errors, use_poll=use_poll)
self.name = '<pxssh>'
#SUBTLE HACK ALERT! Note that the command that SETS the prompt uses a
#slightly different string than the regular expression to match it. This
#is because when you set the prompt the command will echo back, but we
#don't want to match the echoed command. So if we make the set command
#slightly different than the regex we eliminate the problem. To make the
#set command different we add a backslash in front of $. The $ doesn't
#need to be escaped, but it doesn't hurt and serves to make the set
#prompt command different than the regex.
# used to match the command-line prompt
self.UNIQUE_PROMPT = r"\[PEXPECT\][\$\#] "
self.PROMPT = self.UNIQUE_PROMPT
# used to set shell command-line prompt to UNIQUE_PROMPT.
self.PROMPT_SET_SH = r"PS1='[PEXPECT]\$ '"
self.PROMPT_SET_CSH = r"set prompt='[PEXPECT]\$ '"
self.SSH_OPTS = ("-o'RSAAuthentication=no'"
+ " -o 'PubkeyAuthentication=no'")
# Disabling host key checking, makes you vulnerable to MITM attacks.
# + " -o 'StrictHostKeyChecking=no'"
# + " -o 'UserKnownHostsFile /dev/null' ")
# Disabling X11 forwarding gets rid of the annoying SSH_ASKPASS from
# displaying a GUI password dialog. I have not figured out how to
# disable only SSH_ASKPASS without also disabling X11 forwarding.
# Unsetting SSH_ASKPASS on the remote side doesn't disable it! Annoying!
#self.SSH_OPTS = "-x -o'RSAAuthentication=no' -o 'PubkeyAuthentication=no'"
self.force_password = False
self.debug_command_string = debug_command_string
# User defined SSH options, eg,
# ssh.otions = dict(StrictHostKeyChecking="no",UserKnownHostsFile="/dev/null")
self.options = options
def levenshtein_distance(self, a, b):
'''This calculates the Levenshtein distance between a and b.
'''
n, m = len(a), len(b)
if n > m:
a,b = b,a
n,m = m,n
current = range(n+1)
for i in range(1,m+1):
previous, current = current, [i]+[0]*n
for j in range(1,n+1):
add, delete = previous[j]+1, current[j-1]+1
change = previous[j-1]
if a[j-1] != b[i-1]:
change = change + 1
current[j] = min(add, delete, change)
return current[n]
def try_read_prompt(self, timeout_multiplier):
'''This facilitates using communication timeouts to perform
synchronization as quickly as possible, while supporting high latency
connections with a tunable worst case performance. Fast connections
should be read almost immediately. Worst case performance for this
method is timeout_multiplier * 3 seconds.
'''
# maximum time allowed to read the first response
first_char_timeout = timeout_multiplier * 0.5
# maximum time allowed between subsequent characters
inter_char_timeout = timeout_multiplier * 0.1
# maximum time for reading the entire prompt
total_timeout = timeout_multiplier * 3.0
prompt = self.string_type()
begin = time.time()
expired = 0.0
timeout = first_char_timeout
while expired < total_timeout:
try:
prompt += self.read_nonblocking(size=1, timeout=timeout)
expired = time.time() - begin # updated total time expired
timeout = inter_char_timeout
except TIMEOUT:
break
return prompt
def sync_original_prompt (self, sync_multiplier=1.0):
'''This attempts to find the prompt. Basically, press enter and record
the response; press enter again and record the response; if the two
responses are similar then assume we are at the original prompt.
This can be a slow function. Worst case with the default sync_multiplier
can take 12 seconds. Low latency connections are more likely to fail
with a low sync_multiplier. Best case sync time gets worse with a
high sync multiplier (500 ms with default). '''
# All of these timing pace values are magic.
# I came up with these based on what seemed reliable for
# connecting to a heavily loaded machine I have.
self.sendline()
time.sleep(0.1)
try:
# Clear the buffer before getting the prompt.
self.try_read_prompt(sync_multiplier)
except TIMEOUT:
pass
self.sendline()
x = self.try_read_prompt(sync_multiplier)
self.sendline()
a = self.try_read_prompt(sync_multiplier)
self.sendline()
b = self.try_read_prompt(sync_multiplier)
ld = self.levenshtein_distance(a,b)
len_a = len(a)
if len_a == 0:
return False
if float(ld)/len_a < 0.4:
return True
return False
### TODO: This is getting messy and I'm pretty sure this isn't perfect.
### TODO: I need to draw a flow chart for this.
### TODO: Unit tests for SSH tunnels, remote SSH command exec, disabling original prompt sync
def login (self, server, username=None, password='', terminal_type='ansi',
original_prompt=r"[#$]", login_timeout=10, port=None,
auto_prompt_reset=True, ssh_key=None, quiet=True,
sync_multiplier=1, check_local_ip=True,
password_regex=r'(?i)(?:password:)|(?:passphrase for key)',
ssh_tunnels={}, spawn_local_ssh=True,
sync_original_prompt=True, ssh_config=None, cmd='ssh'):
'''This logs the user into the given server.
It uses 'original_prompt' to try to find the prompt right after login.
When it finds the prompt it immediately tries to reset the prompt to
something more easily matched. The default 'original_prompt' is very
optimistic and is easily fooled. It's more reliable to try to match the original
prompt as exactly as possible to prevent false matches by server
strings such as the "Message Of The Day". On many systems you can
disable the MOTD on the remote server by creating a zero-length file
called :file:`~/.hushlogin` on the remote server. If a prompt cannot be found
then this will not necessarily cause the login to fail. In the case of
a timeout when looking for the prompt we assume that the original
prompt was so weird that we could not match it, so we use a few tricks
to guess when we have reached the prompt. Then we hope for the best and
blindly try to reset the prompt to something more unique. If that fails
then login() raises an :class:`ExceptionPxssh` exception.
In some situations it is not possible or desirable to reset the
original prompt. In this case, pass ``auto_prompt_reset=False`` to
inhibit setting the prompt to the UNIQUE_PROMPT. Remember that pxssh
uses a unique prompt in the :meth:`prompt` method. If the original prompt is
not reset then this will disable the :meth:`prompt` method unless you
manually set the :attr:`PROMPT` attribute.
Set ``password_regex`` if there is a MOTD message with `password` in it.
Changing this is like playing in traffic, don't (p)expect it to match straight
away.
If you require to connect to another SSH server from the your original SSH
connection set ``spawn_local_ssh`` to `False` and this will use your current
session to do so. Setting this option to `False` and not having an active session
will trigger an error.
Set ``ssh_key`` to a file path to an SSH private key to use that SSH key
for the session authentication.
Set ``ssh_key`` to `True` to force passing the current SSH authentication socket
to the desired ``hostname``.
Set ``ssh_config`` to a file path string of an SSH client config file to pass that
file to the client to handle itself. You may set any options you wish in here, however
doing so will require you to post extra information that you may not want to if you
run into issues.
Alter the ``cmd`` to change the ssh client used, or to prepend it with network
namespaces. For example ```cmd="ip netns exec vlan2 ssh"``` to execute the ssh in
network namespace named ```vlan```.
'''
session_regex_array = ["(?i)are you sure you want to continue connecting", original_prompt, password_regex, "(?i)permission denied", "(?i)terminal type", TIMEOUT]
session_init_regex_array = []
session_init_regex_array.extend(session_regex_array)
session_init_regex_array.extend(["(?i)connection closed by remote host", EOF])
ssh_options = ''.join([" -o '%s=%s'" % (o, v) for (o, v) in self.options.items()])
if quiet:
ssh_options = ssh_options + ' -q'
if not check_local_ip:
ssh_options = ssh_options + " -o'NoHostAuthenticationForLocalhost=yes'"
if self.force_password:
ssh_options = ssh_options + ' ' + self.SSH_OPTS
if ssh_config is not None:
if spawn_local_ssh and not os.path.isfile(ssh_config):
raise ExceptionPxssh('SSH config does not exist or is not a file.')
ssh_options = ssh_options + ' -F ' + ssh_config
if port is not None:
ssh_options = ssh_options + ' -p %s'%(str(port))
if ssh_key is not None:
# Allow forwarding our SSH key to the current session
if ssh_key==True:
ssh_options = ssh_options + ' -A'
else:
if spawn_local_ssh and not os.path.isfile(ssh_key):
raise ExceptionPxssh('private ssh key does not exist or is not a file.')
ssh_options = ssh_options + ' -i %s' % (ssh_key)
# SSH tunnels, make sure you know what you're putting into the lists
# under each heading. Do not expect these to open 100% of the time,
# The port you're requesting might be bound.
#
# The structure should be like this:
# { 'local': ['2424:localhost:22'], # Local SSH tunnels
# 'remote': ['2525:localhost:22'], # Remote SSH tunnels
# 'dynamic': [8888] } # Dynamic/SOCKS tunnels
if ssh_tunnels!={} and isinstance({},type(ssh_tunnels)):
tunnel_types = {
'local':'L',
'remote':'R',
'dynamic':'D'
}
for tunnel_type in tunnel_types:
cmd_type = tunnel_types[tunnel_type]
if tunnel_type in ssh_tunnels:
tunnels = ssh_tunnels[tunnel_type]
for tunnel in tunnels:
if spawn_local_ssh==False:
tunnel = quote(str(tunnel))
ssh_options = ssh_options + ' -' + cmd_type + ' ' + str(tunnel)
if username is not None:
ssh_options = ssh_options + ' -l ' + username
elif ssh_config is None:
raise TypeError('login() needs either a username or an ssh_config')
else: # make sure ssh_config has an entry for the server with a username
with open(ssh_config, 'rt') as f:
lines = [l.strip() for l in f.readlines()]
server_regex = r'^Host\s+%s\s*$' % server
user_regex = r'^User\s+\w+\s*$'
config_has_server = False
server_has_username = False
for line in lines:
if not config_has_server and re.match(server_regex, line, re.IGNORECASE):
config_has_server = True
elif config_has_server and 'hostname' in line.lower():
pass
elif config_has_server and 'host' in line.lower():
server_has_username = False # insurance
break # we have left the relevant section
elif config_has_server and re.match(user_regex, line, re.IGNORECASE):
server_has_username = True
break
if lines:
del line
del lines
if not config_has_server:
raise TypeError('login() ssh_config has no Host entry for %s' % server)
elif not server_has_username:
raise TypeError('login() ssh_config has no user entry for %s' % server)
cmd += " %s %s" % (ssh_options, server)
if self.debug_command_string:
return(cmd)
# Are we asking for a local ssh command or to spawn one in another session?
if spawn_local_ssh:
spawn._spawn(self, cmd)
else:
self.sendline(cmd)
# This does not distinguish between a remote server 'password' prompt
# and a local ssh 'passphrase' prompt (for unlocking a private key).
i = self.expect(session_init_regex_array, timeout=login_timeout)
# First phase
if i==0:
# New certificate -- always accept it.
# This is what you get if SSH does not have the remote host's
# public key stored in the 'known_hosts' cache.
self.sendline("yes")
i = self.expect(session_regex_array)
if i==2: # password or passphrase
self.sendline(password)
i = self.expect(session_regex_array)
if i==4:
self.sendline(terminal_type)
i = self.expect(session_regex_array)
if i==7:
self.close()
raise ExceptionPxssh('Could not establish connection to host')
# Second phase
if i==0:
# This is weird. This should not happen twice in a row.
self.close()
raise ExceptionPxssh('Weird error. Got "are you sure" prompt twice.')
elif i==1: # can occur if you have a public key pair set to authenticate.
### TODO: May NOT be OK if expect() got tricked and matched a false prompt.
pass
elif i==2: # password prompt again
# For incorrect passwords, some ssh servers will
# ask for the password again, others return 'denied' right away.
# If we get the password prompt again then this means
# we didn't get the password right the first time.
self.close()
raise ExceptionPxssh('password refused')
elif i==3: # permission denied -- password was bad.
self.close()
raise ExceptionPxssh('permission denied')
elif i==4: # terminal type again? WTF?
self.close()
raise ExceptionPxssh('Weird error. Got "terminal type" prompt twice.')
elif i==5: # Timeout
#This is tricky... I presume that we are at the command-line prompt.
#It may be that the shell prompt was so weird that we couldn't match
#it. Or it may be that we couldn't log in for some other reason. I
#can't be sure, but it's safe to guess that we did login because if
#I presume wrong and we are not logged in then this should be caught
#later when I try to set the shell prompt.
pass
elif i==6: # Connection closed by remote host
self.close()
raise ExceptionPxssh('connection closed')
else: # Unexpected
self.close()
raise ExceptionPxssh('unexpected login response')
if sync_original_prompt:
if not self.sync_original_prompt(sync_multiplier):
self.close()
raise ExceptionPxssh('could not synchronize with original prompt')
# We appear to be in.
# set shell prompt to something unique.
if auto_prompt_reset:
if not self.set_unique_prompt():
self.close()
raise ExceptionPxssh('could not set shell prompt '
'(received: %r, expected: %r).' % (
self.before, self.PROMPT,))
return True
def logout (self):
'''Sends exit to the remote shell.
If there are stopped jobs then this automatically sends exit twice.
'''
self.sendline("exit")
index = self.expect([EOF, "(?i)there are stopped jobs"])
if index==1:
self.sendline("exit")
self.expect(EOF)
self.close()
def prompt(self, timeout=-1):
'''Match the next shell prompt.
This is little more than a short-cut to the :meth:`~pexpect.spawn.expect`
method. Note that if you called :meth:`login` with
``auto_prompt_reset=False``, then before calling :meth:`prompt` you must
set the :attr:`PROMPT` attribute to a regex that it will use for
matching the prompt.
Calling :meth:`prompt` will erase the contents of the :attr:`before`
attribute even if no prompt is ever matched. If timeout is not given or
it is set to -1 then self.timeout is used.
:return: True if the shell prompt was matched, False if the timeout was
reached.
'''
if timeout == -1:
timeout = self.timeout
i = self.expect([self.PROMPT, TIMEOUT], timeout=timeout)
if i==1:
return False
return True
def set_unique_prompt(self):
'''This sets the remote prompt to something more unique than ``#`` or ``$``.
This makes it easier for the :meth:`prompt` method to match the shell prompt
unambiguously. This method is called automatically by the :meth:`login`
method, but you may want to call it manually if you somehow reset the
shell prompt. For example, if you 'su' to a different user then you
will need to manually reset the prompt. This sends shell commands to
the remote host to set the prompt, so this assumes the remote host is
ready to receive commands.
Alternatively, you may use your own prompt pattern. In this case you
should call :meth:`login` with ``auto_prompt_reset=False``; then set the
:attr:`PROMPT` attribute to a regular expression. After that, the
:meth:`prompt` method will try to match your prompt pattern.
'''
self.sendline("unset PROMPT_COMMAND")
self.sendline(self.PROMPT_SET_SH) # sh-style
i = self.expect ([TIMEOUT, self.PROMPT], timeout=10)
if i == 0: # csh-style
self.sendline(self.PROMPT_SET_CSH)
i = self.expect([TIMEOUT, self.PROMPT], timeout=10)
if i == 0:
return False
return True
# vi:ts=4:sw=4:expandtab:ft=python:

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"""Generic wrapper for read-eval-print-loops, a.k.a. interactive shells
"""
import os.path
import signal
import sys
import pexpect
PY3 = (sys.version_info[0] >= 3)
if PY3:
basestring = str
PEXPECT_PROMPT = u'[PEXPECT_PROMPT>'
PEXPECT_CONTINUATION_PROMPT = u'[PEXPECT_PROMPT+'
class REPLWrapper(object):
"""Wrapper for a REPL.
:param cmd_or_spawn: This can either be an instance of :class:`pexpect.spawn`
in which a REPL has already been started, or a str command to start a new
REPL process.
:param str orig_prompt: The prompt to expect at first.
:param str prompt_change: A command to change the prompt to something more
unique. If this is ``None``, the prompt will not be changed. This will
be formatted with the new and continuation prompts as positional
parameters, so you can use ``{}`` style formatting to insert them into
the command.
:param str new_prompt: The more unique prompt to expect after the change.
:param str extra_init_cmd: Commands to do extra initialisation, such as
disabling pagers.
"""
def __init__(self, cmd_or_spawn, orig_prompt, prompt_change,
new_prompt=PEXPECT_PROMPT,
continuation_prompt=PEXPECT_CONTINUATION_PROMPT,
extra_init_cmd=None):
if isinstance(cmd_or_spawn, basestring):
self.child = pexpect.spawn(cmd_or_spawn, echo=False, encoding='utf-8')
else:
self.child = cmd_or_spawn
if self.child.echo:
# Existing spawn instance has echo enabled, disable it
# to prevent our input from being repeated to output.
self.child.setecho(False)
self.child.waitnoecho()
if prompt_change is None:
self.prompt = orig_prompt
else:
self.set_prompt(orig_prompt,
prompt_change.format(new_prompt, continuation_prompt))
self.prompt = new_prompt
self.continuation_prompt = continuation_prompt
self._expect_prompt()
if extra_init_cmd is not None:
self.run_command(extra_init_cmd)
def set_prompt(self, orig_prompt, prompt_change):
self.child.expect(orig_prompt)
self.child.sendline(prompt_change)
def _expect_prompt(self, timeout=-1, async_=False):
return self.child.expect_exact([self.prompt, self.continuation_prompt],
timeout=timeout, async_=async_)
def run_command(self, command, timeout=-1, async_=False):
"""Send a command to the REPL, wait for and return output.
:param str command: The command to send. Trailing newlines are not needed.
This should be a complete block of input that will trigger execution;
if a continuation prompt is found after sending input, :exc:`ValueError`
will be raised.
:param int timeout: How long to wait for the next prompt. -1 means the
default from the :class:`pexpect.spawn` object (default 30 seconds).
None means to wait indefinitely.
:param bool async_: On Python 3.4, or Python 3.3 with asyncio
installed, passing ``async_=True`` will make this return an
:mod:`asyncio` Future, which you can yield from to get the same
result that this method would normally give directly.
"""
# Split up multiline commands and feed them in bit-by-bit
cmdlines = command.splitlines()
# splitlines ignores trailing newlines - add it back in manually
if command.endswith('\n'):
cmdlines.append('')
if not cmdlines:
raise ValueError("No command was given")
if async_:
from ._async import repl_run_command_async
return repl_run_command_async(self, cmdlines, timeout)
res = []
self.child.sendline(cmdlines[0])
for line in cmdlines[1:]:
self._expect_prompt(timeout=timeout)
res.append(self.child.before)
self.child.sendline(line)
# Command was fully submitted, now wait for the next prompt
if self._expect_prompt(timeout=timeout) == 1:
# We got the continuation prompt - command was incomplete
self.child.kill(signal.SIGINT)
self._expect_prompt(timeout=1)
raise ValueError("Continuation prompt found - input was incomplete:\n"
+ command)
return u''.join(res + [self.child.before])
def python(command="python"):
"""Start a Python shell and return a :class:`REPLWrapper` object."""
return REPLWrapper(command, u">>> ", u"import sys; sys.ps1={0!r}; sys.ps2={1!r}")
def bash(command="bash"):
"""Start a bash shell and return a :class:`REPLWrapper` object."""
bashrc = os.path.join(os.path.dirname(__file__), 'bashrc.sh')
child = pexpect.spawn(command, ['--rcfile', bashrc], echo=False,
encoding='utf-8')
# If the user runs 'env', the value of PS1 will be in the output. To avoid
# replwrap seeing that as the next prompt, we'll embed the marker characters
# for invisible characters in the prompt; these show up when inspecting the
# environment variable, but not when bash displays the prompt.
ps1 = PEXPECT_PROMPT[:5] + u'\\[\\]' + PEXPECT_PROMPT[5:]
ps2 = PEXPECT_CONTINUATION_PROMPT[:5] + u'\\[\\]' + PEXPECT_CONTINUATION_PROMPT[5:]
prompt_change = u"PS1='{0}' PS2='{1}' PROMPT_COMMAND=''".format(ps1, ps2)
return REPLWrapper(child, u'\\$', prompt_change,
extra_init_cmd="export PAGER=cat")

