# Copyright (C) 2006-2007 Robey Pointer # # This file is part of paramiko. # # Paramiko is free software; you can redistribute it and/or modify it under the # terms of the GNU Lesser General Public License as published by the Free # Software Foundation; either version 2.1 of the License, or (at your option) # any later version. # # Paramiko is distributed in the hope that it will be useful, but WITHOUT ANY # WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR # A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more # details. # # You should have received a copy of the GNU Lesser General Public License # along with Paramiko; if not, write to the Free Software Foundation, Inc., # 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. """ Attempt to generalize the "feeder" part of a `.Channel`: an object which can be read from and closed, but is reading from a buffer fed by another thread. The read operations are blocking and can have a timeout set. """ import array import threading import time from paramiko.py3compat import PY2, b class PipeTimeout(IOError): """ Indicates that a timeout was reached on a read from a `.BufferedPipe`. """ pass class BufferedPipe(object): """ A buffer that obeys normal read (with timeout) & close semantics for a file or socket, but is fed data from another thread. This is used by `.Channel`. """ def __init__(self): self._lock = threading.Lock() self._cv = threading.Condition(self._lock) self._event = None self._buffer = array.array("B") self._closed = False if PY2: def _buffer_frombytes(self, data): self._buffer.fromstring(data) def _buffer_tobytes(self, limit=None): return self._buffer[:limit].tostring() else: def _buffer_frombytes(self, data): self._buffer.frombytes(data) def _buffer_tobytes(self, limit=None): return self._buffer[:limit].tobytes() def set_event(self, event): """ Set an event on this buffer. When data is ready to be read (or the buffer has been closed), the event will be set. When no data is ready, the event will be cleared. :param threading.Event event: the event to set/clear """ self._lock.acquire() try: self._event = event # Make sure the event starts in `set` state if we appear to already # be closed; otherwise, if we start in `clear` state & are closed, # nothing will ever call `.feed` and the event (& OS pipe, if we're # wrapping one - see `Channel.fileno`) will permanently stay in # `clear`, causing deadlock if e.g. `select`ed upon. if self._closed or len(self._buffer) > 0: event.set() else: event.clear() finally: self._lock.release() def feed(self, data): """ Feed new data into this pipe. This method is assumed to be called from a separate thread, so synchronization is done. :param data: the data to add, as a ``str`` or ``bytes`` """ self._lock.acquire() try: if self._event is not None: self._event.set() self._buffer_frombytes(b(data)) self._cv.notify_all() finally: self._lock.release() def read_ready(self): """ Returns true if data is buffered and ready to be read from this feeder. A ``False`` result does not mean that the feeder has closed; it means you may need to wait before more data arrives. :return: ``True`` if a `read` call would immediately return at least one byte; ``False`` otherwise. """ self._lock.acquire() try: if len(self._buffer) == 0: return False return True finally: self._lock.release() def read(self, nbytes, timeout=None): """ Read data from the pipe. The return value is a string representing the data received. The maximum amount of data to be received at once is specified by ``nbytes``. If a string of length zero is returned, the pipe has been closed. The optional ``timeout`` argument can be a nonnegative float expressing seconds, or ``None`` for no timeout. If a float is given, a `.PipeTimeout` will be raised if the timeout period value has elapsed before any data arrives. :param int nbytes: maximum number of bytes to read :param float timeout: maximum seconds to wait (or ``None``, the default, to wait forever) :return: the read data, as a ``str`` or ``bytes`` :raises: `.PipeTimeout` -- if a timeout was specified and no data was ready before that timeout """ out = bytes() self._lock.acquire() try: if len(self._buffer) == 0: if self._closed: return out # should we block? if timeout == 0.0: raise PipeTimeout() # loop here in case we get woken up but a different thread has # grabbed everything in the buffer. while (len(self._buffer) == 0) and not self._closed: then = time.time() self._cv.wait(timeout) if timeout is not None: timeout -= time.time() - then if timeout <= 0.0: raise PipeTimeout() # something's in the buffer and we have the lock! if len(self._buffer) <= nbytes: out = self._buffer_tobytes() del self._buffer[:] if (self._event is not None) and not self._closed: self._event.clear() else: out = self._buffer_tobytes(nbytes) del self._buffer[:nbytes] finally: self._lock.release() return out def empty(self): """ Clear out the buffer and return all data that was in it. :return: any data that was in the buffer prior to clearing it out, as a `str` """ self._lock.acquire() try: out = self._buffer_tobytes() del self._buffer[:] if (self._event is not None) and not self._closed: self._event.clear() return out finally: self._lock.release() def close(self): """ Close this pipe object. Future calls to `read` after the buffer has been emptied will return immediately with an empty string. """ self._lock.acquire() try: self._closed = True self._cv.notify_all() if self._event is not None: self._event.set() finally: self._lock.release() def __len__(self): """ Return the number of bytes buffered. :return: number (`int`) of bytes buffered """ self._lock.acquire() try: return len(self._buffer) finally: self._lock.release()