File: //opt/ndn-procwatch4/lib64/python3.8/site-packages/cement/utils/shell.py
"""Common Shell Utilities."""
import os
from subprocess import Popen, PIPE
from multiprocessing import Process
from threading import Thread
from ..core.meta import MetaMixin
from ..core.exc import FrameworkError
def cmd(command, capture=True, *args, **kwargs):
"""
Wrapper around ``exec_cmd`` and ``exec_cmd2`` depending on whether
capturing output is desired. Defaults to setting the Popen ``shell``
keyword argument to ``True`` (string command rather than list of command
and arguments).
Arguments:
command (str): The command (and arguments) to run.
capture (bool): Whether or not to capture output.
Other Parameters:
args: Additional arguments are passed to ``Popen()``.
kwargs: Additional keyword arguments are passed to ``Popen()``.
Returns:
tuple: When ``capture==True``, returns the ``(stdout, stderror,
return_code)`` of the command.
int: When ``capture==False``, returns only the ``exitcode`` of the
command.
Example:
.. code-block:: python
from cement.utils import shell
# execute a command and capture output
stdout, stderr, exitcode = shell.cmd('echo helloworld')
# execute a command but do not capture output
exitcode = shell.cmd('echo helloworld', capture=False)
"""
kwargs['shell'] = kwargs.get('shell', True)
if capture is True:
return exec_cmd(command, *args, **kwargs)
else:
return exec_cmd2(command, *args, **kwargs)
def exec_cmd(cmd_args, *args, **kwargs):
"""
Execute a shell call using Subprocess. All additional ``*args`` and
``**kwargs`` are passed directly to ``subprocess.Popen``. See
`Subprocess
<http://docs.python.org/library/subprocess.html>`_ for more information
on the features of ``Popen()``.
Args:
cmd_args (list): List of command line arguments.
Other Parameters:
args: Additional arguments are passed to ``Popen()``.
kwargs: Additional keyword arguments are passed to ``Popen()``.
Returns:
tuple: The ``(stdout, stderror, return_code)`` of the command.
Example:
.. code-block:: python
from cement.utils import shell
stdout, stderr, exitcode = shell.exec_cmd(['echo', 'helloworld'])
"""
if 'stdout' not in kwargs.keys():
kwargs['stdout'] = PIPE
if 'stderr' not in kwargs.keys():
kwargs['stderr'] = PIPE
proc = Popen(cmd_args, *args, **kwargs)
(stdout, stderr) = proc.communicate()
proc.wait()
return (stdout, stderr, proc.returncode)
def exec_cmd2(cmd_args, *args, **kwargs):
"""
Similar to ``exec_cmd``, however does not capture stdout, stderr (therefore
allowing it to print to console). All additional ``*args`` and
``**kwargs`` are passed directly to ``subprocess.Popen``. See `Subprocess
<http://docs.python.org/library/subprocess.html>`_ for more information
on the features of ``Popen()``.
Args:
cmd_args (list): List of command line arguments
Other Parameters:
args: Additional arguments are passed to ``Popen()``
kwargs: Additional keyword arguments are passed to ``Popen()``
Returns:
int: The integer return code of the command.
Example:
.. code-block:: python
from cement.utils import shell
exitcode = shell.exec_cmd2(['echo', 'helloworld'])
"""
proc = Popen(cmd_args, *args, **kwargs)
proc.wait()
return proc.returncode
def spawn(target, start=True, join=False, thread=False, *args, **kwargs):
"""
Wrapper around ``spawn_process`` and ``spawn_thread`` depending on
desired execution model.
Args:
target (function): The target function to execute in the sub-process.
Keyword Args:
start (bool): Call ``start()`` on the process before returning the
process object.
join (bool): Call ``join()`` on the process before returning the
process object. Only called if ``start == True``.
thread (bool): Whether to spawn as thread instead of process.
Other Parameters:
args: Additional arguments are passed to ``Process()``
kwargs: Additional keyword arguments are passed to ``Process()``.
Returns:
object: The process object returned by Process().
Example:
.. code-block:: python
from cement.utils import shell
def add(a, b):
print(a + b)
p = shell.spawn(add, args=(12, 27))
p.join()
"""
if thread is True:
return spawn_thread(target, start, join, *args, **kwargs)
else:
return spawn_process(target, start, join, *args, **kwargs)
def spawn_process(target, start=True, join=False, *args, **kwargs):
"""
A quick wrapper around ``multiprocessing.Process()``. By default the
``start()`` function will be called before the spawned process object is
returned. See `MultiProcessing
<https://docs.python.org/3/library/multiprocessing.html>`_ for more
information on the features of ``Process()``.
Args:
target (function): The target function to execute in the sub-process.
Keyword Args:
start (bool): Call ``start()`` on the process before returning the
process object.
join (bool): Call ``join()`` on the process before returning the
process object. Only called if ``start == True``.
Other Parameters:
args: Additional arguments are passed to ``Process()``
kwargs: Additional keyword arguments are passed to ``Process()``.
Returns:
object: The process object returned by Process().
Example:
.. code-block:: python
from cement.utils import shell
def add(a, b):
print(a + b)
p = shell.spawn_process(add, args=(12, 27))
p.join()
"""
proc = Process(target=target, *args, **kwargs)
if start and not join:
proc.start()
elif start and join:
proc.start()
proc.join()
return proc
def spawn_thread(target, start=True, join=False, *args, **kwargs):
"""
A quick wrapper around ``threading.Thread()``. By default the ``start()``
function will be called before the spawned thread object is returned
See `Threading
<https://docs.python.org/3/library/threading.html>`_ for more
information on the features of ``Thread()``.