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import sys
import types
from .exceptions import EOF, TIMEOUT
from .pty_spawn import spawn
def run(command, timeout=30, withexitstatus=False, events=None,
extra_args=None, logfile=None, cwd=None, env=None, **kwargs):
'''
This function runs the given command; waits for it to finish; then
returns all output as a string. STDERR is included in output. If the full
path to the command is not given then the path is searched.
Note that lines are terminated by CR/LF (\\r\\n) combination even on
UNIX-like systems because this is the standard for pseudottys. If you set
'withexitstatus' to true, then run will return a tuple of (command_output,
exitstatus). If 'withexitstatus' is false then this returns just
command_output.
The run() function can often be used instead of creating a spawn instance.
For example, the following code uses spawn::
from pexpect import *
child = spawn('scp foo user@example.com:.')
child.expect('(?i)password')
child.sendline(mypassword)
The previous code can be replace with the following::
from pexpect import *
run('scp foo user@example.com:.', events={'(?i)password': mypassword})
**Examples**
Start the apache daemon on the local machine::
from pexpect import *
run("/usr/local/apache/bin/apachectl start")
Check in a file using SVN::
from pexpect import *
run("svn ci -m 'automatic commit' my_file.py")
Run a command and capture exit status::
from pexpect import *
(command_output, exitstatus) = run('ls -l /bin', withexitstatus=1)
The following will run SSH and execute 'ls -l' on the remote machine. The
password 'secret' will be sent if the '(?i)password' pattern is ever seen::
run("ssh username@machine.example.com 'ls -l'",
events={'(?i)password':'secret\\n'})
This will start mencoder to rip a video from DVD. This will also display
progress ticks every 5 seconds as it runs. For example::
from pexpect import *
def print_ticks(d):
print d['event_count'],
run("mencoder dvd://1 -o video.avi -oac copy -ovc copy",
events={TIMEOUT:print_ticks}, timeout=5)
The 'events' argument should be either a dictionary or a tuple list that
contains patterns and responses. Whenever one of the patterns is seen
in the command output, run() will send the associated response string.
So, run() in the above example can be also written as:
run("mencoder dvd://1 -o video.avi -oac copy -ovc copy",
events=[(TIMEOUT,print_ticks)], timeout=5)
Use a tuple list for events if the command output requires a delicate
control over what pattern should be matched, since the tuple list is passed
to pexpect() as its pattern list, with the order of patterns preserved.
Note that you should put newlines in your string if Enter is necessary.
Like the example above, the responses may also contain a callback, either
a function or method. It should accept a dictionary value as an argument.
The dictionary contains all the locals from the run() function, so you can
access the child spawn object or any other variable defined in run()
(event_count, child, and extra_args are the most useful). A callback may
return True to stop the current run process. Otherwise run() continues
until the next event. A callback may also return a string which will be
sent to the child. 'extra_args' is not used by directly run(). It provides
a way to pass data to a callback function through run() through the locals
dictionary passed to a callback.
Like :class:`spawn`, passing *encoding* will make it work with unicode
instead of bytes. You can pass *codec_errors* to control how errors in
encoding and decoding are handled.
'''
if timeout == -1:
child = spawn(command, maxread=2000, logfile=logfile, cwd=cwd, env=env,
**kwargs)
else:
child = spawn(command, timeout=timeout, maxread=2000, logfile=logfile,
cwd=cwd, env=env, **kwargs)
if isinstance(events, list):
patterns= [x for x,y in events]
responses = [y for x,y in events]
elif isinstance(events, dict):
patterns = list(events.keys())
responses = list(events.values())
else:
# This assumes EOF or TIMEOUT will eventually cause run to terminate.
patterns = None
responses = None
child_result_list = []
event_count = 0
while True:
try:
index = child.expect(patterns)
if isinstance(child.after, child.allowed_string_types):
child_result_list.append(child.before + child.after)
else:
# child.after may have been a TIMEOUT or EOF,
# which we don't want appended to the list.
child_result_list.append(child.before)
if isinstance(responses[index], child.allowed_string_types):
child.send(responses[index])
elif (isinstance(responses[index], types.FunctionType) or
isinstance(responses[index], types.MethodType)):
callback_result = responses[index](locals())
sys.stdout.flush()
if isinstance(callback_result, child.allowed_string_types):
child.send(callback_result)
elif callback_result:
break
else:
raise TypeError("parameter `event' at index {index} must be "
"a string, method, or function: {value!r}"
.format(index=index, value=responses[index]))
event_count = event_count + 1
except TIMEOUT:
child_result_list.append(child.before)
break
except EOF:
child_result_list.append(child.before)
break
child_result = child.string_type().join(child_result_list)
if withexitstatus:
child.close()
return (child_result, child.exitstatus)
else:
return child_result
def runu(command, timeout=30, withexitstatus=False, events=None,
extra_args=None, logfile=None, cwd=None, env=None, **kwargs):
"""Deprecated: pass encoding to run() instead.
"""
kwargs.setdefault('encoding', 'utf-8')
return run(command, timeout=timeout, withexitstatus=withexitstatus,
events=events, extra_args=extra_args, logfile=logfile, cwd=cwd,
env=env, **kwargs)

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'''This implements a virtual screen. This is used to support ANSI terminal
emulation. The screen representation and state is implemented in this class.
Most of the methods are inspired by ANSI screen control codes. The
:class:`~pexpect.ANSI.ANSI` class extends this class to add parsing of ANSI
escape codes.
PEXPECT LICENSE
This license is approved by the OSI and FSF as GPL-compatible.
http://opensource.org/licenses/isc-license.txt
Copyright (c) 2012, Noah Spurrier <noah@noah.org>
PERMISSION TO USE, COPY, MODIFY, AND/OR DISTRIBUTE THIS SOFTWARE FOR ANY
PURPOSE WITH OR WITHOUT FEE IS HEREBY GRANTED, PROVIDED THAT THE ABOVE
COPYRIGHT NOTICE AND THIS PERMISSION NOTICE APPEAR IN ALL COPIES.
THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
'''
import codecs
import copy
import sys
import warnings
warnings.warn(("pexpect.screen and pexpect.ANSI are deprecated. "
"We recommend using pyte to emulate a terminal screen: "
"https://pypi.python.org/pypi/pyte"),
stacklevel=2)
NUL = 0 # Fill character; ignored on input.
ENQ = 5 # Transmit answerback message.
BEL = 7 # Ring the bell.
BS = 8 # Move cursor left.
HT = 9 # Move cursor to next tab stop.
LF = 10 # Line feed.
VT = 11 # Same as LF.
FF = 12 # Same as LF.
CR = 13 # Move cursor to left margin or newline.
SO = 14 # Invoke G1 character set.
SI = 15 # Invoke G0 character set.
XON = 17 # Resume transmission.
XOFF = 19 # Halt transmission.
CAN = 24 # Cancel escape sequence.
SUB = 26 # Same as CAN.
ESC = 27 # Introduce a control sequence.
DEL = 127 # Fill character; ignored on input.
SPACE = u' ' # Space or blank character.
PY3 = (sys.version_info[0] >= 3)
if PY3:
unicode = str
def constrain (n, min, max):
'''This returns a number, n constrained to the min and max bounds. '''
if n < min:
return min
if n > max:
return max
return n
class screen:
'''This object maintains the state of a virtual text screen as a
rectangular array. This maintains a virtual cursor position and handles
scrolling as characters are added. This supports most of the methods needed
by an ANSI text screen. Row and column indexes are 1-based (not zero-based,
like arrays).
Characters are represented internally using unicode. Methods that accept
input characters, when passed 'bytes' (which in Python 2 is equivalent to
'str'), convert them from the encoding specified in the 'encoding'
parameter to the constructor. Methods that return screen contents return
unicode strings, with the exception of __str__() under Python 2. Passing
``encoding=None`` limits the API to only accept unicode input, so passing
bytes in will raise :exc:`TypeError`.
'''
def __init__(self, r=24, c=80, encoding='latin-1', encoding_errors='replace'):
'''This initializes a blank screen of the given dimensions.'''
self.rows = r
self.cols = c
self.encoding = encoding
self.encoding_errors = encoding_errors
if encoding is not None:
self.decoder = codecs.getincrementaldecoder(encoding)(encoding_errors)
else:
self.decoder = None
self.cur_r = 1
self.cur_c = 1
self.cur_saved_r = 1
self.cur_saved_c = 1
self.scroll_row_start = 1
self.scroll_row_end = self.rows
self.w = [ [SPACE] * self.cols for _ in range(self.rows)]
def _decode(self, s):
'''This converts from the external coding system (as passed to
the constructor) to the internal one (unicode). '''
if self.decoder is not None:
return self.decoder.decode(s)
else:
raise TypeError("This screen was constructed with encoding=None, "
"so it does not handle bytes.")
def _unicode(self):
'''This returns a printable representation of the screen as a unicode
string (which, under Python 3.x, is the same as 'str'). The end of each
screen line is terminated by a newline.'''
return u'\n'.join ([ u''.join(c) for c in self.w ])
if PY3:
__str__ = _unicode
else:
__unicode__ = _unicode
def __str__(self):
'''This returns a printable representation of the screen. The end of
each screen line is terminated by a newline. '''
encoding = self.encoding or 'ascii'
return self._unicode().encode(encoding, 'replace')
def dump (self):
'''This returns a copy of the screen as a unicode string. This is similar to
__str__/__unicode__ except that lines are not terminated with line
feeds.'''
return u''.join ([ u''.join(c) for c in self.w ])
def pretty (self):
'''This returns a copy of the screen as a unicode string with an ASCII
text box around the screen border. This is similar to
__str__/__unicode__ except that it adds a box.'''
top_bot = u'+' + u'-'*self.cols + u'+\n'
return top_bot + u'\n'.join([u'|'+line+u'|' for line in unicode(self).split(u'\n')]) + u'\n' + top_bot
def fill (self, ch=SPACE):
if isinstance(ch, bytes):
ch = self._decode(ch)
self.fill_region (1,1,self.rows,self.cols, ch)
def fill_region (self, rs,cs, re,ce, ch=SPACE):
if isinstance(ch, bytes):
ch = self._decode(ch)
rs = constrain (rs, 1, self.rows)
re = constrain (re, 1, self.rows)
cs = constrain (cs, 1, self.cols)
ce = constrain (ce, 1, self.cols)
if rs > re:
rs, re = re, rs
if cs > ce:
cs, ce = ce, cs
for r in range (rs, re+1):
for c in range (cs, ce + 1):
self.put_abs (r,c,ch)
def cr (self):
'''This moves the cursor to the beginning (col 1) of the current row.
'''
self.cursor_home (self.cur_r, 1)
def lf (self):
'''This moves the cursor down with scrolling.
'''
old_r = self.cur_r
self.cursor_down()
if old_r == self.cur_r:
self.scroll_up ()
self.erase_line()
def crlf (self):
'''This advances the cursor with CRLF properties.
The cursor will line wrap and the screen may scroll.
'''
self.cr ()
self.lf ()
def newline (self):
'''This is an alias for crlf().
'''
self.crlf()
def put_abs (self, r, c, ch):
'''Screen array starts at 1 index.'''
r = constrain (r, 1, self.rows)
c = constrain (c, 1, self.cols)
if isinstance(ch, bytes):
ch = self._decode(ch)[0]
else:
ch = ch[0]
self.w[r-1][c-1] = ch
def put (self, ch):
'''This puts a characters at the current cursor position.
'''
if isinstance(ch, bytes):
ch = self._decode(ch)
self.put_abs (self.cur_r, self.cur_c, ch)
def insert_abs (self, r, c, ch):
'''This inserts a character at (r,c). Everything under
and to the right is shifted right one character.
The last character of the line is lost.
'''
if isinstance(ch, bytes):
ch = self._decode(ch)
r = constrain (r, 1, self.rows)
c = constrain (c, 1, self.cols)
for ci in range (self.cols, c, -1):
self.put_abs (r,ci, self.get_abs(r,ci-1))
self.put_abs (r,c,ch)
def insert (self, ch):
if isinstance(ch, bytes):
ch = self._decode(ch)
self.insert_abs (self.cur_r, self.cur_c, ch)
def get_abs (self, r, c):
r = constrain (r, 1, self.rows)
c = constrain (c, 1, self.cols)
return self.w[r-1][c-1]
def get (self):
self.get_abs (self.cur_r, self.cur_c)
def get_region (self, rs,cs, re,ce):
'''This returns a list of lines representing the region.
'''
rs = constrain (rs, 1, self.rows)
re = constrain (re, 1, self.rows)
cs = constrain (cs, 1, self.cols)
ce = constrain (ce, 1, self.cols)
if rs > re:
rs, re = re, rs
if cs > ce:
cs, ce = ce, cs
sc = []
for r in range (rs, re+1):
line = u''
for c in range (cs, ce + 1):
ch = self.get_abs (r,c)
line = line + ch
sc.append (line)
return sc
def cursor_constrain (self):
'''This keeps the cursor within the screen area.
'''
self.cur_r = constrain (self.cur_r, 1, self.rows)
self.cur_c = constrain (self.cur_c, 1, self.cols)
def cursor_home (self, r=1, c=1): # <ESC>[{ROW};{COLUMN}H
self.cur_r = r
self.cur_c = c
self.cursor_constrain ()
def cursor_back (self,count=1): # <ESC>[{COUNT}D (not confused with down)
self.cur_c = self.cur_c - count
self.cursor_constrain ()
def cursor_down (self,count=1): # <ESC>[{COUNT}B (not confused with back)
self.cur_r = self.cur_r + count
self.cursor_constrain ()
def cursor_forward (self,count=1): # <ESC>[{COUNT}C
self.cur_c = self.cur_c + count
self.cursor_constrain ()
def cursor_up (self,count=1): # <ESC>[{COUNT}A
self.cur_r = self.cur_r - count
self.cursor_constrain ()
def cursor_up_reverse (self): # <ESC> M (called RI -- Reverse Index)
old_r = self.cur_r
self.cursor_up()
if old_r == self.cur_r:
self.scroll_up()
def cursor_force_position (self, r, c): # <ESC>[{ROW};{COLUMN}f
'''Identical to Cursor Home.'''
self.cursor_home (r, c)
def cursor_save (self): # <ESC>[s
'''Save current cursor position.'''
self.cursor_save_attrs()
def cursor_unsave (self): # <ESC>[u
'''Restores cursor position after a Save Cursor.'''
self.cursor_restore_attrs()
def cursor_save_attrs (self): # <ESC>7
'''Save current cursor position.'''
self.cur_saved_r = self.cur_r
self.cur_saved_c = self.cur_c
def cursor_restore_attrs (self): # <ESC>8
'''Restores cursor position after a Save Cursor.'''
self.cursor_home (self.cur_saved_r, self.cur_saved_c)
def scroll_constrain (self):
'''This keeps the scroll region within the screen region.'''
if self.scroll_row_start <= 0:
self.scroll_row_start = 1
if self.scroll_row_end > self.rows:
self.scroll_row_end = self.rows
def scroll_screen (self): # <ESC>[r
'''Enable scrolling for entire display.'''
self.scroll_row_start = 1
self.scroll_row_end = self.rows
def scroll_screen_rows (self, rs, re): # <ESC>[{start};{end}r
'''Enable scrolling from row {start} to row {end}.'''
self.scroll_row_start = rs
self.scroll_row_end = re
self.scroll_constrain()
def scroll_down (self): # <ESC>D
'''Scroll display down one line.'''
# Screen is indexed from 1, but arrays are indexed from 0.
s = self.scroll_row_start - 1
e = self.scroll_row_end - 1
self.w[s+1:e+1] = copy.deepcopy(self.w[s:e])
def scroll_up (self): # <ESC>M
'''Scroll display up one line.'''
# Screen is indexed from 1, but arrays are indexed from 0.
s = self.scroll_row_start - 1
e = self.scroll_row_end - 1
self.w[s:e] = copy.deepcopy(self.w[s+1:e+1])
def erase_end_of_line (self): # <ESC>[0K -or- <ESC>[K
'''Erases from the current cursor position to the end of the current
line.'''
self.fill_region (self.cur_r, self.cur_c, self.cur_r, self.cols)
def erase_start_of_line (self): # <ESC>[1K
'''Erases from the current cursor position to the start of the current
line.'''
self.fill_region (self.cur_r, 1, self.cur_r, self.cur_c)
def erase_line (self): # <ESC>[2K
'''Erases the entire current line.'''
self.fill_region (self.cur_r, 1, self.cur_r, self.cols)
def erase_down (self): # <ESC>[0J -or- <ESC>[J
'''Erases the screen from the current line down to the bottom of the
screen.'''
self.erase_end_of_line ()
self.fill_region (self.cur_r + 1, 1, self.rows, self.cols)
def erase_up (self): # <ESC>[1J
'''Erases the screen from the current line up to the top of the
screen.'''
self.erase_start_of_line ()
self.fill_region (self.cur_r-1, 1, 1, self.cols)
def erase_screen (self): # <ESC>[2J
'''Erases the screen with the background color.'''
self.fill ()
def set_tab (self): # <ESC>H
'''Sets a tab at the current position.'''
pass
def clear_tab (self): # <ESC>[g
'''Clears tab at the current position.'''
pass
def clear_all_tabs (self): # <ESC>[3g
'''Clears all tabs.'''
pass
# Insert line Esc [ Pn L
# Delete line Esc [ Pn M
# Delete character Esc [ Pn P
# Scrolling region Esc [ Pn(top);Pn(bot) r

