SolarFM/plugins/git_clone/pexpect/popen_spawn.py

"""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()
Added Singleton class to inherit as needed 2023-03-28 01:07:17 +00:00			`"""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()`