ambari-common/src/main/python/ambari_ws4py/manager.py - ambari - Git at Google

 # -*- coding: utf-8 -*-
 __doc__ = """
 The manager module provides a selected classes to
 handle websocket's execution.

 Initially the rationale was to:

 - Externalize the way the CherryPy server had been setup
   as its websocket management was too tightly coupled with
   the plugin implementation.
 - Offer a management that could be used by other
   server or client implementations.
 - Move away from the threaded model to the event-based
   model by relying on `select` or `epoll` (when available).


 A simple usage for handling websocket clients:

 .. code-block:: python

     from ambari_ws4py.client import WebSocketBaseClient
     from ambari_ws4py.manager import WebSocketManager

     m = WebSocketManager()

     class EchoClient(WebSocketBaseClient):
         def handshake_ok(self):
             m.add(self)  # register the client once the handshake is done

         def received_message(self, msg):
             print str(msg)

     m.start()

     client = EchoClient('ws://localhost:9000/ws')
     client.connect()

     m.join()  # blocks forever

 Managers are not compulsory but hopefully will help your
 workflow. For clients, you can still rely on threaded, gevent or
 tornado based implementations of course.
 """
 import logging
 import select
 import threading
 import time

 from ambari_ws4py import format_addresses
 from ambari_ws4py.compat import py3k

 logger = logging.getLogger('ambari_ws4py')

 class SelectPoller(object):
     def __init__(self, timeout=0.1):
         """
         A socket poller that uses the `select`
         implementation to determines which
         file descriptors have data available to read.

         It is available on all platforms.
         """
         self._fds = []
         self.timeout = timeout

     def release(self):
         """
         Cleanup resources.
         """
         self._fds = []

     def register(self, fd):
         """
         Register a new file descriptor to be
         part of the select polling next time around.
         """
         if fd not in self._fds:
             self._fds.append(fd)

     def unregister(self, fd):
         """
         Unregister the given file descriptor.
         """
         if fd in self._fds:
             self._fds.remove(fd)

     def poll(self):
         """
         Polls once and returns a list of
         ready-to-be-read file descriptors.
         """
         if not self._fds:
             time.sleep(self.timeout)
             return []
         try:
             r, w, x = select.select(self._fds, [], [], self.timeout)
         except IOError as e:
             return []
         return r

 class EPollPoller(object):
     def __init__(self, timeout=0.1):
         """
         An epoll poller that uses the ``epoll``
         implementation to determines which
         file descriptors have data available to read.

         Available on Unix flavors mostly.
         """
         self.poller = select.epoll()
         self.timeout = timeout

     def release(self):
         """
         Cleanup resources.
         """
         self.poller.close()

     def register(self, fd):
         """
         Register a new file descriptor to be
         part of the select polling next time around.
         """
         try:
             self.poller.register(fd, select.EPOLLIN | select.EPOLLPRI)
         except IOError:
             pass

     def unregister(self, fd):
         """
         Unregister the given file descriptor.
         """
         self.poller.unregister(fd)

     def poll(self):
         """
         Polls once and yields each ready-to-be-read
         file-descriptor
         """
         try:
             events = self.poller.poll(timeout=self.timeout)
         except IOError:
             events = []

         for fd, event in events:
             if event | select.EPOLLIN | select.EPOLLPRI:
                 yield fd

 class KQueuePoller(object):
     def __init__(self, timeout=0.1):
         """
         An epoll poller that uses the ``epoll``
         implementation to determines which
         file descriptors have data available to read.

         Available on Unix flavors mostly.
         """
         self.poller = select.epoll()
         self.timeout = timeout

     def release(self):
         """
         Cleanup resources.
         """
         self.poller.close()

     def register(self, fd):
         """
         Register a new file descriptor to be
         part of the select polling next time around.
         """
         try:
             self.poller.register(fd, select.EPOLLIN | select.EPOLLPRI)
         except IOError:
             pass

     def unregister(self, fd):
         """
         Unregister the given file descriptor.
         """
         self.poller.unregister(fd)

     def poll(self):
         """
         Polls once and yields each ready-to-be-read
         file-descriptor
         """
         try:
             events = self.poller.poll(timeout=self.timeout)
         except IOError:
             events = []
         for fd, event in events:
             if event | select.EPOLLIN | select.EPOLLPRI:
                 yield fd

 class WebSocketManager(threading.Thread):
     def __init__(self, poller=None):
         """
         An event-based websocket manager. By event-based, we mean
         that the websockets will be called when their
         sockets have data to be read from.