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from io import StringIO, BytesIO
import codecs
import os
import sys
import re
import errno
from .exceptions import ExceptionPexpect, EOF, TIMEOUT
from .expect import Expecter, searcher_string, searcher_re
PY3 = (sys.version_info[0] >= 3)
text_type = str if PY3 else unicode
class _NullCoder(object):
"""Pass bytes through unchanged."""
@staticmethod
def encode(b, final=False):
return b
@staticmethod
def decode(b, final=False):
return b
class SpawnBase(object):
"""A base class providing the backwards-compatible spawn API for Pexpect.
This should not be instantiated directly: use :class:`pexpect.spawn` or
:class:`pexpect.fdpexpect.fdspawn`.
"""
encoding = None
pid = None
flag_eof = False
def __init__(self, timeout=30, maxread=2000, searchwindowsize=None,
logfile=None, encoding=None, codec_errors='strict'):
self.stdin = sys.stdin
self.stdout = sys.stdout
self.stderr = sys.stderr
self.searcher = None
self.ignorecase = False
self.before = None
self.after = None
self.match = None
self.match_index = None
self.terminated = True
self.exitstatus = None
self.signalstatus = None
# status returned by os.waitpid
self.status = None
# the child file descriptor is initially closed
self.child_fd = -1
self.timeout = timeout
self.delimiter = EOF
self.logfile = logfile
# input from child (read_nonblocking)
self.logfile_read = None
# output to send (send, sendline)
self.logfile_send = None
# max bytes to read at one time into buffer
self.maxread = maxread
# Data before searchwindowsize point is preserved, but not searched.
self.searchwindowsize = searchwindowsize
# Delay used before sending data to child. Time in seconds.
# Set this to None to skip the time.sleep() call completely.
self.delaybeforesend = 0.05
# Used by close() to give kernel time to update process status.
# Time in seconds.
self.delayafterclose = 0.1
# Used by terminate() to give kernel time to update process status.
# Time in seconds.
self.delayafterterminate = 0.1
# Delay in seconds to sleep after each call to read_nonblocking().
# Set this to None to skip the time.sleep() call completely: that
# would restore the behavior from pexpect-2.0 (for performance
# reasons or because you don't want to release Python's global
# interpreter lock).
self.delayafterread = 0.0001
self.softspace = False
self.name = '<' + repr(self) + '>'
self.closed = True
# Unicode interface
self.encoding = encoding
self.codec_errors = codec_errors
if encoding is None:
# bytes mode (accepts some unicode for backwards compatibility)
self._encoder = self._decoder = _NullCoder()
self.string_type = bytes
self.buffer_type = BytesIO
self.crlf = b'\r\n'
if PY3:
self.allowed_string_types = (bytes, str)
self.linesep = os.linesep.encode('ascii')
def write_to_stdout(b):
try:
return sys.stdout.buffer.write(b)
except AttributeError:
# If stdout has been replaced, it may not have .buffer
return sys.stdout.write(b.decode('ascii', 'replace'))
self.write_to_stdout = write_to_stdout
else:
self.allowed_string_types = (basestring,) # analysis:ignore
self.linesep = os.linesep
self.write_to_stdout = sys.stdout.write
else:
# unicode mode
self._encoder = codecs.getincrementalencoder(encoding)(codec_errors)
self._decoder = codecs.getincrementaldecoder(encoding)(codec_errors)
self.string_type = text_type
self.buffer_type = StringIO
self.crlf = u'\r\n'
self.allowed_string_types = (text_type, )
if PY3:
self.linesep = os.linesep
else:
self.linesep = os.linesep.decode('ascii')
# This can handle unicode in both Python 2 and 3
self.write_to_stdout = sys.stdout.write
# storage for async transport
self.async_pw_transport = None
# This is the read buffer. See maxread.
self._buffer = self.buffer_type()
def _log(self, s, direction):
if self.logfile is not None:
self.logfile.write(s)
self.logfile.flush()
second_log = self.logfile_send if (direction=='send') else self.logfile_read
if second_log is not None:
second_log.write(s)
second_log.flush()
# For backwards compatibility, in bytes mode (when encoding is None)
# unicode is accepted for send and expect. Unicode mode is strictly unicode
# only.
def _coerce_expect_string(self, s):
if self.encoding is None and not isinstance(s, bytes):
return s.encode('ascii')
return s
def _coerce_send_string(self, s):
if self.encoding is None and not isinstance(s, bytes):
return s.encode('utf-8')
return s
def _get_buffer(self):
return self._buffer.getvalue()
def _set_buffer(self, value):
self._buffer = self.buffer_type()
self._buffer.write(value)
# This property is provided for backwards compatability (self.buffer used
# to be a string/bytes object)
buffer = property(_get_buffer, _set_buffer)
def read_nonblocking(self, size=1, timeout=None):
"""This reads data from the file descriptor.
This is a simple implementation suitable for a regular file. Subclasses using ptys or pipes should override it.
The timeout parameter is ignored.
"""
try:
s = os.read(self.child_fd, size)
except OSError as err:
if err.args[0] == errno.EIO:
# Linux-style EOF
self.flag_eof = True
raise EOF('End Of File (EOF). Exception style platform.')
raise
if s == b'':
# BSD-style EOF
self.flag_eof = True
raise EOF('End Of File (EOF). Empty string style platform.')
s = self._decoder.decode(s, final=False)
self._log(s, 'read')
return s
def _pattern_type_err(self, pattern):
raise TypeError('got {badtype} ({badobj!r}) as pattern, must be one'
' of: {goodtypes}, pexpect.EOF, pexpect.TIMEOUT'\
.format(badtype=type(pattern),
badobj=pattern,
goodtypes=', '.join([str(ast)\
for ast in self.allowed_string_types])
)
)
def compile_pattern_list(self, patterns):
'''This compiles a pattern-string or a list of pattern-strings.
Patterns must be a StringType, EOF, TIMEOUT, SRE_Pattern, or a list of
those. Patterns may also be None which results in an empty list (you
might do this if waiting for an EOF or TIMEOUT condition without
expecting any pattern).
This is used by expect() when calling expect_list(). Thus expect() is
nothing more than::
cpl = self.compile_pattern_list(pl)
return self.expect_list(cpl, timeout)
If you are using expect() within a loop it may be more
efficient to compile the patterns first and then call expect_list().
This avoid calls in a loop to compile_pattern_list()::
cpl = self.compile_pattern_list(my_pattern)
while some_condition:
...
i = self.expect_list(cpl, timeout)
...
'''
if patterns is None:
return []
if not isinstance(patterns, list):
patterns = [patterns]
# Allow dot to match \n
compile_flags = re.DOTALL
if self.ignorecase:
compile_flags = compile_flags | re.IGNORECASE
compiled_pattern_list = []
for idx, p in enumerate(patterns):
if isinstance(p, self.allowed_string_types):
p = self._coerce_expect_string(p)
compiled_pattern_list.append(re.compile(p, compile_flags))
elif p is EOF:
compiled_pattern_list.append(EOF)
elif p is TIMEOUT:
compiled_pattern_list.append(TIMEOUT)
elif isinstance(p, type(re.compile(''))):
compiled_pattern_list.append(p)
else:
self._pattern_type_err(p)
return compiled_pattern_list
def expect(self, pattern, timeout=-1, searchwindowsize=-1, async_=False, **kw):
'''This seeks through the stream until a pattern is matched. The
pattern is overloaded and may take several types. The pattern can be a
StringType, EOF, a compiled re, or a list of any of those types.
Strings will be compiled to re types. This returns the index into the
pattern list. If the pattern was not a list this returns index 0 on a
successful match. This may raise exceptions for EOF or TIMEOUT. To
avoid the EOF or TIMEOUT exceptions add EOF or TIMEOUT to the pattern
list. That will cause expect to match an EOF or TIMEOUT condition
instead of raising an exception.
If you pass a list of patterns and more than one matches, the first
match in the stream is chosen. If more than one pattern matches at that
point, the leftmost in the pattern list is chosen. For example::
# the input is 'foobar'
index = p.expect(['bar', 'foo', 'foobar'])
# returns 1('foo') even though 'foobar' is a "better" match
Please note, however, that buffering can affect this behavior, since
input arrives in unpredictable chunks. For example::
# the input is 'foobar'
index = p.expect(['foobar', 'foo'])
# returns 0('foobar') if all input is available at once,
# but returns 1('foo') if parts of the final 'bar' arrive late
When a match is found for the given pattern, the class instance
attribute *match* becomes an re.MatchObject result. Should an EOF
or TIMEOUT pattern match, then the match attribute will be an instance
of that exception class. The pairing before and after class
instance attributes are views of the data preceding and following
the matching pattern. On general exception, class attribute
*before* is all data received up to the exception, while *match* and
*after* attributes are value None.
When the keyword argument timeout is -1 (default), then TIMEOUT will
raise after the default value specified by the class timeout
attribute. When None, TIMEOUT will not be raised and may block
indefinitely until match.
When the keyword argument searchwindowsize is -1 (default), then the
value specified by the class maxread attribute is used.
A list entry may be EOF or TIMEOUT instead of a string. This will
catch these exceptions and return the index of the list entry instead
of raising the exception. The attribute 'after' will be set to the
exception type. The attribute 'match' will be None. This allows you to
write code like this::
index = p.expect(['good', 'bad', pexpect.EOF, pexpect.TIMEOUT])
if index == 0:
do_something()
elif index == 1:
do_something_else()
elif index == 2:
do_some_other_thing()
elif index == 3:
do_something_completely_different()
instead of code like this::
try:
index = p.expect(['good', 'bad'])
if index == 0:
do_something()
elif index == 1:
do_something_else()
except EOF:
do_some_other_thing()
except TIMEOUT:
do_something_completely_different()
These two forms are equivalent. It all depends on what you want. You
can also just expect the EOF if you are waiting for all output of a
child to finish. For example::
p = pexpect.spawn('/bin/ls')
p.expect(pexpect.EOF)
print p.before
If you are trying to optimize for speed then see expect_list().
On Python 3.4, or Python 3.3 with asyncio installed, passing
``async_=True`` will make this return an :mod:`asyncio` coroutine,
which you can yield from to get the same result that this method would
normally give directly. So, inside a coroutine, you can replace this code::
index = p.expect(patterns)
With this non-blocking form::
index = yield from p.expect(patterns, async_=True)
'''
if 'async' in kw:
async_ = kw.pop('async')
if kw:
raise TypeError("Unknown keyword arguments: {}".format(kw))
compiled_pattern_list = self.compile_pattern_list(pattern)
return self.expect_list(compiled_pattern_list,
timeout, searchwindowsize, async_)
def expect_list(self, pattern_list, timeout=-1, searchwindowsize=-1,
async_=False, **kw):
'''This takes a list of compiled regular expressions and returns the
index into the pattern_list that matched the child output. The list may
also contain EOF or TIMEOUT(which are not compiled regular
expressions). This method is similar to the expect() method except that
expect_list() does not recompile the pattern list on every call. This
may help if you are trying to optimize for speed, otherwise just use
the expect() method. This is called by expect().
Like :meth:`expect`, passing ``async_=True`` will make this return an
asyncio coroutine.
'''
if timeout == -1:
timeout = self.timeout
if 'async' in kw:
async_ = kw.pop('async')
if kw:
raise TypeError("Unknown keyword arguments: {}".format(kw))
exp = Expecter(self, searcher_re(pattern_list), searchwindowsize)
if async_:
from ._async import expect_async
return expect_async(exp, timeout)
else:
return exp.expect_loop(timeout)
def expect_exact(self, pattern_list, timeout=-1, searchwindowsize=-1,
async_=False, **kw):
'''This is similar to expect(), but uses plain string matching instead
of compiled regular expressions in 'pattern_list'. The 'pattern_list'
may be a string; a list or other sequence of strings; or TIMEOUT and
EOF.
This call might be faster than expect() for two reasons: string
searching is faster than RE matching and it is possible to limit the
search to just the end of the input buffer.
This method is also useful when you don't want to have to worry about
escaping regular expression characters that you want to match.
Like :meth:`expect`, passing ``async_=True`` will make this return an
asyncio coroutine.
'''
if timeout == -1:
timeout = self.timeout
if 'async' in kw:
async_ = kw.pop('async')
if kw:
raise TypeError("Unknown keyword arguments: {}".format(kw))
if (isinstance(pattern_list, self.allowed_string_types) or
pattern_list in (TIMEOUT, EOF)):
pattern_list = [pattern_list]
def prepare_pattern(pattern):
if pattern in (TIMEOUT, EOF):
return pattern
if isinstance(pattern, self.allowed_string_types):
return self._coerce_expect_string(pattern)
self._pattern_type_err(pattern)
try:
pattern_list = iter(pattern_list)
except TypeError:
self._pattern_type_err(pattern_list)
pattern_list = [prepare_pattern(p) for p in pattern_list]
exp = Expecter(self, searcher_string(pattern_list), searchwindowsize)
if async_:
from ._async import expect_async
return expect_async(exp, timeout)
else:
return exp.expect_loop(timeout)
def expect_loop(self, searcher, timeout=-1, searchwindowsize=-1):
'''This is the common loop used inside expect. The 'searcher' should be
an instance of searcher_re or searcher_string, which describes how and
what to search for in the input.
See expect() for other arguments, return value and exceptions. '''
exp = Expecter(self, searcher, searchwindowsize)
return exp.expect_loop(timeout)
def read(self, size=-1):
'''This reads at most "size" bytes from the file (less if the read hits
EOF before obtaining size bytes). If the size argument is negative or
omitted, read all data until EOF is reached. The bytes are returned as
a string object. An empty string is returned when EOF is encountered
immediately. '''
if size == 0:
return self.string_type()
if size < 0:
# delimiter default is EOF
self.expect(self.delimiter)
return self.before
# I could have done this more directly by not using expect(), but
# I deliberately decided to couple read() to expect() so that
# I would catch any bugs early and ensure consistent behavior.
# It's a little less efficient, but there is less for me to
# worry about if I have to later modify read() or expect().
# Note, it's OK if size==-1 in the regex. That just means it
# will never match anything in which case we stop only on EOF.
cre = re.compile(self._coerce_expect_string('.{%d}' % size), re.DOTALL)
# delimiter default is EOF
index = self.expect([cre, self.delimiter])
if index == 0:
### FIXME self.before should be ''. Should I assert this?
return self.after
return self.before
def readline(self, size=-1):
'''This reads and returns one entire line. The newline at the end of
line is returned as part of the string, unless the file ends without a
newline. An empty string is returned if EOF is encountered immediately.
This looks for a newline as a CR/LF pair (\\r\\n) even on UNIX because
this is what the pseudotty device returns. So contrary to what you may
expect you will receive newlines as \\r\\n.
If the size argument is 0 then an empty string is returned. In all
other cases the size argument is ignored, which is not standard
behavior for a file-like object. '''
if size == 0:
return self.string_type()
# delimiter default is EOF
index = self.expect([self.crlf, self.delimiter])
if index == 0:
return self.before + self.crlf
else:
return self.before
def __iter__(self):
'''This is to support iterators over a file-like object.
'''
return iter(self.readline, self.string_type())
def readlines(self, sizehint=-1):
'''This reads until EOF using readline() and returns a list containing
the lines thus read. The optional 'sizehint' argument is ignored.
Remember, because this reads until EOF that means the child
process should have closed its stdout. If you run this method on
a child that is still running with its stdout open then this
method will block until it timesout.'''
lines = []
while True:
line = self.readline()
if not line:
break
lines.append(line)
return lines
def fileno(self):
'''Expose file descriptor for a file-like interface
'''
return self.child_fd
def flush(self):
'''This does nothing. It is here to support the interface for a
File-like object. '''
pass
def isatty(self):
"""Overridden in subclass using tty"""
return False
# For 'with spawn(...) as child:'
def __enter__(self):
return self
def __exit__(self, etype, evalue, tb):
# We rely on subclasses to implement close(). If they don't, it's not
# clear what a context manager should do.
self.close()