Args:
target (function): The target function to execute in the thread.
Keyword Args:
start (bool): Call ``start()`` on the thread before returning the
thread object.
join (bool): Call ``join()`` on the thread before returning the thread
object. Only called if ``start == True``.
Other Parameters:
args: Additional arguments are passed to ``Thread()``.
kwargs: Additional keyword arguments are passed to ``Thread()``.
Returns:
object: The thread object returned by ``Thread()``.
Example:
.. code-block:: python
from cement.utils import shell
def add(a, b):
print(a + b)
t = shell.spawn_thread(add, args=(12, 27))
t.join()
"""
thr = Thread(target=target, *args, **kwargs)
if start and not join:
thr.start()
elif start and join:
thr.start()
thr.join()
return thr
class Prompt(MetaMixin):
"""
A wrapper around ``input`` whose purpose is to limit the redundent tasks of
gather usr input. Can be used in several ways depending on the use case
(simple input, options, and numbered selection).
Args:
text (str): The text displayed at the input prompt.
Example:
Simple prompt to halt operations and wait for user to hit enter:
.. code-block:: python
p = shell.Prompt("Press Enter To Continue", default='ENTER')
.. code-block:: text
$ python myapp.py
Press Enter To Continue
$
Provide a numbered list for longer selections:
.. code-block:: python
p = Prompt("Where do you live?",
options=[
'San Antonio, TX',
'Austin, TX',
'Dallas, TX',
'Houston, TX',
],
numbered = True,
)
.. code-block:: text
Where do you live?
1: San Antonio, TX
2: Austin, TX
3: Dallas, TX
4: Houston, TX
Enter the number for your selection:
Create a more complex prompt, and process the input from the user:
.. code-block:: python
class MyPrompt(Prompt):
class Meta:
text = "Do you agree to the terms?"
options = ['Yes', 'no', 'maybe-so']
options_separator = '|'
default = 'no'
clear = True
max_attempts = 99
def process_input(self):
if self.input.lower() == 'yes':
# do something crazy
pass
else:
# don't do anything... maybe exit?
print("User doesn't agree! I'm outa here")
sys.exit(1)
MyPrompt()
.. code-block:: text
$ python myapp.py
[TERMINAL CLEAR]
Do you agree to the terms? [Yes|no|maybe-so] no
User doesn't agree! I'm outa here
$ echo $?
$ 1
"""
class Meta:
"""
Optional meta-data (can also be passed as keyword arguments to the
parent class).
"""
#: The text that is displayed to prompt the user
text = "Tell me someting interesting:"
#: A default value to use if the user doesn't provide any input
default = None
#: Options to provide to the user. If set, the input must match one
#: of the items in the options selection.
options = None
#: Separator to use within the option selection (non-numbered)
options_separator = ','
#: Display options in a numbered list, where the user can enter a
#: number. Useful for long selections.
numbered = False
#: The text to display along with the numbered selection for user
#: input.
selection_text = "Enter the number for your selection:"
#: Whether or not to automatically prompt() the user once the class
#: is instantiated.
auto = True
#: Whether to treat user input as case insensitive (only used to
#: compare user input with available options).
case_insensitive = True
#: Whether or not to clear the terminal when prompting the user.
clear = False
#: Command to issue when clearing the terminal.
clear_command = 'clear'
#: Max attempts to get proper input from the user before giving up.
max_attempts = 10
#: Raise an exception when max_attempts is hit? If not, Prompt
#: passes the input through as `None`.
max_attempts_exception = True
def __init__(self, text=None, *args, **kw):
if text is not None:
kw['text'] = text
super(Prompt, self).__init__(*args, **kw)
self.input = None
if self._meta.auto:
self.prompt()
def _prompt(self):
if self._meta.clear:
os.system(self._meta.clear_command)
text = ""
if self._meta.options is not None:
if self._meta.numbered is True:
text = text + self._meta.text + "\n\n"
count = 1
for option in self._meta.options:
text = text + "%s: %s\n" % (count, option)
count += 1
text = text + "\n"
text = text + self._meta.selection_text
else:
sep = self._meta.options_separator
text = "%s [%s]" % (self._meta.text,
sep.join(self._meta.options))
else:
text = self._meta.text
self.input = input("%s " % text)
if self.input == '' and self._meta.default is not None:
self.input = self._meta.default
elif self.input == '':
self.input = None
def prompt(self):
"""
Prompt the user, and store their input as ``self.input``.
"""
attempt = 0
while self.input is None:
if attempt >= int(self._meta.max_attempts):
if self._meta.max_attempts_exception is True:
raise FrameworkError("Maximum attempts exceeded getting "
"valid user input")
else:
return self.input
attempt += 1
self._prompt()
if self.input is None:
continue
elif self._meta.options is not None:
if self._meta.numbered:
try:
self.input = self._meta.options[int(self.input) - 1]
except (IndexError, ValueError):
self.input = None
continue
else:
if self._meta.case_insensitive is True:
lower_options = [x.lower()
for x in self._meta.options]
if not self.input.lower() in lower_options:
self.input = None
continue
else:
if self.input not in self._meta.options:
self.input = None
continue
self.process_input()
return self.input
def process_input(self):
"""
Does not do anything. Is intended to be used in a sub-class to handle
user input after it is prompted.
"""
pass