         The manager itself runs in its own thread as not to
         be the blocking mainloop of your application.

         The poller's implementation is automatically chosen
         with ``epoll`` if available else ``select`` unless you
         provide your own ``poller``.
         """
         threading.Thread.__init__(self)
         self.name = "WebSocketManager"
         self.lock = threading.Lock()
         self.websockets = {}
         self.running = False

         if poller:
             self.poller = poller
         else:
             if hasattr(select, "epoll"):
                 self.poller = EPollPoller()
                 logger.info("Using epoll")
             else:
                 self.poller = SelectPoller()
                 logger.info("Using select as epoll is not available")

     def __len__(self):
         return len(self.websockets)

     def __iter__(self):
         if py3k:
             return iter(self.websockets.values())
         else:
             return self.websockets.itervalues()

     def __contains__(self, ws):
         fd = ws.sock.fileno()
         # just in case the file descriptor was reused
         # we actually check the instance (well, this might
         # also have been reused...)
         return self.websockets.get(fd) is ws

     def add(self, websocket):
         """
         Manage a new websocket.

         First calls its :meth:`opened() <ws4py.websocket.WebSocket.opened>`
         method and register its socket against the poller
         for reading events.
         """
         if websocket in self:
             return

         logger.info("Managing websocket %s" % format_addresses(websocket))
         websocket.opened()
         with self.lock:
             fd = websocket.sock.fileno()
             self.websockets[fd] = websocket
             self.poller.register(fd)

     def remove(self, websocket):
         """
         Remove the given ``websocket`` from the manager.

         This does not call its :meth:`closed() <ws4py.websocket.WebSocket.closed>`
         method as it's out-of-band by your application
         or from within the manager's run loop.
         """
         if websocket not in self:
             return

         logger.info("Removing websocket %s" % format_addresses(websocket))
         with self.lock:
             fd = websocket.sock.fileno()
             self.websockets.pop(fd, None)
             self.poller.unregister(fd)

     def stop(self):
         """
         Mark the manager as terminated and
         releases its resources.
         """
         self.running = False
         with self.lock:
             self.websockets.clear()
             self.poller.release()

     def run(self):
         """
         Manager's mainloop executed from within a thread.

         Constantly poll for read events and, when available,
         call related websockets' `once` method to
         read and process the incoming data.

         If the :meth:`once() <ws4py.websocket.WebSocket.once>`
         method returns a `False` value, its :meth:`terminate() <ws4py.websocket.WebSocket.terminate>`
         method is also applied to properly close
         the websocket and its socket is unregistered from the poller.

         Note that websocket shouldn't take long to process
         their data or they will block the remaining
         websockets with data to be handled. As for what long means,
         it's up to your requirements.
         """
         self.running = True
         while self.running:
             with self.lock:
                 polled = self.poller.poll()
             if not self.running:
                 break

             for fd in polled:
                 if not self.running:
                     break

                 ws = self.websockets.get(fd)
                 if ws and not ws.terminated:
                     # I don't know what kind of errors might spew out of here
                     # but they probably shouldn't crash the entire server.
                     try:
                         x = ws.once()
                     # Treat the error as if once() had returned None
                     except Exception as e:
                         x = None
                         logger.error("Terminating websocket %s due to exception: %s in once method" % (format_addresses(ws), repr(e)) )
                     if not x:
                         with self.lock:
                             self.websockets.pop(fd, None)
                             self.poller.unregister(fd)

                         if not ws.terminated:
                             logger.info("Terminating websocket %s" % format_addresses(ws))
                             ws.terminate()


     def close_all(self, code=1001, message='Server is shutting down'):
         """
         Execute the :meth:`close() <ws4py.websocket.WebSocket.close>`
         method of each registered websockets to initiate the closing handshake.
         It doesn't wait for the handshake to complete properly.
         """
         with self.lock:
             logger.info("Closing all websockets with [%d] '%s'" % (code, message))
             for ws in iter(self):
                 ws.close(code=code, reason=message)

     def broadcast(self, message, binary=False):
         """
         Broadcasts the given message to all registered
         websockets, at the time of the call.

         Broadcast may fail on a given registered peer
         but this is silent as it's not the method's
         purpose to handle websocket's failures.
         """
         with self.lock:
             websockets = self.websockets.copy()
             if py3k:
                 ws_iter = iter(websockets.values())
             else:
                 ws_iter = websockets.itervalues()

         for ws in ws_iter:
             if not ws.terminated:
                 try:
                     ws.send(message, binary)
                 except:
                     pass
	# -- coding: utf-8 --
	__doc__ = """
	The manager module provides a selected classes to
	handle websocket's execution.