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import os
import sys
import stat
import select
import time
import errno
try:
InterruptedError
except NameError:
# Alias Python2 exception to Python3
InterruptedError = select.error
if sys.version_info[0] >= 3:
string_types = (str,)
else:
string_types = (unicode, str)
def is_executable_file(path):
"""Checks that path is an executable regular file, or a symlink towards one.
This is roughly ``os.path isfile(path) and os.access(path, os.X_OK)``.
"""
# follow symlinks,
fpath = os.path.realpath(path)
if not os.path.isfile(fpath):
# non-files (directories, fifo, etc.)
return False
mode = os.stat(fpath).st_mode
if (sys.platform.startswith('sunos')
and os.getuid() == 0):
# When root on Solaris, os.X_OK is True for *all* files, irregardless
# of their executability -- instead, any permission bit of any user,
# group, or other is fine enough.
#
# (This may be true for other "Unix98" OS's such as HP-UX and AIX)
return bool(mode & (stat.S_IXUSR |
stat.S_IXGRP |
stat.S_IXOTH))
return os.access(fpath, os.X_OK)
def which(filename, env=None):
'''This takes a given filename; tries to find it in the environment path;
then checks if it is executable. This returns the full path to the filename
if found and executable. Otherwise this returns None.'''
# Special case where filename contains an explicit path.
if os.path.dirname(filename) != '' and is_executable_file(filename):
return filename
if env is None:
env = os.environ
p = env.get('PATH')
if not p:
p = os.defpath
pathlist = p.split(os.pathsep)
for path in pathlist:
ff = os.path.join(path, filename)
if is_executable_file(ff):
return ff
return None
def split_command_line(command_line):
'''This splits a command line into a list of arguments. It splits arguments
on spaces, but handles embedded quotes, doublequotes, and escaped
characters. It's impossible to do this with a regular expression, so I
wrote a little state machine to parse the command line. '''
arg_list = []
arg = ''
# Constants to name the states we can be in.
state_basic = 0
state_esc = 1
state_singlequote = 2
state_doublequote = 3
# The state when consuming whitespace between commands.
state_whitespace = 4
state = state_basic
for c in command_line:
if state == state_basic or state == state_whitespace:
if c == '\\':
# Escape the next character
state = state_esc
elif c == r"'":
# Handle single quote
state = state_singlequote
elif c == r'"':
# Handle double quote
state = state_doublequote
elif c.isspace():
# Add arg to arg_list if we aren't in the middle of whitespace.
if state == state_whitespace:
# Do nothing.
None
else:
arg_list.append(arg)
arg = ''
state = state_whitespace
else:
arg = arg + c
state = state_basic
elif state == state_esc:
arg = arg + c
state = state_basic
elif state == state_singlequote:
if c == r"'":
state = state_basic
else:
arg = arg + c
elif state == state_doublequote:
if c == r'"':
state = state_basic
else:
arg = arg + c
if arg != '':
arg_list.append(arg)
return arg_list
def select_ignore_interrupts(iwtd, owtd, ewtd, timeout=None):
'''This is a wrapper around select.select() that ignores signals. If
select.select raises a select.error exception and errno is an EINTR
error then it is ignored. Mainly this is used to ignore sigwinch
(terminal resize). '''
# if select() is interrupted by a signal (errno==EINTR) then
# we loop back and enter the select() again.
if timeout is not None:
end_time = time.time() + timeout
while True:
try:
return select.select(iwtd, owtd, ewtd, timeout)
except InterruptedError:
err = sys.exc_info()[1]
if err.args[0] == errno.EINTR:
# if we loop back we have to subtract the
# amount of time we already waited.
if timeout is not None:
timeout = end_time - time.time()
if timeout < 0:
return([], [], [])
else:
# something else caused the select.error, so
# this actually is an exception.
raise
def poll_ignore_interrupts(fds, timeout=None):
'''Simple wrapper around poll to register file descriptors and
ignore signals.'''
if timeout is not None:
end_time = time.time() + timeout
poller = select.poll()
for fd in fds:
poller.register(fd, select.POLLIN | select.POLLPRI | select.POLLHUP | select.POLLERR)
while True:
try:
timeout_ms = None if timeout is None else timeout * 1000
results = poller.poll(timeout_ms)
return [afd for afd, _ in results]
except InterruptedError:
err = sys.exc_info()[1]
if err.args[0] == errno.EINTR:
# if we loop back we have to subtract the
# amount of time we already waited.
if timeout is not None:
timeout = end_time - time.time()
if timeout < 0:
return []
else:
# something else caused the select.error, so
# this actually is an exception.
raise

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Metadata-Version: 1.2
Name: pip
Version: 19.0.3
Summary: The PyPA recommended tool for installing Python packages.
Home-page: https://pip.pypa.io/
Author: The pip developers
Author-email: pypa-dev@groups.google.com
License: MIT
Description: pip - The Python Package Installer
==================================
.. image:: https://img.shields.io/pypi/v/pip.svg
:target: https://pypi.org/project/pip/
.. image:: https://readthedocs.org/projects/pip/badge/?version=latest
:target: https://pip.pypa.io/en/latest
pip is the `package installer`_ for Python. You can use pip to install packages from the `Python Package Index`_ and other indexes.
Please take a look at our documentation for how to install and use pip:
* `Installation`_
* `Usage`_
* `Release notes`_
If you find bugs, need help, or want to talk to the developers please use our mailing lists or chat rooms:
* `Issue tracking`_
* `Discourse channel`_
* `User IRC`_
If you want to get involved head over to GitHub to get the source code and feel free to jump on the developer mailing lists and chat rooms:
* `GitHub page`_
* `Dev mailing list`_
* `Dev IRC`_
Code of Conduct
---------------
Everyone interacting in the pip project's codebases, issue trackers, chat
rooms, and mailing lists is expected to follow the `PyPA Code of Conduct`_.
.. _package installer: https://packaging.python.org/en/latest/current/
.. _Python Package Index: https://pypi.org
.. _Installation: https://pip.pypa.io/en/stable/installing.html
.. _Usage: https://pip.pypa.io/en/stable/
.. _Release notes: https://pip.pypa.io/en/stable/news.html
.. _GitHub page: https://github.com/pypa/pip
.. _Issue tracking: https://github.com/pypa/pip/issues
.. _Discourse channel: https://discuss.python.org/c/packaging
.. _Dev mailing list: https://groups.google.com/forum/#!forum/pypa-dev
.. _User IRC: https://webchat.freenode.net/?channels=%23pypa
.. _Dev IRC: https://webchat.freenode.net/?channels=%23pypa-dev
.. _PyPA Code of Conduct: https://www.pypa.io/en/latest/code-of-conduct/
Keywords: distutils easy_install egg setuptools wheel virtualenv
Platform: UNKNOWN
Classifier: Development Status :: 5 - Production/Stable
Classifier: Intended Audience :: Developers
Classifier: License :: OSI Approved :: MIT License
Classifier: Topic :: Software Development :: Build Tools
Classifier: Programming Language :: Python
Classifier: Programming Language :: Python :: 2
Classifier: Programming Language :: Python :: 2.7
Classifier: Programming Language :: Python :: 3
Classifier: Programming Language :: Python :: 3.4
Classifier: Programming Language :: Python :: 3.5
Classifier: Programming Language :: Python :: 3.6
Classifier: Programming Language :: Python :: 3.7
Classifier: Programming Language :: Python :: Implementation :: CPython
Classifier: Programming Language :: Python :: Implementation :: PyPy
Requires-Python: >=2.7,!=3.0.*,!=3.1.*,!=3.2.*,!=3.3.*

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AUTHORS.txt
LICENSE.txt
MANIFEST.in
NEWS.rst
README.rst
pyproject.toml
setup.cfg
setup.py
docs/pip_sphinxext.py
docs/html/conf.py
docs/html/cookbook.rst
docs/html/index.rst
docs/html/installing.rst
docs/html/logic.rst
docs/html/news.rst
docs/html/quickstart.rst
docs/html/usage.rst
docs/html/user_guide.rst
docs/html/development/configuration.rst
docs/html/development/contributing.rst
docs/html/development/getting-started.rst
docs/html/development/index.rst
docs/html/development/release-process.rst
docs/html/development/vendoring-policy.rst
docs/html/reference/index.rst
docs/html/reference/pip.rst
docs/html/reference/pip_check.rst
docs/html/reference/pip_config.rst
docs/html/reference/pip_download.rst
docs/html/reference/pip_freeze.rst
docs/html/reference/pip_hash.rst
docs/html/reference/pip_install.rst
docs/html/reference/pip_list.rst
docs/html/reference/pip_search.rst
docs/html/reference/pip_show.rst
docs/html/reference/pip_uninstall.rst
docs/html/reference/pip_wheel.rst
docs/man/index.rst
docs/man/commands/check.rst
docs/man/commands/config.rst
docs/man/commands/download.rst
docs/man/commands/freeze.rst
docs/man/commands/hash.rst
docs/man/commands/help.rst
docs/man/commands/install.rst
docs/man/commands/list.rst
docs/man/commands/search.rst
docs/man/commands/show.rst
docs/man/commands/uninstall.rst
docs/man/commands/wheel.rst
src/pip/__init__.py
src/pip/__main__.py
src/pip.egg-info/PKG-INFO
src/pip.egg-info/SOURCES.txt
src/pip.egg-info/dependency_links.txt
src/pip.egg-info/entry_points.txt
src/pip.egg-info/not-zip-safe
src/pip.egg-info/top_level.txt
src/pip/_internal/__init__.py
src/pip/_internal/build_env.py
src/pip/_internal/cache.py
src/pip/_internal/configuration.py
src/pip/_internal/download.py
src/pip/_internal/exceptions.py
src/pip/_internal/index.py
src/pip/_internal/locations.py
src/pip/_internal/pep425tags.py
src/pip/_internal/pyproject.py
src/pip/_internal/resolve.py
src/pip/_internal/wheel.py
src/pip/_internal/cli/__init__.py
src/pip/_internal/cli/autocompletion.py
src/pip/_internal/cli/base_command.py
src/pip/_internal/cli/cmdoptions.py
src/pip/_internal/cli/main_parser.py
src/pip/_internal/cli/parser.py
src/pip/_internal/cli/status_codes.py
src/pip/_internal/commands/__init__.py
src/pip/_internal/commands/check.py
src/pip/_internal/commands/completion.py
src/pip/_internal/commands/configuration.py
src/pip/_internal/commands/download.py
src/pip/_internal/commands/freeze.py
src/pip/_internal/commands/hash.py
src/pip/_internal/commands/help.py
src/pip/_internal/commands/install.py
src/pip/_internal/commands/list.py
src/pip/_internal/commands/search.py
src/pip/_internal/commands/show.py
src/pip/_internal/commands/uninstall.py
src/pip/_internal/commands/wheel.py
src/pip/_internal/models/__init__.py
src/pip/_internal/models/candidate.py
src/pip/_internal/models/format_control.py
src/pip/_internal/models/index.py
src/pip/_internal/models/link.py
src/pip/_internal/operations/__init__.py
src/pip/_internal/operations/check.py
src/pip/_internal/operations/freeze.py
src/pip/_internal/operations/prepare.py
src/pip/_internal/req/__init__.py
src/pip/_internal/req/constructors.py
src/pip/_internal/req/req_file.py
src/pip/_internal/req/req_install.py
src/pip/_internal/req/req_set.py
src/pip/_internal/req/req_tracker.py
src/pip/_internal/req/req_uninstall.py
src/pip/_internal/utils/__init__.py
src/pip/_internal/utils/appdirs.py
src/pip/_internal/utils/compat.py
src/pip/_internal/utils/deprecation.py
src/pip/_internal/utils/encoding.py
src/pip/_internal/utils/filesystem.py
src/pip/_internal/utils/glibc.py
src/pip/_internal/utils/hashes.py
src/pip/_internal/utils/logging.py
src/pip/_internal/utils/misc.py
src/pip/_internal/utils/models.py
src/pip/_internal/utils/outdated.py
src/pip/_internal/utils/packaging.py
src/pip/_internal/utils/setuptools_build.py
src/pip/_internal/utils/temp_dir.py
src/pip/_internal/utils/typing.py
src/pip/_internal/utils/ui.py
src/pip/_internal/vcs/__init__.py
src/pip/_internal/vcs/bazaar.py
src/pip/_internal/vcs/git.py
src/pip/_internal/vcs/mercurial.py
src/pip/_internal/vcs/subversion.py
src/pip/_vendor/README.rst
src/pip/_vendor/__init__.py
src/pip/_vendor/appdirs.LICENSE.txt
src/pip/_vendor/appdirs.py
src/pip/_vendor/distro.LICENSE
src/pip/_vendor/distro.py
src/pip/_vendor/ipaddress.LICENSE
src/pip/_vendor/ipaddress.py
src/pip/_vendor/pyparsing.LICENSE
src/pip/_vendor/pyparsing.py
src/pip/_vendor/retrying.LICENSE
src/pip/_vendor/retrying.py
src/pip/_vendor/six.LICENSE
src/pip/_vendor/six.py
src/pip/_vendor/vendor.txt
src/pip/_vendor/cachecontrol/LICENSE.txt
src/pip/_vendor/cachecontrol/__init__.py
src/pip/_vendor/cachecontrol/_cmd.py
src/pip/_vendor/cachecontrol/adapter.py
src/pip/_vendor/cachecontrol/cache.py
src/pip/_vendor/cachecontrol/compat.py
src/pip/_vendor/cachecontrol/controller.py
src/pip/_vendor/cachecontrol/filewrapper.py
src/pip/_vendor/cachecontrol/heuristics.py
src/pip/_vendor/cachecontrol/serialize.py
src/pip/_vendor/cachecontrol/wrapper.py
src/pip/_vendor/cachecontrol/caches/__init__.py
src/pip/_vendor/cachecontrol/caches/file_cache.py
src/pip/_vendor/cachecontrol/caches/redis_cache.py
src/pip/_vendor/certifi/LICENSE
src/pip/_vendor/certifi/__init__.py
src/pip/_vendor/certifi/__main__.py
src/pip/_vendor/certifi/cacert.pem
src/pip/_vendor/certifi/core.py
src/pip/_vendor/chardet/LICENSE
src/pip/_vendor/chardet/__init__.py
src/pip/_vendor/chardet/big5freq.py
src/pip/_vendor/chardet/big5prober.py
src/pip/_vendor/chardet/chardistribution.py
src/pip/_vendor/chardet/charsetgroupprober.py
src/pip/_vendor/chardet/charsetprober.py
src/pip/_vendor/chardet/codingstatemachine.py
src/pip/_vendor/chardet/compat.py
src/pip/_vendor/chardet/cp949prober.py
src/pip/_vendor/chardet/enums.py
src/pip/_vendor/chardet/escprober.py
src/pip/_vendor/chardet/escsm.py
src/pip/_vendor/chardet/eucjpprober.py
src/pip/_vendor/chardet/euckrfreq.py
src/pip/_vendor/chardet/euckrprober.py
src/pip/_vendor/chardet/euctwfreq.py
src/pip/_vendor/chardet/euctwprober.py
src/pip/_vendor/chardet/gb2312freq.py
src/pip/_vendor/chardet/gb2312prober.py
src/pip/_vendor/chardet/hebrewprober.py
src/pip/_vendor/chardet/jisfreq.py
src/pip/_vendor/chardet/jpcntx.py
src/pip/_vendor/chardet/langbulgarianmodel.py
src/pip/_vendor/chardet/langcyrillicmodel.py
src/pip/_vendor/chardet/langgreekmodel.py
src/pip/_vendor/chardet/langhebrewmodel.py
src/pip/_vendor/chardet/langhungarianmodel.py
src/pip/_vendor/chardet/langthaimodel.py
src/pip/_vendor/chardet/langturkishmodel.py
src/pip/_vendor/chardet/latin1prober.py
src/pip/_vendor/chardet/mbcharsetprober.py
src/pip/_vendor/chardet/mbcsgroupprober.py
src/pip/_vendor/chardet/mbcssm.py
src/pip/_vendor/chardet/sbcharsetprober.py
src/pip/_vendor/chardet/sbcsgroupprober.py
src/pip/_vendor/chardet/sjisprober.py
src/pip/_vendor/chardet/universaldetector.py
src/pip/_vendor/chardet/utf8prober.py
src/pip/_vendor/chardet/version.py
src/pip/_vendor/chardet/cli/__init__.py
src/pip/_vendor/chardet/cli/chardetect.py
src/pip/_vendor/colorama/LICENSE.txt
src/pip/_vendor/colorama/__init__.py
src/pip/_vendor/colorama/ansi.py
src/pip/_vendor/colorama/ansitowin32.py
src/pip/_vendor/colorama/initialise.py
src/pip/_vendor/colorama/win32.py
src/pip/_vendor/colorama/winterm.py
src/pip/_vendor/distlib/LICENSE.txt
src/pip/_vendor/distlib/__init__.py
src/pip/_vendor/distlib/compat.py
src/pip/_vendor/distlib/database.py
src/pip/_vendor/distlib/index.py
src/pip/_vendor/distlib/locators.py
src/pip/_vendor/distlib/manifest.py
src/pip/_vendor/distlib/markers.py
src/pip/_vendor/distlib/metadata.py
src/pip/_vendor/distlib/resources.py
src/pip/_vendor/distlib/scripts.py
src/pip/_vendor/distlib/t32.exe
src/pip/_vendor/distlib/t64.exe
src/pip/_vendor/distlib/util.py
src/pip/_vendor/distlib/version.py
src/pip/_vendor/distlib/w32.exe
src/pip/_vendor/distlib/w64.exe
src/pip/_vendor/distlib/wheel.py
src/pip/_vendor/distlib/_backport/__init__.py
src/pip/_vendor/distlib/_backport/misc.py
src/pip/_vendor/distlib/_backport/shutil.py
src/pip/_vendor/distlib/_backport/sysconfig.cfg
src/pip/_vendor/distlib/_backport/sysconfig.py
src/pip/_vendor/distlib/_backport/tarfile.py
src/pip/_vendor/html5lib/LICENSE
src/pip/_vendor/html5lib/__init__.py
src/pip/_vendor/html5lib/_ihatexml.py
src/pip/_vendor/html5lib/_inputstream.py
src/pip/_vendor/html5lib/_tokenizer.py
src/pip/_vendor/html5lib/_utils.py
src/pip/_vendor/html5lib/constants.py
src/pip/_vendor/html5lib/html5parser.py
src/pip/_vendor/html5lib/serializer.py
src/pip/_vendor/html5lib/_trie/__init__.py
src/pip/_vendor/html5lib/_trie/_base.py
src/pip/_vendor/html5lib/_trie/datrie.py
src/pip/_vendor/html5lib/_trie/py.py
src/pip/_vendor/html5lib/filters/__init__.py
src/pip/_vendor/html5lib/filters/alphabeticalattributes.py
src/pip/_vendor/html5lib/filters/base.py
src/pip/_vendor/html5lib/filters/inject_meta_charset.py
src/pip/_vendor/html5lib/filters/lint.py
src/pip/_vendor/html5lib/filters/optionaltags.py
src/pip/_vendor/html5lib/filters/sanitizer.py
src/pip/_vendor/html5lib/filters/whitespace.py
src/pip/_vendor/html5lib/treeadapters/__init__.py
src/pip/_vendor/html5lib/treeadapters/genshi.py
src/pip/_vendor/html5lib/treeadapters/sax.py
src/pip/_vendor/html5lib/treebuilders/__init__.py
src/pip/_vendor/html5lib/treebuilders/base.py
src/pip/_vendor/html5lib/treebuilders/dom.py
src/pip/_vendor/html5lib/treebuilders/etree.py
src/pip/_vendor/html5lib/treebuilders/etree_lxml.py
src/pip/_vendor/html5lib/treewalkers/__init__.py
src/pip/_vendor/html5lib/treewalkers/base.py
src/pip/_vendor/html5lib/treewalkers/dom.py
src/pip/_vendor/html5lib/treewalkers/etree.py
src/pip/_vendor/html5lib/treewalkers/etree_lxml.py
src/pip/_vendor/html5lib/treewalkers/genshi.py
src/pip/_vendor/idna/LICENSE.rst
src/pip/_vendor/idna/__init__.py
src/pip/_vendor/idna/codec.py
src/pip/_vendor/idna/compat.py
src/pip/_vendor/idna/core.py
src/pip/_vendor/idna/idnadata.py
src/pip/_vendor/idna/intranges.py
src/pip/_vendor/idna/package_data.py
src/pip/_vendor/idna/uts46data.py
src/pip/_vendor/lockfile/LICENSE
src/pip/_vendor/lockfile/__init__.py
src/pip/_vendor/lockfile/linklockfile.py
src/pip/_vendor/lockfile/mkdirlockfile.py
src/pip/_vendor/lockfile/pidlockfile.py
src/pip/_vendor/lockfile/sqlitelockfile.py
src/pip/_vendor/lockfile/symlinklockfile.py
src/pip/_vendor/msgpack/COPYING
src/pip/_vendor/msgpack/__init__.py
src/pip/_vendor/msgpack/_version.py
src/pip/_vendor/msgpack/exceptions.py
src/pip/_vendor/msgpack/fallback.py
src/pip/_vendor/packaging/LICENSE
src/pip/_vendor/packaging/LICENSE.APACHE
src/pip/_vendor/packaging/LICENSE.BSD
src/pip/_vendor/packaging/__about__.py
src/pip/_vendor/packaging/__init__.py
src/pip/_vendor/packaging/_compat.py
src/pip/_vendor/packaging/_structures.py
src/pip/_vendor/packaging/markers.py
src/pip/_vendor/packaging/requirements.py
src/pip/_vendor/packaging/specifiers.py
src/pip/_vendor/packaging/utils.py
src/pip/_vendor/packaging/version.py
src/pip/_vendor/pep517/LICENSE
src/pip/_vendor/pep517/__init__.py
src/pip/_vendor/pep517/_in_process.py
src/pip/_vendor/pep517/build.py
src/pip/_vendor/pep517/check.py
src/pip/_vendor/pep517/colorlog.py
src/pip/_vendor/pep517/compat.py
src/pip/_vendor/pep517/envbuild.py
src/pip/_vendor/pep517/wrappers.py
src/pip/_vendor/pkg_resources/LICENSE
src/pip/_vendor/pkg_resources/__init__.py
src/pip/_vendor/pkg_resources/py31compat.py
src/pip/_vendor/progress/LICENSE
src/pip/_vendor/progress/__init__.py
src/pip/_vendor/progress/bar.py
src/pip/_vendor/progress/counter.py
src/pip/_vendor/progress/helpers.py
src/pip/_vendor/progress/spinner.py
src/pip/_vendor/pytoml/LICENSE
src/pip/_vendor/pytoml/__init__.py
src/pip/_vendor/pytoml/core.py
src/pip/_vendor/pytoml/parser.py
src/pip/_vendor/pytoml/test.py
src/pip/_vendor/pytoml/utils.py
src/pip/_vendor/pytoml/writer.py
src/pip/_vendor/requests/LICENSE
src/pip/_vendor/requests/__init__.py
src/pip/_vendor/requests/__version__.py
src/pip/_vendor/requests/_internal_utils.py
src/pip/_vendor/requests/adapters.py
src/pip/_vendor/requests/api.py
src/pip/_vendor/requests/auth.py
src/pip/_vendor/requests/certs.py
src/pip/_vendor/requests/compat.py
src/pip/_vendor/requests/cookies.py
src/pip/_vendor/requests/exceptions.py
src/pip/_vendor/requests/help.py
src/pip/_vendor/requests/hooks.py
src/pip/_vendor/requests/models.py
src/pip/_vendor/requests/packages.py
src/pip/_vendor/requests/sessions.py
src/pip/_vendor/requests/status_codes.py
src/pip/_vendor/requests/structures.py
src/pip/_vendor/requests/utils.py
src/pip/_vendor/urllib3/LICENSE.txt
src/pip/_vendor/urllib3/__init__.py
src/pip/_vendor/urllib3/_collections.py
src/pip/_vendor/urllib3/connection.py
src/pip/_vendor/urllib3/connectionpool.py
src/pip/_vendor/urllib3/exceptions.py
src/pip/_vendor/urllib3/fields.py
src/pip/_vendor/urllib3/filepost.py
src/pip/_vendor/urllib3/poolmanager.py
src/pip/_vendor/urllib3/request.py
src/pip/_vendor/urllib3/response.py
src/pip/_vendor/urllib3/contrib/__init__.py
src/pip/_vendor/urllib3/contrib/_appengine_environ.py
src/pip/_vendor/urllib3/contrib/appengine.py
src/pip/_vendor/urllib3/contrib/ntlmpool.py
src/pip/_vendor/urllib3/contrib/pyopenssl.py
src/pip/_vendor/urllib3/contrib/securetransport.py
src/pip/_vendor/urllib3/contrib/socks.py
src/pip/_vendor/urllib3/contrib/_securetransport/__init__.py
src/pip/_vendor/urllib3/contrib/_securetransport/bindings.py
src/pip/_vendor/urllib3/contrib/_securetransport/low_level.py
src/pip/_vendor/urllib3/packages/__init__.py
src/pip/_vendor/urllib3/packages/six.py
src/pip/_vendor/urllib3/packages/backports/__init__.py
src/pip/_vendor/urllib3/packages/backports/makefile.py
src/pip/_vendor/urllib3/packages/ssl_match_hostname/__init__.py
src/pip/_vendor/urllib3/packages/ssl_match_hostname/_implementation.py
src/pip/_vendor/urllib3/util/__init__.py
src/pip/_vendor/urllib3/util/connection.py
src/pip/_vendor/urllib3/util/queue.py
src/pip/_vendor/urllib3/util/request.py
src/pip/_vendor/urllib3/util/response.py
src/pip/_vendor/urllib3/util/retry.py
src/pip/_vendor/urllib3/util/ssl_.py
src/pip/_vendor/urllib3/util/timeout.py
src/pip/_vendor/urllib3/util/url.py
src/pip/_vendor/urllib3/util/wait.py
src/pip/_vendor/webencodings/LICENSE
src/pip/_vendor/webencodings/__init__.py
src/pip/_vendor/webencodings/labels.py
src/pip/_vendor/webencodings/mklabels.py
src/pip/_vendor/webencodings/tests.py
src/pip/_vendor/webencodings/x_user_defined.py

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[console_scripts]
pip = pip._internal:main
pip3 = pip._internal:main
pip3.6 = pip._internal:main

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pip

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__version__ = "19.0.3"

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from __future__ import absolute_import
import os
import sys
# If we are running from a wheel, add the wheel to sys.path
# This allows the usage python pip-*.whl/pip install pip-*.whl
if __package__ == '':
# __file__ is pip-*.whl/pip/__main__.py
# first dirname call strips of '/__main__.py', second strips off '/pip'
# Resulting path is the name of the wheel itself
# Add that to sys.path so we can import pip
path = os.path.dirname(os.path.dirname(__file__))
sys.path.insert(0, path)
from pip._internal import main as _main # isort:skip # noqa
if __name__ == '__main__':
sys.exit(_main())

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#!/usr/bin/env python
from __future__ import absolute_import
import locale
import logging
import os
import warnings
import sys
# 2016-06-17 barry@debian.org: urllib3 1.14 added optional support for socks,
# but if invoked (i.e. imported), it will issue a warning to stderr if socks
# isn't available. requests unconditionally imports urllib3's socks contrib
# module, triggering this warning. The warning breaks DEP-8 tests (because of
# the stderr output) and is just plain annoying in normal usage. I don't want
# to add socks as yet another dependency for pip, nor do I want to allow-stder
# in the DEP-8 tests, so just suppress the warning. pdb tells me this has to
# be done before the import of pip.vcs.
from pip._vendor.urllib3.exceptions import DependencyWarning
warnings.filterwarnings("ignore", category=DependencyWarning) # noqa
# We want to inject the use of SecureTransport as early as possible so that any
# references or sessions or what have you are ensured to have it, however we
# only want to do this in the case that we're running on macOS and the linked
# OpenSSL is too old to handle TLSv1.2
try:
import ssl
except ImportError:
pass
else:
# Checks for OpenSSL 1.0.1 on MacOS
if sys.platform == "darwin" and ssl.OPENSSL_VERSION_NUMBER < 0x1000100f:
try:
from pip._vendor.urllib3.contrib import securetransport
except (ImportError, OSError):
pass
else:
securetransport.inject_into_urllib3()
from pip._internal.cli.autocompletion import autocomplete
from pip._internal.cli.main_parser import parse_command
from pip._internal.commands import commands_dict
from pip._internal.exceptions import PipError
from pip._internal.utils import deprecation
from pip._internal.vcs import git, mercurial, subversion, bazaar # noqa
from pip._vendor.urllib3.exceptions import InsecureRequestWarning
logger = logging.getLogger(__name__)
# Hide the InsecureRequestWarning from urllib3
warnings.filterwarnings("ignore", category=InsecureRequestWarning)
def main(args=None):
if args is None:
args = sys.argv[1:]
# Configure our deprecation warnings to be sent through loggers
deprecation.install_warning_logger()
autocomplete()
try:
cmd_name, cmd_args = parse_command(args)
except PipError as exc:
sys.stderr.write("ERROR: %s" % exc)
sys.stderr.write(os.linesep)
sys.exit(1)
# Needed for locale.getpreferredencoding(False) to work
# in pip._internal.utils.encoding.auto_decode
try:
locale.setlocale(locale.LC_ALL, '')
except locale.Error as e:
# setlocale can apparently crash if locale are uninitialized
logger.debug("Ignoring error %s when setting locale", e)
command = commands_dict[cmd_name](isolated=("--isolated" in cmd_args))
return command.main(cmd_args)

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"""Build Environment used for isolation during sdist building
"""
import logging
import os
import sys
import textwrap
from collections import OrderedDict
from distutils.sysconfig import get_python_lib
from sysconfig import get_paths
from pip._vendor.pkg_resources import Requirement, VersionConflict, WorkingSet
from pip import __file__ as pip_location
from pip._internal.utils.misc import call_subprocess
from pip._internal.utils.temp_dir import TempDirectory
from pip._internal.utils.typing import MYPY_CHECK_RUNNING
from pip._internal.utils.ui import open_spinner
if MYPY_CHECK_RUNNING:
from typing import Tuple, Set, Iterable, Optional, List # noqa: F401
from pip._internal.index import PackageFinder # noqa: F401
logger = logging.getLogger(__name__)
class _Prefix:
def __init__(self, path):
# type: (str) -> None
self.path = path
self.setup = False
self.bin_dir = get_paths(
'nt' if os.name == 'nt' else 'posix_prefix',
vars={'base': path, 'platbase': path}
)['scripts']
# Note: prefer distutils' sysconfig to get the
# library paths so PyPy is correctly supported.
purelib = get_python_lib(plat_specific=False, prefix=path)
platlib = get_python_lib(plat_specific=True, prefix=path)
if purelib == platlib:
self.lib_dirs = [purelib]
else:
self.lib_dirs = [purelib, platlib]
class BuildEnvironment(object):
"""Creates and manages an isolated environment to install build deps
"""
def __init__(self):
# type: () -> None
self._temp_dir = TempDirectory(kind="build-env")
self._temp_dir.create()
self._prefixes = OrderedDict((
(name, _Prefix(os.path.join(self._temp_dir.path, name)))
for name in ('normal', 'overlay')
))
self._bin_dirs = [] # type: List[str]
self._lib_dirs = [] # type: List[str]
for prefix in reversed(list(self._prefixes.values())):
self._bin_dirs.append(prefix.bin_dir)
self._lib_dirs.extend(prefix.lib_dirs)
# Customize site to:
# - ensure .pth files are honored
# - prevent access to system site packages
system_sites = {
os.path.normcase(site) for site in (
get_python_lib(plat_specific=False),
get_python_lib(plat_specific=True),
)
}
self._site_dir = os.path.join(self._temp_dir.path, 'site')
if not os.path.exists(self._site_dir):
os.mkdir(self._site_dir)
with open(os.path.join(self._site_dir, 'sitecustomize.py'), 'w') as fp:
fp.write(textwrap.dedent(
'''
import os, site, sys
# First, drop system-sites related paths.
original_sys_path = sys.path[:]
known_paths = set()
for path in {system_sites!r}:
site.addsitedir(path, known_paths=known_paths)
system_paths = set(
os.path.normcase(path)
for path in sys.path[len(original_sys_path):]
)
original_sys_path = [
path for path in original_sys_path
if os.path.normcase(path) not in system_paths
]
sys.path = original_sys_path
# Second, add lib directories.
# ensuring .pth file are processed.
for path in {lib_dirs!r}:
assert not path in sys.path
site.addsitedir(path)
'''
).format(system_sites=system_sites, lib_dirs=self._lib_dirs))
def __enter__(self):
self._save_env = {
name: os.environ.get(name, None)
for name in ('PATH', 'PYTHONNOUSERSITE', 'PYTHONPATH')
}
path = self._bin_dirs[:]
old_path = self._save_env['PATH']
if old_path:
path.extend(old_path.split(os.pathsep))
pythonpath = [self._site_dir]
os.environ.update({
'PATH': os.pathsep.join(path),
'PYTHONNOUSERSITE': '1',
'PYTHONPATH': os.pathsep.join(pythonpath),
})
def __exit__(self, exc_type, exc_val, exc_tb):
for varname, old_value in self._save_env.items():
if old_value is None:
os.environ.pop(varname, None)
else:
os.environ[varname] = old_value
def cleanup(self):
# type: () -> None
self._temp_dir.cleanup()
def check_requirements(self, reqs):
# type: (Iterable[str]) -> Tuple[Set[Tuple[str, str]], Set[str]]
"""Return 2 sets:
- conflicting requirements: set of (installed, wanted) reqs tuples
- missing requirements: set of reqs
"""
missing = set()
conflicting = set()
if reqs:
ws = WorkingSet(self._lib_dirs)
for req in reqs:
try:
if ws.find(Requirement.parse(req)) is None:
missing.add(req)
except VersionConflict as e:
conflicting.add((str(e.args[0].as_requirement()),
str(e.args[1])))
return conflicting, missing
def install_requirements(
self,
finder, # type: PackageFinder
requirements, # type: Iterable[str]
prefix_as_string, # type: str
message # type: Optional[str]
):
# type: (...) -> None
prefix = self._prefixes[prefix_as_string]
assert not prefix.setup
prefix.setup = True
if not requirements:
return
args = [
sys.executable, os.path.dirname(pip_location), 'install',
'--ignore-installed', '--no-user', '--prefix', prefix.path,
'--no-warn-script-location',
] # type: List[str]
if logger.getEffectiveLevel() <= logging.DEBUG:
args.append('-v')
for format_control in ('no_binary', 'only_binary'):
formats = getattr(finder.format_control, format_control)
args.extend(('--' + format_control.replace('_', '-'),
','.join(sorted(formats or {':none:'}))))
if finder.index_urls:
args.extend(['-i', finder.index_urls[0]])
for extra_index in finder.index_urls[1:]:
args.extend(['--extra-index-url', extra_index])
else:
args.append('--no-index')
for link in finder.find_links:
args.extend(['--find-links', link])
for _, host, _ in finder.secure_origins:
args.extend(['--trusted-host', host])
if finder.allow_all_prereleases:
args.append('--pre')
args.append('--')
args.extend(requirements)
with open_spinner(message) as spinner:
call_subprocess(args, show_stdout=False, spinner=spinner)
class NoOpBuildEnvironment(BuildEnvironment):
"""A no-op drop-in replacement for BuildEnvironment
"""
def __init__(self):
pass
def __enter__(self):
pass
def __exit__(self, exc_type, exc_val, exc_tb):
pass
def cleanup(self):
pass
def install_requirements(self, finder, requirements, prefix, message):
raise NotImplementedError()