	Initially the rationale was to:

	- Externalize the way the CherryPy server had been setup
	as its websocket management was too tightly coupled with
	the plugin implementation.
	- Offer a management that could be used by other
	server or client implementations.
	- Move away from the threaded model to the event-based
	model by relying on `select` or `epoll` (when available).


	A simple usage for handling websocket clients:

	.. code-block:: python

	from ambari_ws4py.client import WebSocketBaseClient
	from ambari_ws4py.manager import WebSocketManager

	m = WebSocketManager()

	class EchoClient(WebSocketBaseClient):
	def handshake_ok(self):
	m.add(self) # register the client once the handshake is done

	def received_message(self, msg):
	print str(msg)

	m.start()

	client = EchoClient('ws://localhost:9000/ws')
	client.connect()

	m.join() # blocks forever

	Managers are not compulsory but hopefully will help your
	workflow. For clients, you can still rely on threaded, gevent or
	tornado based implementations of course.
	"""
	import logging
	import select
	import threading
	import time

	from ambari_ws4py import format_addresses
	from ambari_ws4py.compat import py3k

	logger = logging.getLogger('ambari_ws4py')

	class SelectPoller(object):
	def __init__(self, timeout=0.1):
	"""
	A socket poller that uses the `select`
	implementation to determines which
	file descriptors have data available to read.

	It is available on all platforms.
	"""
	self._fds = []
	self.timeout = timeout

	def release(self):
	"""
	Cleanup resources.
	"""
	self._fds = []

	def register(self, fd):
	"""
	Register a new file descriptor to be
	part of the select polling next time around.
	"""
	if fd not in self._fds:
	self._fds.append(fd)

	def unregister(self, fd):
	"""
	Unregister the given file descriptor.
	"""
	if fd in self._fds:
	self._fds.remove(fd)

	def poll(self):
	"""
	Polls once and returns a list of
	ready-to-be-read file descriptors.
	"""
	if not self._fds:
	time.sleep(self.timeout)
	return []
	try:
	r, w, x = select.select(self._fds, [], [], self.timeout)
	except IOError as e:
	return []
	return r

	class EPollPoller(object):
	def __init__(self, timeout=0.1):
	"""
	An epoll poller that uses the ``epoll``
	implementation to determines which
	file descriptors have data available to read.

	Available on Unix flavors mostly.
	"""
	self.poller = select.epoll()
	self.timeout = timeout

	def release(self):
	"""
	Cleanup resources.
	"""
	self.poller.close()

	def register(self, fd):
	"""
	Register a new file descriptor to be
	part of the select polling next time around.
	"""
	try:
	self.poller.register(fd, select.EPOLLIN \| select.EPOLLPRI)
	except IOError:
	pass

	def unregister(self, fd):
	"""
	Unregister the given file descriptor.
	"""
	self.poller.unregister(fd)

	def poll(self):
	"""
	Polls once and yields each ready-to-be-read
	file-descriptor
	"""
	try:
	events = self.poller.poll(timeout=self.timeout)
	except IOError:
	events = []

	for fd, event in events:
	if event \| select.EPOLLIN \| select.EPOLLPRI:
	yield fd

	class KQueuePoller(object):
	def __init__(self, timeout=0.1):
	"""
	An epoll poller that uses the ``epoll``
	implementation to determines which
	file descriptors have data available to read.

	Available on Unix flavors mostly.
	"""
	self.poller = select.epoll()
	self.timeout = timeout

	def release(self):
	"""
	Cleanup resources.
	"""
	self.poller.close()

	def register(self, fd):
	"""
	Register a new file descriptor to be
	part of the select polling next time around.
	"""
	try:
	self.poller.register(fd, select.EPOLLIN \| select.EPOLLPRI)
	except IOError:
	pass

	def unregister(self, fd):
	"""
	Unregister the given file descriptor.
	"""
	self.poller.unregister(fd)

	def poll(self):
	"""
	Polls once and yields each ready-to-be-read
	file-descriptor
	"""
	try:
	events = self.poller.poll(timeout=self.timeout)
	except IOError:
	events = []
	for fd, event in events:
	if event \| select.EPOLLIN \| select.EPOLLPRI:
	yield fd

	class WebSocketManager(threading.Thread):
	def __init__(self, poller=None):
	"""
	An event-based websocket manager. By event-based, we mean
	that the websockets will be called when their
	sockets have data to be read from.