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"""Cache Management
"""
import errno
import hashlib
import logging
import os
from pip._vendor.packaging.utils import canonicalize_name
from pip._internal.download import path_to_url
from pip._internal.models.link import Link
from pip._internal.utils.compat import expanduser
from pip._internal.utils.temp_dir import TempDirectory
from pip._internal.utils.typing import MYPY_CHECK_RUNNING
from pip._internal.wheel import InvalidWheelFilename, Wheel
if MYPY_CHECK_RUNNING:
from typing import Optional, Set, List, Any # noqa: F401
from pip._internal.index import FormatControl # noqa: F401
logger = logging.getLogger(__name__)
class Cache(object):
"""An abstract class - provides cache directories for data from links
:param cache_dir: The root of the cache.
:param format_control: An object of FormatControl class to limit
binaries being read from the cache.
:param allowed_formats: which formats of files the cache should store.
('binary' and 'source' are the only allowed values)
"""
def __init__(self, cache_dir, format_control, allowed_formats):
# type: (str, FormatControl, Set[str]) -> None
super(Cache, self).__init__()
self.cache_dir = expanduser(cache_dir) if cache_dir else None
self.format_control = format_control
self.allowed_formats = allowed_formats
_valid_formats = {"source", "binary"}
assert self.allowed_formats.union(_valid_formats) == _valid_formats
def _get_cache_path_parts(self, link):
# type: (Link) -> List[str]
"""Get parts of part that must be os.path.joined with cache_dir
"""
# We want to generate an url to use as our cache key, we don't want to
# just re-use the URL because it might have other items in the fragment
# and we don't care about those.
key_parts = [link.url_without_fragment]
if link.hash_name is not None and link.hash is not None:
key_parts.append("=".join([link.hash_name, link.hash]))
key_url = "#".join(key_parts)
# Encode our key url with sha224, we'll use this because it has similar
# security properties to sha256, but with a shorter total output (and
# thus less secure). However the differences don't make a lot of
# difference for our use case here.
hashed = hashlib.sha224(key_url.encode()).hexdigest()
# We want to nest the directories some to prevent having a ton of top
# level directories where we might run out of sub directories on some
# FS.
parts = [hashed[:2], hashed[2:4], hashed[4:6], hashed[6:]]
return parts
def _get_candidates(self, link, package_name):
# type: (Link, Optional[str]) -> List[Any]
can_not_cache = (
not self.cache_dir or
not package_name or
not link
)
if can_not_cache:
return []
canonical_name = canonicalize_name(package_name)
formats = self.format_control.get_allowed_formats(
canonical_name
)
if not self.allowed_formats.intersection(formats):
return []
root = self.get_path_for_link(link)
try:
return os.listdir(root)
except OSError as err:
if err.errno in {errno.ENOENT, errno.ENOTDIR}:
return []
raise
def get_path_for_link(self, link):
# type: (Link) -> str
"""Return a directory to store cached items in for link.
"""
raise NotImplementedError()
def get(self, link, package_name):
# type: (Link, Optional[str]) -> Link
"""Returns a link to a cached item if it exists, otherwise returns the
passed link.
"""
raise NotImplementedError()
def _link_for_candidate(self, link, candidate):
# type: (Link, str) -> Link
root = self.get_path_for_link(link)
path = os.path.join(root, candidate)
return Link(path_to_url(path))
def cleanup(self):
# type: () -> None
pass
class SimpleWheelCache(Cache):
"""A cache of wheels for future installs.
"""
def __init__(self, cache_dir, format_control):
# type: (str, FormatControl) -> None
super(SimpleWheelCache, self).__init__(
cache_dir, format_control, {"binary"}
)
def get_path_for_link(self, link):
# type: (Link) -> str
"""Return a directory to store cached wheels for link
Because there are M wheels for any one sdist, we provide a directory
to cache them in, and then consult that directory when looking up
cache hits.
We only insert things into the cache if they have plausible version
numbers, so that we don't contaminate the cache with things that were
not unique. E.g. ./package might have dozens of installs done for it
and build a version of 0.0...and if we built and cached a wheel, we'd
end up using the same wheel even if the source has been edited.
:param link: The link of the sdist for which this will cache wheels.
"""
parts = self._get_cache_path_parts(link)
# Store wheels within the root cache_dir
return os.path.join(self.cache_dir, "wheels", *parts)
def get(self, link, package_name):
# type: (Link, Optional[str]) -> Link
candidates = []
for wheel_name in self._get_candidates(link, package_name):
try:
wheel = Wheel(wheel_name)
except InvalidWheelFilename:
continue
if not wheel.supported():
# Built for a different python/arch/etc
continue
candidates.append((wheel.support_index_min(), wheel_name))
if not candidates:
return link
return self._link_for_candidate(link, min(candidates)[1])
class EphemWheelCache(SimpleWheelCache):
"""A SimpleWheelCache that creates it's own temporary cache directory
"""
def __init__(self, format_control):
# type: (FormatControl) -> None
self._temp_dir = TempDirectory(kind="ephem-wheel-cache")
self._temp_dir.create()
super(EphemWheelCache, self).__init__(
self._temp_dir.path, format_control
)
def cleanup(self):
# type: () -> None
self._temp_dir.cleanup()
class WheelCache(Cache):
"""Wraps EphemWheelCache and SimpleWheelCache into a single Cache
This Cache allows for gracefully degradation, using the ephem wheel cache
when a certain link is not found in the simple wheel cache first.
"""
def __init__(self, cache_dir, format_control):
# type: (str, FormatControl) -> None
super(WheelCache, self).__init__(
cache_dir, format_control, {'binary'}
)
self._wheel_cache = SimpleWheelCache(cache_dir, format_control)
self._ephem_cache = EphemWheelCache(format_control)
def get_path_for_link(self, link):
# type: (Link) -> str
return self._wheel_cache.get_path_for_link(link)
def get_ephem_path_for_link(self, link):
# type: (Link) -> str
return self._ephem_cache.get_path_for_link(link)
def get(self, link, package_name):
# type: (Link, Optional[str]) -> Link
retval = self._wheel_cache.get(link, package_name)
if retval is link:
retval = self._ephem_cache.get(link, package_name)
return retval
def cleanup(self):
# type: () -> None
self._wheel_cache.cleanup()
self._ephem_cache.cleanup()

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"""Subpackage containing all of pip's command line interface related code
"""
# This file intentionally does not import submodules

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"""Logic that powers autocompletion installed by ``pip completion``.
"""
import optparse
import os
import sys
from pip._internal.cli.main_parser import create_main_parser
from pip._internal.commands import commands_dict, get_summaries
from pip._internal.utils.misc import get_installed_distributions
def autocomplete():
"""Entry Point for completion of main and subcommand options.
"""
# Don't complete if user hasn't sourced bash_completion file.
if 'PIP_AUTO_COMPLETE' not in os.environ:
return
cwords = os.environ['COMP_WORDS'].split()[1:]
cword = int(os.environ['COMP_CWORD'])
try:
current = cwords[cword - 1]
except IndexError:
current = ''
subcommands = [cmd for cmd, summary in get_summaries()]
options = []
# subcommand
try:
subcommand_name = [w for w in cwords if w in subcommands][0]
except IndexError:
subcommand_name = None
parser = create_main_parser()
# subcommand options
if subcommand_name:
# special case: 'help' subcommand has no options
if subcommand_name == 'help':
sys.exit(1)
# special case: list locally installed dists for show and uninstall
should_list_installed = (
subcommand_name in ['show', 'uninstall'] and
not current.startswith('-')
)
if should_list_installed:
installed = []
lc = current.lower()
for dist in get_installed_distributions(local_only=True):
if dist.key.startswith(lc) and dist.key not in cwords[1:]:
installed.append(dist.key)
# if there are no dists installed, fall back to option completion
if installed:
for dist in installed:
print(dist)
sys.exit(1)
subcommand = commands_dict[subcommand_name]()
for opt in subcommand.parser.option_list_all:
if opt.help != optparse.SUPPRESS_HELP:
for opt_str in opt._long_opts + opt._short_opts:
options.append((opt_str, opt.nargs))
# filter out previously specified options from available options
prev_opts = [x.split('=')[0] for x in cwords[1:cword - 1]]
options = [(x, v) for (x, v) in options if x not in prev_opts]
# filter options by current input
options = [(k, v) for k, v in options if k.startswith(current)]
# get completion type given cwords and available subcommand options
completion_type = get_path_completion_type(
cwords, cword, subcommand.parser.option_list_all,
)
# get completion files and directories if ``completion_type`` is
# ``<file>``, ``<dir>`` or ``<path>``
if completion_type:
options = auto_complete_paths(current, completion_type)
options = ((opt, 0) for opt in options)
for option in options:
opt_label = option[0]
# append '=' to options which require args
if option[1] and option[0][:2] == "--":
opt_label += '='
print(opt_label)
else:
# show main parser options only when necessary
opts = [i.option_list for i in parser.option_groups]
opts.append(parser.option_list)
opts = (o for it in opts for o in it)
if current.startswith('-'):
for opt in opts:
if opt.help != optparse.SUPPRESS_HELP:
subcommands += opt._long_opts + opt._short_opts
else:
# get completion type given cwords and all available options
completion_type = get_path_completion_type(cwords, cword, opts)
if completion_type:
subcommands = auto_complete_paths(current, completion_type)
print(' '.join([x for x in subcommands if x.startswith(current)]))
sys.exit(1)
def get_path_completion_type(cwords, cword, opts):
"""Get the type of path completion (``file``, ``dir``, ``path`` or None)
:param cwords: same as the environmental variable ``COMP_WORDS``
:param cword: same as the environmental variable ``COMP_CWORD``
:param opts: The available options to check
:return: path completion type (``file``, ``dir``, ``path`` or None)
"""
if cword < 2 or not cwords[cword - 2].startswith('-'):
return
for opt in opts:
if opt.help == optparse.SUPPRESS_HELP:
continue
for o in str(opt).split('/'):
if cwords[cword - 2].split('=')[0] == o:
if not opt.metavar or any(
x in ('path', 'file', 'dir')
for x in opt.metavar.split('/')):
return opt.metavar
def auto_complete_paths(current, completion_type):
"""If ``completion_type`` is ``file`` or ``path``, list all regular files
and directories starting with ``current``; otherwise only list directories
starting with ``current``.
:param current: The word to be completed
:param completion_type: path completion type(`file`, `path` or `dir`)i
:return: A generator of regular files and/or directories
"""
directory, filename = os.path.split(current)
current_path = os.path.abspath(directory)
# Don't complete paths if they can't be accessed
if not os.access(current_path, os.R_OK):
return
filename = os.path.normcase(filename)
# list all files that start with ``filename``
file_list = (x for x in os.listdir(current_path)
if os.path.normcase(x).startswith(filename))
for f in file_list:
opt = os.path.join(current_path, f)
comp_file = os.path.normcase(os.path.join(directory, f))
# complete regular files when there is not ``<dir>`` after option
# complete directories when there is ``<file>``, ``<path>`` or
# ``<dir>``after option
if completion_type != 'dir' and os.path.isfile(opt):
yield comp_file
elif os.path.isdir(opt):
yield os.path.join(comp_file, '')

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"""Base Command class, and related routines"""
from __future__ import absolute_import, print_function
import logging
import logging.config
import optparse
import os
import platform
import sys
import traceback
from pip._internal.cli import cmdoptions
from pip._internal.cli.parser import (
ConfigOptionParser, UpdatingDefaultsHelpFormatter,
)
from pip._internal.cli.status_codes import (
ERROR, PREVIOUS_BUILD_DIR_ERROR, SUCCESS, UNKNOWN_ERROR,
VIRTUALENV_NOT_FOUND,
)
from pip._internal.download import PipSession
from pip._internal.exceptions import (
BadCommand, CommandError, InstallationError, PreviousBuildDirError,
UninstallationError,
)
from pip._internal.index import PackageFinder
from pip._internal.locations import running_under_virtualenv
from pip._internal.req.constructors import (
install_req_from_editable, install_req_from_line,
)
from pip._internal.req.req_file import parse_requirements
from pip._internal.utils.deprecation import deprecated
from pip._internal.utils.logging import BrokenStdoutLoggingError, setup_logging
from pip._internal.utils.misc import (
get_prog, normalize_path, redact_password_from_url,
)
from pip._internal.utils.outdated import pip_version_check
from pip._internal.utils.typing import MYPY_CHECK_RUNNING
if MYPY_CHECK_RUNNING:
from typing import Optional, List, Tuple, Any # noqa: F401
from optparse import Values # noqa: F401
from pip._internal.cache import WheelCache # noqa: F401
from pip._internal.req.req_set import RequirementSet # noqa: F401
__all__ = ['Command']
logger = logging.getLogger(__name__)
class Command(object):
name = None # type: Optional[str]
usage = None # type: Optional[str]
hidden = False # type: bool
ignore_require_venv = False # type: bool
def __init__(self, isolated=False):
# type: (bool) -> None
parser_kw = {
'usage': self.usage,
'prog': '%s %s' % (get_prog(), self.name),
'formatter': UpdatingDefaultsHelpFormatter(),
'add_help_option': False,
'name': self.name,
'description': self.__doc__,
'isolated': isolated,
}
self.parser = ConfigOptionParser(**parser_kw)
# Commands should add options to this option group
optgroup_name = '%s Options' % self.name.capitalize()
self.cmd_opts = optparse.OptionGroup(self.parser, optgroup_name)
# Add the general options
gen_opts = cmdoptions.make_option_group(
cmdoptions.general_group,
self.parser,
)
self.parser.add_option_group(gen_opts)
def run(self, options, args):
# type: (Values, List[Any]) -> Any
raise NotImplementedError
def _build_session(self, options, retries=None, timeout=None):
# type: (Values, Optional[int], Optional[int]) -> PipSession
session = PipSession(
cache=(
normalize_path(os.path.join(options.cache_dir, "http"))
if options.cache_dir else None
),
retries=retries if retries is not None else options.retries,
insecure_hosts=options.trusted_hosts,
)
# Handle custom ca-bundles from the user
if options.cert:
session.verify = options.cert
# Handle SSL client certificate
if options.client_cert:
session.cert = options.client_cert
# Handle timeouts
if options.timeout or timeout:
session.timeout = (
timeout if timeout is not None else options.timeout
)
# Handle configured proxies
if options.proxy:
session.proxies = {
"http": options.proxy,
"https": options.proxy,
}
# Determine if we can prompt the user for authentication or not
session.auth.prompting = not options.no_input
return session
def parse_args(self, args):
# type: (List[str]) -> Tuple
# factored out for testability
return self.parser.parse_args(args)
def main(self, args):
# type: (List[str]) -> int
options, args = self.parse_args(args)
# Set verbosity so that it can be used elsewhere.
self.verbosity = options.verbose - options.quiet
level_number = setup_logging(
verbosity=self.verbosity,
no_color=options.no_color,
user_log_file=options.log,
)
if sys.version_info[:2] == (3, 4):
deprecated(
"Python 3.4 support has been deprecated. pip 19.1 will be the "
"last one supporting it. Please upgrade your Python as Python "
"3.4 won't be maintained after March 2019 (cf PEP 429).",
replacement=None,
gone_in='19.2',
)
elif sys.version_info[:2] == (2, 7):
message = (
"A future version of pip will drop support for Python 2.7."
)
if platform.python_implementation() == "CPython":
message = (
"Python 2.7 will reach the end of its life on January "
"1st, 2020. Please upgrade your Python as Python 2.7 "
"won't be maintained after that date. "
) + message
deprecated(message, replacement=None, gone_in=None)
# TODO: Try to get these passing down from the command?
# without resorting to os.environ to hold these.
# This also affects isolated builds and it should.
if options.no_input:
os.environ['PIP_NO_INPUT'] = '1'
if options.exists_action:
os.environ['PIP_EXISTS_ACTION'] = ' '.join(options.exists_action)
if options.require_venv and not self.ignore_require_venv:
# If a venv is required check if it can really be found
if not running_under_virtualenv():
logger.critical(
'Could not find an activated virtualenv (required).'
)
sys.exit(VIRTUALENV_NOT_FOUND)
try:
status = self.run(options, args)
# FIXME: all commands should return an exit status
# and when it is done, isinstance is not needed anymore
if isinstance(status, int):
return status
except PreviousBuildDirError as exc:
logger.critical(str(exc))
logger.debug('Exception information:', exc_info=True)
return PREVIOUS_BUILD_DIR_ERROR
except (InstallationError, UninstallationError, BadCommand) as exc:
logger.critical(str(exc))
logger.debug('Exception information:', exc_info=True)
return ERROR
except CommandError as exc:
logger.critical('ERROR: %s', exc)
logger.debug('Exception information:', exc_info=True)
return ERROR
except BrokenStdoutLoggingError:
# Bypass our logger and write any remaining messages to stderr
# because stdout no longer works.
print('ERROR: Pipe to stdout was broken', file=sys.stderr)
if level_number <= logging.DEBUG:
traceback.print_exc(file=sys.stderr)
return ERROR
except KeyboardInterrupt:
logger.critical('Operation cancelled by user')
logger.debug('Exception information:', exc_info=True)
return ERROR
except BaseException:
logger.critical('Exception:', exc_info=True)
return UNKNOWN_ERROR
finally:
allow_version_check = (
# Does this command have the index_group options?
hasattr(options, "no_index") and
# Is this command allowed to perform this check?
not (options.disable_pip_version_check or options.no_index)
)
# Check if we're using the latest version of pip available
if allow_version_check:
session = self._build_session(
options,
retries=0,
timeout=min(5, options.timeout)
)
with session:
pip_version_check(session, options)
# Shutdown the logging module
logging.shutdown()
return SUCCESS
class RequirementCommand(Command):
@staticmethod
def populate_requirement_set(requirement_set, # type: RequirementSet
args, # type: List[str]
options, # type: Values
finder, # type: PackageFinder
session, # type: PipSession
name, # type: str
wheel_cache # type: Optional[WheelCache]
):
# type: (...) -> None
"""
Marshal cmd line args into a requirement set.
"""
# NOTE: As a side-effect, options.require_hashes and
# requirement_set.require_hashes may be updated
for filename in options.constraints:
for req_to_add in parse_requirements(
filename,
constraint=True, finder=finder, options=options,
session=session, wheel_cache=wheel_cache):
req_to_add.is_direct = True
requirement_set.add_requirement(req_to_add)
for req in args:
req_to_add = install_req_from_line(
req, None, isolated=options.isolated_mode,
use_pep517=options.use_pep517,
wheel_cache=wheel_cache
)
req_to_add.is_direct = True
requirement_set.add_requirement(req_to_add)
for req in options.editables:
req_to_add = install_req_from_editable(
req,
isolated=options.isolated_mode,
use_pep517=options.use_pep517,
wheel_cache=wheel_cache
)
req_to_add.is_direct = True
requirement_set.add_requirement(req_to_add)
for filename in options.requirements:
for req_to_add in parse_requirements(
filename,
finder=finder, options=options, session=session,
wheel_cache=wheel_cache,
use_pep517=options.use_pep517):
req_to_add.is_direct = True
requirement_set.add_requirement(req_to_add)
# If --require-hashes was a line in a requirements file, tell
# RequirementSet about it:
requirement_set.require_hashes = options.require_hashes
if not (args or options.editables or options.requirements):
opts = {'name': name}
if options.find_links:
raise CommandError(
'You must give at least one requirement to %(name)s '
'(maybe you meant "pip %(name)s %(links)s"?)' %
dict(opts, links=' '.join(options.find_links)))
else:
raise CommandError(
'You must give at least one requirement to %(name)s '
'(see "pip help %(name)s")' % opts)
def _build_package_finder(
self,
options, # type: Values
session, # type: PipSession
platform=None, # type: Optional[str]
python_versions=None, # type: Optional[List[str]]
abi=None, # type: Optional[str]
implementation=None # type: Optional[str]
):
# type: (...) -> PackageFinder
"""
Create a package finder appropriate to this requirement command.
"""
index_urls = [options.index_url] + options.extra_index_urls
if options.no_index:
logger.debug(
'Ignoring indexes: %s',
','.join(redact_password_from_url(url) for url in index_urls),
)
index_urls = []
return PackageFinder(
find_links=options.find_links,
format_control=options.format_control,
index_urls=index_urls,
trusted_hosts=options.trusted_hosts,
allow_all_prereleases=options.pre,
session=session,
platform=platform,
versions=python_versions,
abi=abi,
implementation=implementation,
prefer_binary=options.prefer_binary,
)

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"""
shared options and groups
The principle here is to define options once, but *not* instantiate them
globally. One reason being that options with action='append' can carry state
between parses. pip parses general options twice internally, and shouldn't
pass on state. To be consistent, all options will follow this design.
"""
from __future__ import absolute_import
import textwrap
import warnings
from distutils.util import strtobool
from functools import partial
from optparse import SUPPRESS_HELP, Option, OptionGroup
from pip._internal.exceptions import CommandError
from pip._internal.locations import USER_CACHE_DIR, src_prefix
from pip._internal.models.format_control import FormatControl
from pip._internal.models.index import PyPI
from pip._internal.utils.hashes import STRONG_HASHES
from pip._internal.utils.typing import MYPY_CHECK_RUNNING
from pip._internal.utils.ui import BAR_TYPES
if MYPY_CHECK_RUNNING:
from typing import Any, Callable, Dict, List, Optional, Union # noqa: F401
from optparse import OptionParser, Values # noqa: F401
from pip._internal.cli.parser import ConfigOptionParser # noqa: F401
def raise_option_error(parser, option, msg):
"""
Raise an option parsing error using parser.error().
Args:
parser: an OptionParser instance.
option: an Option instance.
msg: the error text.
"""
msg = '{} error: {}'.format(option, msg)
msg = textwrap.fill(' '.join(msg.split()))
parser.error(msg)
def make_option_group(group, parser):
# type: (Dict[str, Any], ConfigOptionParser) -> OptionGroup
"""
Return an OptionGroup object
group -- assumed to be dict with 'name' and 'options' keys
parser -- an optparse Parser
"""
option_group = OptionGroup(parser, group['name'])
for option in group['options']:
option_group.add_option(option())
return option_group
def check_install_build_global(options, check_options=None):
# type: (Values, Optional[Values]) -> None
"""Disable wheels if per-setup.py call options are set.
:param options: The OptionParser options to update.
:param check_options: The options to check, if not supplied defaults to
options.
"""
if check_options is None:
check_options = options
def getname(n):
return getattr(check_options, n, None)
names = ["build_options", "global_options", "install_options"]
if any(map(getname, names)):
control = options.format_control
control.disallow_binaries()
warnings.warn(
'Disabling all use of wheels due to the use of --build-options '
'/ --global-options / --install-options.', stacklevel=2,
)
def check_dist_restriction(options, check_target=False):
# type: (Values, bool) -> None
"""Function for determining if custom platform options are allowed.
:param options: The OptionParser options.
:param check_target: Whether or not to check if --target is being used.
"""
dist_restriction_set = any([
options.python_version,
options.platform,
options.abi,
options.implementation,
])
binary_only = FormatControl(set(), {':all:'})
sdist_dependencies_allowed = (
options.format_control != binary_only and
not options.ignore_dependencies
)
# Installations or downloads using dist restrictions must not combine
# source distributions and dist-specific wheels, as they are not
# gauranteed to be locally compatible.
if dist_restriction_set and sdist_dependencies_allowed:
raise CommandError(
"When restricting platform and interpreter constraints using "
"--python-version, --platform, --abi, or --implementation, "
"either --no-deps must be set, or --only-binary=:all: must be "
"set and --no-binary must not be set (or must be set to "
":none:)."
)
if check_target:
if dist_restriction_set and not options.target_dir:
raise CommandError(
"Can not use any platform or abi specific options unless "
"installing via '--target'"
)
###########
# options #
###########
help_ = partial(
Option,
'-h', '--help',
dest='help',
action='help',
help='Show help.',
) # type: Callable[..., Option]
isolated_mode = partial(
Option,
"--isolated",
dest="isolated_mode",
action="store_true",
default=False,
help=(
"Run pip in an isolated mode, ignoring environment variables and user "
"configuration."
),
) # type: Callable[..., Option]
require_virtualenv = partial(
Option,
# Run only if inside a virtualenv, bail if not.
'--require-virtualenv', '--require-venv',
dest='require_venv',
action='store_true',
default=False,
help=SUPPRESS_HELP
) # type: Callable[..., Option]
verbose = partial(
Option,
'-v', '--verbose',
dest='verbose',
action='count',
default=0,
help='Give more output. Option is additive, and can be used up to 3 times.'
) # type: Callable[..., Option]
no_color = partial(
Option,
'--no-color',
dest='no_color',
action='store_true',
default=False,
help="Suppress colored output",
) # type: Callable[..., Option]
version = partial(
Option,
'-V', '--version',
dest='version',
action='store_true',
help='Show version and exit.',
) # type: Callable[..., Option]
quiet = partial(
Option,
'-q', '--quiet',
dest='quiet',
action='count',
default=0,
help=(
'Give less output. Option is additive, and can be used up to 3'
' times (corresponding to WARNING, ERROR, and CRITICAL logging'
' levels).'
),
) # type: Callable[..., Option]
progress_bar = partial(
Option,
'--progress-bar',
dest='progress_bar',
type='choice',
choices=list(BAR_TYPES.keys()),
default='on',
help=(
'Specify type of progress to be displayed [' +
'|'.join(BAR_TYPES.keys()) + '] (default: %default)'
),
) # type: Callable[..., Option]
log = partial(
Option,
"--log", "--log-file", "--local-log",
dest="log",
metavar="path",
help="Path to a verbose appending log."
) # type: Callable[..., Option]
no_input = partial(
Option,
# Don't ask for input
'--no-input',
dest='no_input',
action='store_true',
default=False,
help=SUPPRESS_HELP
) # type: Callable[..., Option]
proxy = partial(
Option,
'--proxy',
dest='proxy',
type='str',
default='',
help="Specify a proxy in the form [user:passwd@]proxy.server:port."
) # type: Callable[..., Option]
retries = partial(
Option,
'--retries',
dest='retries',
type='int',
default=5,
help="Maximum number of retries each connection should attempt "
"(default %default times).",
) # type: Callable[..., Option]
timeout = partial(
Option,
'--timeout', '--default-timeout',
metavar='sec',
dest='timeout',
type='float',
default=15,
help='Set the socket timeout (default %default seconds).',
) # type: Callable[..., Option]
skip_requirements_regex = partial(
Option,
# A regex to be used to skip requirements
'--skip-requirements-regex',
dest='skip_requirements_regex',
type='str',
default='',
help=SUPPRESS_HELP,
) # type: Callable[..., Option]
def exists_action():
# type: () -> Option
return Option(
# Option when path already exist
'--exists-action',
dest='exists_action',
type='choice',
choices=['s', 'i', 'w', 'b', 'a'],
default=[],
action='append',
metavar='action',
help="Default action when a path already exists: "
"(s)witch, (i)gnore, (w)ipe, (b)ackup, (a)bort).",
)
cert = partial(
Option,
'--cert',
dest='cert',
type='str',
metavar='path',
help="Path to alternate CA bundle.",
) # type: Callable[..., Option]
client_cert = partial(
Option,
'--client-cert',
dest='client_cert',
type='str',
default=None,
metavar='path',
help="Path to SSL client certificate, a single file containing the "
"private key and the certificate in PEM format.",
) # type: Callable[..., Option]
index_url = partial(
Option,
'-i', '--index-url', '--pypi-url',
dest='index_url',
metavar='URL',
default=PyPI.simple_url,
help="Base URL of Python Package Index (default %default). "
"This should point to a repository compliant with PEP 503 "
"(the simple repository API) or a local directory laid out "
"in the same format.",
) # type: Callable[..., Option]
def extra_index_url():
return Option(
'--extra-index-url',
dest='extra_index_urls',
metavar='URL',
action='append',
default=[],
help="Extra URLs of package indexes to use in addition to "
"--index-url. Should follow the same rules as "
"--index-url.",
)
no_index = partial(
Option,
'--no-index',
dest='no_index',
action='store_true',
default=False,
help='Ignore package index (only looking at --find-links URLs instead).',
) # type: Callable[..., Option]
def find_links():
# type: () -> Option
return Option(
'-f', '--find-links',
dest='find_links',
action='append',
default=[],
metavar='url',
help="If a url or path to an html file, then parse for links to "
"archives. If a local path or file:// url that's a directory, "
"then look for archives in the directory listing.",
)
def trusted_host():
# type: () -> Option
return Option(
"--trusted-host",
dest="trusted_hosts",
action="append",
metavar="HOSTNAME",
default=[],
help="Mark this host as trusted, even though it does not have valid "
"or any HTTPS.",
)
def constraints():
# type: () -> Option
return Option(
'-c', '--constraint',
dest='constraints',
action='append',
default=[],
metavar='file',
help='Constrain versions using the given constraints file. '
'This option can be used multiple times.'
)
def requirements():
# type: () -> Option
return Option(
'-r', '--requirement',
dest='requirements',
action='append',
default=[],
metavar='file',
help='Install from the given requirements file. '
'This option can be used multiple times.'
)
def editable():
# type: () -> Option
return Option(
'-e', '--editable',
dest='editables',
action='append',
default=[],
metavar='path/url',
help=('Install a project in editable mode (i.e. setuptools '
'"develop mode") from a local project path or a VCS url.'),
)
src = partial(
Option,
'--src', '--source', '--source-dir', '--source-directory',
dest='src_dir',
metavar='dir',
default=src_prefix,
help='Directory to check out editable projects into. '
'The default in a virtualenv is "<venv path>/src". '
'The default for global installs is "<current dir>/src".'
) # type: Callable[..., Option]
def _get_format_control(values, option):
# type: (Values, Option) -> Any
"""Get a format_control object."""
return getattr(values, option.dest)
def _handle_no_binary(option, opt_str, value, parser):
# type: (Option, str, str, OptionParser) -> None
existing = _get_format_control(parser.values, option)
FormatControl.handle_mutual_excludes(
value, existing.no_binary, existing.only_binary,
)
def _handle_only_binary(option, opt_str, value, parser):
# type: (Option, str, str, OptionParser) -> None
existing = _get_format_control(parser.values, option)
FormatControl.handle_mutual_excludes(
value, existing.only_binary, existing.no_binary,
)
def no_binary():
# type: () -> Option
format_control = FormatControl(set(), set())
return Option(
"--no-binary", dest="format_control", action="callback",
callback=_handle_no_binary, type="str",
default=format_control,
help="Do not use binary packages. Can be supplied multiple times, and "
"each time adds to the existing value. Accepts either :all: to "
"disable all binary packages, :none: to empty the set, or one or "
"more package names with commas between them. Note that some "
"packages are tricky to compile and may fail to install when "
"this option is used on them.",
)
def only_binary():
# type: () -> Option
format_control = FormatControl(set(), set())
return Option(
"--only-binary", dest="format_control", action="callback",
callback=_handle_only_binary, type="str",
default=format_control,
help="Do not use source packages. Can be supplied multiple times, and "
"each time adds to the existing value. Accepts either :all: to "
"disable all source packages, :none: to empty the set, or one or "
"more package names with commas between them. Packages without "
"binary distributions will fail to install when this option is "
"used on them.",
)
platform = partial(
Option,
'--platform',
dest='platform',
metavar='platform',
default=None,
help=("Only use wheels compatible with <platform>. "
"Defaults to the platform of the running system."),
) # type: Callable[..., Option]
python_version = partial(
Option,
'--python-version',
dest='python_version',
metavar='python_version',
default=None,
help=("Only use wheels compatible with Python "
"interpreter version <version>. If not specified, then the "
"current system interpreter minor version is used. A major "
"version (e.g. '2') can be specified to match all "
"minor revs of that major version. A minor version "
"(e.g. '34') can also be specified."),
) # type: Callable[..., Option]
implementation = partial(
Option,
'--implementation',
dest='implementation',
metavar='implementation',
default=None,
help=("Only use wheels compatible with Python "
"implementation <implementation>, e.g. 'pp', 'jy', 'cp', "
" or 'ip'. If not specified, then the current "
"interpreter implementation is used. Use 'py' to force "
"implementation-agnostic wheels."),
) # type: Callable[..., Option]
abi = partial(
Option,
'--abi',
dest='abi',
metavar='abi',
default=None,
help=("Only use wheels compatible with Python "
"abi <abi>, e.g. 'pypy_41'. If not specified, then the "
"current interpreter abi tag is used. Generally "
"you will need to specify --implementation, "
"--platform, and --python-version when using "
"this option."),
) # type: Callable[..., Option]
def prefer_binary():
# type: () -> Option
return Option(
"--prefer-binary",
dest="prefer_binary",
action="store_true",
default=False,
help="Prefer older binary packages over newer source packages."
)
cache_dir = partial(
Option,
"--cache-dir",
dest="cache_dir",
default=USER_CACHE_DIR,
metavar="dir",
help="Store the cache data in <dir>."
) # type: Callable[..., Option]
def no_cache_dir_callback(option, opt, value, parser):
"""
Process a value provided for the --no-cache-dir option.
This is an optparse.Option callback for the --no-cache-dir option.
"""
# The value argument will be None if --no-cache-dir is passed via the
# command-line, since the option doesn't accept arguments. However,
# the value can be non-None if the option is triggered e.g. by an
# environment variable, like PIP_NO_CACHE_DIR=true.
if value is not None:
# Then parse the string value to get argument error-checking.
try:
strtobool(value)
except ValueError as exc:
raise_option_error(parser, option=option, msg=str(exc))
# Originally, setting PIP_NO_CACHE_DIR to a value that strtobool()
# converted to 0 (like "false" or "no") caused cache_dir to be disabled
# rather than enabled (logic would say the latter). Thus, we disable
# the cache directory not just on values that parse to True, but (for
# backwards compatibility reasons) also on values that parse to False.
# In other words, always set it to False if the option is provided in
# some (valid) form.
parser.values.cache_dir = False
no_cache = partial(
Option,
"--no-cache-dir",
dest="cache_dir",
action="callback",
callback=no_cache_dir_callback,
help="Disable the cache.",
) # type: Callable[..., Option]
no_deps = partial(
Option,
'--no-deps', '--no-dependencies',
dest='ignore_dependencies',
action='store_true',
default=False,
help="Don't install package dependencies.",
) # type: Callable[..., Option]
build_dir = partial(
Option,
'-b', '--build', '--build-dir', '--build-directory',
dest='build_dir',
metavar='dir',
help='Directory to unpack packages into and build in. Note that '
'an initial build still takes place in a temporary directory. '
'The location of temporary directories can be controlled by setting '
'the TMPDIR environment variable (TEMP on Windows) appropriately. '
'When passed, build directories are not cleaned in case of failures.'
) # type: Callable[..., Option]
ignore_requires_python = partial(
Option,
'--ignore-requires-python',
dest='ignore_requires_python',
action='store_true',
help='Ignore the Requires-Python information.'
) # type: Callable[..., Option]
no_build_isolation = partial(
Option,
'--no-build-isolation',
dest='build_isolation',
action='store_false',
default=True,
help='Disable isolation when building a modern source distribution. '
'Build dependencies specified by PEP 518 must be already installed '
'if this option is used.'
) # type: Callable[..., Option]
def no_use_pep517_callback(option, opt, value, parser):
"""
Process a value provided for the --no-use-pep517 option.
This is an optparse.Option callback for the no_use_pep517 option.
"""
# Since --no-use-pep517 doesn't accept arguments, the value argument
# will be None if --no-use-pep517 is passed via the command-line.
# However, the value can be non-None if the option is triggered e.g.
# by an environment variable, for example "PIP_NO_USE_PEP517=true".
if value is not None:
msg = """A value was passed for --no-use-pep517,
probably using either the PIP_NO_USE_PEP517 environment variable
or the "no-use-pep517" config file option. Use an appropriate value
of the PIP_USE_PEP517 environment variable or the "use-pep517"
config file option instead.
"""
raise_option_error(parser, option=option, msg=msg)
# Otherwise, --no-use-pep517 was passed via the command-line.
parser.values.use_pep517 = False
use_pep517 = partial(
Option,
'--use-pep517',
dest='use_pep517',
action='store_true',
default=None,
help='Use PEP 517 for building source distributions '
'(use --no-use-pep517 to force legacy behaviour).'
) # type: Any
no_use_pep517 = partial(
Option,
'--no-use-pep517',
dest='use_pep517',
action='callback',
callback=no_use_pep517_callback,
default=None,
help=SUPPRESS_HELP
) # type: Any
install_options = partial(
Option,
'--install-option',
dest='install_options',
action='append',
metavar='options',
help="Extra arguments to be supplied to the setup.py install "
"command (use like --install-option=\"--install-scripts=/usr/local/"
"bin\"). Use multiple --install-option options to pass multiple "
"options to setup.py install. If you are using an option with a "
"directory path, be sure to use absolute path.",
) # type: Callable[..., Option]
global_options = partial(
Option,
'--global-option',
dest='global_options',
action='append',
metavar='options',
help="Extra global options to be supplied to the setup.py "
"call before the install command.",
) # type: Callable[..., Option]
no_clean = partial(
Option,
'--no-clean',
action='store_true',
default=False,
help="Don't clean up build directories."
) # type: Callable[..., Option]
pre = partial(
Option,
'--pre',
action='store_true',
default=False,
help="Include pre-release and development versions. By default, "
"pip only finds stable versions.",
) # type: Callable[..., Option]
disable_pip_version_check = partial(
Option,
"--disable-pip-version-check",
dest="disable_pip_version_check",
action="store_true",
default=False,
help="Don't periodically check PyPI to determine whether a new version "
"of pip is available for download. Implied with --no-index.",
) # type: Callable[..., Option]
# Deprecated, Remove later
always_unzip = partial(
Option,
'-Z', '--always-unzip',
dest='always_unzip',
action='store_true',
help=SUPPRESS_HELP,
) # type: Callable[..., Option]
def _merge_hash(option, opt_str, value, parser):
# type: (Option, str, str, OptionParser) -> None
"""Given a value spelled "algo:digest", append the digest to a list
pointed to in a dict by the algo name."""
if not parser.values.hashes:
parser.values.hashes = {} # type: ignore
try:
algo, digest = value.split(':', 1)
except ValueError:
parser.error('Arguments to %s must be a hash name '
'followed by a value, like --hash=sha256:abcde...' %
opt_str)
if algo not in STRONG_HASHES:
parser.error('Allowed hash algorithms for %s are %s.' %
(opt_str, ', '.join(STRONG_HASHES)))
parser.values.hashes.setdefault(algo, []).append(digest)
hash = partial(
Option,
'--hash',
# Hash values eventually end up in InstallRequirement.hashes due to
# __dict__ copying in process_line().
dest='hashes',
action='callback',
callback=_merge_hash,
type='string',
help="Verify that the package's archive matches this "
'hash before installing. Example: --hash=sha256:abcdef...',
) # type: Callable[..., Option]
require_hashes = partial(
Option,
'--require-hashes',
dest='require_hashes',
action='store_true',
default=False,
help='Require a hash to check each requirement against, for '
'repeatable installs. This option is implied when any package in a '
'requirements file has a --hash option.',
) # type: Callable[..., Option]
##########
# groups #
##########
general_group = {
'name': 'General Options',
'options': [
help_,
isolated_mode,
require_virtualenv,
verbose,
version,
quiet,
log,
no_input,
proxy,
retries,
timeout,
skip_requirements_regex,
exists_action,
trusted_host,
cert,
client_cert,
cache_dir,
no_cache,
disable_pip_version_check,
no_color,
]
} # type: Dict[str, Any]
index_group = {
'name': 'Package Index Options',
'options': [
index_url,
extra_index_url,
no_index,
find_links,
]
} # type: Dict[str, Any]