	The manager itself runs in its own thread as not to
	be the blocking mainloop of your application.

	The poller's implementation is automatically chosen
	with ``epoll`` if available else ``select`` unless you
	provide your own ``poller``.
	"""
	threading.Thread.__init__(self)
	self.name = "WebSocketManager"
	self.lock = threading.Lock()
	self.websockets = {}
	self.running = False

	if poller:
	self.poller = poller
	else:
	if hasattr(select, "epoll"):
	self.poller = EPollPoller()
	logger.info("Using epoll")
	else:
	self.poller = SelectPoller()
	logger.info("Using select as epoll is not available")

	def __len__(self):
	return len(self.websockets)

	def __iter__(self):
	if py3k:
	return iter(self.websockets.values())
	else:
	return self.websockets.itervalues()

	def __contains__(self, ws):
	fd = ws.sock.fileno()
	# just in case the file descriptor was reused
	# we actually check the instance (well, this might
	# also have been reused...)
	return self.websockets.get(fd) is ws

	def add(self, websocket):
	"""
	Manage a new websocket.

	First calls its :meth:`opened() <ws4py.websocket.WebSocket.opened>`
	method and register its socket against the poller
	for reading events.
	"""
	if websocket in self:
	return

	logger.info("Managing websocket %s" % format_addresses(websocket))
	websocket.opened()
	with self.lock:
	fd = websocket.sock.fileno()
	self.websockets[fd] = websocket
	self.poller.register(fd)

	def remove(self, websocket):
	"""
	Remove the given ``websocket`` from the manager.

	This does not call its :meth:`closed() <ws4py.websocket.WebSocket.closed>`
	method as it's out-of-band by your application
	or from within the manager's run loop.
	"""
	if websocket not in self:
	return

	logger.info("Removing websocket %s" % format_addresses(websocket))
	with self.lock:
	fd = websocket.sock.fileno()
	self.websockets.pop(fd, None)
	self.poller.unregister(fd)

	def stop(self):
	"""
	Mark the manager as terminated and
	releases its resources.
	"""
	self.running = False
	with self.lock:
	self.websockets.clear()
	self.poller.release()

	def run(self):
	"""
	Manager's mainloop executed from within a thread.

	Constantly poll for read events and, when available,
	call related websockets' `once` method to
	read and process the incoming data.

	If the :meth:`once() <ws4py.websocket.WebSocket.once>`
	method returns a `False` value, its :meth:`terminate() <ws4py.websocket.WebSocket.terminate>`
	method is also applied to properly close
	the websocket and its socket is unregistered from the poller.

	Note that websocket shouldn't take long to process
	their data or they will block the remaining
	websockets with data to be handled. As for what long means,
	it's up to your requirements.
	"""
	self.running = True
	while self.running:
	with self.lock:
	polled = self.poller.poll()
	if not self.running:
	break

	for fd in polled:
	if not self.running:
	break

	ws = self.websockets.get(fd)
	if ws and not ws.terminated:
	# I don't know what kind of errors might spew out of here
	# but they probably shouldn't crash the entire server.
	try:
	x = ws.once()
	# Treat the error as if once() had returned None
	except Exception as e:
	x = None
	logger.error("Terminating websocket %s due to exception: %s in once method" % (format_addresses(ws), repr(e)) )
	if not x:
	with self.lock:
	self.websockets.pop(fd, None)
	self.poller.unregister(fd)

	if not ws.terminated:
	logger.info("Terminating websocket %s" % format_addresses(ws))
	ws.terminate()


	def close_all(self, code=1001, message='Server is shutting down'):
	"""
	Execute the :meth:`close() <ws4py.websocket.WebSocket.close>`
	method of each registered websockets to initiate the closing handshake.
	It doesn't wait for the handshake to complete properly.
	"""
	with self.lock:
	logger.info("Closing all websockets with [%d] '%s'" % (code, message))
	for ws in iter(self):
	ws.close(code=code, reason=message)

	def broadcast(self, message, binary=False):
	"""
	Broadcasts the given message to all registered
	websockets, at the time of the call.

	Broadcast may fail on a given registered peer
	but this is silent as it's not the method's
	purpose to handle websocket's failures.
	"""
	with self.lock:
	websockets = self.websockets.copy()
	if py3k:
	ws_iter = iter(websockets.values())
	else:
	ws_iter = websockets.itervalues()

	for ws in ws_iter:
	if not ws.terminated:
	try:
	ws.send(message, binary)
	except:
	pass