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"""A single place for constructing and exposing the main parser
"""
import os
import sys
from pip import __version__
from pip._internal.cli import cmdoptions
from pip._internal.cli.parser import (
ConfigOptionParser, UpdatingDefaultsHelpFormatter,
)
from pip._internal.commands import (
commands_dict, get_similar_commands, get_summaries,
)
from pip._internal.exceptions import CommandError
from pip._internal.utils.misc import get_prog
from pip._internal.utils.typing import MYPY_CHECK_RUNNING
if MYPY_CHECK_RUNNING:
from typing import Tuple, List # noqa: F401
__all__ = ["create_main_parser", "parse_command"]
def create_main_parser():
# type: () -> ConfigOptionParser
"""Creates and returns the main parser for pip's CLI
"""
parser_kw = {
'usage': '\n%prog <command> [options]',
'add_help_option': False,
'formatter': UpdatingDefaultsHelpFormatter(),
'name': 'global',
'prog': get_prog(),
}
parser = ConfigOptionParser(**parser_kw)
parser.disable_interspersed_args()
pip_pkg_dir = os.path.abspath(os.path.join(
os.path.dirname(__file__), "..", "..",
))
parser.version = 'pip %s from %s (python %s)' % (
__version__, pip_pkg_dir, sys.version[:3],
)
# add the general options
gen_opts = cmdoptions.make_option_group(cmdoptions.general_group, parser)
parser.add_option_group(gen_opts)
# so the help formatter knows
parser.main = True # type: ignore
# create command listing for description
command_summaries = get_summaries()
description = [''] + ['%-27s %s' % (i, j) for i, j in command_summaries]
parser.description = '\n'.join(description)
return parser
def parse_command(args):
# type: (List[str]) -> Tuple[str, List[str]]
parser = create_main_parser()
# Note: parser calls disable_interspersed_args(), so the result of this
# call is to split the initial args into the general options before the
# subcommand and everything else.
# For example:
# args: ['--timeout=5', 'install', '--user', 'INITools']
# general_options: ['--timeout==5']
# args_else: ['install', '--user', 'INITools']
general_options, args_else = parser.parse_args(args)
# --version
if general_options.version:
sys.stdout.write(parser.version) # type: ignore
sys.stdout.write(os.linesep)
sys.exit()
# pip || pip help -> print_help()
if not args_else or (args_else[0] == 'help' and len(args_else) == 1):
parser.print_help()
sys.exit()
# the subcommand name
cmd_name = args_else[0]
if cmd_name not in commands_dict:
guess = get_similar_commands(cmd_name)
msg = ['unknown command "%s"' % cmd_name]
if guess:
msg.append('maybe you meant "%s"' % guess)
raise CommandError(' - '.join(msg))
# all the args without the subcommand
cmd_args = args[:]
cmd_args.remove(cmd_name)
return cmd_name, cmd_args

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"""Base option parser setup"""
from __future__ import absolute_import
import logging
import optparse
import sys
import textwrap
from distutils.util import strtobool
from pip._vendor.six import string_types
from pip._internal.cli.status_codes import UNKNOWN_ERROR
from pip._internal.configuration import Configuration, ConfigurationError
from pip._internal.utils.compat import get_terminal_size
logger = logging.getLogger(__name__)
class PrettyHelpFormatter(optparse.IndentedHelpFormatter):
"""A prettier/less verbose help formatter for optparse."""
def __init__(self, *args, **kwargs):
# help position must be aligned with __init__.parseopts.description
kwargs['max_help_position'] = 30
kwargs['indent_increment'] = 1
kwargs['width'] = get_terminal_size()[0] - 2
optparse.IndentedHelpFormatter.__init__(self, *args, **kwargs)
def format_option_strings(self, option):
return self._format_option_strings(option, ' <%s>', ', ')
def _format_option_strings(self, option, mvarfmt=' <%s>', optsep=', '):
"""
Return a comma-separated list of option strings and metavars.
:param option: tuple of (short opt, long opt), e.g: ('-f', '--format')
:param mvarfmt: metavar format string - evaluated as mvarfmt % metavar
:param optsep: separator
"""
opts = []
if option._short_opts:
opts.append(option._short_opts[0])
if option._long_opts:
opts.append(option._long_opts[0])
if len(opts) > 1:
opts.insert(1, optsep)
if option.takes_value():
metavar = option.metavar or option.dest.lower()
opts.append(mvarfmt % metavar.lower())
return ''.join(opts)
def format_heading(self, heading):
if heading == 'Options':
return ''
return heading + ':\n'
def format_usage(self, usage):
"""
Ensure there is only one newline between usage and the first heading
if there is no description.
"""
msg = '\nUsage: %s\n' % self.indent_lines(textwrap.dedent(usage), " ")
return msg
def format_description(self, description):
# leave full control over description to us
if description:
if hasattr(self.parser, 'main'):
label = 'Commands'
else:
label = 'Description'
# some doc strings have initial newlines, some don't
description = description.lstrip('\n')
# some doc strings have final newlines and spaces, some don't
description = description.rstrip()
# dedent, then reindent
description = self.indent_lines(textwrap.dedent(description), " ")
description = '%s:\n%s\n' % (label, description)
return description
else:
return ''
def format_epilog(self, epilog):
# leave full control over epilog to us
if epilog:
return epilog
else:
return ''
def indent_lines(self, text, indent):
new_lines = [indent + line for line in text.split('\n')]
return "\n".join(new_lines)
class UpdatingDefaultsHelpFormatter(PrettyHelpFormatter):
"""Custom help formatter for use in ConfigOptionParser.
This is updates the defaults before expanding them, allowing
them to show up correctly in the help listing.
"""
def expand_default(self, option):
if self.parser is not None:
self.parser._update_defaults(self.parser.defaults)
return optparse.IndentedHelpFormatter.expand_default(self, option)
class CustomOptionParser(optparse.OptionParser):
def insert_option_group(self, idx, *args, **kwargs):
"""Insert an OptionGroup at a given position."""
group = self.add_option_group(*args, **kwargs)
self.option_groups.pop()
self.option_groups.insert(idx, group)
return group
@property
def option_list_all(self):
"""Get a list of all options, including those in option groups."""
res = self.option_list[:]
for i in self.option_groups:
res.extend(i.option_list)
return res
class ConfigOptionParser(CustomOptionParser):
"""Custom option parser which updates its defaults by checking the
configuration files and environmental variables"""
def __init__(self, *args, **kwargs):
self.name = kwargs.pop('name')
isolated = kwargs.pop("isolated", False)
self.config = Configuration(isolated)
assert self.name
optparse.OptionParser.__init__(self, *args, **kwargs)
def check_default(self, option, key, val):
try:
return option.check_value(key, val)
except optparse.OptionValueError as exc:
print("An error occurred during configuration: %s" % exc)
sys.exit(3)
def _get_ordered_configuration_items(self):
# Configuration gives keys in an unordered manner. Order them.
override_order = ["global", self.name, ":env:"]
# Pool the options into different groups
section_items = {name: [] for name in override_order}
for section_key, val in self.config.items():
# ignore empty values
if not val:
logger.debug(
"Ignoring configuration key '%s' as it's value is empty.",
section_key
)
continue
section, key = section_key.split(".", 1)
if section in override_order:
section_items[section].append((key, val))
# Yield each group in their override order
for section in override_order:
for key, val in section_items[section]:
yield key, val
def _update_defaults(self, defaults):
"""Updates the given defaults with values from the config files and
the environ. Does a little special handling for certain types of
options (lists)."""
# Accumulate complex default state.
self.values = optparse.Values(self.defaults)
late_eval = set()
# Then set the options with those values
for key, val in self._get_ordered_configuration_items():
# '--' because configuration supports only long names
option = self.get_option('--' + key)
# Ignore options not present in this parser. E.g. non-globals put
# in [global] by users that want them to apply to all applicable
# commands.
if option is None:
continue
if option.action in ('store_true', 'store_false', 'count'):
try:
val = strtobool(val)
except ValueError:
error_msg = invalid_config_error_message(
option.action, key, val
)
self.error(error_msg)
elif option.action == 'append':
val = val.split()
val = [self.check_default(option, key, v) for v in val]
elif option.action == 'callback':
late_eval.add(option.dest)
opt_str = option.get_opt_string()
val = option.convert_value(opt_str, val)
# From take_action
args = option.callback_args or ()
kwargs = option.callback_kwargs or {}
option.callback(option, opt_str, val, self, *args, **kwargs)
else:
val = self.check_default(option, key, val)
defaults[option.dest] = val
for key in late_eval:
defaults[key] = getattr(self.values, key)
self.values = None
return defaults
def get_default_values(self):
"""Overriding to make updating the defaults after instantiation of
the option parser possible, _update_defaults() does the dirty work."""
if not self.process_default_values:
# Old, pre-Optik 1.5 behaviour.
return optparse.Values(self.defaults)
# Load the configuration, or error out in case of an error
try:
self.config.load()
except ConfigurationError as err:
self.exit(UNKNOWN_ERROR, str(err))
defaults = self._update_defaults(self.defaults.copy()) # ours
for option in self._get_all_options():
default = defaults.get(option.dest)
if isinstance(default, string_types):
opt_str = option.get_opt_string()
defaults[option.dest] = option.check_value(opt_str, default)
return optparse.Values(defaults)
def error(self, msg):
self.print_usage(sys.stderr)
self.exit(UNKNOWN_ERROR, "%s\n" % msg)
def invalid_config_error_message(action, key, val):
"""Returns a better error message when invalid configuration option
is provided."""
if action in ('store_true', 'store_false'):
return ("{0} is not a valid value for {1} option, "
"please specify a boolean value like yes/no, "
"true/false or 1/0 instead.").format(val, key)
return ("{0} is not a valid value for {1} option, "
"please specify a numerical value like 1/0 "
"instead.").format(val, key)

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from __future__ import absolute_import
SUCCESS = 0
ERROR = 1
UNKNOWN_ERROR = 2
VIRTUALENV_NOT_FOUND = 3
PREVIOUS_BUILD_DIR_ERROR = 4
NO_MATCHES_FOUND = 23

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"""
Package containing all pip commands
"""
from __future__ import absolute_import
from pip._internal.commands.completion import CompletionCommand
from pip._internal.commands.configuration import ConfigurationCommand
from pip._internal.commands.download import DownloadCommand
from pip._internal.commands.freeze import FreezeCommand
from pip._internal.commands.hash import HashCommand
from pip._internal.commands.help import HelpCommand
from pip._internal.commands.list import ListCommand
from pip._internal.commands.check import CheckCommand
from pip._internal.commands.search import SearchCommand
from pip._internal.commands.show import ShowCommand
from pip._internal.commands.install import InstallCommand
from pip._internal.commands.uninstall import UninstallCommand
from pip._internal.commands.wheel import WheelCommand
from pip._internal.utils.typing import MYPY_CHECK_RUNNING
if MYPY_CHECK_RUNNING:
from typing import List, Type # noqa: F401
from pip._internal.cli.base_command import Command # noqa: F401
commands_order = [
InstallCommand,
DownloadCommand,
UninstallCommand,
FreezeCommand,
ListCommand,
ShowCommand,
CheckCommand,
ConfigurationCommand,
SearchCommand,
WheelCommand,
HashCommand,
CompletionCommand,
HelpCommand,
] # type: List[Type[Command]]
commands_dict = {c.name: c for c in commands_order}
def get_summaries(ordered=True):
"""Yields sorted (command name, command summary) tuples."""
if ordered:
cmditems = _sort_commands(commands_dict, commands_order)
else:
cmditems = commands_dict.items()
for name, command_class in cmditems:
yield (name, command_class.summary)
def get_similar_commands(name):
"""Command name auto-correct."""
from difflib import get_close_matches
name = name.lower()
close_commands = get_close_matches(name, commands_dict.keys())
if close_commands:
return close_commands[0]
else:
return False
def _sort_commands(cmddict, order):
def keyfn(key):
try:
return order.index(key[1])
except ValueError:
# unordered items should come last
return 0xff
return sorted(cmddict.items(), key=keyfn)

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